diff options
author | Karl Berry <karl@freefriends.org> | 2007-08-24 18:37:22 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2007-08-24 18:37:22 +0000 |
commit | b7edbe05e19bc98b914e35d67cc6ac17c6490bbd (patch) | |
tree | 7b6f70ae65702966157e4e57febe77f3d87bef69 /Master/texmf-dist/source/latex/fmtcount | |
parent | c97f5f7b9e9ce228ddb7f2895fdb6019f2a71753 (diff) |
fmtcount 1.3 (21aug07)
git-svn-id: svn://tug.org/texlive/trunk@4800 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/source/latex/fmtcount')
-rw-r--r-- | Master/texmf-dist/source/latex/fmtcount/fmtcount.dtx | 8524 | ||||
-rw-r--r-- | Master/texmf-dist/source/latex/fmtcount/fmtcount.ins | 48 |
2 files changed, 8572 insertions, 0 deletions
diff --git a/Master/texmf-dist/source/latex/fmtcount/fmtcount.dtx b/Master/texmf-dist/source/latex/fmtcount/fmtcount.dtx new file mode 100644 index 00000000000..2bb59106fea --- /dev/null +++ b/Master/texmf-dist/source/latex/fmtcount/fmtcount.dtx @@ -0,0 +1,8524 @@ +%\iffalse +% fmtcount.dtx generated using makedtx version 0.94b (c) Nicola Talbot +% Command line args: +% -macrocode "fmtcount.perl" +% -setambles "fmtcount.perl=>\nopreamble\nopostamble" +% -comment "fmtcount.perl" +% -src "(.+)\.(def)=>\1.\2" +% -src "(.+)\.(sty)=>\1.\2" +% -src "(fmtcount\.perl)=>\1" +% -doc "manual.tex" +% -author "Nicola Talbot" +% -dir "source" +% fmtcount +% Created on 2007/8/20 12:28 +%\fi +%\iffalse +%<*package> +%% \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 \~} +%</package> +%\fi +% \iffalse +% Doc-Source file to use with LaTeX2e +% Copyright (C) 2007 Nicola Talbot, all rights reserved. +% \fi +% \iffalse +%<*driver> +\documentclass{ltxdoc} + +\usepackage{color} +\usepackage[colorlinks, + bookmarks, + bookmarksopen, + pdfauthor={Nicola L.C. Talbot}, + pdftitle={fmtcount.sty: Displaying the Values of LaTeX Counters}, + pdfkeywords={LaTeX,counter}]{hyperref} + +\definecolor{defbackground}{rgb}{1,1,0.75} +\newsavebox\defsbox +\newlength\defwidth +\newenvironment{definition}{% +\setlength{\fboxsep}{4pt}\setlength{\fboxrule}{1.25pt}% +\begin{lrbox}{\defsbox}% +\setlength\defwidth\linewidth +\addtolength\defwidth{-2\fboxrule}% +\addtolength\defwidth{-2\fboxsep}% +\begin{minipage}{\defwidth}\flushleft +}{% +\end{minipage} +\end{lrbox}% +\vskip10pt +\noindent +\fcolorbox{black}{defbackground}{\usebox\defsbox}% +\vskip10pt +} +\OnlyDescription + + +\newcommand{\sty}[1]{\textsf{#1}}\newcommand{\cls}[1]{\textsf{#1}} +\begin{document} +\DocInput{fmtcount.dtx} +\end{document} +%</driver> +%\fi +%\RecordChanges +%\CheckSum{7745} +% +% \title{fmtcount.sty v1.3: Displaying the Values of +%\LaTeX\ Counters} +% \author{Nicola L.C. Talbot\\[10pt] +% School of Computing Sciences\\ +% University of East Anglia\\ +% Norwich. NR4 7TJ.\\ +% United Kingdom.\\ +% \url{http://theoval.cmp.uea.ac.uk/~nlct/}} +% \date{20 Aug 2007} +% \maketitle +% \tableofcontents +% \section{Introduction} +%The \sty{fmtcount} package provides commands to display +%the values of \LaTeX\ counters in a variety of formats. It also +%provides equivalent commands for actual numbers rather than +%counter names. Limited multilingual support is available. +%Currently, there is only support for English, French (including +%Belgian and Swiss variations), Spanish, Portuguese and German. +% +%\section{Installation} +% +%This package is distributed with the files \texttt{fmtcount.dtx} +%and \texttt{fmtcount.ins}. To extract the code do: +%\begin{verbatim} +%latex fmtcount.ins +%\end{verbatim} +%This will create the files \texttt{fmtcount.sty} and +%\texttt{fmtcount.perl}, along with several \texttt{.def} files. +%Place \texttt{fmtcount.sty} and the \texttt{.def} files somewhere +%where \LaTeX\ will find them (e.g.\ +%\texttt{texmf/tex/latex/fmtcount/}) and place \texttt{fmtcount.perl} +%somewhere where \LaTeX2HTML +%will find it (e.g.\ \texttt{latex2html/styles}). Remember to refresh +%the \TeX\ database (using \texttt{texhash} or \texttt{mktexlsr} +%under Linux, for +%other operating systems check the manual.) +% +%\section{Available Commands} +% +%The commands can be divided into two categories: those that +%take the name of a counter as the argument, and those +%that take a number as the argument. +% +% \DescribeMacro{\ordinal} +%\begin{definition} +%\cs{ordinal}\marg{counter}\oarg{gender} +%\end{definition} +% This will print the value of a \LaTeX\ counter \meta{counter} as an +%ordinal, where the macro +%\DescribeMacro{\fmtord} +%\begin{definition} +%\cs{fmtord}\marg{text} +%\end{definition} +%is used to format the st, nd, rd, th bit. By default the ordinal is +%formatted as a superscript, if the package option \texttt{level} is +%used, it is level with the text. For example, if the current section +%is 3, then \verb"\ordinal{section}" will produce the output: +%3\textsuperscript{rd}. Note that the optional argument \meta{gender} +%occurs \emph{at the end}. This argument may only take one of +%the following values: \texttt{m} (masculine), \texttt{f} +%(feminine) or \texttt{n} (neuter.) If \meta{gender} is omitted, +%or if the given gender has no meaning in the current language, +%\texttt{m} is assumed. +% +%\textbf{Notes:} +%\begin{enumerate} +%\item the \cls{memoir} class also defines a command called +%\cs{ordinal} which takes a number as an argument instead of a +%counter. In order to overcome this incompatiblity, if you want +%to use the \sty{fmtcount} package with the \cls{memoir} class +%you should use \DescribeMacro{\FCordinal}\cs{FCordinal} to access +%\sty{fmtcount}'s version of \cs{ordinal}, and use +%\cs{ordinal} to use \cls{memoir}'s version of that command. +% +%\item As with all commands which have an optional argument as the +%last argument, if the optional argument is omitted, any spaces +%following the final argument will be ignored. Whereas, if the +%optional argument is present, any spaces following the optional +%argument won't be ignored. so \verb"\ordinal{section} !" +%will produce: 3\textsuperscript{rd}! whereas +% \verb"\ordinal{section}[m] !" will produce: +%3\textsuperscript{rd} ! +%\end{enumerate} +% +%\DescribeMacro{\ordinalnum} +%\begin{definition} +%\cs{ordinalnum}\marg{n}\oarg{gender} +%\end{definition} +%This is like \cs{ordinal} but takes an actual number rather than a +%counter as the argument. For example: \verb"\ordinalnum{3}" will +%produce: 3\textsuperscript{rd}. +% +% \DescribeMacro{\numberstring} +%\begin{definition} +%\cs{numberstring}\marg{counter}\oarg{gender} +%\end{definition} +%This will print the value of \meta{counter} as text. E.g.\ +%\verb"\numberstring{section}" will produce: three. The optional +%argument is the same as that for \cs{ordinal}. +% +% \DescribeMacro{\Numberstring} +%\begin{definition} +%\cs{Numberstring}\marg{counter}\oarg{gender} +%\end{definition} +%This does the same as \cs{numberstring}, but with initial letters in +%uppercase. For example, \verb"\Numberstring{section}" will produce: +%Three. +% +%\DescribeMacro{\NUMBERstring} +%\begin{definition} +%\cs{NUMBERstring}\marg{counter}\oarg{gender} +%\end{definition} +%This does the same as \cs{numberstring}, but converts the string to +%upper case. Note that +%\verb"\MakeUppercase{\NUMBERstring{"\meta{counter}\verb'}}' doesn't +%work, due to the way that \cs{MakeUppercase} expands its +%argument\footnote{See all the various postings to +%\texttt{comp.text.tex} about \cs{MakeUppercase}}. +% +%\DescribeMacro{\numberstringnum} +%\begin{definition} +%\cs{numberstringnum}\marg{n}\oarg{gender} +%\end{definition} +%\DescribeMacro{\Numberstringnum} +%\begin{definition} +%\cs{Numberstringnum}\marg{n}\oarg{gender} +%\end{definition} +%\DescribeMacro{\NUMBERstringnum} +%\begin{definition} +%\cs{NUMBERstringnum}\marg{n}\oarg{gender} +%\end{definition} +%Theses macros work like +%\cs{numberstring}, \cs{Numberstring} and \cs{NUMBERstring}, +%respectively, but take an actual number +%rather than a counter as the argument. For example: +%\verb'\Numberstringnum{105}' will produce: One Hundred and Five. +% +% \DescribeMacro{\ordinalstring} +%\begin{definition} +%\cs{ordinalstring}\marg{counter}\oarg{gender} +%\end{definition} +%This will print the value of \meta{counter} as a textual ordinal. +%E.g.\ \verb"\ordinalstring{section}" will produce: third. The +%optional argument is the same as that for \cs{ordinal}. +% +% \DescribeMacro{\Ordinalstring} +%\begin{definition} +%\cs{Ordinalstring}\marg{counter}\oarg{gender} +%\end{definition} +%This does the same as \cs{ordinalstring}, but with initial letters in +%uppercase. For example, \verb"\Ordinalstring{section}" will produce: +%Third. +% +%\DescribeMacro{\ORDINALstring} +%\begin{definition} +%\cs{ORDINALstring}\marg{counter}\oarg{gender} +%\end{definition} +%This does the same as \cs{ordinalstring}, but with all words in upper +%case (see previous note about \cs{MakeUppercase}). +% +%\DescribeMacro{\ordinalstringnum} +%\begin{definition} +%\cs{ordinalstringnum}\marg{n}\oarg{gender} +%\end{definition} +%\DescribeMacro{\Ordinalstringnum} +%\begin{definition} +%\cs{Ordinalstringnum}\marg{n}\oarg{gender} +%\end{definition} +%\DescribeMacro{\ORDINALstringnum} +%\begin{definition} +%\cs{ORDINALstringnum}\marg{n}\oarg{gender} +%\end{definition} +%These macros work like \cs{ordinalstring}, \cs{Ordinalstring} and +%\cs{ORDINALstring}, respectively, but take an actual number rather +%than a counter as the argument. For example, +%\verb"\ordinalstringnum{3}" will produce: third. +% +%\changes{v.1.09}{21 Apr 2007}{store facility added} +%As from version 1.09, textual representations can be stored for +%later use. This overcomes the problems encountered when you +%attempt to use one of the above commands in \cs{edef}. +% +%Each of the following commands takes a label as the first argument, +%the other arguments are as the analogous commands above. These +%commands do not display anything, but store the textual +%representation. This can later be retrieved using +%\DescribeMacro{\FMCuse} +%\begin{definition} +%\cs{FMCuse}\marg{label} +%\end{definition} +%Note: with \cs{storeordinal} and \cs{storeordinalnum}, the +%only bit that doesn't get expanded is \cs{fmtord}. So, for +%example, \verb"\storeordinalnum{mylabel}{3}" will be stored as +%\verb"3\relax \fmtord{rd}". +% +%\DescribeMacro{\storeordinal} +%\begin{definition} +%\cs{storeordinal}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeordinalstring} +%\begin{definition} +%\cs{storeordinalstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeOrdinalstring} +%\begin{definition} +%\cs{storeOrdinalstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\par +%\DescribeMacro{\storeORDINALstring} +%\begin{definition} +%\cs{storeORDINALstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storenumberstring} +%\begin{definition} +%\cs{storenumberstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeNumberstring} +%\begin{definition} +%\cs{storeNumberstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeNUMBERstring} +%\begin{definition} +%\cs{storeNUMBERstring}\marg{label}\marg{counter}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeordinalnum} +%\begin{definition} +%\cs{storeordinalnum}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeordinalstringnum} +%\begin{definition} +%\cs{storeordinalstring}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeOrdinalstringnum} +%\begin{definition} +%\cs{storeOrdinalstringnum}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeORDINALstringnum} +%\begin{definition} +%\cs{storeORDINALstringnum}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storenumberstringnum} +%\begin{definition} +%\cs{storenumberstring}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeNumberstringnum} +%\begin{definition} +%\cs{storeNumberstring}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +%\DescribeMacro{\storeNUMBERstringnum} +%\begin{definition} +%\cs{storeNUMBERstring}\marg{label}\marg{number}\oarg{gender} +%\end{definition} +% +% \DescribeMacro{\binary} +%\changes{v2.4}{25 Sept 2004}{'binary added} +%\begin{definition} +%\cs{binary}\marg{counter} +%\end{definition} +%This will print the +%value of \meta{counter} as a binary number. +%E.g.\ \verb"\binary{section}" will produce: 11. The declaration +%\DescribeMacro{\padzeroes} +%\begin{definition} +%\cs{padzeroes}\oarg{n} +%\end{definition}\noindent +%will ensure numbers are written to \meta{n} digits, padding with +%zeroes if necessary. E.g.\ \verb"\padzeroes[8]\binary{section}" +%will produce: 00000011. The default value for \meta{n} is 17. +% +%\DescribeMacro{\binarynum} +%\begin{definition} +%\cs{binary}\marg{n} +%\end{definition} +%This is like \cs{binary} but takes an actual number rather than a +%counter as the argument. For example: \verb"\binarynum{5}" will +%produce: 101. +% +%\DescribeMacro{\octal} +%\changes{v2.4}{25 Sept 2004}{'octal added} +%\begin{definition} +%\cs{octal}\marg{counter} +%\end{definition} +%This will print the value of \meta{counter} as an octal number. For +%example, if you have a counter called, say \texttt{mycounter}, and +%you set the value to 125, then \verb"\octal{mycounter}" will produce: +%177. Again, the number will be padded with zeroes if necessary, +%depending on whether \cs{padzeroes} has been used. +% +%\DescribeMacro{\octalnum} +%\begin{definition} +%\cs{octalnum}\marg{n} +%\end{definition} +%This is like \cs{octal} but takes an actual number rather than a +%counter as the argument. For example: \verb"\octalnum{125}" will +%produce: 177. +% +% \DescribeMacro{\hexadecimal} +%\changes{v2.4}{25 Sept 2004}{'hexadecimal added} +%\begin{definition} +%\cs{hexadecimal}\marg{counter} +%\end{definition} +%This will print the value of \meta{counter} as a hexadecimal number. +%Going back to the counter used in the previous example, +%\verb"\hexadecimal{mycounter}" will produce: 7d. Again, the number +%will be padded with zeroes if necessary, depending on whether +%\cs{padzeroes} has been used. +% +%\DescribeMacro{\Hexadecimal} +%\begin{definition} +%\cs{Hexadecimal}\marg{counter} +%\end{definition} +%This does the same thing, but uses uppercase characters, e.g.\ +%\verb"\Hexadecimal{mycounter}" will produce: 7D. +% +%\DescribeMacro{\hexadecimalnum} +%\begin{definition} +%\cs{hexadecimalnum}\marg{n} +%\end{definition} +%\DescribeMacro{\Hexadecimalnum} +%\begin{definition} +%\cs{Hexadecimalnum}\marg{n} +%\end{definition} +%These are like \cs{hexadecimal} and \cs{Hexadecimal} +%but take an actual number rather than a counter as the +%argument. For example: \verb"\hexadecimalnum{125}" will +%produce: 7d, and \verb"\Hexadecimalnum{125}" will +%produce: 7D. +% +%\DescribeMacro{\decimal} +%\changes{v2.41}{22 Oct 2004}{'decimal added} +%\begin{definition} +%\cs{decimal}\marg{counter} +%\end{definition} +%This is similar to \cs{arabic} but the number can be padded with +%zeroes depending on whether \cs{padzeroes} has been used. For +%example: \verb"\padzeroes[8]\decimal{section}" will produce: +%00000005. +% +%\DescribeMacro{\decimalnum} +%\begin{definition} +%\cs{decimalnum}\marg{n} +%\end{definition} +%This is like \cs{decimal} but takes an actual number rather than a +%counter as the argument. For example: +%\verb"\padzeroes[8]\decimalnum{5}" will produce: 00000005. +% +% \DescribeMacro{\aaalph} +%\changes{v2.4}{25 Sept 2004}{'aaalph added} +%\begin{definition} +%\cs{aaalph}\marg{counter} +%\end{definition} +%This will print the value of \meta{counter} as: a b \ldots\ z aa bb +%\ldots\ zz etc. For example, \verb"\aaalpha{mycounter}" will +%produce: uuuuu if \texttt{mycounter} is set to 125. +% +%\DescribeMacro{\AAAlph} +%\begin{definition} +%\cs{AAAlph}\marg{counter} +%\end{definition} +%This does the same thing, but uses uppercase characters, e.g.\ +%\verb"\AAAlph{mycounter}" will produce: UUUUU. +% +%\DescribeMacro{\aaalphnum} +%\begin{definition} +%\cs{aaalphnum}\marg{n} +%\end{definition} +%\DescribeMacro{\AAAlphnum} +%\begin{definition} +%\cs{AAAlphnum}\marg{n} +%\end{definition} +%These macros are like \cs{aaalph} and \cs{AAAlph} +%but take an actual number rather than a counter as the +%argument. For example: \verb"\aaalphnum{125}" will +%produce: uuuuu, and \verb"\AAAlphnum{125}" will +%produce: UUUUU. +% +% \DescribeMacro{\abalph} +%\changes{v2.4}{25 Sept 2004}{'abalph added} +%\begin{definition} +%\cs{abalph}\marg{counter} +%\end{definition} +%This will print the value of \meta{counter} as: a b \ldots\ z aa ab +%\ldots\ az etc. For example, \verb"\abalpha{mycounter}" will +%produce: du if \texttt{mycounter} is set to 125. +% +% \DescribeMacro{\ABAlph} +%\begin{definition} +%\cs{ABAlph}\marg{counter} +%\end{definition} +%This does the same thing, but uses uppercase characters, e.g.\ +%\verb"\ABAlph{mycounter}" will produce: DU. +% +%\DescribeMacro{\abalphnum} +%\begin{definition} +%\cs{abalphnum}\marg{n} +%\end{definition} +%\DescribeMacro{\ABAlphnum} +%\begin{definition} +%\cs{ABAlphnum}\marg{n} +%\end{definition} +%These macros are like \cs{abalph} and \cs{ABAlph} +%but take an actual number rather than a counter as the +%argument. For example: \verb"\abalphnum{125}" will +%produce: du, and \verb"\ABAlphnum{125}" will +%produce: DU. +% +%\section{Package Options} +% +%The following options can be passed to this package: +% +%\begin{tabular}{ll} +% raise & make ordinal st,nd,rd,th appear as superscript\\ +% level & make ordinal st,nd,rd,th appear level with rest of +%text +%\end{tabular} +% +%\noindent These can also be set using the command: +% +%\DescribeMacro{\fmtcountsetoptions} +%\begin{definition} +%\cs{fmtcountsetoptions}\verb"{fmtord="\meta{type}\verb'}' +%\end{definition} +%\noindent where \meta{type} is either \texttt{level} or +%\texttt{raise}. +% +%\section{Multilingual Support} +% +%Version 1.02 of the \sty{fmtcount} package now has +%limited multilingual support. The following languages are +%implemented: English, Spanish, Portuguese, French, French (Swiss) +%and French (Belgian). German support was added in version +%1.1\footnote{Thanks to K. H. Fricke for supplying the information}. +% +%The package checks to see if the command \cs{l@}\meta{language} is +%defined\footnote{this will be true if you have loaded \sty{babel}}, +%and will load the code for those languages. The commands +%\cs{ordinal}, \cs{ordinalstring} and \cs{numberstring} (and their +%variants) will then be formatted in the currently selected language. +% +%If the French language is selected, the French (France) version +%will be used by default (e.g.\ soxiante-dix for 70). To +%select the Swiss or Belgian variants (e.g.\ septente for 70) use: +%\verb"\fmtcountsetoptions{french="\meta{dialect}\verb'}' +%where \meta{dialect} is either \texttt{swiss} or \texttt{belgian}. +%You can also use this command to change the action of +%\cs{ordinal}. +%\verb"\fmtcountsetoptions{abbrv=true}" to produce ordinals +%of the form 2\textsuperscript{e} or +%\verb"\fmtcountsetoptions{abbrv=false}" to produce ordinals +%of the form 2\textsuperscript{eme} (default). +% +%The \texttt{french} and \texttt{abbrv} settings only have an +%effect if the French language has been defined. +% +%The male gender for all languages is used by default, however the +%feminine or neuter forms can be obtained by passing \texttt{f} or +%\texttt{n} as an optional argument to \cs{ordinal}, +%\cs{ordinalnum} etc. For example: +%\verb"\numberstring{section}[f]". Note that the optional argument +%comes \emph{after} the compulsory argument. If a gender is +%not defined in a given language, the masculine version will +%be used instead. +% +%Let me know if you find any spelling mistakes (has been known +%to happen in English, let alone other languages with which I'm not so +%familiar.) If you want to add support for another language, +%you will need to let me know how to form the numbers and ordinals +%from~0 to~99999 in that language for each gender. +% +%\section{Configuration File \texttt{fmtcount.cfg}} +% +%You can save your preferred default settings to a file called +%\texttt{fmtcount.cfg}, and place it on the \TeX\ path. These +%settings will then be loaded by the \sty{fmtcount} +%package. +% +%Note that if you are using the \sty{datetime} package, +%the \texttt{datetime.cfg} configuration file will override +%the \texttt{fmtcount.cfg} configuration file. +%For example, if \texttt{datetime.cfg} has the line: +%\begin{verbatim} +%\renewcommand{\fmtord}[1]{\textsuperscript{\underline{#1}}} +%\end{verbatim} +%and if \texttt{fmtcount.cfg} has the line: +%\begin{verbatim} +%\fmtcountsetoptions{fmtord=level} +%\end{verbatim} +%then the former definition of \cs{fmtord} will take +%precedence. +% +%\section{LaTeX2HTML style} +% +%The \LaTeX2HTML\ style file \texttt{fmtcount.perl} is provided. +%The following limitations apply: +% +%\begin{itemize} +%\item \cs{padzeroes} only has an effect in the preamble. +% +%\item The configuration file +%\texttt{fmtcount.cfg} is currently ignored. (This is because +%I can't work out the correct code to do this. If you +%know how to do this, please let me know.) You can however +%do: +%\begin{verbatim} +%\usepackage{fmtcount} +%\html{\input{fmtcount.cfg}} +%\end{verbatim} +%This, I agree, is an unpleasant cludge. +% +%\end{itemize} +% +%\section{Acknowledgements} +% +%I would like to thank my mother for the French and Portuguese +%support and my Spanish dictionary for the Spanish support. +%Thank you to K. H. Fricke for providing me with the German +%translations. +% +%\section{Troubleshooting} +% +%There is a FAQ available at: +%\url{http://theoval.cmp.uea.ac.uk/~nlct/latex/packages/faq/}. +% +% +% +%\StopEventually{} +%\section{The Code} +%\iffalse +% \begin{macrocode} +%<*fc-british.def> +% \end{macrocode} +%\fi +% \subsection{fc-british.def} +% British definitions +% \begin{macrocode} +\ProvidesFile{fc-british}[2007/06/14] +% \end{macrocode} +% Check that fc-english.def has been loaded +% \begin{macrocode} +\@ifundefined{@ordinalMenglish}{\input{fc-english.def}}{} +% \end{macrocode} +% These are all just synonyms for the commands provided by +% fc-english.def. +% \begin{macrocode} +\let\@ordinalMbritish\@ordinalMenglish +\let\@ordinalFbritish\@ordinalMenglish +\let\@ordinalNbritish\@ordinalMenglish +\let\@numberstringMbritish\@numberstringMenglish +\let\@numberstringFbritish\@numberstringMenglish +\let\@numberstringNbritish\@numberstringMenglish +\let\@NumberstringMbritish\@NumberstringMenglish +\let\@NumberstringFbritish\@NumberstringMenglish +\let\@NumberstringNbritish\@NumberstringMenglish +\let\@ordinalstringMbritish\@ordinalstringMenglish +\let\@ordinalstringFbritish\@ordinalstringMenglish +\let\@ordinalstringNbritish\@ordinalstringMenglish +\let\@OrdinalstringMbritish\@OrdinalstringMenglish +\let\@OrdinalstringFbritish\@OrdinalstringMenglish +\let\@OrdinalstringNbritish\@OrdinalstringMenglish +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-british.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-english.def> +% \end{macrocode} +%\fi +% \subsection{fc-english.def} +% English definitions +% \begin{macrocode} +\ProvidesFile{fc-english}[2007/05/26] +% \end{macrocode} +% Define macro that converts a number or count register (first +% argument) to an ordinal, and stores the result in the +% second argument, which should be a control sequence. +% \begin{macrocode} +\newcommand*{\@ordinalMenglish}[2]{% +\def\@fc@ord{}% +\@orgargctr=#1\relax +\@ordinalctr=#1% +\@modulo{\@ordinalctr}{100}% +\ifnum\@ordinalctr=11\relax + \def\@fc@ord{th}% +\else + \ifnum\@ordinalctr=12\relax + \def\@fc@ord{th}% + \else + \ifnum\@ordinalctr=13\relax + \def\@fc@ord{th}% + \else + \@modulo{\@ordinalctr}{10}% + \ifcase\@ordinalctr + \def\@fc@ord{th}% case 0 + \or \def\@fc@ord{st}% case 1 + \or \def\@fc@ord{nd}% case 2 + \or \def\@fc@ord{rd}% case 3 + \else + \def\@fc@ord{th}% default case + \fi + \fi + \fi +\fi +\edef#2{\number#1\relax\noexpand\fmtord{\@fc@ord}}% +} +% \end{macrocode} +% There is no gender difference in English, so make feminine and +% neuter the same as the masculine. +% \begin{macrocode} +\let\@ordinalFenglish=\@ordinalMenglish +\let\@ordinalNenglish=\@ordinalMenglish +% \end{macrocode} +% Define the macro that prints the value of a \TeX\ count register +% as text. To make it easier, break it up into units, teens and +% tens. First, the units: the argument should be between 0 and 9 +% inclusive. +% \begin{macrocode} +\newcommand*{\@@unitstringenglish}[1]{% +\ifcase#1\relax +zero% +\or one% +\or two% +\or three% +\or four% +\or five% +\or six% +\or seven% +\or eight% +\or nine% +\fi +} +% \end{macrocode} +% Next the tens, again the argument should be between 0 and 9 +% inclusive. +% \begin{macrocode} +\newcommand*{\@@tenstringenglish}[1]{% +\ifcase#1\relax +\or ten% +\or twenty% +\or thirty% +\or forty% +\or fifty% +\or sixty% +\or seventy% +\or eighty% +\or ninety% +\fi +} +% \end{macrocode} +% Finally the teens, again the argument should be between 0 and 9 +% inclusive. +% \begin{macrocode} +\newcommand*{\@@teenstringenglish}[1]{% +\ifcase#1\relax +ten% +\or eleven% +\or twelve% +\or thirteen% +\or fourteen% +\or fifteen% +\or sixteen% +\or seventeen% +\or eighteen% +\or nineteen% +\fi +} +% \end{macrocode} +% As above, but with the initial letter in uppercase. The units: +% \begin{macrocode} +\newcommand*{\@@Unitstringenglish}[1]{% +\ifcase#1\relax +Zero% +\or One% +\or Two% +\or Three% +\or Four% +\or Five% +\or Six% +\or Seven% +\or Eight% +\or Nine% +\fi +} +% \end{macrocode} +% The tens: +% \begin{macrocode} +\newcommand*{\@@Tenstringenglish}[1]{% +\ifcase#1\relax +\or Ten% +\or Twenty% +\or Thirty% +\or Forty% +\or Fifty% +\or Sixty% +\or Seventy% +\or Eighty% +\or Ninety% +\fi +} +% \end{macrocode} +% The teens: +% \begin{macrocode} +\newcommand*{\@@Teenstringenglish}[1]{% +\ifcase#1\relax +Ten% +\or Eleven% +\or Twelve% +\or Thirteen% +\or Fourteen% +\or Fifteen% +\or Sixteen% +\or Seventeen% +\or Eighteen% +\or Nineteen% +\fi +} +% \end{macrocode} +% This has changed in version 1.09, so that it now stores +% the result in the second argument, but doesn't display anything. +% Since it only affects internal macros, it shouldn't affect +% documents created with older versions. (These internal macros are +% not meant for use in documents.) +% \begin{macrocode} +\newcommand*{\@@numberstringenglish}[2]{% +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9 +% #1 is greater or equal to 10000 + \divide\@strctr by 10 + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1 \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr-\@unitstring{\@strctr}}% + \fi + \else + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@thousand}% +\else + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ \@thousand}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100 +\ifnum\@strctr>0\relax + \ifnum#1>1000\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ }% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ \@hundred}% +\fi +\@strctr=#1\relax \@modulo{\@strctr}{100}% +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname\ }% + \fi +\fi +\ifnum\@strctr>19\relax + \divide\@strctr by 10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr-\@unitstring{\@strctr}}% + \fi +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi +\fi +} +% \end{macrocode} +% All lower case version, the second argument must be a +% control sequence. +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMenglish}[2]{% +\let\@unitstring=\@@unitstringenglish +\let\@teenstring=\@@teenstringenglish +\let\@tenstring=\@@tenstringenglish +\def\@hundred{hundred}\def\@thousand{thousand}% +\def\@andname{and}% +\@@numberstringenglish{#1}{#2}% +} +% \end{macrocode} +% There is no gender in English, so make feminine and neuter the same +% as the masculine. +% \begin{macrocode} +\let\@numberstringFenglish=\@numberstringMenglish +\let\@numberstringNenglish=\@numberstringMenglish +% \end{macrocode} +% This version makes the first letter of each word an uppercase +% character (except ``and''). The second argument must be a control +% sequence. +% \begin{macrocode} +\newcommand*{\@NumberstringMenglish}[2]{% +\let\@unitstring=\@@Unitstringenglish +\let\@teenstring=\@@Teenstringenglish +\let\@tenstring=\@@Tenstringenglish +\def\@hundred{Hundred}\def\@thousand{Thousand}% +\def\@andname{and}% +\@@numberstringenglish{#1}{#2}} +% \end{macrocode} +% There is no gender in English, so make feminine and neuter the same +% as the masculine. +% \begin{macrocode} +\let\@NumberstringFenglish=\@NumberstringMenglish +\let\@NumberstringNenglish=\@NumberstringMenglish +% \end{macrocode} +% Define a macro that produces an ordinal as a string. Again, break +% it up into units, teens and tens. First the units: +% \begin{macrocode} +\newcommand*{\@@unitthstringenglish}[1]{% +\ifcase#1\relax +zeroth% +\or first% +\or second% +\or third% +\or fourth% +\or fifth% +\or sixth% +\or seventh% +\or eighth% +\or ninth% +\fi +} +% \end{macrocode} +% Next the tens: +% \begin{macrocode} +\newcommand*{\@@tenthstringenglish}[1]{% +\ifcase#1\relax +\or tenth% +\or twentieth% +\or thirtieth% +\or fortieth% +\or fiftieth% +\or sixtieth% +\or seventieth% +\or eightieth% +\or ninetieth% +\fi +} +% \end{macrocode} +% The teens: +% \begin{macrocode} +\newcommand*{\@@teenthstringenglish}[1]{% +\ifcase#1\relax +tenth% +\or eleventh% +\or twelfth% +\or thirteenth% +\or fourteenth% +\or fifteenth% +\or sixteenth% +\or seventeenth% +\or eighteenth% +\or nineteenth% +\fi +} +% \end{macrocode} +% As before, but with the first letter in upper case. The units: +% \begin{macrocode} +\newcommand*{\@@Unitthstringenglish}[1]{% +\ifcase#1\relax +Zeroth% +\or First% +\or Second% +\or Third% +\or Fourth% +\or Fifth% +\or Sixth% +\or Seventh% +\or Eighth% +\or Ninth% +\fi +} +% \end{macrocode} +% The tens: +% \begin{macrocode} +\newcommand*{\@@Tenthstringenglish}[1]{% +\ifcase#1\relax +\or Tenth% +\or Twentieth% +\or Thirtieth% +\or Fortieth% +\or Fiftieth% +\or Sixtieth% +\or Seventieth% +\or Eightieth% +\or Ninetieth% +\fi +} +% \end{macrocode} +% The teens: +% \begin{macrocode} +\newcommand*{\@@Teenthstringenglish}[1]{% +\ifcase#1\relax +Tenth% +\or Eleventh% +\or Twelfth% +\or Thirteenth% +\or Fourteenth% +\or Fifteenth% +\or Sixteenth% +\or Seventeenth% +\or Eighteenth% +\or Nineteenth% +\fi +} +% \end{macrocode} +% Again, as from version 1.09, this has been changed to take two +% arguments, where the second argument is a control sequence. +% The resulting text is stored in the control sequence, and nothing +% is displayed. +% \begin{macrocode} +\newcommand*{\@@ordinalstringenglish}[2]{% +\@strctr=#1\relax +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000 (value given: \number\@strctr)}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\def#2{}% +\fi +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9\relax +% #1 is greater or equal to 10000 + \divide\@strctr by 10 + \ifnum\@strctr>1\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenstring{\@strctr}}% + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr-\@unitstring{\@strctr}}% + \fi + \else + \@strctr=#1\relax \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenstring{\@strctr}}% + \fi + \@strctr=#1\relax \@modulo{\@strctr}{1000}% + \ifnum\@strctr=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousandth}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousand}% + \fi +\else + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{1000}% + \let\@@fc@ordstr#2\relax + \ifnum\@strctr=0\relax + \edef#2{\@@fc@ordstr\ \@thousandth}% + \else + \edef#2{\@@fc@ordstr\ \@thousand}% + \fi + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100 +\ifnum\@strctr>0\relax + \ifnum#1>1000\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ }% + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{100}% + \let\@@fc@ordstr#2\relax + \ifnum\@strctr=0\relax + \edef#2{\@@fc@ordstr\ \@hundredth}% + \else + \edef#2{\@@fc@ordstr\ \@hundred}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{100}% +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@andname\ }% + \fi +\fi +\ifnum\@strctr>19\relax + \@tmpstrctr=\@strctr + \divide\@strctr by 10\relax + \@modulo{\@tmpstrctr}{10}% + \let\@@fc@ordstr#2\relax + \ifnum\@tmpstrctr=0\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@strctr}}% + \else + \edef#2{\@@fc@ordstr\@tenstring{\@strctr}}% + \fi + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr-\@unitthstring{\@strctr}}% + \fi +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi + \else + \@modulo{\@strctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenthstring{\@strctr}}% + \fi +\fi +} +% \end{macrocode} +% All lower case version. Again, the second argument must be a +% control sequence in which the resulting text is stored. +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMenglish}[2]{% +\let\@unitthstring=\@@unitthstringenglish +\let\@teenthstring=\@@teenthstringenglish +\let\@tenthstring=\@@tenthstringenglish +\let\@unitstring=\@@unitstringenglish +\let\@teenstring=\@@teenstringenglish +\let\@tenstring=\@@tenstringenglish +\def\@andname{and}% +\def\@hundred{hundred}\def\@thousand{thousand}% +\def\@hundredth{hundredth}\def\@thousandth{thousandth}% +\@@ordinalstringenglish{#1}{#2}} +% \end{macrocode} +% No gender in English, so make feminine and neuter same as masculine: +% \begin{macrocode} +\let\@ordinalstringFenglish=\@ordinalstringMenglish +\let\@ordinalstringNenglish=\@ordinalstringMenglish +% \end{macrocode} +% First letter of each word in upper case: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMenglish}[2]{% +\let\@unitthstring=\@@Unitthstringenglish +\let\@teenthstring=\@@Teenthstringenglish +\let\@tenthstring=\@@Tenthstringenglish +\let\@unitstring=\@@Unitstringenglish +\let\@teenstring=\@@Teenstringenglish +\let\@tenstring=\@@Tenstringenglish +\def\@andname{and}% +\def\@hundred{Hundred}\def\@thousand{Thousand}% +\def\@hundredth{Hundredth}\def\@thousandth{Thousandth}% +\@@ordinalstringenglish{#1}{#2}} +% \end{macrocode} +% No gender in English, so make feminine and neuter same as masculine: +% \begin{macrocode} +\let\@OrdinalstringFenglish=\@OrdinalstringMenglish +\let\@OrdinalstringNenglish=\@OrdinalstringMenglish +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-english.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-french.def> +% \end{macrocode} +%\fi +% \subsection{fc-french.def} +% French definitions +% \begin{macrocode} +\ProvidesFile{fc-french.def}[2007/05/26] +% \end{macrocode} +% Define macro that converts a number or count register (first +% argument) to an ordinal, and store the result in the second +% argument, which must be a control sequence. Masculine: +% \begin{macrocode} +\newcommand*{\@ordinalMfrench}[2]{% +\iffmtord@abbrv + \edef#2{\number#1\relax\noexpand\fmtord{e}}% +\else + \ifnum#1=1\relax + \edef#2{\number#1\relax\noexpand\fmtord{er}}% + \else + \edef#2{\number#1\relax\noexpand\fmtord{eme}}% + \fi +\fi} +% \end{macrocode} +% Feminine: +% \begin{macrocode} +\newcommand*{\@ordinalFfrench}[2]{% +\iffmtord@abbrv + \edef#2{\number#1\relax\noexpand\fmtord{e}}% +\else + \ifnum#1=1\relax + \edef#2{\number#1\relax\noexpand\fmtord{ere}}% + \else + \edef#2{\number#1\relax\noexpand\fmtord{eme}}% + \fi +\fi} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalNfrench\@ordinalMfrench +% \end{macrocode} +% Textual representation of a number. To make it easier break it +% into units, tens and teens. First the units: +% \begin{macrocode} +\newcommand*{\@@unitstringfrench}[1]{% +\ifcase#1\relax +zero% +\or un% +\or deux% +\or trois% +\or quatre% +\or cinq% +\or six% +\or sept% +\or huit% +\or neuf% +\fi +} +% \end{macrocode} +% Feminine only changes for 1: +% \begin{macrocode} +\newcommand*{\@@unitstringFfrench}[1]{% +\ifnum#1=1\relax +une% +\else\@@unitstringfrench{#1}% +\fi +} +% \end{macrocode} +% Tens (this includes the Belgian and Swiss variants, special +% cases employed lower down.) +% \begin{macrocode} +\newcommand*{\@@tenstringfrench}[1]{% +\ifcase#1\relax +\or dix% +\or vingt% +\or trente% +\or quarante% +\or cinquante% +\or soixante% +\or septente% +\or huitante% +\or nonente% +\or cent% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand*{\@@teenstringfrench}[1]{% +\ifcase#1\relax +dix% +\or onze% +\or douze% +\or treize% +\or quatorze% +\or quinze% +\or seize% +\or dix-sept% +\or dix-huit% +\or dix-neuf% +\fi +} +% \end{macrocode} +% Seventies are a special case, depending on dialect: +% \begin{macrocode} +\newcommand*{\@@seventiesfrench}[1]{% +\@tenstring{6}% +\ifnum#1=1\relax +\ \@andname\ +\else +-% +\fi +\@teenstring{#1}% +} +% \end{macrocode} +% Eighties are a special case, depending on dialect: +% \begin{macrocode} +\newcommand*{\@@eightiesfrench}[1]{% +\@unitstring{4}-\@tenstring{2}% +\ifnum#1>0 +-\@unitstring{#1}% +\else +s% +\fi +} +% \end{macrocode} +% Nineties are a special case, depending on dialect: +% \begin{macrocode} +\newcommand*{\@@ninetiesfrench}[1]{% +\@unitstring{4}-\@tenstring{2}-\@teenstring{#1}% +} +% \end{macrocode} +% Swiss seventies: +% \begin{macrocode} +\newcommand*{\@@seventiesfrenchswiss}[1]{% +\@tenstring{7}% +\ifnum#1=1\ \@andname\ \fi +\ifnum#1>1-\fi +\ifnum#1>0\@unitstring{#1}\fi +} +% \end{macrocode} +% Swiss eighties: +% \begin{macrocode} +\newcommand*{\@@eightiesfrenchswiss}[1]{% +\@tenstring{8}% +\ifnum#1=1\ \@andname\ \fi +\ifnum#1>1-\fi +\ifnum#1>0\@unitstring{#1}\fi +} +% \end{macrocode} +% Swiss nineties: +% \begin{macrocode} +\newcommand*{\@@ninetiesfrenchswiss}[1]{% +\@tenstring{9}% +\ifnum#1=1\ \@andname\ \fi +\ifnum#1>1-\fi +\ifnum#1>0\@unitstring{#1}\fi +} +% \end{macrocode} +% Units with initial letter in upper case: +% \begin{macrocode} +\newcommand*{\@@Unitstringfrench}[1]{% +\ifcase#1\relax +Zero% +\or Un% +\or Deux% +\or Trois% +\or Quatre% +\or Cinq% +\or Six% +\or Sept% +\or Huit% +\or Neuf% +\fi +} +% \end{macrocode} +% As above, but feminine: +% \begin{macrocode} +\newcommand*{\@@UnitstringFfrench}[1]{% +\ifnum#1=1\relax +Une% +\else \@@Unitstringfrench{#1}% +\fi +} +% \end{macrocode} +% Tens, with initial letter in upper case (includes Swiss and +% Belgian variants): +% \begin{macrocode} +\newcommand*{\@@Tenstringfrench}[1]{% +\ifcase#1\relax +\or Dix% +\or Vingt% +\or Trente% +\or Quarante% +\or Cinquante% +\or Soixante% +\or Septente% +\or Huitante% +\or Nonente% +\or Cent% +\fi +} +% \end{macrocode} +% Teens, with initial letter in upper case: +% \begin{macrocode} +\newcommand*{\@@Teenstringfrench}[1]{% +\ifcase#1\relax +Dix% +\or Onze% +\or Douze% +\or Treize% +\or Quatorze% +\or Quinze% +\or Seize% +\or Dix-Sept% +\or Dix-Huit% +\or Dix-Neuf% +\fi +} +% \end{macrocode} +% This has changed in version 1.09, so that it now stores the +% result in the second argument, but doesn't display anything. +% Since it only affects internal macros, it shouldn't affect +% documents created with older versions. (These internal macros +% are not defined for use in documents.) Firstly, the Swiss +% version: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMfrenchswiss}[2]{% +\let\@unitstring=\@@unitstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Same as above, but for French as spoken in France: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMfrenchfrance}[2]{% +\let\@unitstring=\@@unitstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Same as above, but for Belgian dialect: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMfrenchbelgian}[2]{% +\let\@unitstring=\@@unitstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Set default dialect: +% \begin{macrocode} +\let\@numberstringMfrench=\@numberstringMfrenchfrance +% \end{macrocode} +% As above, but for feminine version. Swiss: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringFfrenchswiss}[2]{% +\let\@unitstring=\@@unitstringFfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% French: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringFfrenchfrance}[2]{% +\let\@unitstring=\@@unitstringFfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Belgian: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringFfrenchbelgian}[2]{% +\let\@unitstring=\@@unitstringFfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{cent}\def\@thousand{mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Set default dialect: +% \begin{macrocode} +\let\@numberstringFfrench=\@numberstringFfrenchfrance +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalstringNfrench\@ordinalstringMfrench +% \end{macrocode} +% As above, but with initial letter in upper case. Swiss (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMfrenchswiss}[2]{% +\let\@unitstring=\@@Unitstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% French: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMfrenchfrance}[2]{% +\let\@unitstring=\@@Unitstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Belgian: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMfrenchbelgian}[2]{% +\let\@unitstring=\@@Unitstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Set default dialect: +% \begin{macrocode} +\let\@NumberstringMfrench=\@NumberstringMfrenchfrance +% \end{macrocode} +% As above, but feminine. Swiss: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringFfrenchswiss}[2]{% +\let\@unitstring=\@@UnitstringFfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% French (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringFfrenchfrance}[2]{% +\let\@unitstring=\@@UnitstringFfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Belgian (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringFfrenchbelgian}[2]{% +\let\@unitstring=\@@UnitstringFfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\def\@hundred{Cent}\def\@thousand{Mille}% +\def\@andname{et}% +\@@numberstringfrench{#1}{#2}} +% \end{macrocode} +% Set default dialect: +% \begin{macrocode} +\let\@NumberstringFfrench=\@NumberstringFfrenchfrance +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@NumberstringNfrench\@NumberstringMfrench +% \end{macrocode} +% Again, as from version 1.09, this has been changed to take +% two arguments, where the second argument is a control +% sequence, and nothing is displayed. Store textual representation +% of an ordinal in the given control sequence. Swiss dialect (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMfrenchswiss}[2]{% +\ifnum#1=1\relax +\def#2{premier}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrenchswiss +\let\@ninetieths=\@@ninetiethsfrenchswiss +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% French (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMfrenchfrance}[2]{% +\ifnum#1=1\relax +\def#2{premier}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrench +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@teenstringfrench +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Belgian dialect (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMfrenchbelgian}[2]{% +\ifnum#1=1\relax +\def#2{premier}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrenchswiss +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@teenstringfrench +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Set up default dialect: +% \begin{macrocode} +\let\@ordinalstringMfrench=\@ordinalstringMfrenchfrance +% \end{macrocode} +% As above, but feminine. Swiss: +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFfrenchswiss}[2]{% +\ifnum#1=1\relax +\def#2{premi\`ere}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringFfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrenchswiss +\let\@ninetieths=\@@ninetiethsfrenchswiss +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% French (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFfrenchfrance}[2]{% +\ifnum#1=1\relax +\def#2{premi\`ere}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringFfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrench +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@teenstringfrench +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Belgian (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFfrenchbelgian}[2]{% +\ifnum#1=1\relax +\def#2{premi\`ere}% +\else +\let\@unitthstring=\@@unitthstringfrench +\let\@unitstring=\@@unitstringFfrench +\let\@teenthstring=\@@teenthstringfrench +\let\@teenstring=\@@teenstringfrench +\let\@tenthstring=\@@tenthstringfrench +\let\@tenstring=\@@tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@teenstringfrench +\def\@hundredth{centi\`eme}\def\@hundred{cent}% +\def\@thousandth{mili\`eme}\def\@thousand{mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Set up default dialect: +% \begin{macrocode} +\let\@ordinalstringFfrench=\@ordinalstringFfrenchfrance +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalstringNfrench\@ordinalstringMfrench +% \end{macrocode} +% As above, but with initial letters in upper case. Swiss (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMfrenchswiss}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@Unitstringfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrenchswiss +\let\@ninetieths=\@@ninetiethsfrenchswiss +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% French (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMfrenchfrance}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@Unitstringfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrench +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@Teenstringfrench +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Belgian (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMfrenchbelgian}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@Unitstringfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@Teenstringfrench +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Set up default dialect: +% \begin{macrocode} +\let\@OrdinalstringMfrench=\@OrdinalstringMfrenchfrance +% \end{macrocode} +% As above, but feminine form. Swiss: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFfrenchswiss}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@UnitstringFfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrenchswiss +\let\@ninetieths=\@@ninetiethsfrenchswiss +\let\@seventies=\@@seventiesfrenchswiss +\let\@eighties=\@@eightiesfrenchswiss +\let\@nineties=\@@ninetiesfrenchswiss +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% French (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFfrenchfrance}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@UnitstringFfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrench +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@Teenstringfrench +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Belgian (feminine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFfrenchbelgian}[2]{% +\ifnum#1=1\relax +\def#2{Premi\`ere}% +\else +\let\@unitthstring=\@@Unitthstringfrench +\let\@unitstring=\@@UnitstringFfrench +\let\@teenthstring=\@@Teenthstringfrench +\let\@teenstring=\@@Teenstringfrench +\let\@tenthstring=\@@Tenthstringfrench +\let\@tenstring=\@@Tenstringfrench +\let\@seventieths=\@@seventiethsfrenchswiss +\let\@eightieths=\@@eightiethsfrench +\let\@ninetieths=\@@ninetiethsfrench +\let\@seventies=\@@seventiesfrench +\let\@eighties=\@@eightiesfrench +\let\@nineties=\@@ninetiesfrench +\let\@teenstring=\@@Teenstringfrench +\def\@hundredth{Centi\`eme}\def\@hundred{Cent}% +\def\@thousandth{Mili\`eme}\def\@thousand{Mille}% +\def\@andname{et}% +\@@ordinalstringfrench{#1}{#2}% +\fi} +% \end{macrocode} +% Set up default dialect: +% \begin{macrocode} +\let\@OrdinalstringFfrench=\@OrdinalstringFfrenchfrance +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@OrdinalstringNfrench\@OrdinalstringMfrench +% \end{macrocode} +% In order to convert numbers into textual ordinals, need +% to break it up into units, tens and teens. First the units. +% The argument must be a number or count register between 0 +% and 9. +% \begin{macrocode} +\newcommand*{\@@unitthstringfrench}[1]{% +\ifcase#1\relax +zero% +\or uni\`eme% +\or deuxi\`eme% +\or troisi\`eme% +\or quatri\`eme% +\or cinqui\`eme% +\or sixi\`eme% +\or septi\`eme% +\or huiti\`eme% +\or neuvi\`eme% +\fi +} +% \end{macrocode} +% Tens (includes Swiss and Belgian variants, special cases are +% dealt with later.) +% \begin{macrocode} +\newcommand*{\@@tenthstringfrench}[1]{% +\ifcase#1\relax +\or dixi\`eme% +\or vingti\`eme% +\or trentri\`eme% +\or quaranti\`eme% +\or cinquanti\`eme% +\or soixanti\`eme% +\or septenti\`eme% +\or huitanti\`eme% +\or nonenti\`eme% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand*{\@@teenthstringfrench}[1]{% +\ifcase#1\relax +dixi\`eme% +\or onzi\`eme% +\or douzi\`eme% +\or treizi\`eme% +\or quatorzi\`eme% +\or quinzi\`eme% +\or seizi\`eme% +\or dix-septi\`eme% +\or dix-huiti\`eme% +\or dix-neuvi\`eme% +\fi +} +% \end{macrocode} +% Seventies vary depending on dialect. Swiss: +% \begin{macrocode} +\newcommand*{\@@seventiethsfrenchswiss}[1]{% +\ifcase#1\relax +\@tenthstring{7}% +\or +\@tenstring{7} \@andname\ \@unitthstring{1}% +\else +\@tenstring{7}-\@unitthstring{#1}% +\fi} +% \end{macrocode} +% Eighties vary depending on dialect. Swiss: +% \begin{macrocode} +\newcommand*{\@@eightiethsfrenchswiss}[1]{% +\ifcase#1\relax +\@tenthstring{8}% +\or +\@tenstring{8} \@andname\ \@unitthstring{1}% +\else +\@tenstring{8}-\@unitthstring{#1}% +\fi} +% \end{macrocode} +% Nineties vary depending on dialect. Swiss: +% \begin{macrocode} +\newcommand*{\@@ninetiethsfrenchswiss}[1]{% +\ifcase#1\relax +\@tenthstring{9}% +\or +\@tenstring{9} \@andname\ \@unitthstring{1}% +\else +\@tenstring{9}-\@unitthstring{#1}% +\fi} +% \end{macrocode} +% French (as spoken in France) version: +% \begin{macrocode} +\newcommand*{\@@seventiethsfrench}[1]{% +\ifnum#1=0\relax +\@tenstring{6}% +-% +\else +\@tenstring{6}% +\ \@andname\ +\fi +\@teenthstring{#1}% +} +% \end{macrocode} +% Eighties (as spoken in France): +% \begin{macrocode} +\newcommand*{\@@eightiethsfrench}[1]{% +\ifnum#1>0\relax +\@unitstring{4}-\@tenstring{2}% +-\@unitthstring{#1}% +\else +\@unitstring{4}-\@tenthstring{2}% +\fi +} +% \end{macrocode} +% Nineties (as spoken in France): +% \begin{macrocode} +\newcommand*{\@@ninetiethsfrench}[1]{% +\@unitstring{4}-\@tenstring{2}-\@teenthstring{#1}% +} +% \end{macrocode} +% As above, but with initial letter in upper case. Units: +% \begin{macrocode} +\newcommand*{\@@Unitthstringfrench}[1]{% +\ifcase#1\relax +Zero% +\or Uni\`eme% +\or Deuxi\`eme% +\or Troisi\`eme% +\or Quatri\`eme% +\or Cinqui\`eme% +\or Sixi\`eme% +\or Septi\`eme% +\or Huiti\`eme% +\or Neuvi\`eme% +\fi +} +% \end{macrocode} +% Tens (includes Belgian and Swiss variants): +% \begin{macrocode} +\newcommand*{\@@Tenthstringfrench}[1]{% +\ifcase#1\relax +\or Dixi\`eme% +\or Vingti\`eme% +\or Trentri\`eme% +\or Quaranti\`eme% +\or Cinquanti\`eme% +\or Soixanti\`eme% +\or Septenti\`eme% +\or Huitanti\`eme% +\or Nonenti\`eme% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand*{\@@Teenthstringfrench}[1]{% +\ifcase#1\relax +Dixi\`eme% +\or Onzi\`eme% +\or Douzi\`eme% +\or Treizi\`eme% +\or Quatorzi\`eme% +\or Quinzi\`eme% +\or Seizi\`eme% +\or Dix-Septi\`eme% +\or Dix-Huiti\`eme% +\or Dix-Neuvi\`eme% +\fi +} +% \end{macrocode} +% Store textual representation of number (first argument) in given control +% sequence (second argument). +% \begin{macrocode} +\newcommand*{\@@numberstringfrench}[2]{% +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9\relax +% #1 is greater or equal to 10000 + \@tmpstrctr=\@strctr + \divide\@strctr by 10\relax + \ifnum\@strctr>1\relax + \ifthenelse{\(\@strctr>6\)\and\(\@strctr<10\)}{% + \@modulo{\@tmpstrctr}{10}% + \ifnum\@strctr<8\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@seventies{\@tmpstrctr}}% + \else + \ifnum\@strctr<9\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@eighties{\@tmpstrctr}}% + \else + \ifnum\@strctr<10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@nineties{\@tmpstrctr}}% + \fi + \fi + \fi + }{% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@unitstring{\@strctr}}% + \fi + }% + \else + \@strctr=#1\relax + \divide\@strctr by 1000 + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@thousand}% +\else + \ifnum\@strctr>0\relax + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ }% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@thousand}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100 +\ifnum\@strctr>0\relax + \ifnum#1>1000\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ }% + \fi + \@tmpstrctr=#1\relax + \@modulo{\@tmpstrctr}{1000}\relax + \ifnum\@tmpstrctr=100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{10}}% + \else + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ }% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@hundred}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{100}% +%\@tmpstrctr=#1\relax +%\divide\@tmpstrctr by 100\relax +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ }% + \else + \ifnum\@tmpstrctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr s}% + \fi% + \fi +\fi +\ifnum\@strctr>19\relax + \@tmpstrctr=\@strctr + \divide\@strctr by 10\relax + \ifthenelse{\@strctr>6}{% + \@modulo{\@tmpstrctr}{10}% + \ifnum\@strctr<8\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@seventies{\@tmpstrctr}}% + \else + \ifnum\@strctr<9\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@eighties{\@tmpstrctr}}% + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@nineties{\@tmpstrctr}}% + \fi + \fi + }{% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \ifnum\@strctr=1\relax + \edef#2{\@@fc@numstr\ \@andname\ }% + \else + \edef#2{\@@fc@numstr-}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + }% +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else%(>0,<10) + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else%>10 + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi +\fi +} +% \end{macrocode} +% Store textual representation of an ordinal (from number +% specified in first argument) in given control +% sequence (second argument). +% \begin{macrocode} +\newcommand*{\@@ordinalstringfrench}[2]{% +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9 +% #1 is greater or equal to 10000 + \@tmpstrctr=\@strctr + \divide\@strctr by 10\relax + \ifnum\@strctr>1\relax + \ifthenelse{\@strctr>6}{% + \@modulo{\@tmpstrctr}{10}% + \ifnum\@strctr=7\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@seventies{\@tmpstrctr}}% + \else + \ifnum\@strctr=8\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@eighties{\@tmpstrctr}}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@nineties{\@tmpstrctr}}% + \fi + \fi + }{% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenstring{\@strctr}}% + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr=1\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@andname}% + \fi + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@unitstring{\@strctr}}% + \fi + }% + \else + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenstring{\@strctr}}% + \fi + \@strctr=#1\relax \@modulo{\@strctr}{1000}% + \ifnum\@strctr=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousandth}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousand}% + \fi +\else + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{1000}% + \ifnum\@strctr=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousandth}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@thousand}% + \fi + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100\relax +\ifnum\@strctr>0\relax + \ifnum#1>1000\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ }% + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{100}% + \let\@@fc@ordstr#2\relax + \ifnum\@strctr=0\relax + \edef#2{\@@fc@ordstr\ \@hundredth}% + \else + \edef#2{\@@fc@ordstr\ \@hundred}% + \fi +\fi +\@tmpstrctr=\@strctr +\@strctr=#1\relax \@modulo{\@strctr}{100}% +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@andname\ }% + \fi +\fi +\ifnum\@strctr>19\relax + \@tmpstrctr=\@strctr + \divide\@strctr by 10\relax + \@modulo{\@tmpstrctr}{10}% + \ifthenelse{\@strctr>6}{% + \ifnum\@strctr=7\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@seventieths{\@tmpstrctr}}% + \else + \ifnum\@strctr=8\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@eightieths{\@tmpstrctr}}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@ninetieths{\@tmpstrctr}}% + \fi + \fi + }{% + \ifnum\@tmpstrctr=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@strctr}}% + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenstring{\@strctr}}% + \fi + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr=1\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@andname}% + \fi + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@unitthstring{\@strctr}}% + \fi + }% +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi + \else + \@modulo{\@strctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenthstring{\@strctr}}% + \fi +\fi +} +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-french.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-german.def> +% \end{macrocode} +%\fi +% \subsection{fc-german.def} +% German definitions (thank you to K. H. Fricke for supplying +% this information) +% \begin{macrocode} +\ProvidesFile{fc-german.def}[2007/06/14] +% \end{macrocode} +% Define macro that converts a number or count register (first +% argument) to an ordinal, and stores the result in the +% second argument, which must be a control sequence. +% Masculine: +% \begin{macrocode} +\newcommand{\@ordinalMgerman}[2]{% +\edef#2{\number#1\relax.}} +% \end{macrocode} +% Feminine: +% \begin{macrocode} +\newcommand{\@ordinalFgerman}[2]{% +\edef#2{\number#1\relax.}} +% \end{macrocode} +% Neuter: +% \begin{macrocode} +\newcommand{\@ordinalNgerman}[2]{% +\edef#2{\number#1\relax.}} +% \end{macrocode} +% Convert a number to text. The easiest way to do this is to +% break it up into units, tens and teens. +% Units (argument must be a number from 0 to 9, 1 on its own (eins) +% is dealt with separately): +% \begin{macrocode} +\newcommand{\@@unitstringgerman}[1]{% +\ifcase#1% +null% +\or ein% +\or zwei% +\or drei% +\or vier% +\or f\"unf% +\or sechs% +\or sieben% +\or acht% +\or neun% +\fi +} +% \end{macrocode} +% Tens (argument must go from 1 to 10): +% \begin{macrocode} +\newcommand{\@@tenstringgerman}[1]{% +\ifcase#1% +\or zehn% +\or zwanzig% +\or drei{\ss}ig% +\or vierzig% +\or f\"unfzig% +\or sechzig% +\or siebzig% +\or achtzig% +\or neunzig% +\or einhundert% +\fi +} +% \end{macrocode} +% |\einhundert| is set to |einhundert| by default, user can +% redefine this command to just |hundert| if required, similarly +% for |\eintausend|. +% \begin{macrocode} +\providecommand*{\einhundert}{einhundert} +\providecommand*{\eintausend}{eintausend} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@teenstringgerman}[1]{% +\ifcase#1% +zehn% +\or elf% +\or zw\"olf% +\or dreizehn% +\or vierzehn% +\or f\"unfzehn% +\or sechzehn% +\or siebzehn% +\or achtzehn% +\or neunzehn% +\fi +} +% \end{macrocode} +% The results are stored in the second argument, but doesn't +% display anything. +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMgerman}[2]{% +\let\@unitstring=\@@unitstringgerman +\let\@teenstring=\@@teenstringgerman +\let\@tenstring=\@@tenstringgerman +\@@numberstringgerman{#1}{#2}} +% \end{macrocode} +% Feminine and neuter forms: +% \begin{macrocode} +\let\@numberstringFgerman=\@numberstringMgerman +\let\@numberstringNgerman=\@numberstringMgerman +% \end{macrocode} +% As above, but initial letters in upper case: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMgerman}[2]{% +\@numberstringMgerman{#1}{\@@num@str}% +\edef#2{\noexpand\MakeUppercase\@@num@str}} +% \end{macrocode} +% Feminine and neuter form: +% \begin{macrocode} +\let\@NumberstringFgerman=\@NumberstringMgerman +\let\@NumberstringNgerman=\@NumberstringMgerman +% \end{macrocode} +% As above, but for ordinals. +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMgerman}[2]{% +\let\@unitthstring=\@@unitthstringMgerman +\let\@teenthstring=\@@teenthstringMgerman +\let\@tenthstring=\@@tenthstringMgerman +\let\@unitstring=\@@unitstringgerman +\let\@teenstring=\@@teenstringgerman +\let\@tenstring=\@@tenstringgerman +\def\@thousandth{tausendster}% +\def\@hundredth{hundertster}% +\@@ordinalstringgerman{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFgerman}[2]{% +\let\@unitthstring=\@@unitthstringFgerman +\let\@teenthstring=\@@teenthstringFgerman +\let\@tenthstring=\@@tenthstringFgerman +\let\@unitstring=\@@unitstringgerman +\let\@teenstring=\@@teenstringgerman +\let\@tenstring=\@@tenstringgerman +\def\@thousandth{tausendste}% +\def\@hundredth{hundertste}% +\@@ordinalstringgerman{#1}{#2}} +% \end{macrocode} +% Neuter form: +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringNgerman}[2]{% +\let\@unitthstring=\@@unitthstringNgerman +\let\@teenthstring=\@@teenthstringNgerman +\let\@tenthstring=\@@tenthstringNgerman +\let\@unitstring=\@@unitstringgerman +\let\@teenstring=\@@teenstringgerman +\let\@tenstring=\@@tenstringgerman +\def\@thousandth{tausendstes}% +\def\@hundredth{hunderstes}% +\@@ordinalstringgerman{#1}{#2}} +% \end{macrocode} +% As above, but with initial letters in upper case. +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMgerman}[2]{% +\@ordinalstringMgerman{#1}{\@@num@str}% +\edef#2{\protect\MakeUppercase\@@num@str}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFgerman}[2]{% +\@ordinalstringFgerman{#1}{\@@num@str}% +\edef#2{\protect\MakeUppercase\@@num@str}} +% \end{macrocode} +% Neuter form: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringNgerman}[2]{% +\@ordinalstringNgerman{#1}{\@@num@str}% +\edef#2{\protect\MakeUppercase\@@num@str}} +% \end{macrocode} +% Code for converting numbers into textual ordinals. As before, +% it is easier to split it into units, tens and teens. +% Units: +% \begin{macrocode} +\newcommand{\@@unitthstringMgerman}[1]{% +\ifcase#1% +nullter% +\or erster% +\or zweiter% +\or dritter% +\or vierter% +\or f\"unter% +\or sechster% +\or siebter% +\or achter% +\or neunter% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand{\@@tenthstringMgerman}[1]{% +\ifcase#1% +\or zehnter% +\or zwanzigster% +\or drei{\ss}igster% +\or vierzigster% +\or f\"unfzigster% +\or sechzigster% +\or siebzigster% +\or achtzigster% +\or neunzigster% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@teenthstringMgerman}[1]{% +\ifcase#1% +zehnter% +\or elfter% +\or zw\"olfter% +\or dreizehnter% +\or vierzehnter% +\or f\"unfzehnter% +\or sechzehnter% +\or siebzehnter% +\or achtzehnter% +\or neunzehnter% +\fi +} +% \end{macrocode} +% Units (feminine): +% \begin{macrocode} +\newcommand{\@@unitthstringFgerman}[1]{% +\ifcase#1% +nullte% +\or erste% +\or zweite% +\or dritte% +\or vierte% +\or f\"unfte% +\or sechste% +\or siebte% +\or achte% +\or neunte% +\fi +} +% \end{macrocode} +% Tens (feminine): +% \begin{macrocode} +\newcommand{\@@tenthstringFgerman}[1]{% +\ifcase#1% +\or zehnte% +\or zwanzigste% +\or drei{\ss}igste% +\or vierzigste% +\or f\"unfzigste% +\or sechzigste% +\or siebzigste% +\or achtzigste% +\or neunzigste% +\fi +} +% \end{macrocode} +% Teens (feminine) +% \begin{macrocode} +\newcommand{\@@teenthstringFgerman}[1]{% +\ifcase#1% +zehnte% +\or elfte% +\or zw\"olfte% +\or dreizehnte% +\or vierzehnte% +\or f\"unfzehnte% +\or sechzehnte% +\or siebzehnte% +\or achtzehnte% +\or neunzehnte% +\fi +} +% \end{macrocode} +% Units (neuter): +% \begin{macrocode} +\newcommand{\@@unitthstringNgerman}[1]{% +\ifcase#1% +nulltes% +\or erstes% +\or zweites% +\or drittes% +\or viertes% +\or f\"unte% +\or sechstes% +\or siebtes% +\or achtes% +\or neuntes% +\fi +} +% \end{macrocode} +% Tens (neuter): +% \begin{macrocode} +\newcommand{\@@tenthstringNgerman}[1]{% +\ifcase#1% +\or zehntes% +\or zwanzigstes% +\or drei{\ss}igstes% +\or vierzigstes% +\or f\"unfzigstes% +\or sechzigstes% +\or siebzigstes% +\or achtzigstes% +\or neunzigstes% +\fi +} +% \end{macrocode} +% Teens (neuter) +% \begin{macrocode} +\newcommand{\@@teenthstringNgerman}[1]{% +\ifcase#1% +zehntes% +\or elftes% +\or zw\"olftes% +\or dreizehntes% +\or vierzehntes% +\or f\"unfzehntes% +\or sechzehntes% +\or siebzehntes% +\or achtzehntes% +\or neunzehntes% +\fi +} +% \end{macrocode} +% This appends the results to |#2| for number |#2| (in range 0 to 100.) +% null and eins are dealt with separately in |\@@numberstringgerman|. +% \begin{macrocode} +\newcommand{\@@numberunderhundredgerman}[2]{% +\ifnum#1<10\relax + \ifnum#1>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{#1}}% + \fi +\else + \@tmpstrctr=#1\relax + \@modulo{\@tmpstrctr}{10}% + \ifnum#1<20\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@tmpstrctr}}% + \else + \ifnum\@tmpstrctr=0\relax + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@tmpstrctr}und}% + \fi + \@tmpstrctr=#1\relax + \divide\@tmpstrctr by 10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@tmpstrctr}}% + \fi +\fi +} +% \end{macrocode} +% This stores the results in the second argument +% (which must be a control +% sequence), but it doesn't display anything. +% \begin{macrocode} +\newcommand{\@@numberstringgerman}[2]{% +\ifnum#1>99999\relax + \PackageError{fmtcount}{Out of range}% + {This macro only works for values less than 100000}% +\else + \ifnum#1<0\relax + \PackageError{fmtcount}{Negative numbers not permitted}% + {This macro does not work for negative numbers, however + you can try typing "minus" first, and then pass the modulus of + this number}% + \fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>1\relax +% #1 is >= 2000, \@strctr now contains the number of thousands +\@@numberunderhundredgerman{\@strctr}{#2}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr tausend}% +\else +% #1 lies in range [1000,1999] + \ifnum\@strctr=1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\eintausend}% + \fi +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{1000}% +\divide\@strctr by 100\relax +\ifnum\@strctr>1\relax +% now dealing with number in range [200,999] + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}hundert}% +\else + \ifnum\@strctr=1\relax +% dealing with number in range [100,199] + \ifnum#1>1000\relax +% if orginal number > 1000, use einhundert + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr einhundert}% + \else +% otherwise use \einhundert + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\einhundert}% + \fi + \fi +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{100}% +\ifnum#1=0\relax + \def#2{null}% +\else + \ifnum\@strctr=1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr eins}% + \else + \@@numberunderhundredgerman{\@strctr}{#2}% + \fi +\fi +} +% \end{macrocode} +% As above, but for ordinals +% \begin{macrocode} +\newcommand{\@@numberunderhundredthgerman}[2]{% +\ifnum#1<10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitthstring{#1}}% +\else + \@tmpstrctr=#1\relax + \@modulo{\@tmpstrctr}{10}% + \ifnum#1<20\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenthstring{\@tmpstrctr}}% + \else + \ifnum\@tmpstrctr=0\relax + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@tmpstrctr}und}% + \fi + \@tmpstrctr=#1\relax + \divide\@tmpstrctr by 10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenthstring{\@tmpstrctr}}% + \fi +\fi +} +% \end{macrocode} +% \begin{macrocode} +\newcommand{\@@ordinalstringgerman}[2]{% +\ifnum#1>99999\relax + \PackageError{fmtcount}{Out of range}% + {This macro only works for values less than 100000}% +\else + \ifnum#1<0\relax + \PackageError{fmtcount}{Negative numbers not permitted}% + {This macro does not work for negative numbers, however + you can try typing "minus" first, and then pass the modulus of + this number}% + \fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>1\relax +% #1 is >= 2000, \@strctr now contains the number of thousands +\@@numberunderhundredgerman{\@strctr}{#2}% + \let\@@fc@numstr#2\relax + % is that it, or is there more? + \@tmpstrctr=#1\relax \@modulo{\@tmpstrctr}{1000}% + \ifnum\@tmpstrctr=0\relax + \edef#2{\@@fc@numstr\@thousandth}% + \else + \edef#2{\@@fc@numstr tausend}% + \fi +\else +% #1 lies in range [1000,1999] + \ifnum\@strctr=1\relax + \ifnum#1=1000\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@thousandth}% + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\eintausend}% + \fi + \fi +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{1000}% +\divide\@strctr by 100\relax +\ifnum\@strctr>1\relax +% now dealing with number in range [200,999] + \let\@@fc@numstr#2\relax + % is that it, or is there more? + \@tmpstrctr=#1\relax \@modulo{\@tmpstrctr}{100}% + \ifnum\@tmpstrctr=0\relax + \ifnum\@strctr=1\relax + \edef#2{\@@fc@numstr\@hundredth}% + \else + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\@hundredth}% + \fi + \else + \edef#2{\@@fc@numstr\@unitstring{\@strctr}hundert}% + \fi +\else + \ifnum\@strctr=1\relax +% dealing with number in range [100,199] +% is that it, or is there more? + \@tmpstrctr=#1\relax \@modulo{\@tmpstrctr}{100}% + \ifnum\@tmpstrctr=0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@hundredth}% + \else + \ifnum#1>1000\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr einhundert}% + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\einhundert}% + \fi + \fi + \fi +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{100}% +\ifthenelse{\@strctr=0 \and #1>0}{}{% +\@@numberunderhundredthgerman{\@strctr}{#2}% +}% +} +% \end{macrocode} +% Set |ngerman| to be equivalent to |german|. Is it okay to do +% this? (I don't know the difference between the two.) +% \begin{macrocode} +\let\@ordinalMngerman=\@ordinalMgerman +\let\@ordinalFngerman=\@ordinalFgerman +\let\@ordinalNngerman=\@ordinalNgerman +\let\@numberstringMngerman=\@numberstringMgerman +\let\@numberstringFngerman=\@numberstringFgerman +\let\@numberstringNngerman=\@numberstringNgerman +\let\@NumberstringMngerman=\@NumberstringMgerman +\let\@NumberstringFngerman=\@NumberstringFgerman +\let\@NumberstringNngerman=\@NumberstringNgerman +\let\@ordinalstringMngerman=\@ordinalstringMgerman +\let\@ordinalstringFngerman=\@ordinalstringFgerman +\let\@ordinalstringNngerman=\@ordinalstringNgerman +\let\@OrdinalstringMngerman=\@OrdinalstringMgerman +\let\@OrdinalstringFngerman=\@OrdinalstringFgerman +\let\@OrdinalstringNngerman=\@OrdinalstringNgerman +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-german.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-portuges.def> +% \end{macrocode} +%\fi +% \subsection{fc-portuges.def} +% Portuguse definitions +% \begin{macrocode} +\ProvidesFile{fc-portuges.def}[2007/05/26] +% \end{macrocode} +% Define macro that converts a number or count register (first +% argument) to an ordinal, and stores the result in the second +% argument, which should be a control sequence. Masculine: +% \begin{macrocode} +\newcommand*{\@ordinalMportuges}[2]{% +\ifnum#1=0\relax + \edef#2{\number#1}% +\else + \edef#2{\number#1\relax\noexpand\fmtord{o}}% +\fi} +% \end{macrocode} +% Feminine: +% \begin{macrocode} +\newcommand*{\@ordinalFportuges}[2]{% +\ifnum#1=0\relax + \edef#2{\number#1}% +\else + \edef#2{\number#1\relax\noexpand\fmtord{a}}% +\fi} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalNportuges\@ordinalMportuges +% \end{macrocode} +% Convert a number to a textual representation. To make it easier, +% split it up into units, tens, teens and hundreds. Units (argument must +% be a number from 0 to 9): +% \begin{macrocode} +\newcommand*{\@@unitstringportuges}[1]{% +\ifcase#1\relax +zero% +\or um% +\or dois% +\or tr\^es% +\or quatro% +\or cinco% +\or seis% +\or sete% +\or oito% +\or nove% +\fi +} +% \end{macrocode} +% As above, but for feminine: +% \begin{macrocode} +\newcommand*{\@@unitstringFportuges}[1]{% +\ifcase#1\relax +zero% +\or uma% +\or duas% +\or tr\^es% +\or quatro% +\or cinco% +\or seis% +\or sete% +\or oito% +\or nove% +\fi +} +% \end{macrocode} +% Tens (argument must be a number from 0 to 10): +% \begin{macrocode} +\newcommand*{\@@tenstringportuges}[1]{% +\ifcase#1\relax +\or dez% +\or vinte% +\or trinta% +\or quarenta% +\or cinq\"uenta% +\or sessenta% +\or setenta% +\or oitenta% +\or noventa% +\or cem% +\fi +} +% \end{macrocode} +% Teens (argument must be a number from 0 to 9): +% \begin{macrocode} +\newcommand*{\@@teenstringportuges}[1]{% +\ifcase#1\relax +dez% +\or onze% +\or doze% +\or treze% +\or quatorze% +\or quinze% +\or dezesseis% +\or dezessete% +\or dezoito% +\or dezenove% +\fi +} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand*{\@@hundredstringportuges}[1]{% +\ifcase#1\relax +\or cento% +\or duzentos% +\or trezentos% +\or quatrocentos% +\or quinhentos% +\or seiscentos% +\or setecentos% +\or oitocentos% +\or novecentos% +\fi} +% \end{macrocode} +% Hundreds (feminine): +% \begin{macrocode} +\newcommand*{\@@hundredstringFportuges}[1]{% +\ifcase#1\relax +\or cento% +\or duzentas% +\or trezentas% +\or quatrocentas% +\or quinhentas% +\or seiscentas% +\or setecentas% +\or oitocentas% +\or novecentas% +\fi} +% \end{macrocode} +% Units (initial letter in upper case): +% \begin{macrocode} +\newcommand*{\@@Unitstringportuges}[1]{% +\ifcase#1\relax +Zero% +\or Um% +\or Dois% +\or Tr\^es% +\or Quatro% +\or Cinco% +\or Seis% +\or Sete% +\or Oito% +\or Nove% +\fi +} +% \end{macrocode} +% As above, but feminine: +% \begin{macrocode} +\newcommand*{\@@UnitstringFportuges}[1]{% +\ifcase#1\relax +Zera% +\or Uma% +\or Duas% +\or Tr\^es% +\or Quatro% +\or Cinco% +\or Seis% +\or Sete% +\or Oito% +\or Nove% +\fi +} +% \end{macrocode} +% Tens (with initial letter in upper case): +% \begin{macrocode} +\newcommand*{\@@Tenstringportuges}[1]{% +\ifcase#1\relax +\or Dez% +\or Vinte% +\or Trinta% +\or Quarenta% +\or Cinq\"uenta% +\or Sessenta% +\or Setenta% +\or Oitenta% +\or Noventa% +\or Cem% +\fi +} +% \end{macrocode} +% Teens (with initial letter in upper case): +% \begin{macrocode} +\newcommand*{\@@Teenstringportuges}[1]{% +\ifcase#1\relax +Dez% +\or Onze% +\or Doze% +\or Treze% +\or Quatorze% +\or Quinze% +\or Dezesseis% +\or Dezessete% +\or Dezoito% +\or Dezenove% +\fi +} +% \end{macrocode} +% Hundreds (with initial letter in upper case): +% \begin{macrocode} +\newcommand*{\@@Hundredstringportuges}[1]{% +\ifcase#1\relax +\or Cento% +\or Duzentos% +\or Trezentos% +\or Quatrocentos% +\or Quinhentos% +\or Seiscentos% +\or Setecentos% +\or Oitocentos% +\or Novecentos% +\fi} +% \end{macrocode} +% As above, but feminine: +% \begin{macrocode} +\newcommand*{\@@HundredstringFportuges}[1]{% +\ifcase#1\relax +\or Cento% +\or Duzentas% +\or Trezentas% +\or Quatrocentas% +\or Quinhentas% +\or Seiscentas% +\or Setecentas% +\or Oitocentas% +\or Novecentas% +\fi} +% \end{macrocode} +% This has changed in version 1.08, so that it now stores +% the result in the second argument, but doesn't display +% anything. Since it only affects internal macros, it shouldn't +% affect documents created with older versions. (These internal +% macros are not meant for use in documents.) +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMportuges}[2]{% +\let\@unitstring=\@@unitstringportuges +\let\@teenstring=\@@teenstringportuges +\let\@tenstring=\@@tenstringportuges +\let\@hundredstring=\@@hundredstringportuges +\def\@hundred{cem}\def\@thousand{mil}% +\def\@andname{e}% +\@@numberstringportuges{#1}{#2}} +% \end{macrocode} +% As above, but feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringFportuges}[2]{% +\let\@unitstring=\@@unitstringFportuges +\let\@teenstring=\@@teenstringportuges +\let\@tenstring=\@@tenstringportuges +\let\@hundredstring=\@@hundredstringFportuges +\def\@hundred{cem}\def\@thousand{mil}% +\def\@andname{e}% +\@@numberstringportuges{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@numberstringNportuges\@numberstringMportuges +% \end{macrocode} +% As above, but initial letters in upper case: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMportuges}[2]{% +\let\@unitstring=\@@Unitstringportuges +\let\@teenstring=\@@Teenstringportuges +\let\@tenstring=\@@Tenstringportuges +\let\@hundredstring=\@@Hundredstringportuges +\def\@hundred{Cem}\def\@thousand{Mil}% +\def\@andname{e}% +\@@numberstringportuges{#1}{#2}} +% \end{macrocode} +% As above, but feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringFportuges}[2]{% +\let\@unitstring=\@@UnitstringFportuges +\let\@teenstring=\@@Teenstringportuges +\let\@tenstring=\@@Tenstringportuges +\let\@hundredstring=\@@HundredstringFportuges +\def\@hundred{Cem}\def\@thousand{Mil}% +\def\@andname{e}% +\@@numberstringportuges{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@NumberstringNportuges\@NumberstringMportuges +% \end{macrocode} +% As above, but for ordinals. +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMportuges}[2]{% +\let\@unitthstring=\@@unitthstringportuges +\let\@unitstring=\@@unitstringportuges +\let\@teenthstring=\@@teenthstringportuges +\let\@tenthstring=\@@tenthstringportuges +\let\@hundredthstring=\@@hundredthstringportuges +\def\@thousandth{mil\'esimo}% +\@@ordinalstringportuges{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFportuges}[2]{% +\let\@unitthstring=\@@unitthstringFportuges +\let\@unitstring=\@@unitstringFportuges +\let\@teenthstring=\@@teenthstringportuges +\let\@tenthstring=\@@tenthstringFportuges +\let\@hundredthstring=\@@hundredthstringFportuges +\def\@thousandth{mil\'esima}% +\@@ordinalstringportuges{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalstringNportuges\@ordinalstringMportuges +% \end{macrocode} +% As above, but initial letters in upper case (masculine): +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMportuges}[2]{% +\let\@unitthstring=\@@Unitthstringportuges +\let\@unitstring=\@@Unitstringportuges +\let\@teenthstring=\@@teenthstringportuges +\let\@tenthstring=\@@Tenthstringportuges +\let\@hundredthstring=\@@Hundredthstringportuges +\def\@thousandth{Mil\'esimo}% +\@@ordinalstringportuges{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFportuges}[2]{% +\let\@unitthstring=\@@UnitthstringFportuges +\let\@unitstring=\@@UnitstringFportuges +\let\@teenthstring=\@@teenthstringportuges +\let\@tenthstring=\@@TenthstringFportuges +\let\@hundredthstring=\@@HundredthstringFportuges +\def\@thousandth{Mil\'esima}% +\@@ordinalstringportuges{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@OrdinalstringNportuges\@OrdinalstringMportuges +% \end{macrocode} +% In order to do the ordinals, split into units, teens, tens +% and hundreds. Units: +% \begin{macrocode} +\newcommand*{\@@unitthstringportuges}[1]{% +\ifcase#1\relax +zero% +\or primeiro% +\or segundo% +\or terceiro% +\or quarto% +\or quinto% +\or sexto% +\or s\'etimo% +\or oitavo% +\or nono% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand*{\@@tenthstringportuges}[1]{% +\ifcase#1\relax +\or d\'ecimo% +\or vig\'esimo% +\or trig\'esimo% +\or quadrag\'esimo% +\or q\"uinquag\'esimo% +\or sexag\'esimo% +\or setuag\'esimo% +\or octog\'esimo% +\or nonag\'esimo% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand*{\@@teenthstringportuges}[1]{% +\@tenthstring{1}% +\ifnum#1>0\relax +-\@unitthstring{#1}% +\fi} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand*{\@@hundredthstringportuges}[1]{% +\ifcase#1\relax +\or cent\'esimo% +\or ducent\'esimo% +\or trecent\'esimo% +\or quadringent\'esimo% +\or q\"uingent\'esimo% +\or seiscent\'esimo% +\or setingent\'esimo% +\or octingent\'esimo% +\or nongent\'esimo% +\fi} +% \end{macrocode} +% Units (feminine): +% \begin{macrocode} +\newcommand*{\@@unitthstringFportuges}[1]{% +\ifcase#1\relax +zero% +\or primeira% +\or segunda% +\or terceira% +\or quarta% +\or quinta% +\or sexta% +\or s\'etima% +\or oitava% +\or nona% +\fi +} +% \end{macrocode} +% Tens (feminine): +% \begin{macrocode} +\newcommand*{\@@tenthstringFportuges}[1]{% +\ifcase#1\relax +\or d\'ecima% +\or vig\'esima% +\or trig\'esima% +\or quadrag\'esima% +\or q\"uinquag\'esima% +\or sexag\'esima% +\or setuag\'esima% +\or octog\'esima% +\or nonag\'esima% +\fi +} +% \end{macrocode} +% Hundreds (feminine): +% \begin{macrocode} +\newcommand*{\@@hundredthstringFportuges}[1]{% +\ifcase#1\relax +\or cent\'esima% +\or ducent\'esima% +\or trecent\'esima% +\or quadringent\'esima% +\or q\"uingent\'esima% +\or seiscent\'esima% +\or setingent\'esima% +\or octingent\'esima% +\or nongent\'esima% +\fi} +% \end{macrocode} +% As above, but with initial letter in upper case. Units: +% \begin{macrocode} +\newcommand*{\@@Unitthstringportuges}[1]{% +\ifcase#1\relax +Zero% +\or Primeiro% +\or Segundo% +\or Terceiro% +\or Quarto% +\or Quinto% +\or Sexto% +\or S\'etimo% +\or Oitavo% +\or Nono% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand*{\@@Tenthstringportuges}[1]{% +\ifcase#1\relax +\or D\'ecimo% +\or Vig\'esimo% +\or Trig\'esimo% +\or Quadrag\'esimo% +\or Q\"uinquag\'esimo% +\or Sexag\'esimo% +\or Setuag\'esimo% +\or Octog\'esimo% +\or Nonag\'esimo% +\fi +} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand*{\@@Hundredthstringportuges}[1]{% +\ifcase#1\relax +\or Cent\'esimo% +\or Ducent\'esimo% +\or Trecent\'esimo% +\or Quadringent\'esimo% +\or Q\"uingent\'esimo% +\or Seiscent\'esimo% +\or Setingent\'esimo% +\or Octingent\'esimo% +\or Nongent\'esimo% +\fi} +% \end{macrocode} +% As above, but feminine. Units: +% \begin{macrocode} +\newcommand*{\@@UnitthstringFportuges}[1]{% +\ifcase#1\relax +Zera% +\or Primeira% +\or Segunda% +\or Terceira% +\or Quarta% +\or Quinta% +\or Sexta% +\or S\'etima% +\or Oitava% +\or Nona% +\fi +} +% \end{macrocode} +% Tens (feminine); +% \begin{macrocode} +\newcommand*{\@@TenthstringFportuges}[1]{% +\ifcase#1\relax +\or D\'ecima% +\or Vig\'esima% +\or Trig\'esima% +\or Quadrag\'esima% +\or Q\"uinquag\'esima% +\or Sexag\'esima% +\or Setuag\'esima% +\or Octog\'esima% +\or Nonag\'esima% +\fi +} +% \end{macrocode} +% Hundreds (feminine): +% \begin{macrocode} +\newcommand*{\@@HundredthstringFportuges}[1]{% +\ifcase#1\relax +\or Cent\'esima% +\or Ducent\'esima% +\or Trecent\'esima% +\or Quadringent\'esima% +\or Q\"uingent\'esima% +\or Seiscent\'esima% +\or Setingent\'esima% +\or Octingent\'esima% +\or Nongent\'esima% +\fi} +% \end{macrocode} +% This has changed in version 1.09, so that it now stores +% the result in the second argument (a control sequence), but it +% doesn't display anything. Since it only affects internal macros, +% it shouldn't affect documents created with older versions. +% (These internal macros are not meant for use in documents.) +% \begin{macrocode} +\newcommand*{\@@numberstringportuges}[2]{% +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9 +% #1 is greater or equal to 10000 + \divide\@strctr by 10 + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1 \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr>0 + \ifnum\@strctr=1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@unitstring{\@strctr}}% + \fi + \else + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@thousand}% +\else + \ifnum\@strctr>0\relax + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ }% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@thousand}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100\relax +\ifnum\@strctr>0\relax + \ifnum#1>1000 \relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ }% + \fi + \@tmpstrctr=#1\relax + \@modulo{\@tmpstrctr}{1000}% + \let\@@fc@numstr#2\relax + \ifnum\@tmpstrctr=100\relax + \edef#2{\@@fc@numstr\@tenstring{10}}% + \else + \edef#2{\@@fc@numstr\@hundredstring{\@strctr}}% + \fi% +\fi +\@strctr=#1\relax \@modulo{\@strctr}{100}% +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname\ }% + \fi +\fi +\ifnum\@strctr>19\relax + \divide\@strctr by 10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr>0 + \ifnum\@strctr=1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname}% + \else + \ifnum#1>100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname}% + \fi + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@unitstring{\@strctr}}% + \fi +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else%(>0,<10) + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else%>10 + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi +\fi +} +% \end{macrocode} +% As above, but for ordinals. +% \begin{macrocode} +\newcommand*{\@@ordinalstringportuges}[2]{% +\@strctr=#1\relax +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\else +\def#2{}% +\ifnum\@strctr>999\relax + \divide\@strctr by 1000\relax + \ifnum\@strctr>1\relax + \ifnum\@strctr>9\relax + \@tmpstrctr=\@strctr + \ifnum\@strctr<20 + \@modulo{\@tmpstrctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenthstring{\@tmpstrctr}}% + \else + \divide\@tmpstrctr by 10\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@tmpstrctr}}% + \@tmpstrctr=\@strctr + \@modulo{\@tmpstrctr}{10}% + \ifnum\@tmpstrctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@tmpstrctr}}% + \fi + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \fi + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@thousandth}% +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{1000}% +\ifnum\@strctr>99\relax + \@tmpstrctr=\@strctr + \divide\@tmpstrctr by 100\relax + \ifnum#1>1000\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr-}% + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@hundredthstring{\@tmpstrctr}}% +\fi +\@modulo{\@strctr}{100}% +\ifnum#1>99\relax + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr-}% + \fi +\fi +\ifnum\@strctr>9\relax + \@tmpstrctr=\@strctr + \divide\@tmpstrctr by 10\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@tmpstrctr}}% + \@tmpstrctr=\@strctr + \@modulo{\@tmpstrctr}{10}% + \ifnum\@tmpstrctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr-\@unitthstring{\@tmpstrctr}}% + \fi +\else + \ifnum\@strctr=0\relax + \ifnum#1=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{0}}% + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi +\fi +\fi +\fi +} +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-portuges.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-spanish.def> +% \end{macrocode} +%\fi +% \subsection{fc-spanish.def} +% Spanish definitions +% \begin{macrocode} +\ProvidesFile{fc-spanish.def}[2007/05/26] +% \end{macrocode} +% Define macro that converts a number or count register (first +% argument) to an ordinal, and stores the result in the +% second argument, which must be a control sequence. +% Masculine: +% \begin{macrocode} +\newcommand{\@ordinalMspanish}[2]{% +\edef#2{\number#1\relax\noexpand\fmtord{o}}} +% \end{macrocode} +% Feminine: +% \begin{macrocode} +\newcommand{\@ordinalFspanish}[2]{% +\edef#2{\number#1\relax\noexpand\fmtord{a}}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalNspanish\@ordinalMspanish +% \end{macrocode} +% Convert a number to text. The easiest way to do this is to +% break it up into units, tens, teens, twenties and hundreds. +% Units (argument must be a number from 0 to 9): +% \begin{macrocode} +\newcommand{\@@unitstringspanish}[1]{% +\ifcase#1\relax +cero% +\or uno% +\or dos% +\or tres% +\or cuatro% +\or cinco% +\or seis% +\or siete% +\or ocho% +\or nueve% +\fi +} +% \end{macrocode} +% Feminine: +% \begin{macrocode} +\newcommand{\@@unitstringFspanish}[1]{% +\ifcase#1\relax +cera% +\or una% +\or dos% +\or tres% +\or cuatro% +\or cinco% +\or seis% +\or siete% +\or ocho% +\or nueve% +\fi +} +% \end{macrocode} +% Tens (argument must go from 1 to 10): +% \begin{macrocode} +\newcommand{\@@tenstringspanish}[1]{% +\ifcase#1\relax +\or diez% +\or viente% +\or treinta% +\or cuarenta% +\or cincuenta% +\or sesenta% +\or setenta% +\or ochenta% +\or noventa% +\or cien% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@teenstringspanish}[1]{% +\ifcase#1\relax +diez% +\or once% +\or doce% +\or trece% +\or catorce% +\or quince% +\or diecis\'eis% +\or diecisiete% +\or dieciocho% +\or diecinueve% +\fi +} +% \end{macrocode} +% Twenties: +% \begin{macrocode} +\newcommand{\@@twentystringspanish}[1]{% +\ifcase#1\relax +veinte% +\or veintiuno% +\or veintid\'os% +\or veintitr\'es% +\or veinticuatro% +\or veinticinco% +\or veintis\'eis% +\or veintisiete% +\or veintiocho% +\or veintinueve% +\fi} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\newcommand{\@@twentystringFspanish}[1]{% +\ifcase#1\relax +veinte% +\or veintiuna% +\or veintid\'os% +\or veintitr\'es% +\or veinticuatro% +\or veinticinco% +\or veintis\'eis% +\or veintisiete% +\or veintiocho% +\or veintinueve% +\fi} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand{\@@hundredstringspanish}[1]{% +\ifcase#1\relax +\or ciento% +\or doscientos% +\or trescientos% +\or cuatrocientos% +\or quinientos% +\or seiscientos% +\or setecientos% +\or ochocientos% +\or novecientos% +\fi} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\newcommand{\@@hundredstringFspanish}[1]{% +\ifcase#1\relax +\or cienta% +\or doscientas% +\or trescientas% +\or cuatrocientas% +\or quinientas% +\or seiscientas% +\or setecientas% +\or ochocientas% +\or novecientas% +\fi} +% \end{macrocode} +% As above, but with initial letter uppercase: +% \begin{macrocode} +\newcommand{\@@Unitstringspanish}[1]{% +\ifcase#1\relax +Cero% +\or Uno% +\or Dos% +\or Tres% +\or Cuatro% +\or Cinco% +\or Seis% +\or Siete% +\or Ocho% +\or Nueve% +\fi +} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\newcommand{\@@UnitstringFspanish}[1]{% +\ifcase#1\relax +Cera% +\or Una% +\or Dos% +\or Tres% +\or Cuatro% +\or Cinco% +\or Seis% +\or Siete% +\or Ocho% +\or Nueve% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand{\@@Tenstringspanish}[1]{% +\ifcase#1\relax +\or Diez% +\or Viente% +\or Treinta% +\or Cuarenta% +\or Cincuenta% +\or Sesenta% +\or Setenta% +\or Ochenta% +\or Noventa% +\or Cien% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@Teenstringspanish}[1]{% +\ifcase#1\relax +Diez% +\or Once% +\or Doce% +\or Trece% +\or Catorce% +\or Quince% +\or Diecis\'eis% +\or Diecisiete% +\or Dieciocho% +\or Diecinueve% +\fi +} +% \end{macrocode} +% Twenties: +% \begin{macrocode} +\newcommand{\@@Twentystringspanish}[1]{% +\ifcase#1\relax +Veinte% +\or Veintiuno% +\or Veintid\'os% +\or Veintitr\'es% +\or Veinticuatro% +\or Veinticinco% +\or Veintis\'eis% +\or Veintisiete% +\or Veintiocho% +\or Veintinueve% +\fi} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\newcommand{\@@TwentystringFspanish}[1]{% +\ifcase#1\relax +Veinte% +\or Veintiuna% +\or Veintid\'os% +\or Veintitr\'es% +\or Veinticuatro% +\or Veinticinco% +\or Veintis\'eis% +\or Veintisiete% +\or Veintiocho% +\or Veintinueve% +\fi} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand{\@@Hundredstringspanish}[1]{% +\ifcase#1\relax +\or Ciento% +\or Doscientos% +\or Trescientos% +\or Cuatrocientos% +\or Quinientos% +\or Seiscientos% +\or Setecientos% +\or Ochocientos% +\or Novecientos% +\fi} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\newcommand{\@@HundredstringFspanish}[1]{% +\ifcase#1\relax +\or Cienta% +\or Doscientas% +\or Trescientas% +\or Cuatrocientas% +\or Quinientas% +\or Seiscientas% +\or Setecientas% +\or Ochocientas% +\or Novecientas% +\fi} +% \end{macrocode} +% This has changed in version 1.09, so that it now stores the +% result in the second argument, but doesn't display anything. +% Since it only affects internal macros, it shouldn't affect +% documents created with older versions. (These internal macros +% are not meant for use in documents.) +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringMspanish}[2]{% +\let\@unitstring=\@@unitstringspanish +\let\@teenstring=\@@teenstringspanish +\let\@tenstring=\@@tenstringspanish +\let\@twentystring=\@@twentystringspanish +\let\@hundredstring=\@@hundredstringspanish +\def\@hundred{cien}\def\@thousand{mil}% +\def\@andname{y}% +\@@numberstringspanish{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@numberstringFspanish}[2]{% +\let\@unitstring=\@@unitstringFspanish +\let\@teenstring=\@@teenstringspanish +\let\@tenstring=\@@tenstringspanish +\let\@twentystring=\@@twentystringFspanish +\let\@hundredstring=\@@hundredstringFspanish +\def\@hundred{cien}\def\@thousand{mil}% +\def\@andname{y}% +\@@numberstringspanish{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@numberstringNspanish\@numberstringMspanish +% \end{macrocode} +% As above, but initial letters in upper case: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringMspanish}[2]{% +\let\@unitstring=\@@Unitstringspanish +\let\@teenstring=\@@Teenstringspanish +\let\@tenstring=\@@Tenstringspanish +\let\@twentystring=\@@Twentystringspanish +\let\@hundredstring=\@@Hundredstringspanish +\def\@andname{y}% +\def\@hundred{Cien}\def\@thousand{Mil}% +\@@numberstringspanish{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@NumberstringFspanish}[2]{% +\let\@unitstring=\@@UnitstringFspanish +\let\@teenstring=\@@Teenstringspanish +\let\@tenstring=\@@Tenstringspanish +\let\@twentystring=\@@TwentystringFspanish +\let\@hundredstring=\@@HundredstringFspanish +\def\@andname{y}% +\def\@hundred{Cien}\def\@thousand{Mil}% +\@@numberstringspanish{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@NumberstringNspanish\@NumberstringMspanish +% \end{macrocode} +% As above, but for ordinals. +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringMspanish}[2]{% +\let\@unitthstring=\@@unitthstringspanish +\let\@unitstring=\@@unitstringspanish +\let\@teenthstring=\@@teenthstringspanish +\let\@tenthstring=\@@tenthstringspanish +\let\@hundredthstring=\@@hundredthstringspanish +\def\@thousandth{mil\'esimo}% +\@@ordinalstringspanish{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@ordinalstringFspanish}[2]{% +\let\@unitthstring=\@@unitthstringFspanish +\let\@unitstring=\@@unitstringFspanish +\let\@teenthstring=\@@teenthstringFspanish +\let\@tenthstring=\@@tenthstringFspanish +\let\@hundredthstring=\@@hundredthstringFspanish +\def\@thousandth{mil\'esima}% +\@@ordinalstringspanish{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@ordinalstringNspanish\@ordinalstringMspanish +% \end{macrocode} +% As above, but with initial letters in upper case. +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringMspanish}[2]{% +\let\@unitthstring=\@@Unitthstringspanish +\let\@unitstring=\@@Unitstringspanish +\let\@teenthstring=\@@Teenthstringspanish +\let\@tenthstring=\@@Tenthstringspanish +\let\@hundredthstring=\@@Hundredthstringspanish +\def\@thousandth{Mil\'esimo}% +\@@ordinalstringspanish{#1}{#2}} +% \end{macrocode} +% Feminine form: +% \begin{macrocode} +\DeclareRobustCommand{\@OrdinalstringFspanish}[2]{% +\let\@unitthstring=\@@UnitthstringFspanish +\let\@unitstring=\@@UnitstringFspanish +\let\@teenthstring=\@@TeenthstringFspanish +\let\@tenthstring=\@@TenthstringFspanish +\let\@hundredthstring=\@@HundredthstringFspanish +\def\@thousandth{Mil\'esima}% +\@@ordinalstringspanish{#1}{#2}} +% \end{macrocode} +% Make neuter same as masculine: +% \begin{macrocode} +\let\@OrdinalstringNspanish\@OrdinalstringMspanish +% \end{macrocode} +% Code for convert numbers into textual ordinals. As before, +% it is easier to split it into units, tens, teens and hundreds. +% Units: +% \begin{macrocode} +\newcommand{\@@unitthstringspanish}[1]{% +\ifcase#1\relax +cero% +\or primero% +\or segundo% +\or tercero% +\or cuarto% +\or quinto% +\or sexto% +\or s\'eptimo% +\or octavo% +\or noveno% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand{\@@tenthstringspanish}[1]{% +\ifcase#1\relax +\or d\'ecimo% +\or vig\'esimo% +\or trig\'esimo% +\or cuadrag\'esimo% +\or quincuag\'esimo% +\or sexag\'esimo% +\or septuag\'esimo% +\or octog\'esimo% +\or nonag\'esimo% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@teenthstringspanish}[1]{% +\ifcase#1\relax +d\'ecimo% +\or und\'ecimo% +\or duod\'ecimo% +\or decimotercero% +\or decimocuarto% +\or decimoquinto% +\or decimosexto% +\or decimos\'eptimo% +\or decimoctavo% +\or decimonoveno% +\fi +} +% \end{macrocode} +% Hundreds: +% \begin{macrocode} +\newcommand{\@@hundredthstringspanish}[1]{% +\ifcase#1\relax +\or cent\'esimo% +\or ducent\'esimo% +\or tricent\'esimo% +\or cuadringent\'esimo% +\or quingent\'esimo% +\or sexcent\'esimo% +\or septing\'esimo% +\or octingent\'esimo% +\or noningent\'esimo% +\fi} +% \end{macrocode} +% Units (feminine): +% \begin{macrocode} +\newcommand{\@@unitthstringFspanish}[1]{% +\ifcase#1\relax +cera% +\or primera% +\or segunda% +\or tercera% +\or cuarta% +\or quinta% +\or sexta% +\or s\'eptima% +\or octava% +\or novena% +\fi +} +% \end{macrocode} +% Tens (feminine): +% \begin{macrocode} +\newcommand{\@@tenthstringFspanish}[1]{% +\ifcase#1\relax +\or d\'ecima% +\or vig\'esima% +\or trig\'esima% +\or cuadrag\'esima% +\or quincuag\'esima% +\or sexag\'esima% +\or septuag\'esima% +\or octog\'esima% +\or nonag\'esima% +\fi +} +% \end{macrocode} +% Teens (feminine) +% \begin{macrocode} +\newcommand{\@@teenthstringFspanish}[1]{% +\ifcase#1\relax +d\'ecima% +\or und\'ecima% +\or duod\'ecima% +\or decimotercera% +\or decimocuarta% +\or decimoquinta% +\or decimosexta% +\or decimos\'eptima% +\or decimoctava% +\or decimonovena% +\fi +} +% \end{macrocode} +% Hundreds (feminine) +% \begin{macrocode} +\newcommand{\@@hundredthstringFspanish}[1]{% +\ifcase#1\relax +\or cent\'esima% +\or ducent\'esima% +\or tricent\'esima% +\or cuadringent\'esima% +\or quingent\'esima% +\or sexcent\'esima% +\or septing\'esima% +\or octingent\'esima% +\or noningent\'esima% +\fi} +% \end{macrocode} +% As above, but with initial letters in upper case +% \begin{macrocode} +\newcommand{\@@Unitthstringspanish}[1]{% +\ifcase#1\relax +Cero% +\or Primero% +\or Segundo% +\or Tercero% +\or Cuarto% +\or Quinto% +\or Sexto% +\or S\'eptimo% +\or Octavo% +\or Noveno% +\fi +} +% \end{macrocode} +% Tens: +% \begin{macrocode} +\newcommand{\@@Tenthstringspanish}[1]{% +\ifcase#1\relax +\or D\'ecimo% +\or Vig\'esimo% +\or Trig\'esimo% +\or Cuadrag\'esimo% +\or Quincuag\'esimo% +\or Sexag\'esimo% +\or Septuag\'esimo% +\or Octog\'esimo% +\or Nonag\'esimo% +\fi +} +% \end{macrocode} +% Teens: +% \begin{macrocode} +\newcommand{\@@Teenthstringspanish}[1]{% +\ifcase#1\relax +D\'ecimo% +\or Und\'ecimo% +\or Duod\'ecimo% +\or Decimotercero% +\or Decimocuarto% +\or Decimoquinto% +\or Decimosexto% +\or Decimos\'eptimo% +\or Decimoctavo% +\or Decimonoveno% +\fi +} +% \end{macrocode} +% Hundreds +% \begin{macrocode} +\newcommand{\@@Hundredthstringspanish}[1]{% +\ifcase#1\relax +\or Cent\'esimo% +\or Ducent\'esimo% +\or Tricent\'esimo% +\or Cuadringent\'esimo% +\or Quingent\'esimo% +\or Sexcent\'esimo% +\or Septing\'esimo% +\or Octingent\'esimo% +\or Noningent\'esimo% +\fi} +% \end{macrocode} +% As above, but feminine. +% \begin{macrocode} +\newcommand{\@@UnitthstringFspanish}[1]{% +\ifcase#1\relax +Cera% +\or Primera% +\or Segunda% +\or Tercera% +\or Cuarta% +\or Quinta% +\or Sexta% +\or S\'eptima% +\or Octava% +\or Novena% +\fi +} +% \end{macrocode} +% Tens (feminine) +% \begin{macrocode} +\newcommand{\@@TenthstringFspanish}[1]{% +\ifcase#1\relax +\or D\'ecima% +\or Vig\'esima% +\or Trig\'esima% +\or Cuadrag\'esima% +\or Quincuag\'esima% +\or Sexag\'esima% +\or Septuag\'esima% +\or Octog\'esima% +\or Nonag\'esima% +\fi +} +% \end{macrocode} +% Teens (feminine): +% \begin{macrocode} +\newcommand{\@@TeenthstringFspanish}[1]{% +\ifcase#1\relax +D\'ecima% +\or Und\'ecima% +\or Duod\'ecima% +\or Decimotercera% +\or Decimocuarta% +\or Decimoquinta% +\or Decimosexta% +\or Decimos\'eptima% +\or Decimoctava% +\or Decimonovena% +\fi +} +% \end{macrocode} +% Hundreds (feminine): +% \begin{macrocode} +\newcommand{\@@HundredthstringFspanish}[1]{% +\ifcase#1\relax +\or Cent\'esima% +\or Ducent\'esima% +\or Tricent\'esima% +\or Cuadringent\'esima% +\or Quingent\'esima% +\or Sexcent\'esima% +\or Septing\'esima% +\or Octingent\'esima% +\or Noningent\'esima% +\fi} + +% \end{macrocode} +% This has changed in version 1.09, so that it now stores the +% results in the second argument (which must be a control +% sequence), but it doesn't display anything. Since it only +% affects internal macros, it shouldn't affect documnets created +% with older versions. (These internal macros are not meant for +% use in documents.) +% \begin{macrocode} +\newcommand{\@@numberstringspanish}[2]{% +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\fi +\fi +\def#2{}% +\@strctr=#1\relax \divide\@strctr by 1000\relax +\ifnum\@strctr>9 +% #1 is greater or equal to 10000 + \divide\@strctr by 10 + \ifnum\@strctr>1 + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1 \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname\ \@unitstring{\@strctr}}% + \fi + \else + \@strctr=#1\relax + \divide\@strctr by 1000\relax + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@thousand}% +\else + \ifnum\@strctr>0\relax + \ifnum\@strctr>1\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}\ }% + \fi + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@thousand}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{1000}% +\divide\@strctr by 100\relax +\ifnum\@strctr>0\relax + \ifnum#1>1000\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ }% + \fi + \@tmpstrctr=#1\relax + \@modulo{\@tmpstrctr}{1000}% + \ifnum\@tmpstrctr=100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{10}}% + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@hundredstring{\@strctr}}% + \fi +\fi +\@strctr=#1\relax \@modulo{\@strctr}{100}% +\ifnum#1>100\relax + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname\ }% + \fi +\fi +\ifnum\@strctr>29\relax + \divide\@strctr by 10\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@tenstring{\@strctr}}% + \@strctr=#1\relax \@modulo{\@strctr}{10}% + \ifnum\@strctr>0\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\ \@andname\ \@unitstring{\@strctr}}% + \fi +\else + \ifnum\@strctr<10\relax + \ifnum\@strctr=0\relax + \ifnum#1<100\relax + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@unitstring{\@strctr}}% + \fi + \else + \ifnum\@strctr>19\relax + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@twentystring{\@strctr}}% + \else + \@modulo{\@strctr}{10}% + \let\@@fc@numstr#2\relax + \edef#2{\@@fc@numstr\@teenstring{\@strctr}}% + \fi + \fi +\fi +} +% \end{macrocode} +% As above, but for ordinals +% \begin{macrocode} +\newcommand{\@@ordinalstringspanish}[2]{% +\@strctr=#1\relax +\ifnum#1>99999 +\PackageError{fmtcount}{Out of range}% +{This macro only works for values less than 100000}% +\else +\ifnum#1<0 +\PackageError{fmtcount}{Negative numbers not permitted}% +{This macro does not work for negative numbers, however +you can try typing "minus" first, and then pass the modulus of +this number}% +\else +\def#2{}% +\ifnum\@strctr>999\relax + \divide\@strctr by 1000\relax + \ifnum\@strctr>1\relax + \ifnum\@strctr>9\relax + \@tmpstrctr=\@strctr + \ifnum\@strctr<20 + \@modulo{\@tmpstrctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenthstring{\@tmpstrctr}}% + \else + \divide\@tmpstrctr by 10\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@tmpstrctr}}% + \@tmpstrctr=\@strctr + \@modulo{\@tmpstrctr}{10}% + \ifnum\@tmpstrctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@tmpstrctr}}% + \fi + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{\@strctr}}% + \fi + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@thousandth}% +\fi +\@strctr=#1\relax +\@modulo{\@strctr}{1000}% +\ifnum\@strctr>99\relax + \@tmpstrctr=\@strctr + \divide\@tmpstrctr by 100\relax + \ifnum#1>1000\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ }% + \fi + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@hundredthstring{\@tmpstrctr}}% +\fi +\@modulo{\@strctr}{100}% +\ifnum#1>99\relax + \ifnum\@strctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ }% + \fi +\fi +\ifnum\@strctr>19\relax + \@tmpstrctr=\@strctr + \divide\@tmpstrctr by 10\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@tenthstring{\@tmpstrctr}}% + \@tmpstrctr=\@strctr + \@modulo{\@tmpstrctr}{10}% + \ifnum\@tmpstrctr>0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\ \@unitthstring{\@tmpstrctr}}% + \fi +\else + \ifnum\@strctr>9\relax + \@modulo{\@strctr}{10}% + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@teenthstring{\@strctr}}% + \else + \ifnum\@strctr=0\relax + \ifnum#1=0\relax + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitstring{0}}% + \fi + \else + \let\@@fc@ordstr#2\relax + \edef#2{\@@fc@ordstr\@unitthstring{\@strctr}}% + \fi + \fi +\fi +\fi +\fi +} +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-spanish.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-UKenglish.def> +% \end{macrocode} +%\fi +% \subsection{fc-UKenglish.def} +% UK English definitions +% \begin{macrocode} +\ProvidesFile{fc-UKenglish}[2007/06/14] +% \end{macrocode} +% Check that fc-english.def has been loaded +% \begin{macrocode} +\@ifundefined{@ordinalMenglish}{\input{fc-english.def}}{} +% \end{macrocode} +% These are all just synonyms for the commands provided by +% fc-english.def. +% \begin{macrocode} +\let\@ordinalMUKenglish\@ordinalMenglish +\let\@ordinalFUKenglish\@ordinalMenglish +\let\@ordinalNUKenglish\@ordinalMenglish +\let\@numberstringMUKenglish\@numberstringMenglish +\let\@numberstringFUKenglish\@numberstringMenglish +\let\@numberstringNUKenglish\@numberstringMenglish +\let\@NumberstringMUKenglish\@NumberstringMenglish +\let\@NumberstringFUKenglish\@NumberstringMenglish +\let\@NumberstringNUKenglish\@NumberstringMenglish +\let\@ordinalstringMUKenglish\@ordinalstringMenglish +\let\@ordinalstringFUKenglish\@ordinalstringMenglish +\let\@ordinalstringNUKenglish\@ordinalstringMenglish +\let\@OrdinalstringMUKenglish\@OrdinalstringMenglish +\let\@OrdinalstringFUKenglish\@OrdinalstringMenglish +\let\@OrdinalstringNUKenglish\@OrdinalstringMenglish +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-UKenglish.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fc-USenglish.def> +% \end{macrocode} +%\fi +% \subsection{fc-USenglish.def} +% US English definitions +% \begin{macrocode} +\ProvidesFile{fc-USenglish}[2007/06/14] +% \end{macrocode} +% Check that fc-english.def has been loaded +% \begin{macrocode} +\@ifundefined{@ordinalMenglish}{\input{fc-english.def}}{} +% \end{macrocode} +% These are all just synonyms for the commands provided by +% fc-english.def. +% \begin{macrocode} +\let\@ordinalMUSenglish\@ordinalMenglish +\let\@ordinalFUSenglish\@ordinalMenglish +\let\@ordinalNUSenglish\@ordinalMenglish +\let\@numberstringMUSenglish\@numberstringMenglish +\let\@numberstringFUSenglish\@numberstringMenglish +\let\@numberstringNUSenglish\@numberstringMenglish +\let\@NumberstringMUSenglish\@NumberstringMenglish +\let\@NumberstringFUSenglish\@NumberstringMenglish +\let\@NumberstringNUSenglish\@NumberstringMenglish +\let\@ordinalstringMUSenglish\@ordinalstringMenglish +\let\@ordinalstringFUSenglish\@ordinalstringMenglish +\let\@ordinalstringNUSenglish\@ordinalstringMenglish +\let\@OrdinalstringMUSenglish\@OrdinalstringMenglish +\let\@OrdinalstringFUSenglish\@OrdinalstringMenglish +\let\@OrdinalstringNUSenglish\@OrdinalstringMenglish +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fc-USenglish.def> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fmtcount.sty> +% \end{macrocode} +%\fi +%\subsection{fmtcount.sty} +% This section deals with the code for |fmtcount.sty| +% \begin{macrocode} +\NeedsTeXFormat{LaTeX2e} +\ProvidesPackage{fmtcount}[2007/07/20 v1.3] +\RequirePackage{ifthen} +\RequirePackage{keyval} +% \end{macrocode} +% These commands need to be defined before the +% configuration file is loaded.\changes{1.3}{2007/7/19}{no +%longer using xspace package} +% +% Define the macro to format the |st|, |nd|, |rd| or |th| of an +% ordinal. +%\begin{macro}{\fmtord} +% \begin{macrocode} +\providecommand*{\fmtord}[1]{\textsuperscript{#1}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\padzeros} +%\begin{definition} +%\cs{padzeroes}\oarg{n} +%\end{definition} +% Specifies how many digits should be displayed for commands such as +% \cs{decimal} and \cs{binary}. +% \begin{macrocode} +\newcount\c@padzeroesN +\c@padzeroesN=1\relax +\providecommand*{\padzeroes}[1][17]{\c@padzeroesN=#1} +% \end{macrocode} +%\end{macro} +% Load appropriate language definition files: +%\changes{v1.1}{14 June 2007}{added check for UKenglish, +% british and USenglish babel settings} +% \begin{macrocode} +\@ifundefined{l@english}{}{\input{fc-english.def}} +\@ifundefined{l@UKenglish}{}{\input{fc-UKenglish.def}} +\@ifundefined{l@british}{}{\input{fc-british.def}} +\@ifundefined{l@USenglish}{}{\input{fc-USenglish.def}} +\@ifundefined{l@spanish}{}{\input{fc-spanish.def}} +\@ifundefined{l@portuges}{}{\input{fc-portuges.def}} +\@ifundefined{l@french}{}{\input{fc-french.def}} +\@ifundefined{l@german}{% +\@ifundefined{l@ngerman}{}{\input{fc-german.def}}}{% +\input{fc-german.def}} +% \end{macrocode} +%\begin{macro}{\fmtcount@french} +% Define keys for use with |\fmtcountsetoptions|. +% Key to switch French dialects (Does babel store +%this kind of information?) +% \begin{macrocode} +\def\fmtcount@french{france} +\define@key{fmtcount}{french}[france]{% +\@ifundefined{datefrench}{% +\PackageError{fmtcount}{Language `french' not defined}{You need +to load babel before loading fmtcount}}{ +\ifthenelse{\equal{#1}{france} + \or\equal{#1}{swiss} + \or\equal{#1}{belgian}}{% + \def\fmtcount@french{#1}}{% +\PackageError{fmtcount}{Invalid value `#1' to french key} +{Option `french' can only take the values `france', +`belgian' or `swiss'}} +}} +% \end{macrocode} +%\end{macro} +% Key to determine how to display the ordinal +% \begin{macrocode} +\define@key{fmtcount}{fmtord}{% +\ifthenelse{\equal{#1}{level} + \or\equal{#1}{raise} + \or\equal{#1}{user}}{ + \def\fmtcount@fmtord{#1}}{% +\PackageError{fmtcount}{Invalid value `#1' to fmtord key} +{Option `fmtord' can only take the values `level', `raise' +or `user'}}} +% \end{macrocode} +%\begin{macro}{\iffmtord@abbrv} +% Key to determine whether the ordinal should be abbreviated +% (language dependent, currently only affects French ordinals.) +% \begin{macrocode} +\newif\iffmtord@abbrv +\fmtord@abbrvfalse +\define@key{fmtcount}{abbrv}[true]{% +\ifthenelse{\equal{#1}{true}\or\equal{#1}{false}}{ + \csname fmtord@abbrv#1\endcsname}{% +\PackageError{fmtcount}{Invalid value `#1' to fmtord key} +{Option `fmtord' can only take the values `true' or +`false'}}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\fmtcountsetoptions} +% Define command to set options. +% \begin{macrocode} +\newcommand*{\fmtcountsetoptions}[1]{% +\def\fmtcount@fmtord{}% +\setkeys{fmtcount}{#1}% +\@ifundefined{datefrench}{}{% +\edef\@ordinalstringMfrench{\noexpand +\csname @ordinalstringMfrench\fmtcount@french\noexpand\endcsname}% +\edef\@ordinalstringFfrench{\noexpand +\csname @ordinalstringFfrench\fmtcount@french\noexpand\endcsname}% +\edef\@OrdinalstringMfrench{\noexpand +\csname @OrdinalstringMfrench\fmtcount@french\noexpand\endcsname}% +\edef\@OrdinalstringFfrench{\noexpand +\csname @OrdinalstringFfrench\fmtcount@french\noexpand\endcsname}% +\edef\@numberstringMfrench{\noexpand +\csname @numberstringMfrench\fmtcount@french\noexpand\endcsname}% +\edef\@numberstringFfrench{\noexpand +\csname @numberstringFfrench\fmtcount@french\noexpand\endcsname}% +\edef\@NumberstringMfrench{\noexpand +\csname @NumberstringMfrench\fmtcount@french\noexpand\endcsname}% +\edef\@NumberstringFfrench{\noexpand +\csname @NumberstringFfrench\fmtcount@french\noexpand\endcsname}% +}% +% +\ifthenelse{\equal{\fmtcount@fmtord}{level}}{% +\renewcommand{\fmtord}[1]{##1}}{% +\ifthenelse{\equal{\fmtcount@fmtord}{raise}}{% +\renewcommand{\fmtord}[1]{\textsuperscript{##1}}}{% +}} +} +% \end{macrocode} +%\end{macro} +% Load confguration file if it exists. This needs to be done +% before the package options, to allow the user to override +% the settings in the configuration file. +% \begin{macrocode} +\InputIfFileExists{fmtcount.cfg}{% +\typeout{Using configuration file fmtcount.cfg}}{% +\typeout{No configuration file fmtcount.cfg found.}} +% \end{macrocode} +%Declare options +% \begin{macrocode} +\DeclareOption{level}{\def\fmtcount@fmtord{level}% +\def\fmtord#1{#1}} +\DeclareOption{raise}{\def\fmtcount@fmtord{raise}% +\def\fmtord#1{\textsuperscript{#1}}} +% \end{macrocode} +% Process package options +% \begin{macrocode} +\ProcessOptions +% \end{macrocode} +%\begin{macro}{\@modulo} +%\begin{definition} +%\cs{@modulo}\marg{count reg}\marg{n} +%\end{definition} +% Sets the count register to be its value modulo \meta{n}. +% This is used for the +% date, time, ordinal and numberstring commands. (The fmtcount +% package was originally part of the datetime package.) +% \begin{macrocode} +\newcount\@DT@modctr +\def\@modulo#1#2{% +\@DT@modctr=#1\relax +\divide \@DT@modctr by #2\relax +\multiply \@DT@modctr by #2\relax +\advance #1 by -\@DT@modctr} +% \end{macrocode} +%\end{macro} +% The following registers are needed by |\@ordinal| etc +% \begin{macrocode} +\newcount\@ordinalctr +\newcount\@orgargctr +\newcount\@strctr +\newcount\@tmpstrctr +% \end{macrocode} +%Define commands that display numbers in different bases. +% Define counters and conditionals needed. +% \begin{macrocode} +\newif\if@DT@padzeroes +\newcount\@DT@loopN +\newcount\@DT@X +% \end{macrocode} +%\begin{macro}{\binarynum} +% Converts a decimal number to binary, and display. +% \begin{macrocode} +\newcommand*{\@binary}[1]{% +\@DT@padzeroestrue +\@DT@loopN=17\relax +\@strctr=\@DT@loopN +\whiledo{\@strctr<\c@padzeroesN}{0\advance\@strctr by 1}% +\@strctr=65536\relax +\@DT@X=#1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes} \and \(\@DT@modctr=0\) \and \(\@DT@loopN>\c@padzeroesN\)}{}{\the\@DT@modctr}% +\ifnum\@DT@modctr=0\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 2\relax +\advance\@DT@loopN by -1\relax +\ifnum\@strctr>1 +\repeat +\the\@DT@X} + +\let\binarynum=\@binary +% \end{macrocode} +%\end{macro} +%\begin{macro}{\octalnum} +% Converts a decimal number to octal, and displays. +% \begin{macrocode} +\newcommand*{\@octal}[1]{% +\ifnum#1>32768 +\PackageError{fmtcount}{Value of counter too large for \protect\@octal}{Maximum value 32768} +\else +\@DT@padzeroestrue +\@DT@loopN=6\relax +\@strctr=\@DT@loopN +\whiledo{\@strctr<\c@padzeroesN}{0\advance\@strctr by 1}% +\@strctr=32768\relax +\@DT@X=#1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes} \and \(\@DT@modctr=0\) \and \(\@DT@loopN>\c@padzeroesN\)}{}{\the\@DT@modctr}% +\ifnum\@DT@modctr=0\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 8\relax +\advance\@DT@loopN by -1\relax +\ifnum\@strctr>1 +\repeat +\the\@DT@X +\fi} +\let\octalnum=\@octal +% \end{macrocode} +%\end{macro} +%\begin{macro}{\hexadecimalnum} +% Converts a decimal number to a lowercase hexadecimal number, +% and displays it. +% \begin{macrocode} +\newcommand*{\@@hexadecimal}[1]{\ifcase#10\or1\or2\or3\or4\or5\or +6\or7\or8\or9\or a\or b\or c\or d\or e\or f\fi} + +\newcommand*{\@hexadecimal}[1]{% +\@DT@padzeroestrue +\@DT@loopN=5\relax +\@strctr=\@DT@loopN +\whiledo{\@strctr<\c@padzeroesN}{0\advance\@strctr by 1}% +\@strctr=65536\relax +\@DT@X=#1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes}\and\(\@DT@modctr=0\)\and +\(\@DT@loopN>\c@padzeroesN\)}{}{\@@hexadecimal\@DT@modctr}% +\ifnum\@DT@modctr=0\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 16\relax +\advance\@DT@loopN by -1\relax +\ifnum\@strctr>1 +\repeat +\@@hexadecimal\@DT@X} + +\let\hexadecimalnum=\@hexadecimal +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Hexadecimalnum} +% Uppercase hexadecimal +% \begin{macrocode} +\newcommand*{\@@Hexadecimal}[1]{\ifcase#10\or1\or2\or3\or4\or5\or6\or +7\or8\or9\or A\or B\or C\or D\or E\or F\fi} + +\newcommand*{\@Hexadecimal}[1]{% +\@DT@padzeroestrue +\@DT@loopN=5\relax +\@strctr=\@DT@loopN +\whiledo{\@strctr<\c@padzeroesN}{0\advance\@strctr by 1}% +\@strctr=65536\relax +\@DT@X=#1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes} \and \(\@DT@modctr=0\) \and \(\@DT@loopN>\c@padzeroesN\)}{}{\@@Hexadecimal\@DT@modctr}% +\ifnum\@DT@modctr=0\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 16\relax +\advance\@DT@loopN by -1\relax +\ifnum\@strctr>1 +\repeat +\@@Hexadecimal\@DT@X} + +\let\Hexadecimalnum=\@Hexadecimal +% \end{macrocode} +%\end{macro} +%\begin{macro}{\aaalphnum} +% Lowercase alphabetical representation (a \ldots\ z aa \ldots\ zz) +% \begin{macrocode} +\newcommand*{\@aaalph}[1]{% +\@DT@loopN=#1\relax +\advance\@DT@loopN by -1\relax +\divide\@DT@loopN by 26\relax +\@DT@modctr=\@DT@loopN +\multiply\@DT@modctr by 26\relax +\@DT@X=#1\relax +\advance\@DT@X by -1\relax +\advance\@DT@X by -\@DT@modctr +\advance\@DT@loopN by 1\relax +\advance\@DT@X by 1\relax +\loop +\@alph\@DT@X +\advance\@DT@loopN by -1\relax +\ifnum\@DT@loopN>0 +\repeat +} + +\let\aaalphnum=\@aaalph +% \end{macrocode} +%\end{macro} +%\begin{macro}{\AAAlphnum} +% Uppercase alphabetical representation (a \ldots\ z aa \ldots\ zz) +% \begin{macrocode} +\newcommand*{\@AAAlph}[1]{% +\@DT@loopN=#1\relax +\advance\@DT@loopN by -1\relax +\divide\@DT@loopN by 26\relax +\@DT@modctr=\@DT@loopN +\multiply\@DT@modctr by 26\relax +\@DT@X=#1\relax +\advance\@DT@X by -1\relax +\advance\@DT@X by -\@DT@modctr +\advance\@DT@loopN by 1\relax +\advance\@DT@X by 1\relax +\loop +\@Alph\@DT@X +\advance\@DT@loopN by -1\relax +\ifnum\@DT@loopN>0 +\repeat +} + +\let\AAAlphnum=\@AAAlph +% \end{macrocode} +%\end{macro} +%\begin{macro}{\abalphnum} +% Lowercase alphabetical representation +% \begin{macrocode} +\newcommand*{\@abalph}[1]{% +\ifnum#1>17576\relax +\PackageError{fmtcount}{Value of counter too large for +\protect\@abalph}{Maximum value 17576}% +\else +\@DT@padzeroestrue +\@strctr=17576\relax +\@DT@X=#1\relax +\advance\@DT@X by -1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes}\and +\(\@DT@modctr=1\)}{}{\@alph\@DT@modctr}% +\ifnum\@DT@modctr=1\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 26\relax +\ifnum\@strctr>1 +\repeat +\advance\@DT@X by 1\relax +\@alph\@DT@X +\fi} + +\let\abalphnum=\@abalph +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ABAlphnum} +% Uppercase alphabetical representation +% \begin{macrocode} +\newcommand*{\@ABAlph}[1]{% +\ifnum#1>17576\relax +\PackageError{fmtcount}{Value of counter too large for +\protect\@ABAlph}{Maximum value 17576}% +\else +\@DT@padzeroestrue +\@strctr=17576\relax +\@DT@X=#1\relax +\advance\@DT@X by -1\relax +\loop +\@DT@modctr=\@DT@X +\divide\@DT@modctr by \@strctr +\ifthenelse{\boolean{@DT@padzeroes}\and +\(\@DT@modctr=1\)}{}{\@Alph\@DT@modctr}% +\ifnum\@DT@modctr=1\else\@DT@padzeroesfalse\fi +\multiply\@DT@modctr by \@strctr +\advance\@DT@X by -\@DT@modctr +\divide\@strctr by 26\relax +\ifnum\@strctr>1 +\repeat +\advance\@DT@X by 1\relax +\@Alph\@DT@X +\fi} + +\let\ABAlphnum=\@ABAlph +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@fmtc@count} +% Recursive command to count number of characters in argument. +% |\@strctr| should be set to zero before calling it. +% \begin{macrocode} +\def\@fmtc@count#1#2\relax{% +\if\relax#1 +\else +\advance\@strctr by 1\relax +\@fmtc@count#2\relax +\fi} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@decimal} +% Format number as a decimal, possibly padded with zeroes in front. +% \begin{macrocode} +\newcommand{\@decimal}[1]{% +\@strctr=0\relax +\expandafter\@fmtc@count\number#1\relax +\@DT@loopN=\c@padzeroesN +\advance\@DT@loopN by -\@strctr +\ifnum\@DT@loopN>0\relax +\@strctr=0\relax +\whiledo{\@strctr < \@DT@loopN}{0\advance\@strctr by 1}% +\fi +\number#1\relax +} + +\let\decimalnum=\@decimal +% \end{macrocode} +%\end{macro} +%\begin{macro}{\FCordinal} +%\begin{definition} +%\cs{FCordinal}\marg{number} +%\end{definition} +% This is a bit cumbersome. Previously \cs{@ordinal} +% was defined in a similar way to \cs{abalph} etc. +% This ensured that the actual value of the counter was +% written in the new label stuff in the .aux file. However +% adding in an optional argument to determine the gender +% for multilingual compatibility messed things up somewhat. +% This was the only work around I could get to keep the +% the cross-referencing stuff working, which is why +% the optional argument comes \emph{after} the compulsory +% argument, instead of the usual manner of placing it before. +% Note however, that putting the optional argument means that +% any spaces will be ignored after the command if the optional +% argument is omitted. +% Version 1.04 changed \cs{ordinal} to \cs{FCordinal} +% to prevent it clashing with the memoir class. +% \begin{macrocode} +\newcommand{\FCordinal}[1]{% +\expandafter\protect\expandafter\ordinalnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ordinal} +% If \cs{ordinal} isn't defined make \cs{ordinal} a synonym +% for \cs{FCordinal} to maintain compatibility with previous +% versions. +% \begin{macrocode} +\@ifundefined{ordinal}{\let\ordinal\FCordinal}{% +\PackageWarning{fmtcount}{\string\ordinal +\space already defined use \string\FCordinal \space instead.}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ordinalnum} +% Display ordinal where value is given as a number or +% count register instead of a counter: +% \begin{macrocode} +\newcommand*{\ordinalnum}[1]{\@ifnextchar[{\@ordinalnum{#1}}{% +\@ordinalnum{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@ordinalnum} +% Display ordinal according to gender (neuter added in v1.1, +% \cs{xspace} added in v1.2, and removed in v1.3\footnote{I +%couldn't get it to work consistently both with and without the +%optional argument}): +% \begin{macrocode} +\def\@ordinalnum#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% + \protect\@ordinalF{#1}{\@fc@ordstr}% + }{% + \ifthenelse{\equal{#2}{n}}{% + \protect\@ordinalN{#1}{\@fc@ordstr}% + }{% + \ifthenelse{\equal{#2}{m}}{}{% + \PackageError{fmtcount}{Invalid gender option `#2'}{% + Available options are m, f or n}% + }% + \protect\@ordinalM{#1}{\@fc@ordstr}% + }% + }% +\@fc@ordstr +}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeordinal} +% Store the ordinal (first argument +% is identifying name, second argument is a counter.) +% \begin{macrocode} +\newcommand*{\storeordinal}[2]{% +\expandafter\protect\expandafter\storeordinalnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeordinalnum} +% Store ordinal (first argument +% is identifying name, second argument is a number or +% count register.) +% \begin{macrocode} +\newcommand*{\storeordinalnum}[2]{% +\@ifnextchar[{\@storeordinalnum{#1}{#2}}{% +\@storeordinalnum{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@storeordinalnum} +% Store ordinal according to gender: +% \begin{macrocode} +\def\@storeordinalnum#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@ordinalF{#2}{\@fc@ord}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@ordinalN{#2}{\@fc@ord}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m or f}}% +\protect\@ordinalM{#2}{\@fc@ord}}}% +\expandafter\let\csname @fcs@#1\endcsname\@fc@ord} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\FMCuse} +% Get stored information: +% \begin{macrocode} +\newcommand*{\FMCuse}[1]{\csname @fcs@#1\endcsname} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ordinalstring} +% Display ordinal as a string (argument is a counter) +% \begin{macrocode} +\newcommand*{\ordinalstring}[1]{% +\expandafter\protect\expandafter\ordinalstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ordinalstringnum} +% Display ordinal as a string (argument is a count register or +% number.) +% \begin{macrocode} +\newcommand{\ordinalstringnum}[1]{% +\@ifnextchar[{\@ordinal@string{#1}}{\@ordinal@string{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@ordinal@string} +% Display ordinal as a string according to gender. +% \begin{macrocode} +\def\@ordinal@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@ordinalstringF{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@ordinalstringN{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2' to +\string\ordinalstring}{Available options are m, f or f}}% +\protect\@ordinalstringM{#1}{\@fc@ordstr}}}\@fc@ordstr}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeordinalstring} +% Store textual representation of number. First argument is +% identifying name, second argument is the counter set to the +% required number. +% \begin{macrocode} +\newcommand*{\storeordinalstring}[2]{% +\expandafter\protect\expandafter\storeordinalstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeordinalstringnum} +% Store textual representation of number. First argument is +% identifying name, second argument is a count register or number. +% \begin{macrocode} +\newcommand*{\storeordinalstringnum}[2]{% +\@ifnextchar[{\@store@ordinal@string{#1}{#2}}{% +\@store@ordinal@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@ordinal@string} +% Store textual representation of number according to gender. +% \begin{macrocode} +\def\@store@ordinal@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@ordinalstringF{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@ordinalstringN{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3' to +\string\ordinalstring}{Available options are m, f or n}}% +\protect\@ordinalstringM{#2}{\@fc@ordstr}}}% +\expandafter\let\csname @fcs@#1\endcsname\@fc@ordstr} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Ordinalstring} +% Display ordinal as a string with initial letters in upper case +% (argument is a counter) +% \begin{macrocode} +\newcommand*{\Ordinalstring}[1]{% +\expandafter\protect\expandafter\Ordinalstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Ordinalstringnum} +% Display ordinal as a string with initial letters in upper case +% (argument is a number or count register) +% \begin{macrocode} +\newcommand*{\Ordinalstringnum}[1]{% +\@ifnextchar[{\@Ordinal@string{#1}}{\@Ordinal@string{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@Ordinal@string} +% Display ordinal as a string with initial letters in upper case +% according to gender +% \begin{macrocode} +\def\@Ordinal@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@OrdinalstringF{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@OrdinalstringN{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2'}{% +Available options are m, f or n}}% +\protect\@OrdinalstringM{#1}{\@fc@ordstr}}}\@fc@ordstr}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeOrdinalstring} +% Store textual representation of number, with initial letters in +% upper case. First argument is identifying name, second argument +% is the counter set to the +% required number. +% \begin{macrocode} +\newcommand*{\storeOrdinalstring}[2]{% +\expandafter\protect\expandafter\storeOrdinalstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeOrdinalstringnum} +% Store textual representation of number, with initial letters in +% upper case. First argument is identifying name, second argument +% is a count register or number. +% \begin{macrocode} +\newcommand*{\storeOrdinalstringnum}[2]{% +\@ifnextchar[{\@store@Ordinal@string{#1}{#2}}{% +\@store@Ordinal@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@Ordinal@string} +% Store textual representation of number according to gender, +% with initial letters in upper case. +% \begin{macrocode} +\def\@store@Ordinal@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@OrdinalstringF{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@OrdinalstringN{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m or f}}% +\protect\@OrdinalstringM{#2}{\@fc@ordstr}}}% +\expandafter\let\csname @fcs@#1\endcsname\@fc@ordstr} +% \end{macrocode} +%\end{macro} +% +%\begin{macro}{\storeORDINALstring} +% Store upper case textual representation of ordinal. The first +% argument is identifying name, the second argument is a counter. +% \begin{macrocode} +\newcommand*{\storeORDINALstring}[2]{% +\expandafter\protect\expandafter\storeORDINALstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeORDINALstringnum} +% As above, but the second argument is a count register or a +% number. +% \begin{macrocode} +\newcommand*{\storeORDINALstringnum}[2]{% +\@ifnextchar[{\@store@ORDINAL@string{#1}{#2}}{% +\@store@ORDINAL@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@ORDINAL@string} +% Gender is specified as an optional argument at the end. +% \begin{macrocode} +\def\@store@ORDINAL@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@ordinalstringF{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@ordinalstringN{#2}{\@fc@ordstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m or f}}% +\protect\@ordinalstringM{#2}{\@fc@ordstr}}}% +\expandafter\edef\csname @fcs@#1\endcsname{% +\noexpand\MakeUppercase{\@fc@ordstr}}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ORDINALstring} +% Display upper case textual representation of an ordinal. The +% argument must be a counter. +% \begin{macrocode} +\newcommand*{\ORDINALstring}[1]{% +\expandafter\protect\expandafter\ORDINALstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ORDINALstringnum} +% As above, but the argument is a count register or a number. +% \begin{macrocode} +\newcommand*{\ORDINALstringnum}[1]{% +\@ifnextchar[{\@ORDINAL@string{#1}}{\@ORDINAL@string{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@ORDINAL@string} +% Gender is specified as an optional argument at the end. +% \begin{macrocode} +\def\@ORDINAL@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@ordinalstringF{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@ordinalstringN{#1}{\@fc@ordstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2'}{% +Available options are m, f or n}}% +\protect\@ordinalstringM{#1}{\@fc@ordstr}}}% +\MakeUppercase{\@fc@ordstr}}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storenumberstring} +% Convert number to textual respresentation, and store. First +% argument is the identifying name, second argument is a counter +% containing the number. +% \begin{macrocode} +\newcommand*{\storenumberstring}[2]{% +\expandafter\protect\expandafter\storenumberstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storenumberstringnum} +% As above, but second argument is a number or count register. +% \begin{macrocode} +\newcommand{\storenumberstringnum}[2]{% +\@ifnextchar[{\@store@number@string{#1}{#2}}{% +\@store@number@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@number@string} +% Gender is given as optional argument, \emph{at the end}. +% \begin{macrocode} +\def\@store@number@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@numberstringF{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@numberstringN{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m, f or n}}% +\protect\@numberstringM{#2}{\@fc@numstr}}}% +\expandafter\let\csname @fcs@#1\endcsname\@fc@numstr} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\numberstring} +% Display textual representation of a number. The argument +% must be a counter. +% \begin{macrocode} +\newcommand*{\numberstring}[1]{% +\expandafter\protect\expandafter\numberstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\numberstringnum} +% As above, but the argument is a count register or a number. +% \begin{macrocode} +\newcommand*{\numberstringnum}[1]{% +\@ifnextchar[{\@number@string{#1}}{\@number@string{#1}[m]}% +} +% \end{macrocode} +%\end{macro} +% +%\begin{macro}{\@number@string} +% Gender is specified as an optional argument \emph{at the end}. +% \begin{macrocode} +\def\@number@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@numberstringF{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@numberstringN{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2'}{% +Available options are m, f or n}}% +\protect\@numberstringM{#1}{\@fc@numstr}}}\@fc@numstr}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeNumberstring} +% Store textual representation of number. First argument is +% identifying name, second argument is a counter. +% \begin{macrocode} +\newcommand*{\storeNumberstring}[2]{% +\expandafter\protect\expandafter\storeNumberstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeNumberstringnum} +% As above, but second argument is a count register or number. +% \begin{macrocode} +\newcommand{\storeNumberstringnum}[2]{% +\@ifnextchar[{\@store@Number@string{#1}{#2}}{% +\@store@Number@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@Number@string} +% Gender is specified as an optional argument \emph{at the end}: +% \begin{macrocode} +\def\@store@Number@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@NumberstringF{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@NumberstringN{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m, f or n}}% +\protect\@NumberstringM{#2}{\@fc@numstr}}}% +\expandafter\let\csname @fcs@#1\endcsname\@fc@numstr} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Numberstring} +% Display textual representation of number. The argument must be +% a counter. +% \begin{macrocode} +\newcommand*{\Numberstring}[1]{% +\expandafter\protect\expandafter\Numberstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Numberstringnum} +% As above, but the argument is a count register or number. +% \begin{macrocode} +\newcommand*{\Numberstringnum}[1]{% +\@ifnextchar[{\@Number@string{#1}}{\@Number@string{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@Number@string} +% Gender is specified as an optional argument at the end. +% \begin{macrocode} +\def\@Number@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@NumberstringF{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@NumberstringN{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2'}{% +Available options are m, f or n}}% +\protect\@NumberstringM{#1}{\@fc@numstr}}}\@fc@numstr}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeNUMBERstring} +% Store upper case textual representation of number. The first +% argument is identifying name, the second argument is a counter. +% \begin{macrocode} +\newcommand{\storeNUMBERstring}[2]{% +\expandafter\protect\expandafter\storeNUMBERstringnum{#1}{% +\expandafter\the\csname c@#2\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\storeNUMBERstringnum} +% As above, but the second argument is a count register or a +% number. +% \begin{macrocode} +\newcommand{\storeNUMBERstringnum}[2]{% +\@ifnextchar[{\@store@NUMBER@string{#1}{#2}}{% +\@store@NUMBER@string{#1}{#2}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@store@NUMBER@string} +% Gender is specified as an optional argument at the end. +% \begin{macrocode} +\def\@store@NUMBER@string#1#2[#3]{% +\ifthenelse{\equal{#3}{f}}{% +\protect\@numberstringF{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{n}}{% +\protect\@numberstringN{#2}{\@fc@numstr}}{% +\ifthenelse{\equal{#3}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#3'}{% +Available options are m or f}}% +\protect\@numberstringM{#2}{\@fc@numstr}}}% +\expandafter\edef\csname @fcs@#1\endcsname{% +\noexpand\MakeUppercase{\@fc@numstr}}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\NUMBERstring} +% Display upper case textual representation of a number. The +% argument must be a counter. +% \begin{macrocode} +\newcommand*{\NUMBERstring}[1]{% +\expandafter\protect\expandafter\NUMBERstringnum{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\NUMBERstringnum} +% As above, but the argument is a count register or a number. +% \begin{macrocode} +\newcommand*{\NUMBERstringnum}[1]{% +\@ifnextchar[{\@NUMBER@string{#1}}{\@NUMBER@string{#1}[m]}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@NUMBER@string} +% Gender is specified as an optional argument at the end. +% \begin{macrocode} +\def\@NUMBER@string#1[#2]{{% +\ifthenelse{\equal{#2}{f}}{% +\protect\@numberstringF{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{n}}{% +\protect\@numberstringN{#1}{\@fc@numstr}}{% +\ifthenelse{\equal{#2}{m}}{}{% +\PackageError{fmtcount}{Invalid gender option `#2'}{% +Available options are m, f or n}}% +\protect\@numberstringM{#1}{\@fc@numstr}}}% +\MakeUppercase{\@fc@numstr}}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\binary} +% Number representations in other bases. Binary: +% \begin{macrocode} +\providecommand*{\binary}[1]{% +\expandafter\protect\expandafter\@binary{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\aaalph} +% Like \verb"\alph", but goes beyond 26. +% (a \ldots\ z aa \ldots zz \ldots) +% \begin{macrocode} +\providecommand*{\aaalph}[1]{% +\expandafter\protect\expandafter\@aaalph{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\AAAlph} +% As before, but upper case. +% \begin{macrocode} +\providecommand*{\AAAlph}[1]{% +\expandafter\protect\expandafter\@AAAlph{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\abalph} +% Like \verb"\alph", but goes beyond 26. +% (a \ldots\ z ab \ldots az \ldots) +% \begin{macrocode} +\providecommand*{\abalph}[1]{% +\expandafter\protect\expandafter\@abalph{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\ABAlph} +% As above, but upper case. +% \begin{macrocode} +\providecommand*{\ABAlph}[1]{% +\expandafter\protect\expandafter\@ABAlph{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\hexadecimal} +% Hexadecimal: +% \begin{macrocode} +\providecommand*{\hexadecimal}[1]{% +\expandafter\protect\expandafter\@hexadecimal{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\Hexadecimal} +% As above, but in upper case. +% \begin{macrocode} +\providecommand*{\Hexadecimal}[1]{% +\expandafter\protect\expandafter\@Hexadecimal{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\octal} +% Octal: +% \begin{macrocode} +\providecommand*{\octal}[1]{% +\expandafter\protect\expandafter\@octal{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\decimal} +% Decimal: +% \begin{macrocode} +\providecommand*{\decimal}[1]{% +\expandafter\protect\expandafter\@decimal{% +\expandafter\the\csname c@#1\endcsname}} +% \end{macrocode} +%\end{macro} +% +%\subsubsection{Multilinguage Definitions} +%\begin{macro}{\@setdef@ultfmtcount} +% If multilingual support is provided, make \verb"\@numberstring" +% etc use the correct language (if defined). +% Otherwise use English definitions. "\@setdef@ultfmtcount" +% sets the macros to use English. +% \begin{macrocode} +\def\@setdef@ultfmtcount{ +\@ifundefined{@ordinalMenglish}{\input{fc-english.def}}{} +\def\@ordinalstringM{\@ordinalstringMenglish} +\let\@ordinalstringF=\@ordinalstringMenglish +\let\@ordinalstringN=\@ordinalstringMenglish +\def\@OrdinalstringM{\@OrdinalstringMenglish} +\let\@OrdinalstringF=\@OrdinalstringMenglish +\let\@OrdinalstringN=\@OrdinalstringMenglish +\def\@numberstringM{\@numberstringMenglish} +\let\@numberstringF=\@numberstringMenglish +\let\@numberstringN=\@numberstringMenglish +\def\@NumberstringM{\@NumberstringMenglish} +\let\@NumberstringF=\@NumberstringMenglish +\let\@NumberstringN=\@NumberstringMenglish +\def\@ordinalM{\@ordinalMenglish} +\let\@ordinalF=\@ordinalM +\let\@ordinalN=\@ordinalM +} +% \end{macrocode} +%\end{macro} +%\begin{macro}{\@set@mulitling@fmtcount} +% This defines the number and ordinal string macros to use +% \cs{languagename}: +% \begin{macrocode} +\def\@set@mulitling@fmtcount{% +% \end{macrocode} +% The masculine version of \cs{numberstring}: +% \begin{macrocode} +\def\@numberstringM{\@ifundefined{@numberstringM\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@numberstringM}}{% +\csname @numberstringM\languagename\endcsname}}% +% \end{macrocode} +% The feminine version of \cs{numberstring}: +% \begin{macrocode} +\def\@numberstringF{\@ifundefined{@numberstringF\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@numberstringF}}{% +\csname @numberstringF\languagename\endcsname}}% +% \end{macrocode} +% The neuter version of \cs{numberstring}: +% \begin{macrocode} +\def\@numberstringN{\@ifundefined{@numberstringN\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@numberstringN}}{% +\csname @numberstringN\languagename\endcsname}}% +% \end{macrocode} +% The masculine version of \cs{Numberstring}: +% \begin{macrocode} +\def\@NumberstringM{\@ifundefined{@NumberstringM\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@NumberstringM}}{% +\csname @NumberstringM\languagename\endcsname}}% +% \end{macrocode} +% The feminine version of \cs{Numberstring}: +% \begin{macrocode} +\def\@NumberstringF{\@ifundefined{@NumberstringF\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@NumberstringF}}{% +\csname @NumberstringF\languagename\endcsname}}% +% \end{macrocode} +% The neuter version of \cs{Numberstring}: +% \begin{macrocode} +\def\@NumberstringN{\@ifundefined{@NumberstringN\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@NumberstringN}}{% +\csname @NumberstringN\languagename\endcsname}}% +% \end{macrocode} +% The masculine version of \cs{ordinal}: +% \begin{macrocode} +\def\@ordinalM{\@ifundefined{@ordinalM\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalM}}{% +\csname @ordinalM\languagename\endcsname}}% +% \end{macrocode} +% The feminine version of \cs{ordinal}: +% \begin{macrocode} +\def\@ordinalF{\@ifundefined{@ordinalF\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalF}}{% +\csname @ordinalF\languagename\endcsname}}% +% \end{macrocode} +% The neuter version of \cs{ordinal}: +% \begin{macrocode} +\def\@ordinalN{\@ifundefined{@ordinalN\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalN}}{% +\csname @ordinalN\languagename\endcsname}}% +% \end{macrocode} +% The masculine version of \cs{ordinalstring}: +% \begin{macrocode} +\def\@ordinalstringM{\@ifundefined{@ordinalstringM\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalstringM}}{% +\csname @ordinalstringM\languagename\endcsname}}% +% \end{macrocode} +% The feminine version of \cs{ordinalstring}: +% \begin{macrocode} +\def\@ordinalstringF{\@ifundefined{@ordinalstringF\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalstringF}}{% +\csname @ordinalstringF\languagename\endcsname}}% +% \end{macrocode} +% The neuter version of \cs{ordinalstring}: +% \begin{macrocode} +\def\@ordinalstringN{\@ifundefined{@ordinalstringN\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@ordinalstringN}}{% +\csname @ordinalstringN\languagename\endcsname}}% +% \end{macrocode} +% The masculine version of \cs{Ordinalstring}: +% \begin{macrocode} +\def\@OrdinalstringM{\@ifundefined{@OrdinalstringM\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@OrdinalstringM}}{% +\csname @OrdinalstringM\languagename\endcsname}}% +% \end{macrocode} +% The feminine version of \cs{Ordinalstring}: +% \begin{macrocode} +\def\@OrdinalstringF{\@ifundefined{@OrdinalstringF\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@OrdinalstringF}}{% +\csname @OrdinalstringF\languagename\endcsname}}% +% \end{macrocode} +% The neuter version of \cs{Ordinalstring}: +% \begin{macrocode} +\def\@OrdinalstringN{\@ifundefined{@OrdinalstringN\languagename}{% +\PackageError{fmtcount}{No support for language '\languagename'}{% +The fmtcount package currently does not support language +'\languagename' for command \string\@OrdinalstringN}}{% +\csname @OrdinalstringN\languagename\endcsname}} +} +% \end{macrocode} +%\end{macro} +% Check to see if babel or ngerman packages have been loaded. +% \begin{macrocode} +\@ifpackageloaded{babel}{% +\ifthenelse{\equal{\languagename}{nohyphenation}\or +\equal{languagename}{english}}{\@setdef@ultfmtcount}{% +\@set@mulitling@fmtcount} +}{% +\@ifpackageloaded{ngerman}{% +\@ifundefined{@numberstringMgerman}{% +\input{fc-german.def}}{}\@set@mulitling@fmtcount}{% +\@setdef@ultfmtcount}} +% \end{macrocode} +% Backwards compatibility: +% \begin{macrocode} +\let\@ordinal=\@ordinalM +\let\@ordinalstring=\@ordinalstringM +\let\@Ordinalstring=\@OrdinalstringM +\let\@numberstring=\@numberstringM +\let\@Numberstring=\@NumberstringM +% \end{macrocode} +%\iffalse +% \begin{macrocode} +%</fmtcount.sty> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%<*fmtcount.perl> +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +# File : fmtcount.perl +# Author : Nicola Talbot +# Date : 26 May 2007 +# Version : 1.05 +# Description : LaTeX2HTML implementation of fmtcount package + +package main; + +sub do_fmtcount_raise{ + local($tmp)=""; + + $tmp .= 'sub do_cmd_fmtord{'; + $tmp .= 'local($_) = @_;'; + $tmp .= 'local($suffix) = &missing_braces unless (s/$next_pair_pr_rx/$suffix=$2;\'\'/eo);'; + $tmp .= 'join("", "<SUP>",$suffix,"</SUP>",$_);'; + $tmp .='}'; + + eval($tmp); +} + +sub do_fmtcount_level{ + local($tmp)=""; + + $tmp .= 'sub do_cmd_fmtord{'; + $tmp .= 'local($_) = @_;'; + $tmp .= 'local($suffix) = &missing_braces unless (s/$next_pair_pr_rx/$suffix=$2;\'\'/eo);'; + $tmp .= 'join("", $suffix,$_);'; + $tmp .='}'; + + eval($tmp); +} + +if (not defined &do_cmd_fmtord) +{ + &do_fmtcount_raise(@_); +} + +$frenchdialect = 'france'; +$ordinalabbrv = 0; + +sub get_ordinal_suffix_english{ + local($num,$gender) = @_; + local($suffix); + + if ((($num % 10) == 1) && ($num%100 != 11)) + { + $suffix = 'st'; + } + elsif ((($num % 10) == 2) && ($num%100 != 12)) + { + $suffix = 'nd'; + } + elsif ((($num % 10) == 3) && ($num%100 != 13)) + { + $suffix = 'rd'; + } + else + { + $suffix = 'th'; + } + + $suffix; +} + +sub get_ordinal_suffix_french{ + local($num,$gender) = @_; + local($_); + + if ($ordinalabbrv > 0) + { + $_ = 'e'; + } + else + { + if ($num == 1) + { + $_ = ($gender eq 'f' ? 'ere' : 'er'); + } + else + { + $_ = 'eme'; + } + } +} + +sub get_ordinal_suffix_spanish{ + local($num,$gender) = @_; + + ($gender eq 'f' ? 'a' : 'o'); +} + +sub get_ordinal_suffix_portuges{ + local($num,$gender) = @_; + + ($gender eq 'f' ? 'a' : 'o'); +} + +sub get_ordinal_suffix_german{ + local($num,$gender) = @_; + + ''; +} + +sub get_ordinal_suffix_ngerman{ + local($num,$gender) = @_; + + ''; +} + +sub get_ordinal_suffix{ + local($num,$gender) = @_; + local($suffix,$suffixsub); + + $suffixsub = "get_ordinal_suffix_$default_language"; + + if (defined ($suffixsub)) + { + $suffix = &$suffixsub($num,$gender); + } + else + { + $suffix = &get_ordinal_suffix_english($num,$gender); + } + + $suffix; +} + +sub getordinal{ + local($num,$gender) = @_; + local($suffix) = &get_ordinal_suffix($num,$gender); + local($text)=''; + + if ($suffix eq '') + { + $text = $num; + } + else + { + local($br_id) = ++$global{'max_id'}; + $text = $num . "\\fmtord${OP}$br_id${CP}$suffix${OP}$br_id${CP}"; + } + + $text; +} + +sub do_cmd_ordinalnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + my($gender)='m'; + local($suffix)=''; + + if (s/\[([mfn])\]//) + { + $gender = $1; + } + + $suffix = &get_ordinal_suffix($num,$gender); + + local($br_id) = ++$global{'max_id'}; + join('', $num, "\\fmtord${OP}$br_id${CP}$suffix${OP}$br_id${CP}", $_); +} + +sub do_cmd_FCordinal{ + &do_cmd_ordinal; +} + +sub do_cmd_ordinal{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $str eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{ORDINAL{', $ctr, '}}', $_[0]); + } + else + { + join('', &getordinal($val, $gender), $_[0]); + } +} + +sub do_cmd_storeordinal{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{ORDINAL{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = &getordinal($val, $gender); + } + + $_; +} + +sub do_cmd_storeordinalnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[([mfn])\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = &getordinal($val, $gender); + + $_; +} + +@unitthstring = ('zeroth', + 'first', + 'second', + 'third', + 'fourth', + 'fifth', + 'sixth', + 'seventh', + 'eighth', + 'ninth'); + +@tenthstring = ('', + 'tenth', + 'twentieth', + 'thirtieth', + 'fortieth', + 'fiftieth', + 'sixtieth', + 'seventieth', + 'eightieth', + 'ninetieth'); + +@teenthstring = ('tenth', + 'eleventh', + 'twelfth', + 'thirteenth', + 'fourteenth', + 'fifteenth', + 'sixteenth', + 'seventeenth', + 'eighteenth', + 'nineteenth'); + +@unitstring = ('zero', + 'one', + 'two', + 'three', + 'four', + 'five', + 'six', + 'seven', + 'eight', + 'nine'); + +@teenstring = ('ten', + 'eleven', + 'twelve', + 'thirteen', + 'fourteen', + 'fifteen', + 'sixteen', + 'seventeen', + 'eighteen', + 'nineteen'); +@tenstring = ('', + 'ten', + 'twenty', + 'thirty', + 'forty', + 'fifty', + 'sixty', + 'seventy', + 'eighty', + 'ninety'); + +$hundredname = "hundred"; +$hundredthname = "hundredth"; +$thousandname = "thousand"; +$thousandthname = "thousandth"; + +sub get_numberstringenglish{ + local($num) = @_; + local($name)=""; + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = &get_numberstringenglish($num/1000); + $name .= $thousands . " $thousandname"; + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = &get_numberstringenglish($num/100); + $name .= $hundreds . " $hundredname"; + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " and "; } + + if ($num >= 20) + { + $name .= $tenstring[$num/10]; + + if ($num%10 > 0) { $name .= '-'; } + } + + if (($num >= 10) && ($num < 20)) + { + $name .= $teenstring[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitstring[$num%10]; + } + } + + $name; +} + +@unitthstringfrench = ('zeroi\`eme', + 'uni\`eme', + 'deuxi\`eme', + 'troisi\`eme', + 'quatri\`eme', + 'cinqui\`eme', + 'sixi\`eme', + 'septi\`eme', + 'huiti\`eme', + 'neuvi\`eme'); + +@tenthstringfrench = ('', + 'dixi\`eme', + 'vingti\`eme', + 'trentri\`eme', + 'quaranti\`eme', + 'cinquanti\`eme', + 'soixanti\`eme', + 'septenti\`eme', + 'huitanti\`eme', + 'nonenti\`eme'); + +@teenthstringfrench = ('dixi\`eme', + 'onzi\`eme', + 'douzi\`eme', + 'treizi\`eme', + 'quatorzi\`eme', + 'quinzi\`eme', + 'seizi\`eme', + 'dix-septi\`eme', + 'dix-huiti\`eme', + 'dix-neuvi\`eme'); + +@unitstringfrench = ('zero', + 'un', + 'deux', + 'trois', + 'quatre', + 'cinq', + 'six', + 'sept', + 'huit', + 'neuf'); + +@teenstringfrench = ('dix', + 'onze', + 'douze', + 'treize', + 'quatorze', + 'quinze', + 'seize', + 'dix-sept', + 'dix-huit', + 'dix-neuf'); + +@tenstringfrench = ('', + 'dix', + 'vingt', + 'trente', + 'quarante', + 'cinquante', + 'soixante', + 'septente', + 'huitante', + 'nonente'); + +$hundrednamefrench = "cent"; +$hundredthnamefrench = "centi\\`eme"; +$thousandnamefrench = "mille"; +$thousandthnamefrench = "mili\\`eme"; + +@unitthstringspanish = ('cero', + 'primero', + 'segundo', + 'tercero', + 'cuarto', + 'quinto', + 'sexto', + 's\\\'eptimo', + 'octavo', + 'noveno'); + +@tenthstringspanish = ('', + 'd\\\'ecimo', + 'vig\\\'esimo', + 'trig\\\'esimo', + 'cuadrag\\\'esimo', + 'quincuag\\\'esimo', + 'sexag\\\'esimo', + 'septuag\\\'esimo', + 'octog\\\'esimo', + 'nonag\\\'esimo'); + +@teenthstringspanish = ('d\\\'ecimo', + 'und\\\'ecimo', + 'duod\\\'ecimo', + 'decimotercero', + 'decimocuarto', + 'decimoquinto', + 'decimosexto', + 'decimos\\\'eptimo', + 'decimoctavo', + 'decimonoveno'); + +@hundredthstringspanish = ('', + 'cent\\\'esimo', + 'ducent\\\'esimo', + 'tricent\\\'esimo', + 'cuadringent\\\'esimo', + 'quingent\\\'esimo', + 'sexcent\\\'esimo', + 'septing\\\'esimo', + 'octingent\\\'esimo', + 'noningent\\\'esimo'); + +@unitstringspanish = ('cero', + 'uno', + 'dos', + 'tres', + 'cuatro', + 'cinco', + 'seis', + 'siete', + 'ocho', + 'nueve'); + +@teenstringspanish = ('diez', + 'once', + 'doce', + 'trece', + 'catorce', + 'quince', + 'diecis\\\'eis', + 'diecisiete', + 'dieciocho', + 'diecinueve'); + +@twentystringspanish = ('viente', + 'vientiuno', + 'vientid\\\'os', + 'vientitr\\\'es', + 'vienticuatro', + 'vienticinco', + 'vientis\\\'eis', + 'vientisiete', + 'vientiocho', + 'vientinueve'); + +@tenstringspanish = ('', + 'diez', + 'viente', + 'treinta', + 'cuarenta', + 'cincuenta', + 'sesenta', + 'setenta', + 'ochenta', + 'noventa'); + +@hundredstringspanish = ('', + 'ciento', + 'doscientos', + 'trescientos', + 'cuatrocientos', + 'quinientos', + 'seiscientos', + 'setecientos', + 'ochocientos', + 'novecientos'); + +$hundrednamespanish = "cien"; +$hundredthnamespanish = "centi\\`eme"; +$thousandnamespanish = "mil"; +$thousandthnamespanish = "mil\\'esimo"; + +@unitthstringportuges = ('zero', + 'primeiro', + 'segundo', + 'terceiro', + 'quatro', + 'quinto', + 'sexto', + 's\\\'etimo', + 'oitavo', + 'nono'); + +@tenthstringportuges = ('', + 'd\\\'ecimo', + 'vig\\\'esimo', + 'trig\\\'esimo', + 'quadrag\\\'esimo', + 'q\"uinquag\\\'esimo', + 'sexag\\\'esimo', + 'setuag\\\'esimo', + 'octog\\\'esimo', + 'nonag\\\'esimo'); + +@hundredthstringportuges = ('', + 'cent\\\'esimo', + 'ducent\\\'esimo', + 'trecent\\\'esimo', + 'quadringent\\\'esimo', + 'q\"uingent\\\'esimo', + 'seiscent\\\'esimo', + 'setingent\\\'esimo', + 'octingent\\\'esimo', + 'nongent\\\'esimo'); + +@unitstringportuges = ('zero', + 'um', + 'dois', + 'tr\^es', + 'quatro', + 'cinco', + 'seis', + 'sete', + 'oito', + 'nove'); + +@teenstringportuges = ('dez', + 'onze', + 'doze', + 'treze', + 'quatorze', + 'quinze', + 'dezesseis', + 'dezessete', + 'dezoito', + 'dezenove'); + +@tenstringportuges = ('', + 'dez', + 'vinte', + 'trinta', + 'quaranta', + 'cinq\"uenta', + 'sessenta', + 'setenta', + 'oitenta', + 'noventa'); + +@hundredstringportuges = ('', + 'cento', + 'duzentos', + 'trezentos', + 'quatrocentos', + 'quinhentos', + 'seiscentos', + 'setecentos', + 'oitocentos', + 'novecentos'); + +$hundrednameportuges = "cem"; +$thousandnameportuges = "mil"; +$thousandthnameportuges = "mil\\'esimo"; + +sub get_numberstringfrench{ + local($num,$gender) = @_; + local($name)=""; + + if ($gender eq 'f') + { + $unitstringfrench[1] = 'une'; + } + else + { + $unitstringfrench[1] = 'un'; + } + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = ''; + + if ($num >= 2000) + { + $thousands = &get_numberstringfrench($num/1000,$gender).' '; + } + + $name .= $thousands . $thousandnamefrench; + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = ''; + + if ($num >= 200) + { + $hundreds = &get_numberstringfrench($num/100,$gender).' '; + } + + $name .= $hundreds . $hundrednamefrench; + $num = $num%100; + + if (($_[0]%100 == 0) && ($_[0]/100 > 1)) + { + $name .= 's'; + } + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " "; } + + if ($num >= 20) + { + if ($frenchdialect eq 'france' and $num >= 70) + { + if ($num < 80) + { + $name .= $tenstringfrench[6]; + + if ($num%10 == 1) + { + $name .= ' et '; + } + else + { + $name .= '-'; + } + + $num = 10+($num%10); + } + else + { + $name .= 'quatre-vingt' . ($num==80?'s':'-'); + + if ($num >= 90) + { + $num = 10+($num%10); + } + } + } + elsif ($frenchdialect eq 'belgian' + && ($num >= 80) && ($num < 90)) + { + $name .= 'quatre-vingt' . ($num==80?'s':'-'); + } + else + { + $name .= $tenstringfrench[$num/10]; + + if ($num%10 == 1) { $name .= ' et ';} + elsif ($num%10 > 0) { $name .= '-'; } + } + } + + if (($num >= 10) && ($num < 20)) + { + $name .= $teenstringfrench[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitstringfrench[$num%10]; + } + } + + $name; +} + +sub get_numberstringspanish{ + local($num,$gender) = @_; + local($name)=""; + + if ($gender eq 'f') + { + $unitstringspanish[1] = 'una'; + } + else + { + $unitstringspanish[1] = 'uno'; + } + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = ''; + + if ($num >= 2000) + { + $thousands = &get_numberstringspanish($num/1000,$gender).' '; + } + + $name .= $thousands . $thousandnamespanish; + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = ''; + + if ($num > 100) + { + $hundreds = $hundredstringspanish[$num/100]; + } + else + { + $hundreds = 'cien'; + } + + $name .= $hundreds; + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " y "; } + + + if ($num >= 30) + { + $name .= $tenstringspanish[$num/10]; + + if ($num%10 > 0) { $name .= ' y '; } + } + + if (($num >=20) && ($num < 30)) + { + $name .= $twentystringspanish[$num%10]; + } + elsif (($num >= 10) && ($num < 20)) + { + $name .= $teenstringspanish[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitstringspanish[$num%10]; + } + } + + $name; +} + +sub get_numberstringportuges{ + local($num,$gender) = @_; + local($name)=""; + + if ($gender eq 'f') + { + $unitstringportuges[0] = 'zera'; + $unitstringportuges[1] = 'uma'; + $unitstringportuges[2] = 'duas'; + } + else + { + $unitstringportuges[0] = 'zero'; + $unitstringportuges[1] = 'um'; + $unitstringportuges[2] = 'dois'; + } + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = ''; + + if ($num >= 2000) + { + $thousands = &get_numberstringportuges($num/1000,$gender).' '; + } + + $name .= $thousands . $thousandnameportuges; + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = ''; + + if ($num > 100) + { + $hundreds = $hundredstringportuges[$num/100]; + + if ($gender eq 'f' and $num >= 200) + { + $hundreds =~s/o(s?)$/a\1/; + } + } + else + { + $hundreds = $hundrednameportuges; + } + + $name .= $hundreds; + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " e "; } + + if ($num >= 20) + { + $name .= $tenstringportuges[$num/10]; + + if ($num%10 == 1) { $name .= ' e ';} + elsif ($num%10 > 0) { $name .= ' '; } + } + + if (($num >= 10) && ($num < 20)) + { + $name .= $teenstringportuges[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitstringportuges[$num%10]; + } + } + + $name; +} + +@unitthstringMgerman = ('nullter', + 'erster', + 'zweiter', + 'dritter', + 'vierter', + 'f\\"unter', + 'sechster', + 'siebter', + 'achter', + 'neunter'); + +@tenthstringMgerman = ('', + 'zehnter', + 'zwanzigster', + 'drei\\ss igster', + 'vierzigster', + 'f\\"unfzigster', + 'sechzigster', + 'siebzigster', + 'achtzigster', + 'neunzigster'); + +@teenthstringMgerman = ('zehnter', + 'elfter', + 'zw\\"olfter', + 'dreizehnter', + 'vierzehnter', + 'f\\"unfzehnter', + 'sechzehnter', + 'siebzehnter', + 'achtzehnter', + 'neunzehnter'); + +@unitthstringFgerman = ('nullte', + 'erste', + 'zweite', + 'dritte', + 'vierte', + 'f\\"unfte', + 'sechste', + 'siebte', + 'achte', + 'neunte'); + +@tenthstringFgerman = ('', + 'zehnte', + 'zwanzigste', + 'drei\\ss igste', + 'vierzigste', + 'f\\"unfzigste', + 'sechzigste', + 'siebzigste', + 'achtzigste', + 'neunzigste'); + +@teenthstringFgerman = ('zehnte', + 'elfte', + 'zw\\"olfte', + 'dreizehnte', + 'vierzehnte', + 'f\\"unfzehnte', + 'sechzehnte', + 'siebzehnte', + 'achtzehnte', + 'neunzehnte'); + +@unitthstringNgerman = ('nulltes', + 'erstes', + 'zweites', + 'drittes', + 'viertes', + 'f\\"unte', + 'sechstes', + 'siebtes', + 'achtes', + 'neuntes'); + +@tenthstringNgerman = ('', + 'zehntes', + 'zwanzigstes', + 'drei\\ss igstes', + 'vierzigstes', + 'f\\"unfzigstes', + 'sechzigstes', + 'siebzigstes', + 'achtzigstes', + 'neunzigstes'); + +@teenthstringNgerman = ('zehntes', + 'elftes', + 'zw\\"olftes', + 'dreizehntes', + 'vierzehntes', + 'f\\"unfzehntes', + 'sechzehntes', + 'siebzehntes', + 'achtzehntes', + 'neunzehntes'); + +@unitstringgerman = ('null', + 'ein', # eins dealt with separately (this is for prefixes) + 'zwei', + 'drei', + 'vier', + 'f\\"unf', + 'sechs', + 'sieben', + 'acht', + 'neun'); + +@teenstringgerman = ('zehn', + 'elf', + 'zw\\"olf', + 'dreizehn', + 'vierzehn', + 'f\\"unfzehn', + 'sechzehn', + 'siebzehn', + 'achtzehn', + 'neunzehn'); + +@tenstringgerman = ('', + 'zehn', + 'zwanzig', + 'drei\\ss ig', + 'vierzig', + 'f\\"unfzig', + 'sechzig', + 'siebzig', + 'achtzig', + 'neunzig'); + +sub do_cmd_einhundert{ + local($_) = @_; + + "einhundert$_"; +} + +sub do_cmd_eintausend{ + local($_) = @_; + + "eintausend$_"; +} + +sub get_numberunderhundredgerman{ + local($num)=@_; + local($name)=''; + + if ($num == 1) + { + $name = 'eins'; + } + elsif ($num < 10) + { + $name = $unitstringgerman[$num]; + } + elsif ($num%10 == 0) + { + $name = $tenstringgerman[$num/10]; + } + else + { + $name = join('und', $unitstringgerman[$num%10], + $tenstringgerman[$num/10]); + } + + $name; +} + +sub get_numberstringgerman{ + local($orgnum,$gender) = @_; + local($name)=""; + + local($num) = $orgnum; + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000 and $num < 2000) + { + $name = &translate_commands("\\eintausend "); + } + elsif ($num >= 2000) + { + $name = &get_numberunderhundredgerman($num/1000) + . "tausend"; + } + + $num = $orgnum%1000; + + if ($num >= 100 and $num < 200) + { + if ($orgnum > 1000) + { + $name .= "einhundert"; + } + else + { + $name = &translate_commands("\\einhundert "); + } + } + elsif ($num >= 200) + { + $name .= $unitstringgerman[$num/100]."hundert"; + } + + $num = $num%100; + + if ($orgnum == 0) + { + $name = 'null'; + } + elsif ($num > 0) + { + $name .= &get_numberunderhundredgerman($num); + } + } + + $name; +} + +sub get_numberstring{ + local($val,$gender) = @_; + + if ($default_language eq 'french') + { + &get_numberstringfrench($val,$gender); + } + elsif ($default_language eq 'spanish') + { + &get_numberstringspanish($val,$gender); + } + elsif ($default_language eq 'portuges') + { + &get_numberstringportuges($val,$gender); + } + elsif ($default_language eq 'german' + or $default_language eq 'ngerman') + { + &get_numberstringgerman($val,$gender); + } + else + { + &get_numberstringenglish($val); + } +} + +sub do_cmd_numberstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces unless + s/$next_pair_pr_rx/$num=$2;''/eo; + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', &get_numberstring($num,$gender), $_); +} + +sub do_cmd_numberstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{NUMBERSTRING{', $ctr, '}}', $_[0]); + } + else + { + join('', &get_numberstring($val, $gender), $_[0]); + } +} + +sub do_cmd_storenumberstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{NUMBERSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = join('', &get_numberstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storenumberstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[([mfn])\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = join('', &get_numberstring($val, $gender)); + + $_; +} + +sub get_Numberstring{ + local($val,$gender) = @_; + local($string) = &get_numberstring($val,$gender); + + if ($default_language=~m/german/) + { + $string =~ s/([a-z])([^\s\-]+)/\u\1\2/; + } + else + { + $string =~ s/([a-z])([^\s\-]+)/\u\1\2/g; + + if ($default_language eq 'french') + { + $string =~ s/ Et / et /g; + } + elsif ($default_language eq 'spanish') + { + $string =~ s/ Y / y /g; + } + elsif ($default_language eq 'portuges') + { + $string =~ s/ E / e /g; + } + else + { + $string =~ s/ And / and /g; + } + } + + $string; +} + +sub do_cmd_Numberstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', &get_Numberstring($num,$gender), $_); +} + +sub do_cmd_Numberstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{NNUMBERSTRING{', $ctr, '}}', $_[0]); + } + else + { + join('', &get_Numberstring($val, $gender), $_[0]); + } +} + +sub do_cmd_storeNumberstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[([mfn])\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{NNUMBERSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = join('', &get_Numberstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storeNumberstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[([mfn])\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = join('', &get_Numberstring($val, $gender)); + + $_; +} + +sub do_cmd_NUMBERstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', uc(&get_numberstring($num,$gender)), $_); +} + +sub do_cmd_NUMBERstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{CAPNUMBERSTRING{', $ctr, '}}', $_); + } + else + { + join('', uc(&get_numberstring($val, $gender)), $_); + } +} + +sub do_cmd_storeNUMBERstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{CAPNUMBERSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = uc(&get_numberstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storeNUMBERstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[([mfn])\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = uc(&get_numberstring($val, $gender)); + + $_; +} + +sub get_ordinalstringenglish{ + local($num) = @_; + local($name)=""; + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = &get_numberstring($num/1000); + $name .= $thousands; + + if ($num%1000 > 0) + { + $name .= " $thousandname"; + } + else + { + $name .= " $thousandthname"; + } + + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = &get_numberstring($num/100); + $name .= $hundreds; + + if ($num%100 > 0) + { + $name .= " $hundredname"; + } + else + { + $name .= " $hundredthname"; + } + + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " and "; } + + if ($num >= 20) + { + if ($num%10 > 0) + { + $name .= $tenstring[$num/10] . '-'; + } + else + { + $name .= $tenthstring[$num/10]; + } + } + + if (($num >= 10) && ($num < 20)) + { + $name .= $teenthstring[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitthstring[$num%10]; + } + } + + $name; +} + +sub get_ordinalstringfrench{ + local($num,$gender) = @_; + local($name)=""; + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + local($thousands) = ''; + + if ($num >= 2000) + { + $thousands = &get_numberstringfrench($num/1000,$gender).' '; + } + + $num = $num%1000; + + if ($num > 0) + { + $name .= $thousands . $thousandnamefrench; + } + else + { + $name .= $thousands . $thousandthnamefrench; + } + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = ''; + + if ($num >= 200) + { + $hundreds = &get_numberstringfrench($num/100,$gender).' '; + } + + $num = $num%100; + + if ($num > 0) + { + $name .= $hundreds . $hundrednamefrench; + } + else + { + $name .= $hundreds . $hundredthnamefrench; + } + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " "; } + + if ($num >= 20) + { + if ($frenchdialect eq 'france' and $num >= 70) + { + if ($num < 80) + { + if ($num%10 > 0) + { + $name .= $tenstringfrench[6]; + } + else + { + $name .= $tenthstringfrench[6]; + } + + if ($num%10 == 1) + { + $name .= ' et '; + } + else + { + $name .= '-'; + } + + $num = 10+($num%10); + } + else + { + $name .= 'quatre-vingt' . ($num==80?'i\`eme':'-'); + + if ($num >= 90) + { + $num = 10+($num%10); + } + } + } + elsif ($frenchdialect eq 'belgian' and $num >= 80) + { + $name .= 'quatre-vingt' . ($num==80?'i\`eme':'-'); + + if ($num >= 90) + { + $num = 10+($num%10); + } + } + else + { + if ($num%10 > 0) + { + $name .= $tenstringfrench[$num/10]; + } + else + { + $name .= $tenthstringfrench[$num/10]; + } + + if ($num%10 == 1) { $name .= ' et ';} + elsif ($num%10 > 0) { $name .= '-'; } + } + } + + if (($num >= 10) && ($num < 20)) + { + $name .= $teenthstringfrench[$num%10]; + } + elsif ($_[0] == 1) + { + $name = 'premi\`ere'; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $name .= $unitthstringfrench[$num%10]; + } + } + + $name; +} + +sub get_ordinalstringspanish{ + local($num,$gender) = @_; + local($name)=""; + local($str); + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + if ($num >= 2000) + { + local($thousands) = &get_ordinalstringspanish($num/1000); + + if ($gender eq 'f') + { + $thousands =~s/o(s?)$/a\1/; + } + + $name .= $thousands. " "; + } + else + { + $name = ""; + } + + $name .= "$thousandthnamespanish"; + + if ($gender eq 'f') + { + $name =~s/o$/a/; + } + + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = $hundredthstringspanish[$num/100]; + + if ($gender eq 'f') + { + $hundreds =~s/o$/a/; + } + + $name .= $hundreds; + + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= " "; } + + local($lastbit)=""; + + if ($num >= 20) + { + $lastbit = $tenthstringspanish[$num/10]; + + if ($num%10 > 0) + { + $lastbit .= ' '; + } + + if ($gender eq 'f') + { + $lastbit =~s/o([ s]*)$/a\1/; + } + + $name .= $lastbit; + + $lastbit = ""; + } + + if (($num >= 10) && ($num < 20)) + { + $lastbit = $teenthstringspanish[$num%10]; + } + elsif (($num%10 > 0) || ($_[0] == 0)) + { + $lastbit = $unitthstringspanish[$num%10]; + } + + if ($gender eq 'f') + { + $lastbit =~s/o([ s]*)$/a\1/; + } + + $name .= $lastbit; + } + + $name; +} + +sub get_ordinalstringportuges{ + local($num,$gender) = @_; + local($name)=""; + local($str); + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000) + { + if ($num >= 2000) + { + local($thousands) = &get_ordinalstringportuges($num/1000); + + if ($gender eq 'f') + { + $thousands =~s/o(s?)$/a\1/; + } + + $name .= $thousands. " "; + } + else + { + $name = ""; + } + + $name .= "$thousandthnameportuges"; + + if ($gender eq 'f') + { + $name =~s/o$/a/; + } + + $num = $num%1000; + } + + if ($num >= 100) + { + if ($_[0] >= 1000) { $name .= " "; } + + local($hundreds) = $hundredthstringportuges[$num/100]; + + if ($gender eq 'f') + { + $hundreds =~s/o$/a/; + } + + $name .= $hundreds; + + $num = $num%100; + } + + if (($_[0] > 100) && ($_[0]%100 > 0)) { $name .= "-"; } + + local($lastbit)=""; + + if ($num >= 10) + { + $lastbit = $tenthstringportuges[$num/10]; + + if ($num%10 > 0) + { + $lastbit .= '-'; + } + + if ($gender eq 'f') + { + $lastbit =~s/o([ s]*)$/a\1/; + } + + $name .= $lastbit; + + $lastbit = ""; + } + + if (($num%10 > 0) || ($_[0] == 0)) + { + $lastbit = $unitthstringportuges[$num%10]; + } + + if ($gender eq 'f') + { + $lastbit =~s/o([ s]*)$/a\1/; + } + + $name .= $lastbit; + } + + $name; +} + +sub get_numberunderhundredthgerman{ + local($num,$gender)=@_; + local($name)=''; + + if ($num < 10) + { + if ($gender eq 'F') + { + $name = $unitthstringFgerman[$num]; + } + elsif ($gender eq 'N') + { + $name = $unitthstringNgerman[$num]; + } + else + { + $name = $unitthstringMgerman[$num]; + } + } + elsif ($num%10 == 0) + { + if ($gender eq 'F') + { + $name = $tenthstringFgerman[$num/10]; + } + elsif ($gender eq 'N') + { + $name = $tenthstringNgerman[$num/10]; + } + else + { + $name = $tenthstringMgerman[$num/10]; + } + } + else + { + local($tenth); + if ($gender eq 'F') + { + $tenth = $tenthstringFgerman[$num/10]; + } + elsif ($gender eq 'N') + { + $tenth = $tenthstringNgerman[$num/10]; + } + else + { + $tenth = $tenthstringMgerman[$num/10]; + } + + $name = join('und', $unitstringgerman[$num%10], $tenth); + } + + $name; +} + +sub get_ordinalstringgerman{ + local($orgnum,$gender) = @_; + local($name)=""; + local($suffix)=''; + + $gender = uc($gender); + + if ($gender eq 'F') + { + $suffix = 'ste'; + } + elsif ($gender eq 'N') + { + $suffix = 'stes'; + } + else + { + $suffix = 'ster'; + $gender = 'M'; + } + + local($num) = $orgnum; + + unless (($num >= 1000000) || ($num < 0)) + { + if ($num >= 1000 and $num < 2000) + { + $name = &translate_commands("\\eintausend "); + } + elsif ($num >= 2000) + { + $name = &get_numberunderhundredgerman($num/1000) + . "tausend"; + } + + $num = $orgnum%1000; + + # is that it or is there more? + if ($orgnum >= 1000 and $num == 0) + { + $name .= $suffix; + return $name; + } + + if ($num >= 100 and $num < 200) + { + if ($orgnum > 1000) + { + $name .= "einhundert"; + } + else + { + $name = &translate_commands("\\einhundert "); + } + } + elsif ($num >= 200) + { + $name .= $unitstringgerman[$num/100]."hundert"; + } + + $num = $num%100; + + # is that it or is there more? + if ($orgnum >= 100 and $num == 0) + { + $name .= $suffix; + return $name; + } + + if ($orgnum == 0) + { + if ($gender eq 'F') + { + $name = $unitthstringFgerman[0]; + } + elsif ($gender eq 'N') + { + $name = $unitthstringNgerman[0]; + } + else + { + $name = $unitthstringMgerman[0]; + } + } + elsif ($num > 0) + { + $name .= &get_numberunderhundredthgerman($num,$gender); + } + } + + $name; +} + +sub get_ordinalstring{ + local($val,$gender) = @_; + + if ($default_language eq 'french') + { + &get_ordinalstringfrench($val,$gender); + } + elsif ($default_language eq 'spanish') + { + &get_ordinalstringspanish($val,$gender); + } + elsif ($default_language eq 'portuges') + { + &get_ordinalstringportuges($val,$gender); + } + elsif ($default_language eq 'german' + or $default_language eq 'ngerman') + { + &get_ordinalstringgerman($val,$gender); + } + else + { + &get_ordinalstringenglish($val); + } +} + +sub do_cmd_ordinalstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', &get_ordinalstring($num,$gender), $_); +} + +sub do_cmd_ordinalstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{ORDINALSTRING{', $ctr, '}}', $_); + } + else + { + join('', &get_ordinalstring($val, $gender), $_); + } +} + + %fmtcntvar = (); + +sub do_cmd_FMCuse{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $fmtcntvar{$key}.$_; +} + +sub do_cmd_storeordinalstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{ORDINALSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = join('', &get_ordinalstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storeordinalstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = join('', &get_ordinalstring($val, $gender)); + + $_; +} + +sub get_Ordinalstring{ + local($val,$gender) = @_; + local($string) = &get_ordinalstring($val,$gender); + + if ($default_language=~m/german/) + { + $string =~ s/\b([a-z])([^\s\-]+)/\u\1\2/; + } + else + { + $string =~ s/\b([a-z])([^\s\-]+)/\u\1\2/g; + + if ($default_language eq 'french') + { + $string =~ s/ Et / et /g; + } + else + { + $string =~ s/ And / and /g; + } + } + + $string; +} + +sub do_cmd_Ordinalstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', &get_Ordinalstring($num,$gender), $_); +} + +sub do_cmd_Ordinalstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{OORDINALSTRING{', $ctr, '}}', $_[0]); + } + else + { + join('', &get_Ordinalstring($val, $gender), $_[0]); + } +} + +sub do_cmd_storeOrdinalstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{OORDINALSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = join('', &get_Ordinalstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storeOrdinalstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = join('', &get_Ordinalstring($val, $gender)); + + $_; +} + +sub do_cmd_ORDINALstringnum{ + local($_) = @_; + local($num,$gender); + $num = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + if (s/\[(m|f|n)\]//) + { + $gender = $1; + } + else + { + $gender = 'm'; + } + + join('', uc(&get_ordinalstring($num,$gender)), $_); +} + +sub do_cmd_ORDINALstring{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + my($gender)='m'; + + $_[0] =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_[0]=~s/\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + join('', '{CAPORDINALSTRING{', $ctr, '}}', $_); + } + else + { + join('', uc(&get_ordinalstring($val, $gender)), $_); + } +} + +sub do_cmd_storeORDINALstring{ + local($_) = @_; + local($key); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + local($ctr, $val, $id, $_) = &read_counter_value($_); + my($gender)='m'; + + $_ =~ s/${OP}$id${CP}$ctr${OP}$id${CP}//; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + if ($ctr eq 'DAY' or $ctr eq 'MONTH' or $ctr eq 'YEAR') + { + # this is a cludge to make it work with newdateformat + $fmtcntvar{$key} = join('', '{CAPORDINALSTRING{', $ctr, '}}'); + } + else + { + $fmtcntvar{$key} = uc(&get_ordinalstring($val, $gender)); + } + + $_; +} + +sub do_cmd_storeORDINALstringnum{ + local($_) = @_; + local($key, $val); + + $key = &missing_braces + unless ((s/$next_pair_pr_rx//o)&&($key=$2)); + + $val = &missing_braces + unless (s/$next_pair_pr_rx/$val=$2;''/eo); + + my($gender)='m'; + + if ($_ =~s/\s*\[(.)\]//) + { + $gender = $1; + } + + $fmtcntvar{$key} = uc(&get_ordinalstring($val, $gender)); + + $_; +} + +sub do_cmd_fmtcountsetoptions{ + local($_) = @_; + local($options) = &missing_braces unless ($_[0]=~(s/$next_pair_pr_rx//o)&&($options=$2)); + + if ($options =~ m/french=?(\w*)(,|$)/) + { + if ($1 eq 'france' or $1 eq 'swiss' or $1 eq 'belgian') + { + $frenchdialect = $1; + + print "Using French dialect: $1" if ($VERBOSITY > 0) ; + } + elsif ($1 eq '') + { + $frenchdialect = 'france'; + + print "Using French dialect: france" if ($VERBOSITY > 0); + } + else + { + &write_warnings("unknown french dialect '$1'"); + } + } + + if ($options =~ m/abbrv=?(\w*)(,|$)/) + { + if ($1 eq 'true' or $1 eq '') + { + $ordinalabbrv = 1; + + print "Setting abbrv=true" if ($VERBOSITY > 0); + } + elsif ($1 eq 'false') + { + $ordinalabbrv = 0; + + print "Setting abbrv=false" if ($VERBOSITY > 0); + } + else + { + &write_warnings("fmtcountsetoptions key abbrv: unknown value '$1'."); + } + } + + if ($options =~ m/fmtord=(\w*)(,|$)/) + { + if ($1 eq 'raise') + { + &do_fmtcount_raise(); + + print "Using raised ordinals" if ($VERBOSITY > 0); + } + elsif ($1 eq 'level') + { + &do_fmtcount_level(); + + print "Using level ordinals" if ($VERBOSITY > 0); + } + elsif ($1 eq 'user') + { + # do nothing + + print "Using user defined fmtord" if ($VERBOSITY > 0); + } + else + { + &write_warnings("unknown fmtcount option fmtord=$1"); + } + } + + $_[0]; +} + +$padzeroes = 0; + +sub do_cmd_padzeroes{ + local($_) = @_; + local($val,$pat) = &get_next_optional_argument; + + if ($val eq '') + { + $padzeroes = 17; + } + else + { + $padzeroes = $val; + } + + $_; +} + +sub get_binary{ + local($num) = @_; + local($val) = ""; + + for (my $i=17; $i>=0; $i--) + { + if (($i < $padzeroes) || ($num & (1 << $i)) || !($val eq "")) + { + $val .= ($num & (1 << $i) ? 1 : 0); + } + } + + $val; +} + +sub do_cmd_binary{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_binary($val), $_); +} + +sub do_cmd_binarynum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', &get_binary($num), $_); +} + +sub get_decimal{ + local($num) = @_; + + sprintf "%0${padzeroes}d", $num; +} + +sub do_cmd_decimal{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_decimal($val), $_); +} + +sub do_cmd_decimalnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', &get_decimal($num), $_); +} + +sub get_hexadecimal{ + local($num) = @_; + + sprintf "%0${padzeroes}lx", $num; +} + +sub do_cmd_hexadecimal{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_hexadecimal($val), $_); +} + +sub do_cmd_hexadecimalnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', &get_hexadecimal($num), $_); +} + +sub get_Hexadecimal{ + local($num) = @_; + + sprintf "%0${padzeroes}lX", $num; +} + +sub do_cmd_Hexadecimal{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_Hexadecimal($val), $_); +} + +sub do_cmd_Hexadecimalnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', &get_Hexadecimal($num), $_); +} + +sub get_octal{ + local($num) = @_; + + sprintf "%0${padzeroes}lo", $num; +} + +sub do_cmd_octal{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_octal($val), $_); +} + +sub do_cmd_octalnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', &get_octal($num), $_); +} + +sub get_aaalph{ + local($num) = @_; + local($rep) = int($num/26) + 1; + local($c) = chr(ord('a')-1+$num%26); + + local($_) = $c x $rep; +} + +sub do_cmd_aaalph{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_aaalph($val), $_); +} + +sub get_AAAlph{ + local($num) = @_; + local($rep) = int($num/26) + 1; + local($c) = chr(ord('A')-1+$num%26); + + local($_) = $c x $rep; +} + +sub do_cmd_AAAlph{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', &get_AAAlph($val), $_); +} + +sub do_cmd_aaalphnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', (sprintf "%${padzeroes}s", &get_aaalph($num)), $_); +} + +sub do_cmd_AAAlphnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', uc(sprintf "%${padzeroes}s", &get_aaalph($num)), $_); +} + +sub get_abalph{ + local($num) = @_; + local($str); + + if ($num == 0) + { + $str = ''; + } + elsif ($num > 0 && $num <= 26) + { + $str = chr(ord('a')-1+$num); + } + else + { + $str = &get_abalph(int($num/26)) . chr(ord('a')-1+($num%26)); + } + + $str; +} + +sub do_cmd_abalph{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', (sprintf "%${padzeroes}s", &get_abalph($val)), $_); +} + +sub do_cmd_abalphnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', (sprintf "%${padzeroes}s", &get_abalph($num)), $_); +} + +sub do_cmd_ABAlph{ + local($ctr, $val, $id, $_) = &read_counter_value($_[0]); + + join('', uc(sprintf "%${padzeroes}s", &get_abalph($val)), $_); +} + +sub do_cmd_ABAlphnum{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + join('', uc(sprintf "%${padzeroes}s", &get_abalph($num)), $_); +} + +sub get_twodigit{ + local($num) = @_; + + sprintf "%02d", $num; +} + +sub do_cmd_twodigit{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + # this is a cludge + if ($num eq "THEDAY" or $num eq "THEYEAR" or $num eq "THEMONTH") + { + join('', 'TWODIGIT{', $num, '}', $_); + } + else + { + join('', &get_twodigit($num), $_); + } +} + +# this was put here to help with the definition of \datelatin + +sub do_cmd_romannumeral{ + local($_) = @_; + local($num) = &missing_braces + unless (s/$next_pair_pr_rx/$num=$2;''/eo); + + # this is a cludge + if ($num eq "THEDAY" or $num eq "THEYEAR" or $num eq "THEMONTH") + { + join('', 'ROMANNUMERAL{', $num, '}', $_); + } + else + { + join('', &froman($num), $_); + } +} + +# load configuration file if it exists +# Note: The configuration file should be loaded before +# the package options are executed. + +# why doesn't this work? If I call this subroutine it +# causes an infinite loop. + +sub load_fmtcount_cfg{ + local($file,$found); + + $file = &fulltexpath('fmtcount.cfg'); + + $found = (-f $file); + + if (!$found) + { + foreach $texpath (split /$envkey/, $TEXINPUTS) + { + $file = "$texpath${dd}fmtcount.cfg"; + + last if ($found = (-f $file)); + } + } + + if ($found) + { + print "\nusing configuration file $file\n"; + + &slurp_input($file); + &pre_process; + &substitute_meta_cmds if (%new_command || %new_environment); + &wrap_shorthand_environments; + $_ = &translate_commands(&translate_environments($_)); + + print "\n processed size: ".length($_)."\n" if ($VERBOSITY>1) + } + else + { + print "\nNo configuation file fmtcount.cfg found\n" if ($VERBOSITY>1) + } +} + +1; +% \end{macrocode} +%\fi +%\iffalse +% \begin{macrocode} +%</fmtcount.perl> +% \end{macrocode} +%\fi +%\Finale +\endinput diff --git a/Master/texmf-dist/source/latex/fmtcount/fmtcount.ins b/Master/texmf-dist/source/latex/fmtcount/fmtcount.ins new file mode 100644 index 00000000000..ade931c60ae --- /dev/null +++ b/Master/texmf-dist/source/latex/fmtcount/fmtcount.ins @@ -0,0 +1,48 @@ +% fmtcount.ins generated using makedtx version 0.94b 2007/8/20 12:28 +\input docstrip + +\preamble + + fmtcount.dtx + Copyright 2007 Nicola Talbot + + This work may be distributed and/or modified under the + conditions of the LaTeX Project Public License, either version 1.3 + of this license of (at your option) any later version. + The latest version of this license is in + http://www.latex-project.org/lppl.txt + and version 1.3 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 Nicola Talbot. + + This work consists of the files fmtcount.dtx and fmtcount.ins and the derived files fc-british.def, fc-english.def, fc-french.def, fc-german.def, fc-portuges.def, fc-spanish.def, fc-UKenglish.def, fc-USenglish.def, fmtcount.sty, fmtcount.perl. + +\endpreamble + +\askforoverwritefalse + +\generate{\file{fc-british.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-british.def,package}} +\file{fc-english.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-english.def,package}} +\file{fc-french.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-french.def,package}} +\file{fc-german.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-german.def,package}} +\file{fc-portuges.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-portuges.def,package}} +\file{fc-spanish.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-spanish.def,package}} +\file{fc-UKenglish.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-UKenglish.def,package}} +\file{fc-USenglish.def}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fc-USenglish.def,package}} +\file{fmtcount.sty}{\usepreamble\defaultpreamble +\usepostamble\defaultpostamble\from{fmtcount.dtx}{fmtcount.sty,package}} +\file{fmtcount.perl}{\nopreamble\nopostamble\from{fmtcount.dtx}{fmtcount.perl}} +} + +\endbatchfile |