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-% \iffalse meta-comment
-%
-% Copyright (C) 1997-2003 by Michael J. Downes
-% Copyright (C) 2007-2008 by Morten Hoegholm
-%
-% This work may be distributed and/or modified under the
-% conditions of the LaTeX Project Public License, either
-% version 1.3 of this license or (at your option) any later
-% version. The latest version of this license is in
-% http://www.latex-project.org/lppl.txt
-% and version 1.3 or later is part of all distributions of
-% LaTeX version 2005/12/01 or later.
-%
-% This work has the LPPL maintenance status "maintained".
-%
-% This Current Maintainer of this work is
-% Lars Madsen, Will Robertson and Joseph Wright.
-%
-% This work consists of the main source file flexisym.dtx
-% and the derived files
-% flexisym.sty, flexisym.pdf, flexisym.ins, flexisym.drv,
-% cmbase.sym, mathpazo.sym, mathptmx.sym, msabm.sym.
-%
-% Distribution:
-% CTAN:macros/latex/contrib/mh/flexisym.dtx
-% CTAN:macros/latex/contrib/mh/flexisym.pdf
-%
-% Unpacking:
-% (a) If flexisym.ins is present:
-% tex flexisym.ins
-% (b) Without flexisym.ins:
-% tex flexisym.dtx
-% (c) If you insist on using LaTeX
-% latex \let\install=y\input{flexisym.dtx}
-% (quote the arguments according to the demands of your shell)
-%
-% Documentation:
-% (a) If flexisym.drv is present:
-% latex flexisym.drv
-% (b) Without flexisym.drv:
-% latex flexisym.dtx; ...
-% The class ltxdoc loads the configuration file ltxdoc.cfg
-% if available. Here you can specify further options, e.g.
-% use A4 as paper format:
-% \PassOptionsToClass{a4paper}{article}
-%
-% Programm calls to get the documentation (example):
-% pdflatex flexisym.dtx
-% makeindex -s gind.ist flexisym.idx
-% pdflatex flexisym.dtx
-% makeindex -s gind.ist flexisym.idx
-% pdflatex flexisym.dtx
-%
-% Installation:
-% TDS:tex/latex/mh/flexisym.sty
-% TDS:tex/latex/mh/cmbase.sym
-% TDS:tex/latex/mh/mathpazo.sym
-% TDS:tex/latex/mh/mathptmx.sym
-% TDS:tex/latex/mh/msabm.sym
-% TDS:doc/latex/mh/flexisym.pdf
-% TDS:source/latex/mh/flexisym.dtx
-%
-%<*ignore>
-\begingroup
- \def\x{LaTeX2e}
-\expandafter\endgroup
-\ifcase 0\ifx\install y1\fi\expandafter
- \ifx\csname processbatchFile\endcsname\relax\else1\fi
- \ifx\fmtname\x\else 1\fi\relax
-\else\csname fi\endcsname
-%</ignore>
-%<*install>
-\input docstrip.tex
-\Msg{************************************************************************}
-\Msg{* Installation}
-\Msg{* Package: flexisym 2010/09/17 v0.97b Flexisym (MH)}
-\Msg{************************************************************************}
-
-\keepsilent
-\askforoverwritefalse
-
-\preamble
-
-This is a generated file.
-
-Copyright (C) 1997-2003 by Michael J. Downes
-Copyright (C) 2007-2010 by Morten Hoegholm
-
-This work may be distributed and/or modified under the
-conditions of the LaTeX Project Public License, either
-version 1.3 of this license or (at your option) any later
-version. The latest version of this license is in
- http://www.latex-project.org/lppl.txt
-and version 1.3 or later is part of all distributions of
-LaTeX version 2005/12/01 or later.
-
-This work has the LPPL maintenance status "maintained".
-
-This Current Maintainer of this work is
-Lars Madsen, Will Robertson and Joseph Wright.
-
-This work consists of the main source file flexisym.dtx
-and the derived files
- flexisym.sty, flexisym.pdf, flexisym.ins, flexisym.drv,
- cmbase.sym, mathpazo.sym, mathptmx.sym, msabm.sym.
-
-\endpreamble
-
-\generate{%
- \file{flexisym.ins}{\from{flexisym.dtx}{install}}%
- \file{flexisym.drv}{\from{flexisym.dtx}{driver}}%
- \usedir{tex/latex/mh}%
- \file{flexisym.sty}{\from{flexisym.dtx}{package}}%
- \file{cmbase.sym}{\from{flexisym.dtx}{cmbase}}%
- \file{mathpazo.sym}{\from{flexisym.dtx}{mathpazo}}%
- \file{mathptmx.sym}{\from{flexisym.dtx}{mathptmx}}%
- \file{msabm.sym}{\from{flexisym.dtx}{msabm}}%
-}
-
-\obeyspaces
-\Msg{************************************************************************}
-\Msg{*}
-\Msg{* To finish the installation you have to move the following}
-\Msg{* files into a directory searched by TeX:}
-\Msg{*}
-\Msg{* flexisym.sty, cmbase.sym, mathpazo.sym, mathptmx.sym, msabm.sym}
-\Msg{*}
-\Msg{* To produce the documentation run the file `flexisym.drv'}
-\Msg{* through LaTeX.}
-\Msg{*}
-\Msg{* Happy TeXing!}
-\Msg{*}
-\Msg{************************************************************************}
-
-\endbatchfile
-%</install>
-%<*ignore>
-\fi
-%</ignore>
-%<*driver>
-\NeedsTeXFormat{LaTeX2e}
-\ProvidesFile{flexisym.drv}%
- [2010/09/17 v0.97b flexisym (MH)]
-\documentclass{ltxdoc}
-\CodelineIndex
-\EnableCrossrefs
-\setcounter{IndexColumns}{2}
-%\providecommand*\meta[1]{\ensuremath\langle\textit{#1}\ensuremath\rangle}
-\providecommand*\pkg[1]{\textsf{#1}}
-\providecommand*\cls[1]{\textsf{#1}}
-\providecommand*\opt[1]{\texttt{#1}}
-\providecommand*\env[1]{\texttt{#1}}
-\providecommand*\fn[1]{\texttt{#1}}
-\makeatletter
-\providecommand{\AmS}{{\protect\AmSfont
- A\kern-.1667em\lower.5ex\hbox{M}\kern-.125emS}}
-\providecommand{\AmSfont}{%
- \usefont{OMS}{cmsy}{\if\expandafter\@car\f@series\@nil bb\else m\fi}{n}}
-\makeatother
-\newenvironment{aside}{\begin{quote}\bfseries}{\end{quote}}
-\begin{document}
- \DocInput{flexisym.dtx}
-\end{document}
-%</driver>
-% \fi
-%
-% \title{The \textsf{flexisym} package}
-% \date{2008/08/08 v0.97a}
-% \author{Morten H\o gholm \\Maintainers: \texttt{mh.ctan@gmail.com}}
-%
-% \maketitle
-%
-% \part*{User's guide}
-%
-% For now, the user's guide is in breqn.
-%
-% \StopEventually{}
-% \part*{Implementation}
-%
-% \section{flexisym}
-%
-% \begin{macrocode}
-%<*package>
-\RequirePackage{expl3}[2009/08/05]
-\ProvidesExplPackage{flexisym}{2013/03/16}{0.97c}{Make math characters macros}
-
-\edef\do{%
- \noexpand\AtEndOfPackage{%
- \catcode\number`\"=\number\catcode`\"
- \relax
- }%
-}
-\do \let\do\relax
-\catcode`\"=12
-\let\@sym\@gobble
-\DeclareOption{robust}{%
- \def\@sym#1{%
- \ifx\protect\@typeset@protect \else\protect#1\exp_after:wN\use_none:nnnn\fi
- }%
-}
-% \end{macrocode}
-% The math groups (mg) here relate to |\textfont|$n$.
-% \begin{macrocode}
-\def\mg@bin{2}% binary operators
-\def\mg@rel{2}% relations
-%%\def\mg@nre{B}% negated relations
-\def\mg@del{3}% delimiters
-%%\def\mg@arr{B}% arrows
-\def\mg@acc{0}% accents
-\def\mg@cop{3}% cumulative operators (sum, int)
-\def\mg@latin{1}% (Latin) letters
-\def\mg@greek{1}% (lowercase) Greek
-\def\mg@Greek{0}% (capital) Greek
-%%\def\mg@bflatin{4}% bold upright Latin letters ?
-%%\def\mg@Bbb{B}% blackboard bold
-\def\mg@cal{2}% script/calligraphic
-%%\def\mg@frak{5}% Fraktur letters
-\def\mg@digit{0}% decimal digits % 1 = oldstyle, 0 = capital
-% \end{macrocode}
-% This is how we insert mathchars. The command has three arguments:
-% class, fam and slot postion and so it is always given as
-% hexadecimal. This way of separating things should make it easier
-% to get this to work with XeTeX et al.\ which have many more slot
-% positions
-% \begin{macrocode}
-\cs_set_protected:Nn \math_char:NNn {
- \tex_mathchar:D \__int_eval:w " #1#2#3 \__int_eval_end:
-}
-% \end{macrocode}
-% Delimiters and radicals are similar except here we have both small
-% and large variant. Radicals have no class.
-% \begin{macrocode}
-\cs_set_protected:Nn \math_delimiter:NNnNn {
- \tex_delimiter:D \__int_eval:w " #1#2#3#4#5 \__int_eval_end:
-}
-\cs_set_protected:Nn \math_radical:NnNn {
- \tex_radical:D \__int_eval:w " #1#2#3#4 \__int_eval_end:
-}
-\cs_set_protected:Nn \math_accent:NNnn {
- \tex_mathaccent:D \__int_eval:w " #1 #2 #3 \__int_eval_end: {#4}
-}
-
-\let\sumlimits\displaylimits
-\let\intlimits\nolimits
-\let\namelimits\displaylimits
-% \end{macrocode}
-% \TeX\ defines eight types of atoms.
-% \begin{enumerate}\addtocounter{enumi}{-1}
-% \item Ordinary
-% \item Operators
-% \item Binary
-% \item Relation
-% \item Open
-% \item Close
-% \item Punctuation
-% \item Inner
-% \end{enumerate}
-% \TeX\ defines eight math classes.
-% \begin{enumerate}\addtocounter{enumi}{-1}
-% \item Ordinary
-% \item Operators
-% \item Binary
-% \item Relation
-% \item Open
-% \item Close
-% \item Punctuation
-% \item Variable family
-% \end{enumerate}
-% flexisym/breqn extends this to types of classes.
-% \begin{enumerate}\addtocounter{enumi}{-1}
-% \item Ordinary: (Ord), Bidirectional delimiters (DeB), Radicals
-% (Rad), Accented items (Acc)
-% \item Operators: Cumulative Operators sum-like (COs), Cumulative
-% Operators integral-like (COi)
-% \item Binary: (Bin)
-% \item Relation: (Rel), Arrow delimiters (DeA)
-% \item Open: (DeL)
-% \item Close (DeR)
-% \item Punctuation: (Pun)
-% \item Variable family: (Var)
-% \end{enumerate}
-%
-% Here's an overview of what we are about to do. Math chars of each
-% type as defined by us need a basic operation for inserting it. We
-% will call that function |\math_bsym_|\meta{type}|:Nn|. Next there
-% are compund symbols for each type which we name
-% |\math_bcsym_|\meta{type}|:Nn|. Also, there is inline mode and
-% display mode which are different. We will call them for
-% |\math_isym_|\meta{type}|:Nn| |\math_icsym_|\meta{type}|:Nn| for
-% inline mode and |\math_dsym_|\meta{type}|:Nn| and
-% |\math_dcsym_|\meta{type}|:Nn|. The code uses the terms
-% |\math_sym_|\meta{type}|:Nn| and |\math_csym_|\meta{type}|:Nn| for
-% the current meaning of things. First up the basic definitions. |#1|
-% is the math group it is from and |#2| is the slot position.
-% \begin{macrocode}
-\cs_new:Npn \math_bsym_Ord:Nn {\math_char:NNn 0 }% \m@Ord
-\cs_new:Npn \math_bsym_Var:Nn {\math_char:NNn 7 }% \m@Var
-\cs_new:Npn \math_bsym_Bin:Nn {\math_char:NNn 2}% \m@Bin
-\cs_new:Npn \math_bsym_Rel:Nn {\math_char:NNn 3 }% \m@Bin
-\cs_new:Npn \math_bsym_Pun:Nn {\math_char:NNn 6 }%\m@Pun
-\cs_new:Nn \math_bsym_COs:Nn { \math_char:NNn 1#1{#2} \sumlimits}% \m@COs
-\cs_new:Nn \math_bsym_COi:Nn { \math_char:NNn 1#1{#2} \intlimits}% \m@COi
-\cs_new:Nn \math_bsym_DeL:Nn { \math_sd_del_aux:Nnn 4 #1{#2} }%\m@DeL
-\cs_new:Nn \math_bsym_DeR:Nn { \math_sd_del_aux:Nnn 5 #1{#2} } %\m@DeR
-\cs_new:Nn \math_bsym_DeB:Nn { \math_sd_del_aux:Nnn 0 #1{#2} }%\m@DeB
-\cs_new:Nn \math_bsym_DeA:Nn { \math_sd_del_aux:Nnn 3 #1{#2} }%\m@DeA
-\cs_new:Nn \math_bsym_Rad:Nn { \math_sd_rad_aux:Nn #1{#2} }%\m@Rad
-\cs_new:Npn \math_bsym_Acc:Nn #1#2#3#4 {\math_accent:NNnn #1#2{#3}{#4}}% name is wrong
-
-% \end{macrocode}
-% Next is somewhat complicated internally. The way it is done is that
-% delimiters and radicals need information about the smallest version
-% of the symbol. If this smallest delimiter (SD) is defined, then use
-% it. We have these functions to help us return the number. Extract
-% the numbers to use and stick a function in front of it.
-%
-% Code changed because now we require the smallest delimiter to be
-% defined (it may be the same, no problem in that). So the two
-% arguments present in |\math_bsym_DeL:Nn| are the location of
-% extensible version (where the font will do the rest for us
-% automatically). For each delimiter, a pointer is defined using the
-% extensible characters family and slot as name and value equal to
-% family and position of the smallest version. For |(| in standard
-% \LaTeX\ this is |{del}{00}| and |{OT1}{28}| respectively. Hence,
-% |\math_bsym_DeL:Nn \mg@del {00}| must expand to
-% |\math_delimiter:NNnNn 4 \mg@OT1 {28}\mg@del{00}|. So first expand
-% away to get to the smallest version. Then call next function which
-% shuffles the arguments around.
-% \begin{macrocode}
-\cs_set:Npn \math_sd_del_aux:Nnn #1#2#3{
- \exp_args:Nf \math_sd_del_auxi:nN {\use:c{sd@#2#3}} #1 #2{#3}
-}
-\cs_set:Npn \math_sd_del_auxi:nN #1#2{ \math_delimiter:NNnNn #2 #1 }
-% \end{macrocode}
-% Same for radicals.
-% \begin{macrocode}
-\cs_set:Npn \math_sd_rad_aux:Nn #1#2{
- \exp_args:Nf \math_sd_rad_auxi:n {\use:c{sd@#1#2}} #1 {#2}
-}
-\cs_set:Npn \math_sd_rad_auxi:n #1{ \math_radical:NnNn #1 }
-
-
-% \cs_set:Npn \math_sd_aux:nn #1#2 {
-% %\exp_args:Nnf \use:nn { #1} { \math_sd_auxi:Nn #2 }
-% \exp_args:Nnf \use:nn { #1} { \use:c{sd@\use:nn#2} }
-% }
-% \cs_set:Npn \math_sd_auxi:Nn #1#2 {
-% \cs_if_free:cTF {sd@#1#2}
-% { #1{#2} }
-% { \use:c{sd@#1#2} }
-% }
-% \end{macrocode}
-% compound symbols here
-% \begin{macrocode}
-\cs_set_protected:Npn \math_bcsym_Ord:Nn #1#2{\@symtype\mathord{\OrdSymbol{#2}}}%\@symOrd
-\cs_set_protected:Npn \math_bcsym_Var:Nn #1#2{\@symtype\mathord{\OrdSymbol{#2}}}%\@symVar
-\cs_set_protected:Npn \math_bcsym_Bin:Nn #1#2{\@symtype\mathbin{\OrdSymbol{#2}}}%\@symBin
-\cs_set_protected:Npn \math_bcsym_Rel:Nn #1#2{\@symtype\mathrel{\OrdSymbol{#2}}}%\@symRel
-\cs_set_protected:Npn \math_bcsym_Pun:Nn #1#2{\@symtype\mathpunct{\OrdSymbol{#2}}}%\@symPun
-\cs_set_protected:Npn \math_bcsym_COi:Nn #1#2{\@symtype\mathop{\OrdSymbol{#2}\intlimits}}%\@symCOi
-\cs_set_protected:Npn \math_bcsym_COs:Nn #1#2{\@symtype\mathop{\OrdSymbol{#2}\sumlimits}}%\@symCOs
-\cs_set_protected:Npn \math_bcsym_DeL:Nn #1#2{\@symtype\mathopen{\OrdSymbol{#2}}}%\@symDeL
-\cs_set_protected:Npn \math_bcsym_DeR:Nn #1#2{\@symtype\mathclose{\OrdSymbol{#2}}}%\@symDeR
-\cs_set_protected:Npn \math_bcsym_DeB:Nn #1#2{\@symtype\mathord{\OrdSymbol{#2}}}%\@symDeB
-\cs_set_protected:Npn \math_bcsym_DeA:Nn #1#2{\@symtype\mathrel{\OrdSymbol{#2}}}%\@symDeA
-\cs_set_protected:Npn \math_bcsym_Acc:Nn {\@sym}%\@symAcc FIX!
-% These three?
-\cs_set_protected:Npn \math_bcsym_Ope:Nn #1#2{\@symtype\mathopen{\OrdSymbol{#2}}}%\@symVar
-\cs_set_protected:Npn \math_bcsym_Clo:Nn #1#2{\@symtype\mathclose{\OrdSymbol{#2}}}%\@symVar
-\cs_set_protected:Npn \math_bcsym_Inn:Nn #1#2{\@symtype\mathinner{\OrdSymbol{#2}}}%\@symVar
-
-\let\@symtype\@firstofone
-\let\sym@global\global
-% \end{macrocode}
-%
-%
-%
-%
-% The inline variants, using the basic operations. Currently we do not
-% do anything to inline math.
-% \begin{macrocode}
-\cs_new:Npn \math_isym_Ord:Nn {\math_bsym_Ord:Nn }% \m@Ord
-\cs_new:Npn \math_isym_Var:Nn {\math_bsym_Var:Nn }% \m@Var
-\cs_new:Npn \math_isym_Bin:Nn {\math_bsym_Bin:Nn}% \m@Bin
-\cs_new:Npn \math_isym_Rel:Nn {\math_bsym_Rel:Nn }% \m@Bin
-\cs_new:Npn \math_isym_Pun:Nn {\math_bsym_Pun:Nn }%\m@Pun
-\cs_new:Npn \math_isym_COs:Nn {\math_bsym_COs:Nn}% \m@COs
-\cs_new:Npn \math_isym_COi:Nn {\math_bsym_COi:Nn}% \m@COi
-\cs_new:Npn \math_isym_DeL:Nn {\math_bsym_DeL:Nn}%\m@DeL
-\cs_new:Npn \math_isym_DeR:Nn{ \math_bsym_DeR:Nn}%\m@DeR
-\cs_new:Npn \math_isym_DeB:Nn{ \math_bsym_DeB:Nn }%\m@DeB
-\cs_new:Npn \math_isym_DeA:Nn { \math_bsym_DeA:Nn }%\m@DeA
-\cs_new:Npn \math_isym_Rad:Nn { \math_bsym_Rad:Nn}%\m@Rad
-\cs_new:Npn \math_isym_Acc:Nn {\math_bsym_DeL:Nn}% name is wrong
-% inline compound
-\cs_set_protected:Npn \math_icsym_Ord:Nn {\math_bcsym_Ord:Nn}
-\cs_set_protected:Npn \math_icsym_Var:Nn {\math_bcsym_Var:Nn}
-\cs_set_protected:Npn \math_icsym_Bin:Nn {\math_bcsym_Bin:Nn}
-\cs_set_protected:Npn \math_icsym_Rel:Nn {\math_bcsym_Rel:Nn}
-\cs_set_protected:Npn \math_icsym_Pun:Nn {\math_bcsym_Pun:Nn}
-\cs_set_protected:Npn \math_icsym_COi:Nn {\math_bcsym_COi:Nn}
-\cs_set_protected:Npn \math_icsym_COs:Nn {\math_bcsym_COs:Nn}
-\cs_set_protected:Npn \math_icsym_DeL:Nn {\math_bcsym_DeL:Nn}
-\cs_set_protected:Npn \math_icsym_DeR:Nn {\math_bcsym_DeR:Nn}
-\cs_set_protected:Npn \math_icsym_DeB:Nn {\math_bcsym_DeB:Nn}
-\cs_set_protected:Npn \math_icsym_DeA:Nn {\math_bcsym_DeA:Nn}
-\cs_set_protected:Npn \math_icsym_Acc:Nn {\math_bcsym_Acc:Nn}
-\cs_set_protected:Npn \math_icsym_Ope:Nn {\math_bcsym_Ope:Nn}
-\cs_set_protected:Npn \math_icsym_Clo:Nn {\math_bcsym_Clo:Nn}
-\cs_set_protected:Npn \math_icsym_Inn:Nn {\math_bcsym_Inn:Nn}
-% \end{macrocode}
-%
-% The display variants, using the basic operations. Currently we do
-% not do anything to inline math.
-% \begin{macrocode}
-\cs_new:Npn \math_dsym_Ord:Nn {\math_bsym_Ord:Nn }
-\cs_new:Npn \math_dsym_Var:Nn {\math_bsym_Var:Nn }
-\cs_new:Npn \math_dsym_Bin:Nn {\math_bsym_Bin:Nn}
-\cs_new:Npn \math_dsym_Rel:Nn {\math_bsym_Rel:Nn }
-\cs_new:Npn \math_dsym_Pun:Nn {\math_bsym_Pun:Nn }
-\cs_new:Npn \math_dsym_COs:Nn {\math_bsym_COs:Nn}
-\cs_new:Npn \math_dsym_COi:Nn {\math_bsym_COi:Nn}
-\cs_new:Npn \math_dsym_DeL:Nn {\math_bsym_DeL:Nn}
-\cs_new:Npn \math_dsym_DeR:Nn{ \math_bsym_DeR:Nn}
-\cs_new:Npn \math_dsym_DeB:Nn{ \math_bsym_DeB:Nn }
-\cs_new:Npn \math_dsym_DeA:Nn { \math_bsym_DeA:Nn }
-\cs_new:Npn \math_dsym_Rad:Nn { \math_bsym_Rad:Nn}
-\cs_new:Npn \math_dsym_Acc:Nn {\math_bsym_DeL:Nn}
-% inline compound
-\cs_set_protected:Npn \math_dcsym_Ord:Nn {\math_bcsym_Ord:Nn}
-\cs_set_protected:Npn \math_dcsym_Var:Nn {\math_bcsym_Var:Nn}
-\cs_set_protected:Npn \math_dcsym_Bin:Nn {\math_bcsym_Bin:Nn}
-\cs_set_protected:Npn \math_dcsym_Rel:Nn {\math_bcsym_Rel:Nn}
-\cs_set_protected:Npn \math_dcsym_Pun:Nn {\math_bcsym_Pun:Nn}
-\cs_set_protected:Npn \math_dcsym_COi:Nn {\math_bcsym_COi:Nn}
-\cs_set_protected:Npn \math_dcsym_COs:Nn {\math_bcsym_COs:Nn}
-\cs_set_protected:Npn \math_dcsym_DeL:Nn {\math_bcsym_DeL:Nn}
-\cs_set_protected:Npn \math_dcsym_DeR:Nn {\math_bcsym_DeR:Nn}
-\cs_set_protected:Npn \math_dcsym_DeB:Nn {\math_bcsym_DeB:Nn}
-\cs_set_protected:Npn \math_dcsym_DeA:Nn {\math_bcsym_DeA:Nn}
-\cs_set_protected:Npn \math_dcsym_Acc:Nn {\math_bcsym_Acc:Nn}
-\cs_set_protected:Npn \math_dcsym_Ope:Nn {\math_bcsym_Ope:Nn}
-\cs_set_protected:Npn \math_dcsym_Clo:Nn {\math_bcsym_Clo:Nn}
-\cs_set_protected:Npn \math_dcsym_Inn:Nn {\math_bcsym_Inn:Nn}
-% \end{macrocode}
-% Almost ready now! Now just need two commands to initialize these
-% settings.
-%
-% \begin{macrocode}
-\cs_set:Npn \math_setup_inline_symbols:{
- \cs_set_eq:NN \math_sym_Ord:Nn \math_isym_Ord:Nn
- \cs_set_eq:NN \math_sym_Var:Nn \math_isym_Var:Nn
- \cs_set_eq:NN \math_sym_Bin:Nn \math_isym_Bin:Nn
- \cs_set_eq:NN \math_sym_Rel:Nn \math_isym_Rel:Nn
- \cs_set_eq:NN \math_sym_Pun:Nn \math_isym_Pun:Nn
- \cs_set_eq:NN \math_sym_COs:Nn \math_isym_COs:Nn
- \cs_set_eq:NN \math_sym_COi:Nn \math_isym_COi:Nn
- \cs_set_eq:NN \math_sym_DeL:Nn \math_isym_DeL:Nn
- \cs_set_eq:NN \math_sym_DeR:Nn \math_isym_DeR:Nn
- \cs_set_eq:NN \math_sym_DeB:Nn \math_isym_DeL:Nn
- \cs_set_eq:NN \math_sym_DeA:Nn \math_isym_DeA:Nn
- \cs_set_eq:NN \math_sym_Rad:Nn \math_isym_Rad:Nn
- \cs_set_eq:NN \math_sym_Acc:Nn \math_isym_DeL:Nn
- \cs_set_eq:NN \math_csym_Ord:Nn \math_icsym_Ord:Nn
- \cs_set_eq:NN \math_csym_Var:Nn \math_icsym_Var:Nn
- \cs_set_eq:NN \math_csym_Bin:Nn \math_icsym_Bin:Nn
- \cs_set_eq:NN \math_csym_Rel:Nn \math_icsym_Rel:Nn
- \cs_set_eq:NN \math_csym_Pun:Nn \math_icsym_Pun:Nn
- \cs_set_eq:NN \math_csym_COi:Nn \math_icsym_COi:Nn
- \cs_set_eq:NN \math_csym_COs:Nn \math_icsym_COs:Nn
- \cs_set_eq:NN \math_csym_DeL:Nn \math_icsym_DeL:Nn
- \cs_set_eq:NN \math_csym_DeR:Nn \math_icsym_DeR:Nn
- \cs_set_eq:NN \math_csym_DeB:Nn \math_icsym_DeB:Nn
- \cs_set_eq:NN \math_csym_DeA:Nn \math_icsym_DeA:Nn
- \cs_set_eq:NN \math_csym_Acc:Nn \math_icsym_Acc:Nn
- \cs_set_eq:NN \math_csym_Ope:Nn \math_icsym_Ope:Nn
- \cs_set_eq:NN \math_csym_Clo:Nn \math_icsym_Clo:Nn
- \cs_set_eq:NN \math_csym_Inn:Nn \math_icsym_Inn:Nn
-}
-
-\cs_set:Npn \math_setup_display_symbols:{
- \cs_set_eq:NN \math_sym_Ord:Nn \math_dsym_Ord:Nn
- \cs_set_eq:NN \math_sym_Var:Nn \math_dsym_Var:Nn
- \cs_set_eq:NN \math_sym_Bin:Nn \math_dsym_Bin:Nn
- \cs_set_eq:NN \math_sym_Rel:Nn \math_dsym_Rel:Nn
- \cs_set_eq:NN \math_sym_Pun:Nn \math_dsym_Pun:Nn
- \cs_set_eq:NN \math_sym_COs:Nn \math_dsym_COs:Nn
- \cs_set_eq:NN \math_sym_COi:Nn \math_dsym_COi:Nn
- \cs_set_eq:NN \math_sym_DeL:Nn \math_dsym_DeL:Nn
- \cs_set_eq:NN \math_sym_DeR:Nn \math_dsym_DeR:Nn
- \cs_set_eq:NN \math_sym_DeB:Nn \math_dsym_DeL:Nn
- \cs_set_eq:NN \math_sym_DeA:Nn \math_dsym_DeA:Nn
- \cs_set_eq:NN \math_sym_Rad:Nn \math_dsym_Rad:Nn
- \cs_set_eq:NN \math_sym_Acc:Nn \math_dsym_DeL:Nn
- \cs_set_eq:NN \math_csym_Ord:Nn \math_dcsym_Ord:Nn
- \cs_set_eq:NN \math_csym_Var:Nn \math_dcsym_Var:Nn
- \cs_set_eq:NN \math_csym_Bin:Nn \math_dcsym_Bin:Nn
- \cs_set_eq:NN \math_csym_Rel:Nn \math_dcsym_Rel:Nn
- \cs_set_eq:NN \math_csym_Pun:Nn \math_dcsym_Pun:Nn
- \cs_set_eq:NN \math_csym_COi:Nn \math_dcsym_COi:Nn
- \cs_set_eq:NN \math_csym_COs:Nn \math_dcsym_COs:Nn
- \cs_set_eq:NN \math_csym_DeL:Nn \math_dcsym_DeL:Nn
- \cs_set_eq:NN \math_csym_DeR:Nn \math_dcsym_DeR:Nn
- \cs_set_eq:NN \math_csym_DeB:Nn \math_dcsym_DeB:Nn
- \cs_set_eq:NN \math_csym_DeA:Nn \math_dcsym_DeA:Nn
- \cs_set_eq:NN \math_csym_Acc:Nn \math_dcsym_Acc:Nn
- \cs_set_eq:NN \math_csym_Ope:Nn \math_dcsym_Ope:Nn
- \cs_set_eq:NN \math_csym_Clo:Nn \math_dcsym_Clo:Nn
- \cs_set_eq:NN \math_csym_Inn:Nn \math_dcsym_Inn:Nn
-}
-% \end{macrocode}
-% Phew, that was it.
-%
-% Well, almost. We need to set them up for use properly. Should they
-% be added to |\everymath|? Probably, for math within
-% displays. However, this is a lot of extra processing which we could
-% tackle in the display setup.
-% \begin{macrocode}
-\math_setup_inline_symbols:
-% \end{macrocode}
-%
-% Need an active character for a second. Don't rely on |~| being
-% active!
-% \begin{macrocode}
-\edef\tmp{\catcode\z@=\the\catcode\z@}
-\catcode\z@=\active
-\def\DeclareFlexSymbol#1#2#3#4{%
- \begingroup
- \cs_set_protected:Npx\@tempb{
- \exp_not:N\@sym\exp_not:N#1\exp_not:c{math_sym_#2:Nn}
- \exp_not:c{mg@#3}{#4}
- }
- \ifcat\exp_not:N#1\relax
- \sym@global\let#1\@tempb
- \else
- \sym@global\mathcode`#1="8000\relax
- \lccode\z@=`#1\relax
- \lowercase{\sym@global\let^^@\@tempb}% zero char
- \fi
- \endgroup
-}
-\tmp % restore catcode
-\cs_set:Npn \DeclareFlexDelimiter #1#2#3#4#5#6{
- \DeclareFlexSymbol{#1}{#2}{#3}{#4}
- \cs_gset:cpx{sd@\use:c{mg@#3}#4}{\exp_not:c{mg@#5}{#6}}
-}
-
-% \end{macrocode}
-% |\DeclareFlexCompoundSymbol{\cdots}{Inn}{\cdotp\cdotp\cdotp}|
-% |\def\@symInn#1#2{\@symtype\mathinner{\OrdSymbol{#2}}}|
-% |\@symtype \mathinner{\OrdSymbol{\cdtop\cdotp\cdotp}}|
-% \begin{macrocode}
-\def\DeclareFlexCompoundSymbol#1#2#3{%
- \exp_args:NNo \DeclareRobustCommand#1{\csname math_csym_#2:Nn\endcsname#1{#3}}%
- \sym@global\let#1#1\relax
-}
-\DeclareRobustCommand\textchar{\text@char\textfont}
-\DeclareRobustCommand\scriptchar{\text@char\scriptfont}%
-% \end{macrocode}
-% Simplified the next bit because now the slot is read as one argument
-% so no afterassignment and what have you. Just drop the char
-% directly.
-% \begin{macrocode}
-\def\text@char@sym#1#2#3#4{% #3=fam, #4=slot
- \begingroup
- \cs_set_eq:NN \@sym \prg_do_nothing: % defense against infinite loops
-% \end{macrocode}
-% the next line will result in |\scriptfont|\meta{num}, where |#3|
-% provides the \meta{num}.
-% \begin{macrocode}
- \the\text@script@char#3%
- \char"#4\endgroup
-}
-\edef\tmp{\catcode\z@=\the\catcode\z@}
-\catcode\z@=\active
-\def\text@char#1#2{\begingroup
- \check@mathfonts
- \cs_set_eq:NN \text@script@char#1
- \cs_set_eq:NN \@sym\text@char@sym
- \cs_set_eq:NN \@symtype\use_ii:nn
- \cs_set_eq:NN\OrdSymbol\use:n
- \cs_set_eq:NN\ifmmode\iftrue
- \everymath{$\use_none:n}%$
- \def\mkern{\muskip\z@}
- \cs_set_eq:NN\mskip\mkern
- \ifcat\relax\noexpand#2% true if #2 is a cs.
- #2%
- \else
- \lccode\z@=\expandafter`\string#2\relax
- \lowercase{^^@}%
- \fi
- \endgroup
-}
-\tmp % restore catcode
-\providecommand\textprime{}
-\DeclareRobustCommand\textprime{\leavevmode
- \raise.8ex\hbox{\text@char\scriptfont\prime}%
-}
-\@ifundefined{resetMathstrut@}{}{%
- \def\resetMathstrut@{%
- \setbox\z@\hbox{\textchar\vert}%
- \ht\Mathstrutbox@\ht\z@ \dp\Mathstrutbox@\dp\z@
- }%
-}
-% \end{macrocode}
-% Arrow fills. changed to 7mu as in amsmath
-% \begin{macrocode}
-\@ifundefined{rightarrowfill@}{}{%
- \def\rightarrowfill@#1{\m@th\setboxz@h{$#1\relbar$}\ht\z@\z@
- $#1\copy\z@\mkern-7mu\cleaders
- \hbox{$#1\mkern-2mu\box\z@\mkern-2mu$}\hfill
- \mkern-6mu\OrdSymbol{\rightarrow}$}
- \def\leftarrowfill@#1{\m@th\setboxz@h{$#1\relbar$}\ht\z@\z@
- $#1\OrdSymbol{\leftarrow}\mkern-6mu\cleaders
- \hbox{$#1\mkern-2mu\copy\z@\mkern-2mu$}\hfill
- \mkern-7mu\box\z@$}
- \def\leftrightarrowfill@#1{\m@th\setboxz@h{$#1\relbar$}\ht\z@\z@
- $#1\OrdSymbol{\leftarrow}\mkern-6mu\cleaders
- \hbox{$#1\mkern-2mu\box\z@\mkern-2mu$}\hfill
- \mkern-6mu\OrdSymbol{\rightarrow}$}
-}
-% \end{macrocode}
-% hey, this looks like a simple case switch...
-% \begin{macrocode}
-\def\binrel@sym#1#2#3#4{%
- \xdef\binrel@@##1{%
- \ifx\math_sym_Ord:Nn #2 \math_csym_Ord:Nn
- \else\ifx\math_sym_Var:Nn#2 \math_csym_Var:Nn
- \else\ifx\math_sym_COs:Nn#2 \math_csym_COs:Nn
- \else\ifx\math_sym_COi:Nn#2 \math_csym_COi:Nn
- \else\ifx\math_sym_Bin:Nn#2 \math_csym_Bin:Nn
- \else\ifx\math_sym_Rel:Nn#2 \math_csym_Rel:Nn
- \else\ifx\math_sym_Pun:Nn#2 \math_csym_Pun:Nn
- \else\exp_not:N\@symErr \fi\fi\fi\fi\fi\fi\fi
- ?{\exp_not:N\OrdSymbol{##1}}}%
-}
-
-\def\binrel@a{%
- \def\math_sym_Ord:Nn##1##2{\gdef\binrel@@####1{\math_sym_Ord:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_Var:Nn##1##2{\gdef\binrel@@####1{\math_sym_Var:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_COs:Nn##1##2{\gdef\binrel@@####1{\math_sym_COs:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_COi:Nn##1##2{\gdef\binrel@@####1{\math_sym_COi:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_Bin:Nn##1##2{\gdef\binrel@@####1{\math_sym_Bin:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_Rel:Nn##1##2{\gdef\binrel@@####1{\math_sym_Rel:Nn##1{\OrdSymbol{####1}}}}%
- \def\math_sym_Pun:Nn##1##2{\gdef\binrel@@####1{\math_sym_Pun:Nn##1{\OrdSymbol{####1}}}}%
-}
-\def\binrel@#1{%
- \setbox\z@\hbox{$%
- \let\mathchoice\@gobblethree
- \let\@sym\binrel@sym \binrel@a
- #1$}%
-}
-\def\@symextension{sym}
-\newcommand\usesymbols[1]{%
- \clist_map_variable:nNn{#1}\@tempb{%
- \exp_args:No\@onefilewithoptions{\@tempb}[][]\@symextension
- }%
-}
-% Need to introduce \ProvidesExplFile somehow
-\newcommand\ProvidesSymbols[1]{\ProvidesFile{#1.sym}}
-\DeclareRobustCommand{\not}[1]{\math_csym_Rel:Nn\not{\OrdSymbol{\notRel#1}}}
-\DeclareRobustCommand{\OrdSymbol}[1]{%
- \begingroup\mathchars@reset#1\endgroup
-}
-\def\mathchars@reset{\let\@sym\@sym@ord \let\@symtype\@symtype@ord
- \let\OrdSymbol\relax}
-\def\@symtype@ord#1#{}% a strange sort of \@gobble
-\def\@sym@ord#1#2{\exp_after:wN\@sym@ord@a\string#2\@nil}%
-% \end{macrocode}
-% Read delimited argument here. We want to find first character of
-% DeA, Bin, etc. and the control sequence checked agains is |\m@DeL|,
-% |\m@Pun|, etc. The lccode trick makes the . into an @ with catcode
-% 12. This is what results when the code is called with
-% |\string|. Beware of this when we change internal names for math
-% groups! If a Delimiter is found, insert it with class 0 but use the
-% smallest version available. Otherwise just insert math char of class
-% 0. The code here is not pretty and it indicates it should be tackled
-% differently!
-% \begin{macrocode}
-\begingroup
-\lccode`\.=`\_ \lowercase{\endgroup
-\def\@sym@ord@a#1.#2.}#3#4\@nil#5#6{%
- \if D#3
- %\math_ord_delim_aux:Nn #5{#6}
- \math_sd_del_aux:Nnn 0 #5{#6}% check if this works!
- \else
- \math_char:NNn 0 #5{#6}
- \fi
-}
-\cs_set:Nn \math_ord_delim_aux:Nn {
- \math_sd_aux:nn { \math_char:NNn 0 } {#1{#2}}
-}
-% \end{macrocode}
-%
-%
-% Before declaring any math characters active, we have to take care of
-% a small problem with \pkg{amsmath} v2.x, if it is loaded before
-% \pkg{flexisym}. \cs{std@minus} and \cs{std@equal} are defined as
-% \begin{verbatim}
-% \mathchardef\std@minus\mathcode`\-\relax
-% \mathchardef\std@equal\mathcode`\=\relax
-% \end{verbatim}
-% in \fn{amsmath.sty} and again \cs{AtBeginDocument}. The
-% latter is because
-% \begin{quote}
-% In case some alternative math fonts are loaded
-% later. [\fn{amsmath.dtx}]
-% \end{quote}
-% The problem arises because \pkg{flexisym} sets the mathcode of all
-% symbols to $32768$ which is illegal for a \cs{mathchardef}.
-%
-% We have to remove the assignments from the \cs{AtBeginDocument} hook
-% as they will cause an error there.
-% \begin{macrocode}
-\@ifpackageloaded{amsmath}{%
- \begingroup
-% \end{macrocode}
-% Split the contents of \cs{@begindocumenthook} by reading what we
-% search for as a delimited argument and ensure these two assignments
-% do not take place. It is questionable if anything reasonable can be
-% done to them. In the case of a package such as \pkg{mathpazo} which defines
-% \begin{verbatim}
-%\DeclareMathSymbol{=}{\mathrel}{upright}{"3D}
-% \end{verbatim}
-% the \cs{Relbar} will look wrong if we don't use the correct
-% symbol. The way to solve this is define additional \fn{.sym} files
-% which contain the definition of \cs{relbar} and \cs{Relbar}
-% needed. We need those additional files anyway for things like
-% \cs{joinord}.
-% \begin{macrocode}
- \long\def\next#1\mathchardef\std@minus\mathcode`\-\relax
- \mathchardef\std@equal\mathcode`\=\relax#2\flexi@stop{%
- \toks@{#1#2}%
- \xdef\@begindocumenthook{\the\toks@}%
- }%
- \expandafter\next\@begindocumenthook\flexi@stop
- \endgroup
-}{}
-% \end{macrocode}
-%
-% There is problem when using \cs{DeclareMathOperator} as the
-% operators defined call a command \cs{newmcodes@} which relies on the
-% mathcode of \texttt{-} being less than 32768. We delay the
-% definition \cs{AtBeginDocument} in case \pkg{amssymb} hasn't been
-% loaded yet.
-% \begin{macrocode}
-\AtBeginDocument{%
-\def\newmcodes@{%
- \mathcode `\'39\space
- \mathcode `\*42\space
- \mathcode `\."613A\space
- \ifnum\mathcode`\-=45\space
- \else
-% \end{macrocode}
-% The extra check. Don't do anything if \texttt{-} is math active.
-% \begin{macrocode}
- \ifnum\mathcode`\-=32768\space
- \else
- \mathchardef \std@minus \mathcode `\-\relax
- \fi
- \fi
- \mathcode `\-45\space
- \mathcode `\/47\space
- \mathcode `\:"603A\space\relax
-}%
-}
-% \end{macrocode}
-%
-% And we then continue with the options.
-% \begin{macrocode}
-\DeclareOption{mathstyleoff}{%
- \PassOptionsToPackage{noactivechars}{mathstyle}}
-\DeclareOption{cmbase}{\usesymbols{cmbase}}
-\DeclareOption{mathpazo}{\usesymbols{mathpazo}}
-\DeclareOption{mathptmx}{\usesymbols{mathptmx}}
-\ExecuteOptions{cmbase}
-\ProcessOptions\relax
-\renewcommand{\lnot}{\neg}
-\renewcommand{\land}{\wedge}
-\renewcommand{\lor}{\vee}
-\renewcommand{\le}{\leq}
-\renewcommand{\ge}{\geq}
-\renewcommand{\ne}{\neq}
-\renewcommand{\owns}{\ni}
-\renewcommand{\gets}{\leftarrow}
-\renewcommand{\to}{\rightarrow}
-\renewcommand{\|}{\Vert}
-\RequirePackage{mathstyle}
-%</package>\endinput
-% \end{macrocode}
-%
-% \section{cmbase, mathpazo, mathptmx}
-%
-%
-% For each math font package we define a corresponding symbol file
-% with extension \fn{sym}. The Computer Modern base is called
-% \opt{cmbase} and \opt{mathpazo} and \opt{mathptmx} corresponds to
-% the packages. The definitions are almost identical as they mostly
-% concern the positions in the math font encodings. Look for
-% differences in \cs{joinord}, \cs{relbar} and \cs{Relbar}. If you
-% inspect the source code, you'll see that the support for
-% \pkg{mathptmx} didn't require any work but I thought it better to
-% create a \fn{sym} file to maintain a uniform interface.
-%
-% \begin{aside}
-% Open question on \verb"!" and \verb"?": maybe they
-% should have type `Pun' instead of `DeR'. Need to
-% search for uses in math in AMS archives. Or, maybe add a special
-% `Clo' type for them: non-extensible closing delimiter.
-% \end{aside}
-%
-%
-%
-% Default mathgroup setup.
-% \changes{v0.3}{2010/07/11}{fixed bugs regarding capital greek
-% letters in mathpazo and mathptmx}
-% \begin{macrocode}
-%<*cmbase|mathpazo|mathptmx>
-%<cmbase>\ProvidesSymbols{cmbase}[2007/12/19 v0.92]
-%<mathpazo>\ProvidesSymbols{mathpazo}[2010/07/11 v0.3]
-%<mathptmx>\ProvidesSymbols{mathptmx}[2010/07/11 v0.3]
-\ExplSyntaxOn
-\cs_gset:cpx{mg@OT1}{\hexnumber@\symoperators}
-\cs_gset:cpx{mg@OML}{\hexnumber@\symletters}
-\cs_gset:cpx{mg@OMS}{\hexnumber@\symsymbols}
-\cs_gset:cpx{mg@OMX}{\hexnumber@\symlargesymbols}
-\cs_gset:Npx\mg@bin{\mg@OMS}
-\cs_gset:Npx\mg@del{\mg@OMX}
-\cs_gset:Npx\mg@digit{\exp_not:c{mg@OT1}}
-\cs_gset:Npn\mg@latin{\mg@OML}
-\cs_gset_eq:NN\mg@Latin\mg@latin
-\cs_gset_eq:NN\mg@greek\mg@latin
-%<cmbase|mathptmx>\cs_gset_eq:NN\mg@Greek\mg@digit
-% \end{macrocode}
-% Mathpazo takes the upper case greeks from the letter font if
-% slantedGreek is in effect, but from \emph{upright} if not. Mathptmx
-% also takes the slanted greek from the letter font.
-% \begin{macrocode}
-%<mathpazo>\@ifpackagewith{mathpazo}{slantedGreek}{%
-%<mathpazo> \cs_gset_eq:NN\mg@Greek\mg@latin
-%<mathpazo>}{%
-%<mathpazo> \cs_gset:cpx{mg@Greek}{\hexnumber@\symupright}
-%<mathpazo>}
-%<mathptmx>\@ifpackagewith{mathptmx}{slantedGreek}{%
-%<mathptmx> \cs_gset_eq:NN\mg@Greek\mg@latin
-%<mathptmx>}{}
-\cs_gset_eq:NN\mg@rel\mg@bin
-\cs_gset_eq:NN\mg@ord\mg@bin
-\cs_gset_eq:NN\mg@cop\mg@del
-% \end{macrocode}
-%
-%
-% Symbols from the 128-character \fn{cmr} encoding.
-% Paren and square bracket delimiters from this encoding are covered
-% by the definitions in the \fn{cmex} section, however.
-% \begin{macrocode}
-\DeclareFlexSymbol{!} {Pun}{OT1}{21}
-\DeclareFlexSymbol{+} {Bin}{OT1}{2B}
-\DeclareFlexSymbol{:} {Rel}{OT1}{3A}
-\DeclareFlexSymbol{\colon}{Pun}{OT1}{3A}
-\DeclareFlexSymbol{;} {Pun}{OT1}{3B}
-\DeclareFlexSymbol{=} {Rel}{OT1}{3D}
-\DeclareFlexSymbol{?} {Pun}{OT1}{3F}
-% \end{macrocode}
-% \AmS\TeX, and therefore the \pkg{amsmath} package, make the
-% uppercase Greek letters class 0 (nonvariable) instead of 7
-% (variable), to eliminate the glaring inconsistency with lowercase
-% Greek. (In plain \TeX , \verb"{\bf\Delta}" works, while
-% \verb"{\bf\delta}" doesn't.) Let us try to make them both
-% variable (fonts permitting) instead of nonvariable.
-% \begin{macrocode}
-\DeclareFlexSymbol{\Gamma} {Var}{Greek}{00}
-\DeclareFlexSymbol{\Delta} {Var}{Greek}{01}
-\DeclareFlexSymbol{\Theta} {Var}{Greek}{02}
-\DeclareFlexSymbol{\Lambda} {Var}{Greek}{03}
-\DeclareFlexSymbol{\Xi} {Var}{Greek}{04}
-\DeclareFlexSymbol{\Pi} {Var}{Greek}{05}
-\DeclareFlexSymbol{\Sigma} {Var}{Greek}{06}
-\DeclareFlexSymbol{\Upsilon}{Var}{Greek}{07}
-\DeclareFlexSymbol{\Phi} {Var}{Greek}{08}
-\DeclareFlexSymbol{\Psi} {Var}{Greek}{09}
-\DeclareFlexSymbol{\Omega} {Var}{Greek}{0A}
-% \end{macrocode}
-% Decimal digits.
-% \begin{macrocode}
-\DeclareFlexSymbol{0}{Var}{digit}{30}
-\DeclareFlexSymbol{1}{Var}{digit}{31}
-\DeclareFlexSymbol{2}{Var}{digit}{32}
-\DeclareFlexSymbol{3}{Var}{digit}{33}
-\DeclareFlexSymbol{4}{Var}{digit}{34}
-\DeclareFlexSymbol{5}{Var}{digit}{35}
-\DeclareFlexSymbol{6}{Var}{digit}{36}
-\DeclareFlexSymbol{7}{Var}{digit}{37}
-\DeclareFlexSymbol{8}{Var}{digit}{38}
-\DeclareFlexSymbol{9}{Var}{digit}{39}
-% \end{macrocode}
-% Symbols from the 128-character \fn{cmmi} encoding.
-% \begin{macrocode}
-\DeclareFlexSymbol{,}{Pun}{OML}{3B}
-\DeclareFlexSymbol{.}{Ord}{OML}{3A}
-\DeclareFlexSymbol{/}{Ord}{OML}{3D}
-\DeclareFlexSymbol{<}{Rel}{OML}{3C}
-\DeclareFlexSymbol{>}{Rel}{OML}{3E}
-% \end{macrocode}
-% To do: make the Var property of lc Greek work properly.
-% \begin{macrocode}
-\DeclareFlexSymbol{\alpha}{Var}{greek}{0B}
-\DeclareFlexSymbol{\beta}{Var}{greek}{0C}
-\DeclareFlexSymbol{\gamma}{Var}{greek}{0D}
-\DeclareFlexSymbol{\delta}{Var}{greek}{0E}
-\DeclareFlexSymbol{\epsilon}{Var}{greek}{0F}
-\DeclareFlexSymbol{\zeta}{Var}{greek}{10}
-\DeclareFlexSymbol{\eta}{Var}{greek}{11}
-\DeclareFlexSymbol{\theta}{Var}{greek}{12}
-\DeclareFlexSymbol{\iota}{Var}{greek}{13}
-\DeclareFlexSymbol{\kappa}{Var}{greek}{14}
-\DeclareFlexSymbol{\lambda}{Var}{greek}{15}
-\DeclareFlexSymbol{\mu}{Var}{greek}{16}
-\DeclareFlexSymbol{\nu}{Var}{greek}{17}
-\DeclareFlexSymbol{\xi}{Var}{greek}{18}
-\DeclareFlexSymbol{\pi}{Var}{greek}{19}
-\DeclareFlexSymbol{\rho}{Var}{greek}{1A}
-\DeclareFlexSymbol{\sigma}{Var}{greek}{1B}
-\DeclareFlexSymbol{\tau}{Var}{greek}{1C}
-\DeclareFlexSymbol{\upsilon}{Var}{greek}{1D}
-\DeclareFlexSymbol{\phi}{Var}{greek}{1E}
-\DeclareFlexSymbol{\chi}{Var}{greek}{1F}
-\DeclareFlexSymbol{\psi}{Var}{greek}{20}
-\DeclareFlexSymbol{\omega}{Var}{greek}{21}
-\DeclareFlexSymbol{\varepsilon}{Var}{greek}{22}
-\DeclareFlexSymbol{\vartheta}{Var}{greek}{23}
-\DeclareFlexSymbol{\varpi}{Var}{greek}{24}
-\DeclareFlexSymbol{\varrho}{Var}{greek}{25}
-\DeclareFlexSymbol{\varsigma}{Var}{greek}{26}
-\DeclareFlexSymbol{\varphi}{Var}{greek}{27}
-% \end{macrocode}
-% Note that in plain \TeX\ \cs{imath} and \cs{jmath} are
-% not variable-font. But if a \verb"j" changes font to, let's
-% say, sans serif or calligraphic, a dotless \verb"j" in the same
-% context should change font in the same way.
-% \begin{macrocode}
-\DeclareFlexSymbol{\imath}{Var}{OML}{7B}
-\DeclareFlexSymbol{\jmath}{Var}{OML}{7C}
-\DeclareFlexSymbol{\ell}{Ord}{OML}{60}
-\DeclareFlexSymbol{\wp}{Ord}{OML}{7D}
-\DeclareFlexSymbol{\partial}{Ord}{OML}{40}
-\DeclareFlexSymbol{\flat}{Ord}{OML}{5B}
-\DeclareFlexSymbol{\natural}{Ord}{OML}{5C}
-\DeclareFlexSymbol{\sharp}{Ord}{OML}{5D}
-\DeclareFlexSymbol{\triangleleft}{Bin}{OML}{2F}
-\DeclareFlexSymbol{\triangleright}{Bin}{OML}{2E}
-\DeclareFlexSymbol{\star}{Bin}{OML}{3F}
-\DeclareFlexSymbol{\smile}{Rel}{OML}{5E}
-\DeclareFlexSymbol{\frown}{Rel}{OML}{5F}
-\DeclareFlexSymbol{\leftharpoonup}{Rel}{OML}{28}
-\DeclareFlexSymbol{\leftharpoondown}{Rel}{OML}{29}
-\DeclareFlexSymbol{\rightharpoonup}{Rel}{OML}{2A}
-\DeclareFlexSymbol{\rightharpoondown}{Rel}{OML}{2B}
-\DeclareFlexSymbol{a}{Var}{latin}{61}
-\DeclareFlexSymbol{b}{Var}{latin}{62}
-\DeclareFlexSymbol{c}{Var}{latin}{63}
-\DeclareFlexSymbol{d}{Var}{latin}{64}
-\DeclareFlexSymbol{e}{Var}{latin}{65}
-\DeclareFlexSymbol{f}{Var}{latin}{66}
-\DeclareFlexSymbol{g}{Var}{latin}{67}
-\DeclareFlexSymbol{h}{Var}{latin}{68}
-\DeclareFlexSymbol{i}{Var}{latin}{69}
-\DeclareFlexSymbol{j}{Var}{latin}{6A}
-\DeclareFlexSymbol{k}{Var}{latin}{6B}
-\DeclareFlexSymbol{l}{Var}{latin}{6C}
-\DeclareFlexSymbol{m}{Var}{latin}{6D}
-\DeclareFlexSymbol{n}{Var}{latin}{6E}
-\DeclareFlexSymbol{o}{Var}{latin}{6F}
-\DeclareFlexSymbol{p}{Var}{latin}{70}
-\DeclareFlexSymbol{q}{Var}{latin}{71}
-\DeclareFlexSymbol{r}{Var}{latin}{72}
-\DeclareFlexSymbol{s}{Var}{latin}{73}
-\DeclareFlexSymbol{t}{Var}{latin}{74}
-\DeclareFlexSymbol{u}{Var}{latin}{75}
-\DeclareFlexSymbol{v}{Var}{latin}{76}
-\DeclareFlexSymbol{w}{Var}{latin}{77}
-\DeclareFlexSymbol{x}{Var}{latin}{78}
-\DeclareFlexSymbol{y}{Var}{latin}{79}
-\DeclareFlexSymbol{z}{Var}{latin}{7A}
-\DeclareFlexSymbol{A}{Var}{Latin}{41}
-\DeclareFlexSymbol{B}{Var}{Latin}{42}
-\DeclareFlexSymbol{C}{Var}{Latin}{43}
-\DeclareFlexSymbol{D}{Var}{Latin}{44}
-\DeclareFlexSymbol{E}{Var}{Latin}{45}
-\DeclareFlexSymbol{F}{Var}{Latin}{46}
-\DeclareFlexSymbol{G}{Var}{Latin}{47}
-\DeclareFlexSymbol{H}{Var}{Latin}{48}
-\DeclareFlexSymbol{I}{Var}{Latin}{49}
-\DeclareFlexSymbol{J}{Var}{Latin}{4A}
-\DeclareFlexSymbol{K}{Var}{Latin}{4B}
-\DeclareFlexSymbol{L}{Var}{Latin}{4C}
-\DeclareFlexSymbol{M}{Var}{Latin}{4D}
-\DeclareFlexSymbol{N}{Var}{Latin}{4E}
-\DeclareFlexSymbol{O}{Var}{Latin}{4F}
-\DeclareFlexSymbol{P}{Var}{Latin}{50}
-\DeclareFlexSymbol{Q}{Var}{Latin}{51}
-\DeclareFlexSymbol{R}{Var}{Latin}{52}
-\DeclareFlexSymbol{S}{Var}{Latin}{53}
-\DeclareFlexSymbol{T}{Var}{Latin}{54}
-\DeclareFlexSymbol{U}{Var}{Latin}{55}
-\DeclareFlexSymbol{V}{Var}{Latin}{56}
-\DeclareFlexSymbol{W}{Var}{Latin}{57}
-\DeclareFlexSymbol{X}{Var}{Latin}{58}
-\DeclareFlexSymbol{Y}{Var}{Latin}{59}
-\DeclareFlexSymbol{Z}{Var}{Latin}{5A}
-% \end{macrocode}
-% The \cs{ldotPun} glyph is used in constructing the
-% \cs{ldots} symbol. It is just a period with a different math
-% symbol class. \cs{lhookRel} and \cs{rhookRel} are used
-% in a similar way for building hooked arrow symbols.
-% \begin{macrocode}
-\DeclareFlexSymbol{\ldotPun}{Pun}{OML}{3A}
-\def\ldotp{\ldotPun}
-\DeclareFlexSymbol{\lhookRel}{Rel}{OML}{2C}
-\DeclareFlexSymbol{\rhookRel}{Rel}{OML}{2D}
-% \end{macrocode}
-% Symbols from the 128-character \fn{cmsy} encoding.
-% \begin{macrocode}
-\DeclareFlexSymbol{*}{Bin}{bin}{03} % \ast
-\DeclareFlexSymbol{-}{Bin}{bin}{00}
-\DeclareFlexSymbol{|}{Ord}{OMS}{6A}
-\DeclareFlexSymbol{\aleph}{Ord}{ord}{40}
-\DeclareFlexSymbol{\Re}{Ord}{ord}{3C}
-\DeclareFlexSymbol{\Im}{Ord}{ord}{3D}
-\DeclareFlexSymbol{\infty}{Ord}{ord}{31}
-\DeclareFlexSymbol{\prime}{Ord}{ord}{30}
-\DeclareFlexSymbol{\emptyset}{Ord}{ord}{3B}
-\DeclareFlexSymbol{\nabla}{Ord}{ord}{72}
-\DeclareFlexSymbol{\top}{Ord}{ord}{3E}
-\DeclareFlexSymbol{\bot}{Ord}{ord}{3F}
-\DeclareFlexSymbol{\triangle}{Ord}{ord}{34}
-\DeclareFlexSymbol{\forall}{Ord}{ord}{38}
-\DeclareFlexSymbol{\exists}{Ord}{ord}{39}
-\DeclareFlexSymbol{\neg}{Ord}{ord}{3A}
-\DeclareFlexSymbol{\clubsuit}{Ord}{ord}{7C}
-\DeclareFlexSymbol{\diamondsuit}{Ord}{ord}{7D}
-\DeclareFlexSymbol{\heartsuit}{Ord}{ord}{7E}
-\DeclareFlexSymbol{\spadesuit}{Ord}{ord}{7F}
-\DeclareFlexSymbol{\smallint}{COs}{OMS}{73}
-% \end{macrocode}
-% Binary operators.
-% \begin{macrocode}
-\DeclareFlexSymbol{\bigtriangleup}{Bin}{bin}{34}
-\DeclareFlexSymbol{\bigtriangledown}{Bin}{bin}{35}
-\DeclareFlexSymbol{\wedge}{Bin}{bin}{5E}
-\DeclareFlexSymbol{\vee}{Bin}{bin}{5F}
-\DeclareFlexSymbol{\cap}{Bin}{bin}{5C}
-\DeclareFlexSymbol{\cup}{Bin}{bin}{5B}
-\DeclareFlexSymbol{\ddagger}{Bin}{bin}{7A}
-\DeclareFlexSymbol{\dagger}{Bin}{bin}{79}
-\DeclareFlexSymbol{\sqcap}{Bin}{bin}{75}
-\DeclareFlexSymbol{\sqcup}{Bin}{bin}{74}
-\DeclareFlexSymbol{\uplus}{Bin}{bin}{5D}
-\DeclareFlexSymbol{\amalg}{Bin}{bin}{71}
-\DeclareFlexSymbol{\diamond}{Bin}{bin}{05}
-\DeclareFlexSymbol{\bullet}{Bin}{bin}{0F}
-\DeclareFlexSymbol{\wr}{Bin}{bin}{6F}
-\DeclareFlexSymbol{\div}{Bin}{bin}{04}
-\DeclareFlexSymbol{\odot}{Bin}{bin}{0C}
-\DeclareFlexSymbol{\oslash}{Bin}{bin}{0B}
-\DeclareFlexSymbol{\otimes}{Bin}{bin}{0A}
-\DeclareFlexSymbol{\ominus}{Bin}{bin}{09}
-\DeclareFlexSymbol{\oplus}{Bin}{bin}{08}
-\DeclareFlexSymbol{\mp}{Bin}{bin}{07}
-\DeclareFlexSymbol{\pm}{Bin}{bin}{06}
-\DeclareFlexSymbol{\circ}{Bin}{bin}{0E}
-\DeclareFlexSymbol{\bigcirc}{Bin}{bin}{0D}
-\DeclareFlexSymbol{\setminus}{Bin}{bin}{6E}
-\DeclareFlexSymbol{\cdot}{Bin}{bin}{01}
-\DeclareFlexSymbol{\ast}{Bin}{bin}{03}
-\DeclareFlexSymbol{\times}{Bin}{bin}{02}
-% \end{macrocode}
-% Relation symbols.
-% \begin{macrocode}
-\DeclareFlexSymbol{\propto}{Rel}{rel}{2F}
-\DeclareFlexSymbol{\sqsubseteq}{Rel}{rel}{76}
-\DeclareFlexSymbol{\sqsupseteq}{Rel}{rel}{77}
-\DeclareFlexSymbol{\parallel}{Rel}{rel}{6B}
-\DeclareFlexSymbol{\mid}{Rel}{rel}{6A}
-\DeclareFlexSymbol{\dashv}{Rel}{rel}{61}
-\DeclareFlexSymbol{\vdash}{Rel}{rel}{60}
-\DeclareFlexSymbol{\nearrow}{Rel}{rel}{25}
-\DeclareFlexSymbol{\searrow}{Rel}{rel}{26}
-\DeclareFlexSymbol{\nwarrow}{Rel}{rel}{2D}
-\DeclareFlexSymbol{\swarrow}{Rel}{rel}{2E}
-\DeclareFlexSymbol{\Leftrightarrow}{Rel}{rel}{2C}
-\DeclareFlexSymbol{\Leftarrow}{Rel}{rel}{28}
-\DeclareFlexSymbol{\Rightarrow}{Rel}{rel}{29}
-\DeclareFlexSymbol{\leq}{Rel}{rel}{14}
-\DeclareFlexSymbol{\geq}{Rel}{rel}{15}
-\DeclareFlexSymbol{\succ}{Rel}{rel}{1F}
-\DeclareFlexSymbol{\prec}{Rel}{rel}{1E}
-\DeclareFlexSymbol{\approx}{Rel}{rel}{19}
-\DeclareFlexSymbol{\succeq}{Rel}{rel}{17}
-\DeclareFlexSymbol{\preceq}{Rel}{rel}{16}
-\DeclareFlexSymbol{\supset}{Rel}{rel}{1B}
-\DeclareFlexSymbol{\subset}{Rel}{rel}{1A}
-\DeclareFlexSymbol{\supseteq}{Rel}{rel}{13}
-\DeclareFlexSymbol{\subseteq}{Rel}{rel}{12}
-\DeclareFlexSymbol{\in}{Rel}{rel}{32}
-\DeclareFlexSymbol{\ni}{Rel}{rel}{33}
-\DeclareFlexSymbol{\gg}{Rel}{rel}{1D}
-\DeclareFlexSymbol{\ll}{Rel}{rel}{1C}
-\DeclareFlexSymbol{\leftrightarrow}{Rel}{rel}{24}
-\DeclareFlexSymbol{\leftarrow}{Rel}{rel}{20}
-\DeclareFlexSymbol{\rightarrow}{Rel}{rel}{21}
-\DeclareFlexSymbol{\sim}{Rel}{rel}{18}
-\DeclareFlexSymbol{\simeq}{Rel}{rel}{27}
-\DeclareFlexSymbol{\perp}{Rel}{rel}{3F}
-\DeclareFlexSymbol{\equiv}{Rel}{rel}{11}
-\DeclareFlexSymbol{\asymp}{Rel}{rel}{10}
-% \end{macrocode}
-% The \cs{notRel} glyph is a special zero-width glyph intended only
-% for use in constructing negated symbols. \cs{mapstoRel} and
-% \cs{cdotPun} have similar but more restricted applications.
-% \begin{macrocode}
-\DeclareFlexSymbol{\notRel}{Rel}{rel}{36}
-\DeclareFlexSymbol{\mapstoOrd}{Ord}{OMS}{37}
-\DeclareFlexSymbol{\cdotOrd}{Ord}{OMS}{01}
-\cs_set:Npn\cdotp{\mathpunct{\cdotOrd}}
-% \end{macrocode}
-% Symbols from the 128-character \fn{cmex} encoding.
-% \verb"COs" stands for `cumulative operator
-% (sum-like)'.
-% \verb"COi" stands for `cumulative operator
-% (integral-like)'. These typically differ only in the
-% default placement of limits. \verb"cop" stands for
-% `cumulative operator math group'.
-% \begin{macrocode}
-\DeclareFlexSymbol{\coprod}{COs}{cop}{60}
-\DeclareFlexSymbol{\bigvee}{COs}{cop}{57}
-\DeclareFlexSymbol{\bigwedge}{COs}{cop}{56}
-\DeclareFlexSymbol{\biguplus}{COs}{cop}{55}
-\DeclareFlexSymbol{\bigcap}{COs}{cop}{54}
-\DeclareFlexSymbol{\bigcup}{COs}{cop}{53}
-\DeclareFlexSymbol{\int}{COi}{cop}{52}
-\DeclareFlexSymbol{\prod}{COs}{cop}{51}
-\DeclareFlexSymbol{\sum}{COs}{cop}{50}
-\DeclareFlexSymbol{\bigotimes}{COs}{cop}{4E}
-\DeclareFlexSymbol{\bigoplus}{COs}{cop}{4C}
-\DeclareFlexSymbol{\bigodot}{COs}{cop}{4A}
-\DeclareFlexSymbol{\oint}{COi}{cop}{48}
-\DeclareFlexSymbol{\bigsqcup}{COs}{cop}{46}
-% \end{macrocode}
-% Delimiter symbols.
-% \verb"DeL" stands for `delimiter (left)'.
-% \verb"DeR" stands for `delimiter (right)'.
-% \verb"DeB" stands for `delimiter (bidirectional)'.
-% The principal encoding point for an extensible delimiter is the
-% first link in the list of linked sizes as specified in the font metric
-% information.
-% For a math encoding such as OT1/OML/OMS/OMX where not all sizes of a
-% given delimiter reside in a given font, the extra encoding point for the
-% smallest delimiter must be supplied by defining
-% \begin{verbatim}
-% \sd@GXX
-% \end{verbatim}
-% where G is the mathgroup and XX is the hexadecimal glyph
-% position. |\DeclareFlexDelimiter| does that for us.
-% \begin{macrocode}
-\DeclareFlexDelimiter{\rangle}{DeR}{del}{0B}{OMS}{69}
-\DeclareFlexDelimiter{\langle}{DeL}{del}{0A}{OMS}{68}
-\DeclareFlexDelimiter{\rbrace}{DeR}{del}{09}{OMS}{67}
-\DeclareFlexDelimiter{\lbrace}{DeL}{del}{08}{OMS}{66}
-\DeclareFlexDelimiter{\rceil}{DeR}{del}{07}{OMS}{65}
-\DeclareFlexDelimiter{\lceil}{DeL}{del}{06}{OMS}{64}
-\DeclareFlexDelimiter{\rfloor}{DeR}{del}{05}{OMS}{63}
-\DeclareFlexDelimiter{\lfloor}{DeL}{del}{04}{OMS}{62}
-\DeclareFlexDelimiter{(}{DeL}{del}{00}{OT1}{28}
-\DeclareFlexDelimiter{)}{DeR}{del}{01}{OT1}{29}
-\DeclareFlexDelimiter{[}{DeL}{del}{02}{OT1}{5B}
-\DeclareFlexDelimiter{]}{DeR}{del}{03}{OT1}{5D}
-\DeclareFlexDelimiter{\lVert}{DeL}{del}{0D}{OMS}{6B}
-\DeclareFlexDelimiter{\rVert}{DeR}{del}{0D}{OMS}{6B}
-\DeclareFlexDelimiter{\lvert}{DeL}{del}{0C}{OMS}{6A}
-\DeclareFlexDelimiter{\rvert}{DeR}{del}{0C}{OMS}{6A}
-\DeclareFlexDelimiter{\Vert}{DeB}{del}{0D}{OMS}{6B}
-\DeclareFlexDelimiter{\vert}{DeB}{del}{0C}{OMS}{6A}
-% \end{macrocode}
-% Maybe make the vert bars mathord instead of delimiter, to discourage
-% poor usage.
-% \begin{macrocode}
-\DeclareFlexDelimiter{|}{DeB}{del}{0C}{OMS}{6A}
-\DeclareFlexDelimiter{/}{DeB}{del}{0E}{OML}{3D}
-% \end{macrocode}
-%
-%
-% These wacky delimiters need to be supported I guess for
-% compabitility reasons.
-% The DeA delimiter type is a special case used only for these
-% arrows.
-% \begin{macrocode}
-\DeclareFlexDelimiter{\lmoustache}{DeL}{del}{40}{del}{7A}
-\DeclareFlexDelimiter{\rmoustache}{DeR}{del}{41}{del}{7B}
-\DeclareFlexDelimiter{\lgroup}{DeL}{del}{3A}{del}{3A}
-\DeclareFlexDelimiter{\rgroup}{DeR}{del}{3B}{del}{3B}
-\DeclareFlexDelimiter{\bracevert}{DeB}{del}{3E}{del}{3E}
-\DeclareFlexDelimiter{\arrowvert}{DeB}{del}{3C}{OMS}{6A}
-\DeclareFlexDelimiter{\Arrowvert}{DeB}{del}{3D}{OMS}{6B}
-\DeclareFlexDelimiter{\uparrow}{DeA}{del}{78}{OMS}{22}
-\DeclareFlexDelimiter{\downarrow}{DeA}{del}{79}{OMS}{23}
-\DeclareFlexDelimiter{\updownarrow}{DeA}{del}{3F}{OMS}{6C}
-\DeclareFlexDelimiter{\Uparrow}{DeA}{del}{7E}{OMS}{2A}
-\DeclareFlexDelimiter{\Downarrow}{DeA}{del}{7F}{OMS}{2B}
-\DeclareFlexDelimiter{\Updownarrow}{DeA}{del}{77}{OMS}{6D}
-\DeclareFlexDelimiter{\backslash}{DeB}{del}{0F}{OMS}{6E}
-% \end{macrocode}
-%
-%
-%
-%
-% \section{Some compound symbols}
-% The following symbols are not robust in standard \LaTeX\
-% because they use \verb"#" or \cs{mathpalette} (which is not
-% robust and contains a \verb"#" in its expansion): \cs{angle},
-% \cs{cong}, \cs{notin}, \cs{rightleftharpoons}.
-%
-% In this definition of \cs{hbar}, the symbol is cobbled together
-% from a math italic h and the cmr overbar accent glyph.
-% \begin{macrocode}
-\DeclareFlexSymbol{\hbarOrd}{Ord}{OT1}{16}
-\DeclareFlexCompoundSymbol{\hbar}{Ord}{\hbarOrd\mkern-9mu h}
-% \end{macrocode}
-% For \cs{surd}, the interior symbol gets math class 1
-% (cumulative operator) to make the glyph vertically centered on the
-% math axis, but the desired horizontal spacing is the spacing for a
-% mathord. (Couldn't it just be class mathopen, though?)
-% \begin{macrocode}
-\DeclareFlexSymbol{\surdOrd}{Ord}{OMS}{70}
-\DeclareFlexCompoundSymbol{\surd}{Ord}{\mathop{\surdOrd}}
-% \end{macrocode}
-% As shown in this definition of \cs{angle}, rule dimens are not
-% allowed to use math-units, unfortunately.
-% \begin{macrocode}
-\DeclareFlexCompoundSymbol{\angle}{Ord}{%
- \vbox{\ialign{%
- $\m@th\scriptstyle##$\crcr
- \notRel\mathrel{\mkern14mu}\crcr
- \noalign{\nointerlineskip}%
- \mkern2.5mu\leaders\hrule \@height.34pt\hfill\mkern2.5mu\crcr
- }}%
-}
-% \end{macrocode}
-% The \cs{not} function, which is defined in the \pkg{flexisym}
-% package, requires a suitably defined \cs{notRel} symbol.
-% \begin{macrocode}
-\DeclareFlexCompoundSymbol{\neq}{Rel}{\not{=}}
-% \end{macrocode}
-% .
-% \begin{macrocode}
-\DeclareFlexCompoundSymbol{\mapsto}{Rel}{\mapstoOrd\rightarrow}
-% \end{macrocode}
-% The \cs{@vereq} function ends by centering the whole
-% construction on the math axis, unlike \cs{buildrel} where the base
-% symbol remains at its normal altitude. Furthermore,
-% \cs{@vereq} leaves the math style of the top symbol as given
-% instead of downsizing to scriptstyle.
-% \begin{macrocode}
-\DeclareFlexCompoundSymbol{\cong}{Rel}{\mathpalette\@vereq\sim}
-% \end{macrocode}
-% The \cs{m@th} in the \fn{fontmath.ltx} definition of
-% \cs{notin} is superfluous unless \cs{c@ncel} doesn't include
-% it (which was perhaps true in an older version of
-% \fn{plain.tex}?).
-% \begin{macrocode}
-\providecommand*\joinord{}
-%<cmbase|mathptmx>\renewcommand*\joinord{\mkern-3mu }
-%<mathpazo>\renewcommand*\joinord{\mkern-3.45mu }
-\DeclareFlexCompoundSymbol{\notin}{Rel}{\mathpalette\c@ncel\in}
-\DeclareFlexCompoundSymbol{\rightleftharpoons}{Rel}{\mathpalette\rlh@{}}
-\DeclareFlexCompoundSymbol{\doteq}{Rel}{\buildrel\textstyle.\over=}
-\DeclareFlexCompoundSymbol{\hookrightarrow}{Rel}{\lhookRel\joinord\rightarrow}
-\DeclareFlexCompoundSymbol{\hookleftarrow}{Rel}{\leftarrow\joinord\rhookRel}
-\DeclareFlexCompoundSymbol{\bowtie}{Rel}{\triangleright\joinord\triangleleft}
-\DeclareFlexCompoundSymbol{\models}{Rel}{\vert\joinord=}
-\DeclareFlexCompoundSymbol{\Longrightarrow}{Rel}{\Relbar\joinord\Rightarrow}
-\DeclareFlexCompoundSymbol{\longrightarrow}{Rel}{\relbar\joinord\rightarrow}
-\DeclareFlexCompoundSymbol{\Longleftarrow}{Rel}{\Leftarrow\joinord\Relbar}
-\DeclareFlexCompoundSymbol{\longleftarrow}{Rel}{\leftarrow\joinord\relbar}
-\DeclareFlexCompoundSymbol{\longmapsto}{Rel}{\mapstochar\longrightarrow}
-\DeclareFlexCompoundSymbol{\longleftrightarrow}{Rel}{\leftarrow\joinord\rightarrow}
-\DeclareFlexCompoundSymbol{\Longleftrightarrow}{Rel}{\Leftarrow\joinord\Rightarrow}
-% \end{macrocode}
-% Here is what you get from the old definition of \cs{iff}.
-% \begin{verbatim}
-% \glue 2.77771 plus 2.77771
-% \glue(\thickmuskip) 2.77771 plus 2.77771
-% \OMS/cmsy/m/n/10 (
-% \hbox(0.0+0.0)x-1.66663
-% .\kern -1.66663
-% \OMS/cmsy/m/n/10 )
-% \penalty 500
-% \glue 2.77771 plus 2.77771
-% \glue(\thickmuskip) 2.77771 plus 2.77771
-% \end{verbatim}
-% Looks like it could be simplified slightly. But it's not so
-% easy as it looks to do it without screwing up the line breaking
-% possibilities.
-% \begin{macrocode}
-\renewcommand*\iff{%
- \mskip\thickmuskip\Longleftrightarrow\mskip\thickmuskip
-}
-% \end{macrocode}
-% Some dotly symbols.
-% \begin{macrocode}
-\DeclareFlexCompoundSymbol{\cdots}{Inn}{\cdotp\cdotp\cdotp}%
-\DeclareFlexCompoundSymbol{\vdots}{Ord}{%
- \vbox{\baselineskip4\p@ \lineskiplimit\z@
- \kern6\p@\hbox{.}\hbox{.}\hbox{.}}}
-\DeclareFlexCompoundSymbol{\ddots}{Inn}{%
- \mkern1mu\raise7\p@
- \vbox{\kern7\p@\hbox{.}}\mkern2mu%
- \raise4\p@\hbox{.}\mkern2mu\raise\p@\hbox{.}\mkern1mu%
-}
-% \end{macrocode}
-% .
-% \begin{macrocode}
-\def\relbar{\begingroup \def\smash@{tb}% in case amsmath is loaded
- \mathpalette\mathsm@sh{\mathchar"200 }\endgroup}
-% \end{macrocode}
-% For \cs{Relbar} we take an equal sign of class $0$ (Ord) from the
-% operator family. For \fn{cmr} and \pkg{mathptmx} we know this is
-% family $0$.
-% \begin{macrocode}
-%<cmbase|mathptmx>\def\Relbar{\mathchar"3D }
-% \end{macrocode}
-% For the \pkg{mathpazo} setup we need to use the equal sign from
-% \fn{cmr} and so must insert class $0$ and use the symbol from the
-% upright symbols.
-% \begin{macrocode}
-%<mathpazo>\edef\Relbar{\mathchar\string"\hexnumber@\symupright3D }
-% \end{macrocode}
-% Done.
-% \begin{macrocode}
-\ExplSyntaxOff
-%</cmbase|mathpazo|mathptmx>
-% \end{macrocode}
-% Various synonyms such as \cs{le} for \cs{leq} and
-% \cs{to} for \cs{rightarrow} are defined in
-% \pkg{flexisym} with \cs{def} instead of \cs{let}, for
-% slower execution speed but smaller chance of synchronization
-% problems.
-%
-%
-%
-% \begin{macrocode}
-%<*msabm>
-\ProvidesSymbols{msabm}[2001/09/08 v0.91]
-\ExplSyntaxOn
-% \end{macrocode}
-% \begin{macrocode}
-\RequirePackage{amsfonts}\relax
-% \end{macrocode}
-% \begin{macrocode}
-\cs_gset:cpx{mg@MSA}{\hexnumber@\symAMSa}%
-\cs_gset:cpx{mg@MSB}{\hexnumber@\symAMSb}%
-% \end{macrocode}
-% \begin{macrocode}
-\DeclareFlexSymbol{\boxdot} {Bin}{MSA}{00}
-\DeclareFlexSymbol{\boxplus} {Bin}{MSA}{01}
-\DeclareFlexSymbol{\boxtimes} {Bin}{MSA}{02}
-\DeclareFlexSymbol{\square} {Ord}{MSA}{03}
-\DeclareFlexSymbol{\blacksquare} {Ord}{MSA}{04}
-\DeclareFlexSymbol{\centerdot} {Bin}{MSA}{05}
-\DeclareFlexSymbol{\lozenge} {Ord}{MSA}{06}
-\DeclareFlexSymbol{\blacklozenge} {Ord}{MSA}{07}
-\DeclareFlexSymbol{\circlearrowright} {Rel}{MSA}{08}
-\DeclareFlexSymbol{\circlearrowleft} {Rel}{MSA}{09}
-% \end{macrocode}
-% In amsfonts.sty:
-% \begin{macrocode}
-%%\DeclareFlexSymbol{\rightleftharpoons}{Rel}{MSA}{0A}
-\DeclareFlexSymbol{\leftrightharpoons} {Rel}{MSA}{0B}
-\DeclareFlexSymbol{\boxminus} {Bin}{MSA}{0C}
-\DeclareFlexSymbol{\Vdash} {Rel}{MSA}{0D}
-\DeclareFlexSymbol{\Vvdash} {Rel}{MSA}{0E}
-\DeclareFlexSymbol{\vDash} {Rel}{MSA}{0F}
-\DeclareFlexSymbol{\twoheadrightarrow} {Rel}{MSA}{10}
-\DeclareFlexSymbol{\twoheadleftarrow} {Rel}{MSA}{11}
-\DeclareFlexSymbol{\leftleftarrows} {Rel}{MSA}{12}
-\DeclareFlexSymbol{\rightrightarrows} {Rel}{MSA}{13}
-\DeclareFlexSymbol{\upuparrows} {Rel}{MSA}{14}
-\DeclareFlexSymbol{\downdownarrows} {Rel}{MSA}{15}
-\DeclareFlexSymbol{\upharpoonright} {Rel}{MSA}{16}
- \let\restriction\upharpoonright
-\DeclareFlexSymbol{\downharpoonright} {Rel}{MSA}{17}
-\DeclareFlexSymbol{\upharpoonleft} {Rel}{MSA}{18}
-\DeclareFlexSymbol{\downharpoonleft}{Rel}{MSA}{19}
-\DeclareFlexSymbol{\rightarrowtail} {Rel}{MSA}{1A}
-\DeclareFlexSymbol{\leftarrowtail} {Rel}{MSA}{1B}
-\DeclareFlexSymbol{\leftrightarrows}{Rel}{MSA}{1C}
-\DeclareFlexSymbol{\rightleftarrows}{Rel}{MSA}{1D}
-\DeclareFlexSymbol{\Lsh} {Rel}{MSA}{1E}
-\DeclareFlexSymbol{\Rsh} {Rel}{MSA}{1F}
-\DeclareFlexSymbol{\rightsquigarrow} {Rel}{MSA}{20}
-\DeclareFlexSymbol{\leftrightsquigarrow}{Rel}{MSA}{21}
-\DeclareFlexSymbol{\looparrowleft} {Rel}{MSA}{22}
-\DeclareFlexSymbol{\looparrowright} {Rel}{MSA}{23}
-\DeclareFlexSymbol{\circeq} {Rel}{MSA}{24}
-\DeclareFlexSymbol{\succsim} {Rel}{MSA}{25}
-\DeclareFlexSymbol{\gtrsim} {Rel}{MSA}{26}
-\DeclareFlexSymbol{\gtrapprox} {Rel}{MSA}{27}
-\DeclareFlexSymbol{\multimap} {Rel}{MSA}{28}
-\DeclareFlexSymbol{\therefore} {Rel}{MSA}{29}
-\DeclareFlexSymbol{\because} {Rel}{MSA}{2A}
-\DeclareFlexSymbol{\doteqdot} {Rel}{MSA}{2B}
- \let\Doteq\doteqdot
-\DeclareFlexSymbol{\triangleq} {Rel}{MSA}{2C}
-\DeclareFlexSymbol{\precsim} {Rel}{MSA}{2D}
-\DeclareFlexSymbol{\lesssim} {Rel}{MSA}{2E}
-\DeclareFlexSymbol{\lessapprox} {Rel}{MSA}{2F}
-\DeclareFlexSymbol{\eqslantless} {Rel}{MSA}{30}
-\DeclareFlexSymbol{\eqslantgtr} {Rel}{MSA}{31}
-\DeclareFlexSymbol{\curlyeqprec} {Rel}{MSA}{32}
-\DeclareFlexSymbol{\curlyeqsucc} {Rel}{MSA}{33}
-\DeclareFlexSymbol{\preccurlyeq} {Rel}{MSA}{34}
-\DeclareFlexSymbol{\leqq} {Rel}{MSA}{35}
-\DeclareFlexSymbol{\leqslant} {Rel}{MSA}{36}
-\DeclareFlexSymbol{\lessgtr} {Rel}{MSA}{37}
-\DeclareFlexSymbol{\backprime} {Ord}{MSA}{38}
-\DeclareFlexSymbol{\risingdotseq} {Rel}{MSA}{3A}
-\DeclareFlexSymbol{\fallingdotseq}{Rel}{MSA}{3B}
-\DeclareFlexSymbol{\succcurlyeq} {Rel}{MSA}{3C}
-\DeclareFlexSymbol{\geqq} {Rel}{MSA}{3D}
-\DeclareFlexSymbol{\geqslant} {Rel}{MSA}{3E}
-\DeclareFlexSymbol{\gtrless} {Rel}{MSA}{3F}
-% \end{macrocode}
-% in amsfonts.sty
-% \begin{macrocode}
-%% \DeclareFlexSymbol{\sqsubset} {Rel}{MSA}{40}
-%% \DeclareFlexSymbol{\sqsupset} {Rel}{MSA}{41}
-\DeclareFlexSymbol{\vartriangleright}{Rel}{MSA}{42}
-\DeclareFlexSymbol{\vartriangleleft} {Rel}{MSA}{43}
-\DeclareFlexSymbol{\trianglerighteq} {Rel}{MSA}{44}
-\DeclareFlexSymbol{\trianglelefteq} {Rel}{MSA}{45}
-\DeclareFlexSymbol{\bigstar} {Ord}{MSA}{46}
-\DeclareFlexSymbol{\between} {Rel}{MSA}{47}
-\DeclareFlexSymbol{\blacktriangledown} {Ord}{MSA}{48}
-\DeclareFlexSymbol{\blacktriangleright} {Rel}{MSA}{49}
-\DeclareFlexSymbol{\blacktriangleleft} {Rel}{MSA}{4A}
-\DeclareFlexSymbol{\vartriangle} {Rel}{MSA}{4D}
-\DeclareFlexSymbol{\blacktriangle} {Ord}{MSA}{4E}
-\DeclareFlexSymbol{\triangledown} {Ord}{MSA}{4F}
-\DeclareFlexSymbol{\eqcirc} {Rel}{MSA}{50}
-\DeclareFlexSymbol{\lesseqgtr} {Rel}{MSA}{51}
-\DeclareFlexSymbol{\gtreqless} {Rel}{MSA}{52}
-\DeclareFlexSymbol{\lesseqqgtr} {Rel}{MSA}{53}
-\DeclareFlexSymbol{\gtreqqless} {Rel}{MSA}{54}
-\DeclareFlexSymbol{\Rrightarrow} {Rel}{MSA}{56}
-\DeclareFlexSymbol{\Lleftarrow} {Rel}{MSA}{57}
-\DeclareFlexSymbol{\veebar} {Bin}{MSA}{59}
-\DeclareFlexSymbol{\barwedge} {Bin}{MSA}{5A}
-\DeclareFlexSymbol{\doublebarwedge} {Bin}{MSA}{5B}
-% \end{macrocode}
-% In amsfonts.sty
-% \begin{macrocode}
-%%\DeclareFlexSymbol{\angle} {Ord}{MSA}{5C}
-\DeclareFlexSymbol{\measuredangle} {Ord}{MSA}{5D}
-\DeclareFlexSymbol{\sphericalangle} {Ord}{MSA}{5E}
-\DeclareFlexSymbol{\varpropto} {Rel}{MSA}{5F}
-\DeclareFlexSymbol{\smallsmile} {Rel}{MSA}{60}
-\DeclareFlexSymbol{\smallfrown} {Rel}{MSA}{61}
-\DeclareFlexSymbol{\Subset} {Rel}{MSA}{62}
-\DeclareFlexSymbol{\Supset} {Rel}{MSA}{63}
-\DeclareFlexSymbol{\Cup} {Bin}{MSA}{64}
- \let\doublecup\Cup
-\DeclareFlexSymbol{\Cap} {Bin}{MSA}{65}
- \let\doublecap\Cap
-\DeclareFlexSymbol{\curlywedge} {Bin}{MSA}{66}
-\DeclareFlexSymbol{\curlyvee} {Bin}{MSA}{67}
-\DeclareFlexSymbol{\leftthreetimes} {Bin}{MSA}{68}
-\DeclareFlexSymbol{\rightthreetimes}{Bin}{MSA}{69}
-\DeclareFlexSymbol{\subseteqq} {Rel}{MSA}{6A}
-\DeclareFlexSymbol{\supseteqq} {Rel}{MSA}{6B}
-\DeclareFlexSymbol{\bumpeq} {Rel}{MSA}{6C}
-\DeclareFlexSymbol{\Bumpeq} {Rel}{MSA}{6D}
-\DeclareFlexSymbol{\lll} {Rel}{MSA}{6E}
- \let\llless\lll
-\DeclareFlexSymbol{\ggg} {Rel}{MSA}{6F}
- \let\gggtr\ggg
-\DeclareFlexSymbol{\circledS} {Ord}{MSA}{73}
-\DeclareFlexSymbol{\pitchfork} {Rel}{MSA}{74}
-\DeclareFlexSymbol{\dotplus} {Bin}{MSA}{75}
-\DeclareFlexSymbol{\backsim} {Rel}{MSA}{76}
-\DeclareFlexSymbol{\backsimeq} {Rel}{MSA}{77}
-\DeclareFlexSymbol{\complement} {Ord}{MSA}{7B}
-\DeclareFlexSymbol{\intercal} {Bin}{MSA}{7C}
-\DeclareFlexSymbol{\circledcirc} {Bin}{MSA}{7D}
-\DeclareFlexSymbol{\circledast} {Bin}{MSA}{7E}
-\DeclareFlexSymbol{\circleddash} {Bin}{MSA}{7F}
-% \end{macrocode}
-% Begin AMSb declarations
-% \begin{macrocode}
-\DeclareFlexSymbol{\lvertneqq} {Rel}{MSB}{00}
-\DeclareFlexSymbol{\gvertneqq} {Rel}{MSB}{01}
-\DeclareFlexSymbol{\nleq} {Rel}{MSB}{02}
-\DeclareFlexSymbol{\ngeq} {Rel}{MSB}{03}
-\DeclareFlexSymbol{\nless} {Rel}{MSB}{04}
-\DeclareFlexSymbol{\ngtr} {Rel}{MSB}{05}
-\DeclareFlexSymbol{\nprec} {Rel}{MSB}{06}
-\DeclareFlexSymbol{\nsucc} {Rel}{MSB}{07}
-\DeclareFlexSymbol{\lneqq} {Rel}{MSB}{08}
-\DeclareFlexSymbol{\gneqq} {Rel}{MSB}{09}
-\DeclareFlexSymbol{\nleqslant} {Rel}{MSB}{0A}
-\DeclareFlexSymbol{\ngeqslant} {Rel}{MSB}{0B}
-\DeclareFlexSymbol{\lneq} {Rel}{MSB}{0C}
-\DeclareFlexSymbol{\gneq} {Rel}{MSB}{0D}
-\DeclareFlexSymbol{\npreceq} {Rel}{MSB}{0E}
-\DeclareFlexSymbol{\nsucceq} {Rel}{MSB}{0F}
-\DeclareFlexSymbol{\precnsim} {Rel}{MSB}{10}
-\DeclareFlexSymbol{\succnsim} {Rel}{MSB}{11}
-\DeclareFlexSymbol{\lnsim} {Rel}{MSB}{12}
-\DeclareFlexSymbol{\gnsim} {Rel}{MSB}{13}
-\DeclareFlexSymbol{\nleqq} {Rel}{MSB}{14}
-\DeclareFlexSymbol{\ngeqq} {Rel}{MSB}{15}
-\DeclareFlexSymbol{\precneqq} {Rel}{MSB}{16}
-\DeclareFlexSymbol{\succneqq} {Rel}{MSB}{17}
-\DeclareFlexSymbol{\precnapprox} {Rel}{MSB}{18}
-\DeclareFlexSymbol{\succnapprox} {Rel}{MSB}{19}
-\DeclareFlexSymbol{\lnapprox} {Rel}{MSB}{1A}
-\DeclareFlexSymbol{\gnapprox} {Rel}{MSB}{1B}
-\DeclareFlexSymbol{\nsim} {Rel}{MSB}{1C}
-\DeclareFlexSymbol{\ncong} {Rel}{MSB}{1D}
-\DeclareFlexSymbol{\diagup} {Ord}{MSB}{1E}
-\DeclareFlexSymbol{\diagdown} {Ord}{MSB}{1F}
-\DeclareFlexSymbol{\varsubsetneq} {Rel}{MSB}{20}
-\DeclareFlexSymbol{\varsupsetneq} {Rel}{MSB}{21}
-\DeclareFlexSymbol{\nsubseteqq} {Rel}{MSB}{22}
-\DeclareFlexSymbol{\nsupseteqq} {Rel}{MSB}{23}
-\DeclareFlexSymbol{\subsetneqq} {Rel}{MSB}{24}
-\DeclareFlexSymbol{\supsetneqq} {Rel}{MSB}{25}
-\DeclareFlexSymbol{\varsubsetneqq} {Rel}{MSB}{26}
-\DeclareFlexSymbol{\varsupsetneqq} {Rel}{MSB}{27}
-\DeclareFlexSymbol{\subsetneq} {Rel}{MSB}{28}
-\DeclareFlexSymbol{\supsetneq} {Rel}{MSB}{29}
-\DeclareFlexSymbol{\nsubseteq} {Rel}{MSB}{2A}
-\DeclareFlexSymbol{\nsupseteq} {Rel}{MSB}{2B}
-\DeclareFlexSymbol{\nparallel} {Rel}{MSB}{2C}
-\DeclareFlexSymbol{\nmid} {Rel}{MSB}{2D}
-\DeclareFlexSymbol{\nshortmid} {Rel}{MSB}{2E}
-\DeclareFlexSymbol{\nshortparallel} {Rel}{MSB}{2F}
-\DeclareFlexSymbol{\nvdash} {Rel}{MSB}{30}
-\DeclareFlexSymbol{\nVdash} {Rel}{MSB}{31}
-\DeclareFlexSymbol{\nvDash} {Rel}{MSB}{32}
-\DeclareFlexSymbol{\nVDash} {Rel}{MSB}{33}
-\DeclareFlexSymbol{\ntrianglerighteq}{Rel}{MSB}{34}
-\DeclareFlexSymbol{\ntrianglelefteq}{Rel}{MSB}{35}
-\DeclareFlexSymbol{\ntriangleleft} {Rel}{MSB}{36}
-\DeclareFlexSymbol{\ntriangleright} {Rel}{MSB}{37}
-\DeclareFlexSymbol{\nleftarrow} {Rel}{MSB}{38}
-\DeclareFlexSymbol{\nrightarrow} {Rel}{MSB}{39}
-\DeclareFlexSymbol{\nLeftarrow} {Rel}{MSB}{3A}
-\DeclareFlexSymbol{\nRightarrow} {Rel}{MSB}{3B}
-\DeclareFlexSymbol{\nLeftrightarrow}{Rel}{MSB}{3C}
-\DeclareFlexSymbol{\nleftrightarrow}{Rel}{MSB}{3D}
-\DeclareFlexSymbol{\divideontimes} {Bin}{MSB}{3E}
-\DeclareFlexSymbol{\varnothing} {Ord}{MSB}{3F}
-\DeclareFlexSymbol{\nexists} {Ord}{MSB}{40}
-\DeclareFlexSymbol{\Finv} {Ord}{MSB}{60}
-\DeclareFlexSymbol{\Game} {Ord}{MSB}{61}
-% \end{macrocode}
-% In amsfonts.sty:
-% \begin{macrocode}
-%%\DeclareFlexSymbol{\mho} {Ord}{MSB}{66}
-\DeclareFlexSymbol{\eth} {Ord}{MSB}{67}
-\DeclareFlexSymbol{\eqsim} {Rel}{MSB}{68}
-\DeclareFlexSymbol{\beth} {Ord}{MSB}{69}
-\DeclareFlexSymbol{\gimel} {Ord}{MSB}{6A}
-\DeclareFlexSymbol{\daleth} {Ord}{MSB}{6B}
-\DeclareFlexSymbol{\lessdot} {Bin}{MSB}{6C}
-\DeclareFlexSymbol{\gtrdot} {Bin}{MSB}{6D}
-\DeclareFlexSymbol{\ltimes} {Bin}{MSB}{6E}
-\DeclareFlexSymbol{\rtimes} {Bin}{MSB}{6F}
-\DeclareFlexSymbol{\shortmid} {Rel}{MSB}{70}
-\DeclareFlexSymbol{\shortparallel} {Rel}{MSB}{71}
-\DeclareFlexSymbol{\smallsetminus} {Bin}{MSB}{72}
-\DeclareFlexSymbol{\thicksim} {Rel}{MSB}{73}
-\DeclareFlexSymbol{\thickapprox} {Rel}{MSB}{74}
-\DeclareFlexSymbol{\approxeq} {Rel}{MSB}{75}
-\DeclareFlexSymbol{\succapprox} {Rel}{MSB}{76}
-\DeclareFlexSymbol{\precapprox} {Rel}{MSB}{77}
-\DeclareFlexSymbol{\curvearrowleft} {Rel}{MSB}{78}
-\DeclareFlexSymbol{\curvearrowright}{Rel}{MSB}{79}
-\DeclareFlexSymbol{\digamma} {Ord}{MSB}{7A}
-\DeclareFlexSymbol{\varkappa} {Ord}{MSB}{7B}
-\DeclareFlexSymbol{\Bbbk} {Ord}{MSB}{7C}
-\DeclareFlexSymbol{\hslash} {Ord}{MSB}{7D}
-% \end{macrocode}
-% In amsfonts.sty:
-% \begin{macrocode}
-%%\DeclareFlexSymbol{\hbar} {Ord}{MSB}{7E}
-\DeclareFlexSymbol{\backepsilon} {Rel}{MSB}{7F}
-\ExplSyntaxOff
-%</msabm>
-% \end{macrocode}
-%
-% \PrintIndex
-%
-% \Finale