%% %% This is file `flexisym.sty', %% generated with the docstrip utility. %% %% The original source files were: %% %% flexisym.dtx (with options: `package') %% %% 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 Morten Hoegholm, %% 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. %% \RequirePackage{expl3}[2009/08/05] \ProvidesExplPackage{flexisym}{2010/09/17}{0.97b}{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 }% } \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 \cs_set_protected:Nn \math_char:NNn { \tex_mathchar:D \intexpr_eval:w " #1#2#3 \intexpr_eval_end: } \cs_set_protected:Nn \math_delimiter:NNnNn { \tex_delimiter:D \intexpr_eval:w " #1#2#3#4#5 \intexpr_eval_end: } \cs_set_protected:Nn \math_radical:NnNn { \tex_radical:D \intexpr_eval:w " #1#2#3#4 \intexpr_eval_end: } \cs_set_protected:Nn \math_accent:NNnn { \tex_mathaccent:D \intexpr_eval:w " #1 #2 #3 \intexpr_eval_end: {#4} } \let\sumlimits\displaylimits \let\intlimits\nolimits \let\namelimits\displaylimits \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 \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 } \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_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! \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 \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 \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} \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} \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} \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 } \math_setup_inline_symbols: \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}} } \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}% \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 \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@ }% } \@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$}\hfill \mkern-6mu\OrdSymbol{\rightarrow}$} } \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 }% } \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}% \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}} } \@ifpackageloaded{amsmath}{% \begingroup \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 }{} \AtBeginDocument{% \def\newmcodes@{% \mathcode `\'39\space \mathcode `\*42\space \mathcode `\."613A\space \ifnum\mathcode`\-=45\space \else \ifnum\mathcode`\-=32768\space \else \mathchardef \std@minus \mathcode `\-\relax \fi \fi \mathcode `\-45\space \mathcode `\/47\space \mathcode `\:"603A\space\relax }% } \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} \endinput %% %% End of file `flexisym.sty'.