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|
% \iffalse meta-comment
%
% Copyright 2011 by Philipp Stephani
%
% This file may be distributed and/or modified under the
% conditions of the LaTeX Project Public License, either
% version 1.3c of this license or (at your option) any later
% version. The latest version of this license is in:
%
% http://www.latex-project.org/lppl.txt
%
% and version 1.3c or later is part of all distributions of
% LaTeX version 2009/09/24 or later.
%
% \fi
%
% \iffalse
%<*driver>
\documentclass[a4paper, 10pt]{phst-doc}
\usepackage{lualatex-math}
\newcommand*{\thispackage}{\textsf{lualatex-math}\xspace}
\begin{document}
\DocInput{lualatex-math.dtx}
\PrintChanges
\PrintIndex
\end{document}
%</driver>
% \fi
%
% \CheckSum{721}
%
% \CharacterTable
% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z
% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z
% Digits \0\1\2\3\4\5\6\7\8\9
% Exclamation \! Double quote \" Hash (number) \#
% Dollar \$ Percent \% Ampersand \&
% Acute accent \' Left paren \( Right paren \)
% Asterisk \* Plus \+ Comma \,
% Minus \- Point \. Solidus \/
% Colon \: Semicolon \; Less than \<
% Equals \= Greater than \> Question mark \?
% Commercial at \@ Left bracket \[ Backslash \\
% Right bracket \] Circumflex \^ Underscore \_
% Grave accent \` Left brace \{ Vertical bar \|
% Right brace \} Tilde \~}
%
%
% \changes{v0.1}{2011/04/22}{Initial version}
%
% \GetFileInfo{lualatex-math.sty}
%
% \title{The \thispackage package\thanks{This document corresponds to \thispackage{}~\fileversion, dated~\filedate.}}
% \author{Philipp Stephani \\ \texttt{st\_philipp@yahoo.de}}
% \date{\filedate}
%
%
% \maketitle
% \tableofcontents
%
%
% \section{Introduction}
%
% \Hologo{LuaTeX} brings major improvements to all areas of \hologo{TeX}
% typesetting and programming. They are made available through new primitives
% or the embedded Lua interpreter, and combining them with existing
% \hologo{LaTeX2e} package is not a task the average \hologo{LaTeX} user should
% have to care about. Therefore a multitude of \hologo{LaTeX2e} packages have
% been written to bridge the gap between documents and the new features. The
% \thispackage package focuses on the additional possibilities for mathematical
% typesetting. The most eminent of the new features is the ability to use
% Unicode and OpenType fonts, as provided by \Robertson’s \pkg{unicode-math}
% package. However, there is a smaller group of changes unrelated to Unicode:
% these are to be dealt with in this package. While in principle most
% \hologo{TeX} documents written for traditional engines should work just fine
% with \hologo{LuaTeX}, there is a small number of breaking changes that
% require the attention of package authors. The \thispackage package tries to
% fix some of the issues encountered while porting traditional macro packages
% to \hologo{LuaLaTeX}.
%
% The decision to write patches for existing macro packages should not be made
% lightly: monkey patching done by somebody different from the original package
% author ties the patching package to the implementation details of the patched
% functionality and breaks all rules of encapsulation. However, due to the
% lack of alternatives, it has become an accepted way of providing new
% functionality in \hologo{LaTeX}. To keep the negative impact as small as
% possible, the \thispackage package patches only the \hologo{LaTeX2e} kernel
% and a small number of popular packages. In general, this package should be
% regarded as a temporary kludge that should be removed once the math-related
% packages are updated to be usable with \hologo{LuaTeX}. By its very nature,
% the package is likely to cause problems; in such cases, please refer to the
% issue tracker\footnote{\url{https://github.com/phst/lualatex-math/issues}}.
%
%
% \section{Interface}
%
% The \thispackage package can be loaded with \cmd{\usepackage} or
% \cmd{\RequirePackage}, as usual. It has no options and no public interface;
% the patching is always done when the package is loaded and cannot be
% controlled. As a matter of course, the \thispackage package needs
% \hologo{LuaLaTeX} to function; it will produce error messages and refuse to
% load under other engines and formats. The package depends on the \pkg{expl3}
% bundle, the \pkg{etoolbox} package, the \pkg{luatexbase} bundle and the
% \pkg{filehook} package. The \thispackage package is independent of the
% \pkg{unicode-math} package; the fixes provided here are valid for both
% Unicode and legacy math typesetting.
%
% Currently patches for the \hologo{LaTeX2e} kernel and the \pkg{amsmath} and
% \pkg{mathtools} packages are provided. It is not relevant whether you load
% these packages before or after \thispackage. They should work as expected
% (and ideally you shouldn’t notice anything), but if you load other packages
% that by themselves overwrite commands patched by this package, bad things may
% happen, as it is usual with \hologo{LaTeX}.
%
% One user-visible change is that the new
% \DescribeMacros{\mathstyle\luatexmathstyle}\cmd{\mathstyle} primitive
% (usually called \cmd{\luatexmathstyle} in \hologo{LuaLaTeX}) should work in
% all cases after the \thispackage package has been loaded, provided you use
% the high-level macros \DescribeMacros{\frac\binom\genfrac}\cmd{\frac},
% \cmd{\binom}, and \cmd{\genfrac}. The fraction-like \hologo{TeX} primitives
% like \cmd{\over} or \cmd{\atopwithdelims} and the \hologo{plainTeX} leftovers
% like \cmd{\brack} or \cmd{\choose} cannot be patched, and you shouldn’t use
% them.
%
% \StopEventually{}
%
%
% \section{Implementation of the \hologo{LaTeX2e} package}
%
% \subsection{Requirements}
%
% \begin{macrocode}
%<*package>
\NeedsTeXFormat{LaTeX2e}[2009/09/24]
\RequirePackage{expl3}[2011/02/17]
\ProvidesExplPackage{lualatex-math}{2011/05/05}{0.1}%
{Patches for mathematics typesetting with LuaLaTeX}
\RequirePackage { etoolbox } [ 2007/10/08 ]
\RequirePackage { luatexbase } [ 2010/05/27 ]
\RequirePackage { filehook } [ 2011/03/09 ]
\RequireLuaModule { lualatex-math } [ 2011/05/05 ]
% \end{macrocode}
%
% \begin{macro}{\lltxmath_restore_catcode:N}
% Executing the exhaustive expansion of
% \cmd{\lltxmath_restore_catcode:N}\meta{character token} restores the
% category code of the \meta{character token} to its current value.
% \begin{macrocode}
\cs_new_nopar:Npn \lltxmath_restore_catcode:N #1 {
\char_set_catcode:nn { \int_eval:n { `#1 } }
{ \char_value_catcode:n { `#1 } }
}
% \end{macrocode}
% \end{macro}
% We use the macro defined above to restore the category code of the dollar
% sign. There are packages that make the dollar sign active; hopefully they
% get loaded after the packages we are trying to patch.
% \begin{macrocode}
\exp_args:Nx \AtEndOfPackage {
\lltxmath_restore_catcode:N \$
}
\char_make_math_shift:N \$
% \end{macrocode}
%
%
% \subsection{Messages}
%
% \begin{l3message}{luatex-required}
% Issued when not running under \hologo{LuaTeX}.
% \begin{macrocode}
\msg_new:nnn { lualatex-math } { luatex-required } {
The~ lualatex-math~ package~ requires~ LuaTeX. \\
I~ will~ stop~ loading~ now.
}
% \end{macrocode}
% \end{l3message}
%
% \begin{l3message}{macro-expected}
% Issued when trying to patch a non-macro. The first argument must be the
% detokenized macro name.
% \begin{macrocode}
\msg_new:nnn { lualatex-math } { macro-expected } {
I've~ expected~ that~ #1~ is~ a~ macro,~ but~ it~ isn't.
}
% \end{macrocode}
% \end{l3message}
%
% \begin{l3message}{wrong-meaning}
% Issued when trying to patch a macro with an unexpected meaning. The first
% argument must be the detokenized macro name; the second argument must be
% the actual detokenized meaning; and the thied argument must be the expected
% detokenized meaning.
% \begin{macrocode}
\msg_new:nnn { lualatex-math } { wrong-meaning } {
I've~ expected~ #1~ to~ have~ the~ meaning \\
#3, \\
but~ it~ has~ the~ meaning \\
#2.
}
% \end{macrocode}
% \end{l3message}
%
% \begin{l3message}{patch-macro}
% Issued when a macro is patched. The first argument must be the detokenized
% macro name.
% \begin{macrocode}
\msg_new:nnn { lualatex-math } { patch-macro } {
I'm~ going~ to~ patch~ macro~ #1.
}
% \end{macrocode}
% \end{l3message}
%
%
% \subsection{Initialization}
%
% Unless we are running under \hologo{LuaTeX}, we issue an error and quit
% immediately. Loading the \pkg{luatexbase} module will already have produced
% an error, but we issue another one for clarity.
% \begin{macrocode}
\luatex_if_engine:F {
\msg_error:nn { lualatex-math } { luatex-required }
\endinput
}
% \end{macrocode}
%
%
% \subsection{Patching}
%
% \begin{macro}{\lltxmath_temp:w}
% A scratch macro.
% \begin{macrocode}
\chk_if_free_cs:N \lltxmath_temp:w
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\lltxmath_patch:NNnnn}
% \begin{macro}{\lltxmath_patch:cNnnn}
% The macro \cmd{\lltxmath_patch:NNnnn}\meta{command}\meta{factory
% command}\marg{parameter text}\marg{expected replacement text}\marg{new
% replacement text} tries to patch \meta{command}. If \meta{command} is
% undefined, do nothing. Otherwise it must be a macro with the given
% \meta{parameter text} and \meta{expected replacement text}, created by the
% given \meta{factory command} or equivalent. In this case it will be
% overwritten using the \meta{parameter text} and the \meta{new replacement
% text}. Otherwise issue a warning and don’t overwrite.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \lltxmath_patch:NNnnn #1 #2 #3 #4 #5 {
\cs_if_exist:NT #1 {
\token_if_macro:NTF #1 {
\group_begin:
#2 \lltxmath_temp:w #3 { #4 }
\cs_if_eq:NNTF #1 \lltxmath_temp:w {
\msg_info:nnx { lualatex-math } { patch-macro }
{ \token_to_str:N #1 }
\group_end:
#2 #1 #3 { #5 }
} {
\msg_warning:nnxxx { lualatex-math } { wrong-meaning }
{ \token_to_str:N #1 } { \token_to_meaning:N #1 }
{ \token_to_meaning:N \lltxmath_temp:w }
\group_end:
}
} {
\msg_warning:nnx { lualatex-math } { macro-expected }
{ \token_to_str:N #1 }
}
}
}
\cs_generate_variant:Nn \lltxmath_patch:NNnnn { c }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
%
% \subsection{\Hologo{LaTeX2e} kernel}
%
% \Hologo{LuaTeX} enables access to the current mathematical style via the
% \cmd{\mathstyle} primitive. For this to work, fraction-like constructs (\eg,
% \meta{numerator} \cmd{\over} \meta{denominator}) have to be enclosed in a
% \cmd{\Ustack} group. \cmd{\frac} can be patched to do this, but the
% \hologo{plainTeX} remnants \cmd{\choose}, \cmd{\brack} and \cmd{\brace}
% should be discouraged.
%
% \begin{macro}{\luatexUstack}
% First we make sure that we can use the \cmd{\Ustack} primitive (under the
% name \cmd{\luatexUstack}).
% \begin{macrocode}
\luatexbase@ensure@primitive { Ustack }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\frac}
% Here we assume that nobody except \pkg{amsmath} redefines \cmd{\frac}.
% This is obviously not the case, but we ignore other packages (\eg,
% \pkg{nath}) for the moment. We only patch the \hologo{LaTeX2e} kernel
% definition if the \pkg{amsmath} package is not loaded; the corresponding
% patch for \pkg{amsmath} follows below.
% \begin{macrocode}
\AtEndPreamble {
\@ifpackageloaded { amsmath } { } {
\lltxmath_patch:NNnnn \frac \cs_set_nopar:Npn { #1 #2 } {
{
\begingroup #1 \endgroup \over #2
}
} {
% \end{macrocode}
% To do: do we need the additional set of braces around \cmd{\Ustack}?
% \begin{macrocode}
{
\luatexUstack { \group_begin: #1 \group_end: \over #2 }
}
}
}
}
% \end{macrocode}
% \end{macro}
%
%
% \subsection{\pkg{amsmath}}
%
% The popular \pkg{amsmath} package is subject to three \hologo{LuaTeX}-related problems:
% \begin{itemize}
% \item The \cmd{\mathcode} primitive is used several times, which fails for
% Unicode math characters. \cmd{\Umathcode} should be used instead.
% \item Legacy font dimensions are used for constructing stacks in the
% \cmd{\substack} command and the \env{subarray} environment. This doesn’t
% work if a Unicode math font is selected.
% \item The fraction commands \cmd{\frac} and \cmd{\genfrac} don’t use the
% \cmd{\Ustack} primitive.
% \end{itemize}
%
% \begin{macro}{\luatexUmathcodenum}
% \begin{macro}{\luatexUmathchardef}
% We need the extended versions of \cmd{\mathcode} and \cmd{\mathchardef}.
% \begin{macrocode}
\luatexbase@ensure@primitive { Umathcodenum }
\luatexbase@ensure@primitive { Umathchardef }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\luatexalignmark}
% \begin{macro}{\luatexUstartmath}
% \begin{macro}{\luatexUstopmath}
% We use the primitives corresponding to the alignment mark (\verb+#+) and to
% the inline math switches; this is more semantical and might lead to better
% error messages.
% \begin{macrocode}
\luatexbase@ensure@primitive { alignmark }
\luatexbase@ensure@primitive { Ustartmath }
\luatexbase@ensure@primitive { Ustopmath }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\luatexUmathstacknumup}
% \begin{macro}{\luatexUmathstackdenomdown}
% \begin{macro}{\luatexUmathstackvgap}
% Now we require the font parameters we will use.
% \begin{macrocode}
\luatexbase@ensure@primitive { Umathstacknumup }
\luatexbase@ensure@primitive { Umathstackdenomdown }
\luatexbase@ensure@primitive { Umathstackvgap }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\c_lltxmath_std_minus_mathcode_int}
% \begin{macro}{\c_lltxmath_std_equal_mathcode_int}
% These constants contain the standard \hologo{TeX} mathematical codes for
% the minus and the equal signs. We temporarily set the math codes to these
% constants before loading the \pkg{amsmath} package so that it can request
% the legacy math code without error.
% \begin{macrocode}
\int_const:Nn \c_lltxmath_std_minus_mathcode_int { "2200 }
\int_const:Nn \c_lltxmath_std_equal_mathcode_int { "303D }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\lltxmath_set_mathchar:NN}
% The macro \cmd{\lltxmath_set_mathchar:NN}\meta{control
% sequence}\meta{token} defines the \meta{control sequence} as an extended
% mathematical character shorthand whose mathematical code is given by the
% mathematical code of the character \texttt{\textasciigrave}\meta{token}.
% Since there is no \cmd{\Umathcharnumdef} primitive, we have to extract the
% class, family, and slot numbers separately.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \lltxmath_set_mathchar:NN #1 #2 {
\luatexUmathchardef #1
\lua_now:x {
lualatex.math.print_class_fam_slot( \int_eval:n { `#2 } )
}
\scan_stop:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\lltxmath_char_dim:NN}
% The macro \cmd{\lltxmath_char_dim:NN}\meta{primitive}\meta{token} expands
% to a \meta{dimen} whose value is the metric of the mathematical character
% corresponding to the character \texttt{\textasciigrave}\meta{token}
% specified by \meta{primitive}, which must be one of \cmd{\fontcharwd},
% \cmd{\fontcharht} or \cmd{\fontchardp}, in the currently selected text
% style font.
% \begin{macrocode}
\cs_new_nopar:Npn \lltxmath_char_dim:NN #1 #2 {
#1 \textfont
\lua_now:x {
lualatex.math.print_fam_slot( \int_eval:n { `#2 } )
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\l_lltxmath_minus_mathchar}
% \begin{macro}{\l_lltxmath_equal_mathchar}
% These mathematical characters are saved before \pkg{amsmath} is loaded so
% that we can temporarily assign the \hologo{TeX} values to the mathematical
% codes of the minus and equals signs. The \pkg{amsmath} package queries
% these codes, and if they represent Unicode characters, the package loading
% will fail. If \pkg{amsmath} has already been loaded, there is nothing we
% can do, therefore we use the non-starred version of
% \cmd{\AtBeginOfPackageFile}.
% \begin{macrocode}
\chk_if_free_cs:N \l_lltxmath_minus_mathchar
\chk_if_free_cs:N \l_lltxmath_equal_mathchar
\AtBeginOfPackageFile { amsmath } {
\lltxmath_set_mathchar:NN \l_lltxmath_minus_mathchar \-
\lltxmath_set_mathchar:NN \l_lltxmath_equal_mathchar \=
% \end{macrocode}
% \end{macro}
% \end{macro}
% Now we temporarily reset the mathematical codes.
% \begin{macrocode}
\char_set_mathcode:nn { `\- } { \c_lltxmath_std_minus_mathcode_int }
\char_set_mathcode:nn { `\= } { \c_lltxmath_std_equal_mathcode_int }
\AtEndOfPackageFile { amsmath } {
% \end{macrocode}
% \begin{macro}{\std@minus}
% \begin{macro}{\std@equals}
% The \pkg{amsmath} package defines the control sequences \cmd{\std@minus}
% and \cmd{\std@equal} as mathematical character shorthands while loading,
% but uses our restored mathematical codes, which must be fixed.
% \begin{macrocode}
\cs_set_eq:NN \std@minus \l_lltxmath_minus_mathchar
\cs_set_eq:NN \std@equal \l_lltxmath_equal_mathchar
% \end{macrocode}
% \end{macro}
% \end{macro}
% Finally, we restore the original mathematical codes of the two signs.
% \begin{macrocode}
\luatexUmathcodenum `\- \l_lltxmath_minus_mathchar
\luatexUmathcodenum `\= \l_lltxmath_equal_mathchar
}
}
% \end{macrocode}
% All of the following fixes work even if \pkg{amsmath} is already loaded.
% \begin{macro}{\@begindocumenthook}
% \pkg{amsmath} repeats the definiton of \cmd{\std@minus} and
% \cmd{\std@equal} at the beginning of the document, so we also have to patch
% the internal kernel macro \cmd{\@begindocumenthook} which contains the hook
% code.
% \begin{macrocode}
\AtEndOfPackageFile * { amsmath } {
\tl_replace_in:Nnn \@begindocumenthook {
\mathchardef \std@minus \mathcode `\- \relax
\mathchardef \std@equal \mathcode `\= \relax
} {
\lltxmath_set_mathchar:NN \std@minus \-
\lltxmath_set_mathchar:NN \std@equal \=
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\resetMathstrut@}
% \pkg{amsmath} uses the box \cmd{\Mathstrutbox@} for struts in mathematical
% mode. This box is defined to have the height and depth of the opening
% parenthesis taken from the current text font. The command
% \cmd{\resetMathstrut@} is executed whenever the mathematical fonts are
% changed and has to restore the correct dimensions. The original definition
% uses a temporary mathematical character shorthand definition whose meaning
% is queried to extract the family and slot. We can do this in Lua;
% furthermore we can avoid a temporary box because \hologo{eTeX} allows us to
% query glyph metrics directly.
% \begin{macrocode}
\lltxmath_patch:NNnnn \resetMathstrut@ \cs_set_nopar:Npn { } {
\setbox \z@ \hbox {
\mathchardef \@tempa \mathcode `\( \relax % \)
\def \@tempb ##1 "##2 ##3 { \the \textfont "##3 \char" }
\expandafter \@tempb \meaning \@tempa \relax
}
\ht \Mathstrutbox@ \ht \z@
\dp \Mathstrutbox@ \dp \z@
} {
\box_set_ht:Nn \Mathstrutbox@ {
\lltxmath_char_dim:NN \fontcharht \( % \)
}
\box_set_dp:Nn \Mathstrutbox@ {
\lltxmath_char_dim:NN \fontchardp \)
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{environment}{subarray}
% The \env{subarray} environment uses legacy font dimensions. We simply
% patch it to use \hologo{LuaTeX} font parameters (and \hologo{LaTeX3}
% expressions instead of \hologo{TeX} arithmetic). Since subscript arrays
% are conceptually vertical stacks, we use the sum of top and bottom shift
% for the default vertical baseline distance (\cmd{\baselineskip}) and the
% minimum vertical gap for stack for the minimum baseline distance
% (\cmd{\lineskip}).
% \begin{macrocode}
\lltxmath_patch:NNnnn \subarray \cs_set:Npn { #1 } {
\vcenter
\bgroup
\Let@
\restore@math@cr
\default@tag
\baselineskip \fontdimen 10~ \scriptfont \tw@
\advance \baselineskip \fontdimen 12~ \scriptfont \tw@
\lineskip \thr@@ \fontdimen 8~ \scriptfont \thr@@
\lineskiplimit \lineskip
\ialign
\bgroup
\ifx c #1 \hfil \fi
$ \m@th \scriptstyle ## $
\hfil
\crcr
} {
\vcenter
\c_group_begin_token
\Let@
\restore@math@cr
\default@tag
\skip_set:Nn \baselineskip {
\luatexUmathstacknumup \scriptstyle
+ \luatexUmathstackdenomdown \scriptstyle
}
\lineskip \luatexUmathstackvgap \scriptstyle
\lineskiplimit \lineskip
\ialign
\c_group_begin_token
\token_if_eq_meaning:NNT c #1 { \hfil }
\luatexUstartmath
\m@th
\scriptstyle
\luatexalignmark \luatexalignmark
\luatexUstopmath
\hfil
\crcr
}
% \end{macrocode}
% \end{environment}
%
% \begin{macro}{\frac}
% Since \cmd{\frac} is declared by \cmd{\DeclareRobustCommand}, we must patch
% the macro \cmd{\frac\textvisiblespace}.
% \begin{macrocode}
\lltxmath_patch:cNnnn { frac~ } \cs_set:Npn { #1 #2 } {
{
\begingroup #1 \endgroup \@@over #2
}
} {
{
\luatexUstack { \group_begin: #1 \group_end: \@@over #2 }
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@genfrac}
% Generalized fractions are typeset by the internal \cmd{\@genfrac} command.
% \begin{macrocode}
\lltxmath_patch:NNnnn \@genfrac \cs_set_nopar:Npn {
#1 #2 #3 #4 #5
} {
{
#1 { \begingroup #4 \endgroup #2 #3 \relax #5 }
}
} {
{
#1 {
\luatexUstack {
\group_begin: #4 \group_end: #2 #3 \scan_stop: #5
}
}
}
}
}
% \end{macrocode}
% \end{macro}
%
%
% \subsection{\pkg{mathtools}}
%
% \pkg{mathtools}’ \cmd{\cramped} command and others that make use of its
% internal version use a hack involving a null radical. \Hologo{LuaTeX} has
% primitives for setting material in cramped mode, so we make use of them.
%
% \begin{macro}{\luatexcrampeddisplaystyle}
% \begin{macro}{\luatexcrampedtextstyle}
% \begin{macro}{\luatexcrampedscriptstyle}
% \begin{macro}{\luatexcrampedscriptscriptstyle}
% First we make sure that the needed primitives for cramped styles are
% available.
% \begin{macrocode}
\luatexbase@ensure@primitive { crampeddisplaystyle }
\luatexbase@ensure@primitive { crampedtextstyle }
\luatexbase@ensure@primitive { crampedscriptstyle }
\luatexbase@ensure@primitive { crampedscriptscriptstyle }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\MT_cramped_internal:Nn}
% The macro \cmd{\MT_cramped_internal:Nn}\meta{style}\marg{expression}
% typesets the \meta{expression} in the cramped style corresponding to the
% given \meta{style} (\cmd{\displaystyle} etc.); all we have to do in
% \hologo{LuaTeX} is to select the correct primitive. Rewriting the
% user-level \cmd{\cramped} command and employing \cmd{\mathstyle} would be
% possible as well, but we avoid this way since we want to patch only a
% single command.
% \begin{macrocode}
\AtEndOfPackageFile * { mathtools } {
\lltxmath_patch:NNnnn \MT_cramped_internal:Nn
\cs_set_nopar:Npn { #1 #2 } {
\sbox \z@ {
$
\m@th
#1
\nulldelimiterspace = \z@
\radical \z@ { #2 }
$
}
\ifx #1 \displaystyle
\dimen@ = \fontdimen 8 \textfont 3
\advance \dimen@ .25 \fontdimen 5 \textfont 2
\else
\dimen@ = 1.25 \fontdimen 8
\ifx #1 \textstyle
\textfont
\else
\ifx #1 \scriptstyle
\scriptfont
\else
\scriptscriptfont
\fi
\fi
3
\fi
\advance \dimen@ -\ht\z@
\ht\z@ = -\dimen@
\box\z@
} {
% \end{macrocode}
% Here the additional set of braces is absolutely necessary, otherwise the
% changed mathematical style would be applied to the material after the
% \cmd{\mathchoice} construct.
% \begin{macrocode}
{
\use:c { luatexcramped \cs_to_str:N #1 } #2
}
}
}
%</package>
% \end{macrocode}
% \end{macro}
%
%
% \section{Implementation of the \hologo{LuaLaTeX} module}
%
% For the Lua module, we use the standard \pkg{luatexbase-modutils} template
% and the \func{module} function.
% \begin{macrocode}
%<*lua>
require("luatexbase.modutils")
require("luatexbase.cctb")
local err, warn, info, log = luatexbase.provides_module({
name = "lualatex-math",
date = "2011/05/05",
version = 0.1,
description = "Patches for mathematics typesetting with LuaLaTeX",
author = "Philipp Stephani",
licence = "LPPL v1.3+"
})
local unpack = unpack
local string = string
local tex = tex
local cctb = luatexbase.catcodetables
module("lualatex.math")
% \end{macrocode}
%
% \begin{function}{print_fam_slot}
% The function \func{print_fam_slot} takes one argument which must be a
% number. It interprets the argument as a Unicode code point whose
% mathematical code is printed in the form
% \meta{family}\texttt{\textvisiblespace}\meta{slot}, suitable for the
% right-hand side of \eg \verb|\fontcharht\textfont|.
% \begin{macrocode}
function print_fam_slot(char)
local code = tex.getmathcode(char)
local class, family, slot = unpack(code)
local result = string.format("%i %i ", family, slot)
tex.sprint(cctb.string, result)
end
% \end{macrocode}
% \end{function}
%
% \begin{function}{print_class_fam_slot}
% The function \func{print_class_fam_slot} takes one argument which must be a
% number. It interprets the argument as a Unicode code point whose
% mathematical code is printed in the form
% \meta{class}\texttt{\textvisiblespace}\meta{family}\texttt{\textvisiblespace}\meta{slot},
% suitable for the right-hand side of \cmd{\Umathchardef}.
% \begin{macrocode}
function print_class_fam_slot(char)
local code = tex.getmathcode(char)
local class, family, slot = unpack(code)
local result = string.format("%i %i %i ", class, family, slot)
tex.sprint(cctb.string, result)
end
%</lua>
% \end{macrocode}
% \end{function}
%
%
% \section{Test files}
%
% Finally two small test files—but not a real test suite.
%
%
% \subsection{Common definitions}
%
% \begin{macrocode}
%<*test>
\documentclass[pagesize=auto]{scrartcl}
% \end{macrocode}
% Only \pkg{xparse} starting with 2008/08/03 has \cmd{\NewDocumentCommand}.
% \begin{macrocode}
\usepackage{xparse}[2008/08/03]
\ExplSyntaxOn
% \end{macrocode}
%
% \begin{l3message}{pass}
% This message is issued when a test passed.
% \begin{macrocode}
\msg_new:nnn { test } { pass } { #1 }
% \end{macrocode}
% \end{l3message}
%
% \begin{macro}{\test_pass:x}
% The macro \cmd{\test_pass:x}\marg{text} issues the \msg{pass} message with
% description \meta{text}.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_pass:x #1 {
\msg_info:nnx { test } { pass } { #1 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{l3message}{fail}
% This message is issued when a test failed.
% \begin{macrocode}
\msg_new:nnn { test } { fail } { #1 }
% \end{macrocode}
% \end{l3message}
%
% \begin{macro}{\test_fail:x}
% The macro \cmd{\test_fail:x}\marg{text} issues the \msg{fail} message with
% description \meta{text}.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_fail:x #1 {
\msg_error:nnx { test } { fail } { #1 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\tl_const:Nx}
% We need expanding constants.
% \begin{macrocode}
\cs_generate_variant:Nn \tl_const:Nn { Nx }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\c_test_equal_tl}
% \begin{macro}{\c_test_not_equal_tl}
% Two shorthands for pretty-printing test results.
% \begin{macrocode}
\tl_const:Nx \c_test_equal_tl { \c_space_tl == \c_space_tl }
\tl_const:Nx \c_test_not_equal_tl { \c_space_tl != \c_space_tl }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\test_equal_pass:nxnx}
% The macro \cmd{\test_equal_pass:nxnx}\marg{first expression}\marg{first
% value}\marg{second expression}\marg{second value} is called when the two
% values arising from the two expressions are equal.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_equal_pass:nxnx #1 #2 #3 #4 {
\test_pass:x {
\exp_not:n { #1 }
\c_test_equal_tl
#2
\c_test_equal_tl
#4
\c_test_equal_tl
\exp_not:n { #3 }
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\test_equal_fail:nxnx}
% The macro \cmd{\test_equal_pass:nxnx}\marg{first expression}\marg{first
% value}\marg{second expression}\marg{second value} is called when the two
% values arising from the two expressions are not equal.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_equal_fail:nxnx #1 #2 #3 #4 {
\test_fail:x {
\exp_not:n { #1 }
\c_test_equal_tl
#2
\c_test_not_equal_tl
#4
\c_test_equal_tl
\exp_not:n { #3 }
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\test_assert_equal:NNNNNnn}
% \begin{macro}{\test_assert_equal:cccccnn}
% The macro \cmd{\test_assert_equal:NNNNNnn}\meta{set command}\meta{use
% command}\meta{compare command}\meta{first temporary command}\meta{second
% temporary command}\marg{first expression}\marg{second expression} asserts
% that the two expressions are equal. The \meta{set command} must have the
% argument specification \texttt{Nn}, the \meta{use command} \texttt{N}, and
% the \meta{compare command} \texttt{nNnTF}.
% \begin{macrocode}
\cs_new_protected_nopar:Npn
\test_assert_equal:NNNNNnn #1 #2 #3 #4 #5 #6 #7 {
#1 #4 { #6 }
#1 #5 { #7 }
#3 { #4 } = { #5 } {
\test_equal_pass:nxnx { #6 } { #2 #4 } { #7 } { #2 #5 }
} {
\test_equal_fail:nxnx { #6 } { #2 #4 } { #7 } { #2 #5 }
}
}
\cs_generate_variant:Nn \test_assert_equal:NNNNNnn { ccccc }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\test_assert_equal:nnn}
% The macro \cmd{\test_assert_equal:nnn}\marg{data type}\marg{first
% expression}\marg{second expression} is a simplified version of
% \cmd{\test_assert_equal:NNNNNnn} for data types following the
% \hologo{LaTeX3} naming conventions; \meta{data type} must be \texttt{int},
% \texttt{dim}, \etc
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_assert_equal:nnn #1 #2 #3 {
\test_assert_equal:cccccnn
{ #1 _set:Nn } { #1 _use:N } { #1 _compare:nNnTF }
{ l_test_tmpa_ #1 } { l_test_tmpb_ #1 } { #2 } { #3 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\l_test_tmpa_int}
% \begin{macro}{\l_test_tmpb_int}
% Scratch registers for numbers.
% \begin{macrocode}
\int_new:N \l_test_tmpa_int
\int_new:N \l_test_tmpb_int
% \end{macrocode}
% \end{macro}
% \end{macro}
% \begin{macro}{\AssertIntEqual}
% The command \cmd{\AssertIntEqual}\marg{first expression}\marg{second
% expression} asserts that the two integral expressions are equal.
% \begin{macrocode}
\NewDocumentCommand \AssertIntEqual { m m } {
\test_assert_equal:nnn { int } { #1 } { #2 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\l_test_tmpa_int}
% \begin{macro}{\l_test_tmpb_int}
% Scratch registers for dimensions.
% \begin{macrocode}
\dim_new:N \l_test_tmpa_dim
\dim_new:N \l_test_tmpb_dim
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\AssertIntEqual}
% The command \cmd{\AssertDimEqual}\marg{first expression}\marg{second
% expression} asserts that the two dimension expressions are equal.
% \begin{macrocode}
\NewDocumentCommand \AssertDimEqual { m m } {
\test_assert_equal:nnn { dim } { #1 } { #2 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\AssertMathStyle}
% The command \cmd{\AssertMathStyle}\marg{expression} asserts that the
% current mathematical style is equal to the value of the integral
% \meta{expression}.
% \begin{macrocode}
\NewDocumentCommand \AssertMathStyle { m } {
\AssertIntEqual { \luatexmathstyle } { #1 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\test_assert_cramped:Nx}
% The macro \cmd{\test_assert_cramped:Nn}\meta{predicate}\marg{name} asserts
% that we are in math mode and that the current style fulfills the
% \meta{predicate} (identified by the \meta{name}) which must have the
% argument specification \texttt{n}.
% \begin{macrocode}
\cs_new_protected_nopar:Npn \test_assert_cramped:Nx #1 #2 {
\int_set:Nn \l_test_tmpa_int { \luatexmathstyle }
\bool_if:nTF {
\int_compare_p:nNn { \l_test_tmpa_int } > { \c_minus_one }
&&
#1 { \l_test_tmpa_int }
} {
\test_pass:x {
\exp_not:N \luatexmathstyle
\c_test_equal_tl
\int_use:N \l_test_tmpa_int
\c_space_tl
is~ a~ #2~ style
}
} {
\test_fail:x {
\exp_not:N \luatexmathstyle
\c_test_equal_tl
\int_use:N \l_test_tmpa_int
\c_space_tl
is~ not~ a~ #2~ style
}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\AssertNoncrampedStyle}
% The command \cmd{\AssertNoncrampedStyle} asserts that the current
% mathematical style is one of the non-cramped styles.
% \begin{macrocode}
\NewDocumentCommand \AssertNoncrampedStyle { } {
\test_assert_cramped:Nx \int_if_even_p:n { non-cramped }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\AssertCrampedStyle}
% The command \cmd{\AssertCrampedStyle} asserts that the current mathematical
% style is one of the cramped styles.
% \begin{macrocode}
\NewDocumentCommand \AssertCrampedStyle { } {
\test_assert_cramped:Nx \int_if_odd_p:n { cramped }
}
\ExplSyntaxOff
%</test>
% \end{macrocode}
% \end{macro}
%
%
% \subsection{\Hologo{LaTeX2e} kernel}
%
% Here we only check whether different fractions and other style-changing
% commands result in the correct mathematical style.
% \begin{macrocode}
%<*test-kernel>
\usepackage{lualatex-math}
\begin{document}
\begin{displaymath}
\AssertMathStyle{0} \sqrt{\AssertMathStyle{1}}
\frac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
a^{\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\sqrt{\frac{\AssertMathStyle{3}}{\AssertMathStyle{3}}}
\displaystyle
\frac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\luatexcrampeddisplaystyle
\frac{\AssertMathStyle{3}}{\AssertMathStyle{3}}
\textstyle
\frac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\luatexcrampedtextstyle
\frac{\AssertMathStyle{5}}{\AssertMathStyle{5}}
\scriptstyle
\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\luatexcrampedscriptstyle
\frac{\AssertMathStyle{7}}{\AssertMathStyle{7}}
\end{displaymath}
\begin{math}
\AssertMathStyle{2} \sqrt{\AssertMathStyle{3}}
\frac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
a^{\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\sqrt{\frac{\AssertMathStyle{5}}{\AssertMathStyle{5}}}
\displaystyle
\frac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\luatexcrampeddisplaystyle
\frac{\AssertMathStyle{3}}{\AssertMathStyle{3}}
\textstyle
\frac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\luatexcrampedtextstyle
\frac{\AssertMathStyle{5}}{\AssertMathStyle{5}}
\scriptstyle
\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\luatexcrampedscriptstyle
\frac{\AssertMathStyle{7}}{\AssertMathStyle{7}}
\end{math}
\end{document}
%</test-kernel>
% \end{macrocode}
%
%
% \subsection{\pkg{amsmath} and \pkg{mathtools}}
%
% Since \pkg{mathtools} loads \pkg{amsmath} anyway, we test both in one file.
% \begin{macro}{\testbox}
% First a scratch box register.
% \begin{macrocode}
%<*test-amsmath>
\usepackage{lualatex-math}
\newsavebox{\testbox}
% \end{macrocode}
% \end{macro}
% We set the mathematical code for the minus sign to some arbitrary Unicode
% value to test whether the load-time patch works.
% \begin{macrocode}
\luatexUmathcode`\-="2 "33 "44444 \relax
\usepackage{amsmath}
\AssertIntEqual{\luatexUmathcode`\-}{"33444444}
\makeatletter
\AssertIntEqual{\std@minus}{"33444444}
\makeatother
\usepackage{mathtools}
% \end{macrocode}
% The same for the document begin hook.
% \begin{macrocode}
\luatexUmathcode`\="5 "66 "77777 \relax
\begin{document}
\AssertIntEqual{\luatexUmathcode`\=}{"66A77777}
\makeatletter
\AssertIntEqual{\std@equal}{"66A77777}
\makeatother
% \end{macrocode}
% Here we test whether the strut box has the correct height and depth.
% \begin{macrocode}
\sbox{\testbox}{$($} % )
\makeatletter
\AssertDimEqual{\ht\Mathstrutbox@}{\ht\testbox}
\AssertDimEqual{\dp\Mathstrutbox@}{\dp\testbox}
\makeatother
% \end{macrocode}
% Here we test for the various \pkg{amsmath} features that have to be patched:
% sub-arrays and various kind of fraction-like objects. The \cmd{\substack}
% command and \env{subarray} environment aren’t really tested since it is hard
% to check whether the outcome looks right in an automated way. All tests are
% done in both inline and display mode.
% \begin{macrocode}
\begin{equation*}
\AssertMathStyle{0} \sqrt{\AssertMathStyle{1}}
\sum_{
\substack{\frac12 \\ \frac34 \\ \frac56}
}
\sum_{
\begin{subarray}{l} \frac12 \\ \frac34 \\ \frac56 \end{subarray}
}
\frac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
a^{\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\dfrac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\tfrac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\binom{\AssertMathStyle{2}}{\AssertMathStyle{3}}
a^{\binom{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\dbinom{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\tbinom{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\genfrac{}{}{}{}{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\genfrac{<}{/}{0pt}{0}{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\genfrac{}{}{}{1}{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\genfrac{|}{]}{4pt}{2}{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\genfrac{}{}{}{3}{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\end{equation*}
\begin{math}
\AssertMathStyle{2} \sqrt{\AssertMathStyle{3}}
\sum_{
\substack{\frac12 \\ \frac34 \\ \frac56}
}
\sum_{
\begin{subarray}{l} \frac12 \\ \frac34 \\ \frac56 \end{subarray}
}
\frac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
a^{\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\dfrac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\tfrac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\binom{\AssertMathStyle{4}}{\AssertMathStyle{5}}
a^{\binom{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\dbinom{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\tbinom{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\genfrac{}{}{}{}{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\genfrac{<}{/}{0pt}{0}{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\genfrac{}{}{}{1}{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\genfrac{|}{]}{4pt}{2}{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\genfrac{}{}{}{3}{\AssertMathStyle{6}}{\AssertMathStyle{7}}
\end{math}
% \end{macrocode}
% Since \pkg{mathtools}’ \cmd{\cramped} command uses \cmd{\mathchoice}, we
% cannot test for a single mathematical style since all of them are executed;
% instead, we just verify that all styles encountered are cramped.
% \begin{macrocode}
\begin{equation*}
\AssertMathStyle{0}
a^{\AssertMathStyle{4} a}
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^{
\AssertMathStyle{4}
a^a
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^a
\AssertMathStyle{4}
}
a^{
a^{
\AssertMathStyle{6}
a^a
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^a
\AssertMathStyle{6}
}
}
a^{\AssertMathStyle{4} a}
\AssertMathStyle{0}
\end{equation*}
\begin{math}
\AssertMathStyle{2}
a^{\AssertMathStyle{4} a}
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^{
\AssertMathStyle{4}
a^a
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^a
\AssertMathStyle{4}
}
a^{
a^{
\AssertMathStyle{6}
a^a
\cramped{\AssertCrampedStyle a^{\AssertCrampedStyle a}}
a^a
\AssertMathStyle{6}
}
}
a^{\AssertMathStyle{4} a}
\AssertMathStyle{2}
\end{math}
\end{document}
%</test-amsmath>
% \end{macrocode}
%
%
% \subsection{\pkg{unicode-math}}
%
% This test file loads both \pkg{amsmath} and \pkg{unicode-math}. The latter
% package contains fixes that somewhat overlap with ours. We have to take care
% in all packages that no attempt is made to patch a sinlge macro twice.
% Therefore we treat warnings (that occur when trying to patch a macro with an
% unknown meaning) as errors here.
%
% \begin{macrocode}
%<*test-unicode>
\ExplSyntaxOn
\msg_redirect_class:nn { warning } { error }
\ExplSyntaxOff
\usepackage{amsmath}
\usepackage{unicode-math}[2011/05/05]
\setmathfont{XITS Math}
\usepackage{lualatex-math}
\begin{document}
\begin{equation*}
\AssertMathStyle{0} \sqrt{\AssertMathStyle{1}}
\frac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
a^{\frac{\AssertMathStyle{6}}{\AssertMathStyle{7}}}
\dfrac{\AssertMathStyle{2}}{\AssertMathStyle{3}}
\tfrac{\AssertMathStyle{4}}{\AssertMathStyle{5}}
\end{equation*}
\end{document}
%</test-unicode>
% \end{macrocode}
%
% \Finale
\endinput
% Local Variables:
% mode: doctex
% coding: utf-8-unix
% TeX-engine: luatex
% End:
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