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|
% \iffalse meta-comment
% Copyright (C) 2019--2020
% by Phelype Oleinik <phelype.oleinik@latex-project.org>
%
% This work may be distributed and/or modified under the conditions of
% the LaTeX Project Public License, either version 1.3c of this license
% or (at your option) any later version. The latest version of this
% license is in
%
% http://www.latex-project.org/lppl.txt
%
% and version 1.3c or later is part of all distributions of LaTeX
% version 2005/12/01 or later.
%
% This work is "maintained" (as per the LPPL maintenance status)
% by Phelype Oleinik.
%
%<*package>
\def\namedefDate{2020-06-20}
\def\namedefVersion{1.0}
%</package>
%<*driver>
\documentclass[a4paper,full,inline]{l3doc}
\usepackage[T1]{fontenc}
\usepackage{microtype}
\usepackage{namedef}
\usepackage{bookmark}
\usepackage{xcolor}
\def\TODO#1#{\begingroup\afterassignment\TODODO\let\tmp = }
\def\TODODO{\setbox0=\vbox\bgroup\aftergroup\ENDTODO}
\def\ENDTODO{\endgroup\ignorespaces}
\begingroup
\lccode`~=`\%
\lowercase{\endgroup
\def\VRBCodes{^^A
\catcode`~=13
\def~{\%\global\linenofalse}}
}
\makeatletter
\define@key{FV}{labelformat}{%
\def\FV@LabelFormat{#1}%
\ifx\FV@LabelFormat\FV@None
\let\FV@LabelFormat\relax
\fi}
\def\FV@Label@ii[#1]#2\@nil{%
\def\@tempa{#1}%
\ifx\@tempa\empty
\def\FV@LabelBegin{\FV@LabelFormat#2}%
\else
\def\FV@LabelBegin{\FV@LabelFormat#1}%
\def\FV@LabelPositionBottomLine{\@ne}%
\fi
\def\FV@LabelEnd{\FV@LabelFormat#2}}
\makeatother
\DefineVerbatimEnvironment%
{example}{Verbatim}
{
gobble=3,
frame=single,
commandchars=|<>,
codes={\VRBCodes},
numbers=left,
labelformat=\rmfamily\bfseries,
}
\def\mshow#1{> \string#1=\meaning#1}
\newif\iflineno\linenotrue%\fi
\def\theFancyVerbLine{^^A
\rmfamily
\scriptsize
\color{gray}^^A
\iflineno
\arabic{FancyVerbLine}^^A
\else
\global\addtocounter{FancyVerbLine}{-1}^^A
\fi
\global\linenotrue
}
\pdfstringdefDisableCommands{\let\footnotemark\relax}
% Substitute lmtt/it by lmtt/sl
\DeclareFontShape{T1}{lmtt}{lc}{it}{<->ssub*lmtt/lc/sl}{}
\begin{document}
\overfullrule=5pt
\DocInput{\jobname.dtx}
\end{document}
%</driver>
% \fi
%
% \GetFileInfo{\jobname.sty}
%
% \title{^^A
% The \pkg{namedef} package\\
% Named parameters in \TeX{} definitions^^A
% \thanks{This file has version number \namedefVersion,
% last revised \namedefDate.}
% }
%
% \author{^^A
% Phelype H. Oleinik\thanks
% {^^A
% E-mail:
% \href{mailto:phelype.oleinik@latex-project.org}
% {phelype.oleinik\meta{at}latex-project.org}^^A
% }^^A
% }
%
% \date{Released \namedefDate}
%
% \maketitle
%
% \begin{documentation}
%
% \section{Introduction}
%
% This package provides a somewhat dubious, however useful way to make
% \TeX{} definitions using \cs{def} and the like. The usual way to
% define a ``hello world'' macro is |\def\hello#1{Hello #1!}|. Sure,
% this is easy (for people using this package, at least), but sometimes
% I stumbled upon the case where I had a macro defined with something
% like |\def\macro#1#2#3#4#5#6{#6#1#4#3#5#2}| and then I had to, for
% whatever reason, add another argument before |#1|. Oh, the pain. But
% OK, occupational hazard. And then I change my mind and needed to
% revert. This package provides a way to give a semantic meaning to the
% arguments of a definition such that it becomes clearer in meaning and
% easier to change when an argument's identifier defines what it means
% rather than its position in a list.
%
% \subsection{Features}
%
% This package defines a macro, \cs{named}, which acts like a prefix for
% \cs{def} (the same way as \cs{long} and the like), and allows one to
% rewrite the \cs{hello} macro like this:
% |\named\def\hello#[who]{Hello #[who]!}|. Sure, a macro with one
% argument won't see much benefit from it, but as soon as that number
% increases, a better description of the arguments comes in handy.
%
% The package also defines a macro \cs{NamedDelim} which allows the user
% to change the delimiter of the named parameters to their liking. For
% example, after |\NamedDelim //| the example above changes to:
% |\named\def\hello#/who/{Hello #/who/!}|. The default is
% |\NamedDelim []|.
%
% The only dependency of this package is the \LaTeX3 programming layer,
% \pkg{expl3}, thus this package works in any format and engine
% supported by \pkg{expl3}. In \LaTeXe, load it with
% |\usepackage{namedef}|, and in other formats with
% |\input namedef.sty|.
%
% \subsection{Feedback}
%
% Bugs, feature requests, or suggestions are most welcome. You can send
% them by e-mail or to the source code repository at
% \url{https://github.com/PhelypeOleinik/namedef}.
%
% \section{Usage}
%
% \begin{function}{\named}
% \begin{syntax}
% \cs{named}\meta{other~prefixes}\meta{\cs[no-index]{(e,g,x)def}}^^A
%\meta{parameter text}\marg{replacement text}
% \end{syntax}
% The \cs{named} macro will grab the \meta{other~prefixes}, the
% \cs{def} command, the \meta{parameter~text} and
% \meta{replacement~text}, and will replace every ocurrence of
% |#[|\meta{text}|]| by a suitable |#|\meta{number} for \TeX{} to
% carry on with the definition.
%
% The \meta{other~prefixes} can be any combination of \cs{long},
% \cs{outer}, \cs{global}, and \cs{protected}. As for \TeX, their
% relative order doesn't matter, except that \cs{named} must appear
% \emph{before} any \cs{global} prefix. Other prefixes are detected
% whether placed before or after \cs{named}.
%
% The \cs{def} command can be anything. The package will not check the
% validity of the command, it will simply drag the token along until
% the point where the definition is made. This allows one to use any
% of \TeX's primitive \cs{def} commands as well as, for instance,
% \pkg{expl3}'s \cs{cs_new:Npn} or the like. However \cs{named} will
% not work with \LaTeX's \cs{newcommand} or \pkg{xparse}'s
% \cs{NewDocumentCommand} and the like because their syntax is
% completely different.
%
% The \meta{parameter~text} is the same \meta{parameter~text} that
% would be used if the \cs{named} prefix wasn't used with the
% difference that all |#|\meta{number} must be replaced by a
% |#[|\meta{name}|]|. The characters |[| and |]| are mandatory and the
% character |]| cannot appear in \meta{name}, however |[| and |]| can
% still appear in the \meta{parameter~text} without restriction; the
% special meaning is only applied after a parameter token (|#|).
% \meta{name} can be anything that when fully expanded returns a
% string of characters (anything valid in |\csname|\dots|\endcsname|).
% The \meta{parameter~text} cannot, however, contain numbered
% parameters anymore (|#1|,~|#2|,~\dots).
% \TODO{This is not enforced... What should be done in this case?}
%
% The \meta{replacement~text} is also the same \meta{replacement~text}
% that would be used otherwise, with all |#|\meta{number} replaced by
% |#[|\meta{name}|]|.
% \end{function}
%
% \begin{function}{\NamedDelim,\globalNamedDelim}
% \begin{syntax}
% \cs{NamedDelim}\meta{begin-token}\meta{end-token}
% \cs{globalNamedDelim}\meta{begin-token}\meta{end-token}
% \end{syntax}
% These macros change the delimiter of the named parameters from the
% default |#[|\meta{name}|]| to
% |#|\meta{begin-token}\meta{name}\meta{end-token}. Both delimiters
% must be one single non-macro token. Valid delimiters are character
% tokens with catcode $3$, $4$, $7$, $8$, $11$, $12$, or $13$
% (see section~\ref{sec:delimiters}).
%
% \cs{globalNamedDelim} is the same as \cs{NamedDelim} except that the
% effect of the former has global scope, while the latter is local to
% a group. While you can use both, you should be careful not to
% interleave them too much or you might exhaust \TeX's save stack.
%
% Delimiters are matched based on their character code (using \cs{if})
% so changes in their category code doesn't matter as long as that
% change doesn't prevent the character from becoming a token or the
% category code isn't \enquote{too special} :-) \quad (see above).
%
% The choice of delimiter is mostly ``what you like better''. Neither
% the delimter tokens nor the name of the parameter make it to the
% macro itself. They are just code-level abstractions. Thus the
% delimiter should be something that the person writing the code can
% easily distinguish from the rest of the code. For example, the code
% |\NamedDelim xz \named\def\test#xyz{xyz#xyzxyz}| works, but its
% readability is questionable.
% \end{function}
%
% \subsection{Limitations}
%
% As already stated the command does not work (and I don't intend to
% make it work) with \LaTeXe's \cs{newcommand} and its family because
% a) the argument specification is by the number of arguments, so you
% can't ``declare'' them as with \cs{def}, and b) because it's supposed
% to be used for user-level interfaces, which usually (and preferably)
% have a low argument count, so numbering shouldn't be a problem.
% That said, see section~\ref{sec:newcommand}.
%
% For \pkg{xparse}'s \cs{NewDocumentCommand} the situation is the same.
% Other than these, \cs{named} should work for whatever type of
% definition that uses \TeX's \cs{def} syntax.
%
% Another limitation that I'd like to change in a future release (but
% still don't know the best way to make the interface) is to support
% definition commands which go beyond the
% \meta{parameter~text}|{|\meta{replacement~text}|}| syntax. For
% instance, in \pkg{expl3} a conditional that checks whether its
% argument is negative can be defined like this (for integers, of
% course):
% \begin{Verbatim}
% \prg_new_conditional:Npnn \namedef_if_negative:n #1 { T, F, TF }
% {
% \if_int_compare:w #1 < 0
% \prg_return_true:
% \else:
% \prg_return_false:
% \fi:
% }
% \end{Verbatim}
% And if one tried to use \cs{named} in that definition it would fail
% because this command takes one extra argument before the
% \meta{replacement~text}. Something could be done to allow one (or
% more) extra argument before the \meta{replacement~text}.
%
% \medskip
% One serious limitation is when used with definitions that expand their
% argument, namely \cs{edef} and \cs{xdef}. This type of definition
% expands tokens as it reads them, possibly changing their meaning
% during the process. \cs{named}, however, first grabs the definition as
% argument to process the named arguments before actually performing the
% definition, so these ``unexpected'' changes of meaning might make the
% code misbehave. While writing this manual I could think of two (and a
% half) situations which will be problematic and how to work around them
% (sorry, no solution for now; suggestions are welcome :).
%
%^^A \begingroup
% \edef\hash{\string#}
% \edef\¿{\csname @gobble\expandafter\endcsname\string\\}
% \def\nedeft{\ttfamily\¿named\¿edef\¿test}
%
% \subsubsection{\nedeft\{\¿string\#[arg]\}}
% \label{sec:edef wa1}
%
% The normal (no \cs{named}) counterpart of this one is a perfectly
% valid definition: |\edef\test{\string#1}|. While expanding the
% \meta{replacement~text}, \cs{string} turns the parameter token |#|$_6$
% into a character |#|$_{12}$, thus defining |\test| to expand to the
% two characters |#1|. When using \cs{named}, however, the replacement
% routine doesn't know what \cs{string} does to the token next to it, so
% it goes on and treats |#[arg]| as one named argument only to find out
% that it was never defined in the \meta{parameter~text}, so it aborts
% the definition with an error.
%
% This will occur in the specific case where the user wishes to have the
% macro expand to the characters |#[arg]|, without replacement by a
% parameter. In this case the work-around is to temporarily switch the
% delimiter tokens of \cs{named}'s scanner:
% \begin{Verbatim}
% \NamedDelim||
% \named\edef\test{\string#[arg]}
% \NamedDelim[]
% \end{Verbatim}
% in which case the scanner will still see the |#| as a parameter token
% but since it is no longer followed by a delimiter, it will be simply
% passed on to the definition. Afterwards, at the time \TeX{} tries to
% carry on with the definition, \cs{string} will do its thing to |#|
% without further problems.
%
% \subsubsection{\nedeft\#[arg]\{\¿string\}\#[arg]\}}
% \label{sec:edef wa2}
%
% This one, as the previous, works fine without \cs{named}:
% |\edef\test#1{\string}#1}|. Again, when \TeX{} scans this definition,
% it will expand \cs{string} which will turn the end group token |}|$_2$
% into a character |}|$_{12}$, which will have \TeX{} end the definition
% with the next~|}|$_2$, after the |#1|. This only works because \TeX{}
% does not grab the whole thing as argument before expanding. Which is
% precisely what \cs{named} does.
%
% When \cs{named} grabs the definition as argument the first |}|
% ends the \meta{replacement~text}, so what \cs{named} effectively sees
% is |\edef\test#[arg]{\string}|, which is then processed (|#[arg]| is
% replaced by |#1|) and left back in the input stream for \TeX{} to do
% its thing, however the replacement |#[arg]| is never replaced:
% |\edef\test#1{\string}#[arg]}|, then when \TeX{} tries to do the
% definition it will complain about an ``! Illegal parameter number in
% definition of |\test|.''
%
% The work-around in this case is to do a dirty brace trick to lure
% \cs{named} into grabbing the whole thing as argument, but which will
% disappear at the time \TeX{} performs the expansion and definition.
% One option is |\iffalse{\fi|:
% \begin{Verbatim}
% \named\edef\test#[arg]{%
% \iffalse{\fi \string}#[arg]}
% \end{Verbatim}
% In this example \cs{named} will process everything, but at the time of
% the definition the entire |\iffalse{\fi| thing expands to nothing and
% the final definition becomes the same as the one without \cs{named}.
% The |\iffalse{\fi| block can also be left in the definition
% \emph{without} named and the result will be the same. One could argue
% that using the brace hack is safer because it doesn't change the
% definition, yet avoid problems when grabbing the definition as
% argument in a general situation.
%
% \let\SVsubsec\thesubsubsection
% \def\thesubsubsection{^^A
% \thesubsection .\number\numexpr\value{subsubsection}-1,5}
%
% \subsubsection{\nedeft\#[arg]\{\¿string\{\#[arg]\}}
% \label{sec:edef wa3}
%
% \let\thesubsubsection\SVsubsec
%^^A \endgroup
%
% This is rather similar to the previous one, except that the brace
% later-to-be-detokenized begins a group: |\edef\test#1{\string{#1}|.
% Here \TeX{} also expands \cs{string} and makes |{|$_1$ a |{|$_{12}$
% which does not count in the brace balancing. \cs{named}, however, will
% count it when grabbing the definition as argument and will require one
% more |}|$_2$. If the code is run as is \TeX{} will probably report a
% ``File ended while scanning use of \dots'' error unless there happens
% to be a matching |}|$_2$ somewhere else, in which case the definition
% will just go wrong. The work-around here is the same as the one
% before, with |}| instead:
% \begin{Verbatim}
% \named\edef\test#[arg]{%
% \string{#[arg]\iffalse}\fi}
% \end{Verbatim}
% This will ensure that \cs{named} will see the |}| it needs to grab the
% definition correctly and will disappear once the definition is done.
%
% \subsection{Invalid delimiters}
% \label{sec:delimiters}
%
% The delimiters that can be used should be character tokens with
% catcode $3$, $4$, $7$, $8$, $11$, $12$, or $13$. Characters with
% catcode $0$, $5$, $9$, $14$, and $15$ don't produce tokens to start
% with, so they can't possibly be used. The remaining category codes
% are currently disallowed in the code because they make the input
% ambiguous or because they make the implementation more complex with no
% real advantage.
%
% Catcodes $1$ and $2$ (begin-/end-group) cannot be used because they
% become indistinguishable from the braces that delimit the
% \meta{parameter~text} of the definition, so the input is ambiguous.
%
% Catcode $6$ (macro parameter) cannot be used because it gets hard to
% distinguish a named parameter from some text surrounded by parameter
% tokens. For example in: |\named\edef\foo#name#{\string#then#name#}|,
% \pkg{namedef} would raise an error on |#then#| (unknown parameter)
% without knowing that the first |#|$_{6}$ becomes |#|$_{12}$ and the
% actual parameter is |#name#|\dots Or is it? I'm not entirely convinced
% of my own argument, so this might be implemented in the future.
%
% Catcode $10$ (blank space) is possible but it requires a hanful of
% extra precautions to avoid losing the space when passing arguments
% around. Since it makes for a strange-looking syntax (our eyes are
% trained to ignore spaces), this is not supported.
%
% \section{Boring examples}
%
% The following examples show two definitions each, which are the same,
% but the second uses \cs{named}. The third line in each example shows
% the \cs{meaning} of the defined macro.
%
% First the basics, replacing a numbered parameter by a named one:
% \named\def\hello#[who]{Hello #[who]!}
% \begin{example}[label=Basics]
% \def\hello#1{Hello #1!}
% \named\def\hello#[who]{Hello #[who]!}
% |mshow|hello
% \end{example}
% \smallskip
%
% Prefixes can be added at will after the \cs{named} prefix:
% \named\protected\long\edef\hello#[who]{Hello #[who]!}
% \begin{example}[label=Prefixes]
% \protected\long\edef\hello#1{Hello #1!}
% \named\protected\long\edef\hello#[who]{Hello #[who]!}
% |mshow|hello
% \end{example}
% \smallskip
%
%^^A Whatever prefixes put before \cs{named} will be lost. Notice that
%^^A even though \cs{protected} is used, the macro itself is not defined
%^^A with \cs{protected}:
%^^A \protected\named\long\edef\hello#[who]{Hello #[who]!}
%^^A \begin{example}[label=Wrong Prefixes]
%^^A \protected \long\edef\hello#1{Hello #1!}
%^^A \protected\named\long\edef\hello#[who]{Hello #[who]!}
%^^A |mshow|hello
%^^A \end{example}
%^^A \smallskip
%
% This example is just to show that the named argument delimiter doesn't
% interfere with the text in the macro:
% \named\def\hello[#[who]]{Hello #[who]!}
% \begin{example}[label=Argument delimited by \texttt{[} and \texttt{]}]
% \def\hello[#1]{Hello #1!}
% \named\def\hello[#[who]]{Hello #[who]!}
% |mshow|hello
% \end{example}
% \smallskip
%
% However, for readability, the delimiter can be changed to something
% else:
% \named\def\hello[#[who]]{Hello #[who]!}
% \begin{example}[label=Argument delimited by \texttt{[} and \texttt{]},
% commandchars=/<>,firstnumber=0]
% \NamedDelim{|}{|}
% \def\hello[#1]{Hello #1!}
% \named\def\hello[#|who|]{Hello #|who|!}
% /mshow/hello
% \end{example}
% \smallskip
%
% This example demonstrates multiple arguments and arbitrary
% \meta{parameter~text}:
% \named\def\cfbox #[color] to #[width]#[content]{%
% \fbox{\hbox to #[width]{\color{#[color]}#[content]}}}
% \begin{example}[label=More arguments]
% \def\cfbox #1 to #2#3{\fbox{\hbox to #2{\color{#1}#3}}}
% \named\def\cfbox #[color] to #[width]#[content]{%
% \fbox{\hbox to #[width]{\color{#[color]}#[content]}}}
% |mshow|cfbox
% \end{example}
% \smallskip
%
% \TeX's weird |#{| argument can be used as well:
% \named\def\cbox #[color] to #[width]#{^^A
% \hbox to #[width]\bgroup\color{#[color]}\let\next= }
% \begin{example}[label=Weird arguments]
% \def\cbox #1 to #2#{\hbox to #2\bgroup\color{#1}\let\next= }
% \named\def\cbox #[color] to #[width]#{%
% \hbox to #[width]\bgroup\color{#[color]}\let\next= }
% |mshow|cbox
% \end{example}
% \smallskip
%
% {\NamedDelim XX
% \named\xdef\test{\string#[arg]}}
% \begin{example}[commandchars=/<>, label=
% \texttt{\string\edef} workaround \ref{sec:edef wa1}]
% \edef\test{\string#[arg]}
% \NamedDelim || /global/linenofalse
% \named\edef\test{\string#[arg]} /global/linenofalse
% \NamedDelim []
% /mshow/test
% \end{example}
% \smallskip
%
% \named\edef\test#[arg]{\iffalse{\fi\string}#[arg]}
% \begin{example}[label=
% \texttt{\string\edef} workaround \ref{sec:edef wa2}]
% \edef\test#1{\string}#1}
% \named\edef\test#[arg]{\iffalse{\fi\string}#[arg]}
% |mshow|test
% \end{example}
% \smallskip
%
% \named\edef\test#[arg]{\string{#[arg]\iffalse}\fi}
% \begin{example}[label=
% \texttt{\string\edef} workaround \ref{sec:edef wa3}]
% \edef\test#1{\string{#1}
% \named\edef\test#[arg]{\string{#[arg]\iffalse}\fi}
% |mshow|test
% \end{example}
% \smallskip
%
% \section{Interesting\protect\footnotemark\ examples}
% \footnotetext{Terms and Conditions may apply.}
%
% These examples shows a few more elaborate ways to use \pkg{namedef}.
%
% \subsection{Extended \cs{newcommand}}
% \label{sec:newcommand}
%
% Here's an implementation to allow the syntax of \pkg{namedef} in
% \cs{newcommand}. It uses \pkg{xparse} to handle optional arguments,
% and uses \cs{newcommand} itself to define (possibly) optional argument
% handling, so the resulting command uses \LaTeXe's command parsing
% machinery.
%
% The syntax of the defined command is:
%
% |\newnamedcommand|\meta{*}\cs[no-index]{\meta{cmd}}\oarg{arg-list}^^A
% [\meta{opt}=\meta{default}]\marg{definition}
%
% \noindent where everything is the same as in regular \cs{newcommand},
% except for the optional arguments \meta{arg-list} and
% \meta{opt}=\meta{default}. \meta{arg-list} should be a
% comma-separated list of named parameters as \cs{named} would expect,
% and \meta{opt} is a named parameter, and \meta{default} is its default
% value. The usage would be something like:
%
% |\newnamedcommand\foo[#[one],#[two]][#[opt]=default]%|\par
% \quad|{#[one], #[two], and #[opt]}|
%
% \noindent which translates to:
%
% |\newcommand\foo[3][default]%|\par
% \quad|{#2, #3, and #1}|
%
% First, load \pkg{xparse} and \pkg{namedef}, and define the top-level
% commands to use a common |\NNC_newcommand:NnNnnn|.
% |\NNC_newcommand:NnNnnn| will store the mandatory arguments in
% a \texttt{seq} variable for easier access, then call
% |\__NNC_newcommand:NnNn| to do the \cs{newcommand} part of the job,
% and |\__NNC_named_def:nNnn| to \cs{named} part.
% |\new...|, |\renew...|, and |\provide...| versions are defined, but
% since a \cs{def} is used later with no checking, the behaviour is
% not exactly the same as you'd get with \cs{newcommand} in this regard.
%
% \begin{example}
% \usepackage{namedef}
% \usepackage{xparse}
% \ExplSyntaxOn
% \seq_new:N \l__NNC_args_seq
% \scan_new:N \s__NNC
% \NewDocumentCommand \newnamedcommand { s m o o m }
% { \NNC_newcommand:NnNnnn \newcommand {#1} #2 {#3} {#4} {#5} }
% \NewDocumentCommand \renewnamedcommand { s m o o m }
% { \NNC_newcommand:NnNnnn \renewcommand {#1} #2 {#3} {#4} {#5} }
% \NewDocumentCommand \providenamedcommand { s m o o m }
% { \NNC_newcommand:NnNnnn \providecommand {#1} #2 {#3} {#4} {#5} }
% \named \cs_new_protected:Npn \NNC_newcommand:NnNnnn
% #[newcmd] #[star] #[cmd] #[args] #[opt] #[defn]
% {
% \seq_clear:N \l__NNC_args_seq
% \IfValueT {#[args]}
% { \seq_set_from_clist:Nn \l__NNC_args_seq {#[args]} }
% \__NNC_newcommand:NnNn #[newcmd] {#[star]} #[cmd] {#[opt]}
% \__NNC_named_def:nNnn {#[star]} #[cmd] {#[opt]} {#[defn]}
% }
% \end{example}
%
% |\__NNC_newcommand:NnNn| does the \cs{newcommand} part of the job. It
% takes the arguments read in by \pkg{xparse}, and translates them into
% the \cs{newcommand} syntax. The number of items in the |#[args]|
% parameter is counted and left within brackets, and the default value
% of the optional argument is also left within another pair of brackets.
% This step is executed with an empty definition because the named
% parameters will cause havoc in \cs{newcommand}.
%
% \begin{example}[firstnumber=last]
% \named \cs_new_protected:Npn \__NNC_newcommand:NnNn
% #[newcmd] #[star] #[cmd] #[opt]
% {
% \use:x
% {
% \exp_not:N #[newcmd]
% \IfBooleanT {#[star]} { * }
% \exp_not:N #[cmd]
% \seq_if_empty:NF \l__NNC_args_seq
% { [ \seq_count:N \l__NNC_args_seq ] }
% \IfValueT {#[opt]} { [ \__NNC_opt_value:w #[opt] \s__NNC ] }
% { }
% }
% }
% \cs_new:Npn \__NNC_opt_value:w #1 = #2 \s__NNC {#2}
% \end{example}
%
% Now |\__NNC_named_def:nNnn| will do the \cs{named} part.
% First the |#[star]| argument (if not present) becomes \cs{long}, and
% then comes \cs{named} and \cs{def}. Then, if an optional argument was
% given, the command we need to define is |\\foo| rather than |\foo|, so
% use take care of that with \cs{token_to_str:N}, and then leave the
% named parameter given for the optional argument within brackets.
% If there's no optional argument, we just define |#[cmd]| (pretty
% boring). Then we call \cs{seq_use:Nn} on the mandatory arguments to
% lay them flat for \cs{named}, and then the parameter text (|#[defn]|),
% unexpanded.
%
% \begin{example}[firstnumber=last]
% \named \cs_new_protected:Npn \__NNC_named_def:nNnn
% #[star] #[cmd] #[opt] #[defn]
% {
% \use:x
% {
% \IfBooleanF {#[star]} { \long }
% \named \def
% \IfValueTF {#[opt]}
% {
% \exp_not:c { \token_to_str:N #[cmd] }
% [ \exp_not:o { \__NNC_opt_name:w #[opt] \s__NNC } ]
% }
% { \exp_not:N #[cmd] }
% \seq_use:Nn \l__NNC_args_seq { }
% { \exp_not:n {#[defn]} }
% }
% }
% \cs_new:Npn \__NNC_opt_name:w #1 = #2 \s__NNC {#1}
% \ExplSyntaxOff
% \end{example}
%
% \end{documentation}
%
% \begin{implementation}
%
% \section{\pkg{namedef} Implementation}
%
% \begin{macrocode}
%<*package>
%<@@=namedef>
% \end{macrocode}
%
% \subsection{Loading}
%
% \begin{macro}{\@@_end_package_hook:}
% Load \pkg{expl3}, either through \cs{RequirePackage} or through
% inputting the generic loader, depending on the format in use
% (copied from Bruno Le Floch's \pkg{gtl}).
% \begin{macrocode}
\begingroup\expandafter\expandafter\expandafter\endgroup
\expandafter\ifx\csname RequirePackage\endcsname\relax
\input expl3-generic.tex
\else
\RequirePackage{expl3}[2018-05-15]
\fi
\ExplSyntaxOn
\cs_if_exist:NTF \ProvidesExplPackage
{
\cs_new_eq:NN \@@_end_package_hook: \prg_do_nothing:
\ExplSyntaxOff
\ProvidesExplPackage
}
{
\cs_new_eq:NN \@@_end_package_hook: \ExplSyntaxOff
\group_begin:
\ExplSyntaxOff
\cs_set_protected:Npn \@@_tmp:w #1#2#3#4
{
\group_end:
\tl_gset:cx { ver @ #1 . sty } { #2 ~ v#3 ~ #4 }
\cs_if_exist_use:NF \wlog { \iow_log:x }
{ Package: ~ #1 ~ #2 ~ v#3 ~ #4 }
}
\@@_tmp:w
}
{namedef} {\namedefDate} {\namedefVersion}
{Named parameters in TeX definitions (PHO)}
% \end{macrocode}
% \end{macro}
%
% \subsection{Declarations}
%
% \begin{macro}{\flag @@_parm_count}
% A flag (mis)used as a counter to keep track of the parameter number.
% \begin{macrocode}
\flag_new:n { @@_parm_count }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\c_@@_prefix_tl}
% A prefix to use as name space for temporary macros.
% \begin{macrocode}
\tl_const:Nn \c_@@_prefix_tl { namedef~parm~-> }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\l_@@_macro_tl}
% A token list to store the name of the macro meing defined for error
% messages.
% \begin{macrocode}
\tl_new:N \l_@@_macro_tl
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\q_@@_mark,\q_@@_stop}
% Quarks used throughout the package.
% \begin{macrocode}
\quark_new:N \q_@@_mark
\quark_new:N \q_@@_stop
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\s_@@}
% Scan mark used to skip code.
% \begin{macrocode}
\scan_new:N \s_@@
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_skip_to_scan_mark:w, \@@_skip_to_scan_mark:nw}
% Consume everything up to \cs{s_@@}.
% \begin{macrocode}
\cs_new:Npn \@@_skip_to_scan_mark:w #1 \s_@@ { }
\cs_new:Npn \@@_skip_to_scan_mark:nw #1 #2 \s_@@ {#1}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_tmp:w}
% A scratch macro.
% \begin{macrocode}
\cs_new_eq:NN \@@_tmp:w ?
% \end{macrocode}
% \end{macro}
%
% \subsection{The top-level \cs{named} macro}
%
% \begin{macro}{\named}
% \begin{macro}{\@@_grab_prefix:nN}
% Starts scanning ahead for prefixes and the definition
% command. Once finished the scanning of prefixes, call
% \cs{@@_replace_named:nNnn} to do the heavy lifting.
% \begin{macrocode}
\cs_new_protected:Npn \named { \@@_grab_prefix:nN { } }
\cs_new_protected:Npn \@@_grab_prefix:nN #1 #2
{
\@@_if_prefix:NTF #2
{ \@@_grab_prefix:nN }
{ \@@_detect_prefixes:Nn \@@_kill_outer:nN }
{ #1#2 }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}[pTF]{\@@_if_prefix:N}
% Checks against a list of valid prefixes and returns |true| or
% |false| accordingly.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_prefix:N #1 { TF }
{
\if_int_compare:w 0
\if_meaning:w \tex_protected:D #1 1 \fi:
\if_meaning:w \tex_global:D #1 1 \fi:
\if_meaning:w \tex_outer:D #1 1 \fi:
\if_meaning:w \tex_long:D #1 1 \fi:
\if_meaning:w \scan_stop: #1 1 \fi:
= 1 \exp_stop_f:
\prg_return_true:
\else:
\prg_return_false:
\fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_detect_prefixes:Nn}
% \begin{macro}[rEXP]{\@@_extract_prefixes:w}
% \begin{macro}[rEXP]{
% \@@_extract_protected:n, \@@_extract_protected_aux:w,
% \@@_extract_long:n, \@@_extract_long_aux:w,
% \@@_extract_outer:n, \@@_extract_outer_aux:w,
% }
% Defines a scratch macro \cs{@@_tmp:w} and queries its prefixes, then
% forwards them to the the next macro to perform the parameter
% replacement and definition.
%
% This code would be quite a lot simpler if \cs{outer} didn't exist.
% First extract the meaning of \cs{@@_tmp:w}, and pass the prefixes
% (before ``|macro:|'') to \cs{@@_extract_prefixes:w}, and then to
% \cs{@@_extract_protected:n}, \cs{@@_extract_long:n}, and
% \cs{@@_extract_outer:n} in turn to check if each of these prefixes
% is there.
%
% \cs{global} can't be checked this way because it's different from
% other prefixes in the sense that it affects the definition \emph{at
% the time} of the definition, rather than at the time it is used.
% I don't know if it's possible to detect a \cs{global} after it's
% already consumed by \TeX.
%
% \TODO{\cs{afterassignment} tokens are lost. It would be nice if
% it were possible to retrieve it and save until later.}
% \begin{macrocode}
\cs_new_protected:Npn \@@_detect_prefixes:Nn #1 #2
{
\cs_set_nopar:Npn \@@_tmp:w { }
\use:x
{
\exp_not:N #1
{
\exp_after:wN \exp_after:wN
\exp_after:wN \@@_extract_prefixes:w
\exp_after:wN \token_to_meaning:N
\cs:w @@_tmp:w \cs_end: \s_@@
\exp_not:n {#2}
}
}
}
\use:x
{
\cs_new:Npn \exp_not:N \@@_extract_prefixes:w ##1
\tl_to_str:n { macro: } ##2 \s_@@
{
\exp_not:N \@@_extract_protected:n {##1}
\exp_not:N \@@_extract_long:n {##1}
\exp_not:N \@@_extract_outer:n {##1}
}
}
\cs_set_protected:Npn \@@_tmp:w #1 #2
{
\use:x
{
\cs_new:cpn { @@_extract_#1:n } ####1
{
\exp_not:c { @@_extract_#1_aux:w } ####1
\token_to_str:N #2 \scan_stop: \token_to_str:N #2 \s_@@
}
\cs_new:cpn { @@_extract_#1_aux:w } ####1
\token_to_str:N #2 ####2 \token_to_str:N #2 ####3 \s_@@
{
\exp_not:N \if_meaning:w \scan_stop: ####2
\exp_not:N \else:
\exp_not:c { tex_#1:D }
\exp_not:N \fi:
}
}
}
\@@_tmp:w { protected } { \protected }
\@@_tmp:w { long } { \long }
\@@_tmp:w { outer } { \outer }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Main routine}
%
% \begin{macro}{\@@_kill_outer:nN}
% \begin{macro}{\@@_start:nNp, \@@_replace_named:nNnn}
% \begin{macro}{\@@_replace_parameter:Nn, \@@_parameter_output:nnw}
% \begin{macro}{\@@_handle_parameter:nN}
% \begin{macro}{\@@_define:nnnN}
% Here we play dirty: abuse the fact that \cs{exp_not:N} temporarily
% makes the \cs{noexpand}ed control sequence temporarily equal to
% \cs{relax}. But rather than using it in an \cs{edef} or whatnot,
% hit \cs{exp_not:N} with \cs{exp_after:wN}, and then quickly grab
% it with \cs{@@_start:nNp}, so it's safe to grab it, even if it's
% \cs{outer}. If that wasn't bad enough, do it once again to make
% it equal to \cs{relax} in the scope of \cs{@@_replace_named:nNnn}
% so that it doesn't blow up.
%
% \TODO{Currently |\named\def{\foo}{bar}| works, but perhaps it
% shouldn't.}
% \begin{macrocode}
\cs_new_protected:Npn \@@_kill_outer:nN #1
{
\cs_set:Npn \@@_tmp:w { \@@_start:nNp {#1} }
\exp_after:wN \@@_tmp:w \exp_not:N
}
\cs_new_protected:Npn \@@_start:nNp #1 #2 #3 #
{
\group_begin:
\int_set:Nn \tex_escapechar:D { `\\ }
\exp_after:wN \cs_set_eq:NN \exp_not:N #2 \scan_stop:
\@@_replace_named:nNnn {#1} #2 {#3}
}
% \end{macrocode}
%
% Here the actual replacement of named parameters by numbered ones
% takes place. A group is started to revert the flag and all the
% defined temporary macros.
%
% \cs{@@_replace_parameter:Nn} \cs{@@_in_parameter:nN} starts
% replacing a dummy macro in the generic parameter replacement routine
% by the macro which counts the parameters and aliases the named
% parameters with numbered ones. Finally it starts
% \cs{@@_replace_parm:Nn}, which scans the \meta{parameter~text} for
% the named parameters and replaces them by numbered ones. The second
% output argument of \cs{@@_replace_parm:Nn} is a list of definitions
% which assign a number to each named parameter so that they can be
% used in the next step.
%
% \cs{@@_replace_parameter:Nn} \cs{@@_in_replacement:nN} then starts
% by replacing the same dummy macro by one which will replace the
% named parameter by its number. Again \cs{@@_replace_parm:Nn} is
% started, and its output is the already-processed part of the
% \meta{replacement~text}.
%
% The output of both steps is inserted after \cs{@@_define:nnnN} (it's
% missing two arguments in the definition of
% \cs{@@_replace_named:nNnn}). After all that is done, all the named
% parameters were replaced by numbered ones, so \cs{@@_define:nnnN}
% can do its thing.
%
% A final quark is put in the input stream for recovery from errors.
% In a successful run this quark is removed by \cs{@@_define:nnnN}.
% \begin{macrocode}
\cs_new_protected:Npn \@@_replace_named:nNnn #1 #2 #3 #4
{
\tl_set:Nx \l_@@_macro_tl { \token_to_str:N #2 }
\@@_replace_parameter:Nn \@@_in_parameter:nN {#3}
\@@_replace_parameter:Nn \@@_in_replacement:nN {#4}
\@@_define:nnnN {#1} #2
\s_@@
}
\cs_new_protected:Npn \@@_define:nnnN #1 #2 #3 #4
{
\group_end:
#3#4#2{#1}
}
\cs_new_protected:Npn \@@_replace_parameter:Nn #1 #2
{
\cs_set_eq:NN \@@_handle_parameter:nN #1
\@@_replace_parm:Nn \@@_parameter_output:nnw {#2}
}
\cs_new_eq:NN \@@_handle_parameter:nN ?
\cs_new_protected:Npn \@@_parameter_output:nnw #1 #2
#3 \@@_define:nnnN
{ #2 #3 \@@_define:nnnN {#1} }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_in_parameter:nN, \@@_in_replacement:nN}
% These two functions handle the named parameters when they are found
% in the \meta{parameter~text} and \meta{replacement~text},
% respectively.
%
% \cs{@@_in_parameter:nN} checks if the named parameter already exists
% (with \cs{relax} being |true|) and, in such case, throws an error
% and inserts the number already set for that named parameter.
% Otherwise the parameter is \cs{let} to
% \cs{relax} so that if it is found later an error is issued. Setting
% a macro to \cs{relax} is an expandable way to define it (the same
% approach as in \pkg{l3flag}). After that,
% the \cs{flag @@_parm_count} is raised once and its height is used as
% the parameter number. The current parameter tokens and the parameter
% number are flushed to the first (left) output slot, and a definition
% |\cs_set:cpn {|\cs{c_@@_prefix_tl}~\meta{name}|} {|\meta{number}|}|
% is appended to the second (right) output slot so that the names can
% be used in the \meta{replacement~text}.
%
% In case of a repeated parameter it is tricky to do anything
% sensible. In a normal definition, when \TeX{} sees a repeated
% parameter number (like in |\def\foo#1#1{}|) it just uses the wrong
% number to a parameter number not yet taken, or ignores the parameter
% if there's already nine before that. However here we can't guess
% the name of the next parameter, so we can't do much. The easiest
% way out is to just use the same parameter number as before and go
% on with out job: at the end, \TeX{} will complain again about this.
% \begin{macrocode}
\cs_new:Npn \@@_in_parameter:nN #1
{
\if_cs_exist:w \c_@@_prefix_tl #1 \cs_end:
\exp_after:wN \use_i:nn
\else:
\exp_after:wN \use_ii:nn
\fi:
{ \msg_expandable_error:nnn { namedef } { repeated-parm } {#1} }
{
\exp_after:wN \use_none:n \cs:w \c_@@_prefix_tl #1 \cs_end:
\flag_raise:n { @@_parm_count }
}
\exp_args:Nf \@@_append_output:nnNwnn
{ \flag_height:n { @@_parm_count } }
{#1}
}
% \end{macrocode}
%
% \cs{@@_in_replacement:nN} also checks if the named parameter exists,
% however now it will be \emph{not} be \cs{relax}, but the number
% defined earlier, so \cs{cs_if_exist:cTF} can be safely used. If the
% parameter does not exist it was never declared in the
% \meta{parameter~text} (somewhat like |\def#1{#2}|), then raise an
% error and abort.
% Otherwise just flush |#|\meta{number}.
% \begin{macrocode}
\cs_new:Npn \@@_in_replacement:nN #1 #2
{
\cs_if_exist:cTF { \c_@@_prefix_tl #1 }
{
\exp_args:Nf \@@_append_output:nnNwnn
{ \use:c { \c_@@_prefix_tl #1 } }
{ }
}
{
\msg_expandable_error:nnn { namedef } { unknown-parm } {#1}
\exp_args:Ne \@@_append_output:nnNwnn
{ #2 \@@_begin_name_token: #1 \@@_end_name_token: }
{ \cs_end: { } \use_none:nn }
}
#2
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Scanning routine}
%
% \begin{macro}[EXP]{\@@_replace_parm:Nn}
% \begin{macro}[EXP]{\@@_replace_loop:w}
% \begin{macro}[EXP]{\@@_replace_end:wnn, \@@_flush:nw}
% \begin{macro}[EXP]{\@@_append_output:nnNwnn}
% \begin{macro}[EXP]{\@@_abort_definition:w}
% \cs{@@_replace_parm:Nn} uses the same looping principle as in
% \pkg{l3tl}'s \cs{__tl_act:NNNnn}. It scans the input (here, the
% \meta{parameter~text} and \meta{replacement~text}, separately) token
% by token, differentiating spaces, braced tokens (groups), and
% \enquote{normal} tokens.
% \begin{macrocode}
\cs_new:Npn \@@_replace_parm:Nn #1 #2
{
\exp_after:wN #1
\exp:w
\@@_replace_loop:w #2
\q_@@_mark \q_@@_stop { } { }
}
\cs_new:Npn \@@_replace_loop:w #1 \q_@@_stop
{
\tl_if_head_is_N_type:nTF {#1}
{ \@@_replace_normal:N }
{
\tl_if_head_is_group:nTF {#1}
{ \@@_replace_group:n }
{ \@@_replace_space:w }
}
#1 \q_@@_stop
}
\cs_new:Npn \@@_replace_end:wnn \q_@@_stop #1 #2
{ \exp_end: {#1} {#2} }
\cs_new:Npn \@@_flush:nw #1
#2 \q_@@_stop #3 #4
{ \@@_replace_loop:w #2 \q_@@_stop { #3 #1 } {#4} }
% \end{macrocode}
%
% \cs{@@_append_output:nnNwnn} takes three arguments (a parameter
% number, a parameter name, and a parameter token) and the two output
% slots as |#5| and |#6|. It appends the parameter token and number
% to the first output slot, and a definition
% |\cs_set:cpn {|\cs{c_@@_prefix_tl}~\meta{name}|} {|\meta{number}|}|
% to the second output slot.
% \begin{macrocode}
\cs_new:Npn \@@_append_output:nnNwnn #1 #2 #3
#4 \q_@@_stop #5 #6
{
\@@_replace_loop:w #4 \q_@@_stop
{ #5 #3#1 }
{ #6 \cs_set:cpn { \c_@@_prefix_tl #2 } {#1} }
}
% \end{macrocode}
%
% This macro doesn't really abort the definition at the time it's
% called because it's called from within an |f|-expansion context, so
% an attempt to end that prematurely will hardly end well. Instead
% it hijacks the process by inserting
% \cs{@@_skip_to_scan_mark:w} in the second output slot, so that
% the definition end as soon as the scanning ends.
% \TODO{Can be simplified further.}
% \begin{macrocode}
\cs_new:Npn \@@_abort_definition:w
#1 \q_@@_stop #2 #3
{
\@@_replace_loop:w #1 \q_@@_stop
{#2} { #3 \group_end: \@@_skip_to_scan_mark:w }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}[EXP]{\@@_replace_normal:N}
% \begin{macro}[EXP]{\@@_replace_group:n, \@@_flush_group:nnw}
% \begin{macro}[EXP]{\@@_replace_space:w}
% Spaces are just passed through: they aren't parameter tokens nor
% valid delimiters, so need no special treatment.
%
% Braced tokens are recursively scanned by \cs{@@_replace_parm:Nn},
% and the output is flushed inside a pair of braces (explicit catcode
% $1$ and $2$ tokens are normalised to |{|_$1$ and |}|_$2$,
% respectively)
% \TODO{Since \cs{__tl_act:NNNnn} isn't used anymore, this doesn't
% have to be |f|-expandable, so this restriciton can probably be
% lifted.}
%
% The remaining tokens are examined for their meaning. If the token
% is the quark \cs{q_@@_mark}, the scanning stops; if the token is a
% parameter token, what follows is examined with \cs{@@_grab_parm:Nw}
% to check if a replacement should be done; otherwise it's fluhsed to
% the output.
% \begin{macrocode}
\cs_new:Npn \@@_replace_normal:N #1
{
\token_if_eq_meaning:NNTF \q_@@_mark #1
{ \@@_replace_end:wnn }
{
\token_if_parameter:NTF #1
{ \@@_grab_parm:Nw }
{ \@@_flush:nw }
{#1}
}
}
\cs_new:Npn \@@_replace_group:n #1
{ \@@_replace_parm:Nn \@@_flush_group:nnw {#1} }
\cs_new:Npn \@@_flush_group:nnw #1 #2
{ \@@_flush:nw { {#1} } }
\exp_last_unbraced:NNo
\cs_new:Npn \@@_replace_space:w \c_space_tl
{ \@@_flush:nw { ~ } }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Parsing a parameter}
%
% \begin{macro}[EXP]{\@@_grab_parm:Nw}
% \begin{macro}[EXP]{\@@_grab_parm_aux:NNw, \@@_grab_parm_noop:NNw}
% \begin{macro}[EXP]{\@@_grab_parm_scan:NNw}
% \begin{macro}[EXP]{\@@_grab_parm_loop:nw, \@@_grab_parm_end:nw}
% \begin{macro}[EXP]{
% \@@_parm_get_normal:nN,
% \@@_parm_get_group:nn,
% \@@_parm_get_space:nw
% }
% These macros are the final pieces of the parameter replacement
% routine. \cs{@@_grab_parm:Nw} checks if the next token in the stream
% is a valid |N|-type. If it is, then \cs{@@_grab_parm_aux:NNw} checks
% if its character code is equal to \cs{@@_begin_name_token:}, and if
% it is, then call \cs{@@_grab_parm_scan:NNw} to scan ahead for the
% named parameter. In all other cases, the tokens grabbed are not
% named parameters, so they are flushed to the output.
% \begin{macrocode}
\cs_new:Npn \@@_grab_parm:Nw #1 #2 \q_@@_stop
{
\tl_if_head_is_N_type:nTF {#2}
{ \@@_grab_parm_aux:NNw }
{ \@@_flush:nw }
#1 #2 \q_@@_stop
}
\cs_new:Npn \@@_grab_parm_aux:NNw #1 #2
{
\exp_args:No \token_if_eq_charcode:NNTF
{ \@@_begin_name_token: } #2
{ \@@_grab_parm_scan:NNw }
{ \@@_grab_parm_noop:NNw }
#1 #2
}
% \end{macrocode}
%
% Here we have to take care not to flush \cs{q_@@_mark} to the output.
% \begin{macrocode}
\cs_new:Npn \@@_grab_parm_noop:NNw #1 #2
{
\token_if_eq_meaning:NNTF \q_@@_mark #2
{ \@@_flush:nw { #1 } #2 }
{ \@@_flush:nw { #1 #2 } }
}
% \end{macrocode}
%
% Here's the actual scanning routine. It would be a lot faster to
% just define a delimiter macro with the right tokens, however this
% would have two consequences: first, missing delimiters would be
% rather catastrophic, and second, the catcode of the |end| delimiter
% would need to match. With a manual scanning, we can kill off those
% two items at the cost of some performance.
%
% The scanning routine is pretty standard: a looping macro, an output
% slot, the tokens to be scanned, \cs{q_@@_stop} to delimit the whole
% thing (\cs{q_@@_mark} is redundant here: the one from the main
% scanning rountine is already in place), and the parameter token
% safely stored at the end:
% \begin{macrocode}
\cs_new:Npn \@@_grab_parm_scan:NNw #1 #2 #3 \q_@@_stop
{ \@@_grab_parm_loop:nw { } #3 \q_@@_stop {#1} }
\cs_new:Npn \@@_grab_parm_loop:nw #1 #2 \q_@@_stop
{
\tl_if_head_is_N_type:nTF {#2}
{ \@@_parm_get_normal:nN }
{
\tl_if_head_is_group:nTF {#2}
{ \@@_parm_get_group:nn }
{ \@@_parm_get_space:nw }
}
{#1} #2 \q_@@_stop
}
% \end{macrocode}
%
% If the end of the token list was reached (signalled by
% \cs{q_@@_mark}), the |end| delimiter is missing. If so, raise an
% error and recover as gracefully as possible. Otherwise, if the
% current token is the same character as the \cs{@@_end_name_token:},
% then the scaning is complete.
% \begin{macrocode}
\cs_new:Npn \@@_parm_get_normal:nN #1 #2
{
\token_if_eq_meaning:NNTF \q_@@_mark #2
{
\msg_expandable_error:nn { namedef } { missing-end }
\@@_grab_parm_end:nw {#1} #2
}
{
\exp_args:No \token_if_eq_charcode:NNTF
{ \@@_end_name_token: } #2
{ \@@_grab_parm_end:nw {#1} }
{ \@@_grab_parm_loop:nw {#1#2} }
}
}
\cs_new:Npn \@@_parm_get_group:nn #1 #2
{ \@@_grab_parm_loop:nw { #1{#2} } }
\cs_new:Npn \@@_parm_get_space:nw #1 ~
{ \@@_grab_parm_loop:nw { #1~ } }
\cs_new:Npn \@@_grab_parm_end:nw #1 #2 \q_@@_stop #3
{ \@@_handle_parameter:nN {#1} #3 #2 \q_@@_stop }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Changing delimiters}
%
% \begin{macro}[EXP]{\@@_begin_name_token:, \@@_end_name_token:}
% These two hold the delimiters for named parameters. They are
% initialised here so that we can use \cs{named} (just to show off)
% ahead, and they are redefined every time \cs{NamedDelim} is used.
% \begin{macrocode}
\cs_new:Npn \@@_begin_name_token: { [ }
\cs_new:Npn \@@_end_name_token: { ] }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NamedDelim, \globalNamedDelim}
% \begin{macro}{\@@_named_delim_set:Nnn}
% \begin{macro}{\@@_check_delimiter:n}
% At this point everything for the \cs{named} macro is set up,
% so we can start using it. Now just some syntactic sugar to
% allow the modification of the named argument delimiters.
%
% Both \cs{NamedDelim} and \cs{globalNamedDelim} take two arguments,
% an initial and final delimiters for the named argument. Both
% delimters should be single non-control sequence tokens. Some of
% these restrictions could be lifted, but it's not really necessary
% because the choice of delimiter should not influence the working of
% the code, only the readability. A code with |\NamedDelim[]| and
% |\def\test#[1][#[2]]{[#[1]][#[2]]}| should work without problems;
% the only restriction is that \cs{@@_end_name_token:} (\emph{i.e.,}
% the second argument of \cs{NamedDelim}) cannot appear in the
% parameter name.
% \begin{macrocode}
\cs_new_protected:Npn \NamedDelim
{ \@@_named_delim_set:Nnn \cs_set:Npn }
\cs_new_protected:Npn \globalNamedDelim
{ \@@_named_delim_set:Nnn \cs_gset:Npn }
\named \cs_new_protected:Npn \@@_named_delim_set:Nnn
#[def] #[begin] #[end]
{
\tl_trim_spaces_apply:nN {#[begin]} \@@_check_delimiter:n
\tl_trim_spaces_apply:nN {#[end]} \@@_check_delimiter:n
#[def] \@@_begin_name_token: {#[begin]}
#[def] \@@_end_name_token: {#[end]}
\s_@@
}
% \end{macrocode}
%
% Here the \meta{token} is checked against a bunch of forbidden cases.
% \begin{macrocode}
\named \cs_new_protected:Npn \@@_check_delimiter:n #[token]
{
% \end{macrocode}
% It can't be empty (nor a space: they were trimmed above):
% \begin{macrocode}
\tl_if_empty:nT {#[token]}
{
\msg_error:nn { namedef } { blank-delim }
\@@_skip_to_scan_mark:w
}
% \end{macrocode}
% It can't be multiple tokens:
% \begin{macrocode}
\tl_if_single_token:nF {#[token]}
{
\msg_error:nnn { namedef } { multi-token-delim } {#[token]}
\@@_skip_to_scan_mark:w
}
% \end{macrocode}
% It can't be an implicit begin- or end-group token:
% \begin{macrocode}
\bool_lazy_or:nnT
{ \token_if_group_begin_p:N #[token] }
{ \token_if_group_end_p:N #[token] }
{
\msg_error:nnx { namedef } { group-delim }
{ \cs_to_str:N #[token] }
\@@_skip_to_scan_mark:w
}
% \end{macrocode}
% It can't be a parameter token:
% \TODO{Maybe it can, but maybe it will be ambiguous. Must check.}
% \begin{macrocode}
\token_if_parameter:NT #[token]
{
\msg_error:nnx { namedef } { param-delim }
{ \cs_to_str:N #[token] }
\@@_skip_to_scan_mark:w
}
% \end{macrocode}
% It can't be a control sequence:
% \TODO{It probably can, but I'm not sure I want to allow this.}
% \begin{macrocode}
\token_if_cs:NT #[token]
{
\msg_error:nnx { namedef } { macro-delim }
{ \c_backslash_str \cs_to_str:N #[token] }
\@@_skip_to_scan_mark:w
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Messages}
%
% Now we define the messages used throughout the package.
%
% \begin{macrocode}
\msg_new:nnn { namedef } { repeated-parm }
{
Parameter~\iow_char:N\#[#1]~duplicated~in~
definition~of~\l_@@_macro_tl.
}
\msg_new:nnn { namedef } { unknown-parm }
{
Unknown~parameter~\iow_char:N\#[#1]~in~
definition~of~\l_@@_macro_tl.
}
\msg_new:nnn { namedef } { multi-token-delim }
{
Invalid~\iow_char:N\\named~parameter~delimiter~`#1'.~
Delimiters~for~named~parameters~must~be~single~tokens.
}
\msg_new:nnn { namedef } { macro-delim }
{
Invalid~\iow_char:N\\named~parameter~delimiter~`#1'.~
Delimiters~for~named~parameters~can't~be~control~sequence~nor~
active~characters.
}
\msg_new:nnn { namedef } { group-delim }
{
Invalid~\iow_char:N\\named~parameter~delimiter~`\iow_char:N\\#1'.~
Delimiters~for~named~parameters~can't~be~
begin-/end-group~character~tokens.
}
\msg_new:nnn { namedef } { blank-delim }
{
Invalid~\iow_char:N\\named~parameter~delimiter.~
Delimiters~for~named~parameters~can't~be~empty~nor~space~tokens.
}
\msg_new:nnn { namedef } { param-delim }
{
Invalid~\iow_char:N\\named~parameter~delimiter.~
Delimiters~for~named~parameters~can't~be~parameter~tokens.
}
\msg_new:nnn { namedef } { missing-end }
{
Missing~\@@_end_name_token:\iow_char:N\ inserted~in~
definition~of~\l_@@_macro_tl.
}
% \end{macrocode}
%
% Now execute the end package hook (in \LaTeX{} it is
% \cs{prg_do_nothing:}, but in plain \TeX{} it does \cs{ExplSyntaxOff}).
%
% \begin{macrocode}
\@@_end_package_hook:
% \end{macrocode}
%
% \iffalse
%</package>
% \fi
%
% \end{implementation}
%
%^^A \par\CodedocExplainEXP
%^^A \par\CodedocExplainREXP
%^^A \par\CodedocExplainTF
%
% \PrintIndex
%
\endinput
|