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|
% \iffalse meta-comment
%
%% File: l3text.dtx
%
% Copyright (C) 2020,2021 The LaTeX Project
%
% It may be distributed and/or modified under the conditions of the
% LaTeX Project Public License (LPPL), either version 1.3c of this
% license or (at your option) any later version. The latest version
% of this license is in the file
%
% https://www.latex-project.org/lppl.txt
%
% This file is part of the "l3kernel bundle" (The Work in LPPL)
% and all files in that bundle must be distributed together.
%
% -----------------------------------------------------------------------
%
% The development version of the bundle can be found at
%
% https://github.com/latex3/latex3
%
% for those people who are interested.
%
%<*driver>
\documentclass[full,kernel]{l3doc}
\begin{document}
\DocInput{\jobname.dtx}
\end{document}
%</driver>
% \fi
%
% \title{^^A
% The \textsf{l3text} package: text processing^^A
% }
%
% \author{^^A
% The \LaTeX{} Project\thanks
% {^^A
% E-mail:
% \href{mailto:latex-team@latex-project.org}
% {latex-team@latex-project.org}^^A
% }^^A
% }
%
% \date{Released 2021-05-27}
%
% \maketitle
%
% \begin{documentation}
%
% This module deals with manipulation of (formatted) text; such material is
% comprised of a restricted set of token list content. The functions provided
% here concern conversion of textual content for example in case changing,
% generation of bookmarks and extraction to tags. All of the major functions
% operate by expansion. Begin-group and end-group tokens in the \meta{text}
% are normalized and become |{| and |}|, respectively.
%
% \section{Expanding text}
%
% \begin{function}[EXP, added = 2020-01-02]{\text_expand:n}
% \begin{syntax}
% \cs{text_expand:n} \Arg{text}
% \end{syntax}
% Takes user input \meta{text} and expands the content.
% Protected commands (typically
% formatting) are left in place, and no processing takes place of
% math mode material (as delimited by pairs given in
% \cs{l_text_math_delims_tl} or as the argument to commands listed
% in \cs{l_text_math_arg_tl}). Commands which are neither engine-
% nor \LaTeX{} protected are expanded exhaustively.
% Any commands listed in \cs{l_text_expand_exclude_tl},
% \cs{l_text_accents_tl} and \cs{l_text_letterlike_tl} are excluded from
% expansion.
% \end{function}
%
% \begin{function}[added = 2020-01-22]
% {
% \text_declare_expand_equivalent:Nn ,
% \text_declare_expand_equivalent:cn
% }
% \begin{syntax}
% \cs{text_declare_expand_equivalent:Nn} \meta{cmd} \Arg{replacement}
% \end{syntax}
% Declares that the \meta{replacement} tokens should be used whenever the
% \meta{cmd} (a single token) is encountered. The \meta{replacement} tokens
% should be expandable.
% \end{function}
%
% \section{Case changing}
%
% \begin{function}[EXP, added = 2019-11-20, updated = 2020-02-24]
% {
% \text_lowercase:n, \text_uppercase:n, \text_titlecase:n,
% \text_titlecase_first:n,
% \text_lowercase:nn, \text_uppercase:nn, \text_titlecase:nn,
% \text_titlecase_first:nn
% }
% \begin{syntax}
% \cs{text_uppercase:n} \Arg{tokens}
% \cs{text_uppercase:nn} \Arg{language} \Arg{tokens}
% \end{syntax}
% Takes user input \meta{text} first applies \cs{text_expand}, then
% transforms the case of character tokens as specified by the
% function name. The category code of letters are not changed by this
% process (at least where they can be represented by the engine as a single
% token: $8$-bit engines may require active characters).
% \end{function}
%
% Upper- and lowercase have the obvious meanings. Titlecasing may be regarded
% informally as converting the first character of the \meta{tokens} to
% uppercase and the rest to lowercase. However, the process is more complex
% than this as there are some situations where a single lowercase character
% maps to a special form, for example \texttt{ij} in Dutch which becomes
% \texttt{IJ}. The \texttt{titlecase_first} variant does not attempt
% any case changing at all after the first letter has been processed.
%
% Importantly, notice that these functions are intended for working with
% user \emph{text for typesetting}. For case changing programmatic data see
% the \pkg{l3str} module and discussion there of \cs{str_lowercase:n},
% \cs{str_uppercase:n} and \cs{str_foldcase:n}.
%
% Case changing does not take place within math mode material so for example
% \begin{verbatim}
% \text_uppercase:n { Some~text~$y = mx + c$~with~{Braces} }
% \end{verbatim}
% becomes
% \begin{verbatim}
% SOME TEXT $y = mx + c$ WITH {BRACES}
% \end{verbatim}
%
% The arguments of commands listed in \cs{l_text_case_exclude_arg_tl}
% are excluded from case changing; the latter are entirely non-textual
% content (such as labels).
%
% As is generally true for \pkg{expl3}, these functions are designed to
% work with Unicode input only. As such, UTF-8 input is assumed for
% \emph{all} engines. When used with \XeTeX{} or \LuaTeX{} a full range of
% Unicode transformations are enabled. Specifically, the standard mappings
% here follow those defined by the \href{http://www.unicode.org}^^A
% {Unicode Consortium} in \texttt{UnicodeData.txt} and
% \texttt{SpecialCasing.txt}. In the case of $8$-bit engines, mappings
% are provided for characters which can be represented in output typeset
% using the |T1|, |T2| and |LGR| font encodings.
% Thus for example \texttt{ä} can be
% case-changed using \pdfTeX{}. For \pTeX{} only the ASCII range is
% covered as the engine treats input outside of this range as east Asian.
%
% Language-sensitive conversions are enabled using the \meta{language}
% argument, and follow Unicode Consortium guidelines. Currently, the
% languages recognised for special handling are as follows.
% \begin{itemize}
% \item Azeri and Turkish (\texttt{az} and \texttt{tr}).
% The case pairs I/i-dotless and I-dot/i are activated for these
% languages. The combining dot mark is removed when lowercasing
% I-dot and introduced when upper casing i-dotless.
% \item German (\texttt{de-alt}).
% An alternative mapping for German in which the lowercase
% \emph{Eszett} maps to a \emph{gro\ss{}es Eszett}. Since there is
% a |T1| slot for the \emph{gro\ss{}es Eszett} in |T1|, this
% tailoring \emph{is} available with \pdfTeX{} as well as in the
% Unicode \TeX{} engines.
% \item Greek (\texttt{el}).
% Removes accents from Greek letters when uppercasing; titlecasing
% leaves accents in place. (At present this is implemented only
% for Unicode engines.)
% \item Lithuanian (\texttt{lt}).
% The lowercase letters i and j should retain a dot above when the
% accents grave, acute or tilde are present. This is implemented for
% lowercasing of the relevant uppercase letters both when input as
% single Unicode codepoints and when using combining accents. The
% combining dot is removed when uppercasing in these cases. Note that
% \emph{only} the accents used in Lithuanian are covered: the behaviour
% of other accents are not modified.
% \item Dutch (\texttt{nl}).
% Capitalisation of \texttt{ij} at the beginning of titlecased
% input produces \texttt{IJ} rather than \texttt{Ij}. The output
% retains two separate letters, thus this transformation \emph{is}
% available using \pdfTeX{}.
% \end{itemize}
%
% For titlecasing, note that there are two functions available. The
% function \cs{text_titlecase:n} applies (broadly) uppercasing to the first
% letter of the input, then lowercasing to the remainder. In contrast,
% \cs{text_titlecase_first:n} \emph{only} carries out the uppercasing operation,
% and leaves the balance of the input unchanged. Determining whether
% non-letter characters at the start of text should switch from upper- to
% lowercasing is controllable. When \cs{l_text_titlecase_check_letter_bool} is
% \texttt{true}, characters which are not letters (category code~$11$) are
% left unchanged and \enquote{skipped}: the first \emph{letter} is uppercased.
% (With $8$-bit engines, this is extended to active characters which form
% part of a multi-byte letter codepoint.) When
% \cs{l_text_titlecase_check_letter_bool} is \texttt{false}, the first
% character is uppercased, and the rest lowercased, irrespective of the nature
% of the character.
%
% \section{Removing formatting from text}
%
% \begin{function}[EXP, added = 2020-03-05, updated = 2020-05-14]{\text_purify:n}
% \begin{syntax}
% \cs{text_purify:n} \Arg{text}
% \end{syntax}
% Takes user input \meta{text} and expands as described for
% \cs{text_expand:n}, then removes all functions from the resulting
% text. Math mode material (as delimited by pairs given in
% \cs{l_text_math_delims_tl} or as the argument to commands listed in
% \cs{l_text_math_arg_tl}) is left contained in a pair of |$| delimiters.
% Non-expandable functions present in the \meta{text} must either have a
% defined equivalent (see \cs{text_declare_purify_equivalent:Nn}) or will
% be removed from the result. Implicit tokens are converted to their
% explicit equivalent.
% \end{function}
%
% \begin{function}[added = 2020-03-05]
% {
% \text_declare_purify_equivalent:Nn ,
% \text_declare_purify_equivalent:Nx
% }
% \begin{syntax}
% \cs{text_declare_purify_equivalent:Nn} \meta{cmd} \Arg{replacement}
% \end{syntax}
% Declares that the \meta{replacement} tokens should be used whenever the
% \meta{cmd} (a single token) is encountered. The \meta{replacement} tokens
% should be expandable.
% \end{function}
%
% \section{Control variables}
%
% \begin{variable}{\l_text_accents_tl}
% Lists commands which represent accents, and which are left unchanged
% by expansion. (Defined only for the \LaTeXe{} package.)
% \end{variable}
%
% \begin{variable}{\l_text_letterlike_tl}
% Lists commands which represent letters; these are left unchanged by
% expansion. (Defined only for the \LaTeXe{} package.)
% \end{variable}
%
% \begin{variable}{\l_text_math_arg_tl}
% Lists commands present in the \meta{text} where the argument of the
% command should be treated as math mode material. The treatment here is
% similar to \cs{l_text_math_delims_tl} but for a command rather than
% paired delimiters.
% \end{variable}
%
% \begin{variable}{\l_text_math_delims_tl}
% Lists pairs of tokens which delimit (in-line) math mode content; such
% content \emph{may} be excluded from processing.
% \end{variable}
%
% \begin{variable}{\l_text_case_exclude_arg_tl}
% Lists commands which are excluded from case changing.
% \end{variable}
%
% \begin{variable}{\l_text_expand_exclude_tl}
% Lists commands which are excluded from expansion.
% \end{variable}
%
% \begin{variable}{\l_text_titlecase_check_letter_bool}
% Controls how the start of titlecasing is handled: when \texttt{true}, the
% first \emph{letter} in text is considered. The standard setting is
% \texttt{true}.
% \end{variable}
%
% \end{documentation}
%
% \begin{implementation}
%
% \section{\pkg{l3text} implementation}
%
% \begin{macrocode}
%<*package>
% \end{macrocode}
%
% \begin{macrocode}
%<@@=text>
% \end{macrocode}
%
% \subsection{Internal auxiliaries}
%
% \begin{variable}{\s_@@_stop}
% Internal scan marks.
% \begin{macrocode}
\scan_new:N \s_@@_stop
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\q_@@_nil}
% Internal quarks.
% \begin{macrocode}
\quark_new:N \q_@@_nil
% \end{macrocode}
% \end{variable}
%
% \begin{macro}[pTF]{\@@_quark_if_nil:n}
% Branching quark conditional.
% \begin{macrocode}
\__kernel_quark_new_conditional:Nn \@@_quark_if_nil:n { TF }
% \end{macrocode}
% \end{macro}
%
% \begin{variable}{\q_@@_recursion_tail,\q_@@_recursion_stop}
% Internal recursion quarks.
% \begin{macrocode}
\quark_new:N \q_@@_recursion_tail
\quark_new:N \q_@@_recursion_stop
% \end{macrocode}
% \end{variable}
%
% \begin{macro}[EXP]{\@@_use_i_delimit_by_q_recursion_stop:nw}
% Functions to gobble up to a quark.
% \begin{macrocode}
\cs_new:Npn \@@_use_i_delimit_by_q_recursion_stop:nw
#1 #2 \q_@@_recursion_stop {#1}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[EXP]{\@@_if_recursion_tail_stop_do:Nn}
% Functions to query recursion quarks.
% \begin{macrocode}
\__kernel_quark_new_test:N \@@_if_recursion_tail_stop_do:Nn
% \end{macrocode}
% \end{macro}
%
% \subsection{Utilities}
%
% \begin{macro}[EXP]
% {
% \@@_token_to_explicit:N ,
% \@@_token_to_explicit_char:N ,
% \@@_token_to_explicit_cs:N ,
% \@@_token_to_explicit_cs_aux:N
% }
% \begin{macro}[EXP]{\@@_token_to_explicit:n}
% \begin{macro}[EXP]
% {
% \@@_token_to_explicit_auxi:w ,
% \@@_token_to_explicit_auxii:w ,
% \@@_token_to_explicit_auxiii:w
% }
% The idea here is to take a token and ensure that if it's an implicit
% char, we output the explicit version. Otherwise, the token needs to be
% unchanged. First, we have to split between control sequences and everything
% else.
% \begin{macrocode}
\group_begin:
\char_set_catcode_active:n { 0 }
\cs_new:Npn \@@_token_to_explicit:N #1
{
\if_catcode:w \exp_not:N #1
\if_catcode:w \scan_stop: \exp_not:N #1
\scan_stop:
\else:
\exp_not:N ^^@
\fi:
\exp_after:wN \@@_token_to_explicit_cs:N
\else:
\exp_after:wN \@@_token_to_explicit_char:N
\fi:
#1
}
\group_end:
% \end{macrocode}
% For control sequences, we can check for macros versus other cases using
% \cs{if_meaning:w}, then explicitly check for \tn{chardef} and
% \tn{mathchardef}.
% \begin{macrocode}
\cs_new:Npn \@@_token_to_explicit_cs:N #1
{
\exp_after:wN \if_meaning:w \exp_not:N #1 #1
\exp_after:wN \use:nn \exp_after:wN
\@@_token_to_explicit_cs_aux:N
\else:
\exp_after:wN \exp_not:n
\fi:
{#1}
}
\cs_new:Npn \@@_token_to_explicit_cs_aux:N #1
{
\bool_lazy_or:nnTF
{ \token_if_chardef_p:N #1 }
{ \token_if_mathchardef_p:N #1 }
{
\char_generate:nn {#1}
{ \char_value_catcode:n {#1} }
}
{#1}
}
% \end{macrocode}
% For character tokens, we need to filter out the implicit characters from
% those that are explicit. That's done here, then if necessary we work out
% the category code and generate the char. To avoid issues with alignment
% tabs, that one is done by elimination rather than looking up the code
% explicitly. The trick with finding the charcode is that the \TeX{}
% messages are either \texttt{the \meta{something} character \meta{char}}
% or \texttt{the \meta{type} \meta{char}}.
% \begin{macrocode}
\cs_new:Npn \@@_token_to_explicit_char:N #1
{
\if:w
\if_catcode:w ^ \exp_args:No \str_tail:n { \token_to_str:N #1 } ^
\token_to_str:N #1 #1
\else:
AB
\fi:
\exp_after:wN \exp_not:n
\else:
\exp_after:wN \@@_token_to_explicit:n
\fi:
{#1}
}
\cs_new:Npn \@@_token_to_explicit:n #1
{
\exp_after:wN \@@_token_to_explicit_auxi:w
\int_value:w
\if_catcode:w \c_group_begin_token #1 1 \else:
\if_catcode:w \c_group_end_token #1 2 \else:
\if_catcode:w \c_math_toggle_token #1 3 \else:
\if_catcode:w ## #1 6 \else:
\if_catcode:w ^ #1 7 \else:
\if_catcode:w \c_math_subscript_token #1 8 \else:
\if_catcode:w \c_space_token #1 10 \else:
\if_catcode:w A #1 11 \else:
\if_catcode:w + #1 12 \else:
4 \fi: \fi: \fi: \fi: \fi: \fi: \fi: \fi: \fi:
\exp_after:wN ;
\token_to_meaning:N #1 \s_@@_stop
}
\cs_new:Npn \@@_token_to_explicit_auxi:w #1 ; #2 \s_@@_stop
{
\char_generate:nn
{
\if_int_compare:w #1 < 9 \exp_stop_f:
\exp_after:wN \@@_token_to_explicit_auxii:w
\else:
\exp_after:wN \@@_token_to_explicit_auxiii:w
\fi:
#2
}
{#1}
}
\exp_last_unbraced:NNNNo \cs_new:Npn \@@_token_to_explicit_auxii:w
#1 { \tl_to_str:n { character ~ } } { ` }
\cs_new:Npn \@@_token_to_explicit_auxiii:w #1 ~ #2 ~ { ` }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}[EXP]{\@@_char_catcode:N}
% An idea from \pkg{l3char}: we need to get the category code of
% a specific token, not the general case.
% \begin{macrocode}
\cs_new:Npn \@@_char_catcode:N #1
{
\if_catcode:w \exp_not:N #1 \c_math_toggle_token
3
\else:
\if_catcode:w \exp_not:N #1 \c_alignment_token
4
\else:
\if_catcode:w \exp_not:N #1 \c_math_superscript_token
7
\else:
\if_catcode:w \exp_not:N #1 \c_math_subscript_token
8
\else:
\if_catcode:w \exp_not:N #1 \c_space_token
10
\else:
\if_catcode:w \exp_not:N #1 \c_catcode_letter_token
11
\else:
\if_catcode:w \exp_not:N #1 \c_catcode_other_token
12
\else:
13
\fi:
\fi:
\fi:
\fi:
\fi:
\fi:
\fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[EXP, TF]{\@@_if_expandable:N}
% Test for tokens that make sense to expand here: that is more
% restrictive than the engine view.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_expandable:N #1 { T , F , TF }
{
\token_if_expandable:NTF #1
{
\bool_lazy_any:nTF
{
{ \token_if_protected_macro_p:N #1 }
{ \token_if_protected_long_macro_p:N #1 }
{ \token_if_eq_meaning_p:NN \q_@@_recursion_tail #1 }
}
{ \prg_return_false: }
{ \prg_return_true: }
}
{ \prg_return_false: }
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Configuration variables}
%
% \begin{variable}{\l_text_accents_tl, \l_text_letterlike_tl}
% Special cases for accents and letter-like symbols, which in some cases will
% need to be converted further.
% \begin{macrocode}
\tl_new:N \l_text_accents_tl
\tl_set:Nn \l_text_accents_tl
{ \` \' \^ \~ \= \u \. \" \r \H \v \d \c \k \b \t }
\tl_new:N \l_text_letterlike_tl
\tl_set:Nn \l_text_letterlike_tl
{
\AA \aa
\AE \ae
\DH \dh
\DJ \dj
\IJ \ij
\L \l
\NG \ng
\O \o
\OE \oe
\SS \ss
\TH \th
}
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_text_case_exclude_arg_tl}
% Non-text arguments.
% \begin{macrocode}
\tl_new:N \l_text_case_exclude_arg_tl
\tl_set:Nn \l_text_case_exclude_arg_tl { \begin \cite \end \label \ref }
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_text_math_arg_tl}
% Math mode as arguments.
% \begin{macrocode}
\tl_new:N \l_text_math_arg_tl
\tl_set:Nn \l_text_math_arg_tl { \ensuremath }
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_text_math_delims_tl}
% Paired math mode delimiters.
% \begin{macrocode}
\tl_new:N \l_text_math_delims_tl
\tl_set:Nn \l_text_math_delims_tl { $ $ \( \) }
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_text_expand_exclude_tl}
% Commands which need not to expand.
% \begin{macrocode}
\tl_new:N \l_text_expand_exclude_tl
\tl_set:Nn \l_text_expand_exclude_tl
{ \begin \cite \end \label \ref }
% \end{macrocode}
% \end{variable}
%
% \begin{macro}{\l_@@_math_mode_tl}
% Used to control math mode output: internal as there is a dedicated
% setter.
% \begin{macrocode}
\tl_new:N \l_@@_math_mode_tl
% \end{macrocode}
% \end{macro}
%
% \subsection{Expansion to formatted text}
%
% \begin{variable}{\c_@@_chardef_space_token, \c_@@_mathchardef_space_token}
% \begin{variable}
% {\c_@@_chardef_group_begin_token, \c_@@_mathchardef_group_begin_token}
% \begin{variable}
% {\c_@@_chardef_group_end_token, \c_@@_mathchardef_group_end_token}
% Markers for implict char handling.
% \begin{macrocode}
\tex_chardef:D \c_@@_chardef_space_token = `\ %
\tex_mathchardef:D \c_@@_mathchardef_space_token = `\ %
\tex_chardef:D \c_@@_chardef_group_begin_token = `\{ % `\}
\tex_mathchardef:D \c_@@_mathchardef_group_begin_token = `\{ % `\} `\{
\tex_chardef:D \c_@@_chardef_group_end_token = `\} % `\{
\tex_mathchardef:D \c_@@_mathchardef_group_end_token = `\} %
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
%
% \begin{macro}[EXP]{\text_expand:n, \@@_expand:n}
% \begin{macro}[EXP]{\@@_expand_result:n}
% \begin{macro}[EXP]{\@@_expand_store:n, \@@_expand_store:o}
% \begin{macro}[EXP]{\@@_expand_store:nw}
% \begin{macro}[EXP]{\@@_expand_end:w}
% \begin{macro}[EXP]{\@@_expand_loop:w}
% \begin{macro}[EXP]{\@@_expand_group:n}
% \begin{macro}[EXP]{\@@_expand_space:w}
% \begin{macro}[EXP]
% {
% \@@_expand_N_type:N ,
% \@@_expand_N_type_auxi:N ,
% \@@_expand_N_type_auxii:N ,
% \@@_expand_N_type_auxiii:N
% }
% \begin{macro}[EXP]{\@@_expand_math_search:NNN}
% \begin{macro}[EXP]{\@@_expand_math_loop:Nw}
% \begin{macro}[EXP]{\@@_expand_math_N_type:NN}
% \begin{macro}[EXP]{\@@_expand_math_group:Nn}
% \begin{macro}[EXP]{\@@_expand_math_space:Nw}
% \begin{macro}[EXP]
% {
% \@@_expand_implicit:N ,
% \@@_expand_explicit:N ,
% \@@_expand_exclude:N
% }
% \begin{macro}[EXP]{\@@_expand_exclude:nN}
% \begin{macro}[EXP]{\@@_expand_exclude:NN}
% \begin{macro}[EXP]{\@@_expand_exclude:Nn}
% \begin{macro}[EXP]{\@@_expand_letterlike:N}
% \begin{macro}[EXP]{\@@_expand_letterlike:NN}
% \begin{macro}[EXP]{\@@_expand_cs:N, \@@_expand_encoding:N}
% \begin{macro}[EXP]{\@@_expand_encoding_escape:N}
% \begin{macro}[EXP]{\@@_expand_protect:N}
% \begin{macro}[EXP]{\@@_expand_protect:nN}
% \begin{macro}[EXP]{\@@_expand_protect:Nw}
% \begin{macro}[EXP]{\@@_expand_testopt:N}
% \begin{macro}[EXP]{\@@_expand_testopt:NNn}
% \begin{macro}[EXP]{\@@_expand_replace:N}
% \begin{macro}[EXP]{\@@_expand_replace:n}
% \begin{macro}[EXP]{\@@_expand_cs_expand:N}
% \begin{macro}[EXP]{\@@_expand_unexpanded:w}
% \begin{macro}[EXP]{\@@_expand_unexpanded_test:w}
% \begin{macro}[EXP]{\@@_expand_unexpanded:N}
% \begin{macro}[EXP]{\@@_expand_unexpanded:n}
% After precautions against |&| tokens, start a simple loop: that of
% course means that \enquote{text} cannot contain the two recursion
% quarks. The loop here must be \texttt{f}-type expandable; we have
% arbitrary user commands which might be protected \emph{and} take
% arguments, and if the expansion code is used in a typesetting
% context, that will otherwise explode. (The same issue applies more
% clearly to case changing: see the example there.)
% \begin{macrocode}
\cs_new:Npn \text_expand:n #1
{
\__kernel_exp_not:w \exp_after:wN
{
\exp:w
\@@_expand:n {#1}
}
}
\cs_new:Npn \@@_expand:n #1
{
\group_align_safe_begin:
\@@_expand_loop:w #1
\q_@@_recursion_tail \q_@@_recursion_stop
\@@_expand_result:n { }
}
% \end{macrocode}
% The approach to making the code \texttt{f}-type expandable is to usee
% a marker result token and to shuffle the collected tokens
% \begin{macrocode}
\cs_new:Npn \@@_expand_store:n #1
{ \@@_expand_store:nw {#1} }
\cs_generate_variant:Nn \@@_expand_store:n { o }
\cs_new:Npn \@@_expand_store:nw #1#2 \@@_expand_result:n #3
{ #2 \@@_expand_result:n { #3 #1 } }
\cs_new:Npn \@@_expand_end:w #1 \@@_expand_result:n #2
{
\group_align_safe_end:
\exp_end:
#2
}
% \end{macrocode}
% The main loop is a standard \enquote{tl action}; groups are handled
% recursively, while spaces are just passed through. Thus all of the
% action is in handling \texttt{N}-type tokens.
% \begin{macrocode}
\cs_new:Npn \@@_expand_loop:w #1 \q_@@_recursion_stop
{
\tl_if_head_is_N_type:nTF {#1}
{ \@@_expand_N_type:N }
{
\tl_if_head_is_group:nTF {#1}
{ \@@_expand_group:n }
{ \@@_expand_space:w }
}
#1 \q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_group:n #1
{
\@@_expand_store:o
{
\exp_after:wN
{
\exp:w
\@@_expand:n {#1}
}
}
\@@_expand_loop:w
}
\exp_last_unbraced:NNo \cs_new:Npn \@@_expand_space:w \c_space_tl
{
\@@_expand_store:n { ~ }
\@@_expand_loop:w
}
% \end{macrocode}
% Before we get into the real work, we have to watch out for problematic
% implicit characters: spaces and grouping tokens. Converting these to
% explicit characters later would lead to real issues as they are \emph{not}
% \texttt{N}-type. A space is the easy case, so it's dealt with first:
% just insert the explicit token and continue the loop.
% \begin{macrocode}
\cs_new:Npx \@@_expand_N_type:N #1
{
\exp_not:N \@@_if_recursion_tail_stop_do:Nn #1
{ \exp_not:N \@@_expand_end:w }
\exp_not:N \bool_lazy_any:nTF
{
{ \exp_not:N \token_if_eq_meaning_p:NN #1 \c_space_token }
{
\exp_not:N \token_if_eq_meaning_p:NN #1
\c_@@_chardef_space_token
}
{
\exp_not:N \token_if_eq_meaning_p:NN #1
\c_@@_mathchardef_space_token
}
}
{ \exp_not:N \@@_expand_space:w \c_space_tl }
{ \exp_not:N \@@_expand_N_type_auxi:N #1 }
}
% \end{macrocode}
% Implicit |{|/|}| offer two issues. First, the token could be an implicit
% brace character: we need to avoid turning that into a brace group, so filter
% out the cases manually. Then we handle the case where an implicit group is
% present. That is done in an \enquote{open-ended} way: there's the possibility
% the closing token is hidden somewhere.
% \begin{macrocode}
\cs_new:Npn \@@_expand_N_type_auxi:N #1
{
\bool_lazy_or:nnTF
{ \token_if_eq_meaning_p:NN #1 \c_@@_chardef_group_begin_token }
{ \token_if_eq_meaning_p:NN #1 \c_@@_mathchardef_group_begin_token }
{
\@@_expand_store:o \c_left_brace_str
\@@_expand_loop:w
}
{
\bool_lazy_or:nnTF
{ \token_if_eq_meaning_p:NN #1 \c_@@_chardef_group_end_token }
{ \token_if_eq_meaning_p:NN #1 \c_@@_mathchardef_group_end_token }
{
\@@_expand_store:o \c_right_brace_str
\@@_expand_loop:w
}
{ \@@_expand_N_type_auxii:N #1 }
}
}
\cs_new:Npn \@@_expand_N_type_auxii:N #1
{
\token_if_eq_meaning:NNTF #1 \c_group_begin_token
{
{ \if_false: } \fi:
\@@_expand_loop:w
}
{
\token_if_eq_meaning:NNTF #1 \c_group_end_token
{
\if_false: { \fi: }
\@@_expand_loop:w
}
{ \@@_expand_N_type_auxiii:N #1 }
}
}
% \end{macrocode}
% The first step in dealing with \texttt{N}-type tokens is to look for
% math mode material: that needs to be left alone. The starting function
% has to be split into two as we need \cs{quark_if_recursion_tail_stop:N}
% first before we can trigger the search. We then look for matching
% pairs of delimiters, allowing for the case where math mode starts
% but does not end. Within math mode, we simply pass all the tokens
% through unchanged, just checking the \texttt{N}-type ones against the
% end marker.
% \begin{macrocode}
\cs_new:Npn \@@_expand_N_type_auxiii:N #1
{
\exp_after:wN \@@_expand_math_search:NNN
\exp_after:wN #1 \l_text_math_delims_tl
\q_@@_recursion_tail \q_@@_recursion_tail
\q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_math_search:NNN #1#2#3
{
\@@_if_recursion_tail_stop_do:Nn #2
{ \@@_expand_explicit:N #1 }
\token_if_eq_meaning:NNTF #1 #2
{
\@@_use_i_delimit_by_q_recursion_stop:nw
{
\@@_expand_store:n {#1}
\@@_expand_math_loop:Nw #3
}
}
{ \@@_expand_math_search:NNN #1 }
}
\cs_new:Npn \@@_expand_math_loop:Nw #1#2 \q_@@_recursion_stop
{
\tl_if_head_is_N_type:nTF {#2}
{ \@@_expand_math_N_type:NN }
{
\tl_if_head_is_group:nTF {#2}
{ \@@_expand_math_group:Nn }
{ \@@_expand_math_space:Nw }
}
#1#2 \q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_math_N_type:NN #1#2
{
\@@_if_recursion_tail_stop_do:Nn #2
{ \@@_expand_end:w }
\@@_expand_store:n {#2}
\token_if_eq_meaning:NNTF #2 #1
{ \@@_expand_loop:w }
{ \@@_expand_math_loop:Nw #1 }
}
\cs_new:Npn \@@_expand_math_group:Nn #1#2
{
\@@_expand_store:n { {#2} }
\@@_expand_math_loop:Nw #1
}
\exp_after:wN \cs_new:Npn \exp_after:wN \@@_expand_math_space:Nw
\exp_after:wN # \exp_after:wN 1 \c_space_tl
{
\@@_expand_store:n { ~ }
\@@_expand_math_loop:Nw #1
}
% \end{macrocode}
% At this stage, either we have a control sequence or a simple character:
% split and handle.
% \begin{macrocode}
\cs_new:Npn \@@_expand_explicit:N #1
{
\token_if_cs:NTF #1
{ \@@_expand_exclude:N #1 }
{
\@@_expand_store:n {#1}
\@@_expand_loop:w
}
}
% \end{macrocode}
% Next we exclude math commands: this is mainly as there \emph{might} be an
% \cs{ensuremath}. We also handle accents, which are basically the same issue
% but are kept separate for semantic reasons.
% \begin{macrocode}
\cs_new:Npn \@@_expand_exclude:N #1
{
\exp_args:Ne \@@_expand_exclude:nN
{
\exp_not:V \l_text_math_arg_tl
\exp_not:V \l_text_accents_tl
\exp_not:V \l_text_expand_exclude_tl
}
#1
}
\cs_new:Npn \@@_expand_exclude:nN #1#2
{
\@@_expand_exclude:NN #2 #1
\q_@@_recursion_tail \q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_exclude:NN #1#2
{
\@@_if_recursion_tail_stop_do:Nn #2
{ \@@_expand_letterlike:N #1 }
\str_if_eq:nnTF {#1} {#2}
{
\@@_use_i_delimit_by_q_recursion_stop:nw
{ \@@_expand_exclude:Nn #1 }
}
{ \@@_expand_exclude:NN #1 }
}
\cs_new:Npn \@@_expand_exclude:Nn #1#2
{
\@@_expand_store:n { #1 {#2} }
\@@_expand_loop:w
}
% \end{macrocode}
% Another list of exceptions: these ones take no arguments so are
% easier to handle.
% \begin{macrocode}
\cs_new:Npn \@@_expand_letterlike:N #1
{
\exp_after:wN \@@_expand_letterlike:NN \exp_after:wN
#1 \l_text_letterlike_tl
\q_@@_recursion_tail \q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_letterlike:NN #1#2
{
\@@_if_recursion_tail_stop_do:Nn #2
{ \@@_expand_cs:N #1 }
\cs_if_eq:NNTF #2 #1
{
\@@_use_i_delimit_by_q_recursion_stop:nw
{
\@@_expand_store:n {#1}
\@@_expand_loop:w
}
}
{ \@@_expand_letterlike:NN #1 }
}
% \end{macrocode}
% \LaTeXe{}'s \cs{protect} makes life interesting. Where possible, we
% simply remove it and replace with the \enquote{parent} command; of course,
% the \cs{protect} might be explicit, in which case we need to leave it alone
% if it's required. There is also the case of a straight \tn{@protected@testopt}
% to cover.
% \begin{macrocode}
\cs_new:Npx \@@_expand_cs:N #1
{
\exp_not:N \str_if_eq:nnTF {#1} { \exp_not:N \protect }
{ \exp_not:N \@@_expand_protect:N }
{
\bool_lazy_and:nnTF
{ \cs_if_exist_p:N \fmtname }
{ \str_if_eq_p:Vn \fmtname { LaTeX2e } }
{ \exp_not:N \@@_expand_testopt:N #1 }
{ \exp_not:N \@@_expand_replace:N #1 }
}
}
\cs_new:Npn \@@_expand_protect:N #1
{
\exp_args:Ne \@@_expand_protect:nN
{ \cs_to_str:N #1 } #1
}
\cs_new:Npn \@@_expand_protect:nN #1#2
{ \@@_expand_protect:Nw #2 #1 \q_@@_nil #1 ~ \q_@@_nil \q_@@_nil \s_@@_stop }
\cs_new:Npn \@@_expand_protect:Nw #1 #2 ~ \q_@@_nil #3 \q_@@_nil #4 \s_@@_stop
{
\@@_quark_if_nil:nTF {#4}
{
\cs_if_exist:cTF {#2}
{ \exp_args:Ne \@@_expand_store:n { \exp_not:c {#2} } }
{ \@@_expand_store:n { \protect #1 } }
}
{ \@@_expand_store:n { \protect #1 } }
\@@_expand_loop:w
}
\cs_new:Npn \@@_expand_testopt:N #1
{
\token_if_eq_meaning:NNTF #1 \@protected@testopt
{ \@@_expand_testopt:NNn }
{ \@@_expand_encoding:N #1 }
}
\cs_new:Npn \@@_expand_testopt:NNn #1#2#3
{
\@@_expand_store:n {#1}
\@@_expand_loop:w
}
% \end{macrocode}
% Deal with encoding-specific commands
% \begin{macrocode}
\cs_new:Npn \@@_expand_encoding:N #1
{
\bool_lazy_or:nnTF
{ \cs_if_eq_p:NN #1 \@current@cmd }
{ \cs_if_eq_p:NN #1 \@changed@cmd }
{ \exp_after:wN \@@_expand_loop:w \@@_expand_encoding_escape:NN }
{ \@@_expand_replace:N #1 }
}
\cs_new:Npn \@@_expand_encoding_escape:NN #1#2 { \exp_not:n {#1} }
% \end{macrocode}
% See if there is a dedicated replacement, and if there is, insert it.
% \begin{macrocode}
\cs_new:Npn \@@_expand_replace:N #1
{
\bool_lazy_and:nnTF
{ \cs_if_exist_p:c { l_@@_expand_ \token_to_str:N #1 _tl } }
{
\bool_lazy_or_p:nn
{ \token_if_cs_p:N #1 }
{ \token_if_active_p:N #1 }
}
{
\exp_args:Nv \@@_expand_replace:n
{ l_@@_expand_ \token_to_str:N #1 _tl }
}
{ \@@_expand_cs_expand:N #1 }
}
\cs_new:Npn \@@_expand_replace:n #1 { \@@_expand_loop:w #1 }
% \end{macrocode}
% Finally, expand any macros which can be: this then loops back around to
% deal with what they produce. The only issue is if the token is
% \cs{exp_not:n}, as that must apply to the following balanced text.
% \begin{macrocode}
\cs_new:Npn \@@_expand_cs_expand:N #1
{
\@@_if_expandable:NTF #1
{
\token_if_eq_meaning:NNTF #1 \exp_not:n
{ \@@_expand_unexpanded:w }
{ \exp_after:wN \@@_expand_loop:w #1 }
}
{
\@@_expand_store:n {#1}
\@@_expand_loop:w
}
}
% \end{macrocode}
% Since \cs{exp_not:n} is actually a primitive, it allows a strange syntax
% and it particular the primitive expands what follows and discards spaces
% and \cs{scan_stop:} until finding a braced argument (the opening brace
% can be implicit but we will not support this here). Here, we repeatedly
% |f|-expand after such an \cs{exp_not:n}, and test what follows. If
% it is a brace group, then we found the intended argument of
% \cs{exp_not:n}. If it is a space, then the next |f|-expansion will
% eliminate it. If it is an |N|-type token then
% \cs{@@_expand_unexpanded:N} leaves the token to be expanded if it is
% expandable, and otherwise removes it, assuming that it is
% \cs{scan_stop:}. This silently hides errors when \cs{exp_not:n} is
% incorrectly followed by some non-expandable token other than
% \cs{scan_stop:}, but this should be pretty rare, and there is no good
% error recovery anyways.
% \begin{macrocode}
\cs_new:Npn \@@_expand_unexpanded:w
{
\exp_after:wN \@@_expand_unexpanded_test:w
\exp:w \exp_end_continue_f:w
}
\cs_new:Npn \@@_expand_unexpanded_test:w #1 \q_@@_recursion_stop
{
\tl_if_head_is_group:nTF {#1}
{ \@@_expand_unexpanded:n }
{
\@@_expand_unexpanded:w
\tl_if_head_is_N_type:nT {#1} { \@@_expand_unexpanded:N }
}
#1 \q_@@_recursion_stop
}
\cs_new:Npn \@@_expand_unexpanded:N #1
{
\exp_after:wN \if_meaning:w \exp_not:N #1 #1
\else:
\exp_after:wN #1
\fi:
}
\cs_new:Npn \@@_expand_unexpanded:n #1
{
\@@_expand_store:n {#1}
\@@_expand_loop:w
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}
% {
% \text_declare_expand_equivalent:Nn ,
% \text_declare_expand_equivalent:cn
% }
% Create equivalents to allow replacement.
% \begin{macrocode}
\cs_new_protected:Npn \text_declare_expand_equivalent:Nn #1#2
{
\tl_clear_new:c { l_@@_expand_ \token_to_str:N #1 _tl }
\tl_set:cn { l_@@_expand_ \token_to_str:N #1 _tl } {#2}
}
\cs_generate_variant:Nn \text_declare_expand_equivalent:Nn { c }
% \end{macrocode}
% \end{macro}
%
% \begin{macrocode}
%</package>
% \end{macrocode}
%
% \end{implementation}
%
% \PrintIndex
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