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|
% \iffalse meta-comment
%
%% File: l3token.dtx
%
% Copyright (C) 2005-2020 The LaTeX3 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 \pkg{l3token} package\\ Token manipulation^^A
% }
%
% \author{^^A
% The \LaTeX3 Project\thanks
% {^^A
% E-mail:
% \href{mailto:latex-team@latex-project.org}
% {latex-team@latex-project.org}^^A
% }^^A
% }
%
% \date{Released 2020-05-11}
%
% \maketitle
%
% \begin{documentation}
%
% This module deals with tokens. Now this is perhaps not the most
% precise description so let's try with a better description: When
% programming in \TeX{}, it is often desirable to know just what a
% certain token is: is it a control sequence or something
% else. Similarly one often needs to know if a control sequence is
% expandable or not, a macro or a primitive, how many arguments it
% takes etc. Another thing of great importance (especially when it
% comes to document commands) is looking ahead in the token stream to
% see if a certain character is present and maybe even remove it or
% disregard other tokens while scanning. This module provides
% functions for both and as such has two primary function
% categories: |\token_| for anything that deals with tokens and
% |\peek_| for looking ahead in the token stream.
%
% Most functions we describe here can be used on control sequences,
% as those are tokens as well.
%
% It is important to distinguish two aspects of a token: its
% \enquote{shape} (for lack of a better word), which affects the
% matching of delimited arguments and the comparison of token lists
% containing this token, and its \enquote{meaning}, which affects
% whether the token expands or what operation it performs. One can have
% tokens of different shapes with the same meaning, but not the
% converse.
%
% For instance, \cs{if:w}, \cs{if_charcode:w}, and \cs{tex_if:D} are
% three names for the same internal operation of \TeX{}, namely the
% primitive testing the next two characters for equality of their
% character code. They have the same meaning hence behave identically
% in many situations. However, \TeX{} distinguishes them when searching
% for a delimited argument. Namely, the example function
% |\show_until_if:w| defined below takes everything until \cs{if:w}
% as an argument, despite the presence of other copies of \cs{if:w}
% under different names.
% \begin{verbatim}
% \cs_new:Npn \show_until_if:w #1 \if:w { \tl_show:n {#1} }
% \show_until_if:w \tex_if:D \if_charcode:w \if:w
% \end{verbatim}
% A list of all possible shapes and a list of all possible meanings are
% given in section~\ref{sec:l3token:all-tokens}.
%
% \section{Creating character tokens}
%
% \begin{function}[updated = 2015-11-12]
% {
% \char_set_active_eq:NN, \char_set_active_eq:Nc,
% \char_gset_active_eq:NN, \char_gset_active_eq:Nc
% }
% \begin{syntax}
% \cs{char_set_active_eq:NN} \meta{char} \meta{function}
% \end{syntax}
% Sets the behaviour of the \meta{char} in situations where it is
% active (category code $13$) to be equivalent to that of the
% \meta{function}. The category code of the \meta{char} is
% \emph{unchanged} by this process. The \meta{function} may itself
% be an active character.
% \end{function}
%
% \begin{function}[added = 2015-11-12]
% {
% \char_set_active_eq:nN, \char_set_active_eq:nc,
% \char_gset_active_eq:nN, \char_gset_active_eq:nc
% }
% \begin{syntax}
% \cs{char_set_active_eq:nN} \Arg{integer expression} \meta{function}
% \end{syntax}
% Sets the behaviour of the \meta{char} which has character
% code as given by the \meta{integer expression} in situations
% where it is active (category code $13$) to be equivalent to that of the
% \meta{function}. The category code of the \meta{char} is
% \emph{unchanged} by this process. The \meta{function} may itself
% be an active character.
% \end{function}
%
% \begin{function}[EXP, added = 2015-09-09, updated = 2019-01-16]
% {\char_generate:nn}
% \begin{syntax}
% \cs{char_generate:nn} \Arg{charcode} \Arg{catcode}
% \end{syntax}
% Generates a character token of the given \meta{charcode} and \meta{catcode}
% (both of which may be integer expressions). The \meta{catcode} may be
% one of
% \begin{itemize}
% \item $1$ (begin group)
% \item $2$ (end group)
% \item $3$ (math toggle)
% \item $4$ (alignment)
% \item $6$ (parameter)
% \item $7$ (math superscript)
% \item $8$ (math subscript)
% \item $11$ (letter)
% \item $12$ (other)
% \item $13$ (active)
% \end{itemize}
% and other values raise an error. The \meta{charcode} may be any one valid
% for the engine in use.
% Active characters cannot be generated in older versions of \XeTeX{}.
% \begin{texnote}
% Exactly two expansions are needed to produce the character.
% \end{texnote}
% \end{function}
%
% \begin{function}[added = 2020-01-09, EXP]
% {
% \char_lowercase:N, \char_uppercase:N,
% \char_titlecase:N, \char_foldcase:N,
% \char_str_lowercase:N, \char_str_uppercase:N,
% \char_str_titlecase:N, \char_str_foldcase:N
% }
% \begin{syntax}
% \cs{char_lowercase:N} \meta{char}
% \end{syntax}
% Converts the \meta{char} to the equivalent case-changed character
% as detailed by the function name (see \cs{str_foldcase:n}
% and \cs{text_titlecase:n} for details of these terms). The case mapping
% is carried out with no context-dependence (\emph{cf.}~\cs{text_uppercase:n},
% \emph{etc.}) The \texttt{str} versions always generate \enquote{other}
% (category code $12$) characters, whilst the standard versions generate
% characters with the category code of the \meta{char} (i.e.~only
% the character code changes).
% \end{function}
%
% \begin{variable}[added = 2011-09-05]{\c_catcode_other_space_tl}
% Token list containing one character with category code $12$,
% (\enquote{other}), and character code $32$ (space).
% \end{variable}
%
% \section{Manipulating and interrogating character tokens}
%
% \begin{function}[updated = 2015-11-11]
% {
% \char_set_catcode_escape:N ,
% \char_set_catcode_group_begin:N ,
% \char_set_catcode_group_end:N ,
% \char_set_catcode_math_toggle:N ,
% \char_set_catcode_alignment:N ,
% \char_set_catcode_end_line:N ,
% \char_set_catcode_parameter:N ,
% \char_set_catcode_math_superscript:N ,
% \char_set_catcode_math_subscript:N ,
% \char_set_catcode_ignore:N ,
% \char_set_catcode_space:N ,
% \char_set_catcode_letter:N ,
% \char_set_catcode_other:N ,
% \char_set_catcode_active:N ,
% \char_set_catcode_comment:N ,
% \char_set_catcode_invalid:N
% }
% \begin{syntax}
% \cs{char_set_catcode_letter:N} \meta{character}
% \end{syntax}
% Sets the category code of the \meta{character} to that indicated in
% the function name. Depending on the current category code of the
% \meta{token} the escape token may also be needed:
% \begin{verbatim}
% \char_set_catcode_other:N \%
% \end{verbatim}
% The assignment is local.
% \end{function}
%
% \begin{function}[updated = 2015-11-11]
% {
% \char_set_catcode_escape:n ,
% \char_set_catcode_group_begin:n ,
% \char_set_catcode_group_end:n ,
% \char_set_catcode_math_toggle:n ,
% \char_set_catcode_alignment:n ,
% \char_set_catcode_end_line:n ,
% \char_set_catcode_parameter:n ,
% \char_set_catcode_math_superscript:n ,
% \char_set_catcode_math_subscript:n ,
% \char_set_catcode_ignore:n ,
% \char_set_catcode_space:n ,
% \char_set_catcode_letter:n ,
% \char_set_catcode_other:n ,
% \char_set_catcode_active:n ,
% \char_set_catcode_comment:n ,
% \char_set_catcode_invalid:n
% }
% \begin{syntax}
% \cs{char_set_catcode_letter:n} \Arg{integer expression}
% \end{syntax}
% Sets the category code of the \meta{character} which has character
% code as given by the \meta{integer expression}. This version can be
% used to set up characters which cannot otherwise be given
% (\emph{cf.}~the \texttt{N}-type variants). The assignment is local.
% \end{function}
%
% \begin{function}[updated = 2015-11-11]{\char_set_catcode:nn}
% \begin{syntax}
% \cs{char_set_catcode:nn} \Arg{intexpr_1} \Arg{intexpr_2}
% \end{syntax}
% These functions set the category code of the \meta{character} which
% has character code as given by the \meta{integer expression}.
% The first \meta{integer expression}
% is the character code and the second is the category code to apply.
% The setting applies within the current \TeX{} group. In general, the
% symbolic functions \cs[no-index]{char_set_catcode_\meta{type}} should be preferred,
% but there are cases where these lower-level functions may be useful.
% \end{function}
%
% \begin{function}[EXP]{\char_value_catcode:n}
% \begin{syntax}
% \cs{char_value_catcode:n} \Arg{integer expression}
% \end{syntax}
% Expands to the current category code of the \meta{character} with
% character code given by the
% \meta{integer expression}.
% \end{function}
%
% \begin{function}{\char_show_value_catcode:n}
% \begin{syntax}
% \cs{char_show_value_catcode:n} \Arg{integer expression}
% \end{syntax}
% Displays the current category code of the \meta{character} with
% character code given by the \meta{integer expression} on the
% terminal.
% \end{function}
%
% \begin{function}[updated = 2015-08-06]{\char_set_lccode:nn}
% \begin{syntax}
% \cs{char_set_lccode:nn} \Arg{intexpr_1} \Arg{intexpr_2}
% \end{syntax}
% Sets up the behaviour of the \meta{character} when
% found inside \cs{text_lowercase:n}, such that \meta{character_1}
% will be converted into \meta{character_2}. The two \meta{characters}
% may be specified using an \meta{integer expression} for the character code
% concerned. This may include the \TeX{} |`|\meta{character}
% method for converting a single character into its character
% code:
% \begin{verbatim}
% \char_set_lccode:nn { `\A } { `\a } % Standard behaviour
% \char_set_lccode:nn { `\A } { `\A + 32 }
% \char_set_lccode:nn { 50 } { 60 }
% \end{verbatim}
% The setting applies within the current \TeX{} group.
% \end{function}
%
% \begin{function}[EXP]{\char_value_lccode:n}
% \begin{syntax}
% \cs{char_value_lccode:n} \Arg{integer expression}
% \end{syntax}
% Expands to the current lower case code of the \meta{character} with
% character code given by the
% \meta{integer expression}.
% \end{function}
%
% \begin{function}{\char_show_value_lccode:n}
% \begin{syntax}
% \cs{char_show_value_lccode:n} \Arg{integer expression}
% \end{syntax}
% Displays the current lower case code of the \meta{character} with
% character code given by the \meta{integer expression} on the
% terminal.
% \end{function}
%
% \begin{function}[updated = 2015-08-06]{\char_set_uccode:nn}
% \begin{syntax}
% \cs{char_set_uccode:nn} \Arg{intexpr_1} \Arg{intexpr_2}
% \end{syntax}
% Sets up the behaviour of the \meta{character} when
% found inside \cs{text_uppercase:n}, such that \meta{character_1}
% will be converted into \meta{character_2}. The two \meta{characters}
% may be specified using an \meta{integer expression} for the character code
% concerned. This may include the \TeX{} |`|\meta{character}
% method for converting a single character into its character
% code:
% \begin{verbatim}
% \char_set_uccode:nn { `\a } { `\A } % Standard behaviour
% \char_set_uccode:nn { `\A } { `\A - 32 }
% \char_set_uccode:nn { 60 } { 50 }
% \end{verbatim}
% The setting applies within the current \TeX{} group.
% \end{function}
%
% \begin{function}[EXP]{\char_value_uccode:n}
% \begin{syntax}
% \cs{char_value_uccode:n} \Arg{integer expression}
% \end{syntax}
% Expands to the current upper case code of the \meta{character} with
% character code given by the
% \meta{integer expression}.
% \end{function}
%
% \begin{function}{\char_show_value_uccode:n}
% \begin{syntax}
% \cs{char_show_value_uccode:n} \Arg{integer expression}
% \end{syntax}
% Displays the current upper case code of the \meta{character} with
% character code given by the \meta{integer expression} on the
% terminal.
% \end{function}
%
% \begin{function}[updated = 2015-08-06]{\char_set_mathcode:nn}
% \begin{syntax}
% \cs{char_set_mathcode:nn} \Arg{intexpr_1} \Arg{intexpr_2}
% \end{syntax}
% This function sets up the math code of \meta{character}.
% The \meta{character} is specified as
% an \meta{integer expression} which will be used as the character
% code of the relevant character. The setting applies within the
% current \TeX{} group.
% \end{function}
%
% \begin{function}[EXP]{\char_value_mathcode:n}
% \begin{syntax}
% \cs{char_value_mathcode:n} \Arg{integer expression}
% \end{syntax}
% Expands to the current math code of the \meta{character} with
% character code given by the
% \meta{integer expression}.
% \end{function}
%
% \begin{function}{\char_show_value_mathcode:n}
% \begin{syntax}
% \cs{char_show_value_mathcode:n} \Arg{integer expression}
% \end{syntax}
% Displays the current math code of the \meta{character} with
% character code given by the \meta{integer expression} on the
% terminal.
% \end{function}
%
% \begin{function}[updated = 2015-08-06]{\char_set_sfcode:nn}
% \begin{syntax}
% \cs{char_set_sfcode:nn} \Arg{intexpr_1} \Arg{intexpr_2}
% \end{syntax}
% This function sets up the space factor for the \meta{character}.
% The \meta{character} is specified as
% an \meta{integer expression} which will be used as the character
% code of the relevant character. The setting applies within the
% current \TeX{} group.
% \end{function}
%
% \begin{function}[EXP]{\char_value_sfcode:n}
% \begin{syntax}
% \cs{char_value_sfcode:n} \Arg{integer expression}
% \end{syntax}
% Expands to the current space factor for the \meta{character} with
% character code given by the
% \meta{integer expression}.
% \end{function}
%
% \begin{function}{\char_show_value_sfcode:n}
% \begin{syntax}
% \cs{char_show_value_sfcode:n} \Arg{integer expression}
% \end{syntax}
% Displays the current space factor for the \meta{character} with
% character code given by the \meta{integer expression} on the
% terminal.
% \end{function}
%
% \begin{variable}[added = 2012-01-23, updated = 2015-11-11]{\l_char_active_seq}
% Used to track which tokens may require special handling at the document
% level as they are (or have been at some point)
% of category \meta{active} (catcode~$13$). Each entry in
% the sequence consists of a single escaped token, for example |\~|.
% Active tokens should be added to the sequence when they are defined for
% general document use.
% \end{variable}
%
% \begin{variable}[added = 2012-01-23, updated = 2015-11-11]{\l_char_special_seq}
% Used to track which tokens will require special handling when working with
% verbatim-like material at the document level as they are not of categories
% \meta{letter} (catcode~$11$) or \meta{other} (catcode~$12$). Each entry in
% the sequence consists of a single escaped token, for example |\\| for the
% backslash or |\{| for an opening brace.^^A \}
% Escaped tokens should be added to the sequence when they are defined for
% general document use.
% \end{variable}
%
% \section{Generic tokens}
%
% \begin{variable}
% {
% \c_group_begin_token,
% \c_group_end_token,
% \c_math_toggle_token,
% \c_alignment_token,
% \c_parameter_token,
% \c_math_superscript_token,
% \c_math_subscript_token,
% \c_space_token
% }
% These are implicit tokens which have the category code described
% by their name. They are used internally for test purposes but
% are also available to the programmer for other uses.
% \end{variable}
%
% \begin{variable}
% {
% \c_catcode_letter_token,
% \c_catcode_other_token
% }
% These are implicit tokens which have the category code described
% by their name. They are used internally for test purposes and should
% not be used other than for category code tests.
% \end{variable}
%
% \begin{variable}{\c_catcode_active_tl}
% A token list containing an active token. This is used internally
% for test purposes and should not be used other than in
% appropriately-constructed category code tests.
% \end{variable}
%
% \section{Converting tokens}
%
% \begin{function}[EXP]{\token_to_meaning:N, \token_to_meaning:c}
% \begin{syntax}
% \cs{token_to_meaning:N} \meta{token}
% \end{syntax}
% Inserts the current meaning of the \meta{token} into the input
% stream as a series of characters of category code $12$ (other).
% This is the primitive \TeX{} description of the \meta{token},
% thus for example both functions defined by \cs{cs_set_nopar:Npn}
% and token list variables defined using \cs{tl_new:N} are described
% as |macro|s.
% \begin{texnote}
% This is the \TeX{} primitive \tn{meaning}.
% The \meta{token} can thus be an explicit space tokens or an
% explicit begin-group or end-group character token (|{|~or~|}| when
% normal \TeX{} category codes apply) even though these are not
% valid \texttt{N}-type arguments.
% \end{texnote}
% \end{function}
%
% \begin{function}[EXP]{\token_to_str:N, \token_to_str:c}
% \begin{syntax}
% \cs{token_to_str:N} \meta{token}
% \end{syntax}
% Converts the given \meta{token} into a series of characters with
% category code $12$ (other). If the \meta{token} is a control
% sequence, this will start with the current escape character with
% category code $12$ (the escape character is part of the
% \meta{token}). This function requires only a single expansion.
% \begin{texnote}
% \cs{token_to_str:N} is the \TeX{} primitive \tn{string} renamed.
% The \meta{token} can thus be an explicit space tokens or an
% explicit begin-group or end-group character token (|{|~or~|}| when
% normal \TeX{} category codes apply) even though these are not
% valid \texttt{N}-type arguments.
% \end{texnote}
% \end{function}
%
% \section{Token conditionals}
%
% \begin{function}[EXP,pTF]{\token_if_group_begin:N}
% \begin{syntax}
% \cs{token_if_group_begin_p:N} \meta{token} \\
% \cs{token_if_group_begin:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a begin group token
% (|{| when normal \TeX{} category codes are in ^^A }
% force).
% Note that an explicit begin group token cannot be tested in this way,
% as it is not a valid \texttt{N}-type argument.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_group_end:N}
% \begin{syntax}
% \cs{token_if_group_end_p:N} \meta{token} \\
% \cs{token_if_group_end:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of an end group token
% (^^A {
% |}| when normal \TeX{} category codes are in force).
% Note that an explicit end group token cannot be tested in this way,
% as it is not a valid \texttt{N}-type argument.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_math_toggle:N}
% \begin{syntax}
% \cs{token_if_math_toggle_p:N} \meta{token} \\
% \cs{token_if_math_toggle:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a math shift token
% (|$| when normal \TeX{} category codes are in force).
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_alignment:N}
% \begin{syntax}
% \cs{token_if_alignment_p:N} \meta{token} \\
% \cs{token_if_alignment:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of an alignment token
% (|&| when normal \TeX{} category codes are in force).
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_parameter:N}
% \begin{syntax}
% \cs{token_if_parameter_p:N} \meta{token} \\
% \cs{token_if_alignment:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a macro parameter token
% (|#| when normal \TeX{} category codes are in force).
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_math_superscript:N}
% \begin{syntax}
% \cs{token_if_math_superscript_p:N} \meta{token} \\
% \cs{token_if_math_superscript:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a superscript token
% (|^| when normal \TeX{} category codes are in force).
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_math_subscript:N}
% \begin{syntax}
% \cs{token_if_math_subscript_p:N} \meta{token} \\
% \cs{token_if_math_subscript:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a subscript token
% (|_| when normal \TeX{} category codes are in force).
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_space:N}
% \begin{syntax}
% \cs{token_if_space_p:N} \meta{token} \\
% \cs{token_if_space:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a space token.
% Note that an explicit space token with character code $32$ cannot
% be tested in this way, as it is not a valid \texttt{N}-type argument.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_letter:N}
% \begin{syntax}
% \cs{token_if_letter_p:N} \meta{token} \\
% \cs{token_if_letter:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of a letter token.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_other:N}
% \begin{syntax}
% \cs{token_if_other_p:N} \meta{token} \\
% \cs{token_if_other:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of an \enquote{other}
% token.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_active:N}
% \begin{syntax}
% \cs{token_if_active_p:N} \meta{token} \\
% \cs{token_if_active:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if \meta{token} has the category code of an active character.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_eq_catcode:NN}
% \begin{syntax}
% \cs{token_if_eq_catcode_p:NN} \meta{token_1} \meta{token_2} \\
% \cs{token_if_eq_catcode:NNTF} \meta{token_1} \meta{token_2} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the two \meta{tokens} have the same category code.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_eq_charcode:NN}
% \begin{syntax}
% \cs{token_if_eq_charcode_p:NN} \meta{token_1} \meta{token_2} \\
% \cs{token_if_eq_charcode:NNTF} \meta{token_1} \meta{token_2} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the two \meta{tokens} have the same character code.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_eq_meaning:NN}
% \begin{syntax}
% \cs{token_if_eq_meaning_p:NN} \meta{token_1} \meta{token_2} \\
% \cs{token_if_eq_meaning:NNTF} \meta{token_1} \meta{token_2} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the two \meta{tokens} have the same meaning when expanded.
% \end{function}
%
% \begin{function}[updated = 2011-05-23, EXP,pTF]{\token_if_macro:N}
% \begin{syntax}
% \cs{token_if_macro_p:N} \meta{token} \\
% \cs{token_if_macro:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is a \TeX{} macro.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_cs:N}
% \begin{syntax}
% \cs{token_if_cs_p:N} \meta{token} \\
% \cs{token_if_cs:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is a control sequence.
% \end{function}
%
% \begin{function}[EXP,pTF]{\token_if_expandable:N}
% \begin{syntax}
% \cs{token_if_expandable_p:N} \meta{token} \\
% \cs{token_if_expandable:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is expandable. This test returns \meta{false}
% for an undefined token.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_long_macro:N}
% \begin{syntax}
% \cs{token_if_long_macro_p:N} \meta{token} \\
% \cs{token_if_long_macro:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is a long macro.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_protected_macro:N}
% \begin{syntax}
% \cs{token_if_protected_macro_p:N} \meta{token} \\
% \cs{token_if_protected_macro:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is a protected macro: for a macro which
% is both protected and long this returns \texttt{false}.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_protected_long_macro:N}
% \begin{syntax}
% \cs{token_if_protected_long_macro_p:N} \meta{token} \\
% \cs{token_if_protected_long_macro:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is a protected long macro.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_chardef:N}
% \begin{syntax}
% \cs{token_if_chardef_p:N} \meta{token} \\
% \cs{token_if_chardef:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a chardef.
% \begin{texnote}
% Booleans, boxes and small integer constants are implemented as
% \tn{chardef}s.
% \end{texnote}
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_mathchardef:N}
% \begin{syntax}
% \cs{token_if_mathchardef_p:N} \meta{token} \\
% \cs{token_if_mathchardef:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a mathchardef.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_dim_register:N}
% \begin{syntax}
% \cs{token_if_dim_register_p:N} \meta{token} \\
% \cs{token_if_dim_register:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a dimension register.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_int_register:N}
% \begin{syntax}
% \cs{token_if_int_register_p:N} \meta{token} \\
% \cs{token_if_int_register:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a integer register.
% \begin{texnote}
% Constant integers may be implemented as integer registers,
% \tn{chardef}s, or \tn{mathchardef}s depending on their value.
% \end{texnote}
% \end{function}
%
% \begin{function}[EXP,pTF, added=2012-02-15]{\token_if_muskip_register:N}
% \begin{syntax}
% \cs{token_if_muskip_register_p:N} \meta{token} \\
% \cs{token_if_muskip_register:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a muskip register.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_skip_register:N}
% \begin{syntax}
% \cs{token_if_skip_register_p:N} \meta{token} \\
% \cs{token_if_skip_register:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a skip register.
% \end{function}
%
% \begin{function}[EXP,pTF, updated=2012-01-20]{\token_if_toks_register:N}
% \begin{syntax}
% \cs{token_if_toks_register_p:N} \meta{token} \\
% \cs{token_if_toks_register:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is defined to be a toks register
% (not used by \LaTeX3).
% \end{function}
%
% \begin{function}[updated = 2011-05-23, EXP,pTF]{\token_if_primitive:N}
% \begin{syntax}
% \cs{token_if_primitive_p:N} \meta{token} \\
% \cs{token_if_primitive:NTF} \meta{token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the \meta{token} is an engine primitive.
% \end{function}
%
% \section{Peeking ahead at the next token}
%
% There is often a need to look ahead at the next token in the input
% stream while leaving it in place. This is handled using the
% \enquote{peek} functions. The generic \cs{peek_after:Nw} is
% provided along with a family of predefined tests for common cases.
% As peeking ahead does \emph{not} skip spaces the predefined tests
% include both a space-respecting and space-skipping version.
%
% \begin{function}{\peek_after:Nw}
% \begin{syntax}
% \cs{peek_after:Nw} \meta{function} \meta{token}
% \end{syntax}
% Locally sets the test variable \cs{l_peek_token} equal to \meta{token}
% (as an implicit token, \emph{not} as a token list), and then
% expands the \meta{function}. The \meta{token} remains in
% the input stream as the next item after the \meta{function}.
% The \meta{token} here may be \verb*| |, |{| or |}| (assuming
% normal \TeX{} category codes), \emph{i.e.}~it is not necessarily the
% next argument which would be grabbed by a normal function.
% \end{function}
%
% \begin{function}{\peek_gafter:Nw}
% \begin{syntax}
% \cs{peek_gafter:Nw} \meta{function} \meta{token}
% \end{syntax}
% Globally sets the test variable \cs{g_peek_token} equal to \meta{token}
% (as an implicit token, \emph{not} as a token list), and then
% expands the \meta{function}. The \meta{token} remains in
% the input stream as the next item after the \meta{function}.
% The \meta{token} here may be \verb*| |, |{| or |}| (assuming
% normal \TeX{} category codes), \emph{i.e.}~it is not necessarily the
% next argument which would be grabbed by a normal function.
% \end{function}
%
% \begin{variable}{\l_peek_token}
% Token set by \cs{peek_after:Nw} and available for testing
% as described above.
% \end{variable}
%
% \begin{variable}{\g_peek_token}
% Token set by \cs{peek_gafter:Nw} and available for testing
% as described above.
% \end{variable}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_catcode:N}
% \begin{syntax}
% \cs{peek_catcode:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% category code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_catcode:NNTF}). Spaces are respected by the test
% and the \meta{token} is left in the input stream after
% the \meta{true code} or \meta{false code} (as appropriate to the
% result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_catcode_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_catcode_ignore_spaces:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same category code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_catcode:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and
% removed by the test and the \meta{token} is left in the input
% stream after the \meta{true code} or \meta{false code} (as
% appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_catcode_remove:N}
% \begin{syntax}
% \cs{peek_catcode_remove:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% category code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_catcode:NNTF}). Spaces are respected by the test
% and the \meta{token} is removed from the input stream if the
% test is true. The function then places either the
% \meta{true code} or \meta{false code} in the input stream (as
% appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]
% {\peek_catcode_remove_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_catcode_remove_ignore_spaces:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same category code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_catcode:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and
% removed by the test and the \meta{token} is removed from the
% input stream if the test is true. The function then places
% either the \meta{true code} or \meta{false code} in the input stream
% (as appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_charcode:N}
% \begin{syntax}
% \cs{peek_charcode:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% character code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_charcode:NNTF}). Spaces are respected by the test
% and the \meta{token} is left in the input stream after
% the \meta{true code} or \meta{false code} (as appropriate to the
% result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_charcode_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_charcode_ignore_spaces:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same character code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_charcode:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and removed by
% the test and the \meta{token} is left in the input stream after
% the \meta{true code} or \meta{false code} (as appropriate to the
% result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]{\peek_charcode_remove:N}
% \begin{syntax}
% \cs{peek_charcode_remove:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% character code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_charcode:NNTF}). Spaces are respected by the test
% and the \meta{token} is removed from the input stream if the
% test is true. The function then places either the
% \meta{true code} or \meta{false code} in the input stream (as
% appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-20, TF]
% {\peek_charcode_remove_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_charcode_remove_ignore_spaces:NTF} \meta{test token}
% ~~\Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same character code as the \meta{test token} (as defined by the test
% \cs{token_if_eq_charcode:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and
% removed by the test and the \meta{token} is removed from the
% input stream if the test is true. The function then places
% either the \meta{true code} or \meta{false code} in the input stream
% (as appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2011-07-02, TF]{\peek_meaning:N}
% \begin{syntax}
% \cs{peek_meaning:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% meaning as the \meta{test token} (as defined by the test
% \cs{token_if_eq_meaning:NNTF}). Spaces are respected by the test
% and the \meta{token} is left in the input stream after
% the \meta{true code} or \meta{false code} (as appropriate to the
% result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-05, TF]{\peek_meaning_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_meaning_ignore_spaces:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same meaning as the \meta{test token} (as defined by the test
% \cs{token_if_eq_meaning:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and
% removed by the test and the \meta{token} is left in the input
% stream after the \meta{true code} or \meta{false code} (as
% appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2011-07-02, TF]{\peek_meaning_remove:N}
% \begin{syntax}
% \cs{peek_meaning_remove:NTF} \meta{test token} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream has the same
% meaning as the \meta{test token} (as defined by the test
% \cs{token_if_eq_meaning:NNTF}). Spaces are respected by the test
% and the \meta{token} is removed from the input stream if the
% test is true. The function then places either the
% \meta{true code} or \meta{false code} in the input stream (as
% appropriate to the result of the test).
% \end{function}
%
% \begin{function}[updated = 2012-12-05, TF]
% {\peek_meaning_remove_ignore_spaces:N}
% \begin{syntax}
% \cs{peek_meaning_remove_ignore_spaces:NTF} \meta{test token}
% ~~\Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next non-space \meta{token} in the input stream has the
% same meaning as the \meta{test token} (as defined by the test
% \cs{token_if_eq_meaning:NNTF}). Explicit and implicit space tokens
% (with character code 32 and category code 10) are ignored and
% removed by the test and the \meta{token} is removed from the
% input stream if the test is true. The function then places
% either the \meta{true code} or \meta{false code} in the input stream
% (as appropriate to the result of the test).
% \end{function}
%
% \begin{function}[TF, updated = 2012-12-20]{\peek_N_type:}
% \begin{syntax}
% \cs{peek_N_type:TF} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the next \meta{token} in the input stream can be safely
% grabbed as an \texttt{N}-type argument. The test is \meta{false}
% if the next \meta{token} is either an explicit or implicit
% begin-group or end-group token (with any character code), or
% an explicit or implicit space character (with character code $32$
% and category code $10$), or an outer token (never used in \LaTeX3)
% and \meta{true} in all other cases.
% Note that a \meta{true} result ensures that the next \meta{token} is
% a valid \texttt{N}-type argument. However, if the next \meta{token}
% is for instance \cs{c_space_token}, the test takes the
% \meta{false} branch, even though the next \meta{token} is in fact
% a valid \texttt{N}-type argument. The \meta{token} is left
% in the input stream after the \meta{true code} or \meta{false code}
% (as appropriate to the result of the test).
% \end{function}
%
% \section{Description of all possible tokens}
% \label{sec:l3token:all-tokens}
%
% Let us end by reviewing every case that a given token can fall into.
% This section is quite technical and some details are only meant for
% completeness. We distinguish the meaning of the token, which controls
% the expansion of the token and its effect on \TeX{}'s state, and its
% shape, which is used when comparing token lists such as for delimited
% arguments. Two tokens of the same shape must have the same meaning,
% but the converse does not hold.
%
% A token has one of the following shapes.
% \begin{itemize}
% \item A control sequence, characterized by the sequence of
% characters that constitute its name: for instance, \cs{use:n} is a
% five-letter control sequence.
% \item An active character token, characterized by its character code
% (between $0$ and $1114111$ for \LuaTeX{} and \XeTeX{} and less for
% other engines) and category code~$13$.
% \item A character token, characterized by its character code and
% category code (one of $1$, $2$, $3$, $4$, $6$, $7$, $8$, $10$,
% $11$ or~$12$ whose meaning is described below).\footnote{In
% \LuaTeX{}, there is also the case of \enquote{bytes}, which behave as
% character tokens of category code $12$~(other) and character code
% between $1114112$ and~$1114366$. They are used to output
% individual bytes to files, rather than UTF-8.}
% \end{itemize}
% There are also a few internal tokens. The following list may be
% incomplete in some engines.
% \begin{itemize}
% \item Expanding \tn{the}\tn{font} results in a token that looks
% identical to the command that was used to select the current font
% (such as \tn{tenrm}) but it differs from it in shape.
% \item A \enquote{frozen} |\relax|, which differs from the primitive in
% shape (but has the same meaning), is inserted when the closing \tn{fi} of a
% conditional is encountered before the conditional is evaluated.
% \item Expanding \tn{noexpand} \meta{token} (when the \meta{token} is
% expandable) results in an internal token, displayed (temporarily)
% as \cs{notexpanded: \meta{token}}, whose shape coincides with the
% \meta{token} and whose meaning differs from \tn{relax}.
% \item An |\outer endtemplate:| can be encountered when peeking ahead
% at the next token; this expands to another internal token,
% |end of alignment template|.
% \item Tricky programming might access a frozen |\endwrite|.
% \item Some frozen tokens can only be accessed in interactive
% sessions: |\cr|, |\right|, |\endgroup|, |\fi|, |\inaccessible|.
% \end{itemize}
%
% The meaning of a (non-active) character token is fixed by its category
% code (and character code) and cannot be changed. We call these
% tokens \emph{explicit} character tokens. Category codes that a
% character token can have are listed below by giving a sample output of
% the \TeX{} primitive \tn{meaning}, together with their \LaTeX3 names
% and most common example:
% \begin{itemize}
% \item[1] begin-group character (|group_begin|, often |{|),
% \item[2] end-group character (|group_end|, often |}|),
% \item[3] math shift character (|math_toggle|, often |$|),
% \item[4] alignment tab character (|alignment|, often |&|),
% \item[6] macro parameter character (|parameter|, often |#|),
% \item[7] superscript character (|math_superscript|, often |^|),
% \item[8] subscript character (|math_subscript|, often |_|),
% \item[10] blank space (|space|, often character code~$32$),
% \item[11] the letter (|letter|, such as |A|),
% \item[12] the character (|other|, such as |0|).
% \end{itemize}
% Category code~$13$ (|active|) is discussed below. Input characters
% can also have several other category codes which do not lead to
% character tokens for later processing: $0$~(|escape|),
% $5$~(|end_line|), $9$~(|ignore|), $14$~(|comment|), and
% $15$~(|invalid|).
%
% The meaning of a control sequence or active character can be identical
% to that of any character token listed above (with any character code),
% and we call such tokens \emph{implicit} character tokens. The
% meaning is otherwise in the following list:
% \begin{itemize}
% \item a macro, used in \LaTeX3 for most functions and some variables
% (|tl|, |fp|, |seq|, \ldots{}),
% \item a primitive such as \tn{def} or \tn{topmark}, used in \LaTeX3
% for some functions,
% \item a register such as \tn{count}|123|, used in \LaTeX3{} for the
% implementation of some variables (|int|, |dim|, \ldots{}),
% \item a constant integer such as \tn{char}|"56| or \tn{mathchar}|"121|,
% \item a font selection command,
% \item undefined.
% \end{itemize}
% Macros be \tn{protected} or not, \tn{long} or not (the opposite of
% what \LaTeX3 calls |nopar|), and \tn{outer} or not (unused in
% \LaTeX3). Their \tn{meaning} takes the form
% \begin{quote}
% \meta{properties} |macro:|\meta{parameters}|->|\meta{replacement}
% \end{quote}
% where \meta{properties} is among \tn{protected}\tn{long}\tn{outer},
% \meta{parameters} describes parameters that the macro expects, such as
% |#1#2#3|, and \meta{replacement} describes how the parameters are
% manipulated, such as~|#2/#1/#3|.
%
% ^^A todo Bruno: discuss here some other subtleties of space tokens? when looking for numbers, when looking for equal signs in let, in expressions, etc.
%
% Now is perhaps a good time to mention some subtleties relating to
% tokens with category code $10$ (space). Any input character with this
% category code (normally, space and tab characters) becomes a normal
% space, with character code~$32$ and category code~$10$.
%
% When a macro takes an undelimited argument, explicit space characters
% (with character code $32$ and category code $10$) are ignored. If the
% following token is an explicit character token with category code $1$
% (begin-group) and an arbitrary character code, then \TeX{} scans ahead
% to obtain an equal number of explicit character tokens with category
% code $1$ (begin-group) and $2$ (end-group), and the resulting list of
% tokens (with outer braces removed) becomes the argument. Otherwise, a
% single token is taken as the argument for the macro: we call such
% single tokens \enquote{N-type}, as they are suitable to be used as an
% argument for a function with the signature~\texttt{:N}.
%
% \end{documentation}
%
% \begin{implementation}
%
% \section{\pkg{l3token} implementation}
%
% \begin{macrocode}
%<*initex|package>
% \end{macrocode}
%
% \begin{macrocode}
%<@@=char>
% \end{macrocode}
%
% \subsection{Internal auxiliaries}
%
% \begin{variable}{\s_@@_stop}
% Internal scan mark.
% \begin{macrocode}
\scan_new:N \s_@@_stop
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\q_@@_no_value}
% Internal recursion quarks.
% \begin{macrocode}
\quark_new:N \q_@@_no_value
% \end{macrocode}
% \end{variable}
%
% \begin{macro}[pTF]{\@@_quark_if_no_value:N}
% Functions to query recursion quarks.
% \begin{macrocode}
\__kernel_quark_new_conditional:Nn \@@_quark_if_no_value:N { TF }
% \end{macrocode}
% \end{macro}
%
% \subsection{Manipulating and interrogating character tokens}
%
% \begin{macro}{\char_set_catcode:nn}
% \begin{macro}{\char_value_catcode:n}
% \begin{macro}{\char_show_value_catcode:n}
% Simple wrappers around the primitives.
% \begin{macrocode}
\cs_new_protected:Npn \char_set_catcode:nn #1#2
{ \tex_catcode:D \int_eval:n {#1} = \int_eval:n {#2} \exp_stop_f: }
\cs_new:Npn \char_value_catcode:n #1
{ \tex_the:D \tex_catcode:D \int_eval:n {#1} \exp_stop_f: }
\cs_new_protected:Npn \char_show_value_catcode:n #1
{ \exp_args:Nf \tl_show:n { \char_value_catcode:n {#1} } }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}
% {
% \char_set_catcode_escape:N ,
% \char_set_catcode_group_begin:N ,
% \char_set_catcode_group_end:N ,
% \char_set_catcode_math_toggle:N ,
% \char_set_catcode_alignment:N ,
% \char_set_catcode_end_line:N ,
% \char_set_catcode_parameter:N ,
% \char_set_catcode_math_superscript:N ,
% \char_set_catcode_math_subscript:N ,
% \char_set_catcode_ignore:N ,
% \char_set_catcode_space:N ,
% \char_set_catcode_letter:N ,
% \char_set_catcode_other:N ,
% \char_set_catcode_active:N ,
% \char_set_catcode_comment:N ,
% \char_set_catcode_invalid:N
% }
% \begin{macrocode}
\cs_new_protected:Npn \char_set_catcode_escape:N #1
{ \char_set_catcode:nn { `#1 } { 0 } }
\cs_new_protected:Npn \char_set_catcode_group_begin:N #1
{ \char_set_catcode:nn { `#1 } { 1 } }
\cs_new_protected:Npn \char_set_catcode_group_end:N #1
{ \char_set_catcode:nn { `#1 } { 2 } }
\cs_new_protected:Npn \char_set_catcode_math_toggle:N #1
{ \char_set_catcode:nn { `#1 } { 3 } }
\cs_new_protected:Npn \char_set_catcode_alignment:N #1
{ \char_set_catcode:nn { `#1 } { 4 } }
\cs_new_protected:Npn \char_set_catcode_end_line:N #1
{ \char_set_catcode:nn { `#1 } { 5 } }
\cs_new_protected:Npn \char_set_catcode_parameter:N #1
{ \char_set_catcode:nn { `#1 } { 6 } }
\cs_new_protected:Npn \char_set_catcode_math_superscript:N #1
{ \char_set_catcode:nn { `#1 } { 7 } }
\cs_new_protected:Npn \char_set_catcode_math_subscript:N #1
{ \char_set_catcode:nn { `#1 } { 8 } }
\cs_new_protected:Npn \char_set_catcode_ignore:N #1
{ \char_set_catcode:nn { `#1 } { 9 } }
\cs_new_protected:Npn \char_set_catcode_space:N #1
{ \char_set_catcode:nn { `#1 } { 10 } }
\cs_new_protected:Npn \char_set_catcode_letter:N #1
{ \char_set_catcode:nn { `#1 } { 11 } }
\cs_new_protected:Npn \char_set_catcode_other:N #1
{ \char_set_catcode:nn { `#1 } { 12 } }
\cs_new_protected:Npn \char_set_catcode_active:N #1
{ \char_set_catcode:nn { `#1 } { 13 } }
\cs_new_protected:Npn \char_set_catcode_comment:N #1
{ \char_set_catcode:nn { `#1 } { 14 } }
\cs_new_protected:Npn \char_set_catcode_invalid:N #1
{ \char_set_catcode:nn { `#1 } { 15 } }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}
% {
% \char_set_catcode_escape:n ,
% \char_set_catcode_group_begin:n ,
% \char_set_catcode_group_end:n ,
% \char_set_catcode_math_toggle:n ,
% \char_set_catcode_alignment:n ,
% \char_set_catcode_end_line:n ,
% \char_set_catcode_parameter:n ,
% \char_set_catcode_math_superscript:n ,
% \char_set_catcode_math_subscript:n ,
% \char_set_catcode_ignore:n ,
% \char_set_catcode_space:n ,
% \char_set_catcode_letter:n ,
% \char_set_catcode_other:n ,
% \char_set_catcode_active:n ,
% \char_set_catcode_comment:n ,
% \char_set_catcode_invalid:n
% }
% \begin{macrocode}
\cs_new_protected:Npn \char_set_catcode_escape:n #1
{ \char_set_catcode:nn {#1} { 0 } }
\cs_new_protected:Npn \char_set_catcode_group_begin:n #1
{ \char_set_catcode:nn {#1} { 1 } }
\cs_new_protected:Npn \char_set_catcode_group_end:n #1
{ \char_set_catcode:nn {#1} { 2 } }
\cs_new_protected:Npn \char_set_catcode_math_toggle:n #1
{ \char_set_catcode:nn {#1} { 3 } }
\cs_new_protected:Npn \char_set_catcode_alignment:n #1
{ \char_set_catcode:nn {#1} { 4 } }
\cs_new_protected:Npn \char_set_catcode_end_line:n #1
{ \char_set_catcode:nn {#1} { 5 } }
\cs_new_protected:Npn \char_set_catcode_parameter:n #1
{ \char_set_catcode:nn {#1} { 6 } }
\cs_new_protected:Npn \char_set_catcode_math_superscript:n #1
{ \char_set_catcode:nn {#1} { 7 } }
\cs_new_protected:Npn \char_set_catcode_math_subscript:n #1
{ \char_set_catcode:nn {#1} { 8 } }
\cs_new_protected:Npn \char_set_catcode_ignore:n #1
{ \char_set_catcode:nn {#1} { 9 } }
\cs_new_protected:Npn \char_set_catcode_space:n #1
{ \char_set_catcode:nn {#1} { 10 } }
\cs_new_protected:Npn \char_set_catcode_letter:n #1
{ \char_set_catcode:nn {#1} { 11 } }
\cs_new_protected:Npn \char_set_catcode_other:n #1
{ \char_set_catcode:nn {#1} { 12 } }
\cs_new_protected:Npn \char_set_catcode_active:n #1
{ \char_set_catcode:nn {#1} { 13 } }
\cs_new_protected:Npn \char_set_catcode_comment:n #1
{ \char_set_catcode:nn {#1} { 14 } }
\cs_new_protected:Npn \char_set_catcode_invalid:n #1
{ \char_set_catcode:nn {#1} { 15 } }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\char_set_mathcode:nn}
% \begin{macro}{\char_value_mathcode:n}
% \begin{macro}{\char_show_value_mathcode:n}
% \begin{macro}{\char_set_lccode:nn}
% \begin{macro}{\char_value_lccode:n}
% \begin{macro}{\char_show_value_lccode:n}
% \begin{macro}{\char_set_uccode:nn}
% \begin{macro}{\char_value_uccode:n}
% \begin{macro}{\char_show_value_uccode:n}
% \begin{macro}{\char_set_sfcode:nn}
% \begin{macro}{\char_value_sfcode:n}
% \begin{macro}{\char_show_value_sfcode:n}
% Pretty repetitive, but necessary!
% \begin{macrocode}
\cs_new_protected:Npn \char_set_mathcode:nn #1#2
{ \tex_mathcode:D \int_eval:n {#1} = \int_eval:n {#2} \exp_stop_f: }
\cs_new:Npn \char_value_mathcode:n #1
{ \tex_the:D \tex_mathcode:D \int_eval:n {#1} \exp_stop_f: }
\cs_new_protected:Npn \char_show_value_mathcode:n #1
{ \exp_args:Nf \tl_show:n { \char_value_mathcode:n {#1} } }
\cs_new_protected:Npn \char_set_lccode:nn #1#2
{ \tex_lccode:D \int_eval:n {#1} = \int_eval:n {#2} \exp_stop_f: }
\cs_new:Npn \char_value_lccode:n #1
{ \tex_the:D \tex_lccode:D \int_eval:n {#1} \exp_stop_f: }
\cs_new_protected:Npn \char_show_value_lccode:n #1
{ \exp_args:Nf \tl_show:n { \char_value_lccode:n {#1} } }
\cs_new_protected:Npn \char_set_uccode:nn #1#2
{ \tex_uccode:D \int_eval:n {#1} = \int_eval:n {#2} \exp_stop_f: }
\cs_new:Npn \char_value_uccode:n #1
{ \tex_the:D \tex_uccode:D \int_eval:n {#1} \exp_stop_f: }
\cs_new_protected:Npn \char_show_value_uccode:n #1
{ \exp_args:Nf \tl_show:n { \char_value_uccode:n {#1} } }
\cs_new_protected:Npn \char_set_sfcode:nn #1#2
{ \tex_sfcode:D \int_eval:n {#1} = \int_eval:n {#2} \exp_stop_f: }
\cs_new:Npn \char_value_sfcode:n #1
{ \tex_the:D \tex_sfcode:D \int_eval:n {#1} \exp_stop_f: }
\cs_new_protected:Npn \char_show_value_sfcode:n #1
{ \exp_args:Nf \tl_show:n { \char_value_sfcode:n {#1} } }
% \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}
%
% \begin{variable}{\l_char_active_seq, \l_char_special_seq}
% Two sequences for dealing with special characters. The first is characters
% which may be active, the second longer list is for \enquote{special}
% characters more generally. Both lists are escaped so that for example
% bulk code assignments can be carried out. In both cases, the order is
% by \textsc{ascii} character code (as is done in for example
% \cs{ExplSyntaxOn}).
% \begin{macrocode}
\seq_new:N \l_char_special_seq
\seq_set_split:Nnn \l_char_special_seq { }
{ \ \" \# \$ \% \& \\ \^ \_ \{ \} \~ }
\seq_new:N \l_char_active_seq
\seq_set_split:Nnn \l_char_active_seq { }
{ \" \$ \& \^ \_ \~ }
% \end{macrocode}
% \end{variable}
%
% \subsection{Creating character tokens}
%
% \begin{macro}
% {
% \char_set_active_eq:NN, \char_gset_active_eq:NN,
% \char_set_active_eq:Nc, \char_gset_active_eq:Nc,
% \char_set_active_eq:nN, \char_gset_active_eq:nN,
% \char_set_active_eq:nc, \char_gset_active_eq:nc
% }
% Four simple functions with very similar definitions, so set up using
% an auxiliary.
% These are similar to \LuaTeX{}'s \tn{letcharcode} primitive.
% \begin{macrocode}
\group_begin:
\char_set_catcode_active:N \^^@
\cs_set_protected:Npn \@@_tmp:nN #1#2
{
\cs_new_protected:cpn { #1 :nN } ##1
{
\group_begin:
\char_set_lccode:nn { `\^^@ } { ##1 }
\tex_lowercase:D { \group_end: #2 ^^@ }
}
\cs_new_protected:cpx { #1 :NN } ##1
{ \exp_not:c { #1 : nN } { `##1 } }
}
\@@_tmp:nN { char_set_active_eq } \cs_set_eq:NN
\@@_tmp:nN { char_gset_active_eq } \cs_gset_eq:NN
\group_end:
\cs_generate_variant:Nn \char_set_active_eq:NN { Nc }
\cs_generate_variant:Nn \char_gset_active_eq:NN { Nc }
\cs_generate_variant:Nn \char_set_active_eq:nN { nc }
\cs_generate_variant:Nn \char_gset_active_eq:nN { nc }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_int_to_roman:w}
% For efficiency in 8-bit engines, we use the faster primitive approach
% to making roman numerals.
% \begin{macrocode}
\cs_new_eq:NN \@@_int_to_roman:w \tex_romannumeral:D
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[EXP]{\char_generate:nn}
% \begin{macro}[EXP]{\@@_generate_aux:nn}
% \begin{macro}[EXP]{\@@_generate_aux:nnw, \@@_generate_auxii:nnw}
% \begin{variable}{\l_@@_tmp_tl}
% \begin{macro}[EXP]{\@@_generate_invalid_catcode:}
% The aim here is to generate characters of (broadly) arbitrary category
% code. Where possible, that is done using engine support (\XeTeX{},
% \LuaTeX{}). There are though various issues which are covered below. At
% the interface layer, turn the two arguments into integers up-front so
% this is only done once.
% \begin{macrocode}
\cs_new:Npn \char_generate:nn #1#2
{
\exp:w \exp_after:wN \@@_generate_aux:w
\int_value:w \int_eval:n {#1} \exp_after:wN ;
\int_value:w \int_eval:n {#2} ;
}
% \end{macrocode}
% Before doing any actual conversion, first some special case filtering.
% Spaces are out here as \LuaTeX{} emulation only makes normal (charcode
% $32$ spaces). However, |^^@| is filtered out separately as that can't be
% done with macro emulation either, so is flagged up separately. That
% done, hand off to the engine-dependent part.
% \begin{macrocode}
\cs_new:Npn \@@_generate_aux:w #1 ; #2 ;
{
\if_int_compare:w #2 = 10 \exp_stop_f:
\if_int_compare:w #1 = 0 \exp_stop_f:
\__kernel_msg_expandable_error:nn { kernel } { char-null-space }
\else:
\__kernel_msg_expandable_error:nn { kernel } { char-space }
\fi:
\else:
\if_int_odd:w 0
\if_int_compare:w #2 < 1 \exp_stop_f: 1 \fi:
\if_int_compare:w #2 = 5 \exp_stop_f: 1 \fi:
\if_int_compare:w #2 = 9 \exp_stop_f: 1 \fi:
\if_int_compare:w #2 > 13 \exp_stop_f: 1 \fi: \exp_stop_f:
\__kernel_msg_expandable_error:nn { kernel }
{ char-invalid-catcode }
\else:
\if_int_odd:w 0
\if_int_compare:w #1 < 0 \exp_stop_f: 1 \fi:
\if_int_compare:w #1 > \c_max_char_int 1 \fi: \exp_stop_f:
\__kernel_msg_expandable_error:nn { kernel }
{ char-out-of-range }
\else:
\@@_generate_aux:nnw {#1} {#2}
\fi:
\fi:
\fi:
\exp_end:
}
\tl_new:N \l_@@_tmp_tl
% \end{macrocode}
% Engine-dependent definitions are now needed for the implementation. For
% \LuaTeX{} and \XeTeX{} there is engine-level support.
% They can do cases that macro emulation can't. All of those are filtered
% out here using a primitive-based boolean expression to avoid fixing
% the category code of the null character used in the false branch
% (for 8-bit engines).
% The final level is the basic definition at the engine level: the arguments
% here are integers so there is no need to worry about them too much.
% Older versions of \XeTeX{} cannot generate active characters so we filter
% that:
% at some future stage that may change: the slightly odd ordering of
% auxiliaries reflects that.
% \begin{macrocode}
\group_begin:
%<*package>
\char_set_catcode_active:N \^^L
\cs_set:Npn ^^L { }
%</package>
\char_set_catcode_other:n { 0 }
\if_int_odd:w 0
\sys_if_engine_luatex:T { 1 }
\sys_if_engine_xetex:T { 1 } \exp_stop_f:
\sys_if_engine_luatex:TF
{
\cs_new:Npn \@@_generate_aux:nnw #1#2#3 \exp_end:
{
#3
\exp_after:wN \exp_after:wN \exp_after:wN \exp_end:
\lua_now:e { l3kernel.charcat(#1, #2) }
}
}
{
\cs_new:Npn \@@_generate_aux:nnw #1#2#3 \exp_end:
{
#3
\exp_after:wN \exp_end:
\tex_Ucharcat:D #1 \exp_stop_f: #2 \exp_stop_f:
}
\cs_if_exist:NF \tex_expanded:D
{
\cs_new_eq:NN \@@_generate_auxii:nnw \@@_generate_aux:nnw
\cs_gset:Npn \@@_generate_aux:nnw #1#2#3 \exp_end:
{
#3
\if_int_compare:w #2 = 13 \exp_stop_f:
\__kernel_msg_expandable_error:nn { kernel } { char-active }
\else:
\@@_generate_auxii:nnw {#1} {#2}
\fi:
\exp_end:
}
}
}
\else:
% \end{macrocode}
% For engines where \tn{Ucharcat} isn't available or emulated, we have
% to work in macros, and cover only the $8$-bit range. The first stage is
% to build up a |tl| containing |^^@| with each category code that can
% be accessed in this way, with an error set up for the other cases. This
% is all done such that it can be quickly accessed using a |\if_case:w|
% low-level conditional. There are a few things to notice here.
% As |^^L| is |\outer| we need to locally set it to avoid a problem.
% To get open/close braces into the list, they are set up using |\if_false:|
% pairing and are then |x|-type expanded together into the desired form.
% \begin{macrocode}
\tl_set:Nn \l_@@_tmp_tl { \exp_not:N \or: }
\char_set_catcode_group_begin:n { 0 } % {
\tl_put_right:Nn \l_@@_tmp_tl { ^^@ \if_false: } }
\char_set_catcode_group_end:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { { \fi: \exp_not:N \or: ^^@ } % }
\tl_set:Nx \l_@@_tmp_tl { \l_@@_tmp_tl }
\char_set_catcode_math_toggle:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\char_set_catcode_alignment:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\tl_put_right:Nn \l_@@_tmp_tl { \or: }
\char_set_catcode_parameter:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\char_set_catcode_math_superscript:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\char_set_catcode_math_subscript:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\tl_put_right:Nn \l_@@_tmp_tl { \or: }
% \end{macrocode}
% For making spaces, there needs to be an |o|-type expansion of a |\use:n|
% (or some other tokenization) to avoid dropping the space.
% \begin{macrocode}
\char_set_catcode_space:n { 0 }
\tl_put_right:No \l_@@_tmp_tl { \use:n { \or: } ^^@ }
\char_set_catcode_letter:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\char_set_catcode_other:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
\char_set_catcode_active:n { 0 }
\tl_put_right:Nn \l_@@_tmp_tl { \or: ^^@ }
% \end{macrocode}
% Convert the above temporary list into a series of constant token
% lists, one for each character code, using \tn{tex_lowercase:D} to
% convert |^^@| in each case. The \texttt{x}-type expansion ensures
% that \tn{tex_lowercase:D} receives the contents of the token list.
% In package mode, |^^L| is awkward hence this is done in three parts.
% Notice that at this stage |^^@| is active.
% \begin{macrocode}
\cs_set_protected:Npn \@@_tmp:n #1
{
\char_set_lccode:nn { 0 } {#1}
\char_set_lccode:nn { 32 } {#1}
\exp_args:Nx \tex_lowercase:D
{
\tl_const:Nn
\exp_not:c { c_@@_ \@@_int_to_roman:w #1 _tl }
{ \exp_not:o \l_@@_tmp_tl }
}
}
%<*package>
\int_step_function:nnN { 0 } { 11 } \@@_tmp:n
\group_begin:
\tl_replace_once:Nnn \l_@@_tmp_tl { ^^@ } { \ERROR }
\@@_tmp:n { 12 }
\group_end:
\int_step_function:nnN { 13 } { 255 } \@@_tmp:n
%</package>
%<*initex>
\int_step_function:nnN { 0 } { 255 } \@@_tmp:n
%</initex>
% \end{macrocode}
% As \TeX{} is very unhappy if it finds an alignment character inside
% a primitive \tn{halign} even when skipping false branches, some
% precautions are required. \TeX{} is happy if the token is hidden
% between braces within \cs{if_false:} \dots{} \cs{fi:}.
% \begin{macrocode}
\cs_new:Npn \@@_generate_aux:nnw #1#2#3 \exp_end:
{
#3
\if_false: { \fi:
\exp_after:wN \exp_after:wN
\exp_after:wN \exp_end:
\exp_after:wN \exp_after:wN
\if_case:w #2
\exp_last_unbraced:Nv \exp_stop_f:
{ c_@@_ \@@_int_to_roman:w #1 _tl }
\or: }
\fi:
}
\fi:
\group_end:
% \end{macrocode}
% \end{macro}
% \end{variable}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}[EXP]{\char_to_utfviii_bytes:n}
% \begin{macro}[EXP]{\@@_to_utfviii_bytes_auxi:n}
% \begin{macro}[EXP]{\@@_to_utfviii_bytes_auxii:Nnn}
% \begin{macro}[EXP]{\@@_to_utfviii_bytes_auxiii:n}
% \begin{macro}[EXP]
% {
% \@@_to_utfviii_bytes_outputi:nw ,
% \@@_to_utfviii_bytes_outputii:nw ,
% \@@_to_utfviii_bytes_outputiii:nw ,
% \@@_to_utfviii_bytes_outputiv:nw
% }
% \begin{macro}[EXP]
% {\@@_to_utfviii_bytes_output:nnn, \@@_to_utfviii_bytes_output:fnn}
% \begin{macro}[EXP]{\@@_to_utfviii_bytes_end:}
% This code converts a codepoint into the correct UTF-8 representation.
% In terms of the algorithm itself, see
% \url{https://en.wikipedia.org/wiki/UTF-8} for the octet pattern.
% \begin{macrocode}
\cs_new:Npn \char_to_utfviii_bytes:n #1
{
\exp_args:Nf \@@_to_utfviii_bytes_auxi:n
{ \int_eval:n {#1} }
}
\cs_new:Npn \@@_to_utfviii_bytes_auxi:n #1
{
\if_int_compare:w #1 > "80 \exp_stop_f:
\if_int_compare:w #1 < "800 \exp_stop_f:
\@@_to_utfviii_bytes_outputi:nw
{ \@@_to_utfviii_bytes_auxii:Nnn C {#1} { 64 } }
\@@_to_utfviii_bytes_outputii:nw
{ \@@_to_utfviii_bytes_auxiii:n {#1} }
\else:
\if_int_compare:w #1 < "10000 \exp_stop_f:
\@@_to_utfviii_bytes_outputi:nw
{ \@@_to_utfviii_bytes_auxii:Nnn E {#1} { 64 * 64 } }
\@@_to_utfviii_bytes_outputii:nw
{
\@@_to_utfviii_bytes_auxiii:n
{ \int_div_truncate:nn {#1} { 64 } }
}
\@@_to_utfviii_bytes_outputiii:nw
{ \@@_to_utfviii_bytes_auxiii:n {#1} }
\else:
\@@_to_utfviii_bytes_outputi:nw
{
\@@_to_utfviii_bytes_auxii:Nnn F
{#1} { 64 * 64 * 64 }
}
\@@_to_utfviii_bytes_outputii:nw
{
\@@_to_utfviii_bytes_auxiii:n
{ \int_div_truncate:nn {#1} { 64 * 64 } }
}
\@@_to_utfviii_bytes_outputiii:nw
{
\@@_to_utfviii_bytes_auxiii:n
{ \int_div_truncate:nn {#1} { 64 } }
}
\@@_to_utfviii_bytes_outputiv:nw
{ \@@_to_utfviii_bytes_auxiii:n {#1} }
\fi:
\fi:
\else:
\@@_to_utfviii_bytes_outputi:nw {#1}
\fi:
\@@_to_utfviii_bytes_end: { } { } { } { }
}
\cs_new:Npn \@@_to_utfviii_bytes_auxii:Nnn #1#2#3
{ "#10 + \int_div_truncate:nn {#2} {#3} }
\cs_new:Npn \@@_to_utfviii_bytes_auxiii:n #1
{ \int_mod:nn {#1} { 64 } + 128 }
\cs_new:Npn \@@_to_utfviii_bytes_outputi:nw
#1 #2 \@@_to_utfviii_bytes_end: #3
{ \@@_to_utfviii_bytes_output:fnn { \int_eval:n {#1} } { } {#2} }
\cs_new:Npn \@@_to_utfviii_bytes_outputii:nw
#1 #2 \@@_to_utfviii_bytes_end: #3#4
{ \@@_to_utfviii_bytes_output:fnn { \int_eval:n {#1} } { {#3} } {#2} }
\cs_new:Npn \@@_to_utfviii_bytes_outputiii:nw
#1 #2 \@@_to_utfviii_bytes_end: #3#4#5
{
\@@_to_utfviii_bytes_output:fnn
{ \int_eval:n {#1} } { {#3} {#4} } {#2}
}
\cs_new:Npn \@@_to_utfviii_bytes_outputiv:nw
#1 #2 \@@_to_utfviii_bytes_end: #3#4#5#6
{
\@@_to_utfviii_bytes_output:fnn
{ \int_eval:n {#1} } { {#3} {#4} {#5} } {#2}
}
\cs_new:Npn \@@_to_utfviii_bytes_output:nnn #1#2#3
{
#3
\@@_to_utfviii_bytes_end: #2 {#1}
}
\cs_generate_variant:Nn \@@_to_utfviii_bytes_output:nnn { f }
\cs_new:Npn \@@_to_utfviii_bytes_end: { }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}[rEXP]{\char_to_nfd:N}
% \begin{macro}[rEXP]{\@@_to_nfd:n}
% \begin{macro}[rEXP]{\@@_to_nfd:Nw}
% Look up any \textsc{nfd} and recursively produce the result.
% \begin{macrocode}
\cs_new:Npn \char_to_nfd:N #1
{
\cs_if_exist:cTF { c_@@_nfd_ \token_to_str:N #1 _ tl }
{
\exp_after:wN \exp_after:wN \exp_after:wN \@@_to_nfd:Nw
\exp_after:wN \exp_after:wN \exp_after:wN #1
\cs:w c_@@_nfd_ \token_to_str:N #1 _ tl \cs_end:
\s_@@_stop
}
{ \exp_not:n {#1} }
}
\cs_set_eq:NN \@@_to_nfd:n \char_to_nfd:N
\cs_new:Npn \@@_to_nfd:Nw #1#2#3 \s_@@_stop
{
\exp_args:Ne \@@_to_nfd:n
{ \char_generate:nn { `#2 } { \@@_change_case_catcode:N #1 } }
\tl_if_blank:nF {#3}
{
\exp_args:Ne \@@_to_nfd:n
{ \char_generate:nn { `#3 } { \char_value_catcode:n { `#3 } } }
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}[EXP]
% {
% \char_lowercase:N, \char_uppercase:N,
% \char_titlecase:N, \char_foldcase:N
% }
% \begin{macro}[EXP]{\@@_change_case:nNN}
% \begin{macro}[EXP]{\@@_change_case:nN}
% \begin{macro}[EXP]{\@@_change_case_multi:nN, \@@_change_case_multi:vN}
% \begin{macro}[EXP]{\@@_change_case_multi:NNNNw}
% \begin{macro}[EXP]{\@@_change_case:NNN}
% \begin{macro}[EXP]{\@@_change_case:NNNN}
% \begin{macro}[EXP]{\@@_change_case:NN}
% \begin{macro}[EXP]{\@@_change_case_catcode:N}
% \begin{macro}[EXP]
% {
% \char_str_lowercase:N, \char_str_uppercase:N,
% \char_str_titlecase:N, \char_str_foldcase:N
% }
% \begin{macro}[EXP]{\@@_str_change_case:nNN}
% \begin{macro}[EXP]{\@@_str_change_case:nN}
% To ensure that the category codes produced are predictable, every character
% is re-generated even if it is otherwise unchanged. This makes life a little
% interesting when we might have multiple output characters: we have to
% grab each of them and case change them in reverse order to maintain
% \texttt{f}-type expandability.
% \begin{macrocode}
\cs_new:Npn \char_lowercase:N #1
{ \@@_change_case:nNN { lower } \char_value_lccode:n #1 }
\cs_new:Npn \char_uppercase:N #1
{ \@@_change_case:nNN { upper } \char_value_uccode:n #1 }
\cs_new:Npn \char_titlecase:N #1
{
\tl_if_exist:cTF { c_@@_titlecase_ \token_to_str:N #1 _tl }
{
\@@_change_case_multi:vN
{ c_@@_titlecase_ \token_to_str:N #1 _tl } #1
}
{ \char_uppercase:N #1 }
}
\cs_new:Npn \char_foldcase:N #1
{ \@@_change_case:nNN { fold } \char_value_lccode:n #1 }
\cs_new:Npn \@@_change_case:nNN #1#2#3
{
\tl_if_exist:cTF { c_@@_ #1 case_ \token_to_str:N #3 _tl }
{
\@@_change_case_multi:vN
{ c_@@_ #1 case_ \token_to_str:N #3 _tl } #3
}
{ \exp_args:Nf \@@_change_case:nN { #2 { `#3 } } #3 }
}
\cs_new:Npn \@@_change_case:nN #1#2
{
\int_compare:nNnTF {#1} = 0
{ #2 }
{ \char_generate:nn {#1} { \@@_change_case_catcode:N #2 } }
}
\cs_new:Npn \@@_change_case_multi:nN #1#2
{ \@@_change_case_multi:NNNNw #2 #1 \q_@@_no_value \q_@@_no_value \s_@@_stop }
\cs_generate_variant:Nn \@@_change_case_multi:nN { v }
\cs_new:Npn \@@_change_case_multi:NNNNw #1#2#3#4#5 \s_@@_stop
{
\@@_quark_if_no_value:NTF #4
{
\@@_quark_if_no_value:NTF #3
{ \@@_change_case:NN #1 #2 }
{ \@@_change_case:NNN #1 #2#3 }
}
{ \@@_change_case:NNNN #1 #2#3#4 }
}
\cs_new:Npn \@@_change_case:NNN #1#2#3
{
\exp_args:Nnf \use:nn
{ \@@_change_case:NN #1 #2 }
{ \@@_change_case:NN #1 #3 }
}
\cs_new:Npn \@@_change_case:NNNN #1#2#3#4
{
\exp_args:Nnff \use:nnn
{ \@@_change_case:NN #1 #2 }
{ \@@_change_case:NN #1 #3 }
{ \@@_change_case:NN #1 #4 }
}
\cs_new:Npn \@@_change_case:NN #1#2
{ \char_generate:nn { `#2 } { \@@_change_case_catcode:N #1 } }
\cs_new:Npn \@@_change_case_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}
% Same story for the string version, except category code is easier
% to follow. This of course makes this version significantly faster.
% \begin{macrocode}
\cs_new:Npn \char_str_lowercase:N #1
{ \@@_str_change_case:nNN { lower } \char_value_lccode:n #1 }
\cs_new:Npn \char_str_uppercase:N #1
{ \@@_str_change_case:nNN { upper } \char_value_uccode:n #1 }
\cs_new:Npn \char_str_titlecase:N #1
{
\tl_if_exist:cTF { c_@@_titlecase_ \token_to_str:N #1 _tl }
{ \tl_to_str:c { c_@@_titlecase_ \token_to_str:N #1 _tl } }
{ \char_str_uppercase:N #1 }
}
\cs_new:Npn \char_str_foldcase:N #1
{ \@@_str_change_case:nNN { fold } \char_value_lccode:n #1 }
\cs_new:Npn \@@_str_change_case:nNN #1#2#3
{
\tl_if_exist:cTF { c_@@_ #1 case_ \token_to_str:N #3 _tl }
{ \tl_to_str:c { c_@@_ #1 case_ \token_to_str:N #3 _tl } }
{ \exp_args:Nf \@@_str_change_case:nN { #2 { `#3 } } #3 }
}
\cs_new:Npn \@@_str_change_case:nN #1#2
{
\int_compare:nNnTF {#1} = 0
{ \tl_to_str:n {#2} }
{ \char_generate:nn {#1} { 12 } }
}
\bool_lazy_or:nnF
{ \cs_if_exist_p:N \tex_luatexversion:D }
{ \cs_if_exist_p:N \tex_XeTeXversion:D }
{
\cs_set:Npn \@@_str_change_case:nN #1#2
{ \tl_to_str:n {#2} }
}
% \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}
%
% \begin{macro}{\c_catcode_other_space_tl}
% Create a space with category code $12$: an \enquote{other} space.
% \begin{macrocode}
\tl_const:Nx \c_catcode_other_space_tl { \char_generate:nn { `\ } { 12 } }
% \end{macrocode}
% \end{macro}
%
% \subsection{Generic tokens}
%
% \begin{macrocode}
%<@@=token>
% \end{macrocode}
%
% \begin{variable}{\s_@@_stop}
% Internal scan marks.
% \begin{macrocode}
\scan_new:N \s_@@_stop
% \end{macrocode}
% \end{variable}
%
% \begin{macro}{\token_to_meaning:N, \token_to_meaning:c}
% \begin{macro}{\token_to_str:N, \token_to_str:c}
% These are all defined in \pkg{l3basics}, as they are needed
% \enquote{early}. This is just a reminder!
% \end{macro}
% \end{macro}
%
% \begin{macro}
% {
% \c_group_begin_token,
% \c_group_end_token,
% \c_math_toggle_token,
% \c_alignment_token,
% \c_parameter_token,
% \c_math_superscript_token,
% \c_math_subscript_token,
% \c_space_token,
% \c_catcode_letter_token,
% \c_catcode_other_token
% }
% We define these useful tokens. For the brace and space tokens things have
% to be done by hand: the formal argument spec.~for \cs{cs_new_eq:NN} does
% not cover them so we do things by hand. (As currently coded it would
% \emph{work} with \cs{cs_new_eq:NN} but that's not really a great idea to
% show off: we want people to stick to the defined interfaces and that
% includes us.) So that these few odd names go into the log when appropriate
% there is a need to hand-apply the \cs{__kernel_chk_if_free_cs:N} check.
% \begin{macrocode}
\group_begin:
\__kernel_chk_if_free_cs:N \c_group_begin_token
\tex_global:D \tex_let:D \c_group_begin_token {
\__kernel_chk_if_free_cs:N \c_group_end_token
\tex_global:D \tex_let:D \c_group_end_token }
\char_set_catcode_math_toggle:N \*
\cs_new_eq:NN \c_math_toggle_token *
\char_set_catcode_alignment:N \*
\cs_new_eq:NN \c_alignment_token *
\cs_new_eq:NN \c_parameter_token #
\cs_new_eq:NN \c_math_superscript_token ^
\char_set_catcode_math_subscript:N \*
\cs_new_eq:NN \c_math_subscript_token *
\__kernel_chk_if_free_cs:N \c_space_token
\use:n { \tex_global:D \tex_let:D \c_space_token = ~ } ~
\cs_new_eq:NN \c_catcode_letter_token a
\cs_new_eq:NN \c_catcode_other_token 1
\group_end:
% \end{macrocode}
% \end{macro}
%
% \begin{variable}{\c_catcode_active_tl}
% Not an implicit token!
% \begin{macrocode}
\group_begin:
\char_set_catcode_active:N \*
\tl_const:Nn \c_catcode_active_tl { \exp_not:N * }
\group_end:
% \end{macrocode}
% \end{variable}
%
% \subsection{Token conditionals}
%
% \begin{macro}[pTF]{\token_if_group_begin:N}
% Check if token is a begin group token. We use the constant
% \cs{c_group_begin_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_group_begin:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_group_begin_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_group_end:N}
% Check if token is a end group token. We use the constant
% \cs{c_group_end_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_group_end:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_group_end_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_math_toggle:N}
% Check if token is a math shift token. We use the constant
% \cs{c_math_toggle_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_math_toggle:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_math_toggle_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_alignment:N}
% Check if token is an alignment tab token. We use the constant
% \cs{c_alignment_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_alignment:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_alignment_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_parameter:N}
% Check if token is a parameter token. We use the constant
% \cs{c_parameter_token} for this. We have to trick \TeX{} a bit to
% avoid an error message: within a group we prevent
% \cs{c_parameter_token} from behaving like a macro parameter character.
% The definitions of \cs{prg_new_conditional:Npnn} are global, so they
% remain after the group.
% \begin{macrocode}
\group_begin:
\cs_set_eq:NN \c_parameter_token \scan_stop:
\prg_new_conditional:Npnn \token_if_parameter:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_parameter_token
\prg_return_true: \else: \prg_return_false: \fi:
}
\group_end:
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_math_superscript:N}
% Check if token is a math superscript token. We use the constant
% \cs{c_math_superscript_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_math_superscript:N #1
{ p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_math_superscript_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_math_subscript:N}
% Check if token is a math subscript token. We use the constant
% \cs{c_math_subscript_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_math_subscript:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_math_subscript_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_space:N}
% Check if token is a space token. We use the constant
% \cs{c_space_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_space:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_space_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_letter:N}
% Check if token is a letter token. We use the constant
% \cs{c_catcode_letter_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_letter:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_catcode_letter_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_other:N}
% Check if token is an other char token. We use the constant
% \cs{c_catcode_other_token} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_other:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_catcode_other_token
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_active:N}
% Check if token is an active char token. We use the constant
% \cs{c_catcode_active_tl} for this. A technical point is that
% \cs{c_catcode_active_tl} is in fact a macro expanding to
% |\exp_not:N *|, where |*| is active.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_active:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \c_catcode_active_tl
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_eq_meaning:NN}
% Check if the tokens |#1| and |#2| have same meaning.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_eq_meaning:NN #1#2 { p , T , F , TF }
{
\if_meaning:w #1 #2
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_eq_catcode:NN}
% Check if the tokens |#1| and |#2| have same category code.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_eq_catcode:NN #1#2 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \exp_not:N #2
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_eq_charcode:NN}
% Check if the tokens |#1| and |#2| have same character code.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_eq_charcode:NN #1#2 { p , T , F , TF }
{
\if_charcode:w \exp_not:N #1 \exp_not:N #2
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_macro:N}
% \begin{macro}{\@@_if_macro_p:w}
% When a token is a macro, \cs{token_to_meaning:N} always outputs
% something like |\long macro:#1->#1| so we could naively check to
% see if the meaning contains |->|. However, this can fail the five
% \tn[no-index]{...mark} primitives, whose meaning has the form
% |...mark:|\meta{user material}. The problem is that the
% \meta{user material} can contain |->|.
%
% However, only characters, macros, and marks can contain the colon
% character. The idea is thus to grab until the first |:|, and analyse
% what is left. However, macros can have any combination of |\long|,
% |\protected| or |\outer| (not used in \LaTeX3) before the string
% |macro:|. We thus only select the part of the meaning between
% the first |ma| and the first following |:|. If this string is
% |cro|, then we have a macro. If the string is |rk|, then we have
% a mark. The string can also be |cro parameter character | for a
% colon with a weird category code (namely the usual category code
% of |#|). Otherwise, it is empty.
%
% This relies on the fact that |\long|, |\protected|, |\outer|
% cannot contain |ma|, regardless of the escape character, even if
% the escape character is |m|\ldots{}
%
% Both |ma| and |:| must be of category code $12$ (other), so are
% detokenized.
%
% \begin{macrocode}
\use:x
{
\prg_new_conditional:Npnn \exp_not:N \token_if_macro:N ##1
{ p , T , F , TF }
{
\exp_not:N \exp_after:wN \exp_not:N \@@_if_macro_p:w
\exp_not:N \token_to_meaning:N ##1 \tl_to_str:n { ma : }
\s_@@_stop
}
\cs_new:Npn \exp_not:N \@@_if_macro_p:w
##1 \tl_to_str:n { ma } ##2 \c_colon_str ##3 \s_@@_stop
}
{
\str_if_eq:nnTF { #2 } { cro }
{ \prg_return_true: }
{ \prg_return_false: }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_cs:N}
% Check if token has same catcode as a control sequence. This
% follows the same pattern as for \cs{token_if_letter:N} \emph{etc.}
% We use \cs{scan_stop:} for this.
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_cs:N #1 { p , T , F , TF }
{
\if_catcode:w \exp_not:N #1 \scan_stop:
\prg_return_true: \else: \prg_return_false: \fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_expandable:N}
% Check if token is expandable. We use the fact that \TeX{}
% temporarily converts \cs{exp_not:N} \meta{token} into \cs{scan_stop:}
% if \meta{token} is expandable. An \texttt{undefined} token is not
% considered as expandable. No problem nesting the conditionals,
% since the third |#1| is only skipped if it is non-expandable (hence
% not part of \TeX{}'s conditional apparatus).
% \begin{macrocode}
\prg_new_conditional:Npnn \token_if_expandable:N #1 { p , T , F , TF }
{
\exp_after:wN \if_meaning:w \exp_not:N #1 #1
\prg_return_false:
\else:
\if_cs_exist:N #1
\prg_return_true:
\else:
\prg_return_false:
\fi:
\fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}
% {
% \@@_delimit_by_char":w,
% \@@_delimit_by_count:w,
% \@@_delimit_by_dimen:w,
% \@@_delimit_by_macro:w,
% \@@_delimit_by_muskip:w,
% \@@_delimit_by_skip:w,
% \@@_delimit_by_toks:w,
% }
% These auxiliary functions are used below to define some
% conditionals which detect whether the \tn{meaning} of their
% argument begins with a particular string. Each auxiliary takes an
% argument delimited by a string, a second one delimited by
% \cs{s_@@_stop}, and returns the first one and its delimiter.
% This result is eventually compared to another string.
% \begin{macrocode}
\group_begin:
\cs_set_protected:Npn \@@_tmp:w #1
{
\use:x
{
\cs_new:Npn \exp_not:c { @@_delimit_by_ #1 :w }
####1 \tl_to_str:n {#1} ####2 \s_@@_stop
{ ####1 \tl_to_str:n {#1} }
}
}
\@@_tmp:w { char" }
\@@_tmp:w { count }
\@@_tmp:w { dimen }
\@@_tmp:w { macro }
\@@_tmp:w { muskip }
\@@_tmp:w { skip }
\@@_tmp:w { toks }
\group_end:
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]
% {
% \token_if_chardef:N, \token_if_mathchardef:N,
% \token_if_long_macro:N,
% \token_if_protected_macro:N, \token_if_protected_long_macro:N,
% \token_if_dim_register:N, \token_if_int_register:N,
% \token_if_muskip_register:N,
% \token_if_skip_register:N, \token_if_toks_register:N,
% }
% Each of these conditionals tests whether its argument's
% \tn{meaning} starts with a given string. This is essentially done
% by having an auxiliary grab an argument delimited by the string and
% testing whether the argument was empty. Of course, a copy of this
% string must first be added to the end of the \tn{meaning} to avoid
% a runaway argument in case it does not contain the string. Two
% complications arise. First, the escape character is not fixed, and
% cannot be included in the delimiter of the auxiliary function (this
% function cannot be defined on the fly because tests must remain
% expandable): instead the first argument of the auxiliary (plus the
% delimiter to avoid complications with trailing spaces) is compared
% using \cs{str_if_eq:eeTF} to the result of applying
% \cs{token_to_str:N} to a control sequence. Second, the
% \tn{meaning} of primitives such as \tn{dimen} or \tn{dimendef}
% starts in the same way as registers such as
% \tn{dimen}\texttt{123}, so they must be tested for.
%
% Characters used as delimiters must have catcode~$12$
% and are obtained through \cs{tl_to_str:n}. This requires doing all
% definitions within \texttt{x}-expansion. The temporary function
% \cs{@@_tmp:w} used to define each conditional receives three
% arguments: the name of the conditional, the auxiliary's delimiter
% (also used to name the auxiliary), and the string to which one
% compares the auxiliary's result. Note that the \tn{meaning} of a
% protected long macro starts with |\protected\long macro|, with no
% space after |\protected| but a space after |\long|, hence the
% mixture of \cs{token_to_str:N} and \cs{tl_to_str:n}.
%
% For the first five conditionals, \cs{cs_if_exist:cT} turns out to
% be \texttt{false}, and the code boils down to a string comparison
% between the result of the auxiliary on the \tn{meaning} of the
% conditional's argument~|####1|, and~|#3|. Both are evaluated at
% run-time, as this is important to get the correct escape character.
%
% The other five conditionals have additional code that compares the
% argument~|####1| to two \TeX{} primitives which would wrongly be
% recognized as registers otherwise. Despite using \TeX{}'s
% primitive conditional construction, this does not break
% when~|####1| is itself a conditional, because branches of the
% conditionals are only skipped if |####1|~is one of the two
% primitives that are tested for (which are not \TeX{} conditionals).
% \begin{macrocode}
\group_begin:
\cs_set_protected:Npn \@@_tmp:w #1#2#3
{
\use:x
{
\prg_new_conditional:Npnn \exp_not:c { token_if_ #1 :N } ####1
{ p , T , F , TF }
{
\cs_if_exist:cT { tex_ #2 :D }
{
\exp_not:N \if_meaning:w ####1 \exp_not:c { tex_ #2 :D }
\exp_not:N \prg_return_false:
\exp_not:N \else:
\exp_not:N \if_meaning:w ####1 \exp_not:c { tex_ #2 def:D }
\exp_not:N \prg_return_false:
\exp_not:N \else:
}
\exp_not:N \str_if_eq:eeTF
{
\exp_not:N \exp_after:wN
\exp_not:c { @@_delimit_by_ #2 :w }
\exp_not:N \token_to_meaning:N ####1
? \tl_to_str:n {#2} \s_@@_stop
}
{ \exp_not:n {#3} }
{ \exp_not:N \prg_return_true: }
{ \exp_not:N \prg_return_false: }
\cs_if_exist:cT { tex_ #2 :D }
{
\exp_not:N \fi:
\exp_not:N \fi:
}
}
}
}
\@@_tmp:w { chardef } { char" } { \token_to_str:N \char" }
\@@_tmp:w { mathchardef } { char" } { \token_to_str:N \mathchar" }
\@@_tmp:w { long_macro } { macro } { \tl_to_str:n { \long } macro }
\@@_tmp:w { protected_macro } { macro }
{ \tl_to_str:n { \protected } macro }
\@@_tmp:w { protected_long_macro } { macro }
{ \token_to_str:N \protected \tl_to_str:n { \long } macro }
\@@_tmp:w { dim_register } { dimen } { \token_to_str:N \dimen }
\@@_tmp:w { int_register } { count } { \token_to_str:N \count }
\@@_tmp:w { muskip_register } { muskip } { \token_to_str:N \muskip }
\@@_tmp:w { skip_register } { skip } { \token_to_str:N \skip }
\@@_tmp:w { toks_register } { toks } { \token_to_str:N \toks }
\group_end:
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[pTF]{\token_if_primitive:N}
% \begin{macro}{\@@_if_primitive:NNw,
% \@@_if_primitive_space:w,
% \@@_if_primitive_nullfont:N,
% \@@_if_primitive_loop:N,
% \@@_if_primitive:Nw,
% \@@_if_primitive_undefined:N}
%^^A See http://groups.google.com/group/comp.text.tex/browse_thread/thread/0a72666873f8753d#
%
% We filter out macros first, because they cause endless trouble later
% otherwise.
%
% Primitives are almost distinguished by the fact that the result
% of \cs{token_to_meaning:N} is formed from letters only. Every other
% token has either a space (e.g., |the letter A|), a digit
% (e.g., |\count123|) or a double quote (e.g., |\char"A|).
%
% Ten exceptions: on the one hand, \cs{tex_undefined:D} is not a
% primitive, but its meaning is |undefined|, only letters;
% on the other hand, \tn{space}, \tn{italiccorr},
% \tn{hyphen}, \tn{firstmark}, \tn{topmark},
% \tn{botmark}, \tn{splitfirstmark}, \tn{splitbotmark},
% and \tn{nullfont} are primitives, but have non-letters
% in their meaning.
%
% We start by removing the two first (non-space) characters from
% the meaning. This removes the escape character (which may be
% nonexistent depending on \tn{endlinechar}), and takes care
% of three of the exceptions: \tn{space}, \tn{italiccorr}
% and \tn{hyphen}, whose meaning is at most two characters.
% This leaves a string terminated by some |:|, and \cs{s_@@_stop}.
%
% The meaning of each one of the five \tn[no-index]{...mark} primitives
% has the form \meta{letters}|:|\meta{user material}. In other words,
% the first non-letter is a colon. We remove everything after the first
% colon.
%
% We are now left with a string, which we must analyze. For primitives,
% it contains only letters. For non-primitives, it contains either
% |"|, or a space, or a digit. Two exceptions remain: \cs{tex_undefined:D},
% which is not a primitive, and \tn{nullfont}, which is a primitive.
%
% Spaces cannot be grabbed in an undelimited way, so we check them
% separately. If there is a space, we test for \tn{nullfont}.
% Otherwise, we go through characters one by one, and stop at the
% first character less than |`A| (this is not quite a test for
% \enquote{only letters}, but is close enough to work in this context).
% If this first character is |:| then we have a primitive, or
% \cs{tex_undefined:D}, and if it is |"| or a digit, then the token
% is not a primitive.
%
% \begin{macrocode}
\tex_chardef:D \c_@@_A_int = `A ~ %
\use:x
{
\prg_new_conditional:Npnn \exp_not:N \token_if_primitive:N ##1
{ p , T , F , TF }
{
\exp_not:N \token_if_macro:NTF ##1
\exp_not:N \prg_return_false:
{
\exp_not:N \exp_after:wN \exp_not:N \@@_if_primitive:NNw
\exp_not:N \token_to_meaning:N ##1
\tl_to_str:n { : : : } \s_@@_stop ##1
}
}
\cs_new:Npn \exp_not:N \@@_if_primitive:NNw
##1##2 ##3 \c_colon_str ##4 \s_@@_stop
{
\exp_not:N \tl_if_empty:oTF
{ \exp_not:N \@@_if_primitive_space:w ##3 ~ }
{
\exp_not:N \@@_if_primitive_loop:N ##3
\c_colon_str \s_@@_stop
}
{ \exp_not:N \@@_if_primitive_nullfont:N }
}
}
\cs_new:Npn \@@_if_primitive_space:w #1 ~ { }
\cs_new:Npn \@@_if_primitive_nullfont:N #1
{
\if_meaning:w \tex_nullfont:D #1
\prg_return_true:
\else:
\prg_return_false:
\fi:
}
\cs_new:Npn \@@_if_primitive_loop:N #1
{
\if_int_compare:w `#1 < \c_@@_A_int %
\exp_after:wN \@@_if_primitive:Nw
\exp_after:wN #1
\else:
\exp_after:wN \@@_if_primitive_loop:N
\fi:
}
\cs_new:Npn \@@_if_primitive:Nw #1 #2 \s_@@_stop
{
\if:w : #1
\exp_after:wN \@@_if_primitive_undefined:N
\else:
\prg_return_false:
\exp_after:wN \use_none:n
\fi:
}
\cs_new:Npn \@@_if_primitive_undefined:N #1
{
\if_cs_exist:N #1
\prg_return_true:
\else:
\prg_return_false:
\fi:
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \subsection{Peeking ahead at the next token}
%
% \begin{macrocode}
%<@@=peek>
% \end{macrocode}
%
% Peeking ahead is implemented using a two part mechanism. The
% outer level provides a defined interface to the lower level material.
% This allows a large amount of code to be shared. There are four
% cases:
% \begin{enumerate}
% \item peek at the next token;
% \item peek at the next non-space token;
% \item peek at the next token and remove it;
% \item peek at the next non-space token and remove it.
% \end{enumerate}
%
% \begin{variable}{\l_peek_token}
% \begin{variable}{\g_peek_token}
% Storage tokens which are publicly documented: the token peeked.
% \begin{macrocode}
\cs_new_eq:NN \l_peek_token ?
\cs_new_eq:NN \g_peek_token ?
% \end{macrocode}
% \end{variable}
% \end{variable}
%
% \begin{variable}{\l_@@_search_token}
% The token to search for as an implicit token:
% \emph{cf.}~\cs{l_@@_search_tl}.
% \begin{macrocode}
\cs_new_eq:NN \l_@@_search_token ?
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_search_tl}
% The token to search for as an explicit token:
% \emph{cf.}~\cs{l_@@_search_token}.
% \begin{macrocode}
\tl_new:N \l_@@_search_tl
% \end{macrocode}
% \end{variable}
%
% \begin{macro}
% {\@@_true:w, \@@_true_aux:w, \@@_false:w, \@@_tmp:w}
% Functions used by the branching and space-stripping code.
% \begin{macrocode}
\cs_new:Npn \@@_true:w { }
\cs_new:Npn \@@_true_aux:w { }
\cs_new:Npn \@@_false:w { }
\cs_new:Npn \@@_tmp:w { }
% \end{macrocode}
% \end{macro}
%
% \begin{variable}{\s_@@_mark,\s_@@_stop}
% Internal scan marks.
% \begin{macrocode}
\scan_new:N \s_@@_mark
\scan_new:N \s_@@_stop
% \end{macrocode}
% \end{variable}
%
% \begin{macro}[EXP]{\@@_use_none_delimit_by_s_stop:w}
% Functions to gobble up to a scan mark.
% \begin{macrocode}
\cs_new:Npn \@@_use_none_delimit_by_s_stop:w #1 \s_@@_stop { }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\peek_after:Nw}
% \begin{macro}{\peek_gafter:Nw}
% Simple wrappers for \tn{futurelet}: no arguments absorbed
% here.
% \begin{macrocode}
\cs_new_protected:Npn \peek_after:Nw
{ \tex_futurelet:D \l_peek_token }
\cs_new_protected:Npn \peek_gafter:Nw
{ \tex_global:D \tex_futurelet:D \g_peek_token }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_true_remove:w}
% A function to remove the next token and then regain control.
% \begin{macrocode}
\cs_new_protected:Npn \@@_true_remove:w
{
\tex_afterassignment:D \@@_true_aux:w
\cs_set_eq:NN \@@_tmp:w
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\peek_remove_spaces:n, \@@_remove_spaces:}
% Repeatedly use \cs{@@_true_remove:w} to remove a space and call
% \cs{@@_true_aux:w}.
% \begin{macrocode}
\cs_new_protected:Npn \peek_remove_spaces:n #1
{
\cs_set:Npx \@@_false:w { \exp_not:n {#1} }
\group_align_safe_begin:
\cs_set:Npn \@@_true_aux:w { \peek_after:Nw \@@_remove_spaces: }
\@@_true_aux:w
}
\cs_new_protected:Npn \@@_remove_spaces:
{
\if_meaning:w \l_peek_token \c_space_token
\exp_after:wN \@@_true_remove:w
\else:
\group_align_safe_end:
\exp_after:wN \@@_false:w
\fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_token_generic_aux:NNNTF}
% The generic functions store the test token in both implicit and
% explicit modes, and the \texttt{true} and \texttt{false} code as
% token lists, more or less. The two branches have to be absorbed here
% as the input stream needs to be cleared for the peek function itself.
% Here, |#1| is \cs{@@_true_remove:w} when removing the token and
% \cs{@@_true_aux:w} otherwise.
% \begin{macrocode}
\cs_new_protected:Npn \@@_token_generic_aux:NNNTF #1#2#3#4#5
{
\group_align_safe_begin:
\cs_set_eq:NN \l_@@_search_token #3
\tl_set:Nn \l_@@_search_tl {#3}
\cs_set:Npx \@@_true_aux:w
{
\exp_not:N \group_align_safe_end:
\exp_not:n {#4}
}
\cs_set_eq:NN \@@_true:w #1
\cs_set:Npx \@@_false:w
{
\exp_not:N \group_align_safe_end:
\exp_not:n {#5}
}
\peek_after:Nw #2
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[TF]{\@@_token_generic:NN, \@@_token_remove_generic:NN}
% For token removal there needs to be a call to the auxiliary
% function which does the work.
% \begin{macrocode}
\cs_new_protected:Npn \@@_token_generic:NNTF
{ \@@_token_generic_aux:NNNTF \@@_true_aux:w }
\cs_new_protected:Npn \@@_token_generic:NNT #1#2#3
{ \@@_token_generic:NNTF #1 #2 {#3} { } }
\cs_new_protected:Npn \@@_token_generic:NNF #1#2#3
{ \@@_token_generic:NNTF #1 #2 { } {#3} }
\cs_new_protected:Npn \@@_token_remove_generic:NNTF
{ \@@_token_generic_aux:NNNTF \@@_true_remove:w }
\cs_new_protected:Npn \@@_token_remove_generic:NNT #1#2#3
{ \@@_token_remove_generic:NNTF #1 #2 {#3} { } }
\cs_new_protected:Npn \@@_token_remove_generic:NNF #1#2#3
{ \@@_token_remove_generic:NNTF #1 #2 { } {#3} }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_execute_branches_meaning:}
% The meaning test is straight forward.
% \begin{macrocode}
\cs_new:Npn \@@_execute_branches_meaning:
{
\if_meaning:w \l_peek_token \l_@@_search_token
\exp_after:wN \@@_true:w
\else:
\exp_after:wN \@@_false:w
\fi:
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_execute_branches_catcode:, \@@_execute_branches_charcode:}
% \begin{macro}
% {
% \@@_execute_branches_catcode_aux: ,
% \@@_execute_branches_catcode_auxii:N ,
% \@@_execute_branches_catcode_auxiii:
% }
% The catcode and charcode tests are very similar, and in order to use
% the same auxiliaries we do something a little bit odd, firing
% \cs{if_catcode:w} and \cs{if_charcode:w} before finding the operands
% for those tests, which are only given in the |auxii:N| and
% |auxiii:| auxiliaries. For our purposes, three kinds of tokens may
% follow the peeking function:
% \begin{itemize}
% \item control sequences which are not equal to a non-active
% character token (\emph{e.g.}, macro, primitive);
% \item active characters which are not equal to a non-active
% character token (\emph{e.g.}, macro, primitive);
% \item explicit non-active character tokens, or control sequences
% or active characters set equal to a non-active character token.
% \end{itemize}
% The first two cases are not distinguishable simply using \TeX{}'s
% \tn{futurelet}, because we can only access the \tn{meaning} of
% tokens in that way. In those cases, detected thanks to a
% comparison with \cs{scan_stop:}, we grab the following token, and
% compare it explicitly with the explicit search token stored in
% \cs{l_@@_search_tl}. The \cs{exp_not:N} prevents outer macros
% (coming from non-\LaTeX3 code) from blowing up. In the third case,
% \cs{l_peek_token} is good enough for the test, and we compare it
% again with the explicit search token. Just like the peek token, the
% search token may be of any of the three types above, hence the need
% to use the explicit token that was given to the peek function.
% \begin{macrocode}
\cs_new:Npn \@@_execute_branches_catcode:
{ \if_catcode:w \@@_execute_branches_catcode_aux: }
\cs_new:Npn \@@_execute_branches_charcode:
{ \if_charcode:w \@@_execute_branches_catcode_aux: }
\cs_new:Npn \@@_execute_branches_catcode_aux:
{
\if_catcode:w \exp_not:N \l_peek_token \scan_stop:
\exp_after:wN \exp_after:wN
\exp_after:wN \@@_execute_branches_catcode_auxii:N
\exp_after:wN \exp_not:N
\else:
\exp_after:wN \@@_execute_branches_catcode_auxiii:
\fi:
}
\cs_new:Npn \@@_execute_branches_catcode_auxii:N #1
{
\exp_not:N #1
\exp_after:wN \exp_not:N \l_@@_search_tl
\exp_after:wN \@@_true:w
\else:
\exp_after:wN \@@_false:w
\fi:
#1
}
\cs_new:Npn \@@_execute_branches_catcode_auxiii:
{
\exp_not:N \l_peek_token
\exp_after:wN \exp_not:N \l_@@_search_tl
\exp_after:wN \@@_true:w
\else:
\exp_after:wN \@@_false:w
\fi:
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}[TF]
% {
% \peek_catcode:N,
% \peek_catcode_remove:N,
% \peek_charcode:N,
% \peek_charcode_remove:N,
% \peek_meaning:N,
% \peek_meaning_remove:N,
% }
% The public functions themselves cannot be defined using
% \cs{prg_new_conditional:Npnn}. Instead, the |TF|, |T|, |F| variants
% are defined in terms of corresponding variants of
% \cs{@@_token_generic:NNTF} or \cs{@@_token_remove_generic:NNTF},
% with first argument one of \cs{@@_execute_branches_catcode:},
% \cs{@@_execute_branches_charcode:}, or
% \cs{@@_execute_branches_meaning:}.
% \begin{macrocode}
\tl_map_inline:nn { { catcode } { charcode } { meaning } }
{
\tl_map_inline:nn { { } { _remove } }
{
\tl_map_inline:nn { { TF } { T } { F } }
{
\cs_new_protected:cpx { peek_ #1 ##1 :N ####1 }
{
\exp_not:c { @@_token ##1 _generic:NN ####1 }
\exp_not:c { @@_execute_branches_ #1 : }
}
}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[TF]
% {
% \peek_catcode_ignore_spaces:N, \peek_catcode_remove_ignore_spaces:N,
% \peek_charcode_ignore_spaces:N, \peek_charcode_remove_ignore_spaces:N,
% \peek_meaning_ignore_spaces:N, \peek_meaning_remove_ignore_spaces:N
% }
% To ignore spaces, remove them using \cs{peek_remove_spaces:n}
% before running the tests.
% \begin{macrocode}
\tl_map_inline:nn
{
{ catcode } { catcode_remove }
{ charcode } { charcode_remove }
{ meaning } { meaning_remove }
}
{
\cs_new_protected:cpx { peek_#1_ignore_spaces:NTF } ##1##2##3
{
\peek_remove_spaces:n
{ \exp_not:c { peek_#1:NTF } ##1 {##2} {##3} }
}
\cs_new_protected:cpx { peek_#1_ignore_spaces:NT } ##1##2
{
\peek_remove_spaces:n
{ \exp_not:c { peek_#1:NT } ##1 {##2} }
}
\cs_new_protected:cpx { peek_#1_ignore_spaces:NF } ##1##2
{
\peek_remove_spaces:n
{ \exp_not:c { peek_#1:NF } ##1 {##2} }
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[TF]{\peek_N_type:}
% \begin{macro}
% {\@@_execute_branches_N_type:, \@@_N_type:w, \@@_N_type_aux:nnw}
% All tokens are \texttt{N}-type tokens, except in four cases:
% begin-group tokens, end-group tokens, space tokens with character
% code~$32$, and outer tokens. Since \cs{l_peek_token} might be
% outer, we cannot use the convenient \cs{bool_if:nTF} function, and
% must resort to the old trick of using \tn{ifodd} to expand a set of
% tests. The \texttt{false} branch of this test is taken if the token
% is one of the first three kinds of non-\texttt{N}-type tokens
% (explicit or implicit), thus we call \cs{@@_false:w}. In the
% \texttt{true} branch, we must detect outer tokens, without impacting
% performance too much for non-outer tokens. The first filter is to
% search for \texttt{outer} in the \tn{meaning} of \cs{l_peek_token}.
% If that is absent, \cs{@@_use_none_delimit_by_s_stop:w} cleans up, and
% we call \cs{@@_true:w}. Otherwise, the token can be a non-outer
% macro or a primitive mark whose parameter or replacement text
% contains \texttt{outer}, it can be the primitive \tn{outer}, or it
% can be an outer token. Macros and marks would have \texttt{ma} in
% the part before the first occurrence of \texttt{outer}; the meaning
% of \tn{outer} has nothing after \texttt{outer}, contrarily to outer
% macros; and that covers all cases, calling \cs{@@_true:w} or
% \cs{@@_false:w} as appropriate. Here, there is no \meta{search
% token}, so we feed a dummy \cs{scan_stop:} to the
% \cs{@@_token_generic:NNTF} function.
% \begin{macrocode}
\group_begin:
\cs_set_protected:Npn \@@_tmp:w #1 \s_@@_stop
{
\cs_new_protected:Npn \@@_execute_branches_N_type:
{
\if_int_odd:w
\if_catcode:w \exp_not:N \l_peek_token { 0 \exp_stop_f: \fi:
\if_catcode:w \exp_not:N \l_peek_token } 0 \exp_stop_f: \fi:
\if_meaning:w \l_peek_token \c_space_token 0 \exp_stop_f: \fi:
1 \exp_stop_f:
\exp_after:wN \@@_N_type:w
\token_to_meaning:N \l_peek_token
\s_@@_mark \@@_N_type_aux:nnw
#1 \s_@@_mark \@@_use_none_delimit_by_s_stop:w
\s_@@_stop
\exp_after:wN \@@_true:w
\else:
\exp_after:wN \@@_false:w
\fi:
}
\cs_new_protected:Npn \@@_N_type:w ##1 #1 ##2 \s_@@_mark ##3
{ ##3 {##1} {##2} }
}
\exp_after:wN \@@_tmp:w \tl_to_str:n { outer } \s_@@_stop
\group_end:
\cs_new_protected:Npn \@@_N_type_aux:nnw #1 #2 #3 \fi:
{
\fi:
\tl_if_in:noTF {#1} { \tl_to_str:n {ma} }
{ \@@_true:w }
{ \tl_if_empty:nTF {#2} { \@@_true:w } { \@@_false:w } }
}
\cs_new_protected:Npn \peek_N_type:TF
{
\@@_token_generic:NNTF
\@@_execute_branches_N_type: \scan_stop:
}
\cs_new_protected:Npn \peek_N_type:T
{ \@@_token_generic:NNT \@@_execute_branches_N_type: \scan_stop: }
\cs_new_protected:Npn \peek_N_type:F
{ \@@_token_generic:NNF \@@_execute_branches_N_type: \scan_stop: }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macrocode}
%</initex|package>
% \end{macrocode}
%
% \end{implementation}
%
% \PrintIndex
|