% \iffalse meta-comment % %% File: l3clist.dtx % % Copyright (C) 2004-2011 Frank Mittelbach, The LaTeX Project % (C) 2012-2024 The LaTeX Project % % It may be distributed and/or modified under the conditions of the % LaTeX Project Public License (LPPL), either version 1.3c of this % license or (at your option) any later version. The latest version % of this license is in the file % % https://www.latex-project.org/lppl.txt % % This file is part of the "l3kernel bundle" (The Work in LPPL) % and all files in that bundle must be distributed together. % % ----------------------------------------------------------------------- % % The development version of the bundle can be found at % % https://github.com/latex3/latex3 % % for those people who are interested. % %<*driver> \documentclass[full,kernel]{l3doc} \begin{document} \DocInput{\jobname.dtx} \end{document} % % \fi % % \title{^^A % The \pkg{l3clist} module\\ Comma separated lists^^A % } % % \author{^^A % The \LaTeX{} Project\thanks % {^^A % E-mail: % \href{mailto:latex-team@latex-project.org} % {latex-team@latex-project.org}^^A % }^^A % } % % \date{Released 2024-03-14} % % \maketitle % % \begin{documentation} % % Comma lists (in short, |clist|) contain ordered data where items can % be added to the left or right end of the list. This data type allows % basic list % manipulations such as adding/removing items, applying a function to % every item, removing duplicate items, extracting a given item, using % the comma list with specified separators, and so on. Sequences % (defined in \pkg{l3seq}) are safer, faster, and provide more features, % so they should often be preferred to comma lists. Comma lists are % mostly useful when interfacing with \LaTeXe{} or other code that % expects or provides items separated by commas. % % Several items can be added at once. To ease input of comma lists from % data provided by a user outside an \cs{ExplSyntaxOn} \ldots{} % \cs{ExplSyntaxOff} block, spaces are removed from both sides of each % comma-delimited argument upon input. Blank arguments are ignored, to % allow for trailing commas or repeated commas (which may otherwise % arise when concatenating comma lists \enquote{by hand}). In addition, % a set of braces is removed if the result of space-trimming is braced: % this allows the storage of any item in a comma list. For instance, % \begin{verbatim} % \clist_new:N \l_my_clist % \clist_put_left:Nn \l_my_clist { ~a~ , ~{b}~ , c~\d } % \clist_put_right:Nn \l_my_clist { ~{e~} , , {{f}} , } % \end{verbatim} % results in |\l_my_clist| containing |a,b,c~\d,{e~},{{f}}| namely the % five items |a|, |b|, |c~\d|, |e~| and~|{f}|. Comma lists normally do % not contain empty or blank items so the following gives an empty comma list: % \begin{verbatim} % \clist_clear_new:N \l_my_clist % \clist_set:Nn \l_my_clist { , ~ , , } % \clist_if_empty:NTF \l_my_clist { true } { false } % \end{verbatim} % and it leaves \texttt{true} in the input stream. To include an % \enquote{unsafe} item (empty, or one that contains a comma, or starts % or ends with a space, or is a single brace group), surround it with % braces. % % Any |n|-type token list is a valid comma list input for \pkg{l3clist} % functions, which will split the token list at every comma and process % the items as described above. On the other hand, |N|-type functions % expect comma list variables, which are particular token list variables % in which this processing of items (and removal of blank items) has % already occurred. Because comma list variables are token list % variables, expanding them once yields their items separated by commas, % and \pkg{l3tl} functions such as \cs{tl_show:N} can be applied to % them. (These functions often have \pkg{l3clist} analogues, which % should be preferred.) % % Almost all operations on comma lists are % noticeably slower than those on sequences so converting the data to % sequences using \cs{seq_set_from_clist:Nn} (see \pkg{l3seq}) may be % advisable if speed is important. The exception is that % \cs{clist_if_in:NnTF} and \cs{clist_remove_duplicates:N} may be faster % than their sequence analogues for large lists. However, these % functions work slowly for \enquote{unsafe} items that must be braced, % and may produce errors when their argument contains |{|, |}| or |#| % (assuming the usual \TeX{} category codes apply). The sequence % data type should thus certainly be preferred to comma lists to store % such items. % % \section{Creating and initialising comma lists} % % \begin{function}{\clist_new:N, \clist_new:c} % \begin{syntax} % \cs{clist_new:N} \meta{clist~var} % \end{syntax} % Creates a new \meta{clist~var} or raises an error if the name is % already taken. The declaration is global. The \meta{clist~var} % initially contains no items. % \end{function} % % \begin{function}[added = 2014-07-05] % { % \clist_const:Nn, \clist_const:Ne, % \clist_const:cn, \clist_const:ce % } % \begin{syntax} % \cs{clist_const:Nn} \meta{clist~var} \Arg{comma list} % \end{syntax} % Creates a new constant \meta{clist~var} or raises an error % if the name is already taken. The value of the % \meta{clist~var} is set globally to the % \meta{comma list}. % \end{function} % % \begin{function} % {\clist_clear:N, \clist_clear:c, \clist_gclear:N, \clist_gclear:c} % \begin{syntax} % \cs{clist_clear:N} \meta{clist~var} % \end{syntax} % Clears all items from the \meta{clist~var}. % \end{function} % % \begin{function} % { % \clist_clear_new:N, \clist_clear_new:c, % \clist_gclear_new:N, \clist_gclear_new:c % } % \begin{syntax} % \cs{clist_clear_new:N} \meta{clist~var} % \end{syntax} % Ensures that the \meta{clist~var} exists globally by applying % \cs{clist_new:N} if necessary, then applies % \cs[index=clist_clear:N]{clist_(g)clear:N} to leave % the list empty. % \end{function} % % \begin{function} % { % \clist_set_eq:NN, \clist_set_eq:cN, % \clist_set_eq:Nc, \clist_set_eq:cc, % \clist_gset_eq:NN, \clist_gset_eq:cN, % \clist_gset_eq:Nc, \clist_gset_eq:cc % } % \begin{syntax} % \cs{clist_set_eq:NN} \meta{clist~var_1} \meta{clist~var_2} % \end{syntax} % Sets the content of \meta{clist~var_1} equal to that of % \meta{clist~var_2}. To set a token list variable equal to a comma % list variable, use \cs{tl_set_eq:NN}. Conversely, setting a comma % list variable to a token list is unadvisable unless one checks % space-trimming and related issues. % \end{function} % % \begin{function}[added = 2014-07-17] % { % \clist_set_from_seq:NN, \clist_set_from_seq:cN, % \clist_set_from_seq:Nc, \clist_set_from_seq:cc, % \clist_gset_from_seq:NN, \clist_gset_from_seq:cN, % \clist_gset_from_seq:Nc, \clist_gset_from_seq:cc % } % \begin{syntax} % \cs{clist_set_from_seq:NN} \meta{clist~var} \meta{seq~var} % \end{syntax} % Converts the data in the \meta{seq~var} into a \meta{clist~var}: % the original \meta{seq~var} is unchanged. % Items which contain either spaces or commas are surrounded by braces. % \end{function} % % \begin{function} % { % \clist_concat:NNN, \clist_concat:ccc, % \clist_gconcat:NNN, \clist_gconcat:ccc % } % \begin{syntax} % \cs{clist_concat:NNN} \meta{clist~var_1} \meta{clist~var_2} \meta{clist~var_3} % \end{syntax} % Concatenates the content of \meta{clist~var_2} and \meta{clist~var_3} % together and saves the result in \meta{clist~var_1}. The items in % \meta{clist~var_2} are placed at the left side of the new comma list. % \end{function} % % \begin{function}[EXP, pTF, added=2012-03-03] % {\clist_if_exist:N, \clist_if_exist:c} % \begin{syntax} % \cs{clist_if_exist_p:N} \meta{clist~var} % \cs{clist_if_exist:NTF} \meta{clist~var} \Arg{true code} \Arg{false code} % \end{syntax} % Tests whether the \meta{clist~var} is currently defined. This does % not check that the \meta{clist~var} really is a comma list. % \end{function} % % \section{Adding data to comma lists} % % \begin{function}[added = 2011-09-06] % { % \clist_set:Nn, \clist_set:NV, \clist_set:Ne, % \clist_set:No, % \clist_set:cn, \clist_set:cV, \clist_set:ce, % \clist_set:co, % \clist_gset:Nn, \clist_gset:NV, \clist_gset:Ne, % \clist_gset:No, % \clist_gset:cn, \clist_gset:cV, \clist_gset:ce, % \clist_gset:co % } % \begin{syntax} % \cs{clist_set:Nn} \meta{clist~var} |{|\meta{item_1},\ldots{},\meta{item_n}|}| % \end{syntax} % Sets \meta{clist~var} to contain the \meta{items}, % removing any previous content from the variable. % Blank items are omitted, spaces are removed from both sides of each % item, then a set of braces is removed if the resulting space-trimmed % item is braced. % To store some \meta{tokens} as a single \meta{item} even if the % \meta{tokens} contain commas or spaces, add a set of braces: % \cs{clist_set:Nn} \meta{clist~var} |{| \Arg{tokens} |}|. % \end{function} % % \begin{function}[updated = 2011-09-05] % { % \clist_put_left:Nn, \clist_put_left:NV, % \clist_put_left:Nv, \clist_put_left:Ne, % \clist_put_left:No, % \clist_put_left:cn, \clist_put_left:cV, % \clist_put_left:cv, \clist_put_left:ce, % \clist_put_left:co, % \clist_gput_left:Nn, \clist_gput_left:NV, % \clist_gput_left:Nv, \clist_gput_left:Ne, % \clist_gput_left:No, % \clist_gput_left:cn, \clist_gput_left:cV, % \clist_gput_left:cv, \clist_gput_left:ce, % \clist_gput_left:co % } % \begin{syntax} % \cs{clist_put_left:Nn} \meta{clist~var} |{|\meta{item_1},\ldots{},\meta{item_n}|}| % \end{syntax} % Appends the \meta{items} to the left of the \meta{clist~var}. % Blank items are omitted, spaces are removed from both sides of each % item, then a set of braces is removed if the resulting space-trimmed % item is braced. % To append some \meta{tokens} as a single \meta{item} even if the % \meta{tokens} contain commas or spaces, add a set of braces: % \cs{clist_put_left:Nn} \meta{clist~var} |{| \Arg{tokens} |}|. % \end{function} % % \begin{function}[updated = 2011-09-05] % { % \clist_put_right:Nn, \clist_put_right:NV, % \clist_put_right:Nv, \clist_put_right:Ne, % \clist_put_right:No, % \clist_put_right:cn, \clist_put_right:cV, % \clist_put_right:cv, \clist_put_right:ce, % \clist_put_right:co, % \clist_gput_right:Nn, \clist_gput_right:NV, % \clist_gput_right:Nv, \clist_gput_right:Ne, % \clist_gput_right:No, % \clist_gput_right:cn, \clist_gput_right:cV, % \clist_gput_right:cv, \clist_gput_right:ce, % \clist_gput_right:co % } % \begin{syntax} % \cs{clist_put_right:Nn} \meta{clist~var} |{|\meta{item_1},\ldots{},\meta{item_n}|}| % \end{syntax} % Appends the \meta{items} to the right of the \meta{clist~var}. % Blank items are omitted, spaces are removed from both sides of each % item, then a set of braces is removed if the resulting space-trimmed % item is braced. % To append some \meta{tokens} as a single \meta{item} even if the % \meta{tokens} contain commas or spaces, add a set of braces: % \cs{clist_put_right:Nn} \meta{clist~var} |{| \Arg{tokens} |}|. % \end{function} % % \section{Modifying comma lists} % % While comma lists are normally used as ordered lists, it may be % necessary to modify the content. The functions here may be used % to update comma lists, while retaining the order of the unaffected % entries. % % \begin{function} % { % \clist_remove_duplicates:N, \clist_remove_duplicates:c, % \clist_gremove_duplicates:N, \clist_gremove_duplicates:c % } % \begin{syntax} % \cs{clist_remove_duplicates:N} \meta{clist~var} % \end{syntax} % Removes duplicate items from the \meta{clist~var}, leaving the % left most copy of each item in the \meta{clist~var}. The \meta{item} % comparison takes place on a token basis, as for \cs{tl_if_eq:nnTF}. % \begin{texnote} % This function iterates through every item in the \meta{clist~var} and % does a comparison with the \meta{items} already checked. It is therefore % relatively slow with large comma lists. % Furthermore, it may fail if any of the items in the % \meta{clist~var} contains |{|, |}|, or |#| % (assuming the usual \TeX{} category codes apply). % \end{texnote} % \end{function} % % \begin{function}[updated = 2011-09-06] % { % \clist_remove_all:Nn, \clist_remove_all:cn, % \clist_remove_all:NV, \clist_remove_all:cV, % \clist_gremove_all:Nn, \clist_gremove_all:cn, % \clist_gremove_all:NV, \clist_gremove_all:cV % } % \begin{syntax} % \cs{clist_remove_all:Nn} \meta{clist~var} \Arg{item} % \end{syntax} % Removes every occurrence of \meta{item} from the \meta{clist~var}. % The \meta{item} comparison takes place on a token basis, as for % \cs{tl_if_eq:nnTF}. % \begin{texnote} % The function may fail if the \meta{item} contains |{|, |}|, or |#| % (assuming the usual \TeX{} category codes apply). % \end{texnote} % \end{function} % % \begin{function}[added = 2014-07-18] % { % \clist_reverse:N, \clist_reverse:c, % \clist_greverse:N, \clist_greverse:c % } % \begin{syntax} % \cs{clist_reverse:N} \meta{clist~var} % \end{syntax} % Reverses the order of items stored in the \meta{clist~var}. % \end{function} % % \begin{function}[added = 2014-07-18]{\clist_reverse:n} % \begin{syntax} % \cs{clist_reverse:n} \Arg{comma list} % \end{syntax} % Leaves the items in the \meta{comma list} in the input stream in % reverse order. Contrarily to other what is done for other % \texttt{n}-type \meta{comma list} arguments, braces and spaces are % preserved by this process. % \begin{texnote} % The result is returned within \tn{unexpanded}, which means that the % comma list does not expand further when appearing in an % \texttt{e}-type or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \begin{function}[added = 2017-02-06] % {\clist_sort:Nn, \clist_sort:cn, \clist_gsort:Nn, \clist_gsort:cn} % \begin{syntax} % \cs{clist_sort:Nn} \meta{clist var} \Arg{comparison code} % \end{syntax} % Sorts the items in the \meta{clist var} according to the % \meta{comparison code}, and assigns the result to % \meta{clist var}. The details of sorting comparison are % described in Section~\ref{sec:l3sort:mech}. % \end{function} % % \section{Comma list conditionals} % % \begin{function}[EXP,pTF]{\clist_if_empty:N, \clist_if_empty:c} % \begin{syntax} % \cs{clist_if_empty_p:N} \meta{clist~var} % \cs{clist_if_empty:NTF} \meta{clist~var} \Arg{true code} \Arg{false code} % \end{syntax} % Tests if the \meta{clist~var} is empty (containing no items). % \end{function} % % \begin{function}[EXP, pTF, added = 2014-07-05]{\clist_if_empty:n} % \begin{syntax} % \cs{clist_if_empty_p:n} \Arg{comma list} % \cs{clist_if_empty:nTF} \Arg{comma list} \Arg{true code} \Arg{false code} % \end{syntax} % Tests if the \meta{clist~var} is empty (containing no items). % The rules for space trimming are as for other \texttt{n}-type % comma-list functions, hence the comma list |{~,~,,~}| (without % outer braces) is empty, while |{~,{},}| (without outer braces) % contains one element, which happens to be empty: the comma-list % is not empty. % \end{function} % % \begin{function}[updated = 2011-09-06, TF] % { % \clist_if_in:Nn, \clist_if_in:NV, \clist_if_in:No, % \clist_if_in:cn, \clist_if_in:cV, \clist_if_in:co, % \clist_if_in:nn, \clist_if_in:nV, \clist_if_in:no % } % \begin{syntax} % \cs{clist_if_in:NnTF} \meta{clist~var} \Arg{item} \Arg{true code} \Arg{false code} % \end{syntax} % Tests if the \meta{item} is present in the \meta{clist~var}. % In the case of an \texttt{n}-type \meta{comma list}, the usual rules % of space trimming and brace stripping apply. Hence, % \begin{verbatim} % \clist_if_in:nnTF { a , {b}~ , {b} , c } { b } {true} {false} % \end{verbatim} % yields \texttt{true}. % \begin{texnote} % The function may fail if the \meta{item} contains |{|, |}|, or |#| % (assuming the usual \TeX{} category codes apply). % \end{texnote} % \end{function} % % \section{Mapping over comma lists} % % The functions described in this section apply a specified function % to each item of a comma list. % All mappings are done at the current group level, \emph{i.e.}~any % local assignments made by the \meta{function} or \meta{code} discussed % below remain in effect after the loop. % % When the comma list is given explicitly, as an \texttt{n}-type argument, % spaces are trimmed around each item. % If the result of trimming spaces is empty, the item is ignored. % Otherwise, if the item is surrounded by braces, one set is removed, % and the result is passed to the mapped function. Thus, if the % comma list that is being mapped is \verb*|{a , {{b} }, ,{}, {c},}| % then the arguments passed to the mapped function are % `\verb*|a|', `\verb*|{b} |', an empty argument, and `\verb*|c|'. % % When the comma list is given as an \texttt{N}-type argument, spaces % have already been trimmed on input, and items are simply stripped % of one set of braces if any. This case is more efficient than using % \texttt{n}-type comma lists. % % \begin{function}[rEXP, updated = 2012-06-29] % {\clist_map_function:NN, \clist_map_function:cN, \clist_map_function:nN, \clist_map_function:eN} % \begin{syntax} % \cs{clist_map_function:NN} \meta{clist~var} \meta{function} % \end{syntax} % Applies \meta{function} to every \meta{item} stored in the % \meta{clist~var}. The \meta{function} receives one argument for % each iteration. The \meta{items} are returned from left to right. % The function \cs{clist_map_inline:Nn} is in general more efficient % than \cs{clist_map_function:NN}. % \end{function} % % \begin{function}[updated = 2012-06-29] % {\clist_map_inline:Nn, \clist_map_inline:cn, \clist_map_inline:nn} % \begin{syntax} % \cs{clist_map_inline:Nn} \meta{clist~var} \Arg{inline function} % \end{syntax} % Applies \meta{inline function} to every \meta{item} stored % within the \meta{clist~var}. The \meta{inline function} should % consist of code which receives the \meta{item} as |#1|. % The \meta{items} are returned from left to right. % \end{function} % % \begin{function}[updated = 2012-06-29] % {\clist_map_variable:NNn, \clist_map_variable:cNn, \clist_map_variable:nNn} % \begin{syntax} % \cs{clist_map_variable:NNn} \meta{clist~var} \meta{variable} \Arg{code} % \end{syntax} % Stores each \meta{item} of the \meta{clist~var} in turn in the % (token list) \meta{variable} and applies the \meta{code}. The % \meta{code} will usually make use of the \meta{variable}, but this % is not enforced. The assignments to the \meta{variable} are local. % Its value after the loop is the last \meta{item} in the \meta{clist~var}, % or its original value if there were no \meta{item}. The % \meta{items} are returned from left to right. % \end{function} % % \begin{function}[rEXP, added = 2021-05-05] % {\clist_map_tokens:Nn, \clist_map_tokens:cn, \clist_map_tokens:nn} % \begin{syntax} % \cs{clist_map_tokens:Nn} \meta{clist~var} \Arg{code} % \cs{clist_map_tokens:nn} \Arg{comma list} \Arg{code} % \end{syntax} % Calls \meta{code} \Arg{item} for every \meta{item} stored in the % \meta{clist~var}. The \meta{code} receives each \meta{item} as a % trailing brace group. If the \meta{code} consists of a single % function this is equivalent to \cs{clist_map_function:nN}. % \end{function} % % \begin{function}[rEXP, updated = 2012-06-29]{\clist_map_break:} % \begin{syntax} % \cs{clist_map_break:} % \end{syntax} % Used to terminate a \cs[no-index]{clist_map_\ldots{}} function before all % entries in the \meta{comma list} have been processed. This % normally takes place within a conditional statement, for example % \begin{verbatim} % \clist_map_inline:Nn \l_my_clist % { % \str_if_eq:nnTF { #1 } { bingo } % { \clist_map_break: } % { % % Do something useful % } % } % \end{verbatim} % Use outside of a \cs[no-index]{clist_map_\ldots{}} scenario leads to low % level \TeX{} errors. % \begin{texnote} % When the mapping is broken, additional tokens may be inserted % before further items are taken % from the input stream. This depends on the design of the mapping % function. % \end{texnote} % \end{function} % % \begin{function}[updated = 2012-06-29, rEXP]{\clist_map_break:n} % \begin{syntax} % \cs{clist_map_break:n} \Arg{code} % \end{syntax} % Used to terminate a \cs[no-index]{clist_map_\ldots{}} function before all % entries in the \meta{comma list} have been processed, inserting % the \meta{code} after the mapping has ended. This % normally takes place within a conditional statement, for example % \begin{verbatim} % \clist_map_inline:Nn \l_my_clist % { % \str_if_eq:nnTF { #1 } { bingo } % { \clist_map_break:n { } } % { % % Do something useful % } % } % \end{verbatim} % Use outside of a \cs[no-index]{clist_map_\ldots{}} scenario leads to low % level \TeX{} errors. % \begin{texnote} % When the mapping is broken, additional tokens may be inserted % before the \meta{code} is % inserted into the input stream. % This depends on the design of the mapping function. % \end{texnote} % \end{function} % % \begin{function}[EXP, added = 2012-07-13] % {\clist_count:N, \clist_count:c, \clist_count:n, \clist_count:e} % \begin{syntax} % \cs{clist_count:N} \meta{clist~var} % \end{syntax} % Leaves the number of items in the \meta{clist~var} in the input % stream as an \meta{integer denotation}. The total number of items % in a \meta{clist~var} includes those which are duplicates, % \emph{i.e.}~every item in a \meta{clist~var} is counted. % \end{function} % % \section{Using the content of comma lists directly} % % \begin{function}[EXP, added = 2013-05-26]{\clist_use:Nnnn, \clist_use:cnnn} % \begin{syntax} % \cs{clist_use:Nnnn} \meta{clist~var} \Arg{separator~between~two} \Arg{separator~between~more~than~two} \Arg{separator~between~final~two} % \end{syntax} % Places the contents of the \meta{clist~var} in the input stream, % with the appropriate \meta{separator} between the items. Namely, if % the comma list has more than two items, the \meta{separator between % more than two} is placed between each pair of items except the % last, for which the \meta{separator between final two} is used. If % the comma list has exactly two items, then they are placed in the input % stream separated by the \meta{separator between two}. If the comma % list has a single item, it is placed in the input stream, and a comma % list with no items produces no output. An error is raised if % the variable does not exist or if it is invalid. % % For example, % \begin{verbatim} % \clist_set:Nn \l_tmpa_clist { a , b , , c , {de} , f } % \clist_use:Nnnn \l_tmpa_clist { ~and~ } { ,~ } { ,~and~ } % \end{verbatim} % inserts \enquote{\texttt{a, b, c, de, and f}} in the input % stream. The first separator argument is not used in this case % because the comma list has more than $2$ items. % \begin{texnote} % The result is returned within the \tn{unexpanded} % primitive (\cs{exp_not:n}), which means that the \meta{items} % do not expand further when appearing in an \texttt{e}-type % or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \begin{function}[EXP, added = 2013-05-26]{\clist_use:Nn, \clist_use:cn} % \begin{syntax} % \cs{clist_use:Nn} \meta{clist~var} \Arg{separator} % \end{syntax} % Places the contents of the \meta{clist~var} in the input stream, % with the \meta{separator} between the items. If the comma % list has a single item, it is placed in the input stream, and a comma % list with no items produces no output. An error is raised if % the variable does not exist or if it is invalid. % % For example, % \begin{verbatim} % \clist_set:Nn \l_tmpa_clist { a , b , , c , {de} , f } % \clist_use:Nn \l_tmpa_clist { ~and~ } % \end{verbatim} % inserts \enquote{\texttt{a and b and c and de and f}} in the input % stream. % \begin{texnote} % The result is returned within the \tn{unexpanded} % primitive (\cs{exp_not:n}), which means that the \meta{items} % do not expand further when appearing in an \texttt{e}-type % or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \begin{function}[EXP, added = 2021-05-10]{\clist_use:nnnn, \clist_use:nn} % \begin{syntax} % \cs{clist_use:nnnn} \meta{comma~list} \Arg{separator~between~two} \Arg{separator~between~more~than~two} \Arg{separator~between~final~two} % \cs{clist_use:nn} \meta{comma~list} \Arg{separator} % \end{syntax} % Places the contents of the \meta{comma~list} in the input stream, % with the appropriate \meta{separator} between the items. As for % \cs{clist_set:Nn}, blank items are omitted, spaces are removed from % both sides of each item, then a set of braces is removed if the % resulting space-trimmed item is braced. The \meta{separators} are % then inserted in the same way as for \cs{clist_use:Nnnn} and % \cs{clist_use:Nn}, respectively. % \begin{texnote} % The result is returned within the \tn{unexpanded} % primitive (\cs{exp_not:n}), which means that the \meta{items} % do not expand further when appearing in an \texttt{e}-type % or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \section{Comma lists as stacks} % % Comma lists can be used as stacks, where data is pushed to and popped % from the top of the comma list. (The left of a comma list is the top, for % performance reasons.) The stack functions for comma lists are not % intended to be mixed with the general ordered data functions detailed % in the previous section: a comma list should either be used as an % ordered data type or as a stack, but not in both ways. % % \begin{function}[noTF, added = 2012-05-14, updated = 2019-02-16] % {\clist_get:NN, \clist_get:cN} % \begin{syntax} % \cs{clist_get:NN} \meta{clist~var} \meta{token list variable} % \end{syntax} % Stores the left-most item from a \meta{clist~var} in the % \meta{token list variable} without removing it from the % \meta{clist~var}. The \meta{token list variable} is assigned locally. % In the non-branching version, if the \meta{clist~var} is empty the % \meta{token list variable} is set to the marker value \cs{q_no_value}. % \end{function} % % \begin{function}[updated = 2011-09-06]{\clist_pop:NN, \clist_pop:cN} % \begin{syntax} % \cs{clist_pop:NN} \meta{clist~var} \meta{token list variable} % \end{syntax} % Pops the left-most item from a \meta{clist~var} into the % \meta{token list variable}, \emph{i.e.}~removes the item from the % comma list and stores it in the \meta{token list variable}. % Both of the variables are assigned locally. % \end{function} % % \begin{function}{\clist_gpop:NN, \clist_gpop:cN} % \begin{syntax} % \cs{clist_gpop:NN} \meta{clist~var} \meta{token list variable} % \end{syntax} % Pops the left-most item from a \meta{clist~var} into the % \meta{token list variable}, \emph{i.e.}~removes the item from the % comma list and stores it in the \meta{token list variable}. % The \meta{clist~var} is modified globally, while the assignment of % the \meta{token list variable} is local. % \end{function} % % \begin{function}[TF, added = 2012-05-14]{\clist_pop:NN, \clist_pop:cN} % \begin{syntax} % \cs{clist_pop:NNTF} \meta{clist~var} \meta{token list variable} \Arg{true code} \Arg{false code} % \end{syntax} % If the \meta{clist~var} is empty, leaves the \meta{false code} in the % input stream. The value of the \meta{token list variable} is % not defined in this case and should not be relied upon. If the % \meta{clist~var} is non-empty, pops the top item from the % \meta{clist~var} in the \meta{token list variable}, \emph{i.e.}~removes % the item from the \meta{clist~var}. Both the \meta{clist~var} and the % \meta{token list variable} are assigned locally. % \end{function} % % \begin{function}[TF, added = 2012-05-14]{\clist_gpop:NN, \clist_gpop:cN} % \begin{syntax} % \cs{clist_gpop:NNTF} \meta{clist~var} \meta{token list variable} \Arg{true code} \Arg{false code} % \end{syntax} % If the \meta{clist~var} is empty, leaves the \meta{false code} in the % input stream. The value of the \meta{token list variable} is % not defined in this case and should not be relied upon. If the % \meta{clist~var} is non-empty, pops the top item from the % \meta{clist~var} in the \meta{token list variable}, \emph{i.e.}~removes % the item from the \meta{clist~var}. The \meta{clist~var} is modified % globally, while the \meta{token list variable} is assigned locally. % \end{function} % % \begin{function} % { % \clist_push:Nn, \clist_push:NV, \clist_push:No, % \clist_push:cn, \clist_push:cV, \clist_push:co, % \clist_gpush:Nn, \clist_gpush:NV, \clist_gpush:No, % \clist_gpush:cn, \clist_gpush:cV, \clist_gpush:co, % } % \begin{syntax} % \cs{clist_push:Nn} \meta{clist~var} \Arg{items} % \end{syntax} % Adds the \Arg{items} to the top of the \meta{clist~var}. % Spaces are removed from both sides of each item as for any % \texttt{n}-type comma list. % \end{function} % % \section{Using a single item} % % \begin{function}[added = 2014-07-17, EXP] % {\clist_item:Nn, \clist_item:cn, \clist_item:nn, \clist_item:en} % \begin{syntax} % \cs{clist_item:Nn} \meta{clist~var} \Arg{int expr} % \end{syntax} % Indexing items in the \meta{clist~var} from~$1$ at the top (left), this % function evaluates the \meta{int expr} and leaves the % appropriate item from the comma list in the input stream. If the % \meta{int expr} is negative, indexing occurs from the % bottom (right) of the comma list. When the \meta{int expr} % is larger than the number of items in the \meta{clist~var} (as % calculated by \cs{clist_count:N}) then the function expands to % nothing. % \begin{texnote} % The result is returned within the \tn{unexpanded} % primitive (\cs{exp_not:n}), which means that the \meta{item} % does not expand further when appearing in an \texttt{e}-type % or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \begin{function}[EXP, added = 2016-12-06] % {\clist_rand_item:N, \clist_rand_item:n, \clist_rand_item:c} % \begin{syntax} % \cs{clist_rand_item:N} \meta{clist~var} % \cs{clist_rand_item:n} \Arg{comma list} % \end{syntax} % Selects a pseudo-random item of the \meta{clist~var}/\meta{comma list}. % If the \meta{comma list} has no item, the result is empty. % \begin{texnote} % The result is returned within the \tn{unexpanded} % primitive (\cs{exp_not:n}), which means that the \meta{item} % does not expand further when appearing in an \texttt{e}-type % or \texttt{x}-type argument expansion. % \end{texnote} % \end{function} % % \section{Viewing comma lists} % % \begin{function}[updated = 2021-04-29]{\clist_show:N, \clist_show:c} % \begin{syntax} % \cs{clist_show:N} \meta{clist~var} % \end{syntax} % Displays the entries in the \meta{clist~var} in the terminal. % \end{function} % % \begin{function}[updated = 2013-08-03]{\clist_show:n} % \begin{syntax} % \cs{clist_show:n} \Arg{tokens} % \end{syntax} % Displays the entries in the comma list in the terminal. % \end{function} % % \begin{function}[added = 2014-08-22, updated = 2021-04-29]{\clist_log:N, \clist_log:c} % \begin{syntax} % \cs{clist_log:N} \meta{clist~var} % \end{syntax} % Writes the entries in the \meta{clist~var} in the log file. See % also \cs{clist_show:N} which displays the result in the terminal. % \end{function} % % \begin{function}[added = 2014-08-22]{\clist_log:n} % \begin{syntax} % \cs{clist_log:n} \Arg{tokens} % \end{syntax} % Writes the entries in the comma list in the log file. See also % \cs{clist_show:n} which displays the result in the terminal. % \end{function} % % \section{Constant and scratch comma lists} % % \begin{variable}[added = 2012-07-02]{\c_empty_clist} % Constant that is always empty. % \end{variable} % % \begin{variable}[added = 2011-09-06]{\l_tmpa_clist, \l_tmpb_clist} % Scratch comma lists for local assignment. These are never used by % the kernel code, and so are safe for use with any \LaTeX3-defined % function. However, they may be overwritten by other non-kernel % code and so should only be used for short-term storage. % \end{variable} % % \begin{variable}[added = 2011-09-06]{\g_tmpa_clist, \g_tmpb_clist} % Scratch comma lists for global assignment. These are never used by % the kernel code, and so are safe for use with any \LaTeX3-defined % function. However, they may be overwritten by other non-kernel % code and so should only be used for short-term storage. % \end{variable} % % \end{documentation} % % \begin{implementation} % % \section{\pkg{l3clist} implementation} % % \TestFiles{m3clist002} % % \begin{macrocode} %<*package> % \end{macrocode} % % \begin{macrocode} %<@@=clist> % \end{macrocode} % % \begin{variable}{\c_empty_clist} % An empty comma list is simply an empty token list. % \begin{macrocode} \cs_new_eq:NN \c_empty_clist \c_empty_tl % \end{macrocode} % \end{variable} % % \begin{variable}{\l_@@_internal_clist} % Scratch space for various internal uses. This comma list variable % cannot be declared as such because it comes before \cs{clist_new:N} % \begin{macrocode} \tl_new:N \l_@@_internal_clist % \end{macrocode} % \end{variable} % % \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_mark:w, % \@@_use_none_delimit_by_s_stop:w, % \@@_use_i_delimit_by_s_stop:nw % } % Functions to gobble up to a scan mark. % \begin{macrocode} \cs_new:Npn \@@_use_none_delimit_by_s_mark:w #1 \s_@@_mark { } \cs_new:Npn \@@_use_none_delimit_by_s_stop:w #1 \s_@@_stop { } \cs_new:Npn \@@_use_i_delimit_by_s_stop:nw #1 #2 \s_@@_stop {#1} % \end{macrocode} % \end{macro} % % \begin{macro}{\@@_tmp:w} % A temporary function for various purposes. % \begin{macrocode} \cs_new_protected:Npn \@@_tmp:w { } % \end{macrocode} % \end{macro} % % \subsection{Removing spaces around items} % % \begin{macro}{\@@_trim_next:w} % Called as \cs{exp:w} \cs{@@_trim_next:w} \cs{prg_do_nothing:} % \meta{comma list} \ldots{} it expands to \Arg{trimmed item} where % the \meta{trimmed item} is the first non-empty result from removing % spaces from both ends of comma-delimited items in the \meta{comma % list}. The \cs{prg_do_nothing:} marker avoids losing braces. The % test for blank items is a somewhat optimized \cs{tl_if_empty:oTF} % construction; if blank, another item is sought, otherwise trim % spaces. % \begin{macrocode} \cs_new:Npn \@@_trim_next:w #1 , { \tl_if_empty:oTF { \use_none:nn #1 ? } { \@@_trim_next:w \prg_do_nothing: } { \tl_trim_spaces_apply:oN {#1} \exp_end: } } % \end{macrocode} % \end{macro} % % \begin{macro}[rEXP]{\@@_sanitize:n} % \begin{macro}{\@@_sanitize:Nn} % The auxiliary \cs{@@_sanitize:Nn} receives a delimiter % (\cs{c_empty_tl} the first time, afterwards a comma) and that item % as arguments. Unless we are done with the loop it calls % \cs{@@_wrap_item:w} to unbrace the item (using a comma delimiter is % safe since |#2| came from removing spaces from an argument delimited % by a comma) and possibly re-brace it if needed. % \begin{macrocode} \cs_new:Npn \@@_sanitize:n #1 { \exp_after:wN \@@_sanitize:Nn \exp_after:wN \c_empty_tl \exp:w \@@_trim_next:w \prg_do_nothing: #1 , \s_@@_stop \prg_break: , \prg_break_point: } \cs_new:Npn \@@_sanitize:Nn #1#2 { \@@_use_none_delimit_by_s_stop:w #2 \s_@@_stop #1 \@@_wrap_item:w #2 , \exp_after:wN \@@_sanitize:Nn \exp_after:wN , \exp:w \@@_trim_next:w \prg_do_nothing: } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}[TF]{\@@_if_wrap:n} % \begin{macro}{\@@_if_wrap:w} % True if the argument must be wrapped to avoid getting altered by some % clist operations. That is the case whenever the argument % \begin{itemize} % \item starts or end with a space or contains a comma, % \item is empty, or % \item consists of a single braced group. % \end{itemize} % If the argument starts or ends with a space or contains % a comma then one of the three arguments of \cs{@@_if_wrap:w} will % have its end delimiter (partly) in one of the three copies of |#1| % in \cs{@@_if_wrap:nTF}; this has a knock-on effect meaning that the % result of the expansion is not empty; in that case, wrap. % Otherwise, the argument is safe unless it starts with a brace group % (or is empty) and it is empty or consists of a single % \texttt{n}-type argument. % \begin{macrocode} \prg_new_conditional:Npnn \@@_if_wrap:n #1 { TF } { \tl_if_empty:oTF { \@@_if_wrap:w \s_@@_mark ? #1 ~ \s_@@_mark ? ~ #1 \s_@@_mark , ~ \s_@@_mark #1 , } { \tl_if_head_is_group:nTF { #1 { } } { \tl_if_empty:nTF {#1} { \prg_return_true: } { \tl_if_empty:oTF { \use_none:n #1} { \prg_return_true: } { \prg_return_false: } } } { \prg_return_false: } } { \prg_return_true: } } \cs_new:Npn \@@_if_wrap:w #1 \s_@@_mark ? ~ #2 ~ \s_@@_mark #3 , { } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\@@_wrap_item:w} % Safe items are put in \cs{exp_not:n}, otherwise we put an extra set % of braces. % \begin{macrocode} \cs_new:Npn \@@_wrap_item:w #1 , { \@@_if_wrap:nTF {#1} { \exp_not:n { {#1} } } { \exp_not:n {#1} } } % \end{macrocode} % \end{macro} % % \subsection{Allocation and initialisation} % % \begin{macro}{\clist_new:N, \clist_new:c} % \UnitTested % Internally, comma lists are just token lists. % \begin{macrocode} \cs_new_eq:NN \clist_new:N \tl_new:N \cs_new_eq:NN \clist_new:c \tl_new:c % \end{macrocode} % \end{macro} % % \begin{macro} % { % \clist_const:Nn, \clist_const:Ne, \clist_const:Nx, % \clist_const:cn, \clist_const:ce, \clist_const:cx % } % Creating and initializing a constant comma list is done by % sanitizing all items (stripping spaces and braces). % \begin{macrocode} \cs_new_protected:Npn \clist_const:Nn #1#2 { \tl_const:Ne #1 { \@@_sanitize:n {#2} } } \cs_generate_variant:Nn \clist_const:Nn { Ne , c , ce } \cs_generate_variant:Nn \clist_const:Nn { Nx , cx } % \end{macrocode} % \end{macro} % % \begin{macro}{\clist_clear:N, \clist_clear:c} % \UnitTested % \begin{macro}{\clist_gclear:N, \clist_gclear:c} % \UnitTested % Clearing comma lists is just the same as clearing token lists. % \begin{macrocode} \cs_new_eq:NN \clist_clear:N \tl_clear:N \cs_new_eq:NN \clist_clear:c \tl_clear:c \cs_new_eq:NN \clist_gclear:N \tl_gclear:N \cs_new_eq:NN \clist_gclear:c \tl_gclear:c % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_clear_new:N, \clist_clear_new:c} % \UnitTested % \begin{macro}{\clist_gclear_new:N, \clist_gclear_new:c} % \UnitTested % Once again a copy from the token list functions. % \begin{macrocode} \cs_new_eq:NN \clist_clear_new:N \tl_clear_new:N \cs_new_eq:NN \clist_clear_new:c \tl_clear_new:c \cs_new_eq:NN \clist_gclear_new:N \tl_gclear_new:N \cs_new_eq:NN \clist_gclear_new:c \tl_gclear_new:c % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro} % {\clist_set_eq:NN, \clist_set_eq:cN, \clist_set_eq:Nc, \clist_set_eq:cc} % \UnitTested % \begin{macro} % { % \clist_gset_eq:NN, \clist_gset_eq:cN, % \clist_gset_eq:Nc, \clist_gset_eq:cc % } % \UnitTested % Once again, these are simple copies from the token list functions. % \begin{macrocode} \cs_new_eq:NN \clist_set_eq:NN \tl_set_eq:NN \cs_new_eq:NN \clist_set_eq:Nc \tl_set_eq:Nc \cs_new_eq:NN \clist_set_eq:cN \tl_set_eq:cN \cs_new_eq:NN \clist_set_eq:cc \tl_set_eq:cc \cs_new_eq:NN \clist_gset_eq:NN \tl_gset_eq:NN \cs_new_eq:NN \clist_gset_eq:Nc \tl_gset_eq:Nc \cs_new_eq:NN \clist_gset_eq:cN \tl_gset_eq:cN \cs_new_eq:NN \clist_gset_eq:cc \tl_gset_eq:cc % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_set_from_seq:NN, \clist_set_from_seq:cN, % \clist_set_from_seq:Nc, \clist_set_from_seq:cc % } % \UnitTested % \begin{macro} % { % \clist_gset_from_seq:NN, \clist_gset_from_seq:cN, % \clist_gset_from_seq:Nc, \clist_gset_from_seq:cc % } % \UnitTested % \begin{macro}{\@@_set_from_seq:NNNN, \@@_set_from_seq:n} % Setting a comma list from a comma-separated list is done using a % simple mapping. Safe items are put in \cs{exp_not:n}, otherwise we % put an extra set of braces. The first comma must be removed, except % in the case of an empty comma-list. % \begin{macrocode} \cs_new_protected:Npn \clist_set_from_seq:NN { \@@_set_from_seq:NNNN \clist_clear:N \__kernel_tl_set:Nx } \cs_new_protected:Npn \clist_gset_from_seq:NN { \@@_set_from_seq:NNNN \clist_gclear:N \__kernel_tl_gset:Nx } \cs_new_protected:Npn \@@_set_from_seq:NNNN #1#2#3#4 { \seq_if_empty:NTF #4 { #1 #3 } { #2 #3 { \exp_after:wN \use_none:n \exp:w \exp_end_continue_f:w \seq_map_function:NN #4 \@@_set_from_seq:n } } } \cs_new:Npn \@@_set_from_seq:n #1 { , \@@_if_wrap:nTF {#1} { \exp_not:n { {#1} } } { \exp_not:n {#1} } } \cs_generate_variant:Nn \clist_set_from_seq:NN { Nc } \cs_generate_variant:Nn \clist_set_from_seq:NN { c , cc } \cs_generate_variant:Nn \clist_gset_from_seq:NN { Nc } \cs_generate_variant:Nn \clist_gset_from_seq:NN { c , cc } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\clist_concat:NNN, \clist_concat:ccc} % \UnitTested % \begin{macro}{\clist_gconcat:NNN, \clist_gconcat:ccc} % \UnitTested % \begin{macro}{\@@_concat:NNNN} % Concatenating comma lists is not quite as easy as it seems, as % there needs to be the correct addition of a comma to the output. So % a little work to do. % \begin{macrocode} \cs_new_protected:Npn \clist_concat:NNN { \@@_concat:NNNN \__kernel_tl_set:Nx } \cs_new_protected:Npn \clist_gconcat:NNN { \@@_concat:NNNN \__kernel_tl_gset:Nx } \cs_new_protected:Npn \@@_concat:NNNN #1#2#3#4 { #1 #2 { \exp_not:o #3 \clist_if_empty:NF #3 { \clist_if_empty:NF #4 { , } } \exp_not:o #4 } } \cs_generate_variant:Nn \clist_concat:NNN { ccc } \cs_generate_variant:Nn \clist_gconcat:NNN { ccc } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}[pTF]{\clist_if_exist:N, \clist_if_exist:c} % Copies of the \texttt{cs} functions defined in \pkg{l3basics}. % \begin{macrocode} \prg_new_eq_conditional:NNn \clist_if_exist:N \cs_if_exist:N { TF , T , F , p } \prg_new_eq_conditional:NNn \clist_if_exist:c \cs_if_exist:c { TF , T , F , p } % \end{macrocode} % \end{macro} % % \subsection{Adding data to comma lists} % % \begin{macro} % { % \clist_set:Nn, \clist_set:NV, \clist_set:Ne, % \clist_set:No, \clist_set:Nx, % \clist_set:cn, \clist_set:cV, \clist_set:ce, % \clist_set:co, \clist_set:cx % } % \begin{macro} % { % \clist_gset:Nn, \clist_gset:NV, \clist_gset:Ne, % \clist_gset:No, \clist_gset:Nx, % \clist_gset:cn, \clist_gset:cV, \clist_gset:ce, % \clist_gset:co, \clist_gset:cx, % } % \begin{macrocode} \cs_new_protected:Npn \clist_set:Nn #1#2 { \__kernel_tl_set:Nx #1 { \@@_sanitize:n {#2} } } \cs_new_protected:Npn \clist_gset:Nn #1#2 { \__kernel_tl_gset:Nx #1 { \@@_sanitize:n {#2} } } \cs_generate_variant:Nn \clist_set:Nn { NV , Ne , c , cV , ce } \cs_generate_variant:Nn \clist_set:Nn { No , Nx , co , cx } \cs_generate_variant:Nn \clist_gset:Nn { NV , Ne , c , cV , ce } \cs_generate_variant:Nn \clist_gset:Nn { No , Nx , co , cx } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_put_left:Nn, \clist_put_left:NV, % \clist_put_left:Nv, \clist_put_left:Ne, % \clist_put_left:No, \clist_put_left:Nx, % \clist_put_left:cn, \clist_put_left:cV, % \clist_put_left:cv, \clist_put_left:ce, % \clist_put_left:co, \clist_put_left:cx, % } % \UnitTested % \begin{macro} % { % \clist_gput_left:Nn, \clist_gput_left:NV, % \clist_gput_left:Nv, \clist_gput_left:Ne, % \clist_gput_left:No, \clist_gput_left:Nx, % \clist_gput_left:cn, \clist_gput_left:cV, % \clist_gput_left:cv, \clist_gput_left:ce, % \clist_gput_left:co, \clist_gput_left:cx, % } % \UnitTested % \begin{macro}{\@@_put_left:NNNn} % Everything is based on concatenation after storing in % \cs{l_@@_internal_clist}. This avoids having to worry here about % space-trimming and so on. % \begin{macrocode} \cs_new_protected:Npn \clist_put_left:Nn { \@@_put_left:NNNn \clist_concat:NNN \clist_set:Nn } \cs_new_protected:Npn \clist_gput_left:Nn { \@@_put_left:NNNn \clist_gconcat:NNN \clist_set:Nn } \cs_new_protected:Npn \@@_put_left:NNNn #1#2#3#4 { #2 \l_@@_internal_clist {#4} #1 #3 \l_@@_internal_clist #3 } \cs_generate_variant:Nn \clist_put_left:Nn { NV , Nv , Ne , c , cV , cv , ce } \cs_generate_variant:Nn \clist_put_left:Nn { No , Nx , co , cx } \cs_generate_variant:Nn \clist_gput_left:Nn { NV , Nv , Ne , c , cV , cv , ce } \cs_generate_variant:Nn \clist_gput_left:Nn { No , Nx , co , cx } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_put_right:Nn, \clist_put_right:NV, % \clist_put_right:Nv, \clist_put_right:Ne, % \clist_put_right:No, \clist_put_right:Nx, % \clist_put_right:cn, \clist_put_right:cV, % \clist_put_right:cv, \clist_put_right:ce, % \clist_put_right:co, \clist_put_right:cx % } % \UnitTested % \begin{macro} % { % \clist_gput_right:Nn, \clist_gput_right:NV, % \clist_gput_right:Nv, \clist_gput_right:Ne, % \clist_gput_right:No, \clist_gput_right:Nx, % \clist_gput_right:cn, \clist_gput_right:cV, % \clist_gput_right:cv, \clist_gput_right:ce, % \clist_gput_right:cx, \clist_gput_right:co % } % \UnitTested % \begin{macro}{\@@_put_right:NNNn} % \begin{macrocode} \cs_new_protected:Npn \clist_put_right:Nn { \@@_put_right:NNNn \clist_concat:NNN \clist_set:Nn } \cs_new_protected:Npn \clist_gput_right:Nn { \@@_put_right:NNNn \clist_gconcat:NNN \clist_set:Nn } \cs_new_protected:Npn \@@_put_right:NNNn #1#2#3#4 { #2 \l_@@_internal_clist {#4} #1 #3 #3 \l_@@_internal_clist } \cs_generate_variant:Nn \clist_put_right:Nn { NV , Nv , Ne , c , cV , cv , ce } \cs_generate_variant:Nn \clist_put_right:Nn { No , Nx , co , cx } \cs_generate_variant:Nn \clist_gput_right:Nn { NV , Nv , Ne , c , cV , cv , ce } \cs_generate_variant:Nn \clist_gput_right:Nn { No , Nx , co , cx } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \subsection{Comma lists as stacks} % % \begin{macro}{\clist_get:NN, \clist_get:cN} % \UnitTested % \begin{macro}{\@@_get:wN} % Getting an item from the left of a comma list is pretty easy: just % trim off the first item using the comma. No need to trim spaces as % comma-list \emph{variables} are assumed to have \enquote{cleaned-up} % items. (Note that grabbing a comma-delimited item removes an outer % pair of braces if present, exactly as needed to uncover the % underlying item.) % \begin{macrocode} \cs_new_protected:Npn \clist_get:NN #1#2 { \if_meaning:w #1 \c_empty_clist \tl_set:Nn #2 { \q_no_value } \else: \exp_after:wN \@@_get:wN #1 , \s_@@_stop #2 \fi: } \cs_new_protected:Npn \@@_get:wN #1 , #2 \s_@@_stop #3 { \tl_set:Nn #3 {#1} } \cs_generate_variant:Nn \clist_get:NN { c } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_pop:NN, \clist_pop:cN} % \UnitTested % \begin{macro}{\clist_gpop:NN, \clist_gpop:cN} % \UnitTested % \begin{macro} % {\@@_pop:NNN, \@@_pop:wwNNN, \@@_pop:wN} % An empty clist leads to \cs{q_no_value}, otherwise grab until the % first comma and assign to the variable. The second argument of % \cs{@@_pop:wwNNN} is a comma list ending in a comma and % \cs{s_@@_mark}, unless the original clist contained exactly one item: % then the argument is just \cs{s_@@_mark}. The next auxiliary picks % either \cs{exp_not:n} or \cs{use_none:n} as |#2|, ensuring that the % result can safely be an empty comma list. % \begin{macrocode} \cs_new_protected:Npn \clist_pop:NN { \@@_pop:NNN \__kernel_tl_set:Nx } \cs_new_protected:Npn \clist_gpop:NN { \@@_pop:NNN \__kernel_tl_gset:Nx } \cs_new_protected:Npn \@@_pop:NNN #1#2#3 { \if_meaning:w #2 \c_empty_clist \tl_set:Nn #3 { \q_no_value } \else: \exp_after:wN \@@_pop:wwNNN #2 , \s_@@_mark \s_@@_stop #1#2#3 \fi: } \cs_new_protected:Npn \@@_pop:wwNNN #1 , #2 \s_@@_stop #3#4#5 { \tl_set:Nn #5 {#1} #3 #4 { \@@_pop:wN \prg_do_nothing: #2 \exp_not:o , \s_@@_mark \use_none:n \s_@@_stop } } \cs_new:Npn \@@_pop:wN #1 , \s_@@_mark #2 #3 \s_@@_stop { #2 {#1} } \cs_generate_variant:Nn \clist_pop:NN { c } \cs_generate_variant:Nn \clist_gpop:NN { c } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}[TF]{\clist_get:NN, \clist_get:cN} % \begin{macro}[TF]{\clist_pop:NN, \clist_pop:cN} % \begin{macro}[TF]{\clist_gpop:NN, \clist_gpop:cN} % \begin{macro}{\@@_pop_TF:NNN} % The same, as branching code: very similar to the above. % \begin{macrocode} \prg_new_protected_conditional:Npnn \clist_get:NN #1#2 { T , F , TF } { \if_meaning:w #1 \c_empty_clist \prg_return_false: \else: \exp_after:wN \@@_get:wN #1 , \s_@@_stop #2 \prg_return_true: \fi: } \prg_generate_conditional_variant:Nnn \clist_get:NN { c } { T , F , TF } \prg_new_protected_conditional:Npnn \clist_pop:NN #1#2 { T , F , TF } { \@@_pop_TF:NNN \__kernel_tl_set:Nx #1 #2 } \prg_new_protected_conditional:Npnn \clist_gpop:NN #1#2 { T , F , TF } { \@@_pop_TF:NNN \__kernel_tl_gset:Nx #1 #2 } \cs_new_protected:Npn \@@_pop_TF:NNN #1#2#3 { \if_meaning:w #2 \c_empty_clist \prg_return_false: \else: \exp_after:wN \@@_pop:wwNNN #2 , \s_@@_mark \s_@@_stop #1#2#3 \prg_return_true: \fi: } \prg_generate_conditional_variant:Nnn \clist_pop:NN { c } { T , F , TF } \prg_generate_conditional_variant:Nnn \clist_gpop:NN { c } { T , F , TF } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{ % \clist_push:Nn, \clist_push:NV, \clist_push:No, \clist_push:Nx, % \clist_push:cn, \clist_push:cV, \clist_push:co, \clist_push:cx, % } % \UnitTested % \begin{macro}{ % \clist_gpush:Nn, \clist_gpush:NV, \clist_gpush:No, \clist_gpush:Nx, % \clist_gpush:cn, \clist_gpush:cV, \clist_gpush:co, \clist_gpush:cx, % } % \UnitTested % Pushing to a comma list is the same as adding on the left. % \begin{macrocode} \cs_new_eq:NN \clist_push:Nn \clist_put_left:Nn \cs_generate_variant:Nn \clist_push:Nn { NV , No , Nx , c , cV , co , cx } \cs_new_eq:NN \clist_gpush:Nn \clist_gput_left:Nn \cs_generate_variant:Nn \clist_gpush:Nn { NV , No , Nx , c , cV , co , cx } % \end{macrocode} % \end{macro} % \end{macro} % % \subsection{Modifying comma lists} % % \begin{variable}{\l_@@_internal_remove_clist, \l_@@_internal_remove_seq} % An internal comma list and a sequence for the removal routines. % \begin{macrocode} \clist_new:N \l_@@_internal_remove_clist \seq_new:N \l_@@_internal_remove_seq % \end{macrocode} % \end{variable} % % \begin{macro}{\clist_remove_duplicates:N, \clist_remove_duplicates:c} % \UnitTested % \begin{macro}{\clist_gremove_duplicates:N, \clist_gremove_duplicates:c} % \UnitTested % \begin{macro}{\@@_remove_duplicates:NN} % Removing duplicates means making a new list then copying it. % \begin{macrocode} \cs_new_protected:Npn \clist_remove_duplicates:N { \@@_remove_duplicates:NN \clist_set_eq:NN } \cs_new_protected:Npn \clist_gremove_duplicates:N { \@@_remove_duplicates:NN \clist_gset_eq:NN } \cs_new_protected:Npn \@@_remove_duplicates:NN #1#2 { \clist_clear:N \l_@@_internal_remove_clist \clist_map_inline:Nn #2 { \clist_if_in:NnF \l_@@_internal_remove_clist {##1} { \tl_put_right:Ne \l_@@_internal_remove_clist { \clist_if_empty:NF \l_@@_internal_remove_clist { , } \@@_if_wrap:nTF {##1} { \exp_not:n { {##1} } } { \exp_not:n {##1} } } } } #1 #2 \l_@@_internal_remove_clist } \cs_generate_variant:Nn \clist_remove_duplicates:N { c } \cs_generate_variant:Nn \clist_gremove_duplicates:N { c } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_remove_all:Nn, \clist_remove_all:cn, % \clist_remove_all:NV, \clist_remove_all:cV % } % \UnitTested % \begin{macro} % { % \clist_gremove_all:Nn, \clist_gremove_all:cn, % \clist_gremove_all:NV, \clist_gremove_all:cV % } % \UnitTested % \begin{macro}{\@@_remove_all:NNNn} % \begin{macro}{\@@_remove_all:w} % \begin{macro}{\@@_remove_all:} % The method used here for safe items is very similar to % \cs{tl_replace_all:Nnn}. However, if the item contains commas or % leading/trailing spaces, or is empty, or consists of a single brace % group, we know that it can only appear within braces so the code % would fail; instead just convert to a sequence and do the removal % with \pkg{l3seq} code (it involves somewhat elaborate code to do % most of the work expandably but the final token list comparisons % non-expandably). % % For \enquote{safe} items, build a function delimited by the % \meta{item} that should be removed, % surrounded with commas, and call that function followed by % the expanded comma list, and another copy of the \meta{item}. % The loop is controlled by the argument grabbed by % \cs{@@_remove_all:w}: when the item was found, % the \cs{s_@@_mark} delimiter used is the one inserted by % \cs{@@_tmp:w}, and \cs{@@_use_none_delimit_by_s_stop:w} % is deleted. At the end, the final \meta{item} is % grabbed, and the argument of \cs{@@_tmp:w} contains % \cs{s_@@_mark}: in that case, \cs{@@_remove_all:w} % removes the second \cs{s_@@_mark} (inserted by \cs{@@_tmp:w}), % and lets \cs{@@_use_none_delimit_by_s_stop:w} act. % % No brace is lost because items are always grabbed with a leading comma. % The result of the first assignment has an extra leading comma, % which we remove in a second assignment. % Two exceptions: if the clist lost all of its elements, the result % is empty, and we shouldn't remove anything; if the clist started up % empty, the first step happens to turn it into a single comma, and % the second step removes it. % \begin{macrocode} \cs_new_protected:Npn \clist_remove_all:Nn { \@@_remove_all:NNNn \clist_set_from_seq:NN \__kernel_tl_set:Nx } \cs_new_protected:Npn \clist_gremove_all:Nn { \@@_remove_all:NNNn \clist_gset_from_seq:NN \__kernel_tl_gset:Nx } \cs_new_protected:Npn \@@_remove_all:NNNn #1#2#3#4 { \@@_if_wrap:nTF {#4} { \seq_set_from_clist:NN \l_@@_internal_remove_seq #3 \seq_remove_all:Nn \l_@@_internal_remove_seq {#4} #1 #3 \l_@@_internal_remove_seq } { \cs_set:Npn \@@_tmp:w ##1 , #4 , { ##1 , \s_@@_mark , \@@_use_none_delimit_by_s_stop:w , \@@_remove_all: } #2 #3 { \exp_after:wN \@@_remove_all: #3 , \s_@@_mark , #4 , \s_@@_stop } \clist_if_empty:NF #3 { #2 #3 { \exp_args:No \exp_not:o { \exp_after:wN \use_none:n #3 } } } } } \cs_new:Npn \@@_remove_all: { \exp_after:wN \@@_remove_all:w \@@_tmp:w , } \cs_new:Npn \@@_remove_all:w #1 , \s_@@_mark , #2 , { \exp_not:n {#1} } \cs_generate_variant:Nn \clist_remove_all:Nn { c , NV , cV } \cs_generate_variant:Nn \clist_gremove_all:Nn { c , NV , cV } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_reverse:N, \clist_reverse:c, % \clist_greverse:N, \clist_greverse:c % } % Use \cs{clist_reverse:n} in an \texttt{e}-expanding assignment. The % extra work that \cs{clist_reverse:n} does to preserve braces and % spaces would not be needed for the well-controlled case of % \texttt{N}-type comma lists, but the slow-down is not too bad. % \begin{macrocode} \cs_new_protected:Npn \clist_reverse:N #1 { \__kernel_tl_set:Nx #1 { \exp_args:No \clist_reverse:n {#1} } } \cs_new_protected:Npn \clist_greverse:N #1 { \__kernel_tl_gset:Nx #1 { \exp_args:No \clist_reverse:n {#1} } } \cs_generate_variant:Nn \clist_reverse:N { c } \cs_generate_variant:Nn \clist_greverse:N { c } % \end{macrocode} % \end{macro} % % \begin{macro}[EXP]{\clist_reverse:n} % \begin{macro}[EXP]{\@@_reverse:wwNww, \@@_reverse_end:ww} % The reversed token list is built one item at a time, and stored % between \cs{s_@@_stop} and \cs{s_@@_mark}, in the form of |?| followed by % zero or more instances of \enquote{\meta{item}\texttt{,}}. We start from a comma % list \enquote{\meta{item_1}\texttt{,\ldots,}\meta{item_n}}. During the loop, % the auxiliary \cs{@@_reverse:wwNww} receives \enquote{\texttt{?}\meta{item_i}} as % |#1|, \enquote{\meta{item_{i+1}}\texttt{,\ldots,}\meta{item_n}} as |#2|, % \cs{@@_reverse:wwNww} as |#3|, what remains until \cs{s_@@_stop} as % |#4|, and \enquote{\meta{item_{i-1}}\texttt{,\ldots,}\meta{item_1}\texttt{,}} as |#5|. % The auxiliary moves |#1| just before |#5|, with a comma, and calls % itself (|#3|). After the last item is moved, \cs{@@_reverse:wwNww} % receives \enquote{\cs{s_@@_mark} \cs{@@_reverse:wwNww} \texttt{!}} as its argument % |#1|, thus \cs{@@_reverse_end:ww} as its argument |#3|. This second % auxiliary cleans up until the marker~|!|, removes the trailing comma % (introduced when the first item was moved after \cs{s_@@_stop}), and % leaves its argument~|#1| within \cs{exp_not:n}. There is also a % need to remove a leading comma, hence \cs{exp_not:o} and % \cs{use_none:n}. % \begin{macrocode} \cs_new:Npn \clist_reverse:n #1 { \@@_reverse:wwNww ? #1 , \s_@@_mark \@@_reverse:wwNww ! , \s_@@_mark \@@_reverse_end:ww \s_@@_stop ? \s_@@_mark } \cs_new:Npn \@@_reverse:wwNww #1 , #2 \s_@@_mark #3 #4 \s_@@_stop ? #5 \s_@@_mark { #3 ? #2 \s_@@_mark #3 #4 \s_@@_stop #1 , #5 \s_@@_mark } \cs_new:Npn \@@_reverse_end:ww #1 ! #2 , \s_@@_mark { \exp_not:o { \use_none:n #2 } } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro} % {\clist_sort:Nn, \clist_sort:cn, \clist_gsort:Nn, \clist_gsort:cn} % Implemented in \pkg{l3sort}. % \end{macro} % % \subsection{Comma list conditionals} % % \begin{macro}[pTF]{\clist_if_empty:N, \clist_if_empty:c} % \UnitTested % Simple copies from the token list variable material. % \begin{macrocode} \prg_new_eq_conditional:NNn \clist_if_empty:N \tl_if_empty:N { p , T , F , TF } \prg_new_eq_conditional:NNn \clist_if_empty:c \tl_if_empty:c { p , T , F , TF } % \end{macrocode} % \end{macro} % % \begin{macro}[EXP, pTF]{\clist_if_empty:n} % \begin{macro}[EXP]{\@@_if_empty_n:w} % \begin{macro}[EXP]{\@@_if_empty_n:wNw} % As usual, we insert a token (here |?|) before grabbing % any argument: this avoids losing braces. The argument % of \cs{tl_if_empty:oTF} is empty if |#1| is |?| followed % by blank spaces (besides, this particular variant of % the emptiness test is optimized). If the item of the % comma list is blank, grab the next one. As soon as one % item is non-blank, exit: the second auxiliary grabs % \cs{prg_return_false:} as |#2|, unless every item in % the comma list was blank and the loop actually got broken % by the trailing \cs{s_@@_mark} \cs{prg_return_false:} item. % \begin{macrocode} \prg_new_conditional:Npnn \clist_if_empty:n #1 { p , T , F , TF } { \@@_if_empty_n:w ? #1 , \s_@@_mark \prg_return_false: , \s_@@_mark \prg_return_true: \s_@@_stop } \cs_new:Npn \@@_if_empty_n:w #1 , { \tl_if_empty:oTF { \use_none:nn #1 ? } { \@@_if_empty_n:w ? } { \@@_if_empty_n:wNw } } \cs_new:Npn \@@_if_empty_n:wNw #1 \s_@@_mark #2#3 \s_@@_stop {#2} % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}[TF] % { % \clist_if_in:Nn, \clist_if_in:NV, \clist_if_in:No, % \clist_if_in:cn, \clist_if_in:cV, \clist_if_in:co, % \clist_if_in:nn, \clist_if_in:nV, \clist_if_in:no % } % \begin{macro}{\@@_if_in_return:nnN} % \UnitTested % For \enquote{safe} items, we simply surround the comma list, and the % item, with commas, then use the same code as for \cs{tl_if_in:Nn}. % For \enquote{unsafe} items we follow the same route as % \cs{seq_if_in:Nn}, mapping through the list a comparison function. % If found, return \texttt{true} and remove \cs{prg_return_false:}. % \begin{macrocode} \prg_new_protected_conditional:Npnn \clist_if_in:Nn #1#2 { T , F , TF } { \exp_args:No \@@_if_in_return:nnN #1 {#2} #1 } \prg_new_protected_conditional:Npnn \clist_if_in:nn #1#2 { T , F , TF } { \clist_set:Nn \l_@@_internal_clist {#1} \exp_args:No \@@_if_in_return:nnN \l_@@_internal_clist {#2} \l_@@_internal_clist } \cs_new_protected:Npn \@@_if_in_return:nnN #1#2#3 { \@@_if_wrap:nTF {#2} { \cs_set:Npe \@@_tmp:w ##1 { \exp_not:N \tl_if_eq:nnT {##1} \exp_not:n { {#2} { \clist_map_break:n { \prg_return_true: \use_none:n } } } } \clist_map_function:NN #3 \@@_tmp:w \prg_return_false: } { \cs_set:Npn \@@_tmp:w ##1 ,#2, { } \tl_if_empty:oTF { \@@_tmp:w ,#1, {} {} ,#2, } { \prg_return_false: } { \prg_return_true: } } } \prg_generate_conditional_variant:Nnn \clist_if_in:Nn { NV , No , c , cV , co } { T , F , TF } \prg_generate_conditional_variant:Nnn \clist_if_in:nn { nV , no } { T , F , TF } % \end{macrocode} % \end{macro} % \end{macro} % % \subsection{Mapping over comma lists} % % \begin{macro}{\clist_map_function:NN, \clist_map_function:cN} % \UnitTested % \begin{macro}{\@@_map_function:Nw, \@@_map_function_end:w} % If the variable is empty, the mapping is skipped (otherwise, % that comma-list would be seen as consisting of one empty item). % Then loop over the comma-list, grabbing eight comma-delimited items % at a time. The end is marked by \cs{s_@@_stop}, which may not appear % in any of the items. Once the last group of eight items has been % reached, we go through them more slowly using % \cs{@@_map_function_end:w}. The auxiliary function % \cs{@@_map_function:Nw} is also used in some other clist mappings. % \begin{macrocode} \cs_new:Npn \clist_map_function:NN #1#2 { \clist_if_empty:NF #1 { \exp_after:wN \@@_map_function:Nw \exp_after:wN #2 #1 , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \prg_break_point:Nn \clist_map_break: { } } } \cs_new:Npn \@@_map_function:Nw #1 #2, #3, #4, #5, #6, #7, #8, #9, { \@@_use_none_delimit_by_s_stop:w #9 \@@_map_function_end:w \s_@@_stop #1 {#2} #1 {#3} #1 {#4} #1 {#5} #1 {#6} #1 {#7} #1 {#8} #1 {#9} \@@_map_function:Nw #1 } \cs_new:Npn \@@_map_function_end:w \s_@@_stop #1#2 { \@@_use_none_delimit_by_s_stop:w #2 \clist_map_break: \s_@@_stop #1 {#2} \@@_map_function_end:w \s_@@_stop } \cs_generate_variant:Nn \clist_map_function:NN { c } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_map_function:nN, \clist_map_function:eN} % \UnitTested % \begin{macro}{\@@_map_function_n:Nn} % \begin{macro}{\@@_map_unbrace:wn} % The \texttt{n}-type mapping function is a bit more awkward, % since spaces must be trimmed from each item. % Space trimming is again based on \cs{@@_trim_next:w}. % The auxiliary \cs{@@_map_function_n:Nn} receives as arguments the % function, and the next non-empty item (after space trimming but % before brace removal). One level of braces is removed by % \cs{@@_map_unbrace:wn}. % \begin{macrocode} \cs_new:Npn \clist_map_function:nN #1#2 { \exp_after:wN \@@_map_function_n:Nn \exp_after:wN #2 \exp:w \@@_trim_next:w \prg_do_nothing: #1 , \s_@@_stop \clist_map_break: , \prg_break_point:Nn \clist_map_break: { } } \cs_generate_variant:Nn \clist_map_function:nN { e } \cs_new:Npn \@@_map_function_n:Nn #1 #2 { \@@_use_none_delimit_by_s_stop:w #2 \s_@@_stop \@@_map_unbrace:wn #2 , #1 \exp_after:wN \@@_map_function_n:Nn \exp_after:wN #1 \exp:w \@@_trim_next:w \prg_do_nothing: } \cs_new:Npn \@@_map_unbrace:wn #1, #2 { #2 {#1} } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\clist_map_inline:Nn, \clist_map_inline:cn} % \UnitTested % \begin{macro}{\clist_map_inline:nn} % \UnitTested % Inline mapping is done by creating a suitable function % \enquote{on the fly}: this is done globally to avoid % any issues with \TeX{}'s groups. We use a different % function for each level of nesting. % % Since the mapping is non-expandable, we can perform % the space-trimming needed by the \texttt{n} version % simply by storing the comma-list in a variable. We % don't need a different comma-list for each nesting % level: the comma-list is expanded before the mapping % starts. % \begin{macrocode} \cs_new_protected:Npn \clist_map_inline:Nn #1#2 { \clist_if_empty:NF #1 { \int_gincr:N \g__kernel_prg_map_int \cs_gset_protected:cpn { @@_map_ \int_use:N \g__kernel_prg_map_int :w } ##1 {#2} \exp_last_unbraced:Nco \@@_map_function:Nw { @@_map_ \int_use:N \g__kernel_prg_map_int :w } #1 , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \prg_break_point:Nn \clist_map_break: { \int_gdecr:N \g__kernel_prg_map_int } } } \cs_new_protected:Npn \clist_map_inline:nn #1 { \clist_set:Nn \l_@@_internal_clist {#1} \clist_map_inline:Nn \l_@@_internal_clist } \cs_generate_variant:Nn \clist_map_inline:Nn { c } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_map_variable:NNn, \clist_map_variable:cNn} % \UnitTested % \begin{macro}{\clist_map_variable:nNn} % \begin{macro}{\@@_map_variable:Nnn} % The |N|-type version is a straightforward application of % \cs{clist_map_tokens:Nn}, calling \cs{@@_map_variable:Nnn} for each % item to assign the variable and run the user's code. The |n|-type % version is \emph{not} implemented in terms of the |n|-type function % \cs{clist_map_tokens:Nn}, because here we are allowed to clean up % the |n|-type comma list non-expandably. % \begin{macrocode} \cs_new_protected:Npn \clist_map_variable:NNn #1#2#3 { \clist_map_tokens:Nn #1 { \@@_map_variable:Nnn #2 {#3} } } \cs_generate_variant:Nn \clist_map_variable:NNn { c } \cs_new_protected:Npn \@@_map_variable:Nnn #1#2#3 { \tl_set:Nn #1 {#3} #2 } \cs_new_protected:Npn \clist_map_variable:nNn #1 { \clist_set:Nn \l_@@_internal_clist {#1} \clist_map_variable:NNn \l_@@_internal_clist } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\clist_map_tokens:Nn, \clist_map_tokens:cn} % \begin{macro}{\@@_map_tokens:nw, \@@_map_tokens_end:w} % Essentially a copy of \cs{clist_map_function:NN} with braces added. % \begin{macrocode} \cs_new:Npn \clist_map_tokens:Nn #1#2 { \clist_if_empty:NF #1 { \exp_last_unbraced:Nno \@@_map_tokens:nw {#2} #1 , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \s_@@_stop , \prg_break_point:Nn \clist_map_break: { } } } \cs_new:Npn \@@_map_tokens:nw #1 #2, #3, #4, #5, #6, #7, #8, #9, { \@@_use_none_delimit_by_s_stop:w #9 \@@_map_tokens_end:w \s_@@_stop \use:n {#1} {#2} \use:n {#1} {#3} \use:n {#1} {#4} \use:n {#1} {#5} \use:n {#1} {#6} \use:n {#1} {#7} \use:n {#1} {#8} \use:n {#1} {#9} \@@_map_tokens:nw {#1} } \cs_new:Npn \@@_map_tokens_end:w \s_@@_stop \use:n #1#2 { \@@_use_none_delimit_by_s_stop:w #2 \clist_map_break: \s_@@_stop #1 {#2} \@@_map_tokens_end:w \s_@@_stop } \cs_generate_variant:Nn \clist_map_tokens:Nn { c } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_map_tokens:nn, \@@_map_tokens_n:nw} % Similar to \cs{clist_map_function:nN} but with a different way of % grabbing items because we cannot use \cs{exp_after:wN} to pass the % \meta{code}. % \begin{macrocode} \cs_new:Npn \clist_map_tokens:nn #1#2 { \@@_map_tokens_n:nw {#2} \prg_do_nothing: #1 , \s_@@_stop \clist_map_break: , \prg_break_point:Nn \clist_map_break: { } } \cs_new:Npn \@@_map_tokens_n:nw #1#2 , { \tl_if_empty:oF { \use_none:nn #2 ? } { \@@_use_none_delimit_by_s_stop:w #2 \s_@@_stop \tl_trim_spaces_apply:oN {#2} \use_ii_i:nn \@@_map_unbrace:wn , {#1} } \@@_map_tokens_n:nw {#1} \prg_do_nothing: } % \end{macrocode} % \end{macro} % % \begin{macro}{\clist_map_break:, \clist_map_break:n} % The break statements use the general \cs{prg_map_break:Nn} mechanism. % \begin{macrocode} \cs_new:Npn \clist_map_break: { \prg_map_break:Nn \clist_map_break: { } } \cs_new:Npn \clist_map_break:n { \prg_map_break:Nn \clist_map_break: } % \end{macrocode} % \end{macro} % % \begin{macro}{\clist_count:N, \clist_count:c, \clist_count:n, \clist_count:e} % \begin{macro}{\@@_count:n} % \begin{macro}{\@@_count:w} % Counting the items in a comma list is done using the same approach as for % other token count functions: turn each entry into a \texttt{+1} then use % integer evaluation to actually do the mathematics. % In the case of an \texttt{n}-type comma-list, we could of course use % \cs{clist_map_function:nN}, but that is very slow, because it carefully % removes spaces. Instead, we loop manually, and skip blank items % (but not |{}|, hence the extra spaces). % \begin{macrocode} \cs_new:Npn \clist_count:N #1 { \int_eval:n { 0 \clist_map_function:NN #1 \@@_count:n } } \cs_generate_variant:Nn \clist_count:N { c } \cs_new:Npn \@@_count:n #1 { + 1 } \cs_set_protected:Npn \@@_tmp:w #1 { \cs_new:Npn \clist_count:n ##1 { \int_eval:n { 0 \@@_count:w #1 ##1 , \s_@@_stop \prg_break: , \prg_break_point: } } \cs_new:Npn \@@_count:w ##1 , { \@@_use_none_delimit_by_s_stop:w ##1 \s_@@_stop \tl_if_blank:nF {##1} { + 1 } \@@_count:w #1 } } \exp_args:No \@@_tmp:w \c_space_tl \cs_generate_variant:Nn \clist_count:n { e } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \subsection{Using comma lists} % % \begin{macro}[EXP]{\clist_use:Nnnn, \clist_use:cnnn} % \begin{macro}[EXP] % {\@@_use:wwn, \@@_use:nwwwwnwn, \@@_use:nwwn} % \begin{macro}[EXP]{\clist_use:Nn, \clist_use:cn} % First check that the variable exists. Then count the items in the % comma list. If it has none, output nothing. If it has one item, % output that item, brace stripped (note that space-trimming has % already been done when the comma list was assigned). If it has two, % place the \meta{separator~between~two} in the middle. % % Otherwise, \cs{@@_use:nwwwwnwn} takes the following arguments; 1: % a \meta{separator}, 2, 3, 4: three items from the comma list (or % quarks), 5: the rest of the comma list, 6: a \meta{continuation} % function (\texttt{use_ii} or \texttt{use_iii} with its % \meta{separator} argument), 7: junk, and 8: the temporary result, % which is built in a brace group following \cs{s_@@_stop}. The % \meta{separator} and the first of the three items are placed in the % result, then we use the \meta{continuation}, placing the remaining % two items after it. When we begin this loop, the three items really % belong to the comma list, the first \cs{s_@@_mark} is taken as a % delimiter to the \texttt{use_ii} function, and the continuation is % \texttt{use_ii} itself. When we reach the last two items of the % original token list, \cs{s_@@_mark} is taken as a third item, and now % the second \cs{s_@@_mark} serves as a delimiter to \texttt{use_ii}, % switching to the other \meta{continuation}, \texttt{use_iii}, which % uses the \meta{separator between final two}. % \begin{macrocode} \cs_new:Npn \clist_use:Nnnn #1#2#3#4 { \clist_if_exist:NTF #1 { \int_case:nnF { \clist_count:N #1 } { { 0 } { } { 1 } { \exp_after:wN \@@_use:wwn #1 , , { } } { 2 } { \exp_after:wN \@@_use:wwn #1 , {#2} } } { \exp_after:wN \@@_use:nwwwwnwn \exp_after:wN { \exp_after:wN } #1 , \s_@@_mark , { \@@_use:nwwwwnwn {#3} } \s_@@_mark , { \@@_use:nwwn {#4} } \s_@@_stop { } } } { \msg_expandable_error:nnn { kernel } { bad-variable } {#1} } } \cs_generate_variant:Nn \clist_use:Nnnn { c } \cs_new:Npn \@@_use:wwn #1 , #2 , #3 { \exp_not:n { #1 #3 #2 } } \cs_new:Npn \@@_use:nwwwwnwn #1#2 , #3 , #4 , #5 \s_@@_mark , #6#7 \s_@@_stop #8 { #6 {#3} , {#4} , #5 \s_@@_mark , {#6} #7 \s_@@_stop { #8 #1 #2 } } \cs_new:Npn \@@_use:nwwn #1#2 , #3 \s_@@_stop #4 { \exp_not:n { #4 #1 #2 } } \cs_new:Npn \clist_use:Nn #1#2 { \clist_use:Nnnn #1 {#2} {#2} {#2} } \cs_generate_variant:Nn \clist_use:Nn { c } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro} % { % \clist_use:nnnn, \clist_use:nn, \@@_use:Nw, % \@@_use_one:w, \@@_use_end:w, \@@_use_more:w % } % Items are grabbed by \cs{@@_use:Nw}, which detects blank items with % a \cs{tl_if_empty:oTF} test (in which case it recurses). Non-blank % items are either the end of the list, in which case the argument % |#1| of \cs{@@_use:Nw} is used to properly end the list, or are % normal items, which must be trimmed and properly unbraced. As we % find successive items, the long list of \cs{@@_use:Nw} calls gets % shortened and we end up calling \cs{@@_use_more:w} once we have % found $3$ items. This auxiliary leaves the first-found item and the % general separator, and calls \cs{@@_use:Nw} to find more items. % A subtlety is that we use \cs{@@_use_end:w} both in the case of a % two-item list and for the last two items of a general list: to get % the correct separator, \cs{@@_use_more:w} replaces the % separator-of-two by the last-separator when called, namely as soon % as we have found three items. % \begin{macrocode} \cs_new:Npn \clist_use:nnnn #1#2#3#4 { \@@_use:Nw \@@_use_none_delimit_by_s_stop:w \@@_use:Nw \@@_use_one:w \@@_use:Nw \@@_use_end:w \@@_use_more:w ; {#2} {#3} {#4} ; \prg_do_nothing: #1 , \s_@@_mark , \s_@@_stop } \cs_new:Npn \@@_use:Nw #1#2 ; #3 ; #4 , { \tl_if_empty:oTF { \use_none:nn #4 ? } { \@@_use:Nw #1#2 ; } { \@@_use_none_delimit_by_s_mark:w #4 #1 \s_@@_mark \tl_trim_spaces_apply:oN {#4} \use_ii_i:nn \@@_map_unbrace:wn , { #2 ; } } #3 ; \prg_do_nothing: } \cs_new:Npn \@@_use_one:w \s_@@_mark #1 , #2#3#4 \s_@@_stop { \exp_not:n {#3} } \cs_new:Npn \@@_use_end:w \s_@@_mark #1 , #2#3#4#5#6 \s_@@_stop { \exp_not:n { #4 #5 #3 } } \cs_new:Npn \@@_use_more:w ; #1#2#3#4#5#6 ; { \exp_not:n { #3 #5 } \@@_use:Nw \@@_use_end:w \@@_use_more:w ; {#1} {#2} {#6} {#5} {#6} ; } \cs_new:Npn \clist_use:nn #1#2 { \clist_use:nnnn {#1} {#2} {#2} {#2} } % \end{macrocode} % \end{macro} % % \subsection{Using a single item} % % \begin{macro}{\clist_item:Nn, \clist_item:cn} % \begin{macro}{\@@_item:nnnN, \@@_item:ffoN, \@@_item:ffnN} % \begin{macro}{\@@_item_N_loop:nw} % To avoid needing to test the end of the list at each step, % we first compute the \meta{length} of the list. If the item number % is~$0$, less than $-\meta{length}$, or more than $\meta{length}$, % the result is empty. If it is negative, but not less than $-\meta{length}$, % add $\meta{length}+1$ to the item number before performing the loop. % The loop itself is very simple, return the item if the counter % reached~$1$, otherwise, decrease the counter and repeat. % \begin{macrocode} \cs_new:Npn \clist_item:Nn #1#2 { \@@_item:ffoN { \clist_count:N #1 } { \int_eval:n {#2} } #1 \@@_item_N_loop:nw } \cs_new:Npn \@@_item:nnnN #1#2#3#4 { \int_compare:nNnTF {#2} < 0 { \int_compare:nNnTF {#2} < { - #1 } { \@@_use_none_delimit_by_s_stop:w } { \exp_args:Nf #4 { \int_eval:n { #2 + 1 + #1 } } } } { \int_compare:nNnTF {#2} > {#1} { \@@_use_none_delimit_by_s_stop:w } { #4 {#2} } } { } , #3 , \s_@@_stop } \cs_generate_variant:Nn \@@_item:nnnN { ffo, ff } \cs_new:Npn \@@_item_N_loop:nw #1 #2, { \int_compare:nNnTF {#1} = 0 { \@@_use_i_delimit_by_s_stop:nw { \exp_not:n {#2} } } { \exp_args:Nf \@@_item_N_loop:nw { \int_eval:n { #1 - 1 } } } } \cs_generate_variant:Nn \clist_item:Nn { c } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\clist_item:nn, \clist_item:en} % \begin{macro}{ % \@@_item_n:nw, % \@@_item_n_loop:nw, % \@@_item_n_end:n, % \@@_item_n_strip:n, % \@@_item_n_strip:w} % This starts in the same way as \cs{clist_item:Nn} by counting the items % of the comma list. The final item should be space-trimmed before being % brace-stripped, hence we insert a couple of odd-looking % \cs{prg_do_nothing:} to avoid losing braces. Blank items are ignored. % \begin{macrocode} \cs_new:Npn \clist_item:nn #1#2 { \@@_item:ffnN { \clist_count:n {#1} } { \int_eval:n {#2} } {#1} \@@_item_n:nw } \cs_generate_variant:Nn \clist_item:nn { e } \cs_new:Npn \@@_item_n:nw #1 { \@@_item_n_loop:nw {#1} \prg_do_nothing: } \cs_new:Npn \@@_item_n_loop:nw #1 #2, { \exp_args:No \tl_if_blank:nTF {#2} { \@@_item_n_loop:nw {#1} \prg_do_nothing: } { \int_compare:nNnTF {#1} = 0 { \exp_args:No \@@_item_n_end:n {#2} } { \exp_args:Nf \@@_item_n_loop:nw { \int_eval:n { #1 - 1 } } \prg_do_nothing: } } } \cs_new:Npn \@@_item_n_end:n #1 #2 \s_@@_stop { \tl_trim_spaces_apply:nN {#1} \@@_item_n_strip:n } \cs_new:Npn \@@_item_n_strip:n #1 { \@@_item_n_strip:w #1 , } \cs_new:Npn \@@_item_n_strip:w #1 , { \exp_not:n {#1} } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\clist_rand_item:n, \clist_rand_item:N, \clist_rand_item:c} % \begin{macro}{\@@_rand_item:nn} % The |N|-type function is not implemented through the |n|-type % function for efficiency: for instance comma-list variables do not % require space-trimming of their items. Even testing for emptyness % of an |n|-type comma-list is slow, so we count items first and use % that both for the emptyness test and the pseudo-random integer. % Importantly, \cs{clist_item:Nn} and \cs{clist_item:nn} only evaluate % their argument once. % \begin{macrocode} \cs_new:Npn \clist_rand_item:n #1 { \exp_args:Nf \@@_rand_item:nn { \clist_count:n {#1} } {#1} } \cs_new:Npn \@@_rand_item:nn #1#2 { \int_compare:nNnF {#1} = 0 { \clist_item:nn {#2} { \int_rand:nn { 1 } {#1} } } } \cs_new:Npn \clist_rand_item:N #1 { \clist_if_empty:NF #1 { \clist_item:Nn #1 { \int_rand:nn { 1 } { \clist_count:N #1 } } } } \cs_generate_variant:Nn \clist_rand_item:N { c } % \end{macrocode} % \end{macro} % \end{macro} % % \subsection{Viewing comma lists} % % \begin{macro}{\clist_show:N, \clist_show:c, \clist_log:N, \clist_log:c, \@@_show:NN} % Apply the general \cs{__kernel_chk_tl_type:NnnT} with \cs{exp_not:o} % |#2| serving as a dummy code to prevent a check performed by this % auxiliary. % \begin{macrocode} \cs_new_protected:Npn \clist_show:N { \@@_show:NN \msg_show:nneeee } \cs_generate_variant:Nn \clist_show:N { c } \cs_new_protected:Npn \clist_log:N { \@@_show:NN \msg_log:nneeee } \cs_generate_variant:Nn \clist_log:N { c } \cs_new_protected:Npn \@@_show:NN #1#2 { \__kernel_chk_tl_type:NnnT #2 { clist } { \exp_not:o #2 } { \int_compare:nNnTF { \clist_count:N #2 } = { \exp_args:No \clist_count:n #2 } { #1 { clist } { show } { \token_to_str:N #2 } { \clist_map_function:NN #2 \msg_show_item:n } { } { } } { \msg_error:nnee { clist } { non-clist } { \token_to_str:N #2 } { \tl_to_str:N #2 } } } } % \end{macrocode} % \end{macro} % % \begin{macro}{\clist_show:n, \clist_log:n, \@@_show:Nn} % A variant of the above: no existence check, empty first argument for % the message. % \begin{macrocode} \cs_new_protected:Npn \clist_show:n { \@@_show:Nn \msg_show:nneeee } \cs_new_protected:Npn \clist_log:n { \@@_show:Nn \msg_log:nneeee } \cs_new_protected:Npn \@@_show:Nn #1#2 { #1 { clist } { show } { } { \clist_map_function:nN {#2} \msg_show_item:n } { } { } } % \end{macrocode} % \end{macro} % % \subsection{Scratch comma lists} % % \begin{variable}{\l_tmpa_clist, \l_tmpb_clist} % \begin{variable}{\g_tmpa_clist, \g_tmpb_clist} % Temporary comma list variables. % \begin{macrocode} \clist_new:N \l_tmpa_clist \clist_new:N \l_tmpb_clist \clist_new:N \g_tmpa_clist \clist_new:N \g_tmpb_clist % \end{macrocode} % \end{variable} % \end{variable} % % \begin{macrocode} % % \end{macrocode} % % \end{implementation} % % \PrintIndex