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|
% \iffalse meta-comment
%
%% File: xtemplate.dtx
%
% Copyright (C) 1999 Frank Mittelbach, Chris Rowley, David Carlisle
% (C) 2004-2010 Frank Mittelbach, The LaTeX Project
% (C) 2011-2021 The LaTeX Project
%
% It may be distributed and/or modified under the conditions of the
% LaTeX Project Public License (LPPL), either version 1.3c of this
% license or (at your option) any later version. The latest version
% of this license is in the file
%
% https://www.latex-project.org/lppl.txt
%
% This file is part of the "l3packages 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|package>
% The version of expl3 required is tested as early as possible, as
% some really old versions do not define \ProvidesExplPackage.
\RequirePackage{expl3}[2018/02/21]
%<package>\@ifpackagelater{expl3}{2018/02/21}
%<package> {}
%<package> {%
%<package> \PackageError{xtemplate}{Support package l3kernel too old}
%<package> {%
%<package> Please install an up to date version of l3kernel\MessageBreak
%<package> using your TeX package manager or from CTAN.\MessageBreak
%<package> \MessageBreak
%<package> Loading xtemplate will abort!%
%<package> }%
%<package> \endinput
%<package> }
%</driver|package>
%<*driver>
\documentclass[full]{l3doc}
\usepackage{amstext}
\begin{document}
\DocInput{\jobname.dtx}
\end{document}
%</driver>
% \fi
%
% \title{^^A
% The \textsf{xtemplate} package\\ Prototype document functions^^A
% }
%
% \author{^^A
% The \LaTeX{} Project\thanks
% {^^A
% E-mail:
% \href{mailto:latex-team@latex-project.org}
% {latex-team@latex-project.org}^^A
% }^^A
% }
%
% \date{Released 2021-06-01}
%
% \maketitle
%
% \begin{documentation}
%
% There are three broad \enquote{layers} between putting down ideas into
% a source file and ending up with a typeset document. These layers of
% document writing are
% \begin{enumerate}
% \item authoring of the text with mark-up;
% \item document layout design;
% \item implementation (with \TeX{} programming) of the design.
% \end{enumerate}
% We write the text as an author, and we see the visual output of the design
% after the document is generated; the \TeX{} implementation in the middle is
% the glue between the two.
%
% \LaTeX{}'s greatest success has been to standardise a system of mark-up that
% balances the trade-off between ease of reading and ease of writing to suit
% almost all forms of technical writing. It's
% other original strength was a good background in typographical design; while
% the standard \LaTeXe{} classes look somewhat dated now in terms of their
% visual design, their typography is generally sound. (Barring the occasional
% minor faults.)
%
% However, \LaTeXe{} has always lacked a standard approach to customising
% the visual design of a document. Changing the looks of the standard classes
% involved either:
% \begin{itemize}
% \item Creating a new version of the implementation code of the class and
% editing it.
% \item Loading one of the many packages to customise certain elements of
% the standard classes.
% \item Loading a completely different document class, such as
% \textsf{KOMA-Script} or \textsf{memoir}, that allows easy customisation.
% \end{itemize}
% All three of these approaches have their drawbacks and learning curves.
%
% The idea behind \pkg{xtemplate} is to cleanly separate the three layers
% introduced at the beginning of this section, so that document authors who
% are not programmers can easily change the design of their documents.
% \pkg{xtemplate} also makes it easier for \LaTeX{} programmers to provide
% their own customisations on top of a pre-existing class.
%
% \section{What is a document?}
%
% Besides the textual content of the words themselves, the source file
% of a document contains mark-up elements that add structure to the
% document. These elements include sectional divisions, figure/table
% captions, lists of various sorts, theorems/proofs, and so on.
% The list will be different for every document that can be written.
%
% Each element can be represented logically without worrying about the
% formatting, with mark-up such as \cs{section}, \cs{caption},
% |\begin{enumerate}| and so on. The output of each one of these
% document elements will be a typeset representation of the information
% marked up, and the visual arrangement and design of these elements
% can vary widely in producing a variety of desired outcomes.
%
% For each type of document element, there may be design variations that
% contain the same sort of information but present it in slightly
% different ways. For example, the difference between a numbered and an
% unnumbered section, \cs{section} and |\section*|, or the difference
% between an itemised list or an enumerated list.
%
% There are three distinct layers in the definition of
% \enquote{a document} at this level
% \begin{enumerate}
% \item semantic elements such as the ideas of sections and lists;
% \item a set of design solutions for representing these elements
% visually;
% \item specific variations for these designs that represent the
% elements in the document.
% \end{enumerate}
% In the parlance of the template system, these are called object types,
% templates, and instances, and they are discussed below in sections
% \ref{sec:objects}, \ref{sec:templates}, and~\ref{sec:instances},
% respectively.
%
% \section {Objects, templates, and instances}
%
% By formally declaring documents to be composed of mark-up elements
% grouped into objects, which are interpreted and typeset with a set of
% templates, each of which has one or more instances with which to
% compose each and every semantic unit of the text, we can cleanly
% separate the components of document construction.
%
% All of the structures provided by the template system are global,
% and do not respect \TeX{} grouping.
%
% \section{Object types}
% \label{sec:objects}
%
% An \emph{object type} (sometimes just \enquote{object}) is an
% abstract idea of a document element that takes a fixed number of
% arguments corresponding to the information from the document author
% that it is representing. A sectioning object, for example, might take
% three inputs: \enquote{title}, \enquote{short title}, and
% \enquote{label}.
%
% Any given document class will define which object types are to be
% used in the document, and any template of a given object type can be
% used to generate an instance for the object. (Of course, different
% templates will produce different typeset representations, but the
% underlying content will be the same.)
%
% \begin{function}{\DeclareObjectType}
% \begin{syntax}
% \cs{DeclareObjectType} \Arg{object type} \Arg{no. of args}
% \end{syntax}
% This function defines an \meta{object type} taking
% \meta{number of arguments}, where the \meta{object type} is an
% abstraction as discussed above. For example,
% \begin{verbatim}
% \DeclareObjectType{sectioning}{3}
% \end{verbatim}
% creates an object type \enquote{sectioning}, where each use of that
% object type will need three arguments.
% \end{function}
%
% \section{Templates}
% \label{sec:templates}
%
% A \emph{template} is a generalised design solution for representing
% the information of a specified object type. Templates that do the same
% thing, but in different ways, are grouped together by their object type
% and given separate names. There are two important parts to a template:
% \begin{itemize}
% \item the parameters it takes to vary the design it is producing;
% \item the implementation of the design.
% \end{itemize}
% As a document author or designer does not care about the
% implementation but rather only the interface to the template, these two
% aspects of the template definition are split into two independent
% declarations, \cs{DeclareTemplateInterface} and
% \cs{DeclareTemplateCode}.
%
% \begin{function}{\DeclareTemplateInterface}
% \begin{syntax}
% \cs{DeclareTemplateInterface}
% ~~\Arg{object type} \Arg{template} \Arg{no.~of args}
% ~~\Arg{key list}
% \end{syntax}
% A \meta{template} interface is declared for a particular
% \meta{object type}, where the \meta{number of arguments} must
% agree with the object type declaration. The interface itself is
% defined by the \meta{key list}, which is itself a key--value list
% taking a specialized format:
% \begin{quotation}
% \obeylines
% \noindent
% \meta{key1}~":"~\meta{key type1}~","
% \meta{key2}~":"~\meta{key type2}~","
% \meta{key3}~":"~\meta{key type3}~"="~\meta{default3}~","
% \meta{key4}~":"~\meta{key type4}~"="~\meta{default4}~","
% \ldots
% \end{quotation}
% Each \meta{key} name should consist of \textsc{ascii} characters,
% with the exception of |,|, |=| and \verb*| |. The recommended form
% for key names is to use lower case letters, with dashes to separate
% out different parts. Spaces are ignored in key names, so they can be
% included or missed out at will. Each \meta{key} must have a
% \meta{key type}, which defined the type of input that the \meta{key}
% requires. A full list of key types is given in
% Table~\ref{tab:key-types}. Each key may have a \meta{default}
% value, which will be used in by the template if the \meta{key} is
% not set explicitly. The \meta{default} should be of the correct
% form to be accepted by the \meta{key type} of the \meta{key}: this
% is not checked by the code.
% \end{function}
%
% \begin{table}
% \centering
% \begin{tabular}{>{\ttfamily}ll}
% \toprule
% \multicolumn{1}{l}{Key-type} & Description of input \\
% \midrule
% boolean & \texttt{true} or \texttt{false} \\
% choice\Arg{choices}
% & A list of pre-defined \meta{choices} \\
% code
% & Generalised key type: use |#1| as the input to the key \\
% commalist & A comma-separated list \\
% function\Arg{$N$}
% & A function definition with $N$ arguments
% ($N$ from $0$ to $9$) \\
% instance\Arg{name}
% & An instance of type \meta{name} \\
% integer & An integer or integer expression \\
% length & A fixed length \\
% muskip & A math length with shrink and stretch components \\
% real & A real (floating point) value \\
% skip & A length with shrink and stretch components \\
% tokenlist & A token list: any text or commands \\
% \bottomrule
% \end{tabular}
% \caption{Key-types for defining template interfaces with
% \cs{DeclareTemplateInterface}.}
% \label{tab:key-types}
% \end{table}
%
% \begin{function}{\KeyValue}
% \begin{syntax}
% \cs{KeyValue} \Arg{key name}
% \end{syntax}
% There are occasions where the default (or value) for one key
% should be taken from another. The \cs{KeyValue} function can be
% used to transfer this information without needing to know the
% internal implementation of the key:
% \begin{verbatim}
% \DeclareTemplateInterface { object } { template } { no. of args }
% {
% key-name-1 : key-type = value ,
% key-name-2 : key-type = \KeyValue { key-name-1 },
% ...
% }
% \end{verbatim}
% \end{function}
%
% \begin{function}{\DeclareTemplateCode}
% \begin{syntax}
% \cs{DeclareTemplateCode}
% ~~\Arg{object type} \Arg{template} \Arg{no.~of args}
% ~~\Arg{key bindings} \Arg{code}
% \end{syntax}
% The relationship between a templates keys and the internal
% implementation is created using the \cs{DeclareTemplateCode}
% function. As with \cs{DeclareTemplateInterface}, the
% \meta{template} name is given along with the \meta{object type}
% and \meta{number of arguments} required. The \meta{key bindings}
% argument is a key--value list which specifies the relationship
% between each \meta{key} of the template interface with an
% underlying\meta{variable}.
%
% \begin{quotation}
% \obeylines
% \noindent
% \meta{key1}~"="~\meta{variable1},
% \meta{key2}~"="~\meta{variable2},
% \meta{key3}~"="~global~\meta{variable3},
% \meta{key4}~"="~global~\meta{variable4},
% \ldots
% \end{quotation}
% With the exception of the choice, code and function key types,
% the \meta{variable} here should be the name of an existing
% \LaTeX3 register. As illustrated, the key word \enquote{global}
% may be included in the listing to indicate that the \meta{variable}
% should be assigned globally. A full list of variable bindings is
% given in Table~\ref{tab:key-vars}.
%
% The \meta{code} argument of \cs{DeclareTemplateCode} is used
% as the replacement text for the template when it is used, either
% directly or as an instance. This may therefore accept arguments
% |#1|, |#2|, \emph{etc}.~as detailed by the \meta{number of arguments}
% taken by the object type.
% \end{function}
%
% \begin{table}
% \centering
% \begin{tabular}{>{\ttfamily}ll}
% \toprule
% \multicolumn{1}{l}{Key-type} & Description of binding \\
% \midrule
% boolean & Boolean variable, \emph{e.g}.~\cs{l_tmpa_bool} \\
% choice
% & List of choice implementations
% (see Section~\ref{sec:choices-key}) \\
% code
% & \meta{code} using |#1| as input to the key \\
% commalist & Comma list, \emph{e.g}.~\cs{l_tmpa_clist} \\
% function
% & Function taking $N$ arguments, \emph{e.g}.~\cs{use_i:nn} \\
% instance \\
% integer & Integer variable, \emph{e.g}.~\cs{l_tmpa_int} \\
% length & Dimension variable, \emph{e.g}.~\cs{l_tmpa_dim} \\
% muskip & Muskip variable, \emph{e.g}.~\cs{l_tmpa_muskip} \\
% real & Floating-point variable, \emph{e.g}.~\cs{l_tmpa_fp} \\
% skip & Skip variable, \emph{e.g}.~\cs{l_tmpa_skip} \\
% tokenlist & Token list variable, \emph{e.g}.~\cs{l_tmpa_tl} \\
% \bottomrule
% \end{tabular}
% \caption{Bindings required for different key types when defining
% template implementations with \cs{DeclareTemplateCode}. Apart
% from \texttt{code}, \texttt{choice} and \texttt{function}
% all of these accept the key word \texttt{global} to carry
% out a global assignment.}
% \label{tab:key-vars}
% \end{table}
%
% \begin{function}{\AssignTemplateKeys}
% \begin{syntax}
% \cs{AssignTemplateKeys}
% \end{syntax}
% In the final argument of \cs{DeclareTemplateCode} the assignment of
% keys defined by the template is carried out by using the function
% \cs{AssignTemplateKeys}. Thus no keys are assigned if this is missing
% from the \meta{code} used.
% \end{function}
%
% \begin{function}{\EvaluateNow}
% \begin{syntax}
% \cs{EvaluateNow} \Arg{expression}
% \end{syntax}
% The standard method when creating an instance from a template is to
% evaluate the \meta{expression} when the instance is used. However, it may
% be desirable to calculate the value when declared, which can be
% forced using \cs{EvaluateNow}. Currently, this functionality is
% regarded as experimental: the team have not found an example where it
% is actually needed, and so it may be dropped \emph{if} no good
% examples are suggested!
% \end{function}
%
% \section{Multiple choices}
% \label{sec:choices-key}
%
% The \texttt{choice} key type implements multiple choice input. At the
% interface level, only the list of valid choices is needed:
% \begin{verbatim}
% \DeclareTemplateInterface { foo } { bar } { 0 }
% { key-name : choice { A, B, C } }
% \end{verbatim}
% where the choices are given as a comma-list (which must therefore
% be wrapped in braces). A default value can also be given:
% \begin{verbatim}
% \DeclareTemplateInterface { foo } { bar } { 0 }
% { key-name : choice { A, B, C } = A }
% \end{verbatim}
%
% At the implementation level, each choice is associated with code,
% using a nested key--value list.
% \begin{verbatim}
% \DeclareTemplateCode { foo } { bar } { 0 }
% {
% key-name =
% {
% A = Code-A ,
% B = Code-B ,
% C = Code-C
% }
% }
% { ... }
% \end{verbatim}
% The two choice lists should match, but in the implementation a
% special \texttt{unknown} choice is also available. This can be used
% to ignore values and implement an \enquote{else} branch:
% \begin{verbatim}
% \DeclareTemplateCode { foo } { bar } { 0 }
% {
% key-name =
% {
% A = Code-A ,
% B = Code-B ,
% C = Code-C ,
% unknown = Else-code
% }
% }
% { ... }
% \end{verbatim}
% The \texttt{unknown} entry must be the last one given, and should
% \emph{not} be listed in the interface part of the template.
%
% For keys which accept the values \texttt{true} and \texttt{false}
% both the boolean and choice key types can be used. As template
% interfaces are intended to prompt clarity at the design level, the
% boolean key type should be favoured, with the choice type reserved
% for keys which take arbitrary values.
%
% \section{Instances}
% \label{sec:instances}
%
% After a template is defined it still needs to be put to use. The
% parameters that it expects need to be defined before it can be used in
% a document. Every time a template has parameters given to it, an
% \emph{instance} is created, and this is the code that ends up in the
% document to perform the typesetting of whatever pieces of information
% are input into it.
%
% For example, a template might say \enquote{here is a section with or
% without a number that might be centred or left aligned and print its
% contents in a certain font of a certain size, with a bit of a gap
% before and after it} whereas an instance declares \enquote{this is a
% section with a number, which is centred and set in $12\,\text{pt}$
% italic with a $10\,\text{pt}$ skip before and a
% $12\,\text{pt}$ skip after it}. Therefore, an instance is just a
% frozen version of a template with specific settings as chosen by the
% designer.
%
% \begin{function}{\DeclareInstance}
% \begin{syntax}
% \cs{DeclareInstance}
% ~~\Arg{object type} \Arg{instance} \Arg{template} \Arg{parameters}
% \end{syntax}
% This function uses a \meta{template} for an \meta{object type}
% to create an \meta{instance}. The \meta{instance} will be set
% up using the \meta{parameters}, which will set some of the
% \meta{keys} in the \meta{template}.
%
% As a practical example, consider an object type for document sections
% (which might include chapters, parts, sections, \emph{etc}.), which
% is called \texttt{sectioning}. One possible template for this
% object type might be called \texttt{basic}, and one instance of this
% template would be a numbered section. The instance declaration might
% read:
% \begin{verbatim}
% \DeclareInstance { sectioning } { section-num } { basic }
% {
% numbered = true ,
% justification = center ,
% font =\normalsize\itshape ,
% before-skip = 10pt ,
% after-skip = 12pt ,
% }
% \end{verbatim}
% Of course, the key names here are entirely imaginary, but illustrate
% the general idea of fixing some settings.
% \end{function}
%
% \begin{function}{\IfInstanceExistT, \IfInstanceExistF, \IfInstanceExistTF}
% \begin{syntax}
% \cs{IfInstanceExistTF} \Arg{object type} \Arg{instance} \Arg{true code} \Arg{false code}
% \end{syntax}
% Tests if the named \meta{instance} of a \meta{object type} exists, and
% then inserts the appropriate code into the input stream.
% \end{function}
%
% \section{Document interface}
%
% After the instances have been chosen, document commands must be
% declared to use those instances in the document. \cs{UseInstance}
% calls instances directly, and this command should be used internally
% in document-level mark-up.
%
% \begin{function}{\UseInstance}
% \begin{syntax}
% \cs{UseInstance}
% ~~\Arg{object type} \Arg{instance} \meta{arguments}
% \end{syntax}
% Uses an \meta{instance} of the \meta{object type}, which will require
% \meta{arguments} as determined by the number specified for the
% \meta{object type}. The \meta{instance} must have been declared
% before it can be used, otherwise an error is raised.
% \end{function}
%
% \begin{function}{\UseTemplate}
% \begin{syntax}
% \cs{UseTemplate} \Arg{object type} \Arg{template}
% ~~\Arg{settings} \meta{arguments}
% \end{syntax}
% Uses the \meta{template} of the specified \meta{object type},
% applying the \meta{settings} and absorbing \meta{arguments} as
% detailed by the \meta{object type} declaration. This in effect
% is the same as creating an instance using \cs{DeclareInstance}
% and immediately using it with \cs{UseInstance}, but without the
% instance having any further existence. It is therefore useful where
% a template needs to be used once.
%
% This function can also be used as the argument to \texttt{instance}
% key types:
% \begin{verbatim}
% \DeclareInstance { object } { template } { instance }
% {
% instance-key =
% \UseTemplate { object2 } { template2 } { <settings> }
% }
% \end{verbatim}
% \end{function}
%
% \section{Changing existing definitions}
%
% Template parameters may be assigned specific defaults for instances
% to use if the instance declaration doesn't explicit set those
% parameters. In some cases, the document designer will wish to edit
% these defaults to allow them to \enquote{cascade} to the instances.
% The alternative would be to set each parameter identically for each
% instance declaration, a tedious and error-prone process.
%
% \begin{function}{\EditTemplateDefaults}
% \begin{syntax}
% \cs{EditTemplateDefaults}
% ~~\Arg{object type} \Arg{template} \Arg{new defaults}
% \end{syntax}
% Edits the \meta{defaults} for a \meta{template} for an
% \meta{object type}. The \meta{new defaults}, given as a key--value
% list, replace the existing defaults for the \meta{template}. This
% means that the change will apply to instances declared after the
% editing, but that instances which have already been created are
% unaffected.
% \end{function}
%
% \begin{function}{\EditInstance}
% \begin{syntax}
% \cs{EditInstance}
% ~~\Arg{object type} \Arg{instance} \Arg{new values}
% \end{syntax}
% Edits the \meta{values} for an \meta{instance} for an
% \meta{object type}. The \meta{new values}, given as a key--value
% list, replace the existing values for the \meta{instance}. This
% function is complementary to \cs{EditTemplateDefaults}:
% \cs{EditInstance} changes a single instance while leaving the
% template untouched.
% \end{function}
%
% \section{When template parameters should be frozen}
%
% A class designer may be inheriting templates declared by someone else,
% either third-party code or the \LaTeX{} kernel itself. Sometimes these
% templates will be overly general for the purposes of the document.
% The user should be able to customise parts of the template instances,
% but otherwise be restricted to only those parameters allowed by the
% designer.
%
% \begin{function}{\DeclareRestrictedTemplate}
% \begin{syntax}
% \cs{DeclareRestrictedTemplate}
% ~~\Arg{object type} \Arg{parent template} \Arg{new template}
% ~~\Arg{parameters}
% \end{syntax}
% Creates a copy of the \meta{parent template} for the
% \meta{object type} called \meta{new template}. The key--value list
% of \meta{parameters} applies in the \meta{new template} and cannot
% be changed when creating an instance.
% \end{function}
%
% \section{Getting information about templates and instances}
%
% \begin{function}{\ShowInstanceValues}
% \begin{syntax}
% \cs{ShowInstanceValues} \Arg{object type} \Arg{instance}
% \end{syntax}
% Shows the \meta{values} for an \meta{instance} of the given
% \meta{object type} at the terminal.
% \end{function}
%
% \begin{function}{\ShowTemplateCode}
% \begin{syntax}
% \cs{ShowTemplateCode} \Arg{object type} \Arg{template}
% \end{syntax}
% Shows the \meta{code} of a \meta{template} for an \meta{object type}
% in the terminal.
% \end{function}
%
% \begin{function}{\ShowTemplateDefaults}
% \begin{syntax}
% \cs{ShowTemplateDefaults} \Arg{object type} \Arg{template}
% \end{syntax}
% Shows the \meta{default} values of a \meta{template} for an
% \meta{object type} in the terminal.
% \end{function}
%
% \begin{function}{\ShowTemplateInterface}
% \begin{syntax}
% \cs{ShowTemplateInterface} \Arg{object type} \Arg{template}
% \end{syntax}
% Shows the \meta{keys} and associated \meta{key types} of a
% \meta{template} for an \meta{object type} in the terminal.
% \end{function}
%
% \begin{function}{\ShowTemplateVariables}
% \begin{syntax}
% \cs{ShowTemplateVariables} \Arg{object type} \Arg{template}
% \end{syntax}
% Shows the \meta{variables} and associated \meta{keys} of a
% \meta{template} for an \meta{object type} in the terminal. Note that
% \texttt{code} and \texttt{choice} keys do not map directly to variables
% but to arbitrary code. For \texttt{choice} keys, each valid choice
% is shown as a separate entry in the list, with the key name and choice
% separated by a space, for example
% \begin{verbatim}
% Template 'example' of object type 'example' has variable mapping:
% > demo unknown => \def \demo {?}
% > demo c => \def \demo {c}
% > demo b => \def \demo {b}
% > demo a => \def \demo {a}.
% \end{verbatim}
% would be shown for a choice key \texttt{demo} with valid choices
% \texttt{a}, \texttt{b} and \texttt{c}, plus code for an \texttt{unknown}
% branch.
% \end{function}
%
% \section{Collections}
%
% The implementation of templates includes a concept termed
% \enquote{collections}. The idea is that by activating a collection, a
% set of instances can rapidly be set up. An example use case would be
% collections for \texttt{frontmatter}, \texttt{mainmatter} and
% \texttt{backmatter} in a book. This mechanism is currently implemented
% by the commands \cs{DeclareCollectionInstance}, \cs{EditCollectionInstance}
% and \cs{UseCollection}. However, while the idea of switchable instances is
% a useful one, the team feel that collections are not the correct way to
% achieve this, at least with the current approach. As such, the collection
% functions should be regarded as deprecated: they remain available to support
% existing code, but will be removed when a better mechanism is developed.
%
%
% \begin{function}{\ShowCollectionInstanceValues}
% \begin{syntax}
% \cs{ShowInstanceValues} \Arg{collection} \Arg{object type} \Arg{instance}
% \end{syntax}
% Shows the \meta{values} for an \meta{instance} within
% a \meta{collection} of the given \meta{object type} at the terminal.
% As for other collection commands, this should be regarded as deprecated.
% \end{function}
%
% \end{documentation}
%
% \begin{implementation}
%
% \section{\pkg{xtemplate} Implementation}
%
% \begin{macrocode}
%<*package>
% \end{macrocode}
%
% \begin{macrocode}
%<@@=xtemplate>
% \end{macrocode}
%
% \begin{macrocode}
\ProvidesExplPackage{xtemplate}{2021-06-01}{}
{L3 Experimental prototype document functions}
% \end{macrocode}
%
% \subsection{Variables and constants}
%
% \begin{variable}{\c_@@_code_root_tl}
% \begin{variable}{\c_@@_defaults_root_tl}
% \begin{variable}{\c_@@_instances_root_tl}
% \begin{variable}{\c_@@_keytypes_root_tl}
% \begin{variable}{\c_@@_key_order_root_tl}
% \begin{variable}{\c_@@_restrict_root_tl}
% \begin{variable}{\c_@@_values_root_tl}
% \begin{variable}{\c_@@_vars_root_tl}
% So that literal values are kept to a minimum.
% \begin{macrocode}
\tl_const:Nn \c_@@_code_root_tl { template~code~>~ }
\tl_const:Nn \c_@@_defaults_root_tl { template~defaults~>~ }
\tl_const:Nn \c_@@_instances_root_tl { template~instance~>~ }
\tl_const:Nn \c_@@_keytypes_root_tl { template~key~types~>~ }
\tl_const:Nn \c_@@_key_order_root_tl { template~key~order~>~ }
\tl_const:Nn \c_@@_restrict_root_tl { template~restrictions~>~ }
\tl_const:Nn \c_@@_values_root_tl { template~values~>~ }
\tl_const:Nn \c_@@_vars_root_tl { template~vars~>~ }
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
%
% \begin{variable}{\c_@@_keytypes_arg_seq}
% A list of keytypes which also need additional data (an argument),
% used to parse the keytype correctly. We suspend debugging to allow
% an assignment to a constant.
% \begin{macrocode}
\seq_const_from_clist:Nn \c_@@_keytypes_arg_seq
{ choice , function , instance }
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\g_@@_object_type_prop}
% For storing types and the associated number of arguments.
% \begin{macrocode}
\prop_new:N \g_@@_object_type_prop
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_assignments_tl}
% When creating an instance, the assigned values are collected here.
% \begin{macrocode}
\tl_new:N \l_@@_assignments_tl
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_collection_tl}
% The current instance collection name is stored here.
% \begin{macrocode}
\tl_new:N \l_@@_collection_tl
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_collections_prop}
% Lists current collection in force, indexed by object type.
% \begin{macrocode}
\prop_new:N \l_@@_collections_prop
% \end{macrocode}
% \end{variable}
%
% \begin{macro}{\l_@@_default_tl}
% The default value for a key is recovered here from the property list
% in which it is stored. The internal implementation of property lists
% means that this is safe even with un-escaped |#| tokens.
% \begin{macrocode}
\tl_new:N \l_@@_default_tl
% \end{macrocode}
%\ end{macro}
%
% \begin{variable}{\l_@@_error_bool}
% A flag for errors to be carried forward.
% \begin{macrocode}
\bool_new:N \l_@@_error_bool
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_global_bool}
% Used to indicate that assignments should be global.
% \begin{macrocode}
\bool_new:N \l_@@_global_bool
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_restrict_bool}
% A flag to indicate that a template is being restricted.
% \begin{macrocode}
\bool_new:N \l_@@_restrict_bool
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_restrict_clist}
% A scratch list for restricting templates.
% \begin{macrocode}
\clist_new:N \l_@@_restrict_clist
% \end{macrocode}
% \end{variable}
%
% \begin{variable}{\l_@@_key_name_tl}
% \begin{variable}{\l_@@_keytype_tl}
% \begin{variable}{\l_@@_keytype_arg_tl}
% \begin{variable}{\l_@@_value_tl}
% \begin{variable}{\l_@@_var_tl}
% When defining each key in a template, the name and type of the key
% need to be separated and stored. Any argument needed by the
% keytype is also stored separately.
% \begin{macrocode}
\tl_new:N \l_@@_key_name_tl
\tl_new:N \l_@@_keytype_tl
\tl_new:N \l_@@_keytype_arg_tl
\tl_new:N \l_@@_value_tl
\tl_new:N \l_@@_var_tl
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
%
% \begin{variable}{\l_@@_keytypes_prop}
% \begin{variable}{\l_@@_key_order_seq}
% \begin{variable}{\l_@@_values_prop}
% \begin{variable}{\l_@@_vars_prop}
% To avoid needing too many difficult-to-follow csname assignments,
% various scratch token registers are used to build up data, which is
% then transferred
% \begin{macrocode}
\prop_new:N \l_@@_keytypes_prop
\seq_new:N \l_@@_key_order_seq
\prop_new:N \l_@@_values_prop
\prop_new:N \l_@@_vars_prop
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
%
% \begin{variable}{\l_@@_tmp_clist}
% \begin{variable}{\l_@@_tmp_dim}
% \begin{variable}{\l_@@_tmp_int}
% \begin{variable}{\l_@@_tmp_muskip}
% \begin{variable}{\l_@@_tmp_skip}
% For pre-processing the data stored by \pkg{xtemplate}, a number of
% scratch variables are needed. The assignments are made to these in the
% first instance, unless evaluation is delayed.
% \begin{macrocode}
\clist_new:N \l_@@_tmp_clist
\dim_new:N \l_@@_tmp_dim
\int_new:N \l_@@_tmp_int
\muskip_new:N \l_@@_tmp_muskip
\skip_new:N \l_@@_tmp_skip
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
% \end{variable}
%
% \begin{variable}{\l_@@_tmp_tl}
% A scratch variable for comparisons and so on.
% \begin{macrocode}
\tl_new:N \l_@@_tmp_tl
% \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{variable}{\q_@@_nil}
% Internal quarks.
% \begin{macrocode}
\quark_new:N \q_@@_nil
% \end{macrocode}
% \end{variable}
%
% \begin{macro}[pTF]{\@@_quark_if_nil:n}
% Branching quark conditional.
% \begin{macrocode}
\__kernel_quark_new_conditional:Nn \@@_quark_if_nil:N { F }
% \end{macrocode}
% \end{macro}
%
% \subsection{Variant of prop functions}
%
% \begin{macro}[TF]{\prop_get:NoN}
% In some cases, we need to expand the key, and get the corresponding
% value in a property list if it exists.
% \begin{macrocode}
\cs_generate_variant:Nn \prop_get:NnNTF { No }
\cs_generate_variant:Nn \prop_get:NnNT { No }
\cs_generate_variant:Nn \prop_get:NnNF { No }
% \end{macrocode}
% \end{macro}
%
% \subsection{Testing existence and validity}
%
% There are a number of checks needed for either the existence of
% a object type, template or instance. There are also some for the
% validity of a particular call. All of these are collected up here.
%
% \begin{macro}{\@@_execute_if_arg_agree:nnT}
% A test agreement between the number of arguments for the template
% type and that specified when creating a template. This is not done as a
% separate conditional for efficiency and better error message
% \begin{macrocode}
\cs_new_protected:Npn \@@_execute_if_arg_agree:nnT #1#2#3
{
\prop_get:NnN \g_@@_object_type_prop {#1} \l_@@_tmp_tl
\int_compare:nNnTF {#2} = \l_@@_tmp_tl
{#3}
{
\msg_error:nnxxx { xtemplate }
{ argument-number-mismatch } {#1} { \l_@@_tmp_tl } {#2}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_execute_if_code_exist:nnT}
% A template is only fully declared if the code has been set up,
% which can be checked by looking for the template function itself.
% \begin{macrocode}
\cs_new_protected:Npn \@@_execute_if_code_exist:nnT #1#2#3
{
\cs_if_exist:cTF { \c_@@_code_root_tl #1 / #2 }
{#3}
{
\msg_error:nnxx { xtemplate } { no-template-code }
{#1} {#2}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_execute_if_keytype_exist:nT}
% \begin{macro}{\@@_execute_if_keytype_exist:oT}
% The test for valid keytypes looks for a function to set up the key,
% which is part of the \enquote{code} side of the template definition.
% This avoids having different lists for the two parts of the process.
% \begin{macrocode}
\cs_new_protected:Npn \@@_execute_if_keytype_exist:nT #1#2
{
\cs_if_exist:cTF { @@_store_value_ #1 :n }
{#2}
{ \msg_error:nnx { xtemplate } { unknown-keytype } {#1} }
}
\cs_generate_variant:Nn \@@_execute_if_keytype_exist:nT { o }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_execute_if_type_exist:nT}
% To check that a particular object type is valid.
% \begin{macrocode}
\cs_new_protected:Npn \@@_execute_if_type_exist:nT #1#2
{
\prop_if_in:NnTF \g_@@_object_type_prop {#1}
{#2}
{ \msg_error:nnx { xtemplate } { unknown-object-type } {#1} }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_execute_if_keys_exist:nnT}
% To check that the keys for a template have been set up before trying
% to create any code, a simple check for the correctly-named keytype
% property list.
% \begin{macrocode}
\cs_new_protected:Npn \@@_if_keys_exist:nnT #1#2#3
{
\cs_if_exist:cTF { \c_@@_keytypes_root_tl #1 / #2 }
{#3}
{
\msg_error:nnxx { xtemplate } { unknown-template }
{#1} {#2}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[TF]{\@@_if_key_value:n, \@@_if_key_value:o}
% Tests for the first token in a string being \cs{KeyValue}, where
% \cs{EvaluateNow} is not important.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_key_value:n #1 { T , F , TF }
{
\str_if_eq:noTF { \KeyValue } { \tl_head:w #1 \q_nil \q_stop }
{ \prg_return_true: }
{ \prg_return_false: }
}
\cs_generate_variant:Nn \@@_if_key_value:nT { o }
\cs_generate_variant:Nn \@@_if_key_value:nF { o }
\cs_generate_variant:Nn \@@_if_key_value:nTF { o }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_if_eval_now:nTF}
% Tests for the first token in a string being \cs{EvaluateNow}.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_eval_now:n #1 { TF }
{
\str_if_eq:noTF { \EvaluateNow } { \tl_head:w #1 \q_nil \q_stop }
{ \prg_return_true: }
{ \prg_return_false: }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}[TF]{\@@_if_instance_exist:nnn}
% Testing for an instance is collection dependent.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_instance_exist:nnn #1#2#3
{ T, F, TF }
{
\cs_if_exist:cTF { \c_@@_instances_root_tl #1 / #2 / #3 }
{ \prg_return_true: }
{ \prg_return_false: }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_if_use_template:nTF}
% Tests for the first token in a string being \cs{UseTemplate}.
% \begin{macrocode}
\prg_new_conditional:Npnn \@@_if_use_template:n #1 { TF }
{
\str_if_eq:noTF { \UseTemplate } { \tl_head:w #1 \q_nil \q_stop }
{ \prg_return_true: }
{ \prg_return_false: }
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Saving and recovering property lists}
%
% The various property lists for templates have to be shuffled in
% and out of storage.
%
% \begin{macro}{\@@_store_defaults:n}
% \begin{macro}{\@@_store_keytypes:n}
% \begin{macro}{\@@_store_restrictions:n}
% \begin{macro}{\@@_store_values:n}
% \begin{macro}{\@@_store_vars:n}
% The defaults and keytypes are transferred from the scratch property
% lists to the \enquote{proper} lists for the template being created.
% \begin{macrocode}
\cs_new_protected:Npn \@@_store_defaults:n #1
{
\prop_gclear_new:c { \c_@@_defaults_root_tl #1 }
\prop_gset_eq:cN { \c_@@_defaults_root_tl #1 }
\l_@@_values_prop
}
\cs_new_protected:Npn \@@_store_keytypes:n #1
{
\prop_gclear_new:c { \c_@@_keytypes_root_tl #1 }
\prop_gset_eq:cN { \c_@@_keytypes_root_tl #1 }
\l_@@_keytypes_prop
\seq_gclear_new:c { \c_@@_key_order_root_tl #1 }
\seq_gset_eq:cN { \c_@@_key_order_root_tl #1 }
\l_@@_key_order_seq
}
\cs_new_protected:Npn \@@_store_values:n #1
{
\prop_clear_new:c { \c_@@_values_root_tl #1 }
\prop_set_eq:cN { \c_@@_values_root_tl #1 }
\l_@@_values_prop
}
\cs_new_protected:Npn \@@_store_restrictions:n #1
{
\clist_gclear_new:c { \c_@@_restrict_root_tl #1 }
\clist_gset_eq:cN { \c_@@_restrict_root_tl #1 }
\l_@@_restrict_clist
}
\cs_new_protected:Npn \@@_store_vars:n #1
{
\prop_gclear_new:c { \c_@@_vars_root_tl #1 }
\prop_gset_eq:cN { \c_@@_vars_root_tl #1 }
\l_@@_vars_prop
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_recover_defaults:n}
% \begin{macro}{\@@_recover_keytypes:n}
% \begin{macro}{\@@_recover_restrictions:n}
% \begin{macro}{\@@_recover_values:n}
% \begin{macro}{\@@_recover_vars:n}
% Recovering the stored data for a template is rather less complex
% than storing it. All that happens is the data is transferred from
% the permanent to the scratch storage. However, we need to check the
% scratch storage does exist.
% \begin{macrocode}
\cs_new_protected:Npn \@@_recover_defaults:n #1
{
\prop_if_exist:cTF
{ \c_@@_defaults_root_tl #1 }
{
\prop_set_eq:Nc \l_@@_values_prop
{ \c_@@_defaults_root_tl #1 }
}
{ \prop_clear:N \l_@@_values_prop }
}
\cs_new_protected:Npn \@@_recover_keytypes:n #1
{
\prop_if_exist:cTF
{ \c_@@_keytypes_root_tl #1 }
{
\prop_set_eq:Nc \l_@@_keytypes_prop
{ \c_@@_keytypes_root_tl #1 }
}
{ \prop_clear:N \l_@@_keytypes_prop }
\seq_if_exist:cTF { \c_@@_key_order_root_tl #1 }
{
\seq_set_eq:Nc \l_@@_key_order_seq
{ \c_@@_key_order_root_tl #1 }
}
{ \seq_clear:N \l_@@_key_order_seq }
}
\cs_new_protected:Npn \@@_recover_restrictions:n #1
{
\clist_if_exist:cTF
{ \c_@@_restrict_root_tl #1 }
{
\clist_set_eq:Nc \l_@@_restrict_clist
{ \c_@@_restrict_root_tl #1 }
}
{ \clist_clear:N \l_@@_restrict_clist }
}
\cs_new_protected:Npn \@@_recover_values:n #1
{
\prop_if_exist:cTF
{ \c_@@_values_root_tl #1 }
{
\prop_set_eq:Nc \l_@@_values_prop
{ \c_@@_values_root_tl #1 }
}
{ \prop_clear:N \l_@@_values_prop }
}
\cs_new_protected:Npn \@@_recover_vars:n #1
{
\prop_if_exist:cTF
{ \c_@@_vars_root_tl #1 }
{
\prop_set_eq:Nc \l_@@_vars_prop
{ \c_@@_vars_root_tl #1 }
}
{ \prop_clear:N \l_@@_vars_prop }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Creating new object types}
%
% \begin{macro}{\@@_declare_object_type:nn}
% Although the object type is the \enquote{top level} of the template
% system, it is actually very easy to implement. All that happens is that
% the number of arguments required is recorded, indexed by the name of the
% object type.
% \begin{macrocode}
\cs_new_protected:Npn \@@_declare_object_type:nn #1#2
{
\int_set:Nn \l_@@_tmp_int {#2}
\int_compare:nTF { 0 <= \l_@@_tmp_int <= 9 }
{
\msg_info:nnxx { xtemplate } { declare-object-type }
{#1} { \exp_not:V \l_@@_tmp_int }
\prop_gput:NnV \g_@@_object_type_prop {#1}
\l_@@_tmp_int
}
{
\msg_error:nnxx { xtemplate } { bad-number-of-arguments }
{#1} { \exp_not:V \l_@@_tmp_int }
}
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Design part of template declaration}
%
% The \enquote{design} part of a template declaration defines the general
% behaviour of each key, and possibly a default value. However, it does
% not include the implementation. This means that what happens here is
% the two properties are saved to appropriate lists, which can then
% be used later to recover the information when implementing the keys.
%
% \begin{macro}{\@@_declare_template_keys:nnnn}
% The main function for the \enquote{design} part of creating a template
% starts by checking that the object type exists and that the number of
% arguments required agree. If that is all fine, then the two storage
% areas for defaults and keytypes are initialised. The mechanism is then
% set up for the \pkg{l3keys} module to actually parse the keys.
% Finally, the code hands of to the storage routine to save the parsed
% information properly.
% \begin{macrocode}
\cs_new_protected:Npn \@@_declare_template_keys:nnnn #1#2#3#4
{
\@@_execute_if_type_exist:nT {#1}
{
\@@_execute_if_arg_agree:nnT {#1} {#3}
{
\prop_clear:N \l_@@_values_prop
\prop_clear:N \l_@@_keytypes_prop
\seq_clear:N \l_@@_key_order_seq
\keyval_parse:NNn
\@@_parse_keys_elt:n \@@_parse_keys_elt:nn {#4}
\@@_store_defaults:n { #1 / #2 }
\@@_store_keytypes:n { #1 / #2 }
}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_parse_keys_elt:n}
% \begin{macro}{\@@_parse_keys_elt_aux:n}
% \begin{macro}{\@@_parse_keys_elt_aux:}
% Processing the key part of the key--value pair is always carried out
% using this function, even if a value was found. First, the key name
% is separated from the keytype, and if necessary the keytype is
% separated into two parts. This information is then used to check that
% the keytype is valid, before storing the keytype (plus argument if
% necessary) as a property of the key name. The key name is also stored
% (in braces) in the token list to record the order the keys are defined
% in.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_keys_elt:n #1
{
\@@_split_keytype:n {#1}
\bool_if:NF \l_@@_error_bool
{
\@@_execute_if_keytype_exist:oT \l_@@_keytype_tl
{
\seq_map_function:NN \c_@@_keytypes_arg_seq
\@@_parse_keys_elt_aux:n
\bool_if:NF \l_@@_error_bool
{
\seq_if_in:NoTF \l_@@_key_order_seq
\l_@@_key_name_tl
{
\msg_error:nnx { xtemplate }
{ duplicate-key-interface }
{ \l_@@_key_name_tl }
}
{ \@@_parse_keys_elt_aux: }
}
}
}
}
\cs_new_protected:Npn \@@_parse_keys_elt_aux:n #1
{
\str_if_eq:onT \l_@@_keytype_tl {#1}
{
\tl_if_empty:NT \l_@@_keytype_arg_tl
{
\msg_error:nnx { xtemplate }
{ keytype-requires-argument } {#1}
\bool_set_true:N \l_@@_error_bool
\seq_map_break:
}
}
}
\cs_new:Npn \@@_parse_keys_elt_aux:
{
\tl_set:Nx \l_@@_tmp_tl
{
\l_@@_keytype_tl
\tl_if_empty:NF \l_@@_keytype_arg_tl
{ { \l_@@_keytype_arg_tl } }
}
\prop_put:Noo \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\seq_put_right:No \l_@@_key_order_seq \l_@@_key_name_tl
\str_if_eq:onT \l_@@_keytype_tl { choice }
{
\clist_if_in:NnT \l_@@_keytype_arg_tl { unknown }
{ \msg_error:nn { xtemplate } { choice-unknown-reserved } }
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_parse_keys_elt:nn}
% For keys which have a default, the keytype and key name are first
% separated out by the \cs{@@_parse_keys_elt:n}
% routine, before storing the default value in the scratch property list.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_keys_elt:nn #1#2
{
\@@_parse_keys_elt:n {#1}
\use:c { @@_store_value_ \l_@@_keytype_tl :n } {#2}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_split_keytype:n}
% \begin{macro}{\@@_split_keytype_aux:w}
% The keytype and key name should be separated by |:|. As the
% definition might be given inside or outside of a code block, spaces
% are removed and the category code of colons is standardised. After
% that, the standard delimited argument method is used to separate the
% two parts.
% \begin{macrocode}
\cs_new_protected:Npx \@@_split_keytype:n #1
{
\exp_not:N \bool_set_false:N \exp_not:N \l_@@_error_bool
\tl_set:Nn \exp_not:N \l_@@_tmp_tl {#1}
\tl_remove_all:Nn \exp_not:N \l_@@_tmp_tl { ~ }
\tl_replace_all:Nnn \exp_not:N \l_@@_tmp_tl { : } { \token_to_str:N : }
\tl_if_in:onTF \exp_not:N \l_@@_tmp_tl { \token_to_str:N : }
{
\exp_not:n
{
\tl_clear:N \l_@@_key_name_tl
\exp_after:wN \@@_split_keytype_aux:w
\l_@@_tmp_tl \s_@@_stop
}
}
{
\exp_not:N \bool_set_true:N \exp_not:N \l_@@_error_bool
\msg_error:nnx { xtemplate } { missing-keytype } {#1}
}
}
\use:x
{
\cs_new_protected:Npn \exp_not:N \@@_split_keytype_aux:w
##1 \token_to_str:N : ##2 \s_@@_stop
{
\tl_put_right:Nx \exp_not:N \l_@@_key_name_tl
{ \exp_not:N \tl_to_str:n {##1} }
\tl_if_in:nnTF {##2} { \token_to_str:N : }
{
\tl_put_right:Nn \exp_not:N \l_@@_key_name_tl
{ \token_to_str:N : }
\exp_not:N \@@_split_keytype_aux:w ##2 \s_@@_stop
}
{
\exp_not:N \tl_if_empty:NTF \exp_not:N \l_@@_key_name_tl
{
\msg_error:nnx { xtemplate } { empty-key-name }
{ \token_to_str:N : ##2 }
}
{ \exp_not:N \@@_split_keytype_arg:n {##2} }
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_split_keytype_arg:n, \@@_split_keytype_arg:o}
% \begin{macro}{\@@_split_keytype_arg_aux:n}
% \begin{macro}{\@@_split_keytype_arg_aux:w}
% The second stage of sorting out the keytype is to check for an
% argument. As there is no convenient delimiting token to look for,
% a check is made instead for each possible text value for the keytype.
% To keep things faster, this only involves the keytypes that need an
% argument. If a match is made, then a check is also needed to see that
% it is at the start of the keytype information. All being well, the
% split can then be applied. Any non-matching keytypes are assumed to
% be \enquote{correct} as given, and are left alone (this is checked by
% other code).
% \begin{macrocode}
\cs_new_protected:Npn \@@_split_keytype_arg:n #1
{
\tl_set:Nn \l_@@_keytype_tl {#1}
\tl_clear:N \l_@@_keytype_arg_tl
\cs_set_protected:Npn \@@_split_keytype_arg_aux:n ##1
{
\tl_if_in:nnT {#1} {##1}
{
\cs_set:Npn \@@_split_keytype_arg_aux:w
####1 ##1 ####2 \s_@@_stop
{
\tl_if_empty:nT {####1}
{
\tl_set:Nn \l_@@_keytype_tl {##1}
\tl_set:Nn \l_@@_keytype_arg_tl {####2}
\seq_map_break:
}
}
\@@_split_keytype_arg_aux:w #1 \s_@@_stop
}
}
\seq_map_function:NN \c_@@_keytypes_arg_seq
\@@_split_keytype_arg_aux:n
}
\cs_generate_variant:Nn \@@_split_keytype_arg:n { o }
\cs_new:Npn \@@_split_keytype_arg_aux:n #1 { }
\cs_new:Npn \@@_split_keytype_arg_aux:w #1 \s_@@_stop { }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsubsection{Storing values}
%
% As \pkg{xtemplate} pre-processes key values for efficiency reasons,
% there is a need to convert the values given as defaults into
% \enquote{ready to use} data. The same general idea is true when an instance
% is declared. However, assignments are not made until an instance is
% used, and so there has to be some intermediate storage. Furthermore,
% the ability to delay evaluation of results is needed. To achieve these
% aims, a series of \enquote{process and store} functions are defined here.
%
% All of the information about the key (the key name and the keytype)
% is already stored as variables. The same property list is always used
% to store the data, meaning that the only argument required is the
% value to be processed and potentially stored.
%
% \begin{macro}{\@@_store_value_boolean:n}
% Storing Boolean values requires a test for delayed evaluation, but
% is different to the various numerical variable types as there are
% only two possible values to store. So the code here tests the default
% switch and then records the meaning (either \texttt{true} or
% \texttt{false}).
% \begin{macrocode}
\cs_new_protected:Npn \@@_store_value_boolean:n #1
{
\@@_if_eval_now:nTF {#1}
{
\bool_if:cTF { c_ #1 _bool }
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl
{ true }
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl
{ false }
}
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_store_value_code:n}
% \begin{macro}{\@@_store_value_choice:n}
% \begin{macro}{\@@_store_value_commalist:n}
% \begin{macro}{\@@_store_value_function:n}
% \begin{macro}{\@@_store_value_instance:n}
% \begin{macro}{\@@_store_value_real:n}
% \begin{macro}{\@@_store_value_tokenlist:n}
% With no need to worry about delayed evaluation, these keytypes all
% just store the input directly.
% \begin{macrocode}
\cs_new_protected:Npn \@@_store_value_code:n #1
{ \prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1} }
\cs_new_eq:NN \@@_store_value_choice:n \@@_store_value_code:n
\cs_new_eq:NN \@@_store_value_commalist:n \@@_store_value_code:n
\cs_new_eq:NN \@@_store_value_function:n \@@_store_value_code:n
\cs_new_eq:NN \@@_store_value_instance:n \@@_store_value_code:n
\cs_new_eq:NN \@@_store_value_real:n \@@_store_value_code:n
\cs_new_eq:NN \@@_store_value_tokenlist:n \@@_store_value_code:n
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_store_value_integer:n}
% \begin{macro}{\@@_store_value_length:n}
% \begin{macro}{\@@_store_value_muskip:n}
% \begin{macro}{\@@_store_value_skip:n}
% Storing the value of a number is in all cases more or less the same.
% If evaluation is taking place now, assignment is made to a scratch
% variable, and this result is then stored. On the other hand, if
% evaluation is delayed the current data is simply stored \enquote{as is}.
% \begin{macrocode}
\cs_new_protected:Npn \@@_store_value_integer:n #1
{
\@@_if_eval_now:nTF {#1}
{
\int_set:Nn \l_@@_tmp_int {#1}
\prop_put:NVV \l_@@_values_prop \l_@@_key_name_int
\l_@@_tmp_int
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1}
}
}
\cs_new_protected:Npn \@@_store_value_length:n #1
{
\@@_if_eval_now:nTF {#1}
{
\dim_set:Nn \l_@@_tmp_dim {#1}
\prop_put:NVV \l_@@_values_prop \l_@@_key_name_tl
\l_@@_tmp_dim
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1}
}
}
\cs_new_protected:Npn \@@_store_value_muskip:n #1
{
\@@_if_eval_now:nTF {#1}
{
\muskip_set:Nn \l_@@_tmp_muskip {#1}
\prop_put:NVV \l_@@_values_prop \l_@@_key_name_tl
\l_@@_tmp_muskip
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1}
}
}
\cs_new_protected:Npn \@@_store_value_skip:n #1
{
\@@_if_eval_now:nTF {#1}
{
\skip_set:Nn \l_@@_tmp_skip {#1}
\prop_put:NVV \l_@@_values_prop \l_@@_key_name_tl
\l_@@_tmp_skip
}
{
\prop_put:Non \l_@@_values_prop \l_@@_key_name_tl {#1}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Implementation part of template declaration}
%
% \begin{macro}{\@@_declare_template_code:nnnnn}
% The main function for implementing a template starts with a couple of
% simple checks to make sure that there are no obvious mistakes: the
% number of arguments must agree and the template keys must have been
% declared.
% \begin{macrocode}
\cs_new_protected:Npn \@@_declare_template_code:nnnnn #1#2#3#4#5
{
\@@_execute_if_type_exist:nT {#1}
{
\@@_execute_if_arg_agree:nnT {#1}{#3}
{
\@@_if_keys_exist:nnT {#1} {#2}
{
\@@_store_key_implementation:nnn {#1} {#2} {#4}
\cs_generate_from_arg_count:cNnn
{ \c_@@_code_root_tl #1 / #2 }
\cs_gset_protected:Npn {#3} {#5}
}
}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_store_key_implementation:nnn}
% Actually storing the implementation part of a template is quite easy
% as it only requires the list of keys given to be turned into a
% property list. There is also some error-checking to do, hence the need
% to have the list of defined keytypes available. In certain cases
% (when choices are involved) parsing the key results in changes to the
% default values. That is why they are loaded and then saved again.
% \begin{macrocode}
\cs_new_protected:Npn \@@_store_key_implementation:nnn #1#2#3
{
\@@_recover_defaults:n { #1 / #2 }
\@@_recover_restrictions:n { #1 / #2 }
\@@_recover_keytypes:n { #1 / #2 }
\prop_clear:N \l_@@_vars_prop
\keyval_parse:NNn
\@@_parse_vars_elt:n \@@_parse_vars_elt:nn {#3}
\@@_store_vars:n { #1 / #2 }
\@@_store_restrictions:n { #1 / #2 }
\prop_map_inline:Nn \l_@@_keytypes_prop
{
\msg_error:nnxxx { xtemplate } { key-not-implemented }
{##1} {#2} {#1}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_parse_vars_elt:n}
% At the implementation stage, every key must have a value given. So
% this is an error function.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_vars_elt:n #1
{ \msg_error:nnx { xtemplate } { key-no-variable } {#1} }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_parse_vars_elt:nn}
% The actual storage part here is very simple: the storage bin name
% is placed into the property list. At the same time, a comparison is
% made with the keytypes defined earlier: if there is a mismatch then
% an error is raised.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_vars_elt:nn #1#2
{
\tl_set:Nx \l_@@_key_name_tl { \tl_to_str:n {#1} }
\tl_remove_all:Nn \l_@@_key_name_tl { ~ }
\prop_get:NoNTF
\l_@@_keytypes_prop
\l_@@_key_name_tl
\l_@@_keytype_tl
{
\@@_split_keytype_arg:o \l_@@_keytype_tl
\@@_parse_vars_elt_aux:n {#2}
\prop_remove:NV \l_@@_keytypes_prop \l_@@_key_name_tl
}
{ \msg_error:nnx { xtemplate } { unknown-key } {#1} }
}
% \end{macrocode}
% \end{macro}
% \begin{macro}{\@@_parse_vars_elt_aux:n}
% \begin{macro}{\@@_parse_vars_elt_aux:w}
% There now needs to be some sanity checking on the variable name
% given. This does not apply for \texttt{choice} or
% \texttt{code} \enquote{variables}, but in all other cases the variable
% needs to exist. Also, the only prefix acceptable is \texttt{global}. So
% there are a few related checks to make.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_vars_elt_aux:n #1
{
\str_if_eq:onTF \l_@@_keytype_tl { choice }
{ \@@_implement_choices:n {#1} }
{
\str_if_eq:onTF \l_@@_keytype_tl { code }
{
\prop_put:Non \l_@@_vars_prop
\l_@@_key_name_tl {#1}
}
{
\tl_if_single:nTF {#1}
{
\cs_if_exist:NF #1
{ \@@_create_variable:N #1 }
\prop_put:Non \l_@@_vars_prop
\l_@@_key_name_tl {#1}
}
{
\tl_if_in:nnTF {#1} { global }
{ \@@_parse_vars_elt_aux:w #1 \s_@@_stop }
{
\msg_error:nnx { xtemplate } { bad-variable }
{ \tl_to_str:n {#1} }
}
}
}
}
}
\cs_new_protected:Npn \@@_parse_vars_elt_aux:w #1 global #2 \s_@@_stop
{
\tl_if_empty:nTF {#1}
{
\tl_if_single:nTF {#2}
{
\cs_if_exist:NF #2
{ \@@_create_variable:N #2 }
\prop_put:Non \l_@@_vars_prop
\l_@@_key_name_tl { #1 global #2 }
}
{
\msg_error:nnx { xtemplate } { bad-variable }
{ \tl_to_str:n { #1 global #2 } }
}
}
{
\msg_error:nnx { xtemplate } { bad-variable }
{ \tl_to_str:n { #1 global #2 } }
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_create_variable:N}
% A shortcut to create non-declared variables. Some types need a name
% mapping, others can be used directly.
% \begin{macrocode}
\cs_new_protected:Npn \@@_create_variable:N #1
{
\str_case:onF \l_@@_keytype_tl
{
{ boolean } { \bool_new:N #1 }
{ commalist } { \clist_new:N #1 }
{ function } { \cs_new:Npn #1 { } }
{ instance } { \cs_new_protected:Npn #1 { } }
{ integer } { \int_new:N #1 }
{ length } { \dim_new:N #1 }
{ real } { \fp_new:N #1 }
{ tokenlist } { \tl_new:N #1 }
}
{ \use:c { \l_@@_keytype_tl _ new:N } #1 }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_implement_choices:n}
% \begin{macro}{\@@_implement_choices_default:}
% Implementing choices requires a second key--value loop. So after a
% little set-up, the standard parser is called.
% \begin{macrocode}
\cs_new_protected:Npn \@@_implement_choices:n #1
{
\clist_set_eq:NN \l_@@_tmp_clist \l_@@_keytype_arg_tl
\prop_put:Non \l_@@_vars_prop \l_@@_key_name_tl { }
\keyval_parse:NNn
\@@_implement_choice_elt:n \@@_implement_choice_elt:nn
{#1}
\prop_get:NoNT \l_@@_values_prop \l_@@_key_name_tl
\l_@@_tmp_tl
{ \@@_implement_choices_default: }
\clist_if_empty:NF \l_@@_tmp_clist
{
\clist_map_inline:Nn \l_@@_tmp_clist
{
\msg_error:nnx { xtemplate } { choice-not-implemented }
{##1}
}
}
}
% \end{macrocode}
% A sanity check for the default value, so that an error is raised
% now and not when converting to assignments.
% \begin{macrocode}
\cs_new_protected:Npn \@@_implement_choices_default:
{
\tl_set:Nx \l_@@_tmp_tl
{ \l_@@_key_name_tl \c_space_tl \l_@@_tmp_tl }
\prop_if_in:NoF \l_@@_vars_prop \l_@@_tmp_tl
{
\tl_set:Nx \l_@@_tmp_tl
{ \l_@@_key_name_tl \c_space_tl \l_@@_tmp_tl }
\prop_if_in:NoF \l_@@_vars_prop \l_@@_tmp_tl
{
\prop_get:NoN \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\@@_split_keytype_arg:o \l_@@_tmp_tl
\prop_get:NoN \l_@@_values_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\msg_error:nnxxx { xtemplate } { unknown-default-choice }
{ \l_@@_key_name_tl } { \l_@@_key_name_tl }
{ \l_@@_keytype_arg_tl }
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_implement_choice_elt:n}
% \begin{macro}{\@@_implement_choice_elt:nn}
% The actual storage of the implementation of a choice is mainly about
% error checking. The code here ensures that all choices have to have
% been declared, apart from the special \texttt{unknown} choice, which
% must come last. The code for each choice is stored along with the
% key name in the variables property list.
% \begin{macrocode}
\cs_new_protected:Npn \@@_implement_choice_elt:n #1
{
\clist_if_empty:NTF \l_@@_tmp_clist
{
\str_if_eq:nnF {#1} { unknown }
{
\prop_get:NoN \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\@@_split_keytype_arg:o \l_@@_tmp_tl
\msg_error:nnxxx { xtemplate } { unknown-choice }
{ \l_@@_key_name_tl } {#1}
{ \l_@@_keytype_arg_tl }
}
}
{
\clist_if_in:NnTF \l_@@_tmp_clist {#1}
{ \clist_remove_all:Nn \l_@@_tmp_clist {#1} }
{
\prop_get:NoN \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\@@_split_keytype_arg:o \l_@@_tmp_tl
\msg_error:nnxxx { xtemplate } { unknown-choice }
{ \l_@@_key_name_tl } {#1}
{ \l_@@_keytype_arg_tl }
}
}
}
\cs_new_protected:Npn \@@_implement_choice_elt:nn #1#2
{
\@@_implement_choice_elt:n {#1}
\tl_set:Nx \l_@@_tmp_tl
{ \l_@@_key_name_tl \c_space_tl #1 }
\prop_put:Non \l_@@_vars_prop \l_@@_tmp_tl {#2}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \subsection{Editing template defaults}
%
% Template defaults can be edited either with no other changes or
% to prevent further editing, forming a \enquote{restricted template}.
% In the later case, a new template results, whereas simple editing
% does not produce a new template name.
%
% \begin{macro}{\@@_declare_restricted:nnnn}
% Creating a restricted template means copying the old template to the
% new one first.
% \begin{macrocode}
\cs_new_protected:Npn \@@_declare_restricted:nnnn #1#2#3#4
{
\@@_if_keys_exist:nnT {#1} {#2}
{
\@@_set_template_eq:nn { #1 / #3 } { #1 / #2 }
\bool_set_true:N \l_@@_restrict_bool
\@@_edit_defaults_aux:nnn {#1} {#3} {#4}
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_edit_defaults:nnn}
% \begin{macro}{\@@_edit_defaults_aux:nnn}
% Editing the template defaults means getting the values back out
% of the store, then parsing the list of new values before putting
% the updated list back into storage. The auxiliary function is used
% to allow code-sharing with the template-restriction system.
% \begin{macrocode}
\cs_new_protected:Npn \@@_edit_defaults:nnn
{
\bool_set_false:N \l_@@_restrict_bool
\@@_edit_defaults_aux:nnn
}
\cs_new_protected:Npn \@@_edit_defaults_aux:nnn #1#2#3
{
\@@_if_keys_exist:nnT {#1} {#2}
{
\@@_recover_defaults:n { #1 / #2 }
\@@_recover_restrictions:n { #1 / #2 }
\@@_parse_values:nn { #1 / #2 } {#3}
\@@_store_defaults:n { #1 / #2 }
\@@_store_restrictions:n { #1 / #2 }
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_parse_values:nn, \@@_parse_values_aux:nn}
% The routine to parse values is the same for both editing a
% template and setting up an instance. So the code here does only the
% minimum necessary for reading the values.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_values:nn #1#2
{
\clist_clear:N \l_@@_restrict_clist
\@@_parse_values_aux:nn {#1} {#2}
}
\cs_new_protected:Npn \@@_parse_values_aux:nn #1#2
{
\@@_recover_keytypes:n {#1}
\keyval_parse:NNn
\@@_parse_values_elt:n \@@_parse_values_elt:nn {#2}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_parse_values_elt:n}
% Every key needs a value, so this is just an error routine.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_values_elt:n #1
{
\bool_set_true:N \l_@@_error_bool
\msg_error:nnx { xtemplate } { key-no-value } {#1}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_parse_values_elt:nn}
% \begin{macro}{\@@_parse_values_elt_aux:n}
% To store the value, find the keytype then call the saving function.
% These need the current key name saved as \cs{l_@@_key_name_tl}.
% When a template is being restricted, the setting code will be
% skipped for restricted keys.
% \begin{macrocode}
\cs_new_protected:Npn \@@_parse_values_elt:nn #1#2
{
\tl_set:Nx \l_@@_key_name_tl { \tl_to_str:n {#1} }
\tl_remove_all:Nn \l_@@_key_name_tl { ~ }
\prop_get:NoNTF \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
{
\bool_if:NTF \l_@@_restrict_bool
{
\clist_if_in:NoF \l_@@_restrict_clist
\l_@@_key_name_tl
{ \@@_parse_values_elt_aux:n {#2} }
}
{ \@@_parse_values_elt_aux:n {#2} }
}
{
\msg_error:nnx { xtemplate } { unknown-key }
{ \l_@@_key_name_tl }
}
}
\cs_new_protected:Npn \@@_parse_values_elt_aux:n #1
{
\clist_put_right:No \l_@@_restrict_clist \l_@@_key_name_tl
\@@_split_keytype_arg:o \l_@@_tmp_tl
\use:c { @@_store_value_ \l_@@_keytype_tl :n } {#1}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_set_template_eq:nn}
% To copy a template, each of the lists plus the code has to be copied
% across. To keep this independent of the list storage system, it is
% all done with two-part shuffles.
% \begin{macrocode}
\cs_new_protected:Npn \@@_set_template_eq:nn #1#2
{
\@@_recover_defaults:n {#2}
\@@_store_defaults:n {#1}
\@@_recover_keytypes:n {#2}
\@@_store_keytypes:n {#1}
\@@_recover_vars:n {#2}
\@@_store_vars:n {#1}
\cs_gset_eq:cc { \c_@@_code_root_tl #1 }
{ \c_@@_code_root_tl #2 }
}
% \end{macrocode}
% \end{macro}
%
%\subsection{Creating instances of templates}
%
% \begin{macro}{\@@_declare_instance:nnnnn}
% \begin{macro}{\@@_declare_instance_aux:nnnnn}
% Making an instance has two distinct parts. First, the keys given are
% parsed to transfer the values into the structured data format used
% internally. This allows the default and given values to be combined
% with no repetition. In the second step, the structured data is
% converted to pre-defined variable assignments, and these are stored
% in the function for the instance. A final check is also made so that
% there is always an instance \enquote{outside} of any collection.
% \begin{macrocode}
\cs_new_protected:Npn \@@_declare_instance:nnnnn #1#2#3#4#5
{
\@@_execute_if_code_exist:nnT {#1} {#2}
{
\@@_recover_defaults:n { #1 / #2 }
\@@_recover_restrictions:n { #1 / #2 }
\@@_recover_vars:n { #1 / #2 }
\@@_declare_instance_aux:nnnnn {#1} {#2} {#3} {#4} {#5}
}
}
\cs_new_protected:Npn \@@_declare_instance_aux:nnnnn #1#2#3#4#5
{
\bool_set_false:N \l_@@_error_bool
\@@_parse_values_aux:nn { #1 / #2 } {#5}
\bool_if:NF \l_@@_error_bool
{
\prop_put:Nnn \l_@@_values_prop { from~template } {#2}
\@@_store_values:n { #1 / #3 / #4 }
\@@_convert_to_assignments:
\cs_set_protected:cpx { \c_@@_instances_root_tl #1 / #3 / #4 }
{
\exp_not:N \@@_assignments_push:n
{ \exp_not:o \l_@@_assignments_tl }
\exp_not:c { \c_@@_code_root_tl #1 / #2 }
}
\@@_if_instance_exist:nnnF {#1} { } {#4}
{
\cs_set_eq:cc
{ \c_@@_instances_root_tl #1 / / #4 }
{ \c_@@_instances_root_tl #1 / #3 / #4 }
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_edit_instance:nnnn}
% \begin{macro}{\@@_edit_instance_aux:nnnnn}
% \begin{macro}{\@@_edit_instance_aux:nonnn}
% Editing an instance is almost identical to declaring one. The only
% variation is the source of the values to use. When editing, they are
% recovered from the previous instance run.
% \begin{macrocode}
\cs_new_protected:Npn \@@_edit_instance:nnnn #1#2#3
{
\@@_if_instance_exist:nnnTF {#1} {#2} {#3}
{
\@@_recover_values:n { #1 / #2 / #3 }
\prop_get:NnN \l_@@_values_prop { from~template }
\l_@@_tmp_tl
\@@_edit_instance_aux:nonnn {#1} \l_@@_tmp_tl
{#2} {#3}
}
{
\msg_error:nnxx { xtemplate } { unknown-instance }
{#1} {#3}
}
}
\cs_new_protected:Npn \@@_edit_instance_aux:nnnnn #1#2
{
\@@_recover_vars:n { #1 / #2 }
\@@_declare_instance_aux:nnnnn {#1} {#2}
}
\cs_generate_variant:Nn \@@_edit_instance_aux:nnnnn { no }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_convert_to_assignments:}
% \begin{macro}{\@@_convert_to_assignments_aux:n}
% \begin{macro}{\@@_convert_to_assignments_aux:nn}
% \begin{macro}{\@@_convert_to_assignments_aux:no}
% The idea on converting to a set of assignments is to loop over each
% key, so that the loop order follows the declaration order of the keys.
% This is done using a sequence as property lists are not
% \enquote{ordered}.
% \begin{macrocode}
\cs_new_protected:Npn \@@_convert_to_assignments:
{
\tl_clear:N \l_@@_assignments_tl
\seq_map_function:NN \l_@@_key_order_seq
\@@_convert_to_assignments_aux:n
}
\cs_new_protected:Npn \@@_convert_to_assignments_aux:n #1
{
\prop_get:NnN \l_@@_keytypes_prop {#1} \l_@@_tmp_tl
\@@_convert_to_assignments_aux:no {#1} \l_@@_tmp_tl
}
% \end{macrocode}
% The second auxiliary function actually does the work. The
% arguments here are the key name (|#1|) and the keytype (|#2|).
% From those, the value to assign and the name of the appropriate
% variable are recovered. A bit of work is then needed to sort out
% keytypes with arguments (for example instances), and to look for
% global assignments. Once that is done, a hand-off can be made to the
% handler for the relevant keytype.
% \begin{macrocode}
\cs_new_protected:Npn \@@_convert_to_assignments_aux:nn #1#2
{
\prop_get:NnNT \l_@@_values_prop {#1} \l_@@_value_tl
{
\prop_get:NnNTF \l_@@_vars_prop {#1} \l_@@_var_tl
{
\@@_split_keytype_arg:n {#2}
\str_if_eq:onF \l_@@_keytype_tl { choice }
{
\str_if_eq:onF \l_@@_keytype_tl { code }
{ \@@_find_global: }
}
\tl_set:Nn \l_@@_key_name_tl {#1}
\use:c { @@_assign_ \l_@@_keytype_tl : }
}
{ \msg_error:nnx { xtemplate } { unknown-attribute } {#1} }
}
}
\cs_generate_variant:Nn \@@_convert_to_assignments_aux:nn { no }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_find_global:}
% \begin{macro}{\@@_find_global_aux:w}
% Global assignments should have the phrase |global| at the front.
% This is pretty easy to find: no other error checking, though.
% \begin{macrocode}
\cs_new_protected:Npn \@@_find_global:
{
\bool_set_false:N \l_@@_global_bool
\tl_if_in:onT \l_@@_var_tl { global }
{
\exp_after:wN \@@_find_global_aux:w \l_@@_var_tl \s_@@_stop
}
}
\cs_new_protected:Npn \@@_find_global_aux:w #1 global #2 \s_@@_stop
{
\tl_set:Nn \l_@@_var_tl {#2}
\bool_set_true:N \l_@@_global_bool
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \subsection{Using templates directly}
%
% \begin{macro}{\@@_use_template:nnn}
% Directly use a template with a particular parameter setting.
% This is also picked up if used in a nested fashion inside a parameter
% list. The idea is essentially the same as creating an instance,
% just with no saving of the result.
% \begin{macrocode}
\cs_new_protected:Npn \@@_use_template:nnn #1#2#3
{
\@@_execute_if_code_exist:nnT {#1} {#2}
{
\@@_recover_defaults:n { #1 / #2 }
\@@_recover_vars:n { #1 / #2 }
\@@_parse_values:nn { #1 / #2 } {#3}
\@@_convert_to_assignments:
\use:c { \c_@@_code_root_tl #1 / #2 }
}
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Assigning values to variables}
%
% \begin{macro}{\@@_assign_boolean:}
% \begin{macro}{\@@_assign_boolean_aux:n}
% Setting a Boolean value is slightly different to everything else
% as the value can be used to work out which \texttt{set} function to
% call. As long as there is no need to recover things from another
% variable, everything is pretty easy. If there is, then we need to allow
% for the fact that the recovered value here will \emph{not} be expandable,
% so needs to be converted to something that is.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_boolean:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_boolean_aux:n { bool_gset } }
{ \@@_assign_boolean_aux:n { bool_set } }
}
\cs_new_protected:Npn \@@_assign_boolean_aux:n #1
{
\@@_if_key_value:oTF \l_@@_value_tl
{
\@@_key_to_value:
\tl_put_right:Nx \l_@@_assignments_tl
{
\exp_not:c { #1 _eq:NN }
\exp_not:o \l_@@_var_tl
\exp_not:o \l_@@_value_tl
}
}
{
\tl_put_right:Nx \l_@@_assignments_tl
{
\exp_not:c { #1 _ \l_@@_value_tl :N }
\exp_not:o \l_@@_var_tl
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_choice:}
% \begin{macro}
% {\@@_assign_choice_aux:n, \@@_assign_choice_aux:o}
% The idea here is to find either the choice as-given or else the
% special |unknown| choice, and to copy the appropriate code across.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_choice:
{
\@@_assign_choice_aux:xF
{ \l_@@_key_name_tl \c_space_tl \l_@@_value_tl }
{
\@@_assign_choice_aux:xF
{ \l_@@_key_name_tl \c_space_tl unknown }
{
\prop_get:NoN \l_@@_keytypes_prop \l_@@_key_name_tl
\l_@@_tmp_tl
\@@_split_keytype_arg:o \l_@@_tmp_tl
\msg_error:nnxxx { xtemplate } { unknown-choice }
{ \l_@@_key_name_tl } { \l_@@_value_tl }
{ \l_@@_keytype_arg_tl }
}
}
}
\cs_new_protected:Npn \@@_assign_choice_aux:nF #1
{
\prop_get:NnNTF
\l_@@_vars_prop
{#1}
\l_@@_tmp_tl
{ \tl_put_right:No \l_@@_assignments_tl \l_@@_tmp_tl }
}
\cs_generate_variant:Nn \@@_assign_choice_aux:nF { x }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_code:}
% \begin{macro}{\@@_assign_code:n}
% Assigning general code to a key needs a scratch function to be created
% and run when \cs{AssignTemplateKeys} is called. So the appropriate
% definition then use is created in the token list variable.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_code:
{
\tl_put_right:Nx \l_@@_assignments_tl
{
\cs_set_protected:Npn \@@_assign_code:n \exp_not:n {##1}
{ \exp_not:o \l_@@_var_tl }
\@@_assign_code:n { \exp_not:o \l_@@_value_tl }
}
}
\cs_new_protected:Npn \@@_assign_code:n #1 { }
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_function:}
% \begin{macro}{\@@_assign_function_aux:N}
% This looks a bit messy but is only actually one function.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_function:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_function_aux:N \cs_gset:Npn }
{ \@@_assign_function_aux:N \cs_set:Npn }
}
\cs_new_protected:Npn \@@_assign_function_aux:N #1
{
\tl_put_right:Nx \l_@@_assignments_tl
{
\cs_generate_from_arg_count:NNnn
\exp_not:o \l_@@_var_tl
\exp_not:N #1
{ \exp_not:o \l_@@_keytype_arg_tl }
{ \exp_not:o \l_@@_value_tl }
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_instance:}
% \begin{macro}{\@@_assign_instance_aux:N}
% Using an instance means adding the appropriate function creation to
% the tl. No checks are made at this stage, so if the instance is
% not valid then errors will arise later.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_instance:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_instance_aux:N \cs_gset_protected:Npn }
{ \@@_assign_instance_aux:N \cs_set_protected:Npn }
}
\cs_new_protected:Npn \@@_assign_instance_aux:N #1
{
\tl_put_right:Nx \l_@@_assignments_tl
{
\exp_not:N #1 \exp_not:o \l_@@_var_tl
{
\@@_use_instance:nn
{ \exp_not:o \l_@@_keytype_arg_tl }
{ \exp_not:o \l_@@_value_tl }
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_integer:}
% \begin{macro}{\@@_assign_length:}
% \begin{macro}{\@@_assign_muskip:}
% \begin{macro}{\@@_assign_real:}
% \begin{macro}{\@@_assign_skip:}
% All of the calculated assignments use the same underlying code, with
% only the low-level assignment function changing.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_integer:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_variable:N \int_gset:Nn }
{ \@@_assign_variable:N \int_set:Nn }
}
\cs_new_protected:Npn \@@_assign_length:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_variable:N \dim_gset:Nn }
{ \@@_assign_variable:N \dim_set:Nn }
}
\cs_new_protected:Npn \@@_assign_muskip:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_variable:N \muskip_gset:Nn }
{ \@@_assign_variable:N \muskip_set:Nn }
}
\cs_new_protected:Npn \@@_assign_real:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_variable:N \fp_gset:Nn }
{ \@@_assign_variable:N \fp_set:Nn }
}
\cs_new_protected:Npn \@@_assign_skip:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_variable:N \skip_gset:Nn }
{ \@@_assign_variable:N \skip_set:Nn }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_tokenlist:}
% \begin{macro}{\@@_assign_tokenlist_aux:NN}
% Life would be easy here if it were not for \cs{KeyValue}. To deal
% correctly with that, we need to allow for the recovery a stored value
% at point of use.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_tokenlist:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_tokenlist_aux:NN \tl_gset:NV \tl_gset:Nn }
{ \@@_assign_tokenlist_aux:NN \tl_set:NV \tl_set:Nn }
}
\cs_new_protected:Npn \@@_assign_tokenlist_aux:NN #1#2
{
\@@_if_key_value:oTF \l_@@_value_tl
{
\@@_key_to_value:
\tl_put_right:Nx \l_@@_assignments_tl
{
#1 \exp_not:o \l_@@_var_tl
\exp_not:o \l_@@_value_tl
}
}
{
\tl_put_right:Nx \l_@@_assignments_tl
{
#2 \exp_not:o \l_@@_var_tl
{ \exp_not:o \l_@@_value_tl }
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_assign_commalist:}
% Very similar for commas lists, so some code is shared.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_commalist:
{
\bool_if:NTF \l_@@_global_bool
{ \@@_assign_tokenlist_aux:NN \clist_gset:NV \clist_gset:Nn }
{ \@@_assign_tokenlist_aux:NN \clist_set:NV \clist_set:Nn }
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_assign_variable:N}
% A general-purpose function for all of the numerical assignments.
% As long as the value is not coming from another variable, the stored
% value is simply transferred for output.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assign_variable:N #1
{
\@@_if_key_value:oT \l_@@_value_tl
{ \@@_key_to_value: }
\tl_put_right:Nx \l_@@_assignments_tl
{
#1 \exp_not:o \l_@@_var_tl
{ \exp_not:o \l_@@_value_tl }
}
}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_key_to_value:}
% \begin{macro}{\@@_key_to_value_auxi:w}
% \begin{macro}{\@@_key_to_value_auxii:w}
% The idea here is to recover the attribute value of another key. To
% do that, the marker is removed and a look up takes place. If this
% is successful, then the name of the variable of the attribute is
% returned. This assumes that the value will be used in context where
% it will be converted to a value, for example when setting a number.
% There is also a need to check in case the copied value happens to be
% \texttt{global}.
% \begin{macrocode}
\cs_new_protected:Npn \@@_key_to_value:
{ \exp_after:wN \@@_key_to_value_auxi:w \l_@@_value_tl }
\cs_new_protected:Npn \@@_key_to_value_auxi:w \KeyValue #1
{
\tl_set:Nx \l_@@_tmp_tl { \tl_to_str:n {#1} }
\tl_remove_all:Nn \l_@@_key_name_tl { ~ }
\prop_get:NoNTF
\l_@@_vars_prop
\l_@@_tmp_tl
\l_@@_value_tl
{
\exp_after:wN \@@_key_to_value_auxii:w \l_@@_value_tl
\s_@@_mark global \q_@@_nil \s_@@_stop
}
{
\msg_error:nnx { xtemplate } { unknown-attribute }
{ \l_@@_tmp_tl }
}
}
\cs_new_protected:Npn \@@_key_to_value_auxii:w #1 global #2#3 \s_@@_stop
{
\@@_quark_if_nil:NF #2
{ \tl_set:Nn \l_@@_value_tl {#2} }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \subsection{Using instances}
%
% \begin{macro}{\@@_use_instance:nn}
% \begin{macro}{\@@_use_instance_aux:nNnnn}
% \begin{macro}{\@@_use_instance_aux:nn}
% Using an instance is just a question of finding the appropriate
% function. There is the possibility that a collection instance exists,
% so this is checked before trying the general instance. If nothing is
% found, an error is raised. One additional complication is that
% if the first token of argument |#2| is \cs{UseTemplate} then that
% is also valid. There is an error-test to make sure that the
% types agree, and if so the template is used directly.
% \begin{macrocode}
\cs_new_protected:Npn \@@_use_instance:nn #1#2
{
\@@_if_use_template:nTF {#2}
{ \@@_use_instance_aux:nNnnn {#1} #2 }
{ \@@_use_instance_aux:nn {#1} {#2} }
}
\cs_new_protected:Npn \@@_use_instance_aux:nNnnn #1#2#3#4#5
{
\str_if_eq:nnTF {#1} {#3}
{ \@@_use_template:nnn {#3} {#4} {#5} }
{ \msg_error:nnxx { xtemplate } { type-mismatch } {#1} {#3} }
}
\cs_new_protected:Npn \@@_use_instance_aux:nn #1#2
{
\@@_get_collection:n {#1}
\@@_if_instance_exist:nnnTF
{#1} { \l_@@_collection_tl } {#2}
{
\use:c
{
\c_@@_instances_root_tl #1 /
\l_@@_collection_tl / #2
}
}
{
\@@_if_instance_exist:nnnTF {#1} { } {#2}
{ \use:c { \c_@@_instances_root_tl #1 / / #2 } }
{
\msg_error:nnxx { xtemplate } { unknown-instance }
{#1} {#2}
}
}
}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_use_collection:nn}
% Switching to an instance collection is just a question of setting the
% appropriate list.
% \begin{macrocode}
\cs_new_protected:Npn \@@_use_collection:nn #1#2
{ \prop_put:Nnn \l_@@_collections_prop {#1} {#2} }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_get_collection:n}
% Recovering the collection for a given type is pretty easy: just a read
% from the list.
% \begin{macrocode}
\cs_new_protected:Npn \@@_get_collection:n #1
{
\prop_get:NnNF \l_@@_collections_prop {#1}
\l_@@_collection_tl
{ \tl_clear:N \l_@@_collection_tl }
}
% \end{macrocode}
% \end{macro}
%
%\subsection{Assignment manipulation}
%
% A few functions to transfer assignments about, as this is needed by
% \cs{AssignTemplateKeys}.
%
% \begin{macro}{\@@_assignments_pop:}
% To actually use the assignments.
% \begin{macrocode}
\cs_new:Npn \@@_assignments_pop: { \l_@@_assignments_tl }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\@@_assignments_push:n}
% Here, the assignments are stored for later use.
% \begin{macrocode}
\cs_new_protected:Npn \@@_assignments_push:n #1
{ \tl_set:Nn \l_@@_assignments_tl {#1} }
% \end{macrocode}
% \end{macro}
%
% \subsection{Showing templates and instances}
%
% \begin{macro}{\@@_show_code:nn}
% Showing the code for a template is just a translation of
% \cs{cs_show:c}.
% \begin{macrocode}
\cs_new_protected:Npn \@@_show_code:nn #1#2
{ \cs_show:c { \c_@@_code_root_tl #1 / #2 } }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}
% {
% \@@_show_defaults:nn, \@@_show_keytypes:nn,
% \@@_show_vars:nn
% }
% \begin{macro}{\@@_show:Nnnn}
% A modified version of the property-list printing code, such that
% the output refers to templates and instances rather than to the
% underlying structures.
% \begin{macrocode}
\cs_new_protected:Npn \@@_show_defaults:nn #1#2
{
\@@_if_keys_exist:nnT {#1} {#2}
{
\@@_recover_defaults:n { #1 / #2 }
\@@_show:Nnnn \l_@@_values_prop
{#1} {#2} { default~values }
}
}
\cs_new_protected:Npn \@@_show_keytypes:nn #1#2
{
\@@_if_keys_exist:nnT {#1} {#2}
{
\@@_recover_keytypes:n { #1 / #2 }
\@@_show:Nnnn \l_@@_keytypes_prop
{#1} {#2} { interface }
}
}
\cs_new_protected:Npn \@@_show_vars:nn #1#2
{
\@@_execute_if_code_exist:nnT {#1} {#2}
{
\@@_recover_vars:n { #1 / #2 }
\@@_show:Nnnn \l_@@_vars_prop
{#1} {#2} { variable~mapping }
}
}
\cs_new_protected:Npn \@@_show:Nnnn #1#2#3#4
{
\msg_show:nnxxxx { xtemplate } { show-attribute }
{ \tl_to_str:n {#2} }
{ \tl_to_str:n {#3} }
{ \tl_to_str:n {#4} }
{ \prop_map_function:NN #1 \msg_show_item_unbraced:nn }
}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\@@_show_values:nnn}
% Instance values are a little more complex, as there are the collection
% and template to consider.
% \begin{macrocode}
\cs_new_protected:Npn \@@_show_values:nnn #1#2#3
{
\@@_if_instance_exist:nnnT {#1} {#2} {#3}
{
\@@_recover_values:n { #1 / #2 / #3 }
\msg_show:nnxxxx { xtemplate } { show-values }
{ \tl_to_str:n {#1} }
{ \tl_to_str:n {#2} }
{ \tl_to_str:n {#3} }
{
\prop_map_function:NN \l_@@_values_prop
\msg_show_item_unbraced:nn
}
}
}
% \end{macrocode}
% \end{macro}
%
% \subsection{Messages}
%
% The text for error messages: short and long text for all of them.
% \begin{macrocode}
\msg_new:nnnn { xtemplate } { argument-number-mismatch }
{ Object~type~'#1'~takes~#2~argument(s). }
{
Objects~of~type~'#1'~require~#2~argument(s).\\
You~have~tried~to~make~a~template~for~'#1'~
with~#3~argument(s),~which~is~not~possible:~
the~number~of~arguments~must~agree.
}
\msg_new:nnnn { xtemplate } { bad-number-of-arguments }
{ Bad~number~of~arguments~for~object~type~'#1'. }
{
An~object~may~accept~between~0~and~9~arguments.\\
You~asked~to~use~#2~arguments:~this~is~not~supported.
}
\msg_new:nnnn { xtemplate } { bad-variable }
{ Incorrect~variable~description~'#1'. }
{
The~argument~'#1'~is~not~of~the~form \\
~~'<variable>'\\
~or~\\
~~'global~<variable>'.\\
It~must~be~given~in~one~of~these~formats~to~be~used~in~a~template.
}
\msg_new:nnnn { xtemplate } { choice-not-implemented }
{ The~choice~'#1'~has~no~implementation. }
{
Each~choice~listed~in~the~interface~for~a~template~must~
have~an~implementation.
}
\msg_new:nnnn { xtemplate } { choice-no-code }
{ The~choice~'#1'~requires~implementation~details. }
{
When~creating~template~code~using~\DeclareTemplateCode,~
each~choice~name~must~have~an~associated~implementation.\\
This~should~be~given~after~a~'='~sign:~LaTeX~did~not~find~one.
}
\msg_new:nnnn { xtemplate } { duplicate-key-interface }
{ Key~'#1'~appears~twice~in~interface~definition~\msg_line_context:. }
{
Each~key~can~only~have~one~interface~declared~in~a~template.\\
LaTeX~found~two~interfaces~for~'#1'.
}
\msg_new:nnnn { xtemplate } { keytype-requires-argument }
{ The~key~type~'#1'~requires~an~argument~\msg_line_context:. }
{
You~should~have~put:\\
\ \ <key-name>~:~#1~{~<argument>~} \\
but~LaTeX~did~not~find~an~<argument>.
}
\msg_new:nnnn { xtemplate } { invalid-keytype }
{ The~key~'#1'~is~missing~a~key-type~\msg_line_context:. }
{
Each~key~in~a~template~requires~a~key-type,~given~in~the~form:\\
\ \ <key>~:~<key-type>\\
LaTeX~could~not~find~a~<key-type>~in~your~input.
}
\msg_new:nnnn { xtemplate } { key-no-value }
{ The~key~'#1'~has~no~value~\msg_line_context:. }
{
When~creating~an~instance~of~a~template~
every~key~listed~must~include~a~value:\\
\ \ <key>~=~<value>
}
\msg_new:nnnn { xtemplate } { key-no-variable }
{ The~key~'#1'~requires~implementation~details~\msg_line_context:. }
{
When~creating~template~code~using~\DeclareTemplateCode,~
each~key~name~must~have~an~associated~implementation.\\
This~should~be~given~after~a~'='~sign:~LaTeX~did~not~find~one.
}
\msg_new:nnnn { xtemplate } { key-not-implemented }
{ Key~'#1'~has~no~implementation~\msg_line_context:. }
{
The~definition~of~key~implementations~for~template~'#2'~
of~object~type~'#3'~does~not~include~any~details~for~key~'#1'.\\
The~key~was~declared~in~the~interface~definition,~
and~so~an~implementation~is~required.
}
\msg_new:nnnn { xtemplate } { missing-keytype }
{ The~key~'#1'~is~missing~a~key-type~\msg_line_context:. }
{
Key~interface~definitions~should~be~of~the~form\\
\ \ #1~:~<key-type>\\
but~LaTeX~could~not~find~a~<key-type>.
}
\msg_new:nnnn { xtemplate } { no-template-code }
{
The~template~'#2'~of~type~'#1'~is~unknown~
or~has~no~implementation.
}
{
There~is~no~code~available~for~the~template~name~given.\\
This~should~be~given~using~\DeclareTemplateCode.
}
\msg_new:nnnn { xtemplate } { object-type-mismatch }
{ Object~types~'#1'~and~'#2'~do~not~agree. }
{
You~are~trying~to~use~a~template~directly~with~\UseInstance
(or~a~similar~function),~but~the~object~types~do~not~match.
}
\msg_new:nnnn { xtemplate } { unknown-attribute }
{ The~template~attribute~'#1'~is~unknown. }
{
There~is~a~definition~in~the~current~template~reading\\
\ \ \token_to_str:N \KeyValue {~#1~} \\
but~there~is~no~key~called~'#1'.
}
\msg_new:nnnn { xtemplate } { unknown-choice }
{ The~choice~'#2'~was~not~declared~for~key~'#1'. }
{
The~key~'#1'~takes~a~fixed~list~of~choices~
and~this~list~does~not~include~'#2'.
}
\msg_new:nnnn { xtemplate } { unknown-default-choice }
{ The~default~choice~'#2'~was~not~declared~for~key~'#1'. }
{
The~key~'#1'~takes~a~fixed~list~of~choices~
and~this~list~does~not~include~'#2'.
}
\msg_new:nnnn { xtemplate } { unknown-instance }
{ The~instance~'#2'~of~type~'#1'~is~unknown. }
{
You~have~asked~to~use~an~instance~'#2',~
but~this~has~not~been~created.
}
\msg_new:nnnn { xtemplate } { unknown-key }
{ Unknown~template~key~'#1'. }
{
The~key~'#1'~was~not~declared~in~the~interface~
for~the~current~template.
}
\msg_new:nnnn { xtemplate } { unknown-keytype }
{ The~key-type~'#1'~is~unknown. }
{
Valid~key-types~are:\\
-~boolean;\\
-~choice;\\
-~code;\\
-~commalist;\\
-~function;\\
-~instance;\\
-~integer;\\
-~length;\\
-~muskip;\\
-~real;\\
-~skip;\\
-~tokenlist.
}
\msg_new:nnnn { xtemplate } { unknown-object-type }
{ The~object~type~'#1'~is~unknown. }
{
An~object~type~needs~to~be~declared~with~\DeclareObjectType
prior~to~using~it.
}
\msg_new:nnnn { xtemplate } { unknown-template }
{ The~template~'#2'~of~type~'#1'~is~unknown. }
{
No~interface~has~been~declared~for~a~template~
'#2'~of~object~type~'#1'.
}
% \end{macrocode}
%
% Information messages only have text: more text should not be needed.
% \begin{macrocode}
\msg_new:nnn { xtemplate } { declare-object-type }
{ Declaring~object~type~'#1'~taking~#2~argument(s)~\msg_line_context:. }
\msg_new:nnn { xtemplate } { declare-template-code }
{ Declaring~code~for~template~'#2'~of~object~type'#1'~\msg_line_context:. }
\msg_new:nnn { xtemplate } { declare-template-interface }
{
Declaring~interface~for~template~'#2'~of~object~type~'#1'~
\msg_line_context:.
}
\msg_new:nnn { xtemplate } { show-attribute }
{
The~template~'#2'~of~object~type~'#1'~has~
\tl_if_empty:nTF {#4} { no~#3. } { #3 : #4 }
}
\msg_new:nnn { xtemplate } { show-values }
{
\tl_if_empty:nTF {#2}
{ The~instance~'#3'~ }
{ The~collection~ instance~'#3'~ (from~collection~'#2')~ }
of~object~type~'#1'~has~
\tl_if_empty:nTF {#4} { no~values. } { values: #4 }
}
% \end{macrocode}
%
% \subsection{User functions}
%
% The user functions provided by \pkg{xtemplate} are pretty much direct
% copies of internal ones. However, by sticking to the \pkg{xparse}
% approach only the appropriate arguments are long.
%
% \begin{macro}{\DeclareObjectType}
% \begin{macro}{\DeclareTemplateInterface}
% \begin{macro}{\DeclareTemplateCode}
% \begin{macro}{\DeclareRestrictedTemplate}
% \begin{macro}{\EditTemplateDefaults}
% \begin{macro}{\DeclareInstance}
% \begin{macro}{\DeclareCollectionInstance}
% \begin{macro}{\EditInstance}
% \begin{macro}{\EditCollectionInstance}
% \begin{macro}{\UseTemplate}
% \begin{macro}{\UseInstance}
% \begin{macro}{\UseCollection}
% All simple translations, with the appropriate long/short argument
% filtering.
% \begin{macrocode}
\cs_new_protected:Npn \DeclareObjectType #1#2
{ \@@_declare_object_type:nn {#1} {#2} }
\cs_new_protected:Npn \DeclareTemplateInterface #1#2#3#4
{ \@@_declare_template_keys:nnnn {#1} {#2} {#3} {#4} }
\cs_new_protected:Npn \DeclareTemplateCode #1#2#3#4#5
{ \@@_declare_template_code:nnnnn {#1} {#2} {#3} {#4} {#5} }
\cs_new_protected:Npn \DeclareRestrictedTemplate #1#2#3#4
{ \@@_declare_restricted:nnnn {#1} {#2} {#3} {#4} }
\cs_new_protected:Npn \DeclareInstance #1#2#3#4
{ \@@_declare_instance:nnnnn {#1} {#3} { } {#2} {#4} }
\cs_new_protected:Npn \DeclareCollectionInstance #1#2#3#4#5
{ \@@_declare_instance:nnnnn {#2} {#4} {#1} {#3} {#5} }
\cs_new_protected:Npn \EditTemplateDefaults #1#2#3
{ \@@_edit_defaults:nnn {#1} {#2} {#3} }
\cs_new_protected:Npn \EditInstance #1#2#3
{ \@@_edit_instance:nnnn {#1} { } {#2} {#3} }
\cs_new_protected:Npn \EditCollectionInstance #1#2#3#4
{ \@@_edit_instance:nnnn {#2} {#1} {#3} {#4} }
\cs_new_protected:Npn \UseTemplate #1#2#3
{ \@@_use_template:nnn {#1} {#2} {#3} }
\cs_new_protected:Npn \UseInstance #1#2
{ \@@_use_instance:nn {#1} {#2} }
\cs_new_protected:Npn \UseCollection #1#2
{ \@@_use_collection:nn {#1} {#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}{\ShowTemplateCode}
% \begin{macro}{\ShowTemplateDefaults}
% \begin{macro}{\ShowTemplateInterface}
% \begin{macro}{\ShowTemplateVariables}
% \begin{macro}{\ShowInstanceValues}
% \begin{macro}{\ShowCollectionInstanceValues}
% The show functions are again just translation.
% \begin{macrocode}
\cs_new_protected:Npn \ShowTemplateCode #1#2
{ \@@_show_code:nn {#1} {#2} }
\cs_new_protected:Npn \ShowTemplateDefaults #1#2
{ \@@_show_defaults:nn {#1} {#2} }
\cs_new_protected:Npn \ShowTemplateInterface #1#2
{ \@@_show_keytypes:nn {#1} {#2} }
\cs_new_protected:Npn \ShowTemplateVariables #1#2
{ \@@_show_vars:nn {#1} {#2} }
\cs_new_protected:Npn \ShowInstanceValues #1#2
{ \@@_show_values:nnn {#1} { } {#2} }
\cs_new_protected:Npn \ShowCollectionInstanceValues #1#2#3
{ \@@_show_values:nnn {#1} {#2} {#3} }
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\IfInstanceExistT, \IfInstanceExistF, \IfInstanceExistTF}
% More direct translation: only the base instance is checked for.
% \begin{macrocode}
\cs_new:Npn \IfInstanceExistTF #1#2
{ \@@_if_instance_exist:nnnTF {#1} { } {#2} }
\cs_new:Npn \IfInstanceExistT #1#2
{ \@@_if_instance_exist:nnnT {#1} { } {#2} }
\cs_new:Npn \IfInstanceExistF #1#2
{ \@@_if_instance_exist:nnnF {#1} { } {#2} }
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\EvaluateNow}
% \begin{macro}{\KeyValue}
% These are both do nothing functions. Both simply dump their arguments
% when executed: this should not happen with \cs{KeyValue}.
% \begin{macrocode}
\cs_new_protected:Npn \EvaluateNow #1 {#1}
\cs_new_protected:Npn \KeyValue #1 {#1}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\AssignTemplateKeys}
% A short call to use a token register by proxy.
% \begin{macrocode}
\cs_new_protected:Npn \AssignTemplateKeys
{ \@@_assignments_pop: }
% \end{macrocode}
% \end{macro}
%
% \begin{macrocode}
\cs_new_eq:NN \ShowTemplateKeytypes \ShowTemplateInterface
% \end{macrocode}
%
% \begin{macrocode}
%</package>
% \end{macrocode}
%
%\end{implementation}
%
%\PrintIndex
|