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|
% \iffalse
%
%% File: xgalley.dtx
%
% Copyright (C) 1999-2001,2004-2009 Frank Mittelbach
% (C) 2010-2012,2014,2016-2022 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 "l3experimental 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]{l3doc}
\begin{document}
\DocInput{\jobname.dtx}
\end{document}
%</driver>
% \fi
%
% \title{^^A
% The \textsf{xgalley} package\\ Galley^^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 2022-02-05}
%
% \maketitle
%
% \begin{documentation}
%
% \section{Introduction}
%
% In \LaTeX3 terminology a galley is a rectangular area which receives
% text and other material filling it from top. The vertically extend of
% a galley is normally not restricted: instead certain chunks are taken
% off the top of an already partially filled galley to form columns or
% similar areas on a page. This process is typically asynchronous but
% there are ways to control or change its behaviour.
%
% Examples for galleys are \enquote{the main galley}, where the
% continuous document data gets formatted into and from which columns
% and pages are constructed, and \enquote{vertical box galleys}, such
% as the body of a minipage environment. The latter galleys are
% typically not split after formatting, though there can be exceptions.
%
% \section{Formatting layers}
%
% The present module is mainly concerned with the formatting of text
% in galleys. The mechanism by which this is achieved uses four
% (somewhat) distinct layers, some of which can be addressed using the
% templates provided here.
%
% \subsection{Layer one: external dimensions}
%
% The bottom layer of the system is the external dimensions of the
% galley. Normally only the horizontal dimension is fixed externally,
% while the vertical (filling) dimension is unspecified. The external
% dimensions are fixed when starting a new galley, and are therefore
% not modifiable within the galley.
%
% There are no templates for setting this layer directly, although the
% external values are influenced by other parts of the system (for
% example when creating minipage environments).
%
% \subsection{Layer two: internal dimensions}
%
% The second layer is the internal dimensions of the galley: the
% \emph{measure} used for paragraph text and the position of the
% paragraph relative to the edges of the galley.
%
% This layer is normally accessed by higher-level templates
% \emph{via} the object type \texttt{measure}. Changes made using
% level two templates will often extend for large parts of a document
% (up to and including the entire document).
%
% \subsection{Layer three: paragraph shape}
%
% The third layer defines the paragraph shape within the measure as
% provided by the second layer. In the absence of any specification
% for that layer the paragraph shape used will be that of a
% rectangular area of the width of the current measure.
%
% There are some restrictions imposed on the shape of a paragraph by the
% underlying \TeX{} mechanisms. For example, cut out sections in
% paragraphs can be specified from the top of the paragraph but not from
% the bottom.
%
% \subsection{Layer four: formatting inside the paragraph}
%
% The forth layer deals with the paragraph formatting aspects such as
% hyphenation and justification within the paragraph (this is sometimes
% referred to as \enquote{\texttt{h\&j}} or \enquote{\texttt{hj}}).
%
% \section{Templates}
%
% \subsection{Layer two: internal dimensions}
%
% \begin{TemplateInterfaceDescription}{measure}
% \TemplateArgument{}{} ^^A Some hack
% \TemplateSemantics
% Sets the width available to typeset material within the galley.
% The \meta{left margin} and \meta{right margin} values are used in the
% adjustment to over-ride any given in the template. Depending upon
% the template in use, the margins may be absolute (relative only to the
% edges of the galley) or relative (taking account of |measure| adjustments
% already made). The template applies to the galley from the point of
% us forward, unless over-ridden by another use of the |measure|
% object type.
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{measure}{absolute}
% \TemplateKey{left-margin}{length}
% {^^A
% The distance from the left edge of the galley to the left edge of
% the area for typeset material. A negative value will cause the
% typeset material to extend beyond the edge of the galley.^^A
% }
% {0pt}
% \TemplateKey{right-margin}{length}
% {^^A
% The distance from the right edge of the galley to the right edge of
% the area for typeset material. A negative value will cause the
% typeset material to extend beyond the edge of the galley.^^A
% }
% {0pt}
% \TemplateSemantics
% This template sets up the typesetting area such that typeset material
% runs from |left-margin| away from the left edge of the galley to
% |right-margin| away from the right edge of the galley. Both of these
% distances are absolute, \emph{i.e.}~no account is taken of previous
% |measure| settings. Either on or both values may be negative, in which
% case the typeset material will protrude outside of the edges of the
% galley.
% \end{TemplateDescription}
%
% \begin{TemplateDescription}{measure}{relative}
% \TemplateKey{left-margin}{length}
% {^^A
% The distance from the previous left margin of the typeset material
% within the galley to the new position of the left margin. A negative
% value will cause the new margin to be \enquote{outside} of the
% previous one, and \emph{may} cause the typeset material to
% protrude outside of the edge of the galley.
% }
% {0pt}
% \TemplateKey{right-margin}{length}
% {^^A
% The distance from the previous right margin of the typeset material
% within the galley to the new position of the right margin. A negative
% value will cause the new margin to be \enquote{outside} of the
% previous one, and \emph{may} cause the typeset material to
% protrude outside of the edge of the galley.
% }
% {0pt}
% \TemplateSemantics
% This template sets up the typesetting area such that it has margins
% |left-margin| and |right-margin| within those previously set. For a
% galley within no previous margins, this will result in margins relative
% to the edges of the galley. Within a galley in which the |measure| has
% already been set, using the |relative| template will indent the typeset
% material relative to the existing margins.
% Either on or both values may be negative, in which
% case the typeset material may protrude outside of the edges of the
% galley.
% \end{TemplateDescription}
%
% \subsection{Layer three: paragraph shape}
%
% \begin{TemplateInterfaceDescription}{parshape}
% \TemplateArgument{}{}^^A Some hack
% \TemplateSemantics
% Template of this type define any shaping of the paragraph within the
% current measure of the galley. Thus they are used to generate
% \enquote{special} paragraph shapes, for example placing a cutout
% in one side of the paragraph. Typically, \texttt{parshape} templates
% will apply in a limited sense (to a single paragraph or a defined number of
% lines). However, \texttt{parshape} templates may also apply in an
% \enquote{ongoing} manner.
%
% Note that \texttt{parshape} templates do not alter any first-line
% indent for paragraphs (or any other \enquote{in paragraph} setting).
% Instead, they define a shape inside which the paragraph material will be
% placed.
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{parshape}{hang}
% \TemplateKey{indent}{length}
% {^^A
% The hanging indent from either the left- or right-hand margin
% (as determined by \texttt{on-left-side}).^^A
% }
% {0pt}
% \TemplateKey{on-left-side}{boolean}
% {^^A
% If \texttt{true}, causes the hanging indent to be on the left-hand
% side of the paragraph.^^A
% }
% {true}
% \TemplateKey{lines}{integer}
% {The number of lines of full width before hanging begins.}
% {1}
% \TemplateSemantics
% Sets the paragraph shape such that the after a number of full-width
% lines, specified by |lines|, the paragraph is indented by the
% |indent| from a margin. If |on-left-side| is |true| this indent will be
% from the left-hand margin, otherwise it will be from the right. In either
% case, the indent is relative to the edge of the current |measure| and
% may be negative (in which case an outdent will result).
% This template type applies only to a single paragraph.
% \end{TemplateDescription}
%
% \begin{TemplateDescription}{parshape}{initial}
% \TemplateKey{indent}{length}
% {^^A
% The indent for the initial lines from either the left- or right-hand
% margin (as determined by \texttt{on-left-side}).^^A
% }
% {0pt}
% \TemplateKey{on-left-side}{boolean}
% {^^A
% If \texttt{true}, causes the indent to be on the left-hand
% side of the paragraph.^^A
% }
% {true}
% \TemplateKey{lines}{integer}
% {The number of lines of indented lines before full-width line begins.}
% {2}
% \TemplateSemantics
% Sets the paragraph shape such that the first |lines| lines
% are indented by the |indent| given, before lines of full width begin.
% If |on-left-side| is |true| this indent will be
% from the left-hand margin, otherwise it will be from the right. In either
% case, the indent is relative to the edge of the current |measure| and
% may be negative (in which case an outdent will result).
% This template type applies only to a single paragraph.
% \end{TemplateDescription}
%
% \begin{TemplateDescription}{parshape}{std}
% \TemplateKey{}{}{}{} ^^A hack
% \TemplateSemantics
% Sets a rectangular paragraph shape which occupies the full width
% specified by the |measure|. It is therefore intended as a
% \enquote{do nothing} template for use where a paragraph shape is required
% but where no special formatting is needed. This template type applies only
% to a single paragraph.
% \end{TemplateDescription}
%
% \subsection{Layer four: formatting inside the paragraph}
%
% \begin{TemplateInterfaceDescription}{hyphenation}
% \TemplateArgument{}{} ^^A Hack
% \TemplateSemantics
% Controls whether hyphenation is attempted within the current
% galley. This object type may also alter the degree to which hyphenation
% is encouraged by manipulating the underlying \TeX{} parameters. This
% object type applies to the galley from the point of use forward.
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{hyphenation}{std}
% \TemplateKey{enable}{boolean}
% {Switches all hyphenation on or off.}
% {true}
% \TemplateKey{enable-upper-case}
% {boolean}
% {^^A
% Switches hyphenation on or off for words beginning with upper case
% letters.^^A
% }
% {true}
% \TemplateKey{penalty}{choice}
% {^^A
% Sets the degree to which \TeX{} is discouraged from undertaking
% hyphenation, from the choices |low|, |medium| and |high|.^^A
% }
% {low}
% \TemplateSemantics
% Determines both whether hyphenation is allowed at all, and if so to
% what degree it is discouraged. Setting |penalty| to |high| does not
% prevent hyphenation: this is only done if |enable| is set |false|.
% \end{TemplateDescription}
%
% \begin{TemplateInterfaceDescription}{justification}
% \TemplateArgument{}{} ^^A Hack
% \TemplateSemantics
% Controls the nature of justification undertaken within the galley.
% The template applies from the point of use forward.
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{justification}{std}
% \TemplateKey{end-skip}{skip}
% {The skip inserted to fill the last line of a paragraph.}
% {0pt plus 1fil}
% \TemplateKey{fixed-word-spacing}{boolean}
% {^^A
% Determines whether inter-word spacing has a stretch component (for
% non-monospaced fonts.^^A
% }
% {false}
% \TemplateKey{indent-width}{length}
% {^^A
% The length of the indent inserted at the start of the first line of a
% new paragraph.^^A
% }
% {}
% \TemplateKey{left-skip}{skip}
% {^^A
% The skip between the left margin of the galley and the left edge of a
% paragraph.^^A
% }
% {0pt}
% \TemplateKey{right-skip}{skip}
% {^^A
% The skip between the right margin of the galley and the right edge of a
% paragraph.^^A
% }
% {0pt}
% \TemplateKey{start-skip}{skip}
% {^^A
% The skip inserted in addition to |indent-width| at the start of a
% paragraph.^^A
% }
% {0pt}
% \TemplateSemantics
% The |std| template for justification provides rubber lengths
% at the start and end of the paragraph and at each side of the paragraph.
% It also allows for both flexible and fixed inter-word spacing. The
% interaction between the settings is demonstrated in the selection of
% standard instances provided.
% \end{TemplateDescription}
%
% \begin{InstanceDescription}{justification}{justified}{std}
% \InstanceKey{indent-width}{15pt}
% \InstanceSemantics
% Sets paragraphs fully-justified with the first line indented by
% |15pt|.
% \end{InstanceDescription}
%
% \begin{InstanceDescription}{justification}{noindent}{std}
% \InstanceKey{end-skip}{15pt plus 1fil}
% \InstanceKey{indent-width}{0pt}
% \InstanceSemantics
% Sets paragraphs fully-justified with no indent for the first line. To
% ensure that paragraphs have some visual distinction, the |end-skip| is
% set to insert some space in all cases.
% \end{InstanceDescription}
%
% \begin{TemplateDescription}{justification}{single}
% \TemplateKey{end-skip}{skip}
% {The skip inserted to fill the last line of a paragraph.}
% {0pt plus 1fil}
% \TemplateKey{fixed-word-spacing}{boolean}
% {^^A
% Determines whether inter-word spacing has a stretch component (for
% non-monospaced fonts.^^A
% }
% {false}
% \TemplateKey{indent-width}{length}
% {^^A
% The length of the indent inserted at the start of the first line of a
% new paragraph.^^A
% }
% {}
% \TemplateKey{left-skip}{skip}
% {^^A
% The skip between the left margin of the galley and the left edge of a
% paragraph.^^A
% }
% {0pt}
% \TemplateKey{right-skip}{skip}
% {^^A
% The skip between the right margin of the galley and the right edge of a
% paragraph.^^A
% }
% {0pt}
% \TemplateKey{start-skip}{skip}
% {^^A
% The skip inserted in addition to |indent-width| at the start of a
% paragraph.^^A
% }
% {0pt}
% \TemplateKey{stretch-last-line}{boolean}
% {
% Determines whether inter-word spacing in the last line is stretched.
% If \texttt{true}, the spacing in the last line is stretched in the
% by the same factor as that in the penultimate line.^^A
% }
% {false}
% \TemplateSemantics
% The |single| template for justification provides rubber lengths
% at the start and end of the paragraph and at each side of the paragraph.
% It also allows for both flexible and fixed inter-word spacing. The
% interaction between the settings is demonstrated in the selection of
% standard instances provided. The template applies only to a single
% paragraph.
% \end{TemplateDescription}
%
% \begin{InstanceDescription}[fixed-word-spacing-xxx]{justification}{ragged-left}{std}
% \InstanceKey{end-skip}{0pt}
% \InstanceKey{fixed-word-spacing}{true}
% \InstanceKey{indent-width}{0pt}
% \InstanceKey{left-skip}{0pt plus 2em}
% \InstanceKey{right-skip}{0pt}
% \InstanceSemantics
% Typesets material with a ragged left margin such that hyphenation will
% still occur and such that very short lines are discouraged. This is
% similar to the \LaTeXe{} \pkg{ragged2e} \env{RaggedLeft} environment.
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[fixed-word-spacing-xxx]{justification}{ragged-right}{std}
% \InstanceKey{end-skip}{0pt}
% \InstanceKey{fixed-word-spacing}{true}
% \InstanceKey{indent-width}{0pt}
% \InstanceKey{left-skip}{0pt}
% \InstanceKey{right-skip}{0pt plus 2em}
% \InstanceSemantics
% Typesets material with a ragged right margin such that hyphenation will
% still occur and such that very short lines are discouraged. This is
% similar to the \LaTeXe{} \pkg{ragged2e} \env{RaggedLeft} environment.
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[fixed-word-spacing-xxx]{justification}{center}{std}
% \InstanceKey{end-skip}{0pt}
% \InstanceKey{fixed-word-spacing}{true}
% \InstanceKey{indent-width}{0pt}
% \InstanceKey{left-skip}{0pt plus 1fil}
% \InstanceKey{right-skip}{0pt plus 1fil}
% \InstanceSemantics
% Centres typeset material such that hyphenation is discouraged and short
% lines are allowed.
% \end{InstanceDescription}
%
% \begin{TemplateDescription}{justification}{compound}
% \TemplateKey{first-paragraph}{instance}
% {Justification for the first paragraph.}
% {}
% \TemplateKey{other-paragraphs}{instance}
% {Justification for the remaining paragraphs.}
% {}
% \TemplateSemantics
% Here, both keys should themselves be instances of the |justification|
% template. The |compound| template is used to set up a single
% \enquote{non-standard} paragraph followed by \enquote{standard} ones.
% For example, it can be used to ensure that one |noindent| paragraph is
% then followed by |std| justification.
% \end{TemplateDescription}
%
% \begin{TemplateInterfaceDescription}{line-breaking}
% \TemplateArgument{}{} ^^A Hack
% \TemplateSemantics
% Controls the line breaking attempted by \TeX{} when typesetting
% material for the galley. This does not include whether words are
% hyphenated, which is handled separately.
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{line-breaking}{std}
% \TemplateKey{badness}{integer}
% {^^A
% Boundary that if exceeded will cause \TeX{} to report an
% underfull line.^^A
% }
% {1000}
% \TemplateKey{binop-penalty}{integer}
% {^^A
% Penalty charged if an inline math formula is broken at a
% binary operator.^^A
% }
% {700}
% \TemplateKey{double-hyphen-demerits}{integer}
% {^^A
% Extra demerit charge of two (or more) lines in succession end
% in a hyphen.^^A
% }
% {10000}
% \TemplateKey{emergency-stretch}{skip}
% {^^A
% Additional stretch assumed for each line if no better line breaking
% can be found without it. This stretch is not actually added to lines,
% so its use may result in underfull box warnings.^^A
% }
% {0pt}
% \TemplateKey{final-hyphen-demerits}{integer}
% {Extra demerit charge if the second last line is hyphenated.}
% {5000}
% \TemplateKey{fuzz}{length}
% {Boundary below overfull lines are not reported.}
% {0.1pt}
% \TemplateKey{mismatch-demerits}{integer}
% {^^A
% Extra demerit charge if two visually incompatible lines follow
% each other.^^A
% }
% {10000}
% \TemplateKey{line-penalty}{integer}
% {^^A
% Extra penalty charged per line in the paragraph. By making
% this penalty higher \TeX{} will try harder to produce compact
% paragraphs.^^A
% }
% {10}
% \TemplateKey{pretolerance}{integer}
% {^^A
% Maximum tolerance allowed for individual lines to break the
% paragraph without attempting hyphenation.^^A
% }
% {100}
% \TemplateKey{relation-penalty}{integer}
% {^^A
% Penalty charged if an inline math formula is broken at a
% relational symbol.^^A
% }
% {500}
% \TemplateKey{tolerance}{integer}
% {^^A
% Maximum tolerance allowed for individual lines when breaking a
% paragraph while attempting hyphenation (if this limit can't be
% met \texttt{emergency-stretch} comes into play).^^A
% }
% {200}
% \TemplateSemantics
% This is an interface to the underlying \TeX{} system for determining
% line breaking.
% \end{TemplateDescription}
%
% \subsection{Between paragraphs}
%
% \begin{TemplateInterfaceDescription}{paragraph-breaking}
% \TemplateArgument{}{} ^^A Hack
% \TemplateSemantics
% This object type determines how \TeX{} determines the behaviour when
% the paragraph-breaking algorithm is calculating whether to break up a
% paragraph. Thus for example an instance of this object type may prevent
% breaks within a paragraph, forbid widows or orphans, \emph{etc.}
% \end{TemplateInterfaceDescription}
%
% \begin{TemplateDescription}{paragraph-breaking}{std}
% \TemplateKey{badness}{integer}
% {^^A
% Boundary that if exceeded will cause \TeX{} to report an
% underfull vertical box.^^A
% }
% {1000}
% \TemplateKey{broken-penalty}{integer}
% {Penalty for page breaking after a hyphenated line.}
% {100}
% \TemplateKey{club-penalty}{integer}
% {Penalty for generating a club line when page breaking.}
% {150}
% \TemplateKey{display-club-penalty}{integer}
% {^^A
% Penalty for breaking between to leave a club line after display
% math.^^A
% }
% {150}
% \TemplateKey{display-widow-penalty}{integer}
% {^^A
% Penalty for breaking between to leave a widow line before display
% math.^^A
% }
% {150}
% \TemplateKey{fuzz}{length}
% {Boundary below which overfull vertical boxes are not reported.}
% {0.1pt}
% \TemplateKey{interline-penalty}{integer}
% {Penalty for breaking between lines in a paragraph.}
% {0}
% \TemplateKey{pre-display-penalty}{integer}
% {Penalty for breaking between immediately before display math material.}
% {10000}
% \TemplateKey{post-display-penalty}{integer}
% {Penalty for breaking between immediately after display math material.}
% {0}
% \TemplateKey{widow-penalty}{integer}
% {Penalty for generating a widow line when page breaking.}
% {150}
% \TemplateSemantics
% This template provides an interface to the underlying \TeX{} mechanism for
% controlling page breaking. The template applies on an ongoing basis to all
% paragraphs after the template is used.
% \end{TemplateDescription}
%
% \begin{InstanceDescription}{paragraph-breaking}{std}{std}
% \InstanceSemantics
% Sets paragraphs such that they can break with widows and orphans
% discouraged but not prevented. Breaks are possible after display math
% material but no immediately before it.
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[post-display-penalty-xxxx]{paragraph-breaking}{nobreak}{std}
% \InstanceKey{interline-penalty}{10000}
% \InstanceKey{post-display-penalty}{10000}
% \InstanceSemantics
% Sets paragraphs such that they cannot be broken at all (as far as is
% possible in \TeX{}).
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[post-display-penalty-xxxx]{paragraph-breaking}{nolone}{std}
% \InstanceKey{club-penalty}{10000}
% \InstanceKey{display-widow-penalty}{10000}
% \InstanceKey{widow-penalty}{10000}
% \InstanceSemantics
% Sets paragraphs such that they cannot be broken to leave a club or
% widow line (as far as is possible in \TeX{}).
% \end{InstanceDescription}
%
% \begin{TemplateDescription}{paragraph-breaking}{single}
% \TemplateKey{badness}{integer}
% {^^A
% Boundary that if exceeded will cause \TeX{} to report an
% underfull vertical box.^^A
% }
% {\meta{none}}
% \TemplateKey{broken-penalty}{integer}
% {Penalty for page breaking after a hyphenated line.}
% {\meta{none}}
% \TemplateKey{club-penalty}{integer}
% {Penalty for generating a club line when page breaking.}
% {\meta{none}}
% \TemplateKey{display-club-penalty}{integer}
% {^^A
% Penalty for breaking between to leave a club line after display
% math.^^A
% }
% {\meta{none}}
% \TemplateKey{display-widow-penalty}{integer}
% {^^A
% Penalty for breaking between to leave a widow line before display
% math.^^A
% }
% {\meta{none}}
% \TemplateKey{fuzz}{length}
% {Boundary below which overfull vertical boxes are not reported.}
% {\meta{none}}
% \TemplateKey{interline-penalty}{integer}
% {Penalty for breaking between lines in a paragraph.}
% {\meta{none}}
% \TemplateKey{pre-display-penalty}{integer}
% {Penalty for breaking between immediately before display math material.}
% {\meta{none}}
% \TemplateKey{post-display-penalty}{integer}
% {Penalty for breaking between immediately after display math material.}
% {\meta{none}}
% \TemplateKey{widow-penalty}{integer}
% {Penalty for generating a widow line when page breaking.}
% {\meta{none}}
% \TemplateSemantics
% This template provides an interface to the underlying \TeX{} mechanism for
% controlling page breaking. The template applies only to the next paragraph,
% and can thus be used to achieve effects such as non-breaking paragraphs.
% \end{TemplateDescription}
%
% \begin{InstanceDescription}{paragraph-breaking}{single-std}{single}
% \InstanceSemantics
% Sets the next paragraph such that it can break with widows and orphans
% discouraged but not prevented. Breaks are possible after display math
% material but no immediately before it.
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[post-display-penalty-xxx]{paragraph-breaking}{single-nobreak}{single}
% \InstanceKey{interline-penalty}{10000}
% \InstanceKey{post-display-penalty}{10000}
% \InstanceSemantics
% Sets the next paragraph such that it cannot be broken at all (as far as is
% possible in \TeX{}).
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[display-club-penalty-xxx]{paragraph-breaking}{single-noclub}{single}
% \InstanceKey{club-penalty}{10000}
% \InstanceKey{display-club-penalty}{10000}
% \InstanceSemantics
% Sets the next paragraph such that it cannot be broken to leave a club
% line (as far as is possible in \TeX{}).
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[display-widow-penalty-xxx]{paragraph-breaking}{single-nolone}{single}
% \InstanceKey{club-penalty}{10000}
% \InstanceKey{display-club-penalty}{10000}
% \InstanceKey{display-widow-penalty}{10000}
% \InstanceKey{widow-penalty}{10000}
% \InstanceSemantics
% Sets the next paragraph such that it cannot be broken to leave a club or
% widow line (as far as is possible in \TeX{}).
% \end{InstanceDescription}
%
% \begin{InstanceDescription}[display-widow-penalty-xxx]{paragraph-breaking}{single-nowidow}{single}
% \InstanceKey{display-widow-penalty}{10000}
% \InstanceKey{widow-penalty}{10000}
% \InstanceSemantics
% Sets the next paragraph such that it cannot be broken to leave a
% widow line (as far as is possible in \TeX{}).
% \end{InstanceDescription}
%
% \end{documentation}
%
% \begin{implementation}
%
% \section{\pkg{xgalley} Implementation}
%
% This module provided a template-level interface for the \LaTeX3 galley. As
% such, the code here is intended for design-level changes which apply to
% large blocks. The variables provided are therefore used only for supporting
% the templates, while any documented interfaces are in \pkg{l3galley}.
%
% \begin{macrocode}
%<*package>
% \end{macrocode}
%
% \begin{macrocode}
%<@@=galley>
% \end{macrocode}
%
% \begin{macrocode}
\ProvidesExplPackage{xgalley}{2022-02-05}{}
{L3 Experimental galley}
\RequirePackage{xtemplate,l3galley}
% \end{macrocode}
%
% \subsection{Variables}
%
% \begin{variable}{\l_@@_tmpa_clist, \l_@@_tmpb_clist}
% Scratch space.
% \begin{macrocode}
\clist_new:N \l_@@_tmpa_clist
\clist_new:N \l_@@_tmpb_clist
% \end{macrocode}
% \end{variable}
%
% \subsection{Layer two: internal dimensions}
%
% There is a single object type for level two, the \texttt{measure} for
% the text in the galley. There are no arguments, as the measure is a design
% concept.
% \begin{macrocode}
\DeclareObjectType { measure } { 0 }
% \end{macrocode}
%
% There are two templates for galley measures: absolute and relative.
% Both use the same interface.
% \begin{macrocode}
\DeclareTemplateInterface { measure } { absolute } { 0 }
{
left-margin : length = 0pt ,
right-margin : length = 0pt
}
\DeclareTemplateInterface { measure } { relative } { 0 }
{
left-margin : length = 0pt ,
right-margin : length = 0pt
}
% \end{macrocode}
%
% \begin{variable}{\l_@@_left_margin_dim, \l_@@_right_margin_dim}
% In the \texttt{absolute} template, the two margin values are relative
% to the edges of the galley. This means that any existing offset or
% line-length adjustment are ignored.
% \begin{macrocode}
%<*package>
\cs_new_eq:NN \l_@@_left_margin_dim \leftmargin
%</package>
%<*package>
\cs_new_eq:NN \l_@@_right_margin_dim \rightmargin
%</package>
\DeclareTemplateCode { measure } { absolute } { 0 }
{
left-margin = \l_@@_left_margin_dim ,
right-margin = \l_@@_right_margin_dim
}
{
\AssignTemplateKeys
\galley_margins_set_absolute:nn \l_@@_left_margin_dim
\l_@@_right_margin_dim
}
% \end{macrocode}
% On the other hand, the \texttt{relative} template works relative to
% the current indentation at both sides.
% \begin{macrocode}
\DeclareTemplateCode { measure } { relative } { 0 }
{
left-margin = \l_@@_left_margin_dim ,
right-margin = \l_@@_right_margin_dim
}
{
\AssignTemplateKeys
\galley_margins_set_relative:nn \l_@@_left_margin_dim
\l_@@_right_margin_dim
}
% \end{macrocode}
% \end{variable}
%
% \subsection{Layer three: paragraph shape}
%
% The object type \texttt{parshape} is a somewhat extended interface
% to the \TeX{} \cs{tex_parshape:D} primitive. As with the \texttt{measure},
% the \texttt{parshape} template has no arguments as it is essentially a
% design-oriented concept.
% \begin{macrocode}
\DeclareObjectType { parshape } { 0 }
% \end{macrocode}
%
% There are two standard templates for paragraph shapes which do
% something, both with the same interface. The \texttt{hang} template
% provides one or more standard lines followed by a hanging paragraph,
% while the \texttt{initial} template cuts out a space at the start of
% the paragraph.
% \begin{macrocode}
\DeclareTemplateInterface { parshape } { hang } { 0 }
{
indent : length = 0pt ,
on-left-side : boolean = true ,
lines : integer = 1
}
\DeclareTemplateInterface { parshape } { initial } { 0 }
{
indent : length = 0pt ,
on-left-side : boolean = true ,
lines : integer = 2
}
% \end{macrocode}
% \begin{variable}{\l_@@_parshape_indent_dim}
% \begin{variable}{\l_@@_parshape_on_left_bool}
% \begin{variable}{\l_@@_parshape_lines_int}
% Both of the templates are implemented as special cases of the more
% general function defined earlier.
% \begin{macrocode}
\DeclareTemplateCode { parshape } { hang } { 0 }
{
indent = \l_@@_parshape_indent_dim ,
on-left-side = \l_@@_parshape_on_left_bool ,
lines = \l_@@_parshape_lines_int
}
{
\AssignTemplateKeys
\bool_if:NTF \l_@@_parshape_on_left_bool
{
\galley_parshape_set_single:nVVN
\l_@@_parshape_lines_int
\l_@@_parshape_indent_dim
\c_zero_dim
\c_false_bool
}
{
\galley_parshape_set_single:nVVN
\l_@@_parshape_lines_int
\c_zero_dim
\l_@@_parshape_indent_dim
\c_false_bool
}
}
\DeclareTemplateCode { parshape } { initial } { 0 }
{
indent = \l_@@_parshape_indent_dim ,
on-left-side = \l_@@_parshape_on_left_bool ,
lines = \l_@@_parshape_lines_int
}
{
\AssignTemplateKeys
\clist_clear:N \l_@@_tmpa_clist
\clist_clear:N \l_@@_tmpb_clist
\prg_replicate:nn { \l_@@_parshape_lines_int }
{
\clist_put_right:Nn \l_@@_tmpa_clist
{ \l_@@_parshape_indent_dim }
\clist_put_right:Nn \l_@@_tmpb_clist
{ \c_zero_dim }
}
\bool_if:NTF \l_@@_parshape_on_left_bool
{
\galley_parshape_set_single:nVVN
{ 0 }
\l_@@_tmpa_clist
\l_@@_tmpb_clist
\c_true_bool
}
{
\galley_parshape_set_single:nVVN
{ 0 }
\l_@@_tmpb_clist
\l_@@_tmpa_clist
\c_true_bool
}
}
% \end{macrocode}
% \end{variable}
% \end{variable}
% \end{variable}
%
% There is also a \enquote{do nothing} paragraph shape for cases where
% a template is needed but no action is desirable.
% \begin{macrocode}
\DeclareTemplateInterface { parshape } { std } { 0 } { }
\DeclareTemplateCode { parshape } { std } { 0 } { } { }
% \end{macrocode}
%
% \subsection{Layer four: formatting inside the paragraph}
%
% The first type of object within a paragraph is the hyphenation. This
% object needs no arguments.
% \begin{macrocode}
\DeclareObjectType { hyphenation } { 0 }
% \end{macrocode}
%
% There is only hyphenation template as standard. This provides a
% semi-flexible interface to the underlying \TeX{} methods. (The detail
% is therefore hidden within the implementation phase.)
% \begin{macrocode}
\DeclareTemplateInterface { hyphenation } { std } { 0 }
{
enable : boolean = true ,
enable-upper-case : boolean = true ,
penalty : choice { low , medium , high } = low
}
% \end{macrocode}
% The implementation for hyphenation mainly sets low-level values.
% The minimum number of characters after a hyphen is set directly,
% whereas the number before is not. This is so that
% \cs{tex_lefthyphenmin:D} can also be used to completely prevent
% hyphenation.
% \begin{macrocode}
\DeclareTemplateCode { hyphenation } { std } { 0 }
{
enable = \l_galley_hyphen_enable_bool ,
enable-upper-case = \l_galley_hyphen_uppercase_bool ,
penalty =
{
low =
{
\int_set:Nn \tex_hyphenpenalty:D { 51 }
\int_set:Nn \tex_exhyphenpenalty:D { 51 }
} ,
medium =
{
\int_set:Nn \tex_hyphenpenalty:D { 151 }
\int_set:Nn \tex_exhyphenpenalty:D { 151 }
} ,
high =
{
\int_set:Nn \tex_hyphenpenalty:D { 301 }
\int_set:Nn \tex_exhyphenpenalty:D { 301 }
} ,
}
}
{
\AssignTemplateKeys
\int_set:Nn \tex_lefthyphenmin:D
{
\bool_if:NTF \l_galley_hyphen_enable_bool
{ \l_galley_hyphen_left_int }
{ 63 }
}
\int_set:Nn \tex_uchyph:D
{
\bool_if:NTF \l_galley_hyphen_uppercase_bool
{ 1 }
{ 0 }
}
}
% \end{macrocode}
% At this stage, the default hyphenation character should be set and
% hyphenation should be enabled.
% \begin{macrocode}
\UseTemplate { hyphenation } { std } { }
\tex_defaulthyphenchar:D 45 \scan_stop:
% \end{macrocode}
%
% \begin{variable}{\l_@@_justification_other_tl}
% Used for the reset system for justification: using this token list means
% that there is no need to remove anything from
% \cs{g_galley_restore_running_tl}.
% \begin{macrocode}
\tl_new:N \l_@@_justification_other_tl
% \end{macrocode}
% \end{variable}
%
% The second level four object is the justification, which again
% takes no arguments.
% \begin{macrocode}
\DeclareObjectType { justification } { 0 }
% \end{macrocode}
% There are two templates here with the same interface: the standard one
% to apply from this point onward, and one which applies only to a single
% paragraph.
% \begin{macrocode}
\DeclareTemplateInterface { justification } { std } { 0 }
{
end-skip : skip = 0pt plus 1fil ,
fixed-word-spacing : boolean = false ,
indent-width : length ,
left-skip : skip = 0pt ,
right-skip : skip = 0pt ,
start-skip : skip = 0pt ,
stretch-last-line : boolean = false
}
\DeclareTemplateInterface { justification } { single } { 0 }
{
end-skip : skip = 0pt plus 1fil ,
fixed-word-spacing : boolean = false ,
indent-width : length ,
left-skip : skip = 0pt ,
right-skip : skip = 0pt ,
start-skip : skip = 0pt ,
stretch-last-line : boolean = false
}
% \end{macrocode}
% \begin{variable}{\l_galley_fixed_spacing_bool}
% The implementation here is pretty simple as almost everything that
% goes on is a simple case of saving the settings, which are then
% applied either by \TeX{} itself or the rest of the galley system.
% \begin{macrocode}
\DeclareTemplateCode { justification } { std } { 0 }
{
end-skip = \l_galley_par_end_skip ,
fixed-word-spacing = \l_galley_fixed_spacing_bool ,
indent-width = \l_galley_par_indent_dim ,
left-skip = \l_galley_line_left_skip ,
right-skip = \l_galley_line_right_skip ,
start-skip = \l_galley_par_begin_skip ,
stretch-last-line = \l_galley_par_stretch_last_bool
}
{
\AssignTemplateKeys
\tl_clear:N \l_@@_justification_other_tl
\galley_interword_spacing_set:N \l_galley_fixed_spacing_bool
\bool_if:NTF \l_galley_par_stretch_last_bool
{ \int_set:Nn \l_galley_last_line_fit_int { 1000 } }
{ \int_zero:N \l_galley_last_line_fit_int }
\skip_set:Nn \@rightskip { \l_galley_line_right_skip }
}
% \end{macrocode}
% \end{variable}
% To deal with a single paragraph, the approach used is to save the current
% settings to the paragraph-reset code, then to assign the template in the
% same way as for the |std| template.
% \begin{macrocode}
\DeclareTemplateCode { justification } { single } { 0 }
{
end-skip = \l_galley_par_end_skip ,
fixed-word-spacing = \l_galley_fixed_spacing_bool ,
indent-width = \l_galley_par_indent_dim ,
left-skip = \l_galley_line_left_skip ,
right-skip = \l_galley_line_right_skip ,
start-skip = \l_galley_par_begin_skip ,
stretch-last-line = \l_galley_par_stretch_last_bool
}
{
\tl_put_left:Nx \l_@@_justification_other_tl
{
\skip_set:Nn \exp_not:N \l_galley_par_end_skip
{ \skip_use:N \l_galley_par_end_skip }
\bool_if:NTF \l_galley_fixed_spacing_bool
{ \bool_set_true:N \exp_not:N \l_galley_fixed_spacing_bool }
{ \bool_set_false:N \exp_not:N \l_galley_fixed_spacing_bool }
\galley_interword_spacing_set:N
\exp_not:N \l_galley_fixed_spacing_bool
\dim_set:Nn \exp_not:N \l_galley_par_indent_dim
{ \dim_use:N \l_galley_par_indent_dim }
\skip_set:Nn \l_galley_line_left_skip
{ \skip_use:N \l_galley_line_left_skip }
\skip_set:Nn \exp_not:N \l_galley_line_right_skip
{ \skip_use:N \l_galley_line_right_skip }
\skip_set:Nn \exp_not:N \l_galley_par_begin_skip
{ \skip_use:N \l_galley_par_begin_skip }
\int_set:Nn \exp_not:N \l_galley_last_line_fit_int
{ \int_use:N \l_galley_last_line_fit_int }
\skip_set:Nn \exp_not:N \@rightskip
{ \skip_use:N \l_galley_line_right_skip }
}
\tl_gput_right:Nn \g_galley_restore_running_tl
{ \l_@@_justification_other_tl }
\AssignTemplateKeys
\galley_interword_spacing_set:N \l_galley_fixed_spacing_bool
\bool_if:NTF \l_galley_par_stretch_last_bool
{ \int_set:Nn \l_galley_last_line_fit_int { 1000 } }
{ \int_zero:N \l_galley_last_line_fit_int }
\skip_set:Nn \@rightskip { \l_galley_line_right_skip }
}
% \end{macrocode}
% The standard instance for justification is very simple to set up as
% the default values for the template are set up for exactly this case.
% The advantage of this scheme is that at a design level altering the
% indent used for justified paragraphs is very easy to do. As this is
% the standard template for all \LaTeX3 documents, it is applied here.
% \begin{macrocode}
\DeclareInstance { justification } { justified } { std }
{ indent-width = 15pt }
\UseInstance { justification } { justified }
% \end{macrocode}
% The instance for no indentation at all but with justified text is
% intended for layouts which leave white space between paragraphs. With
% no indentation, some space has to be included at the end of each
% paragraph. This is set up to mirror the indent that has been removed.
% \begin{macrocode}
\DeclareInstance { justification } { noindent } { std }
{
end-skip = 15pt plus 1fil ,
indent-width = 0pt
}
% \end{macrocode}
% The other standard justification schemes are for text which ragged.
% The settings here are taken from the \LaTeXe{}
% \pkg{ragged2e} package, as they maintain a reasonable appearance by
% ensuring that \TeX{} will not be too tolerant of very short lines.
% To keep the design clear here, no default values are relied on even
% though this would make the instance declarations shorter.
% \begin{macrocode}
\DeclareInstance { justification } { ragged-left } { std }
{
end-skip = 0pt ,
fixed-word-spacing = true ,
indent-width = 0pt ,
left-skip = 0pt plus 2em ,
right-skip = 0pt
}
\DeclareInstance { justification } { ragged-right } { std }
{
end-skip = 0pt plus 1fil ,
fixed-word-spacing = true ,
indent-width = 0pt ,
left-skip = 0pt ,
right-skip = 0pt plus 2em
}
% \end{macrocode}
% The \texttt{center} instance is used to center material with minimal
% hyphenation.
% \begin{macrocode}
\DeclareInstance { justification } { center } { std }
{
end-skip = 0pt ,
fixed-word-spacing = true ,
indent-width = 0pt ,
left-skip = 0pt plus 1fil ,
right-skip = 0pt plus 1fil
}
% \end{macrocode}
%
% \begin{macro}{\@@_justification_first:, \@@_justification_other:}
% A second form of justification template is the case where the first
% paragraph is different from all of the others. This is set up by
% getting the justification to reset itself after the first paragraph.
% The code built into the \texttt{std} version will ensure that any
% subsequent template use will over-ride the setting here correctly.
% \begin{macrocode}
\DeclareTemplateInterface { justification } { compound } { 0 }
{
first-paragraph : instance { justification } ,
other-paragraphs : instance { justification }
}
\DeclareTemplateCode { justification } { compound } { 0 }
{
first-paragraph = \@@_justification_first: ,
other-paragraphs = \@@_justification_other:
}
{
\AssignTemplateKeys
\@@_justification_first:
\tl_set:Nn \l_@@_justification_other_tl
{ \@@_justification_other: }
\tl_gput_right:Nn \g_galley_restore_running_tl
{ \l_@@_justification_other_tl }
}
% \end{macrocode}
% \end{macro}
%
% How \TeX{} breaks text into lines is influences by a number of
% parameters, most of which are not actually likely to change. These
% work with the \texttt{hyphenation} but are independent of whether
% any hyphenation is actually active. The math values here could be
% set up as a separate template, but in practice this seems likely to
% be overkill.
% \begin{macrocode}
\DeclareObjectType { line-breaking } { 0 }
% \end{macrocode}
% The only template provided for line breaking is a simple interface to
% \TeX{}'s parameters. There is not really much that can be added to this:
% after all, the way that penalties work is more or less arbitrary but
% works well! The default values given here are intended to be sensible
% for a lot of cases.
% \begin{macrocode}
\DeclareTemplateInterface { line-breaking } { std } { 0 }
{
badness : integer = 1000 ,
binop-penalty : integer = 700 ,
double-hyphen-demerits : integer = 10000 ,
emergency-stretch : skip = 0pt ,
final-hyphen-demerits : integer = 5000 ,
fuzz : length = 0.1pt ,
line-penalty : integer = 10 ,
mismatch-demerits : integer = 10000 ,
pretolerance : integer = 100 ,
relation-penalty : integer = 500 ,
tolerance : integer = 200
}
\DeclareTemplateCode{ line-breaking } { std } { 0 }
{
badness = \l_galley_linebreak_badness_int ,
binop-penalty = \l_@@_binop_penalty_int ,
double-hyphen-demerits = \l_galley_double_hyphen_demerits_int ,
emergency-stretch = \l_galley_emergency_stretch_skip ,
final-hyphen-demerits = \l_galley_final_hyphen_demerits_int ,
fuzz = \l_galley_linebreak_fuzz_dim ,
line-penalty = \l_@@_linebreak_penalty_int ,
mismatch-demerits = \l_galley_mismatch_demerits_int ,
pretolerance = \l_galley_linebreak_pretolerance_int ,
relation-penalty = \l_@@_relation_penalty_int ,
tolerance = \l_galley_linebreak_tolerance_int
}
{ \AssignTemplateKeys }
% \end{macrocode}
% The default values are set such that they are suitable for good
% quality typesetting. So the standard template changes nothing at
% all from the template. This instance should also be applied now,
% as it will then apply to the entire document unless changed
% deliberately.
% \begin{macrocode}
\DeclareInstance { line-breaking } { std } { std } { }
\UseInstance { line-breaking } { std }
% \end{macrocode}
%
% \subsection{Between paragraphs}
%
% \begin{variable}
% {
% \l_@@_club_penalty_int ,
% \l_@@_display_club_penalty_int ,
% \l_@@_display_widow_penalty_int ,
% \l_@@_interline_penalty_int ,
% \l_@@_widow_penalty_int
% }
% The second object here sets up how \TeX{} acts to break paragraphs at
% page boundaries. As with the \texttt{line-breaking} object, there is not
% much to do except provide an interface to the \TeX{} internals. The
% \texttt{std} template does \emph{not} make the \eTeX{} array nature of
% various penalties available.
% \begin{macrocode}
\DeclareObjectType { paragraph-breaking } { 0 }
\DeclareTemplateInterface { paragraph-breaking } { std } { 0 }
{
badness : integer = 1000 ,
broken-penalty : integer = 100 ,
club-penalty : integer = 150 ,
display-club-penalty : integer = 150 ,
display-widow-penalty : integer = 150 ,
fuzz : length = 0.1pt ,
interline-penalty : integer = 0 ,
post-display-penalty : integer = 0 ,
pre-display-penalty : integer = 10000 ,
widow-penalty : integer = 150
}
\DeclareTemplateCode { paragraph-breaking } { std } { 0 }
{
badness = \l_galley_parbreak_badness_int ,
broken-penalty = \l_@@_broken_penalty_int ,
club-penalty = \l_@@_club_penalty_int ,
display-club-penalty = \l_@@_display_club_penalty_int ,
display-widow-penalty = \l_@@_display_widow_penalty_int ,
fuzz = \l_galley_parbreak_fuzz_dim ,
interline-penalty = \l_@@_interline_penalty_int ,
post-display-penalty = \l_@@_post_display_penalty_int ,
pre-display-penalty = \l_@@_pre_display_penalty_int ,
widow-penalty = \l_@@_widow_penalty_int
}
{
\AssignTemplateKeys
\galley_club_penalties_set:V \l_@@_club_penalty_int
\galley_display_club_penalties_set:V \l_@@_display_club_penalty_int
\galley_display_widow_penalties_set:V \l_@@_display_widow_penalty_int
\galley_interline_penalty_set:n \l_@@_interline_penalty_int
\galley_widow_penalties_set:V \l_@@_widow_penalty_int
}
% \end{macrocode}
% \end{variable}
% The standard instance of the \texttt{paragraph-breaking} object simply
% applies the defaults: this is used.
% \begin{macrocode}
\DeclareInstance { paragraph-breaking } { std } { std } { }
\UseInstance { paragraph-breaking } { std }
% \end{macrocode}
% Two additional instances are provided: one to prevent any breaks
% at all, and a second to prevent any widow or club lines.
% \begin{macrocode}
\DeclareInstance { paragraph-breaking } { nobreak } { std }
{
interline-penalty = 10 000 ,
post-display-penalty = 10 000
}
\DeclareInstance { paragraph-breaking } { nolone } { std }
{
club-penalty = 10 000 ,
display-club-penalty = 10 000 ,
display-widow-penalty = 10 000 ,
widow-penalty = 10 000
}
% \end{macrocode}
% \begin{variable}
% {
% \l_@@_parbreak_badness_tl ,
% \l_@@_broken_penalty_tl ,
% \l_@@_club_penalties_tl ,
% \l_@@_display_club_penalties_tl ,
% \l_@@_display_widow_penalties_tl ,
% \l_@@_parbreak_fuzz_tl ,
% \l_@@_interline_penalty_tl ,
% \l_@@_post_display_penalty_tl ,
% \l_@@_pre_display_penalty_tl ,
% \l_@@_widow_penalties_tl ,
% \c_@@_parbreak_multi_seq ,
% \c_@@_parbreak_single_seq
% }
% There is also a version of this code which applies only to one
% paragraph. This is done by storing the input in token list variables
% with no default: only explicit settings will be picked up.
% \begin{macrocode}
\DeclareTemplateInterface { paragraph-breaking } { single } { 0 }
{
badness : tokenlist ,
broken-penalty : tokenlist ,
club-penalty : tokenlist ,
display-club-penalty : tokenlist ,
display-widow-penalty : tokenlist ,
fuzz : tokenlist ,
interline-penalty : tokenlist ,
post-display-penalty : tokenlist ,
pre-display-penalty : tokenlist ,
widow-penalty : tokenlist
}
\DeclareTemplateCode { paragraph-breaking } { single } { 0 }
{
badness = \l_@@_parbreak_badness_tl ,
broken-penalty = \l_@@_broken_penalty_tl ,
club-penalty = \l_@@_club_penalties_tl ,
display-club-penalty = \l_@@_display_club_penalties_tl ,
display-widow-penalty = \l_@@_display_widow_penalties_tl ,
fuzz = \l_@@_parbreak_fuzz_tl ,
interline-penalty = \l_@@_interline_penalty_tl ,
post-display-penalty = \l_@@_post_display_penalty_tl ,
pre-display-penalty = \l_@@_pre_display_penalty_tl ,
widow-penalty = \l_@@_widow_penalties_tl
}
{
\AssignTemplateKeys
% \end{macrocode}
% The fuzz and interline penalties are handled explicitly as they have
% particular requirements.
% \begin{macrocode}
\tl_if_empty:NF \l_@@_interline_penalty_tl
{
\tl_gput_right:Nx \g_galley_par_reset_hook_tl
{
\int_set:Nn \exp_not:N \l_@@_interline_penalty_int
{ \galley_interline_penalty: }
}
\int_set:Nn \l_@@_interline_penalty_int
{ \l_@@_interline_penalty_tl }
}
\tl_if_empty:NF \l_@@_parbreak_fuzz_tl
{
\tl_gput_right:Nx \g_galley_par_reset_hook_tl
{
\dim_set:Nn \exp_not:N \l_galley_parbreak_fuzz_dim
{ \dim_use:N \l_galley_parbreak_fuzz_dim }
}
\dim_set:Nn \l_galley_parbreak_fuzz_dim { \l_@@_parbreak_fuzz_tl }
}
% \end{macrocode}
% For the single integer penalties, a simple check is needed to save the
% value.
% \begin{macrocode}
\seq_map_inline:Nn \c_@@_parbreak_single_seq
{
\tl_if_empty:cF { l_galley_ ##1 _tl }
{
\tl_gput_right:Nx \g_galley_par_reset_hook_tl
{
\int_set:Nn \exp_not:c { l_galley_ ##1 _int }
{ \int_use:c { l_galley_ ##1 _int } }
}
\int_set:cn { l_galley_ ##1 _int }
{ \tl_use:c { l_galley_ ##1 _tl } }
}
}
% \end{macrocode}
% A bit more complex for the array penalties. Although the interface here
% does not expose the arrays, it is necessary to correctly save them.
% We suspend debugging to allow an assignment to a constant.
% \begin{macrocode}
\seq_map_inline:Nn \c_@@_parbreak_multi_seq
{
\tl_if_empty:cF { l_galley_ ##1 _tl }
{
\use:c { galley_save_ ##1 :N } \l_@@_tmpa_clist
\tl_gput_right:Nx \g_galley_par_reset_hook_tl
{
\exp_not:c { galley_set_ ##1 :n }
{ \exp_not:o \l_@@_tmpa_clist }
}
\use:c { galley_set_ ##1 :v } { l_galley_ ##1 _tl }
}
}
}
\seq_const_from_clist:Nn \c_@@_parbreak_multi_seq
{
club_penalties ,
display_club_penalties ,
display_widow_penalties ,
widow_penalties ,
}
\seq_const_from_clist:Nn \c_@@_parbreak_single_seq
{
parbreak_badness ,
broken_penalty ,
post_display_penalty ,
pre_display_penalty ,
}
% \end{macrocode}
% \end{variable}
% \begin{macrocode}
\DeclareInstance { paragraph-breaking } { single-std } { single } { }
\DeclareInstance { paragraph-breaking } { single-nobreak } { single }
{
interline-penalty = 10 000 ,
post-display-penalty = 10 000
}
\DeclareInstance { paragraph-breaking } { single-noclub } { single }
{
club-penalty = 10 000 ,
display-club-penalty = 10 000
}
\DeclareInstance { paragraph-breaking } { single-nolone } { single }
{
club-penalty = 10 000 ,
display-club-penalty = 10 000 ,
display-widow-penalty = 10 000 ,
widow-penalty = 10 000
}
\DeclareInstance { paragraph-breaking } { single-nowidow } { single }
{
display-widow-penalty = 10 000 ,
widow-penalty = 10 000
}
% \end{macrocode}
%
% \subsection{Templates for display material}
%
% To allow special handling of display-like material, templates are
% needed at the beginning and end of the block which set up any special
% space or breaks. These need to be optional, and so are stored as token
% lists: rather than \enquote{magic} values, empty lists indicate that
% standard settings are to be used. To ensure that the error checking
% needed takes place early, each token list is re-set with the
% appropriate evaluation.
% \begin{macrocode}
\DeclareObjectType { display-begin } { 0 }
\DeclareObjectType { display-end } { 0 }
\DeclareTemplateInterface { display-begin } { std } { 0 }
{
par-penalty : tokenlist ,
par-space : tokenlist ,
penalty : tokenlist ,
space : tokenlist
}
\DeclareTemplateInterface { display-end } { std } { 0 }
{
par-penalty : tokenlist ,
par-space : tokenlist ,
penalty : tokenlist ,
space : tokenlist
}
\DeclareTemplateCode { display-begin } { std } { 0 }
{
par-penalty = \l_galley_display_begin_par_vpenalty_tl ,
par-space = \l_galley_display_begin_par_vspace_tl ,
penalty = \l_galley_display_begin_vpenalty_tl ,
space = \l_galley_display_begin_vspace_tl
}
{
\AssignTemplateKeys
\tl_if_empty:NF \l_galley_display_begin_par_vpenalty_tl
{
\tl_set:Nx \l_galley_display_begin_par_vpenalty_tl
{ \int_eval:n { \l_galley_display_begin_par_vpenalty_tl } }
}
\tl_if_empty:NF \l_galley_display_begin_par_vspace_tl
{
\tl_set:Nx \l_galley_display_begin_par_vspace_tl
{ \skip_eval:n { \l_galley_display_begin_par_vspace_tl } }
}
\tl_if_empty:NF \l_galley_display_begin_vpenalty_tl
{
\tl_set:Nx \l_galley_display_begin_vpenalty_tl
{ \int_eval:n { \l_galley_display_begin_vpenalty_tl } }
}
\tl_if_empty:NF \l_galley_display_begin_vspace_tl
{
\tl_set:Nx \l_galley_display_begin_vspace_tl
{ \skip_eval:n { \l_galley_display_begin_vspace_tl } }
}
}
\DeclareTemplateCode { display-end } { std } { 0 }
{
par-penalty = \l_galley_display_end_par_vpenalty_tl ,
par-space = \l_galley_display_end_par_vspace_tl ,
penalty = \l_galley_display_end_vpenalty_tl ,
space = \l_galley_display_end_vspace_tl
}
{
\AssignTemplateKeys
\tl_if_empty:NF \l_galley_display_end_par_vpenalty_tl
{
\tl_set:Nx \l_galley_display_end_par_vpenalty_tl
{ \int_eval:n { \l_galley_display_end_par_vpenalty_tl } }
}
\tl_if_empty:NF \l_galley_display_end_par_vspace_tl
{
\tl_set:Nx \l_galley_display_end_par_vspace_tl
{ \skip_eval:n { \l_galley_display_end_par_vspace_tl } }
}
\tl_if_empty:NF \l_galley_display_end_vpenalty_tl
{
\tl_set:Nx \l_galley_display_end_vpenalty_tl
{ \int_eval:n { \l_galley_display_end_vpenalty_tl } }
}
\tl_if_empty:NF \l_galley_display_end_vspace_tl
{
\tl_set:Nx \l_galley_display_end_vspace_tl
{ \skip_eval:n { \l_galley_display_end_vspace_tl } }
}
}
% \end{macrocode}
%
% \begin{macrocode}
%</package>
% \end{macrocode}
%
% \end{implementation}
%
% \PrintIndex
|