% \iffalse meta-comment -- by the way, this file contains UTF-8 % % Copyright (C) 2008-2024 by Hans Hagen, Taco Hoekwater, Elie Roux, % Manuel Pégourié-Gonnard, Philipp Gesang and Kim Dohyun. % Currently maintained by Kim Dohyun. % Support: % % This work is under the GPL v2.0 license. % % This work consists of the main source file luamplib.dtx % and the derived files % luamplib.sty, luamplib.lua and luamplib.pdf. % % Unpacking: % tex luamplib.dtx % % Documentation: % lualatex luamplib.dtx % %<*ignore> \begingroup \def\x{LaTeX2e}% \expandafter\endgroup \ifcase 0\ifx\install y1\fi\expandafter \ifx\csname processbatchFile\endcsname\relax\else1\fi \ifx\fmtname\x\else 1\fi\relax \else\csname fi\endcsname % %<*install> \input docstrip.tex \Msg{************************************************************************} \Msg{* Installation} \Msg{* Package: luamplib - metapost package for LuaTeX.} \Msg{************************************************************************} \keepsilent \askforoverwritefalse \let\MetaPrefix\relax \preamble See source file '\inFileName' for licencing and contact information. \endpreamble \let\MetaPrefix\DoubleperCent \generate{% \usedir{tex/luatex/luamplib}% \file{luamplib.sty}{\from{luamplib.dtx}{package}}% } \def\MetaPrefix{-- } \def\luapostamble{% \MetaPrefix^^J% \MetaPrefix\space End of File `\outFileName'.% } \def\currentpostamble{\luapostamble}% \generate{% \usedir{tex/luatex/luamplib}% \file{luamplib.lua}{\from{luamplib.dtx}{lua}}% } \obeyspaces \Msg{************************************************************************} \Msg{*} \Msg{* To finish the installation you have to move the following} \Msg{* files into a directory searched by TeX:} \Msg{*} \Msg{* luamplib.sty luamplib.lua} \Msg{*} \Msg{* Happy TeXing!} \Msg{*} \Msg{************************************************************************} \endbatchfile % %<*ignore> \fi % %<*driver> \NeedsTeXFormat{LaTeX2e} \ProvidesFile{luamplib.drv}% [2024/11/25 v2.35.1 Interface for using the mplib library]% \documentclass{ltxdoc} \usepackage{metalogo,multicol,xspace} \usepackage[x11names]{xcolor} % \def\primarycolor{DodgerBlue4} %%-> rgb 16 78 139 | #104e8b \def\secondarycolor{Goldenrod4} %%-> rgb 139 105 200 | #8b6914 % \usepackage[ bookmarks=true, colorlinks=true, linkcolor=\primarycolor, urlcolor=\secondarycolor, citecolor=\primarycolor, pdftitle={The luamplib package}, pdfsubject={Interface for using the mplib library}, pdfauthor={Hans Hagen, Taco Hoekwater, Elie Roux, Philipp Gesang \& Kim Dohyun}, pdfkeywords={luatex, lualatex, mplib, metapost} ]{hyperref} \usepackage{fontspec} \setmainfont[ Numbers = OldStyle, Ligatures = TeX, BoldFont = {Linux Libertine O Bold}, ItalicFont = {Linux Libertine O Italic}, SlantedFont = {Linux Libertine O Italic}, ]{Linux Libertine O} \setmonofont[Scale=MatchLowercase]{InconsolataN} %setsansfont[Ligatures=TeX]{Linux Biolinum O} \setsansfont[UprightFont=*Medium,BoldFont=*Heavy,Ligatures=TeX,Scale=MatchLowercase]{Iwona} %setmathfont{XITS Math} \usepackage{hologo} \newcommand\ConTeXt {Con\TeX t\xspace} \newcommand*\email [1] {<\href{mailto:#1}{#1}>} \newcommand \file {\nolinkurl} \newcommand*\metapost {\textsc{metapost}\xspace} \newcommand*\mplib {\pkg{mplib}\xspace} \begin{document} \DocInput{luamplib.dtx}% \end{document} % % \fi % % \CheckSum{0} % % \CharacterTable % {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z % Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z % Digits \0\1\2\3\4\5\6\7\8\9 % Exclamation \! Double quote \" Hash (number) \# % Dollar \$ Percent \% Ampersand \& % Acute accent \' Left paren \( Right paren \) % Asterisk \* Plus \+ Comma \, % Minus \- Point \. Solidus \/ % Colon \: Semicolon \; Less than \< % Equals \= Greater than \> Question mark \? % Commercial at \@ Left bracket \[ Backslash \\ % Right bracket \] Circumflex \^ Underscore \_ % Grave accent \` Left brace \{ Vertical bar \| % Right brace \} Tilde \~} % % \title{The \pkg{luamplib} package} % \author{Hans Hagen, Taco Hoekwater, Elie Roux, Philipp Gesang and Kim Dohyun\\ % Current Maintainer: Kim Dohyun\\ % Support: \url{https://github.com/lualatex/luamplib}} % \date{2024/11/25 v2.35.1} % % \maketitle % % \begin{abstract} % Package to have \metapost code typeset directly in a document with \LuaTeX. % \end{abstract} % % \section{Documentation} % % This package aims at providing a simple way to typeset directly \metapost % code in a document with \LuaTeX. \LuaTeX\ is built with the Lua % \mplib library, that runs \metapost code. This package is basically a % wrapper for the Lua \mplib functions and some \TeX\ % functions to have the output of the \mplib functions in the pdf. % % Using this package is easy: in Plain, type your \metapost code between the % macros \cs{mplibcode} and \cs{endmplibcode}, and in \LaTeX\ in the % |mplibcode| environment. % % The resulting \metapost figures are put in a \TeX\ |hbox| with dimensions % adjusted to the \metapost code. % % The code of luamplib is basically from the |luatex-mplib.lua| and |luatex-mplib.tex| files % from \ConTeXt. They have been adapted to \LaTeX\ and Plain by Elie Roux and % Philipp Gesang and new functionalities have been added by Kim Dohyun. % The most notable changes are: % % \begin{itemize} % \item possibility to use |btex ... etex| to typeset \TeX\ code. % |textext()| is a more versatile macro equivalent to |TEX()| from \pkg{TEX.mp}. % |TEX()| is also allowed and is a synonym of |textext()|. % The argument of % \mplib's primitive |maketext| will also be processed by the same routine. % % \item possibility to use |verbatimtex ... etex|, though it's behavior cannot % be the same as the stand-alone \pkg{mpost}. % Of course you cannot include \cs{documentclass}, \cs{usepackage} etc. % When these \TeX\ commands are found in |verbatimtex ... etex|, the entire code will be % ignored. % The treatment of |verbatimtex| command has changed a lot since v2.20: % see \hyperlink{mpliblegacybehavior}{below \S\,1.1}. % % \item in the past, % the package required PDF mode in order to have some output. % Starting with version 2.7 it works in DVI mode as well, though % DVIPDFMx is the only DVI tool currently supported. % \end{itemize} % % It seems to be convenient to divide the explanations of some more changes and cautions % into three parts: \TeX, \textsc{MetaPost}, and Lua interfaces. % % \subsection{\TeX} % % \paragraph{\cs{mplibforcehmode}} % When this macro is declared, every \metapost figure box will be % typeset in horizontal mode, so \cs{centering}, \cs{raggedleft} etc % will have effects. \cs{mplibnoforcehmode}, being default, reverts this % setting. (Actually these commands redefine \cs{prependtomplibbox}; you % can redefine this command with anything suitable before a box.) % % \paragraph{\cs{everymplib\{...\}}, \cs{everyendmplib\{...\}}} % \cs{everymplib} and \cs{everyendmplib} redefine % the lua table containing \metapost code % which will % be automatically inserted at the beginning and ending of each \metapost code chunk. %\begin{verbatim} % \everymplib{ beginfig(0); } % \everyendmplib{ endfig; } % \begin{mplibcode} % % beginfig/endfig not needed % draw fullcircle scaled 1cm; % \end{mplibcode} %\end{verbatim} % % \paragraph{\cs{mplibsetformat\{plain\textbar metafun\}}} % There are (basically) two formats for \metapost: \emph{plain} and % \emph{metafun}. By default, the \emph{plain} format is used, but you can set % the format to be used by future figures at any time using % \cs{mplibsetformat\{\}}. % % \textsc{n.b.} As \emph{metafun} is such a complicated format, % we cannot support all the functionalities producing special effects provided by \emph{metafun}. % At least, however, transparency (actually opacity), shading (gradient colors) and transparency group % are fully supported, % and outlinetext is supported by our own alternative |mpliboutlinetext| % (see \hyperlink{mpliboutlinetext}{below \S\,1.2}). % % \begin{description} % \item[transparency] % (|texdoc metafun| \S\,8.2) Transparency is so simple that you can apply it to an object, % with \emph{plain} format as well as \emph{metafun}, % just by appending |withprescript| |"tr_transparency=|\hskip0pt\relax|"| to the sentence. % ($0 \le \hbox{\emph{}} \le 1$) % % \item[shading] % (|texdoc metafun| \S\,8.3) One thing worth mentioning about shading is: % when a color expression is given in string type, % it is regarded by luamplib as % a color expression of \TeX\ side. % For instance, when |withshadecolors("orange", 2/3red)| is given, the first color |"orange"| will be % interpreted as a \pkg{color}, \pkg{xcolor} or \pkg{l3color}'s expression. % % \item[transparency group] % \hypertarget{metafunformat}{}\relax % (|texdoc metafun| \S\,8.8) % As for transparency group, the current \emph{metafun} document is not correct. % The true syntax is: %\begin{verbatim} % draw | asgroup %\end{verbatim} % where \emph{} should be |""| (empty), |"isolated"|, |"knockout"|, or |"isolated,knockout"|. % Beware that currently many of the PDF rendering applications, except Adobe Acrobat Reader, % cannot properly render the isolated or knockout effect. % Transparency group is available with \emph{plain} format as well, with extended functionality. % See \hyperlink{transparencygroup}{below \S\,1.2}. % \end{description} % % \paragraph{\cs{mplibnumbersystem\{scaled\textbar double\textbar decimal\}}} % Users can choose |numbersystem| option. % The default value is |scaled|, which can be changed % by declaring \cs{mplibnumbersystem\{double\}} or % \cs{mplibnumbersystem\{decimal\}}. % % \paragraph{\cs{mplibshowlog\{enable\textbar disable\}}} % Default: |disable|. % When \cs{mplibshowlog\{enable\}}\footnote{As for user's setting, % |enable|, |true| and |yes| are identical; % |disable|, |false| and |no| are identical.} is declared, log messages returned by % the \metapost process will be printed to the |.log| file. % This is the \TeX{} side interface for |luamplib.showlog|. % % \paragraph{\cs{mpliblegacybehavior\{enable\textbar disable\}}} % \hypertarget{mpliblegacybehavior}{}\relax % By default, \cs{mpliblegacybehavior\{enable\}} % is already declared for backward compatibility, % in which case \TeX\ code in % |verbatimtex| |...| |etex| that comes just before |beginfig()| % will be inserted before the % following \metapost figure box. In this way, % each figure box can be freely moved horizontally or vertically. % Also, a box number can be assigned to a figure box, allowing it to be % reused later. %\begin{verbatim} % \mplibcode % verbatimtex \moveright 3cm etex; beginfig(0); ... endfig; % verbatimtex \leavevmode etex; beginfig(1); ... endfig; % verbatimtex \leavevmode\lower 1ex etex; beginfig(2); ... endfig; % verbatimtex \endgraf\moveright 1cm etex; beginfig(3); ... endfig; % \endmplibcode %\end{verbatim} % \textsc{n.b.} \cs{endgraf} should be used instead of \cs{par} inside % |verbatimtex ... etex|. % % On the other hand, \TeX\ code in |verbatimtex ... etex| % between |beginfig()| and |endfig| will be inserted % after flushing out the \metapost figure. % As shown in the example below, |VerbatimTeX()| is a synonym of |verbatimtex| |...| |etex|. %\begin{verbatim} % \mplibcode % D := sqrt(2)**7; % beginfig(0); % draw fullcircle scaled D; % VerbatimTeX("\gdef\Dia{" & decimal D & "}"); % endfig; % \endmplibcode % diameter: \Dia bp. %\end{verbatim} % % By contrast, % when \cs{mpliblegacybehavior\{disable\}} is declared, any % |verbatimtex| |...| |etex| will be executed, along with |btex| |...| |etex|, % sequentially one by one. % So, some \TeX\ code in |verbatimtex ... etex| will have effects on % following |btex| |...| |etex| codes. %\begin{verbatim} % \begin{mplibcode} % beginfig(0); % draw btex ABC etex; % verbatimtex \bfseries etex; % draw btex DEF etex shifted (1cm,0); % bold face % draw btex GHI etex shifted (2cm,0); % bold face % endfig; % \end{mplibcode} %\end{verbatim} % % \paragraph{\cs{mplibtextextlabel\{enable\textbar disable\}}} % Default: |disable|. % \cs{mplibtextextlabel\{enable\}} enables % the labels typeset via |textext| instead of |infont| operator. % So, |label("my text",origin)| thereafter is exactly the same as % |label(textext("my text"),origin)|. % % \textsc{n.b.} In the background, % luamplib redefines |infont| operator so that the right side % argument (the font part) is totally ignored. Therefore the left side arguemnt (the text part) % will be typeset with the current \TeX\ font. % % From v2.35, however, the redefinition of |infont| operator has been revised: % when the character slot of the text argument is less than $32$~(control characters), % or is equal to $35$~(|#|), $36$~(|$|), \iffalse |$|\fi % $37$~(|%|), $38$~(|&|), $92$~(|\|), $94$~(|^|), % $95$~(|_|), $123$~(|{|), $125$~(|}|), $126$~(|~|) or $127$~(DEL), % the original |infont| operator will be used instead of |textext| operator % so that the font part will be honored. % Despite the revision, please take care of |char| operator in the text argument, % as this might bring unpermitted characters into \TeX. % % \paragraph{\cs{mplibcodeinherit\{enable\textbar disable\}}} % Default: |disable|. % \cs{mplibcodeinherit\{enable\}} enables the inheritance % of variables, constants, and macros defined by previous \metapost code chunks. % On the contrary, \cs{mplibcodeinherit\{disable\}} will make % each code chunk being treated as an independent instance, never % affected by previous code chunks. % % \paragraph{Separate \metapost instances} % luamplib v2.22 has added the support for several named \metapost instances % in \LaTeX{} |mplibcode| environment. % Plain \TeX\ users also can use this functionality. % The syntax for \LaTeX\ is: %\begin{verbatim} % \begin{mplibcode}[instanceName] % % some mp code % \end{mplibcode} %\end{verbatim} % The behavior is as follows. % \begin{itemize} % \item All the variables and functions are shared % only among all the environments belonging to the same instance. % \item \cs{mplibcodeinherit} only affects environments % with no instance name set (since if a name is set, % the code is intended to be reused at some point). % \item |btex ... etex| boxes are also shared and do not % require \cs{mplibglobaltextext}. % \item When an instance names is set, % respective \cs{currentmpinstancename} is set as well. % \end{itemize} % In parellel with this functionality, we support % optional argument of instance name for \cs{everymplib} and % \cs{everyendmplib}, affecting only those |mplibcode| environments % of the same name. % Unnamed \cs{everymplib} affects not only those instances with no name, % but also those with name but with no corresponding \cs{everymplib}. % The syntax is: %\begin{verbatim} % \everymplib[instanceName]{...} % \everyendmplib[instanceName]{...} %\end{verbatim} % % \paragraph{\cs{mplibglobaltextext\{enable\textbar disable\}}} % Default: |disable|. % Formerly, to inherit |btex| |...| |etex| boxes as well as other \metapost macros, variables and constants, % it was necessary to declare \cs{mplibglobaltextext\{enable\}} in advance. % But from v2.27, this is implicitly enabled when \cs{mplibcodeinherit} % is enabled. % This optional command still remains mostly for backward compatibility. %\begin{verbatim} % \mplibcodeinherit{enable} % %\mplibglobaltextext{enable} % \everymplib{ beginfig(0);} \everyendmplib{ endfig;} % \mplibcode % label(btex $\sqrt{2}$ etex, origin); % draw fullcircle scaled 20; % picture pic; pic := currentpicture; % \endmplibcode % \mplibcode % currentpicture := pic scaled 2; % \endmplibcode %\end{verbatim} % % \paragraph{\cs{mplibverbatim\{enable\textbar disable\}}} % Default: |disable|. % Users can issue \cs{mplibverbatim\{enable\}}, after which % the contents of mplibcode environment will be read verbatim. As a result, % except for \cs{mpdim} and \cs{mpcolor} (see \hyperlink{mpdim}{below}), % all other \TeX\ commands outside of the % |btex| or |verbatimtex| |...| |etex| are not expanded and will be fed % literally to the \mplib library. % % \paragraph{\cs{mpdim\{...\}}} % \hypertarget{mpdim}{}\relax % Besides other \TeX\ commands, \cs{mpdim} is specially allowed % in the mplibcode environment. This feature is inpired by \pkg{gmp} package authored by % Enrico Gregorio. Please refer to the manual of \pkg{gmp} package for details. %\begin{verbatim} % \begin{mplibcode} % beginfig(1) % draw origin--(.6\mpdim{\linewidth},0) withpen pencircle scaled 4 % dashed evenly scaled 4 withcolor \mpcolor{orange}; % endfig; % \end{mplibcode} %\end{verbatim} % % \paragraph{\cs{mpcolor[...]\{...\}}} % With \cs{mpcolor} command, color names or expressions of % \pkg{color}, \pkg{xcolor} and \pkg{l3color} module/packages can be used in the mplibcode % environment (after |withcolor| operator). % See the example \hyperlink{mpdim}{above}. % The optional |[...]| denotes the option of \pkg{xcolor}'s \cs{color} command. % For spot colors, \pkg{l3color} (in PDF/DVI mode), % \pkg{colorspace}, \pkg{spotcolor} % (in PDF mode) and \pkg{xespotcolor} (in DVI mode) packages are supported % as well. % % \paragraph{\cs{mpfig} \ldots\ \cs{endmpfig}} % Besides the |mplibcode| environment (for \LaTeX) and % \cs{mplibcode ...} \cs{endmplibcode} (for Plain), % we also provide unexpandable \TeX\ macros \cs{mpfig} |...| \cs{endmpfig} and its starred version % \cs{mpfig*} |...| \cs{endmpfig} to save typing toil. % The former is roughly the same as follows: %\begin{verbatim} % \begin{mplibcode}[@mpfig] % beginfig(0) % token list declared by \everymplib[@mpfig] % ... % token list declared by \everyendmplib[@mpfig] % endfig; % \end{mplibcode} %\end{verbatim} % and the starred version is roughly the same as follows: %\begin{verbatim} % \begin{mplibcode}[@mpfig] % ... % \end{mplibcode} %\end{verbatim} % In these macros \cs{mpliblegacybehavior\{disable\}} % is forcibly declared. % Again, as both share the same instance name, \metapost codes are inherited among them. % A simple example: %\begin{verbatim} % \everymplib[@mpfig]{ drawoptions(withcolor .5[red,white]); } % \mpfig* input boxes \endmpfig % \mpfig % circleit.a(btex Box 1 etex); drawboxed(a); % \endmpfig %\end{verbatim} % The instance name (default: |@mpfig|) can be changed by redefining % \cs{mpfiginstancename}, after which a new \mplib instance will start and % code inheritance too will begin anew. \cs{let}\cs{mpfiginstancename}\cs{empty} will % prevent code inheritance if \cs{mplibcodeinherit\{true\}} is not declared. % % \paragraph{About cache files} % To support |btex ... etex| in external |.mp| files, luamplib % inspects the content of each and every |.mp| file and makes caches % if nececcsary, before returning their paths to \LuaTeX's \mplib library. % This could waste the compilation time, as most |.mp| files % do not contain |btex ... etex| commands. So luamplib provides % macros as follows, so that users can give instructions about files % that do not require this functionality. % \begin{itemize} % \item \cs{mplibmakenocache\{[,,...]\}} % \item \cs{mplibcancelnocache\{[,,...]\}} % \end{itemize} % where || is a filename excluding |.mp| extension. % Note that |.mp| files under |$TEXMFMAIN/metapost/base| and % |$TEXMFMAIN/metapost/context/base| are already registered by default. % % By default, cache files will be stored in |$TEXMFVAR/luamplib_cache| or, % if it's not available (mostly not writable), % in the directory where output files are saved: % to be specific, |$TEXMF_OUTPUT_DIRECTORY/luamplib_cache|, % |./luamplib_cache|, |$TEXMFOUTPUT/luamplib_cache|, and |.|, in this order. % |$TEXMF_OUTPUT_DIRECTORY| is normally the value of |--output-directory| % command-line option. % % Users can change this behavior by the command % \cs{mplibcachedir\{\}}, where tilde (|~|) is interpreted % as the user's home directory (on a windows machine as well). % As backslashes (\cs{}) should be escaped by users, it would be easier to use % slashes (|/|) instead. % % \paragraph{About figure box metric} % Notice that, after each figure is processed, the macro \cs{MPwidth} stores % the width value of the latest figure; \cs{MPheight}, the height value. % Incidentally, also note that \cs{MPllx}, \cs{MPlly}, \cs{MPurx}, and % \cs{MPury} store the bounding box information of the latest figure % without the unit |bp|. % % \paragraph{luamplib.cfg} % At the end of package loading, luamplib searches % |luamplib.cfg| and, if found, reads the file in automatically. % Frequently used settings such as \cs{everymplib}, \cs{mplibforcehmode} % or \cs{mplibcodeinherit} are suitable for going into this file. % % \paragraph{Tagged PDF} % When \pkg{tagpdf} package is loaded and activated, |mplibcode| environment accepts additional options for tagged PDF\@. % The code related to this functionality is currently in experimental stage, not guaranteeing backward compatibility. % Like the \LaTeX's |picture| environment, % available optional keys are |tag|, |alt|, |actualtext|, |artifact|, |debug| and |correct-BBox| % (|texdoc| |latex-lab-graphic|). % Additionally, luamplib provides its own |text| key. % \begin{description} % \item[|tag=...|] You can choose a tag name, default value being |Figure|. % BBox info will be added automatically to the PDF % unless the value is |artifact|, |text|, or |false|. % When the value is |false|, tagging is deactivated. % \item[|debug|] draws bounding box of the figure for checking, which you can correct % by |correct-BBox| key with space-separated four dimen values. % \item[|alt=...|] sets an alternative text of the figure as given. % This key is needed for ordinary \metapost figures. % You can give alternative text within \metapost code as well: % |VerbatimTeX| |("\mplibalttext{...}");| % \item[|artifact|] starts an |artifact| MC (marked content). % BBox info will not be added. % This key is intended for decorative figures which have no semantic quality. % \item[|actualtext=...|] starts a |Span| tag implicitly and sets an actual text as given. % Horizontal mode is forced by \cs{noindent} command. BBox info will not be added. % This key is intended for figures which can be represented by a character or % a small sequence of characters. % You can give actual text within \metapost code as well: % |VerbatimTeX| |("\mplibactualtext{...}");| % \item[|text|] starts an |artifact| MC and enables tagging on textext % (the same as |btex| |...| |etex|) boxes. % Horizontal mode is forced by \cs{noindent} command. BBox info will not be added. % This key is intended for figures made mostly of textext boxes. % Inside text-keyed figures, reusing textext boxes is strongly discouraged. % \end{description} % These keys are provided also for \cs{mpfig} and \cs{usemplibgroup} (see \hyperlink{usemplibgroup}{below}) commands. %\begin{verbatim} % \begin{mplibcode}[myInstanceName, alt=figure drawing a circle] % ... % \end{mplibcode} % % \mpfig[alt=figure drawing a square box] % ... % \endmpfig % % \usemplibgroup[alt=figure drawing a triangle]{...} % % \mppattern{...} % see below % \mpfig[tag=false] % do not tag this figure % ... % \endmpfig % \endmppattern %\end{verbatim} % As for the instance name of |mplibcode| environment, % |instance=...| or |instancename=...| is also allowed % in addition to the raw instance name as shown above. % % % \subsection{\textsc{MetaPost}} % % \paragraph{\texttt{mplibdimen(...)}, \texttt{mplibcolor(...)}} % These are \metapost interfaces for the \TeX\ commands % \cs{mpdim} and \cs{mpcolor} (see \hyperlink{mpdim}{above}). For example, % |mplibdimen("\linewidth")| is basically the same as \cs{mpdim\{\cs{linewidth}\}}, and % |mplibcolor("red!50")| is basically the same as \cs{mpcolor\{red!50\}}. % The difference is that these \metapost operators can also be used in external |.mp| files, % which cannot have \TeX\ commands outside of the |btex| or |verbatimtex| |...| |etex|. % % \paragraph{\texttt{mplibtexcolor ...}, \texttt{mplibrgbtexcolor ...}} % |mplibtexcolor|, which accepts a string argument, is a \metapost operator that converts a \TeX\ color expression % to a \metapost color expression, that can be used anywhere color expression is expected % as well as after the |withcolor| operator. % For instance: %\begin{verbatim} % color col; % col := mplibtexcolor "olive!50"; %\end{verbatim} % But the result may vary in its color model (gray/rgb/cmyk) % according to the given \TeX\ color. (Spot colors are forced to % cmyk model, so this operator is not recommended for spot colors.) % Therefore the example shown above would raise a \metapost error: % |cmykcolor col;| should have been declared. % By contrast, |mplibrgbtexcolor| \emph{} always returns rgb model expressions. % % \paragraph{\texttt{mplibgraphictext ...}} % |mplibgraphictext| is a \metapost operator, the effect of which is similar to that of % \ConTeXt's |graphictext| or our own |mpliboutlinetext| % (see \hyperlink{mpliboutlinetext}{below}). % However the syntax is somewhat different. %\begin{verbatim} % mplibgraphictext "Funny" % fakebold 2.3 % fontspec option % drawcolor .7blue fillcolor "red!50" % color expressions %\end{verbatim} % |fakebold|, |drawcolor| and |fillcolor| are optional; % default values are |2|, |"black"| and |"white"| respectively. % When the color expressions are given in string type, they are regarded as % \pkg{color}, \pkg{xcolor} or \pkg{l3color}'s expressions. % All from |mplibgraphictext| to the end of sentence will compose an % anonymous |picture|, which can be drawn or assigned to a variable. % Incidentally, |withdrawcolor| and |withfillcolor| are synonyms of % |drawcolor| and |fillcolor|, hopefully to be compatible with |graphictext|. % % \textsc{n.b.} % In some cases, |mplibgraphictext| will produce better results than \ConTeXt\ % or even than our own |mpliboutlinetext|, % especially when processing complicated \TeX\ code % such as the vertical writing in Chinese or Japanese. % However, because the implementation is quite different from others, % there are some limitations such that you can't % apply shading (gradient colors) to the text. Again, % in DVI mode, \pkg{unicode-math} package is needed for math formula, % as we cannot embolden type1 fonts in DVI mode. % % \paragraph{\texttt{mplibglyph ... of ...}} % From v2.30, we provide a new \metapost operator |mplibglyph|, which returns a \metapost picture % containing outline paths of a glyph in opentype, truetype or type1 fonts. % When a type1 font is specified, \metapost primitive |glyph| will be called. %\begin{verbatim} % mplibglyph 50 of \fontid\font % slot 50 of current font % mplibglyph "Q" of "TU/TeXGyrePagella(0)/m/n/10" % font csname % mplibglyph "Q" of "texgyrepagella-regular.otf" % raw filename % mplibglyph "Q" of "Times.ttc(2)" % subfont number % mplibglyph "Q" of "SourceHanSansK-VF.otf[Regular]" % instance name %\end{verbatim} % Both arguments before and after of ``|of|'' can be either a number or a string. % Number arguments are regarded as a glyph slot (GID) and a font id number, repectively. % String argument at the left side is regarded as a glyph name in the font or a unicode character. % String argument at the right side is regarded as a \TeX\ font csname (without backslash) or % the raw filename of a font. When it is a font filename, a number within parentheses % after the filename denotes a % subfont number (starting from zero) of a TTC font; a string within brackets denotes % an instance name of a variable font. % % \paragraph{\texttt{mplibdrawglyph ...}} % The picture returned by |mplibglyph| will be quite similar to the result of |glyph| primitive in its structure. % So, \metapost's |draw| command will fill the inner path of the picture with the background color. % In contrast, |mplibdrawglyph| \emph{} command fills the paths according to the nonzero winding % number rule. As a result, for instance, the area surrounded by inner path of ``O'' % will remain transparent. % % \leavevmode\llap{\textcolor{red}{☞}\kern1.2\parindent}\relax % To apply the nonzero winding number rule to a picture containing paths, % luamplib appends |withpostscript| |"collect"| % to the paths except the last one in the picture. % If you want the even-odd rule instead, you can, with \emph{plain} format as well, % additionally declare |withpostscript| |"evenodd"| to the last path in the picture. % % \paragraph{\texttt{mpliboutlinetext (...)}} % \hypertarget{mpliboutlinetext}{}\relax % From v2.31, a new \metapost operator |mpliboutlinetext| is available, which mimicks % \emph{metafun}'s |outlinetext|. So the syntax is the same: see the \emph{metafun} % manual \S\,8.7 (|texdoc metafun|). A simple example: %\begin{verbatim} % draw mpliboutlinetext.b ("$\sqrt{2+\alpha}$") % (withcolor \mpcolor{red!50}) % (withpen pencircle scaled .2 withcolor red) % scaled 2 ; %\end{verbatim} % After the process, |mpliboutlinepic[]| % and |mpliboutlinenum| will be preserved as global variables; % |mpliboutlinepic[1]| |...| |mpliboutlinepic[mpliboutlinenum]| % will be an array of images each of which containing a glyph or a rule. % % \textsc{n.b.} As Unicode grapheme cluster is not considered in the array, a unit that must be % a single cluster might be separated apart. % % \paragraph{\cs{mppattern\{...\} ...} \cs{endmppattern}, \texttt{... withpattern ...}} % \hypertarget{mppattern}{}\relax % \TeX\ macros % \cs{mppattern\{\}} |...| \cs{endmppattern} define a tiling pattern % associated with the ||. % \metapost operator |withpattern|, the syntax being % \emph{}\,\textbar\,\emph{} |withpattern| \emph{}, % will return a \metapost picture which fills % the given path or text with a tiling pattern of the || % by replicating it horizontally and vertically. % The \emph{textual picture} here means any text typeset by \TeX, mostly the result % of the |btex| command (though technically this is not a true textual picture) % or the |infont| operator. % % An example: %\begin{verbatim} % \mppattern{mypatt} % or \begin{mppattern}{mypatt} % [ % options: see below % xstep = 10, % ystep = 12, % matrix = {0, 1, -1, 0}, % or "0 1 -1 0" % ] % \mpfig % or any other TeX code, % draw (origin--(1,1)) % scaled 10 % withcolor 1/3[blue,white] % ; % draw (up--right) % scaled 10 % withcolor 1/3[red,white] % ; % \endmpfig % \endmppattern % or \end{mppattern} % % \mpfig % draw fullcircle scaled 90 % withpostscript "collect" % ; % draw fullcircle scaled 200 % withpattern "mypatt" % withpen pencircle scaled 1 % withcolor \mpcolor{red!50!blue!50} % withpostscript "evenodd" % ; % \endmpfig %\end{verbatim} % % The available options are listed in Table~\ref{tab:mppatternoptions}. % \begin{table} % \centering % \caption{options for \cs{mppattern}}\label{tab:mppatternoptions} % \begin{tabular}{lll}\hline % Key & Value Type & Explanation\\\hline % |xstep| &\emph{number} & horizontal spacing between pattern cells\\ % |ystep| &\emph{number} & vertical spacing between pattern cells\\ % |xshift| &\emph{number} & horizontal shifting of pattern cells\\ % |yshift| &\emph{number} & vertical shifting of pattern cells\\ % |bbox| &\emph{table} or \emph{string} & |llx|, |lly|, |urx|, |ury| values\kern1pt*\\ % |matrix| &\emph{table} or \emph{string} & |xx|, |yx|, |xy|, |yy| values\kern1pt* or MP transform code\\ % |resources|&\emph{string} & PDF resources if needed\\ % |colored| or |coloured| &\emph{boolean}& |false| for uncolored pattern. default: |true|\\\hline % & & \small *\,in string type, numbers are separated by spaces\\ % \end{tabular} % \end{table} % % For the sake of convenience, the width and height values of tiling patterns will be written down % into the log file. (depth is always zero.) Users can refer to them for option setting. % % As for |matrix| option, \metapost code such as `|rotated 30 slanted .2|' is allowed as well % as string or table of four numbers. You can also set |xshift| and |yshift| % values by using `|shifted|' operator. But when |xshift| or |yshift| option is explicitly % given, they have precedence over the effect of `|shifted|' operator. % % When you use special effects such as transparency in a pattern, % |resources| option is needed: for instance, |resources="/ExtGState 1 0 R"|. % However, as luamplib automatically includes the resources of the current page, this option % is not needed in most cases. % % Option |colored=false| (|coloured| is a synonym of |colored|) will generate an uncolored pattern which shall have no color at all. % Uncolored pattern will be painted later by the color of a \metapost object. % An example: %\begin{verbatim} % \begin{mppattern}{pattnocolor} % [ % colored = false, % matrix = "slanted .3 rotated 30", % ] % \tiny\TeX % \end{mppattern} % % \begin{mplibcode} % beginfig(1) % picture tex; % tex = mpliboutlinetext.p ("\bfseries \TeX"); % for i=1 upto mpliboutlinenum: % j:=0; % for item within mpliboutlinepic[i]: % j:=j+1; % draw pathpart item scaled 10 % if j < length mpliboutlinepic[i]: % withpostscript "collect" % else: % withpattern "pattnocolor" % withpen pencircle scaled 1/2 % withcolor (i/4)[red,blue] % paints the pattern % fi; % endfor % endfor % endfig; % \end{mplibcode} %\end{verbatim} % A much simpler and efficient way to obtain a similar result % (without colorful characters in this example) % is to give a \emph{textual picture} as the operand of |withpattern|: %\begin{verbatim} % \begin{mplibcode} % beginfig(2) % picture pic; % pic = mplibgraphictext "\bfseries\TeX" % fakebold 1/2 % fillcolor 1/3[red,blue] % paints the pattern % drawcolor 2/3[red,blue] % scaled 10 ; % draw pic withpattern "pattnocolor" ; % endfig; % \end{mplibcode} %\end{verbatim} % % \paragraph{\texttt{... withfademethod ...}} % This is a \metapost operator which makes the color of an object gradiently transparent. % The syntax is \emph{}\texttt{\textbar}\emph{} |withfademethod| \emph{}, % the latter being either |"linear"| or |"circular"|. % Though it is similar to the |withshademethod| from \emph{metafun}, % the differences are: (1) the operand of |withfademethod| can be a picture as well as a path; % (2) you cannot make gradient colors, but can only make gradient opacity. % % Related macros to control optional values are: % \begin{description} % \let\bfseries\relax % \item [|withfadeopacity (|\emph{number, number}|)|] % sets the starting opacity and the ending opacity, default value being |(1,0)|. % `|1|' denotes full color; `|0|' full transparency. % \item [|withfadevector (|\emph{pair, pair}|)|] % sets the starting and ending points. Default value in the linear mode is % |(llcorner p, lrcorner p)|, where |p| is the operand, % meaning that fading starts from the left edge and ends at the right edge. % Default value in the circular mode is |(center p, center p)|, which means % centers of both starting and ending circles are the center of the bounding box. % \item [|withfadecenter|] is a synonym of |withfadevector|. % \item [|withfaderadius (|\emph{number, number}|)|] % sets the radii of starting and ending circles. This is no-op in the linear mode. % Default value is |(0, abs(center p - urcorner p))|, meaning that fading starts from the % center and ends at the four corners of the bounding box. % \item [|withfadebbox (|\emph{pair, pair}|)|] % sets the bounding box of the fading area, default value being |(llcorner p, urcorner p)|. % Though this option is not needed in most cases, there could be cases when users want to % explicitly control the bounding box. % Particularly, see the description \hyperlink{withgroupbbox}{below} % on the analogous macro |withgroupbbox|. % \end{description} % An example: %\begin{verbatim} % \mpfig % picture mill; % mill = btex \includegraphics[width=100bp]{mill} etex; % draw mill % withfademethod "circular" % withfadecenter (center mill, center mill) % withfaderadius (20, 50) % withfadeopacity (1, 0) % ; % \endmpfig %\end{verbatim} % % \paragraph{\texttt{... asgroup ...}} % \hypertarget{transparencygroup}{}\relax % As said \hyperlink{metafunformat}{before}, % transparency group is available with \emph{plain} as well as \emph{metafun} format. % The syntax is exactly the same: % \emph{} \textbar\ \emph{} |asgroup| % |""| \textbar\ |"isolated"| \textbar\ |"knockout"| \textbar\ |"isolated,knockout"|, % which will return a \metapost picture. % It is called \emph{Transparency Group} because the objects contained in the group are composited % to produce a single object, so that outer transparency effect, if any, % will be applied to the group as a whole, not to the individual objects cumulatively. % % The additional feature provided by luamplib is that % you can reuse the group as many times as you want % in the \TeX{} code or in other \metapost code chunks, % with infinitesimal increase in the size of PDF file. % For this functionality we provide \TeX{} and \metapost macros as follows: % \begin{description} % \let\bfseries\relax % \item[|withgroupname| \emph{}] associates a transparency group with the given name. % When this is not appended to the sentence with |asgroup| operator, % the default group name `|lastmplibgroup|' will be used. % % \item[\cs{usemplibgroup\{...\}}] % \hypertarget{usemplibgroup}{}\relax % is a \TeX\ command to reuse a transparency group of the name % once used. % Note that the position of the group will be origin-based: % in other words, lower-left corner of the group will be shifted to the origin. % % \item[|usemplibgroup| \emph{}] is a \metapost command which will add % a transparency group of the name to the |currentpicture|. % Contrary to the \TeX\ command just mentioned, % the position of the group is the same as the original transparency group. % % \item[|withgroupbbox (|\emph{pair}|,|\emph{pair}|)|] % \hypertarget{withgroupbbox}{}\relax % sets the bounding box of the transparency group, % default value being |(llcorner p, urcorner p)|. % This option might be needed especially when you draw with a thick pen % a path that touches the boundary; % you would probably want to append to the sentence % `|withgroupbbox| |(bot| |lft| |llcorner| |p,| |top| |rt| |urcorner| |p)|', % supposing that the pen was selected by the |pickup| command. % % \end{description} % An example showing the difference between the \TeX\ and \metapost commands: %\begin{verbatim} % \mpfig % draw image( % fill fullcircle scaled 100 shifted 25right withcolor blue; % fill fullcircle scaled 100 withcolor red ; % ) asgroup "" % withgroupname "mygroup"; % draw (left--right) scaled 10; % draw (up--down) scaled 10; % \endmpfig % % \noindent % \clap{\vrule width 20pt height .25pt depth .25pt}% % \clap{\vrule width .5pt height 10pt depth 10pt}% % \usemplibgroup{mygroup} % % \mpfig % usemplibgroup "mygroup" rotated 15 % withprescript "tr_transparency=0.5"; % draw (left--right) scaled 10; % draw (up--down) scaled 10; % \endmpfig %\end{verbatim} % % Also note that normally the reused transparency groups are not affected by outer color commands. % However, if you have made the original transparency group using |withoutcolor| command, % colors will have effects on the uncolored objects in the group. % % \paragraph{\cs{mplibgroup\{...\} ...} \cs{endmplibgroup}} % These \TeX\ macros are described here in this subsection, as they are % deeply related to the |asgroup| operator. % Users can define a transparency group or a normal \emph{form XObject} % with these macros from \TeX\ side. % The syntax is similar to the \cs{mppattern} command (see \hyperlink{mppattern}{above}). % An example: %\begin{verbatim} % \mplibgroup{mygrx} % or \begin{mplibgroup}{mygrx} % [ % options: see below % asgroup="", % ] % \mpfig % or any other TeX code % pickup pencircle scaled 10; % draw (left--right) scaled 30 rotated 45 ; % draw (left--right) scaled 30 rotated -45 ; % \endmpfig % \endmplibgroup % or \end{mplibgroup} % % \usemplibgroup{mygrx} % % \mpfig % usemplibgroup "mygrx" scaled 1.5 % withprescript "tr_transparency=0.5" ; % \endmpfig %\end{verbatim} % % Availabe options, much fewer than those for \cs{mppattern}, % are listed in Table~\ref{tab:mplibgroupoptions}. % Again, the width/height/depth values of the mplibgroup will be written down into the log file. % \begin{table} % \centering % \caption{options for \cs{mplibgroup}}\label{tab:mplibgroupoptions} % \begin{tabular}{lll} % \hline % Key & Value Type & Explanation\\ % \hline % |asgroup| &\emph{string} & |""|, |"isolated"|, |"knockout"|, or |"isolated,knockout"|\\ % |bbox| &\emph{table} or \emph{string} & |llx|, |lly|, |urx|, |ury| values\kern1pt*\\ % |matrix| &\emph{table} or \emph{string} & |xx|, |yx|, |xy|, |yy| values\kern1pt* % or MP transform code\\ % |resources| &\emph{string} & PDF resources if needed\\ % \hline % & & \small *\,in string type, numbers are separated by spaces\\ % \end{tabular} % \end{table} % % When |asgroup| option, including empty string, is not given, % a normal form XObject will be generated rather than a transparency group. % Thus the individual objects, not the XObject as a whole, will be affected % by outer transparency command. % % As shown in the example, you can reuse the mplibgroup once defined % using the \TeX\ command \cs{usemplibgroup} or % the \metapost command |usemplibgroup|. % The behavior of these commands is the same as that described \hyperlink{usemplibgroup}{above}. % % % \subsection{Lua} % % \paragraph{\texttt{runscript ...}} % Using the primitive |runscript| \emph{}, you can run a Lua code chunk from \metapost side % and get some \metapost code returned by Lua if you want. % As the functionality is provided by the \mplib library itself, % luamplib does not have much to say about it. % % One thing is worth mentioning, however: % if you return a Lua \emph{table} to the \metapost process, % it is automatically converted to a relevant \metapost value type % such as pair, color, cmykcolor or transform. % So users can save some extra toil of converting a table to a string, though it's not a big deal. % For instance, |runscript "return {1,0,0}"| will give you the \metapost color expression |(1,0,0)| % automatically. % % \paragraph{Lua table \texttt{luamplib.instances}} % Users can access the Lua table containing \mplib instances, |luamplib.instances|, % through which \metapost variables are also easily accessible from Lua side, % as documented in Lua\TeX{} manual \S\,11.2.8.4 (|texdoc luatex|). % The following will print |false|, |3.0|, |MetaPost| and % the knots and the cyclicity of the path |unitsquare|, consecutively. %\begin{verbatim} % \begin{mplibcode}[instance1] % boolean b; b = 1 > 2; % numeric n; n = 3; % string s; s = "MetaPost"; % path p; p = unitsquare; % \end{mplibcode} % % \directlua{ % local instance1 = luamplib.instances.instance1 % print( instance1:get_boolean "b" ) % print( instance1:get_number "n" ) % print( instance1:get_string "s" ) % local t = instance1:get_path "p" % for k,v in pairs(t) do % print(k, type(v)=='table' and table.concat(v,' ') or v) % end % } %\end{verbatim} % % \paragraph{Lua function \texttt{luamplib.process\_mplibcode}} % Users can execute a \metapost code chunk from Lua side by using this function: %\begin{verbatim} % luamplib.process_mplibcode ( metapost code, instance name) %\end{verbatim} % The second argument cannot be absent, but can be an empty string (|""|) which % means that it has no instance name. % % Some other elements in the |luamplib| namespace, listed in Table~\ref{tab:elementsinluamplib}, % can have effects on the process of |process_mplibcode|. % \begin{table} % \centering % \caption{elements in \texttt{luamplib} table (partial)}\label{tab:elementsinluamplib} % \begin{tabular}{lll}\hline % Key & Type & Related \TeX\ macro \\\hline % |codeinherit| & \emph{boolean} & \cs{mplibcodeinherit}\\ % |everyendmplib| & \emph{table} & \cs{everyendmplib}\\ % |everymplib| & \emph{table} & \cs{everymplib}\\ % |getcachedir| & \emph{function} (\emph{}) & \cs{mplibcachedir}\\ % |globaltextext| & \emph{boolean} & \cs{mplibglobaltextext}\\ % |legacyverbatimtex| & \emph{boolean} & \cs{mpliblegacybehavior}\\ % |noneedtoreplace| & \emph{table} & \cs{mplibmakenocache}\\ % |numbersystem| & \emph{string} & \cs{mplibnumbersystem}\\ % |setformat| & \emph{function} (\emph{}) & \cs{mplibsetformat}\\ % |showlog| & \emph{boolean} & \cs{mplibshowlog}\\ % |textextlabel| & \emph{boolean} & \cs{mplibtextextlabel}\\ % |verbatiminput| & \emph{boolean} & \cs{mplibverbatim}\\\hline % \end{tabular} % \end{table} % % % \section{Implementation} % % \subsection{Lua module} % % \iffalse %<*lua> % \fi % % \begin{macrocode} luatexbase.provides_module { name = "luamplib", version = "2.35.1", date = "2024/11/25", description = "Lua package to typeset Metapost with LuaTeX's MPLib.", } % \end{macrocode} % % Use the |luamplib| namespace, since |mplib| is for the \metapost library % itself. \ConTeXt{} uses |metapost|. % \begin{macrocode} luamplib = luamplib or { } local luamplib = luamplib local format, abs = string.format, math.abs % \end{macrocode} % % Use our own function for warn/info/err. % \begin{macrocode} local function termorlog (target, text, kind) if text then local mod, write, append = "luamplib", texio.write_nl, texio.write kind = kind or target == "term" and "Warning (more info in the log)" or target == "log" and "Info" or target == "term and log" and "Warning" or "Error" target = kind == "Error" and "term and log" or target local t = text:explode"\n+" write(target, format("Module %s %s:", mod, kind)) if #t == 1 then append(target, format(" %s", t[1])) else for _,line in ipairs(t) do write(target, line) end write(target, format("(%s) ", mod)) end append(target, format(" on input line %s", tex.inputlineno)) write(target, "") if kind == "Error" then error() end end end local function warn (...) -- beware '%' symbol termorlog("term and log", select("#",...) > 1 and format(...) or ...) end local function info (...) termorlog("log", select("#",...) > 1 and format(...) or ...) end local function err (...) termorlog("error", select("#",...) > 1 and format(...) or ...) end luamplib.showlog = luamplib.showlog or false % \end{macrocode} % % This module is a stripped down version of libraries that are used by % \ConTeXt. Provide a few ``shortcuts'' expected by the code. % \begin{macrocode} local tableconcat = table.concat local tableinsert = table.insert local tableunpack = table.unpack local texsprint = tex.sprint local texgettoks = tex.gettoks local texgetbox = tex.getbox local texruntoks = tex.runtoks if not texruntoks then err("Your LuaTeX version is too old. Please upgrade it to the latest") end local is_defined = token.is_defined local get_macro = token.get_macro local mplib = require ('mplib') local kpse = require ('kpse') local lfs = require ('lfs') local lfsattributes = lfs.attributes local lfsisdir = lfs.isdir local lfsmkdir = lfs.mkdir local lfstouch = lfs.touch local ioopen = io.open % \end{macrocode} % % Some helper functions, prepared for the case when |l-file| etc % is not loaded. % \begin{macrocode} local file = file or { } local replacesuffix = file.replacesuffix or function(filename, suffix) return (filename:gsub("%.[%a%d]+$","")) .. "." .. suffix end local is_writable = file.is_writable or function(name) if lfsisdir(name) then name = name .. "/_luam_plib_temp_file_" local fh = ioopen(name,"w") if fh then fh:close(); os.remove(name) return true end end end local mk_full_path = lfs.mkdirp or lfs.mkdirs or function(path) local full = "" for sub in path:gmatch("(/*[^\\/]+)") do full = full .. sub lfsmkdir(full) end end % \end{macrocode} % % |btex ... etex| in input |.mp| files will be replaced in finder. % Because of the limitation of \mplib regarding |make_text|, % we might have to make cache files modified from input files. % \begin{macrocode} local luamplibtime = lfsattributes(kpse.find_file"luamplib.lua", "modification") local currenttime = os.time() local outputdir, cachedir if lfstouch then for i,v in ipairs{'TEXMFVAR','TEXMF_OUTPUT_DIRECTORY','.','TEXMFOUTPUT'} do local var = i == 3 and v or kpse.var_value(v) if var and var ~= "" then for _,vv in next, var:explode(os.type == "unix" and ":" or ";") do local dir = format("%s/%s",vv,"luamplib_cache") if not lfsisdir(dir) then mk_full_path(dir) end if is_writable(dir) then outputdir = dir break end end if outputdir then break end end end end outputdir = outputdir or '.' function luamplib.getcachedir(dir) dir = dir:gsub("##","#") dir = dir:gsub("^~", os.type == "windows" and os.getenv("UserProfile") or os.getenv("HOME")) if lfstouch and dir then if lfsisdir(dir) then if is_writable(dir) then cachedir = dir else warn("Directory '%s' is not writable!", dir) end else warn("Directory '%s' does not exist!", dir) end end end % \end{macrocode} % % Some basic \metapost files not necessary to make cache files. % \begin{macrocode} local noneedtoreplace = { ["boxes.mp"] = true, -- ["format.mp"] = true, ["graph.mp"] = true, ["marith.mp"] = true, ["mfplain.mp"] = true, ["mpost.mp"] = true, ["plain.mp"] = true, ["rboxes.mp"] = true, ["sarith.mp"] = true, ["string.mp"] = true, -- ["TEX.mp"] = true, ["metafun.mp"] = true, ["metafun.mpiv"] = true, ["mp-abck.mpiv"] = true, ["mp-apos.mpiv"] = true, ["mp-asnc.mpiv"] = true, ["mp-bare.mpiv"] = true, ["mp-base.mpiv"] = true, ["mp-blob.mpiv"] = true, ["mp-butt.mpiv"] = true, ["mp-char.mpiv"] = true, ["mp-chem.mpiv"] = true, ["mp-core.mpiv"] = true, ["mp-crop.mpiv"] = true, ["mp-figs.mpiv"] = true, ["mp-form.mpiv"] = true, ["mp-func.mpiv"] = true, ["mp-grap.mpiv"] = true, ["mp-grid.mpiv"] = true, ["mp-grph.mpiv"] = true, ["mp-idea.mpiv"] = true, ["mp-luas.mpiv"] = true, ["mp-mlib.mpiv"] = true, ["mp-node.mpiv"] = true, ["mp-page.mpiv"] = true, ["mp-shap.mpiv"] = true, ["mp-step.mpiv"] = true, ["mp-text.mpiv"] = true, ["mp-tool.mpiv"] = true, ["mp-cont.mpiv"] = true, } luamplib.noneedtoreplace = noneedtoreplace % \end{macrocode} % % |format.mp| is much complicated, so specially treated. % \begin{macrocode} local function replaceformatmp(file,newfile,ofmodify) local fh = ioopen(file,"r") if not fh then return file end local data = fh:read("*all"); fh:close() fh = ioopen(newfile,"w") if not fh then return file end fh:write( "let normalinfont = infont;\n", "primarydef str infont name = rawtextext(str) enddef;\n", data, "vardef Fmant_(expr x) = rawtextext(decimal abs x) enddef;\n", "vardef Fexp_(expr x) = rawtextext(\"$^{\"&decimal x&\"}$\") enddef;\n", "let infont = normalinfont;\n" ); fh:close() lfstouch(newfile,currenttime,ofmodify) return newfile end % \end{macrocode} % % Replace |btex ... etex| and |verbatimtex ... etex| in input files, % if needed. % \begin{macrocode} local name_b = "%f[%a_]" local name_e = "%f[^%a_]" local btex_etex = name_b.."btex"..name_e.."%s*(.-)%s*"..name_b.."etex"..name_e local verbatimtex_etex = name_b.."verbatimtex"..name_e.."%s*(.-)%s*"..name_b.."etex"..name_e local function replaceinputmpfile (name,file) local ofmodify = lfsattributes(file,"modification") if not ofmodify then return file end local newfile = name:gsub("%W","_") newfile = format("%s/luamplib_input_%s", cachedir or outputdir, newfile) if newfile and luamplibtime then local nf = lfsattributes(newfile) if nf and nf.mode == "file" and ofmodify == nf.modification and luamplibtime < nf.access then return nf.size == 0 and file or newfile end end if name == "format.mp" then return replaceformatmp(file,newfile,ofmodify) end local fh = ioopen(file,"r") if not fh then return file end local data = fh:read("*all"); fh:close() % \end{macrocode} % ``|etex|'' must be preceded by a space and followed by a space or semicolon as specified in % \LuaTeX\ manual, which is not the case of standalone \metapost though. % \begin{macrocode} local count,cnt = 0,0 data, cnt = data:gsub(btex_etex, "btex %1 etex ") -- space count = count + cnt data, cnt = data:gsub(verbatimtex_etex, "verbatimtex %1 etex;") -- semicolon count = count + cnt if count == 0 then noneedtoreplace[name] = true fh = ioopen(newfile,"w"); if fh then fh:close() lfstouch(newfile,currenttime,ofmodify) end return file end fh = ioopen(newfile,"w") if not fh then return file end fh:write(data); fh:close() lfstouch(newfile,currenttime,ofmodify) return newfile end % \end{macrocode} % % As the finder function for \mplib, use the |kpse| library and % make it behave like as if \metapost was used. And replace |.mp| files with % cache files if needed. % See also \#74, \#97. % \begin{macrocode} local mpkpse do local exe = 0 while arg[exe-1] do exe = exe-1 end mpkpse = kpse.new(arg[exe], "mpost") end local special_ftype = { pfb = "type1 fonts", enc = "enc files", } function luamplib.finder (name, mode, ftype) if mode == "w" then if name and name ~= "mpout.log" then kpse.record_output_file(name) -- recorder end return name else ftype = special_ftype[ftype] or ftype local file = mpkpse:find_file(name,ftype) if file then if lfstouch and ftype == "mp" and not noneedtoreplace[name] then file = replaceinputmpfile(name,file) end else file = mpkpse:find_file(name, name:match("%a+$")) end if file then kpse.record_input_file(file) -- recorder end return file end end % \end{macrocode} % % Create and load \mplib instances. % We do not support ancient version of \mplib any more. % (Don't know which version of \mplib started to support % |make_text| and |run_script|; let the users find it.) % \begin{macrocode} local preamble = [[ boolean mplib ; mplib := true ; let dump = endinput ; let normalfontsize = fontsize; input %s ; ]] % \end{macrocode} % % \emph{plain} or \emph{metafun}, % though we cannot support \emph{metafun} format fully. % \begin{macrocode} local currentformat = "plain" function luamplib.setformat (name) currentformat = name end % \end{macrocode} % % v2.9 has introduced the concept of ``code inherit'' % \begin{macrocode} luamplib.codeinherit = false local mplibinstances = {} luamplib.instances = mplibinstances local has_instancename = false local function reporterror (result, prevlog) if not result then err("no result object returned") else local t, e, l = result.term, result.error, result.log % \end{macrocode} % log has more information than term, so log first (2021/08/02) % \begin{macrocode} local log = l or t or "no-term" log = log:gsub("%(Please type a command or say `end'%)",""):gsub("\n+","\n") if result.status > 0 then local first = log:match"(.-\n! .-)\n! " if first then termorlog("term", first) termorlog("log", log, "Warning") else warn(log) end if result.status > 1 then err(e or "see above messages") end elseif prevlog then log = prevlog..log % \end{macrocode} % v2.6.1: now luamplib does not disregard |show| command, % even when |luamplib.showlog| is false. Incidentally, % it does not raise error nor prints an info, % even if output has no figure. % \begin{macrocode} local show = log:match"\n>>? .+" if show then termorlog("term", show, "Info (more info in the log)") info(log) elseif luamplib.showlog and log:find"%g" then info(log) end end return log end end % \end{macrocode} % % |lualibs-os.lua| installs a randomseed. When this file is not loaded, % we should explicitly seed a unique integer to get random randomseed for each run. % \begin{macrocode} if not math.initialseed then math.randomseed(currenttime) end local function luamplibload (name) local mpx = mplib.new { ini_version = true, find_file = luamplib.finder, % \end{macrocode} % Make use of |make_text| and |run_script|, which will co-operate % with \LuaTeX's |tex.runtoks| or other Lua functions. And we % provide |numbersystem| option since v2.4. % See \url{https://github.com/lualatex/luamplib/issues/21}. % \begin{macrocode} make_text = luamplib.maketext, run_script = luamplib.runscript, math_mode = luamplib.numbersystem, job_name = tex.jobname, random_seed = math.random(4095), extensions = 1, } % \end{macrocode} % Append our own \metapost preamble to the preamble above. % \begin{macrocode} local preamble = tableconcat{ format(preamble, replacesuffix(name,"mp")), luamplib.preambles.mplibcode, luamplib.legacyverbatimtex and luamplib.preambles.legacyverbatimtex or "", luamplib.textextlabel and luamplib.preambles.textextlabel or "", } local result, log if not mpx then result = { status = 99, error = "out of memory"} else result = mpx:execute(preamble) end log = reporterror(result) return mpx, result, log end % \end{macrocode} % % Here, excute each |mplibcode| data, % ie |\begin{mplibcode} ... \end{mplibcode}|. % \begin{macrocode} local function process (data, instancename) local currfmt if instancename and instancename ~= "" then currfmt = instancename has_instancename = true else currfmt = tableconcat{ currentformat, luamplib.numbersystem or "scaled", tostring(luamplib.textextlabel), tostring(luamplib.legacyverbatimtex), } has_instancename = false end local mpx = mplibinstances[currfmt] local standalone = not (has_instancename or luamplib.codeinherit) if mpx and standalone then mpx:finish() end local log = "" if standalone or not mpx then mpx, _, log = luamplibload(currentformat) mplibinstances[currfmt] = mpx end local converted, result = false, {} if mpx and data then result = mpx:execute(data) local log = reporterror(result, log) if log then if result.fig then converted = luamplib.convert(result) end end else err"Mem file unloadable. Maybe generated with a different version of mplib?" end return converted, result end % \end{macrocode} % % |dvipdfmx| is supported, though nobody seems to use it. % \begin{macrocode} local pdfmode = tex.outputmode > 0 % \end{macrocode} % % |make_text| and some |run_script| uses \LuaTeX's |tex.runtoks|. % \begin{macrocode} local catlatex = luatexbase.registernumber("catcodetable@latex") local catat11 = luatexbase.registernumber("catcodetable@atletter") % \end{macrocode} % % |tex.scantoks| sometimes fail to read catcode properly, especially % |\#|, |\&|, or |\%|. After some experiment, we dropped using it. % Instead, a function containing |tex.sprint| seems to work nicely. % \begin{macrocode} local function run_tex_code (str, cat) texruntoks(function() texsprint(cat or catlatex, str) end) end % \end{macrocode} % % Prepare textext box number containers, locals and globals. % |localid| can be any number. They are local anyway. % The number will be reset at the start of a new code chunk. % Global boxes will use |\newbox| command in |tex.runtoks| process. % This is the same when |codeinherit| is true. % Boxes in instances with name will also be global, so that % their tex boxes can be shared among instances of the same name. % \begin{macrocode} local texboxes = { globalid = 0, localid = 4096 } % \end{macrocode} % For conversion of |sp| to |bp|. % \begin{macrocode} local factor = 65536*(7227/7200) local textext_fmt = 'image(addto currentpicture doublepath unitsquare \z xscaled %f yscaled %f shifted (0,-%f) \z withprescript "mplibtexboxid=%i:%f:%f")' local function process_tex_text (str, maketext) if str then if not maketext then str = str:gsub("\r.-$","") end local global = (has_instancename or luamplib.globaltextext or luamplib.codeinherit) and "\\global" or "" local tex_box_id if global == "" then tex_box_id = texboxes.localid + 1 texboxes.localid = tex_box_id else local boxid = texboxes.globalid + 1 texboxes.globalid = boxid run_tex_code(format([[\expandafter\newbox\csname luamplib.box.%s\endcsname]], boxid)) tex_box_id = tex.getcount'allocationnumber' end run_tex_code(format("\\luamplibtagtextbegin{%i}%s\\setbox%i\\hbox{%s}\\luamplibtagtextend", tex_box_id, global, tex_box_id, str)) local box = texgetbox(tex_box_id) local wd = box.width / factor local ht = box.height / factor local dp = box.depth / factor return textext_fmt:format(wd, ht+dp, dp, tex_box_id, wd, ht+dp) end return "" end % \end{macrocode} % % Make |color| or |xcolor|'s color expressions usable, % with \cs{mpcolor} or |mplibcolor|. These commands should be used % with graphical objects. % Attempt to support l3color as well. % \begin{macrocode} local mplibcolorfmt = { xcolor = tableconcat{ [[\begingroup\let\XC@mcolor\relax]], [[\def\set@color{\global\mplibtmptoks\expandafter{\current@color}}]], [[\color%s\endgroup]], }, l3color = tableconcat{ [[\begingroup\def\__color_select:N#1{\expandafter\__color_select:nn#1}]], [[\def\__color_backend_select:nn#1#2{\global\mplibtmptoks{#1 #2}}]], [[\def\__kernel_backend_literal:e#1{\global\mplibtmptoks\expandafter{\expanded{#1}}}]], [[\color_select:n%s\endgroup]], }, } local colfmt = is_defined'color_select:n' and "l3color" or "xcolor" if colfmt == "l3color" then run_tex_code{ "\\newcatcodetable\\luamplibcctabexplat", "\\begingroup", "\\catcode`@=11 ", "\\catcode`_=11 ", "\\catcode`:=11 ", "\\savecatcodetable\\luamplibcctabexplat", "\\endgroup", } end local ccexplat = luatexbase.registernumber"luamplibcctabexplat" local function process_color (str) if str then if not str:find("%b{}") then str = format("{%s}",str) end local myfmt = mplibcolorfmt[colfmt] if colfmt == "l3color" and is_defined"color" then if str:find("%b[]") then myfmt = mplibcolorfmt.xcolor else for _,v in ipairs(str:match"{(.+)}":explode"!") do if not v:find("^%s*%d+%s*$") then local pp = get_macro(format("l__color_named_%s_prop",v)) if not pp or pp == "" then myfmt = mplibcolorfmt.xcolor break end end end end end run_tex_code(myfmt:format(str), ccexplat or catat11) local t = texgettoks"mplibtmptoks" if not pdfmode and not t:find"^pdf" then t = t:gsub("%a+ (.+)","pdf:bc [%1]") end return format('1 withprescript "mpliboverridecolor=%s"', t) end return "" end % \end{macrocode} % % for \cs{mpdim} or |mplibdimen| % \begin{macrocode} local function process_dimen (str) if str then str = str:gsub("{(.+)}","%1") run_tex_code(format([[\mplibtmptoks\expandafter{\the\dimexpr %s\relax}]], str)) return format("begingroup %s endgroup", texgettoks"mplibtmptoks") end return "" end % \end{macrocode} % % Newly introduced method of processing |verbatimtex ... etex|. % This function is used when |\mpliblegacybehavior{false}| is declared. % \begin{macrocode} local function process_verbatimtex_text (str) if str then run_tex_code(str) end return "" end % \end{macrocode} % % For legacy verbatimtex process. % |verbatimtex ... etex| before |beginfig()| is not ignored, % but the \TeX\ code is inserted just before the \mplib box. And % \TeX\ code inside |beginfig() ... endfig| is inserted after the \mplib box. % \begin{macrocode} local tex_code_pre_mplib = {} luamplib.figid = 1 luamplib.in_the_fig = false local function process_verbatimtex_prefig (str) if str then tex_code_pre_mplib[luamplib.figid] = str end return "" end local function process_verbatimtex_infig (str) if str then return format('special "postmplibverbtex=%s";', str) end return "" end local runscript_funcs = { luamplibtext = process_tex_text, luamplibcolor = process_color, luamplibdimen = process_dimen, luamplibprefig = process_verbatimtex_prefig, luamplibinfig = process_verbatimtex_infig, luamplibverbtex = process_verbatimtex_text, } % \end{macrocode} % % For \emph{metafun} format. see issue \#79. % \begin{macrocode} mp = mp or {} local mp = mp mp.mf_path_reset = mp.mf_path_reset or function() end mp.mf_finish_saving_data = mp.mf_finish_saving_data or function() end mp.report = mp.report or info % \end{macrocode} % % \emph{metafun} 2021-03-09 changes crashes luamplib. % \begin{macrocode} catcodes = catcodes or {} local catcodes = catcodes catcodes.numbers = catcodes.numbers or {} catcodes.numbers.ctxcatcodes = catcodes.numbers.ctxcatcodes or catlatex catcodes.numbers.texcatcodes = catcodes.numbers.texcatcodes or catlatex catcodes.numbers.luacatcodes = catcodes.numbers.luacatcodes or catlatex catcodes.numbers.notcatcodes = catcodes.numbers.notcatcodes or catlatex catcodes.numbers.vrbcatcodes = catcodes.numbers.vrbcatcodes or catlatex catcodes.numbers.prtcatcodes = catcodes.numbers.prtcatcodes or catlatex catcodes.numbers.txtcatcodes = catcodes.numbers.txtcatcodes or catlatex % \end{macrocode} % % A function from \ConTeXt\ general. % \begin{macrocode} local function mpprint(buffer,...) for i=1,select("#",...) do local value = select(i,...) if value ~= nil then local t = type(value) if t == "number" then buffer[#buffer+1] = format("%.16f",value) elseif t == "string" then buffer[#buffer+1] = value elseif t == "table" then buffer[#buffer+1] = "(" .. tableconcat(value,",") .. ")" else -- boolean or whatever buffer[#buffer+1] = tostring(value) end end end end function luamplib.runscript (code) local id, str = code:match("(.-){(.*)}") if id and str then local f = runscript_funcs[id] if f then local t = f(str) if t then return t end end end local f = loadstring(code) if type(f) == "function" then local buffer = {} function mp.print(...) mpprint(buffer,...) end local res = {f()} buffer = tableconcat(buffer) if buffer and buffer ~= "" then return buffer end buffer = {} mpprint(buffer, tableunpack(res)) return tableconcat(buffer) end return "" end % \end{macrocode} % % |make_text| must be one liner, so comment sign is not allowed. % \begin{macrocode} local function protecttexcontents (str) return str:gsub("\\%%", "\0PerCent\0") :gsub("%%.-\n", "") :gsub("%%.-$", "") :gsub("%zPerCent%z", "\\%%") :gsub("\r.-$", "") :gsub("%s+", " ") end luamplib.legacyverbatimtex = true function luamplib.maketext (str, what) if str and str ~= "" then str = protecttexcontents(str) if what == 1 then if not str:find("\\documentclass"..name_e) and not str:find("\\begin%s*{document}") and not str:find("\\documentstyle"..name_e) and not str:find("\\usepackage"..name_e) then if luamplib.legacyverbatimtex then if luamplib.in_the_fig then return process_verbatimtex_infig(str) else return process_verbatimtex_prefig(str) end else return process_verbatimtex_text(str) end end else return process_tex_text(str, true) -- bool is for 'char13' end end return "" end % \end{macrocode} % % luamplib's \metapost color operators % \begin{macrocode} local function colorsplit (res) local t, tt = { }, res:gsub("[%[%]]","",2):explode() local be = tt[1]:find"^%d" and 1 or 2 for i=be, #tt do if not tonumber(tt[i]) then break end t[#t+1] = tt[i] end return t end luamplib.gettexcolor = function (str, rgb) local res = process_color(str):match'"mpliboverridecolor=(.+)"' if res:find" cs " or res:find"@pdf.obj" then if not rgb then warn("%s is a spot color. Forced to CMYK", str) end run_tex_code({ "\\color_export:nnN{", str, "}{", rgb and "space-sep-rgb" or "space-sep-cmyk", "}\\mplib_@tempa", },ccexplat) return get_macro"mplib_@tempa":explode() end local t = colorsplit(res) if #t == 3 or not rgb then return t end if #t == 4 then return { 1 - math.min(1,t[1]+t[4]), 1 - math.min(1,t[2]+t[4]), 1 - math.min(1,t[3]+t[4]) } end return { t[1], t[1], t[1] } end luamplib.shadecolor = function (str) local res = process_color(str):match'"mpliboverridecolor=(.+)"' if res:find" cs " or res:find"@pdf.obj" then -- spot color shade: l3 only % \end{macrocode} % An example of spot color shading: %\begin{verbatim} % \documentclass{article} % \usepackage{luamplib} % \mplibsetformat{metafun} % \ExplSyntaxOn % \color_model_new:nnn { pantone3005 } % { Separation } % { name = PANTONE~3005~U , % alternative-model = cmyk , % alternative-values = {1, 0.56, 0, 0} % } % \color_set:nnn{spotA}{pantone3005}{1} % \color_set:nnn{spotB}{pantone3005}{0.6} % \color_model_new:nnn { pantone1215 } % { Separation } % { name = PANTONE~1215~U , % alternative-model = cmyk , % alternative-values = {0, 0.15, 0.51, 0} % } % \color_set:nnn{spotC}{pantone1215}{1} % \color_model_new:nnn { pantone2040 } % { Separation } % { name = PANTONE~2040~U , % alternative-model = cmyk , % alternative-values = {0, 0.28, 0.21, 0.04} % } % \color_set:nnn{spotD}{pantone2040}{1} % \ExplSyntaxOff % \begin{document} % \begin{mplibcode} % beginfig(1) % fill unitsquare xyscaled (\mpdim\textwidth,1cm) % withshademethod "linear" % withshadevector (0,1) % withshadestep ( % withshadefraction .5 % withshadecolors ("spotB","spotC") % ) % withshadestep ( % withshadefraction 1 % withshadecolors ("spotC","spotD") % ) % ; % endfig; % \end{mplibcode} % \end{document} %\end{verbatim} % another one: user-defined DeviceN colorspace %\begin{verbatim} % \DocumentMetadata{ } % \documentclass{article} % \usepackage{luamplib} % \mplibsetformat{metafun} % \ExplSyntaxOn % \color_model_new:nnn { pantone1215 } % { Separation } % { name = PANTONE~1215~U , % alternative-model = cmyk , % alternative-values = {0, 0.15, 0.51, 0} % } % \color_model_new:nnn { pantone+black } % { DeviceN } % { % names = {pantone1215,black} % } % \color_set:nnn{purepantone}{pantone+black}{1,0} % \color_set:nnn{pureblack} {pantone+black}{0,1} % \ExplSyntaxOff % \begin{document} % \mpfig % fill unitsquare xscaled \mpdim{\textwidth} yscaled 30 % withshademethod "linear" % withshadecolors ("purepantone","pureblack") % ; % \endmpfig % \end{document} %\end{verbatim} % \begin{macrocode} run_tex_code({ [[\color_export:nnN{]], str, [[}{backend}\mplib_@tempa]], },ccexplat) local name, value = get_macro'mplib_@tempa':match'{(.-)}{(.-)}' local t, obj = res:explode() if pdfmode then obj = format("%s 0 R", ltx.pdf.object_id( t[1]:sub(2,-1) )) else obj = t[2] end return format('(1) withprescript"mplib_spotcolor=%s:%s:%s"', value,obj,name) end return colorsplit(res) end % \end{macrocode} % % Remove trailing zeros for smaller PDF % \begin{macrocode} local decimals = "%.%d+" local function rmzeros(str) return str:gsub("%.?0+$","") end % \end{macrocode} % % luamplib's mplibgraphictext operator % \begin{macrocode} local emboldenfonts = { } local function getemboldenwidth (curr, fakebold) local width = emboldenfonts.width if not width then local f local function getglyph(n) while n do if n.head then getglyph(n.head) elseif n.font and n.font > 0 then f = n.font; break end n = node.getnext(n) end end getglyph(curr) width = font.getcopy(f or font.current()).size * fakebold / factor * 10 emboldenfonts.width = width end return width end local function getrulewhatsit (line, wd, ht, dp) line, wd, ht, dp = line/1000, wd/factor, ht/factor, dp/factor local pl local fmt = "%f w %f %f %f %f re %s" if pdfmode then pl = node.new("whatsit","pdf_literal") pl.mode = 0 else fmt = "pdf:content "..fmt pl = node.new("whatsit","special") end pl.data = fmt:format(line, 0, -dp, wd, ht+dp, "B") :gsub(decimals,rmzeros) local ss = node.new"glue" node.setglue(ss, 0, 65536, 65536, 2, 2) pl.next = ss return pl end local function getrulemetric (box, curr, bp) local running = -1073741824 local wd,ht,dp = curr.width, curr.height, curr.depth wd = wd == running and box.width or wd ht = ht == running and box.height or ht dp = dp == running and box.depth or dp if bp then return wd/factor, ht/factor, dp/factor end return wd, ht, dp end local function embolden (box, curr, fakebold) local head = curr while curr do if curr.head then curr.head = embolden(curr, curr.head, fakebold) elseif curr.replace then curr.replace = embolden(box, curr.replace, fakebold) elseif curr.leader then if curr.leader.head then curr.leader.head = embolden(curr.leader, curr.leader.head, fakebold) elseif curr.leader.id == node.id"rule" then local glue = node.effective_glue(curr, box) local line = getemboldenwidth(curr, fakebold) local wd,ht,dp = getrulemetric(box, curr.leader) if box.id == node.id"hlist" then wd = glue else ht, dp = 0, glue end local pl = getrulewhatsit(line, wd, ht, dp) local pack = box.id == node.id"hlist" and node.hpack or node.vpack local list = pack(pl, glue, "exactly") head = node.insert_after(head, curr, list) head, curr = node.remove(head, curr) end elseif curr.id == node.id"rule" and curr.subtype == 0 then local line = getemboldenwidth(curr, fakebold) local wd,ht,dp = getrulemetric(box, curr) if box.id == node.id"vlist" then ht, dp = 0, ht+dp end local pl = getrulewhatsit(line, wd, ht, dp) local list if box.id == node.id"hlist" then list = node.hpack(pl, wd, "exactly") else list = node.vpack(pl, ht+dp, "exactly") end head = node.insert_after(head, curr, list) head, curr = node.remove(head, curr) elseif curr.id == node.id"glyph" and curr.font > 0 then local f = curr.font local key = format("%s:%s",f,fakebold) local i = emboldenfonts[key] if not i then local ft = font.getfont(f) or font.getcopy(f) if pdfmode then width = ft.size * fakebold / factor * 10 emboldenfonts.width = width ft.mode, ft.width = 2, width i = font.define(ft) else if ft.format ~= "opentype" and ft.format ~= "truetype" then goto skip_type1 end local name = ft.name:gsub('"',''):gsub(';$','') name = format('%s;embolden=%s;',name,fakebold) _, i = fonts.constructors.readanddefine(name,ft.size) end emboldenfonts[key] = i end curr.font = i end ::skip_type1:: curr = node.getnext(curr) end return head end local function graphictextcolor (col, filldraw) if col:find"^[%d%.:]+$" then col = col:explode":" for i=1,#col do col[i] = format("%.3f", col[i]) end if pdfmode then local op = #col == 4 and "k" or #col == 3 and "rg" or "g" col[#col+1] = filldraw == "fill" and op or op:upper() return tableconcat(col," ") end return format("[%s]", tableconcat(col," ")) end col = process_color(col):match'"mpliboverridecolor=(.+)"' if pdfmode then local t, tt = col:explode(), { } local b = filldraw == "fill" and 1 or #t/2+1 local e = b == 1 and #t/2 or #t for i=b,e do tt[#tt+1] = t[i] end return tableconcat(tt," ") end return col:gsub("^.- ","") end luamplib.graphictext = function (text, fakebold, fc, dc) local fmt = process_tex_text(text):sub(1,-2) local id = tonumber(fmt:match"mplibtexboxid=(%d+):") emboldenfonts.width = nil local box = texgetbox(id) box.head = embolden(box, box.head, fakebold) local fill = graphictextcolor(fc,"fill") local draw = graphictextcolor(dc,"draw") local bc = pdfmode and "" or "pdf:bc " return format('%s withprescript "mpliboverridecolor=%s%s %s")', fmt, bc, fill, draw) end % \end{macrocode} % % luamplib's mplibglyph operator % \begin{macrocode} local function mperr (str) return format("hide(errmessage %q)", str) end local function getangle (a,b,c) local r = math.deg(math.atan(c.y-b.y, c.x-b.x) - math.atan(b.y-a.y, b.x-a.x)) if r > 180 then r = r - 360 elseif r < -180 then r = r + 360 end return r end local function turning (t) local r, n = 0, #t for i=1,2 do tableinsert(t, t[i]) end for i=1,n do r = r + getangle(t[i], t[i+1], t[i+2]) end return r/360 end local function glyphimage(t, fmt) local q,p,r = {{},{}} for i,v in ipairs(t) do local cmd = v[#v] if cmd == "m" then p = {format('(%s,%s)',v[1],v[2])} r = {{x=v[1],y=v[2]}} else local nt = t[i+1] local last = not nt or nt[#nt] == "m" if cmd == "l" then local pt = t[i-1] local seco = pt[#pt] == "m" if (last or seco) and r[1].x == v[1] and r[1].y == v[2] then else tableinsert(p, format('--(%s,%s)',v[1],v[2])) tableinsert(r, {x=v[1],y=v[2]}) end if last then tableinsert(p, '--cycle') end elseif cmd == "c" then tableinsert(p, format('..controls(%s,%s)and(%s,%s)',v[1],v[2],v[3],v[4])) if last and r[1].x == v[5] and r[1].y == v[6] then tableinsert(p, '..cycle') else tableinsert(p, format('..(%s,%s)',v[5],v[6])) if last then tableinsert(p, '--cycle') end tableinsert(r, {x=v[5],y=v[6]}) end else return mperr"unknown operator" end if last then tableinsert(q[ turning(r) > 0 and 1 or 2 ], tableconcat(p)) end end end r = { } if fmt == "opentype" then for _,v in ipairs(q[1]) do tableinsert(r, format('addto currentpicture contour %s;',v)) end for _,v in ipairs(q[2]) do tableinsert(r, format('addto currentpicture contour %s withcolor background;',v)) end else for _,v in ipairs(q[2]) do tableinsert(r, format('addto currentpicture contour %s;',v)) end for _,v in ipairs(q[1]) do tableinsert(r, format('addto currentpicture contour %s withcolor background;',v)) end end return format('image(%s)', tableconcat(r)) end if not table.tofile then require"lualibs-lpeg"; require"lualibs-table"; end function luamplib.glyph (f, c) local filename, subfont, instance, kind, shapedata local fid = tonumber(f) or font.id(f) if fid > 0 then local fontdata = font.getfont(fid) or font.getcopy(fid) filename, subfont, kind = fontdata.filename, fontdata.subfont, fontdata.format instance = fontdata.specification and fontdata.specification.instance filename = filename and filename:gsub("^harfloaded:","") else local name f = f:match"^%s*(.+)%s*$" name, subfont, instance = f:match"(.+)%((%d+)%)%[(.-)%]$" if not name then name, instance = f:match"(.+)%[(.-)%]$" -- SourceHanSansK-VF.otf[Heavy] end if not name then name, subfont = f:match"(.+)%((%d+)%)$" -- Times.ttc(2) end name = name or f subfont = (subfont or 0)+1 instance = instance and instance:lower() for _,ftype in ipairs{"opentype", "truetype"} do filename = kpse.find_file(name, ftype.." fonts") if filename then kind = ftype; break end end end if kind ~= "opentype" and kind ~= "truetype" then f = fid and fid > 0 and tex.fontname(fid) or f if kpse.find_file(f, "tfm") then return format("glyph %s of %q", tonumber(c) or format("%q",c), f) else return mperr"font not found" end end local time = lfsattributes(filename,"modification") local k = format("shapes_%s(%s)[%s]", filename, subfont or "", instance or "") local h = format(string.rep('%02x', 256/8), string.byte(sha2.digest256(k), 1, -1)) local newname = format("%s/%s.lua", cachedir or outputdir, h) local newtime = lfsattributes(newname,"modification") or 0 if time == newtime then shapedata = require(newname) end if not shapedata then shapedata = fonts and fonts.handlers.otf.readers.loadshapes(filename,subfont,instance) if not shapedata then return mperr"loadshapes() failed. luaotfload not loaded?" end table.tofile(newname, shapedata, "return") lfstouch(newname, time, time) end local gid = tonumber(c) if not gid then local uni = utf8.codepoint(c) for i,v in pairs(shapedata.glyphs) do if c == v.name or uni == v.unicode then gid = i; break end end end if not gid then return mperr"cannot get GID (glyph id)" end local fac = 1000 / (shapedata.units or 1000) local t = shapedata.glyphs[gid].segments if not t then return "image()" end for i,v in ipairs(t) do if type(v) == "table" then for ii,vv in ipairs(v) do if type(vv) == "number" then t[i][ii] = format("%.0f", vv * fac) end end end end kind = shapedata.format or kind return glyphimage(t, kind) end % \end{macrocode} % % mpliboutlinetext : based on mkiv's font-mps.lua % \begin{macrocode} local rulefmt = "mpliboutlinepic[%i]:=image(addto currentpicture contour \z unitsquare shifted - center unitsquare;) xscaled %f yscaled %f shifted (%f,%f);" local outline_horz, outline_vert function outline_vert (res, box, curr, xshift, yshift) local b2u = box.dir == "LTL" local dy = (b2u and -box.depth or box.height)/factor local ody = dy while curr do if curr.id == node.id"rule" then local wd, ht, dp = getrulemetric(box, curr, true) local hd = ht + dp if hd ~= 0 then dy = dy + (b2u and dp or -ht) if wd ~= 0 and curr.subtype == 0 then res[#res+1] = rulefmt:format(#res+1, wd, hd, xshift+wd/2, yshift+dy+(ht-dp)/2) end dy = dy + (b2u and ht or -dp) end elseif curr.id == node.id"glue" then local vwidth = node.effective_glue(curr,box)/factor if curr.leader then local curr, kind = curr.leader, curr.subtype if curr.id == node.id"rule" then local wd = getrulemetric(box, curr, true) if wd ~= 0 then local hd = vwidth local dy = dy + (b2u and 0 or -hd) if hd ~= 0 and curr.subtype == 0 then res[#res+1] = rulefmt:format(#res+1, wd, hd, xshift+wd/2, yshift+dy+hd/2) end end elseif curr.head then local hd = (curr.height + curr.depth)/factor if hd <= vwidth then local dy, n, iy = dy, 0, 0 if kind == 100 or kind == 103 then -- todo: gleaders local ady = abs(ody - dy) local ndy = math.ceil(ady / hd) * hd local diff = ndy - ady n = (vwidth-diff) // hd dy = dy + (b2u and diff or -diff) else n = vwidth // hd if kind == 101 then local side = vwidth % hd / 2 dy = dy + (b2u and side or -side) elseif kind == 102 then iy = vwidth % hd / (n+1) dy = dy + (b2u and iy or -iy) end end dy = dy + (b2u and curr.depth or -curr.height)/factor hd = b2u and hd or -hd iy = b2u and iy or -iy local func = curr.id == node.id"hlist" and outline_horz or outline_vert for i=1,n do res = func(res, curr, curr.head, xshift+curr.shift/factor, yshift+dy) dy = dy + hd + iy end end end end dy = dy + (b2u and vwidth or -vwidth) elseif curr.id == node.id"kern" then dy = dy + curr.kern/factor * (b2u and 1 or -1) elseif curr.id == node.id"vlist" then dy = dy + (b2u and curr.depth or -curr.height)/factor res = outline_vert(res, curr, curr.head, xshift+curr.shift/factor, yshift+dy) dy = dy + (b2u and curr.height or -curr.depth)/factor elseif curr.id == node.id"hlist" then dy = dy + (b2u and curr.depth or -curr.height)/factor res = outline_horz(res, curr, curr.head, xshift+curr.shift/factor, yshift+dy) dy = dy + (b2u and curr.height or -curr.depth)/factor end curr = node.getnext(curr) end return res end function outline_horz (res, box, curr, xshift, yshift, discwd) local r2l = box.dir == "TRT" local dx = r2l and (discwd or box.width/factor) or 0 local dirs = { { dir = r2l, dx = dx } } while curr do if curr.id == node.id"dir" then local sign, dir = curr.dir:match"(.)(...)" local level, newdir = curr.level, r2l if sign == "+" then newdir = dir == "TRT" if r2l ~= newdir then local n = node.getnext(curr) while n do if n.id == node.id"dir" and n.level+1 == level then break end n = node.getnext(n) end n = n or node.tail(curr) dx = dx + node.rangedimensions(box, curr, n)/factor * (newdir and 1 or -1) end dirs[level] = { dir = r2l, dx = dx } else local level = level + 1 newdir = dirs[level].dir if r2l ~= newdir then dx = dirs[level].dx end end r2l = newdir elseif curr.char and curr.font and curr.font > 0 then local ft = font.getfont(curr.font) or font.getcopy(curr.font) local gid = ft.characters[curr.char].index or curr.char local scale = ft.size / factor / 1000 local slant = (ft.slant or 0)/1000 local extend = (ft.extend or 1000)/1000 local squeeze = (ft.squeeze or 1000)/1000 local expand = 1 + (curr.expansion_factor or 0)/1000000 local xscale = scale * extend * expand local yscale = scale * squeeze dx = dx - (r2l and curr.width/factor*expand or 0) local xpos = dx + xshift + (curr.xoffset or 0)/factor local ypos = yshift + (curr.yoffset or 0)/factor local vertical = ft.shared and ft.shared.features.vertical and "rotated 90" or "" if vertical ~= "" then -- luatexko for _,v in ipairs(ft.characters[curr.char].commands or { }) do if v[1] == "down" then ypos = ypos - v[2] / factor elseif v[1] == "right" then xpos = xpos + v[2] / factor else break end end end local image if ft.format == "opentype" or ft.format == "truetype" then image = luamplib.glyph(curr.font, gid) else local name, scale = ft.name, 1 local vf = font.read_vf(name, ft.size) if vf and vf.characters[gid] then local cmds = vf.characters[gid].commands or {} for _,v in ipairs(cmds) do if v[1] == "char" then gid = v[2] elseif v[1] == "font" and vf.fonts[v[2]] then name = vf.fonts[v[2]].name scale = vf.fonts[v[2]].size / ft.size end end end image = format("glyph %s of %q scaled %f", gid, name, scale) end res[#res+1] = format("mpliboutlinepic[%i]:=%s xscaled %f yscaled %f slanted %f %s shifted (%f,%f);", #res+1, image, xscale, yscale, slant, vertical, xpos, ypos) dx = dx + (r2l and 0 or curr.width/factor*expand) elseif curr.replace then local width = node.dimensions(curr.replace)/factor dx = dx - (r2l and width or 0) res = outline_horz(res, box, curr.replace, xshift+dx, yshift, width) dx = dx + (r2l and 0 or width) elseif curr.id == node.id"rule" then local wd, ht, dp = getrulemetric(box, curr, true) if wd ~= 0 then local hd = ht + dp dx = dx - (r2l and wd or 0) if hd ~= 0 and curr.subtype == 0 then res[#res+1] = rulefmt:format(#res+1, wd, hd, xshift+dx+wd/2, yshift+(ht-dp)/2) end dx = dx + (r2l and 0 or wd) end elseif curr.id == node.id"glue" then local width = node.effective_glue(curr, box)/factor dx = dx - (r2l and width or 0) if curr.leader then local curr, kind = curr.leader, curr.subtype if curr.id == node.id"rule" then local wd, ht, dp = getrulemetric(box, curr, true) local hd = ht + dp if hd ~= 0 then wd = width if wd ~= 0 and curr.subtype == 0 then res[#res+1] = rulefmt:format(#res+1, wd, hd, xshift+dx+wd/2, yshift+(ht-dp)/2) end end elseif curr.head then local wd = curr.width/factor if wd <= width then local dx = r2l and dx+width or dx local n, ix = 0, 0 if kind == 100 or kind == 103 then -- todo: gleaders local adx = abs(dx-dirs[1].dx) local ndx = math.ceil(adx / wd) * wd local diff = ndx - adx n = (width-diff) // wd dx = dx + (r2l and -diff-wd or diff) else n = width // wd if kind == 101 then local side = width % wd /2 dx = dx + (r2l and -side-wd or side) elseif kind == 102 then ix = width % wd / (n+1) dx = dx + (r2l and -ix-wd or ix) end end wd = r2l and -wd or wd ix = r2l and -ix or ix local func = curr.id == node.id"hlist" and outline_horz or outline_vert for i=1,n do res = func(res, curr, curr.head, xshift+dx, yshift-curr.shift/factor) dx = dx + wd + ix end end end end dx = dx + (r2l and 0 or width) elseif curr.id == node.id"kern" then dx = dx + curr.kern/factor * (r2l and -1 or 1) elseif curr.id == node.id"math" then dx = dx + curr.surround/factor * (r2l and -1 or 1) elseif curr.id == node.id"vlist" then dx = dx - (r2l and curr.width/factor or 0) res = outline_vert(res, curr, curr.head, xshift+dx, yshift-curr.shift/factor) dx = dx + (r2l and 0 or curr.width/factor) elseif curr.id == node.id"hlist" then dx = dx - (r2l and curr.width/factor or 0) res = outline_horz(res, curr, curr.head, xshift+dx, yshift-curr.shift/factor) dx = dx + (r2l and 0 or curr.width/factor) end curr = node.getnext(curr) end return res end function luamplib.outlinetext (text) local fmt = process_tex_text(text) local id = tonumber(fmt:match"mplibtexboxid=(%d+):") local box = texgetbox(id) local res = outline_horz({ }, box, box.head, 0, 0) if #res == 0 then res = { "mpliboutlinepic[1]:=image();" } end return tableconcat(res) .. format("mpliboutlinenum:=%i;", #res) end % \end{macrocode} % % Our \metapost preambles % \begin{macrocode} luamplib.preambles = { mplibcode = [[ texscriptmode := 2; def rawtextext (expr t) = runscript("luamplibtext{"&t&"}") enddef; def mplibcolor (expr t) = runscript("luamplibcolor{"&t&"}") enddef; def mplibdimen (expr t) = runscript("luamplibdimen{"&t&"}") enddef; def VerbatimTeX (expr t) = runscript("luamplibverbtex{"&t&"}") enddef; if known context_mlib: defaultfont := "cmtt10"; let infont = normalinfont; let fontsize = normalfontsize; vardef thelabel@#(expr p,z) = if string p : thelabel@#(p infont defaultfont scaled defaultscale,z) else : p shifted (z + labeloffset*mfun_laboff@# - (mfun_labxf@#*lrcorner p + mfun_labyf@#*ulcorner p + (1-mfun_labxf@#-mfun_labyf@#)*llcorner p)) fi enddef; else: vardef textext@# (text t) = rawtextext (t) enddef; def message expr t = if string t: runscript("mp.report[=["&t&"]=]") else: errmessage "Not a string" fi enddef; fi def resolvedcolor(expr s) = runscript("return luamplib.shadecolor('"& s &"')") enddef; def colordecimals primary c = if cmykcolor c: decimal cyanpart c & ":" & decimal magentapart c & ":" & decimal yellowpart c & ":" & decimal blackpart c elseif rgbcolor c: decimal redpart c & ":" & decimal greenpart c & ":" & decimal bluepart c elseif string c: if known graphictextpic: c else: colordecimals resolvedcolor(c) fi else: decimal c fi enddef; def externalfigure primary filename = draw rawtextext("\includegraphics{"& filename &"}") enddef; def TEX = textext enddef; def mplibtexcolor primary c = runscript("return luamplib.gettexcolor('"& c &"')") enddef; def mplibrgbtexcolor primary c = runscript("return luamplib.gettexcolor('"& c &"','rgb')") enddef; def mplibgraphictext primary t = begingroup; mplibgraphictext_ (t) enddef; def mplibgraphictext_ (expr t) text rest = save fakebold, scale, fillcolor, drawcolor, withfillcolor, withdrawcolor, fb, fc, dc, graphictextpic; picture graphictextpic; graphictextpic := nullpicture; numeric fb; string fc, dc; fb:=2; fc:="white"; dc:="black"; let scale = scaled; def fakebold primary c = hide(fb:=c;) enddef; def fillcolor primary c = hide(fc:=colordecimals c;) enddef; def drawcolor primary c = hide(dc:=colordecimals c;) enddef; let withfillcolor = fillcolor; let withdrawcolor = drawcolor; addto graphictextpic doublepath origin rest; graphictextpic:=nullpicture; def fakebold primary c = enddef; let fillcolor = fakebold; let drawcolor = fakebold; let withfillcolor = fillcolor; let withdrawcolor = drawcolor; image(draw runscript("return luamplib.graphictext([===["&t&"]===]," & decimal fb &",'"& fc &"','"& dc &"')") rest;) endgroup; enddef; def mplibglyph expr c of f = runscript ( "return luamplib.glyph('" & if numeric f: decimal fi f & "','" & if numeric c: decimal fi c & "')" ) enddef; def mplibdrawglyph expr g = draw image( save i; numeric i; i:=0; for item within g: i := i+1; fill pathpart item if i < length g: withpostscript "collect" fi; endfor ) enddef; def mplib_do_outline_text_set_b (text f) (text d) text r = def mplib_do_outline_options_f = f enddef; def mplib_do_outline_options_d = d enddef; def mplib_do_outline_options_r = r enddef; enddef; def mplib_do_outline_text_set_f (text f) text r = def mplib_do_outline_options_f = f enddef; def mplib_do_outline_options_r = r enddef; enddef; def mplib_do_outline_text_set_u (text f) text r = def mplib_do_outline_options_f = f enddef; enddef; def mplib_do_outline_text_set_d (text d) text r = def mplib_do_outline_options_d = d enddef; def mplib_do_outline_options_r = r enddef; enddef; def mplib_do_outline_text_set_r (text d) (text f) text r = def mplib_do_outline_options_d = d enddef; def mplib_do_outline_options_f = f enddef; def mplib_do_outline_options_r = r enddef; enddef; def mplib_do_outline_text_set_n text r = def mplib_do_outline_options_r = r enddef; enddef; def mplib_do_outline_text_set_p = enddef; def mplib_fill_outline_text = for n=1 upto mpliboutlinenum: i:=0; for item within mpliboutlinepic[n]: i:=i+1; fill pathpart item mplib_do_outline_options_f withpen pencircle scaled 0 if (n 0 then pdf_literalcode(luamplib.colorconverter(cs)) prev_override_color = nil elseif not pdfmode then override = prev_override_color if override then put2output("\\special{%s}",override) end end end return override end % \end{macrocode} % % For transparency and shading % \begin{macrocode} local pdfmanagement = is_defined'pdfmanagement_add:nnn' local pdfobjs, pdfetcs = {}, {} pdfetcs.pgfextgs = "pgf@sys@addpdfresource@extgs@plain" pdfetcs.pgfpattern = "pgf@sys@addpdfresource@patterns@plain" pdfetcs.pgfcolorspace = "pgf@sys@addpdfresource@colorspaces@plain" local function update_pdfobjs (os, stream) local key = os if stream then key = key..stream end local on = pdfobjs[key] if on then return on,false end if pdfmode then if stream then on = pdf.immediateobj("stream",stream,os) else on = pdf.immediateobj(os) end else on = pdfetcs.cnt or 1 if stream then texsprint(format("\\special{pdf:stream @mplibpdfobj%s (%s) <<%s>>}",on,stream,os)) else texsprint(format("\\special{pdf:obj @mplibpdfobj%s %s}",on,os)) end pdfetcs.cnt = on + 1 end pdfobjs[key] = on return on,true end pdfetcs.resfmt = pdfmode and "%s 0 R" or "@mplibpdfobj%s" if pdfmode then pdfetcs.getpageres = pdf.getpageresources or function() return pdf.pageresources end local getpageres = pdfetcs.getpageres local setpageres = pdf.setpageresources or function(s) pdf.pageresources = s end local initialize_resources = function (name) local tabname = format("%s_res",name) pdfetcs[tabname] = { } if luatexbase.callbacktypes.finish_pdffile then -- ltluatex local obj = pdf.reserveobj() setpageres(format("%s/%s %i 0 R", getpageres() or "", name, obj)) luatexbase.add_to_callback("finish_pdffile", function() pdf.immediateobj(obj, format("<<%s>>", tableconcat(pdfetcs[tabname]))) end, format("luamplib.%s.finish_pdffile",name)) end end pdfetcs.fallback_update_resources = function (name, res) local tabname = format("%s_res",name) if not pdfetcs[tabname] then initialize_resources(name) end if luatexbase.callbacktypes.finish_pdffile then local t = pdfetcs[tabname] t[#t+1] = res else local tpr, n = getpageres() or "", 0 tpr, n = tpr:gsub(format("/%s<<",name), "%1"..res) if n == 0 then tpr = format("%s/%s<<%s>>", tpr, name, res) end setpageres(tpr) end end else texsprint { "\\luamplibatfirstshipout{", "\\special{pdf:obj @MPlibTr<<>>}", "\\special{pdf:obj @MPlibSh<<>>}", "\\special{pdf:obj @MPlibCS<<>>}", "\\special{pdf:obj @MPlibPt<<>>}}", } pdfetcs.resadded = { } pdfetcs.fallback_update_resources = function (name,res,obj) texsprint{"\\special{pdf:put ", obj, " <<", res, ">>}"} if not pdfetcs.resadded[name] then texsprint{"\\luamplibateveryshipout{\\special{pdf:put @resources <>}}"} pdfetcs.resadded[name] = obj end end end % \end{macrocode} % % Transparency % \begin{macrocode} local transparancy_modes = { [0] = "Normal", "Normal", "Multiply", "Screen", "Overlay", "SoftLight", "HardLight", "ColorDodge", "ColorBurn", "Darken", "Lighten", "Difference", "Exclusion", "Hue", "Saturation", "Color", "Luminosity", "Compatible", } local function add_extgs_resources (on, new) local key = format("MPlibTr%s", on) if new then local val = format(pdfetcs.resfmt, on) if pdfmanagement then texsprint { "\\csname pdfmanagement_add:nnn\\endcsname{Page/Resources/ExtGState}{", key, "}{", val, "}" } else local tr = format("/%s %s", key, val) if is_defined(pdfetcs.pgfextgs) then texsprint { "\\csname ", pdfetcs.pgfextgs, "\\endcsname{", tr, "}" } elseif is_defined"TRP@list" then texsprint(catat11,{ [[\if@filesw\immediate\write\@auxout{]], [[\string\g@addto@macro\string\TRP@list{]], tr, [[}}\fi]], }) if not get_macro"TRP@list":find(tr) then texsprint(catat11,[[\global\TRP@reruntrue]]) end else pdfetcs.fallback_update_resources("ExtGState",tr,"@MPlibTr") end end end return key end local function do_preobj_TR(object,prescript) if object.postscript == "collect" then return end local opaq = prescript and prescript.tr_transparency if opaq then local key, on, os, new local mode = prescript.tr_alternative or 1 mode = transparancy_modes[tonumber(mode)] or mode opaq = format("%.3f", opaq) :gsub(decimals,rmzeros) for i,v in ipairs{ {mode,opaq},{"Normal",1} } do os = format("<>",v[1],v[2],v[2]) on, new = update_pdfobjs(os) key = add_extgs_resources(on,new) if i == 1 then pdf_literalcode("/%s gs",key) else return format("/%s gs",key) end end end end % \end{macrocode} % % Shading with \emph{metafun} format. % \begin{macrocode} local function sh_pdfpageresources(shtype,domain,colorspace,ca,cb,coordinates,steps,fractions) for _,v in ipairs{ca,cb} do for i,vv in ipairs(v) do for ii,vvv in ipairs(vv) do v[i][ii] = tonumber(vvv) and format("%.3f",vvv) or vvv end end end local fun2fmt,os = "<>" if steps > 1 then local list,bounds,encode = { },{ },{ } for i=1,steps do if i < steps then bounds[i] = format("%.3f", fractions[i] or 1) end encode[2*i-1] = 0 encode[2*i] = 1 os = fun2fmt:format(domain,tableconcat(ca[i],' '),tableconcat(cb[i],' ')) :gsub(decimals,rmzeros) list[i] = format(pdfetcs.resfmt, update_pdfobjs(os)) end os = tableconcat { "<>", domain), } :gsub(decimals,rmzeros) else os = fun2fmt:format(domain,tableconcat(ca[1],' '),tableconcat(cb[1],' ')) :gsub(decimals,rmzeros) end local objref = format(pdfetcs.resfmt, update_pdfobjs(os)) os = tableconcat { format("<>", } :gsub(decimals,rmzeros) local on, new = update_pdfobjs(os) if new then local key, val = format("MPlibSh%s", on), format(pdfetcs.resfmt, on) if pdfmanagement then texsprint { "\\csname pdfmanagement_add:nnn\\endcsname{Page/Resources/Shading}{", key, "}{", val, "}" } else local res = format("/%s %s", key, val) pdfetcs.fallback_update_resources("Shading",res,"@MPlibSh") end end return on end local function color_normalize(ca,cb) if #cb == 1 then if #ca == 4 then cb[1], cb[2], cb[3], cb[4] = 0, 0, 0, 1-cb[1] else -- #ca = 3 cb[1], cb[2], cb[3] = cb[1], cb[1], cb[1] end elseif #cb == 3 then -- #ca == 4 cb[1], cb[2], cb[3], cb[4] = 1-cb[1], 1-cb[2], 1-cb[3], 0 end end pdfetcs.clrspcs = setmetatable({ }, { __index = function(t,names) run_tex_code({ [[\color_model_new:nnn]], format("{mplibcolorspace_%s}", names:gsub(",","_")), format("{DeviceN}{names={%s}}", names), [[\edef\mplib_@tempa{\pdf_object_ref_last:}]], }, ccexplat) local colorspace = get_macro'mplib_@tempa' t[names] = colorspace return colorspace end }) local function do_preobj_SH(object,prescript) local shade_no local sh_type = prescript and prescript.sh_type if not sh_type then return else local domain = prescript.sh_domain or "0 1" local centera = (prescript.sh_center_a or "0 0"):explode() local centerb = (prescript.sh_center_b or "0 0"):explode() local transform = prescript.sh_transform == "yes" local sx,sy,sr,dx,dy = 1,1,1,0,0 if transform then local first = (prescript.sh_first or "0 0"):explode() local setx = (prescript.sh_set_x or "0 0"):explode() local sety = (prescript.sh_set_y or "0 0"):explode() local x,y = tonumber(setx[1]) or 0, tonumber(sety[1]) or 0 if x ~= 0 and y ~= 0 then local path = object.path local path1x = path[1].x_coord local path1y = path[1].y_coord local path2x = path[x].x_coord local path2y = path[y].y_coord local dxa = path2x - path1x local dya = path2y - path1y local dxb = setx[2] - first[1] local dyb = sety[2] - first[2] if dxa ~= 0 and dya ~= 0 and dxb ~= 0 and dyb ~= 0 then sx = dxa / dxb ; if sx < 0 then sx = - sx end sy = dya / dyb ; if sy < 0 then sy = - sy end sr = math.sqrt(sx^2 + sy^2) dx = path1x - sx*first[1] dy = path1y - sy*first[2] end end end local ca, cb, colorspace, steps, fractions ca = { (prescript.sh_color_a_1 or prescript.sh_color_a or "0"):explode":" } cb = { (prescript.sh_color_b_1 or prescript.sh_color_b or "1"):explode":" } steps = tonumber(prescript.sh_step) or 1 if steps > 1 then fractions = { prescript.sh_fraction_1 or 0 } for i=2,steps do fractions[i] = prescript[format("sh_fraction_%i",i)] or (i/steps) ca[i] = (prescript[format("sh_color_a_%i",i)] or "0"):explode":" cb[i] = (prescript[format("sh_color_b_%i",i)] or "1"):explode":" end end if prescript.mplib_spotcolor then ca, cb = { }, { } local names, pos, objref = { }, -1, "" local script = object.prescript:explode"\13+" for i=#script,1,-1 do if script[i]:find"mplib_spotcolor" then local t, name, value = script[i]:explode"="[2]:explode":" value, objref, name = t[1], t[2], t[3] if not names[name] then pos = pos+1 names[name] = pos names[#names+1] = name end t = { } for j=1,names[name] do t[#t+1] = 0 end t[#t+1] = value tableinsert(#ca == #cb and ca or cb, t) end end for _,t in ipairs{ca,cb} do for _,tt in ipairs(t) do for i=1,#names-#tt do tt[#tt+1] = 0 end end end if #names == 1 then colorspace = objref else colorspace = pdfetcs.clrspcs[ tableconcat(names,",") ] end else local model = 0 for _,t in ipairs{ca,cb} do for _,tt in ipairs(t) do model = model > #tt and model or #tt end end for _,t in ipairs{ca,cb} do for _,tt in ipairs(t) do if #tt < model then color_normalize(model == 4 and {1,1,1,1} or {1,1,1},tt) end end end colorspace = model == 4 and "/DeviceCMYK" or model == 3 and "/DeviceRGB" or model == 1 and "/DeviceGray" or err"unknown color model" end if sh_type == "linear" then local coordinates = format("%f %f %f %f", dx + sx*centera[1], dy + sy*centera[2], dx + sx*centerb[1], dy + sy*centerb[2]) shade_no = sh_pdfpageresources(2,domain,colorspace,ca,cb,coordinates,steps,fractions) elseif sh_type == "circular" then local factor = prescript.sh_factor or 1 local radiusa = factor * prescript.sh_radius_a local radiusb = factor * prescript.sh_radius_b local coordinates = format("%f %f %f %f %f %f", dx + sx*centera[1], dy + sy*centera[2], sr*radiusa, dx + sx*centerb[1], dy + sy*centerb[2], sr*radiusb) shade_no = sh_pdfpageresources(3,domain,colorspace,ca,cb,coordinates,steps,fractions) else err"unknown shading type" end end return shade_no end % \end{macrocode} % % Patterns % \begin{macrocode} pdfetcs.patterns = { } local function gather_resources (optres) local t, do_pattern = { }, not optres local names = {"ExtGState","ColorSpace","Shading"} if do_pattern then names[#names+1] = "Pattern" end if pdfmode then if pdfmanagement then for _,v in ipairs(names) do local pp = get_macro(format("g__pdfdict_/g__pdf_Core/Page/Resources/%s_prop",v)) if pp and pp:find"__prop_pair" then t[#t+1] = format("/%s %s 0 R", v, ltx.pdf.object_id("__pdf/Page/Resources/"..v)) end end else local res = pdfetcs.getpageres() or "" run_tex_code[[\mplibtmptoks\expandafter{\the\pdfvariable pageresources}]] res = res .. texgettoks'mplibtmptoks' if do_pattern then return res end res = res:explode"/+" for _,v in ipairs(res) do v = v:match"^%s*(.-)%s*$" if not v:find"Pattern" and not optres:find(v) then t[#t+1] = "/" .. v end end end else if pdfmanagement then for _,v in ipairs(names) do local pp = get_macro(format("g__pdfdict_/g__pdf_Core/Page/Resources/%s_prop",v)) if pp and pp:find"__prop_pair" then run_tex_code { "\\mplibtmptoks\\expanded{{", format("/%s \\csname pdf_object_ref:n\\endcsname{__pdf/Page/Resources/%s}",v,v), "}}", } t[#t+1] = texgettoks'mplibtmptoks' end end elseif is_defined(pdfetcs.pgfextgs) then run_tex_code ({ "\\mplibtmptoks\\expanded{{", "\\ifpgf@sys@pdf@extgs@exists /ExtGState @pgfextgs\\fi", "\\ifpgf@sys@pdf@colorspaces@exists /ColorSpace @pgfcolorspaces\\fi", do_pattern and "\\ifpgf@sys@pdf@patterns@exists /Pattern @pgfpatterns \\fi" or "", "}}", }, catat11) t[#t+1] = texgettoks'mplibtmptoks' else for _,v in ipairs(names) do local vv = pdfetcs.resadded[v] if vv then t[#t+1] = format("/%s %s", v, vv) end end end end return tableconcat(t) end function luamplib.registerpattern ( boxid, name, opts ) local box = texgetbox(boxid) local wd = format("%.3f",box.width/factor) local hd = format("%.3f",(box.height+box.depth)/factor) info("w/h/d of pattern '%s': %s 0", name, format("%s %s",wd, hd):gsub(decimals,rmzeros)) if opts.xstep == 0 then opts.xstep = nil end if opts.ystep == 0 then opts.ystep = nil end if opts.colored == nil then opts.colored = opts.coloured if opts.colored == nil then opts.colored = true end end if type(opts.matrix) == "table" then opts.matrix = tableconcat(opts.matrix," ") end if type(opts.bbox) == "table" then opts.bbox = tableconcat(opts.bbox," ") end if opts.matrix and opts.matrix:find"%a" then local data = format("mplibtransformmatrix(%s);",opts.matrix) process(data,"@mplibtransformmatrix") local t = luamplib.transformmatrix opts.matrix = format("%f %f %f %f", t[1], t[2], t[3], t[4]) opts.xshift = opts.xshift or format("%f",t[5]) opts.yshift = opts.yshift or format("%f",t[6]) end local attr = { "/Type/Pattern", "/PatternType 1", format("/PaintType %i", opts.colored and 1 or 2), "/TilingType 2", format("/XStep %s", opts.xstep or wd), format("/YStep %s", opts.ystep or hd), format("/Matrix[%s %s %s]", opts.matrix or "1 0 0 1", opts.xshift or 0, opts.yshift or 0), } local optres = opts.resources or "" optres = optres .. gather_resources(optres) local patterns = pdfetcs.patterns if pdfmode then if opts.bbox then attr[#attr+1] = format("/BBox[%s]", opts.bbox) end attr = tableconcat(attr) :gsub(decimals,rmzeros) local index = tex.saveboxresource(boxid, attr, optres, true, opts.bbox and 4 or 1) patterns[name] = { id = index, colored = opts.colored } else local cnt = #patterns + 1 local objname = "@mplibpattern" .. cnt local metric = format("bbox %s", opts.bbox or format("0 0 %s %s",wd,hd)) texsprint { "\\expandafter\\newbox\\csname luamplib.patternbox.", cnt, "\\endcsname", "\\global\\setbox\\csname luamplib.patternbox.", cnt, "\\endcsname", "\\hbox{\\unhbox ", boxid, "}\\luamplibatnextshipout{", "\\special{pdf:bcontent}", "\\special{pdf:bxobj ", objname, " ", metric, "}", "\\raise\\dp\\csname luamplib.patternbox.", cnt, "\\endcsname", "\\box\\csname luamplib.patternbox.", cnt, "\\endcsname", "\\special{pdf:put @resources <<", optres, ">>}", "\\special{pdf:exobj <<", tableconcat(attr), ">>}", "\\special{pdf:econtent}}", } patterns[cnt] = objname patterns[name] = { id = cnt, colored = opts.colored } end end local function pattern_colorspace (cs) local on, new = update_pdfobjs(format("[/Pattern %s]", cs)) if new then local key, val = format("MPlibCS%i",on), format(pdfetcs.resfmt,on) if pdfmanagement then texsprint { "\\csname pdfmanagement_add:nnn\\endcsname{Page/Resources/ColorSpace}{", key, "}{", val, "}" } else local res = format("/%s %s", key, val) if is_defined(pdfetcs.pgfcolorspace) then texsprint { "\\csname ", pdfetcs.pgfcolorspace, "\\endcsname{", res, "}" } else pdfetcs.fallback_update_resources("ColorSpace",res,"@MPlibCS") end end end return on end local function do_preobj_PAT(object, prescript) local name = prescript and prescript.mplibpattern if not name then return end local patterns = pdfetcs.patterns local patt = patterns[name] local index = patt and patt.id or err("cannot get pattern object '%s'", name) local key = format("MPlibPt%s",index) if patt.colored then pdf_literalcode("/Pattern cs /%s scn", key) else local color = prescript.mpliboverridecolor if not color then local t = object.color color = t and #t>0 and luamplib.colorconverter(t) end if not color then return end local cs if color:find" cs " or color:find"@pdf.obj" then local t = color:explode() if pdfmode then cs = format("%s 0 R", ltx.pdf.object_id( t[1]:sub(2,-1) )) color = t[3] else cs = t[2] color = t[3]:match"%[(.+)%]" end else local t = colorsplit(color) cs = #t == 4 and "/DeviceCMYK" or #t == 3 and "/DeviceRGB" or "/DeviceGray" color = tableconcat(t," ") end pdf_literalcode("/MPlibCS%i cs %s /%s scn", pattern_colorspace(cs), color, key) end if not patt.done then local val = pdfmode and format("%s 0 R",index) or patterns[index] if pdfmanagement then texsprint { "\\csname pdfmanagement_add:nnn\\endcsname{Page/Resources/Pattern}{", key, "}{", val, "}" } else local res = format("/%s %s", key, val) if is_defined(pdfetcs.pgfpattern) then texsprint { "\\csname ", pdfetcs.pgfpattern, "\\endcsname{", res, "}" } else pdfetcs.fallback_update_resources("Pattern",res,"@MPlibPt") end end end patt.done = true end % \end{macrocode} % % Fading % \begin{macrocode} pdfetcs.fading = { } local function do_preobj_FADE (object, prescript) local fd_type = prescript and prescript.mplibfadetype local fd_stop = prescript and prescript.mplibfadestate if not fd_type then return fd_stop -- returns "stop" (if picture) or nil end local bbox = prescript.mplibfadebbox:explode":" local dx, dy = -bbox[1], -bbox[2] local vec = prescript.mplibfadevector; vec = vec and vec:explode":" if not vec then if fd_type == "linear" then vec = {bbox[1], bbox[2], bbox[3], bbox[2]} -- left to right else local centerx, centery = (bbox[1]+bbox[3])/2, (bbox[2]+bbox[4])/2 vec = {centerx, centery, centerx, centery} -- center for both circles end end local coords = { vec[1]+dx, vec[2]+dy, vec[3]+dx, vec[4]+dy } if fd_type == "linear" then coords = format("%f %f %f %f", tableunpack(coords)) elseif fd_type == "circular" then local width, height = bbox[3]-bbox[1], bbox[4]-bbox[2] local radius = (prescript.mplibfaderadius or "0:"..math.sqrt(width^2+height^2)/2):explode":" tableinsert(coords, 3, radius[1]) tableinsert(coords, radius[2]) coords = format("%f %f %f %f %f %f", tableunpack(coords)) else err("unknown fading method '%s'", fd_type) end fd_type = fd_type == "linear" and 2 or 3 local opaq = (prescript.mplibfadeopacity or "1:0"):explode":" local on, os, new on = sh_pdfpageresources(fd_type, "0 1", "/DeviceGray", {{opaq[1]}}, {{opaq[2]}}, coords, 1) os = format("<>", format(pdfetcs.resfmt, on)) on = update_pdfobjs(os) bbox = format("0 0 %f %f", bbox[3]+dx, bbox[4]+dy) local streamtext = format("q /Pattern cs/MPlibFd%s scn %s re f Q", on, bbox) :gsub(decimals,rmzeros) os = format("<>>>", on, format(pdfetcs.resfmt, on)) on = update_pdfobjs(os) local resources = format(pdfetcs.resfmt, on) on = update_pdfobjs"<>" local attr = tableconcat{ "/Subtype/Form", "/BBox[", bbox, "]", "/Matrix[1 0 0 1 ", format("%f %f", -dx,-dy), "]", "/Resources ", resources, "/Group ", format(pdfetcs.resfmt, on), } :gsub(decimals,rmzeros) on = update_pdfobjs(attr, streamtext) os = "<>>>" on, new = update_pdfobjs(os) local key = add_extgs_resources(on,new) start_pdf_code() pdf_literalcode("/%s gs", key) if fd_stop then return "standalone" end return "start" end % \end{macrocode} % % Transparency Group % \begin{macrocode} pdfetcs.tr_group = { shifts = { } } luamplib.trgroupshifts = pdfetcs.tr_group.shifts local function do_preobj_GRP (object, prescript) local grstate = prescript and prescript.gr_state if not grstate then return end local trgroup = pdfetcs.tr_group if grstate == "start" then trgroup.name = prescript.mplibgroupname or "lastmplibgroup" trgroup.isolated, trgroup.knockout = false, false for _,v in ipairs(prescript.gr_type:explode",+") do trgroup[v] = true end trgroup.bbox = prescript.mplibgroupbbox:explode":" put2output[[\begingroup\setbox\mplibscratchbox\hbox\bgroup]] elseif grstate == "stop" then local llx,lly,urx,ury = tableunpack(trgroup.bbox) put2output(tableconcat{ "\\egroup", format("\\wd\\mplibscratchbox %fbp", urx-llx), format("\\ht\\mplibscratchbox %fbp", ury-lly), "\\dp\\mplibscratchbox 0pt", }) local grattr = format("/Group<>",trgroup.isolated,trgroup.knockout) local res = gather_resources() local bbox = format("%f %f %f %f", llx,lly,urx,ury) :gsub(decimals,rmzeros) if pdfmode then put2output(tableconcat{ "\\saveboxresource type 2 attr{/Type/XObject/Subtype/Form/FormType 1", "/BBox[", bbox, "]", grattr, "} resources{", res, "}\\mplibscratchbox", [[\setbox\mplibscratchbox\hbox{\useboxresource\lastsavedboxresourceindex}]], [[\wd\mplibscratchbox 0pt\ht\mplibscratchbox 0pt\dp\mplibscratchbox 0pt]], [[\box\mplibscratchbox\endgroup]], "\\expandafter\\xdef\\csname luamplib.group.", trgroup.name, "\\endcsname{", "\\noexpand\\mplibstarttoPDF{",llx,"}{",lly,"}{",urx,"}{",ury,"}", "\\useboxresource \\the\\lastsavedboxresourceindex\\noexpand\\mplibstoptoPDF}", }) else trgroup.cnt = (trgroup.cnt or 0) + 1 local objname = format("@mplibtrgr%s", trgroup.cnt) put2output(tableconcat{ "\\special{pdf:bxobj ", objname, " bbox ", bbox, "}", "\\unhbox\\mplibscratchbox", "\\special{pdf:put @resources <<", res, ">>}", "\\special{pdf:exobj <<", grattr, ">>}", "\\special{pdf:uxobj ", objname, "}\\endgroup", }) token.set_macro("luamplib.group."..trgroup.name, tableconcat{ "\\mplibstarttoPDF{",llx,"}{",lly,"}{",urx,"}{",ury,"}", "\\special{pdf:uxobj ", objname, "}\\mplibstoptoPDF", }, "global") end trgroup.shifts[trgroup.name] = { llx, lly } end return grstate end function luamplib.registergroup (boxid, name, opts) local box = texgetbox(boxid) local wd, ht, dp = node.getwhd(box) local res = (opts.resources or "") .. gather_resources() local attr = { "/Type/XObject/Subtype/Form/FormType 1" } if type(opts.matrix) == "table" then opts.matrix = tableconcat(opts.matrix," ") end if type(opts.bbox) == "table" then opts.bbox = tableconcat(opts.bbox," ") end if opts.matrix and opts.matrix:find"%a" then local data = format("mplibtransformmatrix(%s);",opts.matrix) process(data,"@mplibtransformmatrix") opts.matrix = format("%f %f %f %f %f %f",tableunpack(luamplib.transformmatrix)) end local grtype = 3 if opts.bbox then attr[#attr+1] = format("/BBox[%s]", opts.bbox) grtype = 2 end if opts.matrix then attr[#attr+1] = format("/Matrix[%s]", opts.matrix) grtype = opts.bbox and 4 or 1 end if opts.asgroup then local t = { isolated = false, knockout = false } for _,v in ipairs(opts.asgroup:explode",+") do t[v] = true end attr[#attr+1] = format("/Group<>", t.isolated, t.knockout) end local trgroup = pdfetcs.tr_group trgroup.shifts[name] = { get_macro'MPllx', get_macro'MPlly' } local whd local urx, ury = wd/factor, (ht+dp)/factor if pdfmode then attr = tableconcat(attr) :gsub(decimals,rmzeros) local index = tex.saveboxresource(boxid, attr, res, true, grtype) token.set_macro("luamplib.group."..name, tableconcat{ "\\mplibstarttoPDF{0}{0}{",urx,"}{",ury,"}", "\\useboxresource ", index, "\\mplibstoptoPDF", }, "global") whd = format("%.3f %.3f 0", urx, ury) :gsub(decimals,rmzeros) else trgroup.cnt = (trgroup.cnt or 0) + 1 local objname = format("@mplibtrgr%s", trgroup.cnt) texsprint { "\\expandafter\\newbox\\csname luamplib.groupbox.", trgroup.cnt, "\\endcsname", "\\global\\setbox\\csname luamplib.groupbox.", trgroup.cnt, "\\endcsname", "\\hbox{\\unhbox ", boxid, "}\\luamplibatnextshipout{", "\\special{pdf:bcontent}", "\\special{pdf:bxobj ", objname, " width ", wd, "sp height ", ht, "sp depth ", dp, "sp}", "\\unhbox\\csname luamplib.groupbox.", trgroup.cnt, "\\endcsname", "\\special{pdf:put @resources <<", res, ">>}", "\\special{pdf:exobj <<", tableconcat(attr), ">>}", "\\special{pdf:econtent}}", } token.set_macro("luamplib.group."..name, tableconcat{ "\\mplibstarttoPDF{0}{0}{",urx,"}{",ury,"}", "\\setbox\\mplibscratchbox\\hbox{\\special{pdf:uxobj ", objname, "}}", "\\wd\\mplibscratchbox ", wd, "sp", "\\ht\\mplibscratchbox ", ht, "sp", "\\dp\\mplibscratchbox ", dp, "sp", "\\box\\mplibscratchbox", "\\mplibstoptoPDF", }, "global") whd = format("%.3f %.3f %.3f", urx, ht/factor, dp/factor) :gsub(decimals,rmzeros) end info("w/h/d of group '%s': %s", name, whd) end local function stop_special_effects(fade,opaq,over) if fade then -- fading stop_pdf_code() end if opaq then -- opacity pdf_literalcode(opaq) end if over then -- color put2output"\\special{pdf:ec}" end end % \end{macrocode} % % Codes below for inserting PDF lieterals are mostly from ConTeXt general, % with small changes when needed. % \begin{macrocode} local function getobjects(result,figure,f) return figure:objects() end function luamplib.convert (result, flusher) luamplib.flush(result, flusher) return true -- done end local function pdf_textfigure(font,size,text,width,height,depth) text = text:gsub(".",function(c) return format("\\hbox{\\char%i}",string.byte(c)) -- kerning happens in metapost : false end) put2output("\\mplibtextext{%s}{%f}{%s}{%s}{%s}",font,size,text,0,0) end local bend_tolerance = 131/65536 local rx, sx, sy, ry, tx, ty, divider = 1, 0, 0, 1, 0, 0, 1 local function pen_characteristics(object) local t = mplib.pen_info(object) rx, ry, sx, sy, tx, ty = t.rx, t.ry, t.sx, t.sy, t.tx, t.ty divider = sx*sy - rx*ry return not (sx==1 and rx==0 and ry==0 and sy==1 and tx==0 and ty==0), t.width end local function concat(px, py) -- no tx, ty here return (sy*px-ry*py)/divider,(sx*py-rx*px)/divider end local function curved(ith,pth) local d = pth.left_x - ith.right_x if abs(ith.right_x - ith.x_coord - d) <= bend_tolerance and abs(pth.x_coord - pth.left_x - d) <= bend_tolerance then d = pth.left_y - ith.right_y if abs(ith.right_y - ith.y_coord - d) <= bend_tolerance and abs(pth.y_coord - pth.left_y - d) <= bend_tolerance then return false end end return true end local function flushnormalpath(path,open) local pth, ith for i=1,#path do pth = path[i] if not ith then pdf_literalcode("%f %f m",pth.x_coord,pth.y_coord) elseif curved(ith,pth) then pdf_literalcode("%f %f %f %f %f %f c",ith.right_x,ith.right_y,pth.left_x,pth.left_y,pth.x_coord,pth.y_coord) else pdf_literalcode("%f %f l",pth.x_coord,pth.y_coord) end ith = pth end if not open then local one = path[1] if curved(pth,one) then pdf_literalcode("%f %f %f %f %f %f c",pth.right_x,pth.right_y,one.left_x,one.left_y,one.x_coord,one.y_coord ) else pdf_literalcode("%f %f l",one.x_coord,one.y_coord) end elseif #path == 1 then -- special case .. draw point local one = path[1] pdf_literalcode("%f %f l",one.x_coord,one.y_coord) end end local function flushconcatpath(path,open) pdf_literalcode("%f %f %f %f %f %f cm", sx, rx, ry, sy, tx ,ty) local pth, ith for i=1,#path do pth = path[i] if not ith then pdf_literalcode("%f %f m",concat(pth.x_coord,pth.y_coord)) elseif curved(ith,pth) then local a, b = concat(ith.right_x,ith.right_y) local c, d = concat(pth.left_x,pth.left_y) pdf_literalcode("%f %f %f %f %f %f c",a,b,c,d,concat(pth.x_coord, pth.y_coord)) else pdf_literalcode("%f %f l",concat(pth.x_coord, pth.y_coord)) end ith = pth end if not open then local one = path[1] if curved(pth,one) then local a, b = concat(pth.right_x,pth.right_y) local c, d = concat(one.left_x,one.left_y) pdf_literalcode("%f %f %f %f %f %f c",a,b,c,d,concat(one.x_coord, one.y_coord)) else pdf_literalcode("%f %f l",concat(one.x_coord,one.y_coord)) end elseif #path == 1 then -- special case .. draw point local one = path[1] pdf_literalcode("%f %f l",concat(one.x_coord,one.y_coord)) end end % \end{macrocode} % % Finally, flush figures by inserting PDF literals. % \begin{macrocode} function luamplib.flush (result,flusher) if result then local figures = result.fig if figures then for f=1, #figures do info("flushing figure %s",f) local figure = figures[f] local objects = getobjects(result,figure,f) local fignum = tonumber(figure:filename():match("([%d]+)$") or figure:charcode() or 0) local miterlimit, linecap, linejoin, dashed = -1, -1, -1, false local bbox = figure:boundingbox() local llx, lly, urx, ury = bbox[1], bbox[2], bbox[3], bbox[4] -- faster than unpack if urx < llx then % \end{macrocode} % luamplib silently ignores this invalid figure for those % that do not contain |beginfig ... endfig|. (issue \#70) % Original code of ConTeXt general was: %\begin{verbatim} % -- invalid % pdf_startfigure(fignum,0,0,0,0) % pdf_stopfigure() %\end{verbatim} % \begin{macrocode} else % \end{macrocode} % For legacy behavior, insert `pre-fig' \TeX\ code here. % \begin{macrocode} if tex_code_pre_mplib[f] then put2output(tex_code_pre_mplib[f]) end pdf_startfigure(fignum,llx,lly,urx,ury) start_pdf_code() if objects then local savedpath = nil local savedhtap = nil for o=1,#objects do local object = objects[o] local objecttype = object.type % \end{macrocode} % The following 9 lines are part of |btex...etex| patch. % Again, colors are processed at this stage. % \begin{macrocode} local prescript = object.prescript prescript = prescript and script2table(prescript) -- prescript is now a table local cr_over = do_preobj_CR(object,prescript) -- color local tr_opaq = do_preobj_TR(object,prescript) -- opacity local fading_ = do_preobj_FADE(object,prescript) -- fading local trgroup = do_preobj_GRP(object,prescript) -- transparency group local pattern_ = do_preobj_PAT(object,prescript) -- pattern if prescript and prescript.mplibtexboxid then put_tex_boxes(object,prescript) elseif objecttype == "start_bounds" or objecttype == "stop_bounds" then --skip elseif objecttype == "start_clip" then local evenodd = not object.istext and object.postscript == "evenodd" start_pdf_code() flushnormalpath(object.path,false) pdf_literalcode(evenodd and "W* n" or "W n") elseif objecttype == "stop_clip" then stop_pdf_code() miterlimit, linecap, linejoin, dashed = -1, -1, -1, false elseif objecttype == "special" then % \end{macrocode} % Collect \TeX\ codes that will be executed after flushing. % Legacy behavior. % \begin{macrocode} if prescript and prescript.postmplibverbtex then figcontents.post[#figcontents.post+1] = prescript.postmplibverbtex end elseif objecttype == "text" then local ot = object.transform -- 3,4,5,6,1,2 start_pdf_code() pdf_literalcode("%f %f %f %f %f %f cm",ot[3],ot[4],ot[5],ot[6],ot[1],ot[2]) pdf_textfigure(object.font,object.dsize,object.text,object.width,object.height,object.depth) stop_pdf_code() elseif not trgroup and fading_ ~= "stop" then local evenodd, collect, both = false, false, false local postscript = object.postscript if not object.istext then if postscript == "evenodd" then evenodd = true elseif postscript == "collect" then collect = true elseif postscript == "both" then both = true elseif postscript == "eoboth" then evenodd = true both = true end end if collect then if not savedpath then savedpath = { object.path or false } savedhtap = { object.htap or false } else savedpath[#savedpath+1] = object.path or false savedhtap[#savedhtap+1] = object.htap or false end else % \end{macrocode} % Removed from ConTeXt general: color stuff. % \begin{macrocode} local ml = object.miterlimit if ml and ml ~= miterlimit then miterlimit = ml pdf_literalcode("%f M",ml) end local lj = object.linejoin if lj and lj ~= linejoin then linejoin = lj pdf_literalcode("%i j",lj) end local lc = object.linecap if lc and lc ~= linecap then linecap = lc pdf_literalcode("%i J",lc) end local dl = object.dash if dl then local d = format("[%s] %f d",tableconcat(dl.dashes or {}," "),dl.offset) if d ~= dashed then dashed = d pdf_literalcode(dashed) end elseif dashed then pdf_literalcode("[] 0 d") dashed = false end local path = object.path local transformed, penwidth = false, 1 local open = path and path[1].left_type and path[#path].right_type local pen = object.pen if pen then if pen.type == 'elliptical' then transformed, penwidth = pen_characteristics(object) -- boolean, value pdf_literalcode("%f w",penwidth) if objecttype == 'fill' then objecttype = 'both' end else -- calculated by mplib itself objecttype = 'fill' end end % \end{macrocode} % Added : shading % \begin{macrocode} local shade_no = do_preobj_SH(object,prescript) -- shading if shade_no then pdf_literalcode"q /Pattern cs" objecttype = false end if transformed then start_pdf_code() end if path then if savedpath then for i=1,#savedpath do local path = savedpath[i] if transformed then flushconcatpath(path,open) else flushnormalpath(path,open) end end savedpath = nil end if transformed then flushconcatpath(path,open) else flushnormalpath(path,open) end if objecttype == "fill" then pdf_literalcode(evenodd and "h f*" or "h f") elseif objecttype == "outline" then if both then pdf_literalcode(evenodd and "h B*" or "h B") else pdf_literalcode(open and "S" or "h S") end elseif objecttype == "both" then pdf_literalcode(evenodd and "h B*" or "h B") end end if transformed then stop_pdf_code() end local path = object.htap % \end{macrocode} % How can we generate an |htap| object? Please let us know if you have succeeded. % \begin{macrocode} if path then if transformed then start_pdf_code() end if savedhtap then for i=1,#savedhtap do local path = savedhtap[i] if transformed then flushconcatpath(path,open) else flushnormalpath(path,open) end end savedhtap = nil evenodd = true end if transformed then flushconcatpath(path,open) else flushnormalpath(path,open) end if objecttype == "fill" then pdf_literalcode(evenodd and "h f*" or "h f") elseif objecttype == "outline" then pdf_literalcode(open and "S" or "h S") elseif objecttype == "both" then pdf_literalcode(evenodd and "h B*" or "h B") end if transformed then stop_pdf_code() end end % \end{macrocode} % Added to ConTeXt general: post-object colors and shading stuff. % We should beware the |q ... Q| scope. % \begin{macrocode} if shade_no then -- shading pdf_literalcode("W%s n /MPlibSh%s sh Q",evenodd and "*" or "",shade_no) end end end if fading_ == "start" then pdfetcs.fading.specialeffects = {fading_, tr_opaq, cr_over} elseif trgroup == "start" then pdfetcs.tr_group.specialeffects = {fading_, tr_opaq, cr_over} elseif fading_ == "stop" then local se = pdfetcs.fading.specialeffects if se then stop_special_effects(se[1], se[2], se[3]) end elseif trgroup == "stop" then local se = pdfetcs.tr_group.specialeffects if se then stop_special_effects(se[1], se[2], se[3]) end else stop_special_effects(fading_, tr_opaq, cr_over) end if fading_ or trgroup then -- extgs resetted miterlimit, linecap, linejoin, dashed = -1, -1, -1, false end end end stop_pdf_code() pdf_stopfigure() % \end{macrocode} % output collected materials to PDF, plus legacy |verbatimtex| code. % \begin{macrocode} for _,v in ipairs(figcontents) do if type(v) == "table" then texsprint"\\mplibtoPDF{"; texsprint(v[1], v[2]); texsprint"}" else texsprint(v) end end if #figcontents.post > 0 then texsprint(figcontents.post) end figcontents = { post = { } } end end end end end function luamplib.colorconverter (cr) local n = #cr if n == 4 then local c, m, y, k = cr[1], cr[2], cr[3], cr[4] return format("%.3f %.3f %.3f %.3f k %.3f %.3f %.3f %.3f K",c,m,y,k,c,m,y,k), "0 g 0 G" elseif n == 3 then local r, g, b = cr[1], cr[2], cr[3] return format("%.3f %.3f %.3f rg %.3f %.3f %.3f RG",r,g,b,r,g,b), "0 g 0 G" else local s = cr[1] return format("%.3f g %.3f G",s,s), "0 g 0 G" end end % \end{macrocode} % % \iffalse % % \fi % % \subsection{\texorpdfstring{\TeX}{TeX} package} % % % \iffalse %<*package> % \fi % % First we need to load some packages. % % \begin{macrocode} \ifcsname ProvidesPackage\endcsname % \end{macrocode} % We need \LaTeX\ 2024-06-01 as we use |ltx.pdf.object_id| when pdfmanagement is loaded. % But as \pkg{fp} package does not accept an option, we do not append the date option. % \begin{macrocode} \NeedsTeXFormat{LaTeX2e} \ProvidesPackage{luamplib} [2024/11/25 v2.35.1 mplib package for LuaTeX] \fi \ifdefined\newluafunction\else \input ltluatex \fi % \end{macrocode} % % In DVI mode, a new XObject (mppattern, mplibgroup) must be encapsulated in an \cs{hbox}. % But this should not affect typesetting. So we use Hook mechanism provided by \LaTeX\ kernel. % In Plain, \pkg{atbegshi.sty} is loaded. % \begin{macrocode} \ifnum\outputmode=0 \ifdefined\AddToHookNext \def\luamplibatnextshipout{\AddToHookNext{shipout/background}} \def\luamplibatfirstshipout{\AddToHook{shipout/firstpage}} \def\luamplibateveryshipout{\AddToHook{shipout/background}} \else \input atbegshi.sty \def\luamplibatnextshipout#1{\AtBeginShipoutNext{\AtBeginShipoutAddToBox{#1}}} \let\luamplibatfirstshipout\AtBeginShipoutFirst \def\luamplibateveryshipout#1{\AtBeginShipout{\AtBeginShipoutAddToBox{#1}}} \fi \fi % \end{macrocode} % % Loading of lua code. % \begin{macrocode} \directlua{require("luamplib")} % \end{macrocode} % % legacy commands. Seems we don't need it, but no harm. % \begin{macrocode} \ifx\pdfoutput\undefined \let\pdfoutput\outputmode \fi \ifx\pdfliteral\undefined \protected\def\pdfliteral{\pdfextension literal} \fi % \end{macrocode} % % Set the format for \metapost. % \begin{macrocode} \def\mplibsetformat#1{\directlua{luamplib.setformat("#1")}} % \end{macrocode} % % luamplib works in both PDF and DVI mode, % but only DVIPDFMx is supported currently among a number of DVI tools. % So we output a info. % \begin{macrocode} \ifnum\pdfoutput>0 \let\mplibtoPDF\pdfliteral \else \def\mplibtoPDF#1{\special{pdf:literal direct #1}} \ifcsname PackageInfo\endcsname \PackageInfo{luamplib}{only dvipdfmx is supported currently} \else \immediate\write-1{luamplib Info: only dvipdfmx is supported currently} \fi \fi % \end{macrocode} % % To make |mplibcode| typeset always in horizontal mode. % \begin{macrocode} \def\mplibforcehmode{\let\prependtomplibbox\leavevmode} \def\mplibnoforcehmode{\let\prependtomplibbox\relax} \mplibnoforcehmode % \end{macrocode} % % Catcode. We want to allow comment sign in |mplibcode|. % \begin{macrocode} \def\mplibsetupcatcodes{% %catcode`\{=12 %catcode`\}=12 \catcode`\#=12 \catcode`\^=12 \catcode`\~=12 \catcode`\_=12 \catcode`\&=12 \catcode`\$=12 \catcode`\%=12 \catcode`\^^M=12 } % \end{macrocode} % % Make |btex...etex| box zero-metric. % \begin{macrocode} \def\mplibputtextbox#1{\vbox to 0pt{\vss\hbox to 0pt{\raise\dp#1\copy#1\hss}}} % \end{macrocode} % % use Transparency Group % \begin{macrocode} \protected\def\usemplibgroup#1#{\usemplibgroupmain} \def\usemplibgroupmain#1{\csname luamplib.group.#1\endcsname} \protected\def\mplibgroup#1{% \begingroup \def\MPllx{0}\def\MPlly{0}% \def\mplibgroupname{#1}% \mplibgroupgetnexttok } \def\mplibgroupgetnexttok{\futurelet\nexttok\mplibgroupbranch} \def\mplibgroupskipspace{\afterassignment\mplibgroupgetnexttok\let\nexttok= } \def\mplibgroupbranch{% \ifx [\nexttok \expandafter\mplibgroupopts \else \ifx\mplibsptoken\nexttok \expandafter\expandafter\expandafter\mplibgroupskipspace \else \let\mplibgroupoptions\empty \expandafter\expandafter\expandafter\mplibgroupmain \fi \fi } \def\mplibgroupopts[#1]{\def\mplibgroupoptions{#1}\mplibgroupmain} \def\mplibgroupmain{\setbox\mplibscratchbox\hbox\bgroup\ignorespaces} \protected\def\endmplibgroup{\egroup \directlua{ luamplib.registergroup( \the\mplibscratchbox, '\mplibgroupname', {\mplibgroupoptions} )}% \endgroup } % \end{macrocode} % % Patterns % \begin{macrocode} {\def\:{\global\let\mplibsptoken= } \: } \protected\def\mppattern#1{% \begingroup \def\mplibpatternname{#1}% \mplibpatterngetnexttok } \def\mplibpatterngetnexttok{\futurelet\nexttok\mplibpatternbranch} \def\mplibpatternskipspace{\afterassignment\mplibpatterngetnexttok\let\nexttok= } \def\mplibpatternbranch{% \ifx [\nexttok \expandafter\mplibpatternopts \else \ifx\mplibsptoken\nexttok \expandafter\expandafter\expandafter\mplibpatternskipspace \else \let\mplibpatternoptions\empty \expandafter\expandafter\expandafter\mplibpatternmain \fi \fi } \def\mplibpatternopts[#1]{% \def\mplibpatternoptions{#1}% \mplibpatternmain } \def\mplibpatternmain{% \setbox\mplibscratchbox\hbox\bgroup\ignorespaces } \protected\def\endmppattern{% \egroup \directlua{ luamplib.registerpattern( \the\mplibscratchbox, '\mplibpatternname', {\mplibpatternoptions} )}% \endgroup } % \end{macrocode} % % simple way to use \mplib: % |\mpfig draw fullcircle scaled 10; \endmpfig| % \begin{macrocode} \def\mpfiginstancename{@mpfig} \protected\def\mpfig{% \begingroup \futurelet\nexttok\mplibmpfigbranch } \def\mplibmpfigbranch{% \ifx *\nexttok \expandafter\mplibprempfig \else \ifx [\nexttok \expandafter\expandafter\expandafter\mplibgobbleoptsmpfig \else \expandafter\expandafter\expandafter\mplibmainmpfig \fi \fi } \def\mplibgobbleoptsmpfig[#1]{\mplibmainmpfig} \def\mplibmainmpfig{% \begingroup \mplibsetupcatcodes \mplibdomainmpfig } \long\def\mplibdomainmpfig#1\endmpfig{% \endgroup \directlua{ local legacy = luamplib.legacyverbatimtex local everympfig = luamplib.everymplib["\mpfiginstancename"] or "" local everyendmpfig = luamplib.everyendmplib["\mpfiginstancename"] or "" luamplib.legacyverbatimtex = false luamplib.everymplib["\mpfiginstancename"] = "" luamplib.everyendmplib["\mpfiginstancename"] = "" luamplib.process_mplibcode( "beginfig(0) "..everympfig.." "..[===[\unexpanded{#1}]===].." "..everyendmpfig.." endfig;", "\mpfiginstancename") luamplib.legacyverbatimtex = legacy luamplib.everymplib["\mpfiginstancename"] = everympfig luamplib.everyendmplib["\mpfiginstancename"] = everyendmpfig }% \endgroup } \def\mplibprempfig#1{% \begingroup \mplibsetupcatcodes \mplibdoprempfig } \long\def\mplibdoprempfig#1\endmpfig{% \endgroup \directlua{ local legacy = luamplib.legacyverbatimtex local everympfig = luamplib.everymplib["\mpfiginstancename"] local everyendmpfig = luamplib.everyendmplib["\mpfiginstancename"] luamplib.legacyverbatimtex = false luamplib.everymplib["\mpfiginstancename"] = "" luamplib.everyendmplib["\mpfiginstancename"] = "" luamplib.process_mplibcode([===[\unexpanded{#1}]===],"\mpfiginstancename") luamplib.legacyverbatimtex = legacy luamplib.everymplib["\mpfiginstancename"] = everympfig luamplib.everyendmplib["\mpfiginstancename"] = everyendmpfig }% \endgroup } \protected\def\endmpfig{endmpfig} % \end{macrocode} % % The Plain-specific stuff. % \begin{macrocode} \unless\ifcsname ver@luamplib.sty\endcsname \def\mplibcodegetinstancename[#1]{\gdef\currentmpinstancename{#1}\mplibcodeindeed} \protected\def\mplibcode{% \begingroup \futurelet\nexttok\mplibcodebranch } \def\mplibcodebranch{% \ifx [\nexttok \expandafter\mplibcodegetinstancename \else \global\let\currentmpinstancename\empty \expandafter\mplibcodeindeed \fi } \def\mplibcodeindeed{% \begingroup \mplibsetupcatcodes \mplibdocode } \long\def\mplibdocode#1\endmplibcode{% \endgroup \directlua{luamplib.process_mplibcode([===[\unexpanded{#1}]===],"\currentmpinstancename")}% \endgroup } \protected\def\endmplibcode{endmplibcode} \else % \end{macrocode} % % The \LaTeX-specific part: a new environment. % \begin{macrocode} \newenvironment{mplibcode}[1][]{% \global\def\currentmpinstancename{#1}% \mplibtmptoks{}\ltxdomplibcode }{} \def\ltxdomplibcode{% \begingroup \mplibsetupcatcodes \ltxdomplibcodeindeed } \def\mplib@mplibcode{mplibcode} \long\def\ltxdomplibcodeindeed#1\end#2{% \endgroup \mplibtmptoks\expandafter{\the\mplibtmptoks#1}% \def\mplibtemp@a{#2}% \ifx\mplib@mplibcode\mplibtemp@a \directlua{luamplib.process_mplibcode([===[\the\mplibtmptoks]===],"\currentmpinstancename")}% \end{mplibcode}% \else \mplibtmptoks\expandafter{\the\mplibtmptoks\end{#2}}% \expandafter\ltxdomplibcode \fi } \fi % \end{macrocode} % % User settings. % \begin{macrocode} \def\mplibshowlog#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.showlog = true else luamplib.showlog = false end }} \def\mpliblegacybehavior#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.legacyverbatimtex = true else luamplib.legacyverbatimtex = false end }} \def\mplibverbatim#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.verbatiminput = true else luamplib.verbatiminput = false end }} \newtoks\mplibtmptoks % \end{macrocode} % % \cs{everymplib} \& \cs{everyendmplib}: macros resetting % |luamplib.every(end)mplib| tables % % \begin{macrocode} \ifcsname ver@luamplib.sty\endcsname \protected\def\everymplib{% \begingroup \mplibsetupcatcodes \mplibdoeverymplib } \protected\def\everyendmplib{% \begingroup \mplibsetupcatcodes \mplibdoeveryendmplib } \newcommand\mplibdoeverymplib[2][]{% \endgroup \directlua{ luamplib.everymplib["#1"] = [===[\unexpanded{#2}]===] }% } \newcommand\mplibdoeveryendmplib[2][]{% \endgroup \directlua{ luamplib.everyendmplib["#1"] = [===[\unexpanded{#2}]===] }% } \else \def\mplibgetinstancename[#1]{\def\currentmpinstancename{#1}} \protected\def\everymplib#1#{% \ifx\empty#1\empty \mplibgetinstancename[]\else \mplibgetinstancename#1\fi \begingroup \mplibsetupcatcodes \mplibdoeverymplib } \long\def\mplibdoeverymplib#1{% \endgroup \directlua{ luamplib.everymplib["\currentmpinstancename"] = [===[\unexpanded{#1}]===] }% } \protected\def\everyendmplib#1#{% \ifx\empty#1\empty \mplibgetinstancename[]\else \mplibgetinstancename#1\fi \begingroup \mplibsetupcatcodes \mplibdoeveryendmplib } \long\def\mplibdoeveryendmplib#1{% \endgroup \directlua{ luamplib.everyendmplib["\currentmpinstancename"] = [===[\unexpanded{#1}]===] }% } \fi % \end{macrocode} % % Allow \TeX\ dimen/color macros. Now |runscript| does the job, % so the following lines are not needed for most cases. % \begin{macrocode} \def\mpdim#1{ runscript("luamplibdimen{#1}") } \def\mpcolor#1#{\domplibcolor{#1}} \def\domplibcolor#1#2{ runscript("luamplibcolor{#1{#2}}") } % \end{macrocode} % % \mplib's number system. Now |binary| has gone away. % \begin{macrocode} \def\mplibnumbersystem#1{\directlua{ local t = "#1" if t == "binary" then t = "decimal" end luamplib.numbersystem = t }} % \end{macrocode} % % Settings for |.mp| cache files. % \begin{macrocode} \def\mplibmakenocache#1{\mplibdomakenocache #1,*,} \def\mplibdomakenocache#1,{% \ifx\empty#1\empty \expandafter\mplibdomakenocache \else \ifx*#1\else \directlua{luamplib.noneedtoreplace["#1.mp"]=true}% \expandafter\expandafter\expandafter\mplibdomakenocache \fi \fi } \def\mplibcancelnocache#1{\mplibdocancelnocache #1,*,} \def\mplibdocancelnocache#1,{% \ifx\empty#1\empty \expandafter\mplibdocancelnocache \else \ifx*#1\else \directlua{luamplib.noneedtoreplace["#1.mp"]=false}% \expandafter\expandafter\expandafter\mplibdocancelnocache \fi \fi } \def\mplibcachedir#1{\directlua{luamplib.getcachedir("\unexpanded{#1}")}} % \end{macrocode} % % More user settings. % \begin{macrocode} \def\mplibtextextlabel#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.textextlabel = true else luamplib.textextlabel = false end }} \def\mplibcodeinherit#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.codeinherit = true else luamplib.codeinherit = false end }} \def\mplibglobaltextext#1{\directlua{ local s = string.lower("#1") if s == "enable" or s == "true" or s == "yes" then luamplib.globaltextext = true else luamplib.globaltextext = false end }} % \end{macrocode} % % The followings are from ConTeXt general, mostly. % % We use a dedicated scratchbox. % \begin{macrocode} \ifx\mplibscratchbox\undefined \newbox\mplibscratchbox \fi % \end{macrocode} % % We encapsulate the literals. % \begin{macrocode} \def\mplibstarttoPDF#1#2#3#4{% \prependtomplibbox \hbox dir TLT\bgroup \xdef\MPllx{#1}\xdef\MPlly{#2}% \xdef\MPurx{#3}\xdef\MPury{#4}% \xdef\MPwidth{\the\dimexpr#3bp-#1bp\relax}% \xdef\MPheight{\the\dimexpr#4bp-#2bp\relax}% \parskip0pt% \leftskip0pt% \parindent0pt% \everypar{}% \setbox\mplibscratchbox\vbox\bgroup \noindent } \def\mplibstoptoPDF{% \par \egroup % \setbox\mplibscratchbox\hbox % {\hskip-\MPllx bp% \raise-\MPlly bp% \box\mplibscratchbox}% \setbox\mplibscratchbox\vbox to \MPheight {\vfill \hsize\MPwidth \wd\mplibscratchbox0pt% \ht\mplibscratchbox0pt% \dp\mplibscratchbox0pt% \box\mplibscratchbox}% \wd\mplibscratchbox\MPwidth \ht\mplibscratchbox\MPheight \box\mplibscratchbox \egroup } % \end{macrocode} % % Text items have a special handler. % \begin{macrocode} \def\mplibtextext#1#2#3#4#5{% \begingroup \setbox\mplibscratchbox\hbox {\font\temp=#1 at #2bp% \temp #3}% \setbox\mplibscratchbox\hbox {\hskip#4 bp% \raise#5 bp% \box\mplibscratchbox}% \wd\mplibscratchbox0pt% \ht\mplibscratchbox0pt% \dp\mplibscratchbox0pt% \box\mplibscratchbox \endgroup } % \end{macrocode} % % Input |luamplib.cfg| when it exists. % \begin{macrocode} \openin0=luamplib.cfg \ifeof0 \else \closein0 \input luamplib.cfg \fi % \end{macrocode} % % Code for \pkg{tagpdf} % \begin{macrocode} \def\luamplibtagtextbegin#1{} \let\luamplibtagtextend\relax \ifcsname SuspendTagging\endcsname\else\endinput\fi \ifcsname ver@tagpdf.sty\endcsname \else \ExplSyntaxOn \keys_define:nn{luamplib/notag} { ,alt .code:n = { } ,actualtext .code:n = { } ,artifact .code:n = { } ,text .code:n = { } ,correct-BBox .code:n = { } ,tag .code:n = { } ,debug .code:n = { } ,instance .code:n = { \tl_gset:Nn \currentmpinstancename {#1} } ,instancename .meta:n = { instance = {#1} } ,unknown .code:n = { \tl_gset:Ne \currentmpinstancename {\l_keys_key_str} } } \RenewDocumentCommand\mplibcode{O{}} { \tl_gset_eq:NN \currentmpinstancename \c_empty_tl \keys_set:nn{luamplib/notag}{#1} \mplibtmptoks{}\ltxdomplibcode } \ExplSyntaxOff \let\mplibalttext \luamplibtagtextbegin \let\mplibactualtext \mplibalttext \endinput\fi \let\mplibstarttoPDForiginal\mplibstarttoPDF \let\mplibstoptoPDForiginal\mplibstoptoPDF \let\mplibputtextboxoriginal\mplibputtextbox \ExplSyntaxOn \tl_new:N \l__luamplib_tag_alt_tl \tl_new:N \l__luamplib_tag_alt_dflt_tl \tl_set:Nn\l__luamplib_tag_alt_dflt_tl {metapost~figure} \tl_new:N \l__luamplib_tag_actual_tl \tl_new:N \l__luamplib_tag_struct_tl \tl_set:Nn\l__luamplib_tag_struct_tl {Figure} \bool_new:N \l__luamplib_tag_usetext_bool \bool_new:N \l__luamplib_tag_BBox_bool \bool_set_true:N \l__luamplib_tag_BBox_bool \seq_new:N\l__luamplib_tag_bboxcorr_seq \bool_new:N\l__luamplib_tag_bboxcorr_bool \bool_new:N \l__luamplib_tag_debug_bool \tl_new:N \l__luamplib_BBox_label_tl \tl_new:N \l__luamplib_BBox_llx_tl \tl_new:N \l__luamplib_BBox_lly_tl \tl_new:N \l__luamplib_BBox_urx_tl \tl_new:N \l__luamplib_BBox_ury_tl \cs_set_nopar:Npn \luamplibtagtextbegin #1 { \bool_if:NTF \l__luamplib_tag_usetext_bool { \tag_mc_end_push: \tag_mc_begin:n{} \tag_struct_begin:n{tag=NonStruct,stash} \def\myboxnum{#1} \edef\mystructnum{\tag_get:n{struct_num}} \edef\statebeforebox{\inteval{\tag_get:n{struct_counter}+\tag_get:n{mc_counter}}} } { \tag_if_active:TF { \chardef\mplibtmpnum\@ne } { \chardef\mplibtmpnum\z@ } \SuspendTagging{luamplib.textext} } } \cs_set_nopar:Npn \luamplibtagtextend { \bool_if:NTF \l__luamplib_tag_usetext_bool { \edef\stateafterbox{\inteval{\tag_get:n{struct_counter}+\tag_get:n{mc_counter}}} \tag_if_active:T { \int_compare:nNnTF {\stateafterbox} = {\statebeforebox} { \cs_gset_nopar:cpe {luamplib.notagbox.\myboxnum} {\mystructnum} } { \cs_gset_nopar:cpe {luamplib.tagbox.\myboxnum} {\mystructnum} } } \tag_struct_end: \tag_mc_end: \tag_mc_begin_pop:n{} } { \ifnum\mplibtmpnum=\@ne \ResumeTagging{luamplib.textext} \fi } } \msg_new:nnn {luamplib}{figure-text-reuse} { textext~box~#1~probably~is~incorrectly~tagged.\\ Reusing~a~box~in~text-keyed~figures~is~strongly~discouraged. } \cs_set_nopar:Npn \mplibputtextbox #1 { \vbox to 0pt{\vss\hbox to 0pt{% \bool_if:NTF \l__luamplib_tag_usetext_bool { \ResumeTagging{luamplib.puttextbox} \tag_mc_end: \cs_if_exist:cTF {luamplib.tagbox.#1} { \tag_struct_use_num:n {\csname luamplib.tagbox.#1\endcsname} \raise\dp#1\copy#1 } { \cs_if_exist:cF {luamplib.notagbox.#1} { \msg_warning:nnn{luamplib}{figure-text-reuse}{#1} } \tag_mc_begin:n{} \chardef\mplibtmpnum=#1\relax \tag_mc_reset_box:N \mplibtmpnum \raise\dp#1\copy#1 \tag_mc_end: } \tag_mc_begin:n{artifact} } { \chardef\mplibtmpnum=#1\relax \tag_mc_reset_box:N \mplibtmpnum \raise\dp#1\copy#1 } \hss}} } \cs_new_nopar:Npn \__luamplib_tagging_begin_figure: { \tag_if_active:T { \tag_mc_end_push: \tl_if_empty:NT\l__luamplib_tag_alt_tl { \msg_warning:nne{luamplib}{alt-text-missing}{\l__luamplib_tag_alt_dflt_tl} \tl_set:Ne\l__luamplib_tag_alt_tl {\l__luamplib_tag_alt_dflt_tl} } \tag_struct_begin:n { tag=\l__luamplib_tag_struct_tl, alt=\l__luamplib_tag_alt_tl, } \tag_mc_begin:n{} } } \cs_new_nopar:Npn \__luamplib_tagging_end_figure: { \tag_if_active:T { \tag_mc_end: \tag_struct_end: \tag_mc_begin_pop:n{} } } \cs_new_nopar:Npn \__luamplib_tagging_begin_actualtext: { \tag_if_active:T { \tag_mc_end_push: \tag_struct_begin:n { tag=Span, actualtext=\l__luamplib_tag_actual_tl, } \tag_mc_begin:n{} } } \cs_set_eq:NN \__luamplib_tagging_end_actualtext: \__luamplib_tagging_end_figure: \cs_new_nopar:Npn \__luamplib_tagging_begin_artifact: { \tag_if_active:T { \tag_mc_end_push: \tag_mc_begin:n{artifact} } } \cs_new_nopar:Npn \__luamplib_tagging_end_artifact: { \tag_if_active:T { \tag_mc_end: \tag_mc_begin_pop:n{} } } \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_figure: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_figure: \keys_define:nn{luamplib/tag} { ,alt .code:n = { \bool_set_true:N \l__luamplib_tag_BBox_bool \bool_set_false:N \l__luamplib_tag_usetext_bool \tl_set:Ne\l__luamplib_tag_alt_tl{\text_purify:n{#1}} } ,actualtext .code:n = { \bool_set_false:N \l__luamplib_tag_BBox_bool \bool_set_false:N \l__luamplib_tag_usetext_bool \tl_set:Ne\l__luamplib_tag_actual_tl{\text_purify:n{#1}} \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_actualtext: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_actualtext: \tag_if_active:T {\noindent} } ,artifact .code:n = { \bool_set_false:N \l__luamplib_tag_BBox_bool \bool_set_false:N \l__luamplib_tag_usetext_bool \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_artifact: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_artifact: } ,text .code:n = { \bool_set_false:N \l__luamplib_tag_BBox_bool \bool_set_true:N \l__luamplib_tag_usetext_bool \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_artifact: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_artifact: \tag_if_active:T {\noindent} } ,tag .code:n = { \str_case:nnF {#1} { {artifact} { \bool_set_false:N \l__luamplib_tag_BBox_bool \bool_set_false:N \l__luamplib_tag_usetext_bool \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_artifact: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_artifact: } {text} { \bool_set_false:N \l__luamplib_tag_BBox_bool \bool_set_true:N \l__luamplib_tag_usetext_bool \cs_set_eq:NN \luamplibtaggingbegin \__luamplib_tagging_begin_artifact: \cs_set_eq:NN \luamplibtaggingend \__luamplib_tagging_end_artifact: \tag_if_active:T {\noindent} } {false} { \SuspendTagging{luamplib.tagfalse} } } { \tl_set:Nn\l__luamplib_tag_struct_tl{#1} } } ,correct-BBox .code:n = { \bool_set_true:N \l__luamplib_tag_bboxcorr_bool \seq_set_split:Nnn \l__luamplib_tag_bboxcorr_seq{~}{#1~0pt~0pt~0pt~0pt} } ,debug .code:n = { \bool_set_true:N \l__luamplib_tag_debug_bool } ,instance .code:n = { \tl_gset:Nn \currentmpinstancename {#1} } ,instancename .meta:n = { instance = {#1} } ,unknown .code:n = { \tl_gset:Ne \currentmpinstancename {\l_keys_key_str} } } \cs_new_nopar:Npn \luamplibtaggingBBox { \bool_lazy_and:nnT {\tag_if_active_p:} {\l__luamplib_tag_BBox_bool} { \tl_set:Ne \l__luamplib_BBox_label_tl {luamplib.BBox.\tag_get:n{struct_num}} \tex_savepos:D \property_record:ee{\l__luamplib_BBox_label_tl}{xpos,ypos,abspage} \tl_set:Ne \l__luamplib_BBox_llx_tl { \dim_to_decimal_in_bp:n { \property_ref:een {\l__luamplib_BBox_label_tl}{xpos}{0}sp } } \tl_set:Ne \l__luamplib_BBox_lly_tl { \dim_to_decimal_in_bp:n { \property_ref:een {\l__luamplib_BBox_label_tl}{ypos}{0}sp - \dp\mplibscratchbox } } \tl_set:Ne \l__luamplib_BBox_urx_tl { \dim_to_decimal_in_bp:n { \l__luamplib_BBox_llx_tl bp + \wd\mplibscratchbox } } \tl_set:Ne \l__luamplib_BBox_ury_tl { \dim_to_decimal_in_bp:n { \l__luamplib_BBox_lly_tl bp + \ht\mplibscratchbox + \dp\mplibscratchbox } } \bool_if:NT \l__luamplib_tag_bboxcorr_bool { \tl_set:Ne \l__luamplib_BBox_llx_tl { \fp_eval:n { \l__luamplib_BBox_llx_tl + \dim_to_decimal_in_bp:n {\seq_item:Nn \l__luamplib_tag_bboxcorr_seq {1} } } } \tl_set:Ne \l__luamplib_BBox_lly_tl { \fp_eval:n { \l__luamplib_BBox_lly_tl + \dim_to_decimal_in_bp:n {\seq_item:Nn \l__luamplib_tag_bboxcorr_seq {2} } } } \tl_set:Ne \l__luamplib_BBox_urx_tl { \fp_eval:n { \l__luamplib_BBox_urx_tl + \dim_to_decimal_in_bp:n {\seq_item:Nn \l__luamplib_tag_bboxcorr_seq {3} } } } \tl_set:Ne \l__luamplib_BBox_ury_tl { \fp_eval:n { \l__luamplib_BBox_ury_tl + \dim_to_decimal_in_bp:n {\seq_item:Nn \l__luamplib_tag_bboxcorr_seq {4} } } } } \prop_gput:cne { g__tag_struct_\tag_get:n{struct_num}_prop } {A} { << /O /Layout /BBox [ \l__luamplib_BBox_llx_tl\c_space_tl \l__luamplib_BBox_lly_tl\c_space_tl \l__luamplib_BBox_urx_tl\c_space_tl \l__luamplib_BBox_ury_tl ] >> } \bool_if:NT \l__luamplib_tag_debug_bool { \iow_log:e { luamplib/tag/debug:~BBox~of~structure~\tag_get:n{struct_num}~is~ \l__luamplib_BBox_llx_tl\c_space_tl \l__luamplib_BBox_lly_tl\c_space_tl \l__luamplib_BBox_urx_tl\c_space_tl \l__luamplib_BBox_ury_tl } \use:e { \exp_not:N\AddToHookNext{shipout/foreground} { \exp_not:N\int_compare:nNnT {\exp_not:N\g_shipout_readonly_int} = {\property_ref:een{\l__luamplib_BBox_label_tl}{abspage}{0}} { \exp_not:N\put (\l__luamplib_BBox_llx_tl bp, \dim_eval:n{\l__luamplib_BBox_lly_tl bp -\paperheight}) { \exp_not:N\opacity_select:n{0.5} \exp_not:N\color_select:n{red} \exp_not:N\rule {\dim_eval:n {\l__luamplib_BBox_urx_tl bp - \l__luamplib_BBox_llx_tl bp}} {\dim_eval:n {\l__luamplib_BBox_ury_tl bp - \l__luamplib_BBox_lly_tl bp}} } } } } } } } \cs_set_nopar:Npn \mplibstarttoPDF #1 #2 #3 #4 { \prependtomplibbox \hbox dir TLT\bgroup \luamplibtaggingbegin % begin tagging \xdef\MPllx{#1}\xdef\MPlly{#2}% \xdef\MPurx{#3}\xdef\MPury{#4}% \xdef\MPwidth{\the\dimexpr#3bp-#1bp\relax}% \xdef\MPheight{\the\dimexpr#4bp-#2bp\relax}% \parskip0pt \leftskip0pt \parindent0pt \everypar{}% \setbox\mplibscratchbox\vbox\bgroup \SuspendTagging{luamplib.mplibtopdf}% stop tag inside figure \noindent } \cs_set_nopar:Npn \mplibstoptoPDF { \par \egroup \setbox\mplibscratchbox\hbox {\hskip-\MPllx bp \raise-\MPlly bp \box\mplibscratchbox}% \setbox\mplibscratchbox\vbox to \MPheight {\vfill \hsize\MPwidth \wd\mplibscratchbox0pt \ht\mplibscratchbox0pt \dp\mplibscratchbox0pt \box\mplibscratchbox}% \wd\mplibscratchbox\MPwidth \ht\mplibscratchbox\MPheight \luamplibtaggingBBox % BBox \box\mplibscratchbox \luamplibtaggingend % end tagging \egroup } \RenewDocumentCommand\mplibcode{O{}} { \msg_set:nnn {luamplib}{alt-text-missing} { Alternative~text~for~mplibcode~is~missing.\\ Using~the~default~value~'##1'~instead. } \tl_gset_eq:NN \currentmpinstancename \c_empty_tl \keys_set:nn{luamplib/tag}{#1} \tl_if_empty:NF \currentmpinstancename { \tl_set:Nn\l__luamplib_tag_alt_dflt_tl {metapost~figure~\currentmpinstancename} } \mplibtmptoks{}\ltxdomplibcode } \RenewDocumentCommand\mpfig{s O{}} { \begingroup \IfBooleanTF{#1} {\mplibprempfig *} { \msg_set:nnn {luamplib}{alt-text-missing} { Alternative~text~for~mpfig~is~missing.\\ Using~the~default~value~'##1'~instead. } \keys_set:nn{luamplib/tag}{#2} \tl_if_empty:NF \mpfiginstancename { \tl_set:Nn\l__luamplib_tag_alt_dflt_tl {metapost~figure~\mpfiginstancename} } \mplibmainmpfig } } \RenewDocumentCommand\usemplibgroup{O{} m} { \begingroup \msg_set:nnn {luamplib}{alt-text-missing} { Alternative~text~for~usemplibgroup~is~missing.\\ Using~the~default~value~'##1'~instead. } \keys_set:nn{luamplib/tag}{#1} \tl_set:Nn\l__luamplib_tag_alt_dflt_tl {metapost~figure~#2} \csname luamplib.group.#2\endcsname \endgroup } \cs_new_nopar:Npn \mplibalttext #1 { \tl_set:Ne \l__luamplib_tag_alt_tl {\text_purify:n{#1}} } \cs_new_nopar:Npn \mplibactualtext #1 { \tl_set:Ne \l__luamplib_tag_actual_tl {\text_purify:n{#1}} } \ExplSyntaxOff % \end{macrocode} % % That's all folks! % % \iffalse % % \fi % % \clearpage % \section{The GNU GPL License v2} % % The GPL requires the complete license text to be distributed along % with the code. I recommend the canonical source, instead: % \url{http://www.gnu.org/licenses/old-licenses/gpl-2.0.html}. % But if you insist on an included copy, here it is. % You might want to zoom in. % % \newsavebox{\gpl} % \begin{lrbox}{\gpl} % \begin{minipage}{3\textwidth} % \columnsep=3\columnsep % \begin{multicols}{3} % \begin{center} % {\Large GNU GENERAL PUBLIC LICENSE\par} % \bigskip % {Version 2, June 1991} % \end{center} % % \begin{center} % {\parindent 0in % % Copyright \textcopyright\ 1989, 1991 Free Software Foundation, Inc. % % \bigskip % % 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA % % \bigskip % % Everyone is permitted to copy and distribute verbatim copies % of this license document, but changing it is not allowed. % } % \end{center} % % \begin{center} % {\bf\large Preamble} % \end{center} % % % The licenses for most software are designed to take away your freedom to % share and change it. By contrast, the GNU General Public License is % intended to guarantee your freedom to share and change free software---to % make sure the software is free for all its users. This General Public % License applies to most of the Free Software Foundation's software and to % any other program whose authors commit to using it. (Some other Free % Software Foundation software is covered by the GNU Library General Public % License instead.) You can apply it to your programs, too. % % When we speak of free software, we are referring to freedom, not price. % Our General Public Licenses are designed to make sure that you have the % freedom to distribute copies of free software (and charge for this service % if you wish), that you receive source code or can get it if you want it, % that you can change the software or use pieces of it in new free programs; % and that you know you can do these things. % % To protect your rights, we need to make restrictions that forbid anyone to % deny you these rights or to ask you to surrender the rights. These % restrictions translate to certain responsibilities for you if you % distribute copies of the software, or if you modify it. % % For example, if you distribute copies of such a program, whether gratis or % for a fee, you must give the recipients all the rights that you have. You % must make sure that they, too, receive or can get the source code. And % you must show them these terms so they know their rights. % % We protect your rights with two steps: (1) copyright the software, and (2) % offer you this license which gives you legal permission to copy, % distribute and/or modify the software. % % Also, for each author's protection and ours, we want to make certain that % everyone understands that there is no warranty for this free software. If % the software is modified by someone else and passed on, we want its % recipients to know that what they have is not the original, so that any % problems introduced by others will not reflect on the original authors' % reputations. % % Finally, any free program is threatened constantly by software patents. % We wish to avoid the danger that redistributors of a free program will % individually obtain patent licenses, in effect making the program % proprietary. To prevent this, we have made it clear that any patent must % be licensed for everyone's free use or not licensed at all. % % The precise terms and conditions for copying, distribution and % modification follow. % % \begin{center} % {\Large \sc Terms and Conditions For Copying, Distribution and % Modification} % \end{center} % % \begin{enumerate} % \item % This License applies to any program or other work which contains a notice % placed by the copyright holder saying it may be distributed under the % terms of this General Public License. The ``Program'', below, refers to % any such program or work, and a ``work based on the Program'' means either % the Program or any derivative work under copyright law: that is to say, a % work containing the Program or a portion of it, either verbatim or with % modifications and/or translated into another language. (Hereinafter, % translation is included without limitation in the term ``modification''.) % Each licensee is addressed as ``you''. % % Activities other than copying, distribution and modification are not % covered by this License; they are outside its scope. The act of % running the Program is not restricted, and the output from the Program % is covered only if its contents constitute a work based on the % Program (independent of having been made by running the Program). % Whether that is true depends on what the Program does. % % \item You may copy and distribute verbatim copies of the Program's source % code as you receive it, in any medium, provided that you conspicuously % and appropriately publish on each copy an appropriate copyright notice % and disclaimer of warranty; keep intact all the notices that refer to % this License and to the absence of any warranty; and give any other % recipients of the Program a copy of this License along with the Program. % % You may charge a fee for the physical act of transferring a copy, and you % may at your option offer warranty protection in exchange for a fee. % % \item % You may modify your copy or copies of the Program or any portion % of it, thus forming a work based on the Program, and copy and % distribute such modifications or work under the terms of Section 1 % above, provided that you also meet all of these conditions: % % \begin{enumerate} % % \item % You must cause the modified files to carry prominent notices stating that % you changed the files and the date of any change. % % \item % You must cause any work that you distribute or publish, that in % whole or in part contains or is derived from the Program or any % part thereof, to be licensed as a whole at no charge to all third % parties under the terms of this License. % % \item % If the modified program normally reads commands interactively % when run, you must cause it, when started running for such % interactive use in the most ordinary way, to print or display an % announcement including an appropriate copyright notice and a % notice that there is no warranty (or else, saying that you provide % a warranty) and that users may redistribute the program under % these conditions, and telling the user how to view a copy of this % License. (Exception: if the Program itself is interactive but % does not normally print such an announcement, your work based on % the Program is not required to print an announcement.) % % \end{enumerate} % % % These requirements apply to the modified work as a whole. If % identifiable sections of that work are not derived from the Program, % and can be reasonably considered independent and separate works in % themselves, then this License, and its terms, do not apply to those % sections when you distribute them as separate works. But when you % distribute the same sections as part of a whole which is a work based % on the Program, the distribution of the whole must be on the terms of % this License, whose permissions for other licensees extend to the % entire whole, and thus to each and every part regardless of who wrote it. % % Thus, it is not the intent of this section to claim rights or contest % your rights to work written entirely by you; rather, the intent is to % exercise the right to control the distribution of derivative or % collective works based on the Program. % % In addition, mere aggregation of another work not based on the Program % with the Program (or with a work based on the Program) on a volume of % a storage or distribution medium does not bring the other work under % the scope of this License. % % \item % You may copy and distribute the Program (or a work based on it, % under Section 2) in object code or executable form under the terms of % Sections 1 and 2 above provided that you also do one of the following: % % \begin{enumerate} % % \item % % Accompany it with the complete corresponding machine-readable % source code, which must be distributed under the terms of Sections % 1 and 2 above on a medium customarily used for software interchange; or, % % \item % % Accompany it with a written offer, valid for at least three % years, to give any third party, for a charge no more than your % cost of physically performing source distribution, a complete % machine-readable copy of the corresponding source code, to be % distributed under the terms of Sections 1 and 2 above on a medium % customarily used for software interchange; or, % % \item % % Accompany it with the information you received as to the offer % to distribute corresponding source code. (This alternative is % allowed only for noncommercial distribution and only if you % received the program in object code or executable form with such % an offer, in accord with Subsection b above.) % % \end{enumerate} % % % The source code for a work means the preferred form of the work for % making modifications to it. For an executable work, complete source % code means all the source code for all modules it contains, plus any % associated interface definition files, plus the scripts used to % control compilation and installation of the executable. However, as a % special exception, the source code distributed need not include % anything that is normally distributed (in either source or binary % form) with the major components (compiler, kernel, and so on) of the % operating system on which the executable runs, unless that component % itself accompanies the executable. % % If distribution of executable or object code is made by offering % access to copy from a designated place, then offering equivalent % access to copy the source code from the same place counts as % distribution of the source code, even though third parties are not % compelled to copy the source along with the object code. % % \item % You may not copy, modify, sublicense, or distribute the Program % except as expressly provided under this License. Any attempt % otherwise to copy, modify, sublicense or distribute the Program is % void, and will automatically terminate your rights under this License. % However, parties who have received copies, or rights, from you under % this License will not have their licenses terminated so long as such % parties remain in full compliance. % % \item % You are not required to accept this License, since you have not % signed it. However, nothing else grants you permission to modify or % distribute the Program or its derivative works. These actions are % prohibited by law if you do not accept this License. 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You may not impose any further % restrictions on the recipients' exercise of the rights granted herein. % You are not responsible for enforcing compliance by third parties to % this License. % % \item % If, as a consequence of a court judgment or allegation of patent % infringement or for any other reason (not limited to patent issues), % conditions are imposed on you (whether by court order, agreement or % otherwise) that contradict the conditions of this License, they do not % excuse you from the conditions of this License. If you cannot % distribute so as to satisfy simultaneously your obligations under this % License and any other pertinent obligations, then as a consequence you % may not distribute the Program at all. For example, if a patent % license would not permit royalty-free redistribution of the Program by % all those who receive copies directly or indirectly through you, then % the only way you could satisfy both it and this License would be to % refrain entirely from distribution of the Program. % % If any portion of this section is held invalid or unenforceable under % any particular circumstance, the balance of the section is intended to % apply and the section as a whole is intended to apply in other % circumstances. % % It is not the purpose of this section to induce you to infringe any % patents or other property right claims or to contest validity of any % such claims; this section has the sole purpose of protecting the % integrity of the free software distribution system, which is % implemented by public license practices. Many people have made % generous contributions to the wide range of software distributed % through that system in reliance on consistent application of that % system; it is up to the author/donor to decide if he or she is willing % to distribute software through any other system and a licensee cannot % impose that choice. % % This section is intended to make thoroughly clear what is believed to % be a consequence of the rest of this License. % % \item % If the distribution and/or use of the Program is restricted in % certain countries either by patents or by copyrighted interfaces, the % original copyright holder who places the Program under this License % may add an explicit geographical distribution limitation excluding % those countries, so that distribution is permitted only in or among % countries not thus excluded. In such case, this License incorporates % the limitation as if written in the body of this License. % % \item % The Free Software Foundation may publish revised and/or new versions % of the General Public License from time to time. Such new versions will % be similar in spirit to the present version, but may differ in detail to % address new problems or concerns. % % Each version is given a distinguishing version number. If the Program % specifies a version number of this License which applies to it and ``any % later version'', you have the option of following the terms and conditions % either of that version or of any later version published by the Free % Software Foundation. If the Program does not specify a version number of % this License, you may choose any version ever published by the Free Software % Foundation. % % \item % If you wish to incorporate parts of the Program into other free % programs whose distribution conditions are different, write to the author % to ask for permission. For software which is copyrighted by the Free % Software Foundation, write to the Free Software Foundation; we sometimes % make exceptions for this. Our decision will be guided by the two goals % of preserving the free status of all derivatives of our free software and % of promoting the sharing and reuse of software generally. % % \begin{center} % {\Large\sc % No Warranty % } % \end{center} % % \item % {\sc Because the program is licensed free of charge, there is no warranty % for the program, to the extent permitted by applicable law. Except when % otherwise stated in writing the copyright holders and/or other parties % provide the program ``as is'' without warranty of any kind, either expressed % or implied, including, but not limited to, the implied warranties of % merchantability and fitness for a particular purpose. The entire risk as % to the quality and performance of the program is with you. Should the % program prove defective, you assume the cost of all necessary servicing, % repair or correction.} % % \item % {\sc In no event unless required by applicable law or agreed to in writing % will any copyright holder, or any other party who may modify and/or % redistribute the program as permitted above, be liable to you for damages, % including any general, special, incidental or consequential damages arising % out of the use or inability to use the program (including but not limited % to loss of data or data being rendered inaccurate or losses sustained by % you or third parties or a failure of the program to operate with any other % programs), even if such holder or other party has been advised of the % possibility of such damages.} % % \end{enumerate} % % % \begin{center} % {\Large\sc End of Terms and Conditions} % \end{center} % % % \pagebreak[2] % % \section*{Appendix: How to Apply These Terms to Your New Programs} % % If you develop a new program, and you want it to be of the greatest % possible use to the public, the best way to achieve this is to make it % free software which everyone can redistribute and change under these % terms. % % To do so, attach the following notices to the program. It is safest to % attach them to the start of each source file to most effectively convey % the exclusion of warranty; and each file should have at least the % ``copyright'' line and a pointer to where the full notice is found. % % \begin{quote} % one line to give the program's name and a brief idea of what it does. \\ % Copyright (C) yyyy name of author \\ % % This program is free software; you can redistribute it and/or modify % it under the terms of the GNU General Public License as published by % the Free Software Foundation; either version 2 of the License, or % (at your option) any later version. % % This program is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the % GNU General Public License for more details. % % You should have received a copy of the GNU General Public License % along with this program; if not, write to the Free Software % Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. % \end{quote} % % Also add information on how to contact you by electronic and paper mail. % % If the program is interactive, make it output a short notice like this % when it starts in an interactive mode: % % \begin{quote} % Gnomovision version 69, Copyright (C) yyyy name of author \\ % Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. \\ % This is free software, and you are welcome to redistribute it % under certain conditions; type `show c' for details. % \end{quote} % % % The hypothetical commands {\tt show w} and {\tt show c} should show the % appropriate parts of the General Public License. Of course, the commands % you use may be called something other than {\tt show w} and {\tt show c}; % they could even be mouse-clicks or menu items---whatever suits your % program. % % You should also get your employer (if you work as a programmer) or your % school, if any, to sign a ``copyright disclaimer'' for the program, if % necessary. Here is a sample; alter the names: % % \begin{quote} % Yoyodyne, Inc., hereby disclaims all copyright interest in the program \\ % `Gnomovision' (which makes passes at compilers) written by James Hacker. \\ % % signature of Ty Coon, 1 April 1989 \\ % Ty Coon, President of Vice % \end{quote} % % % This General Public License does not permit incorporating your program % into proprietary programs. If your program is a subroutine library, you % may consider it more useful to permit linking proprietary applications % with the library. If this is what you want to do, use the GNU Library % General Public License instead of this License. % % \end{multicols} % \end{minipage} % \end{lrbox} % % \begin{center} % \scalebox{0.33}{\usebox{\gpl}} % \end{center} % % \Finale \endinput