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|
% \iffalse -*- coding: utf-8 ; -*- \fi
% \iffalse meta-comment
%
% Copyright (C) 2022-2024 by F. Pantigny
% -----------------------------------
%
% This file may be distributed and/or modified under the
% conditions of the LaTeX Project Public License, either version 1.3
% of this license or (at your option) any later version.
% The latest version of this license is in:
%
% http://www.latex-project.org/lppl.txt
%
% and version 1.3 or later is part of all distributions of LaTeX
% version 2005/12/01 or later.
%
% \fi
% \iffalse
%
%<*batchfile>
\begingroup
\input l3docstrip.tex
\endgroup
%</batchfile>
%
%<@@=piton>
%<*driver>
\documentclass{l3doc}
\usepackage{geometry}
\geometry{left=2.8cm,right=2.8cm,top=2.5cm,bottom=2.5cm,papersize={21cm,29.7cm}}
\usepackage{fontspec}
\usepackage[dvipsnames,svgnames]{xcolor}
\usepackage{caption,tabularx,tcolorbox,luacolor,lua-ul,upquote}
\def\emphase{\bgroup\color{RoyalPurple}\let\next=}
\fvset{commandchars=\~\#\@,formatcom=\color{gray}}
\captionsetup{labelfont = bf}
\usepackage{ragged2e}
\usepackage[footnotehyper]{piton}
\PitonOptions
{
splittable = 4 ,
math-comments,
begin-escape = ! ,
end-escape = ! ,
begin-escape-math = \( ,
end-escape-math = \) ,
detected-commands = { highLight, footnote }
}
\parindent 0pt
\skip\footins = 2\bigskipamount
\def\CC{{C\nolinebreak[4]\hspace{-.05em}\raisebox{.4ex}{\tiny\bfseries ++}}}
\usepackage{makeidx}
\makeindex
\NewDocumentCommand{\indexcommand}{m}{\index{#1@\texttt{\textbackslash #1}}}
\NewDocumentCommand{\indexenv}{m}{\index{#1@\texttt{\{#1\}}}}
\NewDocumentCommand{\Definition}{m}
{{\setlength{\fboxsep}{1pt}\colorbox{gray!20}{\ttfamily \vphantom{gl}#1}}}
\NewDocumentCommand{\DefinitionCommand}{m}
{{\setlength{\fboxsep}{1pt}\colorbox{gray!20}{\ttfamily
\vphantom{gl}\textbackslash #1}}}
\PitonOptions{gobble=2}
\EnableCrossrefs
\begin{document}
\DocInput{piton.dtx}
\end{document}
%</driver>
% \fi
% \iffalse
%<*STY>
% \fi
\def\PitonFileVersion{4.1}
\def\PitonFileDate{2024/10/18}
% \iffalse
%</STY>
%<*LUA>
piton_version = "4.1" -- 2024/10/18
%</LUA>
%\fi
%
% \catcode`\" = 11
%
% \title{The package \pkg{piton}\thanks{This document corresponds to the
% version~\PitonFileVersion\space of \pkg{piton}, at the date of~\PitonFileDate.}}
% \author{F. Pantigny \\ \texttt{fpantigny@wanadoo.fr}}
%
% \maketitle
%
% \begin{abstract}
% The package \pkg{piton} provides tools to typeset computer listings, with
% syntactic highlighting, by using the Lua library LPEG. It requires LuaLaTeX.
% \end{abstract}
%
% \bigskip
% {\color{red} Since the version 4.0, the syntax of the absolute and relative
% paths used in |\PitonInputFile| has been changed:
% cf.~part~\ref{PitonInputFile}, p.~\pageref{PitonInputFile}.}
%
%
% \section{Presentation}
%
%
% The package \pkg{piton} uses the Lua library LPEG\footnote{LPEG is a
% pattern-matching library for Lua, written in C, based on \emph{parsing
% expression grammars}:
% \url{http://www.inf.puc-rio.br/~roberto/lpeg/}} for parsing informatic
% listings and typesets them with syntactic highlighting. Since it uses the Lua
% of LuaLaTeX, it works with |lualatex| only (and won't work with the other
% engines: |latex|, |pdflatex| and |xelatex|). It does not use external program
% and the compilation does not require |--shell-escape| (except when the key
% |write| is used). The compilation is very fast since all the parsing is done
% by the library LPEG, written in C.
%
% \bigskip
% Here is an example of code typeset by \pkg{piton}, with the environment |{Piton}|.
%
% \bigskip
%
% \begin{Piton}
% from math import pi
%
% def arctan(x,n=10):
% """Compute the mathematical value of arctan(x)
%
% n is the number of terms in the sum
% """
% if x < 0:
% return -arctan(-x) # recursive call
% elif x > 1:
% return pi/2 - arctan(1/x)
% #> (we have used that $\arctan(x)+\arctan(1/x)=\frac{\pi}{2}$ for $x>0$)\footnote{This LaTeX escape has been done by beginning the comment by \ttfamily\#>.}
% else:
% s = 0
% for k in range(n):
% s += (-1)**k/(2*k+1)*x**(2*k+1)
% return s
% \end{Piton}
%
%
% \medskip
% The main alternatives to the package \pkg{piton} are probably the packages
% \pkg{listings} and \pkg{minted}.
%
% \medskip
% The name of this extension (\pkg{piton}) has been chosen arbitrarily by
% reference to the pitons used by the climbers in alpinism.
%
%
% \section{Installation}
%
% The package \pkg{piton} is contained in two files: |piton.sty| and |piton.lua|
% (the LaTeX file |piton.sty| loaded by |\usepackage| will load the Lua file
% |piton.lua|). Both files must be in a repertory where LaTeX will be able to
% find them, for instance in a |texmf| tree. However, the best is to install
% \pkg{piton} with a TeX distribution such as MiKTeX, TeX Live or MacTeX.
%
% \section{Use of the package}
%
% The package \pkg{piton} must be used with LuaLaTeX exclusively: if another
% LaTeX engine (|latex|, |pdflatex|, |xelatex|,\dots ) is used, a fatal error
% will be raised.
%
% \subsection{Loading the package}
%
% The package \pkg{piton} should be loaded by: |\usepackage{piton}|.
%
% \smallskip
% If, at the end of the preamble, the package \pkg{xcolor} has not been loaded
% (by the final user or by another package), \pkg{piton} loads \pkg{xcolor} with
% the instruction |\usepackage{xcolor}| (that is to say without any option).
% The package \pkg{piton} doesn't load any other package. It does not any
% exterior program.
%
% \subsection{Choice of the computer language}
%
% The package \pkg{piton} supports two kinds of languages:
% \begin{itemize}
% \item the languages natively supported by \pkg{piton}, which are Python, OCaml,
% C~(in fact \CC), SQL and a language called |minimal|\footnote{That language
% |minimal| may be used to format pseudo-codes: cf. p.~\pageref{minimal}};
% \item the languages defined by the final user by using the built-in command
% |\NewPitonLanguage| described p.~\pageref{NewPitonLanguage} (the parsers of
% those languages can't be as precise as those of the languages supported
% natively by \pkg{piton}).
% \end{itemize}
%
%
% \smallskip
% By default, the language used is Python.
%
% \smallskip
% \index{language (key)}
% It's possible to change the current language with the command |\PitonOptions|
% and its key \Definition{language}: |\PitonOptions{language = OCaml}|.
%
% \smallskip
% In fact, for \pkg{piton}, the names of the informatic languages are always
% \textbf{case-insensitive}. In this example, we might have written |Ocaml| or
% |ocaml|.
%
% \smallskip
% For the developers, let's say that the name of the current language is stored
% (in lower case) in the L3 public variable |\l_piton_language_str|.
%
% \smallskip
% In what follows, we will speak of Python, but the features described also
% apply to the other languages.
%
% \subsection{The tools provided to the user}
%
% \indexenv{Piton}
%
% The package \pkg{piton} provides several tools to typeset informatic codes: the
% command |\piton|, the environment |{Piton}| and the command |\PitonInputFile|.
%
% \begin{itemize}\setlength{\fboxsep}{1pt}
% \item The command \DefinitionCommand{piton} should be used to typeset small
% pieces of code inside a paragraph. For example:
%
% {\color{gray}\verb|\piton{def square(x): return x*x}|}\qquad
% \piton{def square(x): return x*x}
%
% The syntax and particularities of the command |\piton| are detailed below.
%
% \item The environment \colorbox{gray!20}{\ttfamily\{Piton\}} should be used to
% typeset multi-lines code. Since it takes its argument in a verbatim mode, it
% can't be used within the argument of a LaTeX command. For sake of
% customization, it's possible to define new environments similar to the
% environment |{Piton}| with the command |\NewPitonEnvironment|:
% cf.~\ref{NewPitonEnvironment} p.~\pageref{NewPitonEnvironment}.
%
% \item The command \DefinitionCommand{PitonInputFile} is used to insert and
% typeset an external file: cf.~\ref{PitonInputFile}
% p.~\pageref{PitonInputFile}.
%
%
% \end{itemize}
%
% \subsection{The syntax of the command \textbackslash piton}
%
% \indexcommand{piton}
%
% In fact, the command |\piton| is provided with a double syntax. It may be used
% as a standard command of LaTeX taking its argument between curly braces
% (|\piton{...}|) but it may also be used with a syntax similar to the syntax of
% the command |\verb|, that is to say with the argument delimited by two identical
% characters (e.g.: \verb!\piton|...|!).
%
% \begin{itemize}
% \item {\color{blue} \textsf{Syntax} \verb|\piton{...}|}\par\nobreak
% When its argument is given between curly braces, the command |\piton| does not
% take its argument in verbatim mode. In particular:
% \begin{itemize}
% \item several consecutive spaces will be replaced by only one space (and the
% also the character of end on line),
%
% {\color{cyan} but the command |\|␣ is provided to force the insertion of a space};
%
% \item it's not possible to use |%| inside the argument,
%
% {\color{cyan} but the command |\%| is provided to insert a |%|};
%
% \item the braces must be appear by pairs correctly nested
%
% {\color{cyan} but the commands |\{| and |\}| are also provided for individual braces};
%
% \item the LaTeX commands\footnote{That concerns the commands beginning with a
% backslash but also the active characters (with catcode equal to 13). } are
% fully expanded and not executed,
%
% {\color{cyan} so it's possible to use |\\| to insert a backslash}.
% \end{itemize}
%
%
% The other characters (including |#|, |^|, |_|, |&|, |$| and |@|)
% must be inserted without backslash.
%
% \bigskip
%\begin{tabular}{>{\color{gray}}w{l}{75mm}@{\hspace*{1cm}}l}
% \omit Examples : \hfil \\
% \noalign{\vskip1mm}
% \verb|\piton{MyString = '\\n'}| &
% \piton{MyString = '\\n'} \\
% \verb|\piton{def even(n): return n\%2==0}| &
% \piton{def even(n): return n\%2==0} \\
% \verb|\piton{c="#" # an affectation }| &
% \piton{c="#" # an affectation } \\
% \verb|\piton{c="#" \ \ \ # an affectation }| &
% \piton{c="#" \ \ \ # an affectation } \\
% \verb|\piton{MyDict = {'a': 3, 'b': 4 }}| &
% \piton{MyDict = {'a': 3, 'b': 4 }}
% \end{tabular}
%
% \bigskip
% It's possible to use the command |\piton| in the arguments of a
% LaTeX command.\footnote{For example, it's possible to use the command
% \texttt{\textbackslash piton} in a footnote. Example :
% \piton{s = 'A string'}.}
%
% However, since the argument is expanded (in the TeX sens), one should take
% care not using in its argument \emph{fragile} commands (that is to say
% commands which are neither \emph{protected} nor \emph{fully expandable}).
%
% \bigskip
% \item {\color{blue} \textsf{Syntax} \verb!\piton|...|!}\par\nobreak
%
% When the argument of the command |\piton| is provided between two identical
% characters, that argument is taken in a \emph{verbatim mode}. Therefore, with
% that syntax, the command |\piton| can't be used within the argument of another
% command.
%
% \medskip
%
% \begin{tabular}{>{\color{gray}}w{l}{75mm}@{\hspace*{1cm}}l}
% \omit Examples : \hfil \\
% \noalign{\vskip1mm}
% \verb!\piton|MyString = '\n'|! &
% \piton|MyString = '\n'| \\
% \verb|\piton!def even(n): return n%2==0!| &
% \piton!def even(n): return n%2==0! \\
% \verb|\piton+c="#" # an affectation +| &
% \piton+c="#" # an affectation + \\
% \verb|\piton?MyDict = {'a': 3, 'b': 4}?| &
% \piton!MyDict = {'a': 3, 'b': 4}!
% \end{tabular}
%
% \end{itemize}
%
% \section{Customization}
%
%
% \subsection{The keys of the command \textbackslash PitonOptions}
%
% \indexcommand{PitonOptions}
%
% The command |\PitonOptions| takes in as argument a comma-separated list of
% \textsl{key=value} pairs. The scope of the settings done by that command is
% the current TeX group.\footnote{We remind that a LaTeX environment is, in
% particular, a TeX group.}
%
% These keys may also be applied to an individual environment |{Piton}| (between
% square brackets).
%
% \begin{itemize}
% \item The key \Definition{language} specifies which computer language is
% considered (that key is case-insensitive). It's possible to use the name of
% the six built-in languages (|Python|, |OCaml|, |C|, |SQL|, |minimal| and
% |verbatim|) or the name of a language defined by the user with
% |\NewPitonLanguage| (cf.~part~\ref{NewPitonLanguage},
% p.~\pageref{NewPitonLanguage}).
%
% The initial value is |Python|.
%
% \item \index{font-command}
% \colorbox{yellow!50}{\textbf{New 4.0}}\par\nobreak
%
% The key \Definition{font-command} contains instructions of font which will be
% inserted at the beginning of all the elements composed by \pkg{piton} (without
% surprise, these instructions are not used for the so-called ``LaTeX comments'').
%
% The initial value is |\ttfamily| and, thus, \pkg{piton} uses by default the
% current monospaced font.
%
% \item \index{gobble}\label{gobble} The key \Definition{gobble} takes in as
% value a positive integer~$n$: the first $n$ characters are discarded (before
% the process of highlighting of the code) for each line of the environment
% |{Piton}|. These characters are not necessarily spaces.
%
% \item \index{auto-gobble}\index{gobble!auto-gobble} When the key
% \Definition{auto-gobble} is in force, the extension \pkg{piton} computes the
% minimal value $n$ of the number of consecutive spaces beginning each (non
% empty) line of the environment |{Piton}| and applies |gobble| with that value
% of~$n$.
%
% \item \index{env-gobble}\index{gobble!env-gobble}
% When the key \Definition{env-gobble} is in force, \pkg{piton} analyzes the last
% line of the environment |{Piton}|, that is to say the line which contains
% |\end{Piton}| and determines whether that line contains only spaces followed
% by the |\end{Piton}|. If we are in that situation, \pkg{piton} computes the
% number~$n$ of spaces on that line and applies |gobble| with that value of~$n$.
% The name of that key comes from \emph{environment gobble}: the effect of
% gobble is set by the position of the commands |\begin{Piton}| and
% |\end{Piton}| which delimit the current environment.
%
% \item \index{write} The key \Definition{write} takes in as argument a name of
% file (with its extension) and write the content\footnote{In fact, it's not
% exactly the body of the environment but the value of |piton.get_last_code()|
% which is the body without the overwritten LaTeX formatting instructions (cf.
% the part~\ref{API}, p.~\pageref{API}).} of the current environment in
% that file. At the first use of a file by \pkg{piton}, it is erased.
%
% {\bfseries This key requires a compilation with {\ttfamily lualatex
% -shell-escape}}.
%
% \item \index{path-write} The key \Definition{path-write} specifies a path
% where the files written by the key |write| will be written.
%
% \item \index{line-numbers} The key \Definition{line-numbers} activates the
% line numbering in the environments |{Piton}| and in the listings resulting
% from the use of |\PitonInputFile|.
%
% In fact, the key |line-numbers| has several subkeys.
% \begin{itemize}
% \item With the key \Definition{line-numbers/skip-empty-lines}, the empty lines
% (which contains only spaces) are considered as non existent for the line
% numbering (if the key |/absolute|, described below, is in force, the key
% |/skip-empty-lines| is no-op in |\PitonInputFile|). The initial value of that
% key is |true| (and not |false|).\footnote{For the language Python, the empty
% lines in the docstrings are taken into account (by design).}
% \item With the key \Definition{line-numbers/label-empty-lines}, the labels
% (that is to say the numbers) of the empty lines are displayed. If the key
% |/skip-empty-line| is in force, the clé |/label-empty-lines| is no-op. The
% initial value of that key is~|true|.\footnote{When the key
% |split-on-empty-lines| is in force, the labels of the empty are never printed.}
% \item With the key \Definition{line-numbers/absolute}, in the listings
% generated in |\PitonInputFile|, the numbers of the lines displayed are
% \emph{absolute} (that is to say: they are the numbers of the lines in the
% file). That key may be useful when |\PitonInputFile| is used to insert only a
% part of the file (cf. part~\ref{part-of-a-file}, p.~\pageref{part-of-a-file}).
% The key |/absolute| is no-op in the environments |{Piton}| and those created
% by |\NewPitonEnvironment|.
% \item The key \Definition{line-numbers/start} requires that the line numbering
% begins to the value of the key.
% \item With the key \Definition{line-numbers/resume}, the counter of lines is
% not set to zero at the beginning of each environment |{Piton}| or use of
% |\PitonInputFile| as it is otherwise. That allows a numbering of the lines
% across several environments.
% \item The key \Definition{line-numbers/sep} is the horizontal distance between
% the numbers of lines (inserted by |line-numbers|) and the beginning of the
% lines of code. The initial value is 0.7~em.
% \item The key \Definition{line-numbers/format} is a list of tokens which are inserted before
% the number of line in order to format it. It's possible to put, \emph{at the
% end} of the list, a LaTeX command with one argument, such as, for example,
% |\fbox|.
%
% The initial value is |\footnotesize\color{gray}|.
% \end{itemize}
%
% For convenience, a mechanism of factorisation of the prefix |line-numbers| is
% provided. That means that it is possible, for instance, to write:
% \begin{Verbatim}
% \PitonOptions
% {
% line-numbers =
% {
% skip-empty-lines = false ,
% label-empty-lines = false ,
% sep = 1 em ,
% format = \footnotesize \color{blue}
% }
% }
% \end{Verbatim}
%
%
% \item \index{left-margin} The key \Definition{left-margin} corresponds to a
% margin on the left. That key may be useful in conjunction with the key
% |line-numbers| if one does not want the numbers in an overlapping position on
% the left.
%
% It's possible to use the key |left-margin| with the value |auto|. With that
% value, if the key |line-numbers| is in force, a margin will be automatically
% inserted to fit the numbers of lines. See an example part
% \ref{example-numbering} on page~\pageref{example-numbering}.
%
% \item \index{background-color} The key \Definition{background-color} sets the
% background color of the environments |{Piton}| and the listings produced by
% |\PitonInputFile| (it's possible to fix the width of that background with the
% key |width| described below).
%
% \smallskip
% The key |background-color| supports also as value a \emph{list} of colors. In
% this case, the successive rows are colored by using the colors of the list in
% a cyclic way.
%
% \emph{Example} : |\PitonOptions{background-color = {gray!15,white}}|
%
% The key |background-color| accepts a color defined «on the fly». For example,
% it's possible to write |background-color = [cmyk]{0.1,0.05,0,0}|.
%
%
% \item \index{prompt-background-color} With the key
% \Definition{prompt-background-color}, \pkg{piton} adds a
% color background to the lines beginning with the prompt ``|>>>|'' (and its
% continuation ``|...|'') characteristic of the Python consoles with
% \textsc{repl} (\emph{read-eval-print loop}).
%
% \item \index{width} The key \Definition{width} will fix the width of the
% listing. That width applies to the colored backgrounds specified by
% |background-color| and |prompt-background-color| but also for the automatic
% breaking of the lines (when required by |break-lines|: cf.~\ref{line-breaks},
% p.~\pageref{line-breaks}).
%
% That key may take in as value a numeric value but also the special
% value~|min|. With that value, the width will be computed from the maximal
% width of the lines of code. Caution: the special value~|min| requires two
% compilations with LuaLaTeX\footnote{The maximal width is computed during the
% first compilation, written on the |aux| file and re-used during the second
% compilation. Several tools such as |latexmk| (used by Overleaf) do
% automatically a sufficient number of compilations.}.
%
% For an example of use of |width=min|, see the section~\ref{example-comments},
% p.~\pageref{example-comments}.
%
%
% \item \index{show-spaces-in-strings} When the key
% \Definition{show-spaces-in-strings} is activated, the spaces in the
% strings of characters\footnote{With the language Python that feature applies
% only to the short strings (delimited by~\verb|'| or~\verb|"|). In OCaml, that
% feature does not apply to the \emph{quoted strings}.} are replaced by the
% character~␣ (U+2423 : \textsc{open box}). Of course, that character~U+2423
% must be present in the monospaced font which is used.\footnote{The initial
% value of |font-command| is |\ttfamily| and, thus, by default, \pkg{piton}
% merely uses the current monospaced font.}\par\nobreak
% \begingroup
% \PitonOptions{show-spaces-in-strings} Example :
% \piton|my_string = 'Very good answer'| \endgroup
%
% With the key \index{show-spaces} \Definition{show-spaces}, all the spaces are
% replaced by U+2423 (and no line break can occur on those ``visible spaces'',
% even when the key |break-lines|\footnote{cf. \ref{line-breaks}
% p.~\pageref{line-breaks}} is in force). By the way, one should remark that all
% the trailing spaces (at the end of a line) are deleted by \pkg{piton}. The
% tabulations at the beginning of the lines are represented by arrows.
% \end{itemize}
%
% \bigskip
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% ~emphase&\begin{Piton}[language=C,line-numbers,auto-gobble,background-color = gray!15]@
% void bubbleSort(int arr[], int n) {
% int temp;
% int swapped;
% for (int i = 0; i < n-1; i++) {
% swapped = 0;
% for (int j = 0; j < n - i - 1; j++) {
% if (arr[j] > arr[j + 1]) {
% temp = arr[j];
% arr[j] = arr[j + 1];
% arr[j + 1] = temp;
% swapped = 1;
% }
% }
% if (!swapped) break;
% }
% }
% \end{Piton}
% \end{Verbatim}
% \endgroup
%
% \begingroup
% \PitonOptions{language=C,line-numbers,gobble=6,background-color = gray!15}
% \begin{Piton}
% void bubbleSort(int arr[], int n) {
% int temp;
% int swapped;
% for (int i = 0; i < n-1; i++) {
% swapped = 0;
% for (int j = 0; j < n - i - 1; j++) {
% if (arr[j] > arr[j + 1]) {
% temp = arr[j];
% arr[j] = arr[j + 1];
% arr[j + 1] = temp;
% swapped = 1;
% }
% }
% if (!swapped) break;
% }
% }
% \end{Piton}
% \endgroup
%
%
% \bigskip
% The command |\PitonOptions| provides in fact several other keys which will be
% described further (see in particular the ``Pages breaks and line breaks''
% p.~\pageref{breakable}).
%
% \subsection{The styles}
%
% \label{styles}
%
% \subsubsection{Notion of style}
%
% The package \pkg{piton} provides the command
% \DefinitionCommand{SetPitonStyle} to customize the different styles used to
% format the syntactic elements of the informatic listings. The customizations done
% by that command are limited to the current TeX group.\footnote{We remind that
% a LaTeX environment is, in particular, a TeX group.}
%
% \bigskip
% \indexcommand{SetPitonStyle}
% The command |\SetPitonStyle| takes in as argument a comma-separated list of
% \textsl{key=value} pairs. The keys are names of styles and the value are LaTeX
% formatting instructions.
%
% \bigskip
% These LaTeX instructions must be formatting instructions such as
% |\color{...}|, |\bfseries|, |\slshape|, etc. (the commands of this kind are
% sometimes called \emph{semi-global} commands). It's also possible to put,
% \emph{at the end of the list of instructions}, a LaTeX command taking exactly
% one argument.
%
% \bigskip
% Here an example which changes the style used to highlight, in the definition
% of a Python function, the name of the function which is defined. That code
% uses the command |\highLight| of \pkg{lua-ul} (that package requires also the
% package \pkg{luacolor}).
%
% \begin{verbatim}
% \SetPitonStyle{ Name.Function = \bfseries \highLight[red!30] }
% \end{verbatim}
%
% In that example, |\highLight[red!30]| must be considered as the name of a
% LaTeX command which takes in exactly one argument, since, usually, it is used
% with |\highLight[red!30]{...}|.
%
% \medskip
% \begingroup
% \SetPitonStyle
% { Name.Function = \bfseries \highLight[red!30] }
% With that setting, we will have : \piton{def cube(x) : return x * x * x }
% \endgroup
%
% \bigskip
% The different styles, and their use by \pkg{piton} in the different languages
% which it supports (Python, OCaml, C, SQL, ``|minimal|'' and ``|verbatim|''),
% are described in the part \ref{Semantic}, starting at the page
% \pageref{Semantic}.
%
%
% \bigskip
% \indexcommand{PitonStyle}
% The command \DefinitionCommand{PitonStyle} takes in as argument the name of a
% style and allows to retrieve the value (as a list of LaTeX instructions) of
% that style.
%
% \smallskip
% For example, it's possible to write |{\PitonStyle{Keyword}{function}}| and we
% will have the word {\PitonStyle{Keyword}{function}} formatted as a keyword.
%
% \smallskip
% The syntax |{\PitonStyle{|\textsl{\texttt{style}}|}{...}}| is mandatory in
% order to be able to deal both with the semi-global commands and the commands
% with arguments which may be present in the definition of the style
% \texttt{\textsl{style}}.
%
% \bigskip
% \subsubsection{Global styles and local styles}
%
% A style may be defined globally with the command |\SetPitonStyle|. That means
% that it will apply to all the informatic languages that use that style.
%
% \bigskip
% For example, with the command
% \begin{Verbatim}
% \SetPitonStyle{Comment = \color{gray}}
% \end{Verbatim}
% all the comments will be composed in gray in all the listings, whatever
% informatic language they use (Python, C, OCaml, etc. or a language defined by
% the command |\NewPitonLanguage|).
%
% \bigskip
% But it's also possible to define a style locally for a given informatic
% language by providing the name of that language as optional argument (between
% square brackets) to the command |\SetPitonStyle|.\footnote{We recall, that, in
% the package \pkg{piton}, the names of the informatic languages are
% case-insensitive.}
%
% \bigskip
% For example, with the command
% \begin{Verbatim}
% \SetPitonStyle~emphase#[SQL]@{Keyword = \color[HTML]{006699} \bfseries \MakeUppercase}
% \end{Verbatim}
% the keywords in the SQL listings will be composed in capital letters, even if
% they appear in lower case in the LaTeX source (we recall that, in SQL, the
% keywords are case-insensitive).
%
% \bigskip
% As expected, if an informatic language uses a given style and if that style has
% no local definition for that language, the global version is used. That notion
% of ``global style'' has no link with the notion of global definition in TeX
% (the notion of \emph{group} in TeX).\footnote{As regards the TeX groups, the
% definitions done by \texttt{\textbackslash SetPitonStyle} are always local.}
%
% \bigskip
% The package \pkg{piton} itself (that is to say the file |piton.sty|) defines
% all the styles globally.
%
% \bigskip
%
% \subsubsection{The style UserFunction}
%
% \index{UserFunction (style)}
%
% The extension \pkg{piton} provides a special style called~|UserFunction|. That
% style applies to the names of the functions previously defined by the user
% (for example, in Python, these names are those following the keyword
% \piton{def} in a previous Python listing). The initial value of that style
% |\PitonStyle{Identifier}| and, therefore, the names of the functions are
% formatted like the other identifiers (that is to say, by default, with no
% special formatting except the features provided in |font-command|). However,
% it's possible to change the value of that style, as any other style, with the
% command |\SetPitonStyle|.
%
% \medskip
% In the following example, we tune the styles |Name.Function| and |UserFunction|
% so as to have clickable names of functions linked to the (informatic)
% definition of the function.
%
% \begingroup
%
% \NewDocumentCommand{\MyDefFunction}{m}{\hypertarget{piton:#1}{\color[HTML]{CC00FF}{#1}}}
% \NewDocumentCommand{\MyUserFunction}{m}{\hyperlink{piton:#1}{#1}}
%
% \SetPitonStyle
% {
% Name.Function = \MyDefFunction ,
% UserFunction = \MyUserFunction
% }
%
% \medskip
% \begin{Verbatim}
% \NewDocumentCommand{\MyDefFunction}{m}
% {\hypertarget{piton:~#1}{\color[HTML]{CC00FF}{~#1}}}
% \NewDocumentCommand{\MyUserFunction}{m}{\hyperlink{piton:~#1}{~#1}}
%
% \SetPitonStyle{Name.Function = \MyDefFunction, ~emphase#UserFunction@ = \MyUserFunction}
% \end{Verbatim}
%
% \smallskip
%
% \begin{Piton}
% def transpose(v,i,j):
% x = v[i]
% v[i] = v[j]
% v[j] = x
%
% def passe(v):
% for in in range(0,len(v)-1):
% if v[i] > v[i+1]:
% transpose(v,i,i+1)
% \end{Piton}
%
% \endgroup
%
% \medskip
% (Some \textsc{pdf} viewers display a frame around the clickable word
% |transpose| but other do not.)
%
% \PitonClearUserFunctions[Python]
%
% \bigskip
% \begin{small}
% Of course, the list of the names of Python functions previously défined is
% kept in the memory of LuaLaTeX (in a global way, that is to say independently
% of the TeX groups). The extension \pkg{piton} provides a command to clear that
% list : it's the command \DefinitionCommand{PitonClearUserFunctions}. When it
% is used without argument, that command is applied to all the informatic
% languages used by the user but it's also possible to use it with an optional
% argument (between square brackets) which is a list of informatic languages to
% which the command will be applied.\footnote{We remind that, in \pkg{piton},
% the name of the informatic languages are case-insensitive.}
% \end{small}
%
% \subsection{Creation of new environments}
%
% \label{NewPitonEnvironment}
% \indexcommand{NewPitonEnvironment}
%
% Since the environment |{Piton}| has to catch its body in a special way (more
% or less as verbatim text), it's not possible to construct new environments
% directly over the environment |{Piton}| with the classical commands
% |\newenvironment| (of standard LaTeX) or |\NewDocumentEnvironment| (of
% LaTeX3).
%
% That's why \pkg{piton} provides a command
% \DefinitionCommand{NewPitonEnvironment}. That command takes in three mandatory
% arguments.
%
% That command has the same syntax as the classical environment
% |\NewDocumentEnvironment|.\footnote{However, the specifier of argument |b|
% (used to catch the body of the environment as a LaTeX argument) is
% not allowed.}
%
%
% \bigskip
% With the following instruction, a new environment |{Python}| will be
% constructed with the same behaviour as |{Piton}|:
%
% {\color{gray}\verb|\NewPitonEnvironment{Python}{O{}}{\PitonOptions{#1}}{}|}
%
% \bigskip
% If one wishes to format Python code in a box of \pkg{tcolorbox}, it's possible
% to define an environment |{Python}| with the following code (of course, the
% package \pkg{tcolorbox} must be loaded).
%
%\begin{verbatim}
% \NewPitonEnvironment{Python}{}
% {\begin{tcolorbox}}
% {\end{tcolorbox}}
% \end{verbatim}
%
% \bigskip
% With this new environment |{Python}|, it's possible to write:
%
% \begin{Verbatim}
% ~emphase#\begin{Python}@
% def square(x):
% """Compute the square of a number"""
% return x*x
% ~emphase#\end{Python}@
% \end{Verbatim}
%
% \NewPitonEnvironment{Python}{}
% {\begin{tcolorbox}}
% {\end{tcolorbox}}
%
% \begin{Python}
% def square(x):
% """Compute the square of a number"""
% return x*x
% \end{Python}
%
% \section{Definition of new languages with the syntax of listings}
%
% \indexcommand{NewPitonLanguage}
% \label{NewPitonLanguage}
% \index{listings@\pkg{listings} (extension)}
%
% \medskip
% The package \pkg{listings} is a famous LaTeX package to format informatic
% listings.
%
% That package provides a command |\lstdefinelanguage| which allows the user to
% define new languages. That command is also used by \pkg{listings} itself to
% provide the definition of the predefined languages in \pkg{listings} (in fact,
% for this task, \pkg{listings} uses a command called |\lst@definelanguage| but
% that command has the same syntax as |\lstdefinelanguage|).
%
% \medskip
% The package \pkg{piton} provides a command
% \DefinitionCommand{NewPitonLanguage} to define new languages (available in
% |\piton|, |{Piton}|, etc.) with a syntax which is almost the same as the
% syntax of~|\lstdefinelanguage|.
%
% Let's precise that \pkg{piton} does \emph{not} use that command to define the
% languages provided natively (Python, OCaml, C, SQL, |minimal| and |verbatim|),
% which allows more powerful parsers.
%
% \medskip
% For example, in the file |lstlang1.sty|, which is one of the definition files
% of \pkg{listings}, we find the following instructions (in version 1.10a).
%
%\begin{Verbatim}[formatcom=\small\color{gray}]
% \lst~@definelanguage{Java}%
% {morekeywords={abstract,boolean,break,byte,case,catch,char,class,%
% const,continue,default,do,double,else,extends,false,final,%
% finally,float,for,goto,if,implements,import,instanceof,int,%
% interface,label,long,native,new,null,package,private,protected,%
% public,return,short,static,super,switch,synchronized,this,throw,%
% throws,transient,true,try,void,volatile,while},%
% sensitive,%
% morecomment=[l]//,%
% morecomment=[s]{/*}{*/},%
% morestring=[b]",%
% morestring=[b]',%
% }[keywords,comments,strings]
% \end{Verbatim}
%
% \medskip
% In order to define a language called |Java| for \pkg{piton}, one has only to
% write the following code {\bfseries where the last argument of
% |\lst@definelanguage|, between square brackets, has been discarded} (in fact,
% the symbols \verb+%+ may be deleted without any problem).
%
% \begin{Verbatim}[formatcom=\small\color{gray}]
% ~emphase#\NewPitonLanguage@{Java}%
% {morekeywords={abstract,boolean,break,byte,case,catch,char,class,%
% const,continue,default,do,double,else,extends,false,final,%
% finally,float,for,goto,if,implements,import,instanceof,int,%
% interface,label,long,native,new,null,package,private,protected,%
% public,return,short,static,super,switch,synchronized,this,throw,%
% throws,transient,true,try,void,volatile,while},%
% sensitive,%
% morecomment=[l]//,%
% morecomment=[s]{/*}{*/},%
% morestring=[b]",%
% morestring=[b]',%
% }
% \end{Verbatim}
%
%
% \NewPitonLanguage{Java}
% {morekeywords={abstract,boolean,break,byte,case,catch,char,class,
% const,continue,default,do,double,else,extends,false,final,
% finally,float,for,goto,if,implements,import,instanceof,int,
% interface,label,long,native,new,null,package,private,protected,
% public,return,short,static,super,switch,synchronized,this,throw,
% throws,transient,true,try,void,volatile,while},
% sensitive,
% morecomment=[l]//,
% morecomment=[s]{/*}{*/},
% morestring=[b]",
% morestring=[b]',
% }
%
% \medskip
% It's possible to use the language Java like any other language defined by
% \pkg{piton}.
%
% Here is an example of code formatted in an environment |{Piton}| with
% the key |language=Java|.\footnote{We recall that, for \pkg{piton}, the names
% of the informatic languages are case-insensitive. Hence, it's possible to
% write, for instance, |language=java|.}
%
%
% \bigskip
% \begingroup
% \small
% \PitonOptions{splittable-on-empty-lines}
% \begin{Piton}[language = java]
% public class Cipher { // Caesar cipher
% public static void main(String[] args) {
% String str = "The quick brown fox Jumped over the lazy Dog";
% System.out.println( Cipher.encode( str, 12 ));
% System.out.println( Cipher.decode( Cipher.encode( str, 12), 12 ));
% }
%
% public static String decode(String enc, int offset) {
% return encode(enc, 26-offset);
% }
%
% public static String encode(String enc, int offset) {
% offset = offset % 26 + 26;
% StringBuilder encoded = new StringBuilder();
% for (char i : enc.toCharArray()) {
% if (Character.isLetter(i)) {
% if (Character.isUpperCase(i)) {
% encoded.append((char) ('A' + (i - 'A' + offset) % 26 ));
% } else {
% encoded.append((char) ('a' + (i - 'a' + offset) % 26 ));
% }
% } else {
% encoded.append(i);
% }
% }
% return encoded.toString();
% }
% }
% \end{Piton}
% \endgroup
%
% \bigskip
% The keys of the command |\lstdefinelanguage| of \pkg{listings} supported by |\NewPitonLanguage| are:
% |morekeywords|, |otherkeywords|, |sensitive|, |keywordsprefix|, |moretexcs|,
% |morestring| (with the letters |b|,
% |d|, |s| and |m|), |morecomment| (with the letters |i|, |l|, |s| and |n|),
% |moredelim| (with the letters |i|,
% |l|, |s|, |*| and |**|), |moredirectives|, |tag|, |alsodigit|, |alsoletter|
% and |alsoother|.
%
% For the description of those keys, we redirect the reader to the documentation
% of the package \pkg{listings} (type |texdoc| |listings| in a terminal).
%
% \bigskip
% For example, here is a language called ``LaTeX'' to format LaTeX chunks of codes:
% \begin{Verbatim}
% \NewPitonLanguage{LaTeX}{keywordsprefix = \ , alsoletter = ~@_ }
% \end{Verbatim}
%
% Initially, the characters |@| and |_| are considered as letters because, in
% many informatic languages, they are allowed in the keywords and the names of
% the identifiers. With \verb|alsoletter = @_|, we retrieve them from the
% category of the letters.
%
% \section{Advanced features}
% \subsection{Insertion of a file}
%
% \label{PitonInputFile}
%
% \subsubsection{The command \textbackslash PitonInputFile}
%
% \indexcommand{PitonInputFile}
%
% The command \DefinitionCommand{PitonInputFile} includes the content of the
% file specified in argument (or only a part of that file: see below). The
% extension \pkg{piton} also provides the commands
% \DefinitionCommand{PitonInputFileT}, \DefinitionCommand{PitonInputFileF} and
% \DefinitionCommand{PitonInputFileTF} with supplementary arguments
% corresponding to the letters~|T| and~|F|. Those arguments will be executed if
% the file to include has been found (letter~|T|) or not found (letter~|F|).
%
% \bigskip
% \colorbox{yellow!50}{\textbf{Modification 4.0}}\par\nobreak
%
% \index{old-PitonInputFile}
% \smallskip
% The syntax for the absolute and relative paths has been changed in order to
% be conform to the traditionnal usages. However, it's possible to use the key
% \Definition{old-PitonInputFile} at load-time (that is to say with the
% |\usepackage|) in order to have the old behaviour (though, that key will be
% deleted in a future version of \pkg{piton}!).
%
% \smallskip
% Now, the syntax is the following one:
% \begin{itemize}
% \item The paths beginning by |/| are absolute.
%
% \emph{Example} : |\PitonInputFile{/Users/joe/Documents/program.py}|
%
% \item The paths which do not begin with |/| are relative to the current
% repertory.
%
% \emph{Example} : |\PitonInputFile{my_listings/program.py}|
% \end{itemize}
%
% \index{path}
% The key \Definition{path} of the command |\PitonOptions| specifies a
% \emph{list} of paths where the files included by |\PitonInputFile| will be
% searched. That list is comma separated.
%
% As previously, the absolute paths must begin with |/|.
%
% \bigskip
% \subsubsection{Insertion of a part of a file}
%
% \label{part-of-a-file}
% \indexcommand{PitonInputFile}
%
% The command |\PitonInputFile| inserts (with formatting) the content of a file.
% In fact, it's possible to insert only \emph{a part} of that file. Two
% mechanisms are provided in this aim.
% \begin{itemize}
% \item It's possible to specify the part that we want to insert by the numbers
% of the lines (in the original file).
% \item It's also possible to specify the part to insert with textual markers.
% \end{itemize}
% In both cases, if we want to number the lines with the numbers of the
% lines in the file, we have to use the key |line-numbers/absolute|.
%
% \bigskip
% \textbf{With line numbers}\par\nobreak
%
% The command |\PitonInputFile| supports the keys \Definition{first-line} and
% \Definition{last-line} in order to insert only the part of file between the
% corresponding lines. Not to be confused with the key |line-numbers/start|
% which fixes the first line number for the line numbering. In a sens,
% |line-numbers/start| deals with the output whereas |first-line| and
% |last-line| deal with the input.
%
% \bigskip
% \textbf{With textual markers}\par\nobreak
%
% \index{marker/beginning}
% \index{marker/end}
%
% In order to use that feature, we first have to specify the format of the
% markers (for the beginning and the end of the part to include) with the keys
% \Definition{marker-beginning} and \Definition{marker-end} (usually with the
% command |\PitonOptions|).
%
%
% \medskip
% Let us take a practical example.
%
% \medskip
% We assume that the file to include contains solutions to exercises of
% programmation on the following model.
%
% \begin{Verbatim}[formatcom=\small\color{gray}]
% ~#[Exercise 1] Iterative version
% def fibo(n):
% if n==0: return 0
% else:
% u=0
% v=1
% for i in range(n-1):
% w = u+v
% u = v
% v = w
% return v
% ~#<Exercise 1>
% \end{Verbatim}
%
% The markers of the beginning and the end are the strings |#[Exercise 1]| and
% |#<Exercise 1>|. The string ``|Exercise 1|'' will be called the \emph{label}
% of the exercise (or of the part of the file to be included).
%
% In order to specify such markers in \pkg{piton}, we will use the keys
% |marker/beginning| and |marker/end| with the following instruction (the
% character |#| of the comments of Python must be inserted with the protected
% form |\#|).
%
% \begin{Verbatim}
% \PitonOptions{ ~emphase#marker/beginning@ = \~#[~#1] , ~emphase#marker/end@ = \~#<~#1> }
% \end{Verbatim}
%
% As one can see, |marker/beginning| is an expression corresponding to the
% mathematical function which transforms the label (here |Exercise 1|) into the
% the beginning marker (in the example |#[Exercise 1]|). The string |#1|
% corresponds to the occurrences of the argument of that function, which the
% classical syntax in TeX. Idem for |marker/end|.
%
% \bigskip
% Now, you only have to use the key \Definition{range} of |\PitonInputFile| to
% insert a marked content of the file.
%
% \smallskip
% \begin{Verbatim}
% \PitonInputFile[~emphase#range = Exercise 1@]{~textsl#file_name@}
% \end{Verbatim}
%
% \medskip
% \begin{Piton}
% def fibo(n):
% if n==0: return 0
% else:
% u=0
% v=1
% for i in range(n-1):
% w = u+v
% u = v
% v = w
% return v
% \end{Piton}
%
% \vspace{1cm}
% \index{marker/include-lines}
% The key \Definition{marker/include-lines} requires the insertion of the lines
% containing the markers.
%
% \begin{Verbatim}
% \PitonInputFile[~emphase#marker/include-lines@,range = Exercise 1]{~textsl#file_name@}
% \end{Verbatim}
%
% \begin{Piton}
% #[Exercise 1] Iterative version
% def fibo(n):
% if n==0: return 0
% else:
% u=0
% v=1
% for i in range(n-1):
% w = u+v
% u = v
% v = w
% return v
% #<Exercise 1>
% \end{Piton}
%
%
% \bigskip
% \index{begin-range}
% \index{end-range}
% In fact, there exist also the keys \Definition{begin-range} and
% \Definition{end-range} to insert several marked contents at the same time.
%
% For example, in order to insert the solutions of the exercises~3 to~5, we will
% write (if the file has the correct structure!):
%
%
% \begin{Verbatim}
% \PitonInputFile[~emphase#begin-range = Exercise 3, end-range = Exercise 5@]{~textsl#file_name@}
% \end{Verbatim}
%
%
%
% \bigskip
% \subsection{Page breaks and line breaks}
%
% \label{breakable}
%
% \subsubsection{Line breaks}
%
% \label{line-breaks}
%
% By default, the elements produced by \pkg{piton} can't be broken by an end on
% line. However, there are keys to allow such breaks (the possible breaking
% points are the spaces, even the spaces which appear in the strings of the
% informatic languages).
% \begin{itemize}
% \item \index{break-lines!break-lines-in-piton} With the key
% \Definition{break-lines-in-piton}, the line breaks are allowed in the command
% |\piton{...}| (but not in the command \verb+\piton|...|+, that is to say the
% command |\piton| in verbatim mode).
% \item \index{break-lines!break-lines-in-Piton} With the key
% \Definition{break-lines-in-Piton}, the line breaks are allowed in the
% environment |{Piton}| (hence the capital letter |P| in the name) and in the
% listings produced by |\PitonInputFile|.
% \item \index{break-lines} The key \Definition{break-lines} is a conjunction of
% the two previous keys.
% \end{itemize}
%
% \bigskip
% The package \pkg{piton} provides also several keys to control the appearance
% on the line breaks allowed by |break-lines-in-Piton|.
%
% \begin{itemize}
% \item \index{indent-broken-lines} With the key
% \Definition{indent-broken-lines}, the indentation of a
% broken line is respected at carriage return (on the condition that the used
% font is a monospaced font and this is the case by default since the initial
% value of |font-command| is |\ttfamily|).
%
% \item The key \Definition{end-of-broken-line} corresponds to the symbol placed
% at the end of a broken line. The initial value is:
% |\hspace*{0.5em}\textbackslash|.
%
% \item \index{continuation-symbol} The key \Definition{continuation-symbol}
% corresponds to the symbol placed at each carriage return. The initial value
% is: |+\;| (the command |\;| inserts a small horizontal space).
%
% \item \index{continuation-symbol-on-indentation}
% The key \Definition{continuation-symbol-on-indentation} corresponds to
% the symbol placed at each carriage return, on the position of the indentation
% (only when the key |indent-broken-line| is in force). The initial value is:
% |$\hookrightarrow\;$|.
% \end{itemize}
%
%
% \bigskip
% The following code has been composed with the following tuning:
%
% \begin{Verbatim}
% \PitonOptions{width=12cm,break-lines,indent-broken-lines,background-color=gray!15}
% \end{Verbatim}
%
% \begin{center}
% \PitonOptions{width=12cm,break-lines,indent-broken-lines,background-color=gray!15}
% \begin{Piton}
% def dict_of_list(l):
% """Converts a list of subrs and descriptions of glyphs in a dictionary"""
% our_dict = {}
% for list_letter in l:
% if (list_letter[0][0:3] == 'dup'): # if it's a subr
% name = list_letter[0][4:-3]
% print("We treat the subr of number " + name)
% else:
% name = list_letter[0][1:-3] # if it's a glyph
% print("We treat the glyph of number " + name)
% our_dict[name] = [treat_Postscript_line(k) for k in list_letter[1:-1]]
% return dict
% \end{Piton}
% \end{center}
%
% \bigskip
% \colorbox{yellow!50}{\bfseries{New 4.1}}\par\nobreak
%
% \smallskip
% With the key \Definition{break-strings-anywhere}, the strings may be broken
% anywhere (and not only on the spaces).
%
% \subsubsection{Page breaks}
% \label{page breaks}
% \index{splittable}
% \index{splittable-on-empty-lines}
%
% By default, the listings produced by the environment |{Piton}| and the command
% |\PitonInputFile| are not breakable.
%
% However, \pkg{piton} provides the keys |splittable-on-empty-lines| and
% |splittable| to allow such breaks.
%
% \begin{itemize}
% \item The key \Definition{splittable-on-empty-lines} allows breaks on the empty
% lines. The ``empty lines'' are in fact the lines which contains only spaces.
%
% \item Of course, the key |splittable-on-empty-lines| may not be sufficient and
% that's why \pkg{piton} provides the key \Definition{splittable}.
%
% When the key |splittable| is used with the numeric value~$n$ (which must be a
% positive integer) the listing, or each part of the listing delimited by empty
% lines (when |split-on-empty-lines| is in force) may be broken anywhere with
% the restriction that no break will occur within the $n$ first lines of
% the listing or within the $n$ last lines.\footnote{Remark that we speak of the
% lines of the original informatic listing and such line may be composed on
% several lines in the final \textsc{pdf} when the key |break-lines-in-Piton| is
% in force.}
%
% For example, a tuning with |splittable = 4| may be a good choice.
%
% When used without value, the key |splittable| is equivalent to
% |splittable = 1| and the listings may be broken anywhere (it's probably
% not recommandable).
%
% The initial value of the key |splittable| is equal to 100 (by default, the
% listings are not breakable at all).
% \end{itemize}
%
% \medskip
% Even with a background color (set by the key |background-color|), the pages
% breaks are allowed, as soon as the key |split-on-empty-lines| or the key
% |splittable| is in force.\footnote{With the key |splittable|, the environments
% \texttt{\{Piton\}} are breakable, even within a (breakable) environment of
% \pkg{tcolorbox}. Remind that an environment of \pkg{tcolorbox} included in
% another environment of \pkg{tcolorbox} is \emph{not} breakable, even when both
% environments use the key |breakable| of \pkg{tcolorbox}.}
%
% \subsection{Splitting of a listing in sub-listings}
%
% \index{split-on-empty-lines}
% \label{split-on-empty-lines}
% \index{split-separation}
%
% The extension \pkg{piton} provides the key \Definition{split-on-empty-lines},
% which should not be confused with the key |splittable-on-empty-lines|
% previously defined.
%
% \smallskip
% In order to understand the behaviour of the key |split-on-empty-lines|, one
% should imagine that he has to compose an informatic listing which contains
% several definitions of informatic functions. Usually, in the informatic
% languages, those definitions of functions are separated by empty lines.
%
% \smallskip
% The key |split-on-empty-lines| splits the listings on the empty lines. Several
% empty lines are deleted and replaced by the content of the parameter
% corresponding to the key \Definition{split-separation}.
% \begin{itemize}
% \item That parameter must contain elements allowed to be inserted in
% \emph{vertical mode} of TeX. For example, it's possible to put the TeX
% primitive |\hrule|.
%
% \item The initial value of this parameter is
% |\vspace{\baselineskip}\vspace{-1.25pt}| which corresponds eventually to an
% empty line in the final \textsc{pdf} (this vertical space is deleted if it
% occurs on a page break). If the key |background-color| is in force, no
% background color is added to that empty line.
% \end{itemize}
%
%
% \colorbox{yellow!50}{\textbf{New 4.0}}\par\nobreak
% Each chunk of the informatic listing is composed in an environment whose name
% is given by the key \Definition{env-used-by-split}. The initial value of that
% parameter is, not surprisingly, |Piton| and, hence, the different chunks are
% composed in several environments |{Piton}|. If one decides to change the value
% of |env-used-by-split|, he should use the name of an environment created by
% |\NewPitonEnvironment| (cf.~part~\ref{NewPitonEnvironment},
% p.~\pageref{NewPitonEnvironment}).
%
% Each chunk of the informatic listing is formated in its own environment.
% Therefore, it has its own line numbering (if the key
% |line-numbers| is in force) and its own colored background (when the key
% |background-color| is in force), separated from the background color of the
% other chunks. When used, the key |splittable| applies in each chunk
% (independently of the other chunks). Of course, a page break may occur between
% the chunks of code, regardless of the value of |splittable|.
%
% \bigskip
% \begin{Verbatim}
% \begin{Piton}[~emphase#split-on-empty-lines@,background-color=gray!15,line-numbers]
% def square(x):
% """Computes the square of x"""
% return x*x
%
% def cube(x):
% """Calcule the cube of x"""
% return x*x*x
% \end{Piton}
% \end{Verbatim}
%
%
% \begin{Piton}[split-on-empty-lines,background-color=gray!15,line-numbers]
% def square(x):
% """Computes the square of x"""
% return x*x
%
% def cube(x):
% """Calcule the cube of x"""
% return x*x*x
% \end{Piton}
%
% \bigskip
% \textbf{Caution}: Since each chunk is treated independently of the others, the
% commands specified by |detected-commands| and the commands and environments
% of Beamer automatically detected by \pkg{piton} must not cross the enmpty
% lines of the original listing.
%
% \subsection{Highlighting some identifiers}
%
% \label{SetPitonIdentifier}
%
% The command \DefinitionCommand{SetPitonIdentifier} allows to change the
% formatting of some identifiers.
%
% \smallskip
% That command takes in three arguments:
%
% \begin{itemize}
% \item The optional argument (within square brackets) specifies the informatic
% language. If this argument is not present, the tunings done by
% |\SetPitonIdentifier| will apply to all the informatic languages of
% \pkg{piton}.\footnote{We recall, that, in the package \pkg{piton}, the
% names of the informatic languages are case-insensitive.}
%
% \item The first mandatory argument is a comma-separated list of names of
% identifiers.
%
% \item The second mandatory argument is a list of LaTeX instructions of the
% same type as \pkg{piton} ``styles'' previously presented (cf.~\ref{styles}
% p.~\pageref{styles}).
% \end{itemize}
%
% \emph{Caution}: Only the identifiers may be concerned by that key. The
% keywords and the built-in functions won't be affected, even if their name
% appear in the first argument of the command |\SetPitonIdentifier|.
%
% \begin{Verbatim}
% ~emphase#\SetPitonIdentifier{l1,l2}{\color{red}}@
% \begin{Piton}
% def tri(l):
% """Segmentation sort"""
% if len(l) <= 1:
% return l
% else:
% a = l[0]
% l1 = [ x for x in l[1:] if x < a ]
% l2 = [ x for x in l[1:] if x >= a ]
% return tri(l1) + [a] + tri(l2)
% \end{Piton}
% \end{Verbatim}
%
%
% \bigskip
%
% \begingroup
%
% \SetPitonIdentifier{l1,l2}{\color{red}}
%
% \begin{Piton}
% def tri(l):
% """Segmentation sort"""
% if len(l) <= 1:
% return l
% else:
% a = l[0]
% l1 = [ x for x in l[1:] if x < a ]
% l2 = [ x for x in l[1:] if x >= a ]
% return tri(l1) + [a] + tri(l2)
% \end{Piton}
%
% \endgroup
%
% \bigskip
% By using the command |\SetPitonIdentifier|, it's possible to add other
% built-in functions (or other new keywords, etc.) that will be detected by
% \pkg{piton}.
%
%
% \begin{Verbatim}
% ~emphase#\SetPitonIdentifier[Python]@
% {cos, sin, tan, floor, ceil, trunc, pow, exp, ln, factorial}
% {\PitonStyle{Name.Builtin}}
%
% \begin{Piton}
% from math import *
% cos(pi/2)
% factorial(5)
% ceil(-2.3)
% floor(5.4)
% \end{Piton}
% \end{Verbatim}
%
% \begingroup
%
% \SetPitonIdentifier[Python]
% {cos, sin, tan, floor, ceil, trunc, pow, exp, ln, factorial}
% {\PitonStyle{Name.Builtin}}
%
% \begin{Piton}
% from math import *
% cos(pi/2)
% factorial(5)
% ceil(-2.3)
% floor(5.4)
% \end{Piton}
%
%
% \endgroup
%
%
% \subsection{Mechanisms to escape to LaTeX}
%
% \index{escapes to LaTeX}
%
% The package \pkg{piton} provides several mechanisms for escaping to LaTeX:
% \begin{itemize}
% \item It's possible to compose comments entirely in LaTeX.
% \item It's possible to have the elements between \texttt{\$} in the comments
% composed in LateX mathematical mode.
% \item It's possible to ask \pkg{piton} to detect automatically some LaTeX
% commands, thanks to the key |detected-commands|.
% \item It's also possible to insert LaTeX code almost everywhere in a Python listing.
% \end{itemize}
%
% One should also remark that, when the extension \pkg{piton} is used with the
% class \cls{beamer}, \pkg{piton} detects in |{Piton}| many commands and
% environments of Beamer: cf. \ref{beamer} p.~\pageref{beamer}.
%
% \subsubsection{The ``LaTeX comments''}
%
% \index{comment-latex}
%
% In this document, we call ``LaTeX comments'' the comments which begins by
% |#>|. The code following those characters, until the end of the line, will be
% composed as standard LaTeX code. There is two tools to customize those
% comments.
%
% \begin{itemize}
% \item It's possible to change the syntactic mark (which, by default, is |#>|).
% For this purpose, there is a key \Definition{comment-latex} available only in
% the preamble of the document, allows to choice the characters which, preceded
% by |#|, will be the syntactic marker.
%
% For example, if the preamble contains the following instruction:
%
% \quad \verb|\PitonOptions{comment-latex = LaTeX}|
%
% the LaTeX comments will begin by |#LaTeX|.
%
% If the key |comment-latex| is used with the empty value, all the Python
% comments (which begins by |#|) will, in fact, be ``LaTeX comments''.
%
% \smallskip
% \item It's possible to change the formatting of the LaTeX comment itself by
% changing the \pkg{piton} style |Comment.LaTeX|.
%
% For example, with |\SetPitonStyle{Comment.LaTeX = \normalfont\color{blue}}|,
% the LaTeX comments will be composed in blue.
%
% If you want to have a character |#| at the beginning of the LaTeX comment in
% the \textsc{pdf}, you can use set |Comment.LaTeX| as follows:
%
% \begin{Verbatim}
% \SetPitonStyle{Comment.LaTeX = \color{gray}\~#\normalfont\space }
% \end{Verbatim}
%
% For other examples of customization of the LaTeX comments, see the part
% \ref{example-comments} p.~\pageref{example-comments}
% \end{itemize}
%
% \bigskip
% If the user has required line numbers (with the key |line-numbers|), it's
% possible to refer to a number of line with the command |\label| used in a
% LaTeX comment.\footnote{That feature is implemented by using a redefinition of
% the standard command \texttt{\textbackslash label} in the environments
% \texttt{\{Piton\}}. Therefore, incompatibilities may occur with extensions
% which redefine (globally) that command \texttt{\textbackslash label} (for
% example: \pkg{varioref}, \pkg{refcheck}, \pkg{showlabels}, etc.)}
%
% \subsubsection{The key ``math-comments''}
%
% \index{math-comments}
%
% It's possible to request that, in the standard Python comments (that is to say
% those beginning by |#| and not |#>|), the elements between \texttt{\$} be
% composed in LaTeX mathematical mode (the other elements of the comment being
% composed verbatim).
%
% That feature is activated by the key \Definition{math-comments}, \emph{which is
% available only in the preamble of the document}.
%
% \medskip
% Here is a example, where we have assumed that the preamble of the document
% contains the instruction |\PitonOptions{math-comment}|:
%
% \begin{Verbatim}
% \begin{Piton}
% def square(x):
% return x*x ~# compute $x^2$
% \end{Piton}
% \end{Verbatim}
%
% \begin{Piton}
% def square(x):
% return x*x # compute $x^2$
% \end{Piton}
%
% \subsubsection{The key ``detected-commands''}
%
% \index{detected-commands (key)}
% \label{detected-commands}
%
% The key \Definition{detected-commands} of |\PitonOptions| allows to specify a
% (comma-separated) list of names of LaTeX commands that will be detected
% directly by \pkg{piton}.
%
% \begin{itemize}
% \item The key |detected-commands| must be used in the preamble of the LaTeX document.
%
% \item The names of the LaTeX commands must appear without the leading
% backslash (eg. |detected-commands = { emph, textbf }|).
%
% \item These commands must be LaTeX commands with only one (mandatory) argument
% between braces (and these braces must appear explicitly in the informatic listing).
% \end{itemize}
%
% \bigskip
% In the following example, which is a recursive programmation of the factorial
% function, we decide to highlight the recursive call. The command |\highLight|
% of \pkg{lua-ul}\footnote{The package \pkg{lua-ul} requires itself the package
% \pkg{luacolor}.} directly does the job with the easy syntax |\highLight{...}|.
%
% \medskip
% We assume that the preamble of the LaTeX document contains the following line:
% \begin{Verbatim}
% \PitonOptions{~emphase#detected-commands@ = highLight}
% \end{Verbatim}
%
% Then, it's possible to write directly:
% \begin{Verbatim}
% \begin{Piton}
% def fact(n):
% if n==0:
% return 1
% else:
% ~emphase#\highLight@{return n*fact(n-1)}
% \end{Piton}
% \end{Verbatim}
%
% \begin{Piton}
% def fact(n):
% if n==0:
% return 1
% else:
% \highLight{return n*fact(n-1)}
% \end{Piton}
%
%
% \subsubsection{The mechanism ``escape''}
%
% \label{escape}
%
% It's also possible to overwrite the informatic listings to insert LaTeX code
% almost everywhere (but between lexical units, of course). By default,
% \pkg{piton} does not fix any delimiters for that kind of escape.
%
% In order to use this mechanism, it's necessary to specify the delimiters which
% will delimit the escape (one for the beginning and one for the end) by using
% the keys \Definition{begin-escape} and \Definition{end-escape}, \emph{available only
% in the preamble of the document}.
%
% \medskip
% We consider once again the previous example of a recursive programmation of
% the factorial. We want to highlight in pink the instruction containing the
% recursive call. With the package \pkg{lua-ul}, we can use the syntax
% |\highLight[LightPink]{...}|. Because of the optional argument between square
% brackets, it's not possible to use the key |detected-commands| but it's
% possible to achieve our goal with the more general mechanism ``escape''.
%
% \medskip
% We assume that the preamble of the document contains the following
% instruction:
%
% \begin{Verbatim}
% \PitonOptions{~emphase#begin-escape=!,end-escape=!@}
% \end{Verbatim}
%
% \medskip
% Then, it's possible to write:
% \begin{Verbatim}
% \begin{Piton}
% def fact(n):
% if n==0:
% return 1
% else:
% ~emphase#!\highLight[LightPink]{!@return n*fact(n-1)~emphase#!}!@
% \end{Piton}
% \end{Verbatim}
%
% \begin{Piton}
% def fact(n):
% if n==0:
% return 1
% else:
% !\highLight[LightPink]{!return n*fact(n-1)!}!
% \end{Piton}
%
%
%
% \bigskip
% \emph{Caution} : The mechanism ``escape'' is not active in the strings nor in
% the Python comments (however, it's possible to have a whole Python comment
% composed in LaTeX by beginning it with |#>|; such comments are merely called
% ``LaTeX comments'' in this document).
%
%
% \subsubsection{The mechanism ``escape-math''}
%
% The mechanism ``escape-math'' is very similar to the mechanism ``escape''
% since the only difference is that the elements sent to LaTeX are composed in
% the math mode of LaTeX.
%
% This mechanism is activated with the keys \Definition{begin-escape-math} and
% \Definition{end-escape-math} (\emph{which are available only in the preamble of the
% document}).
%
% Despite the technical similarity, the use of the the mechanism
% ``escape-math'' is in fact rather different from that of the mechanism
% ``escape''. Indeed, since the elements are composed in a mathematical mode
% of LaTeX, they are, in particular, composed within a TeX group and, therefore,
% they can't be used to change the formatting of other lexical units.
%
% In the languages where the character \verb|$| does not play a important role,
% it's possible to activate that mechanism ``escape-math'' with the character
% \verb|$|:
% \begin{Verbatim}
% \PitonOptions{~emphase#begin-escape-math=$,end-escape-math=$@}
% \end{Verbatim}
% Remark that the character \verb|$| must \emph{not} be protected by a backslash.
%
% \bigskip
% However, it's probably more prudent to use |\(| et |\)|, which are delimiters
% of the mathematical mode provided by LaTeX.
% \begin{Verbatim}
% \PitonOptions{~emphase#begin-escape-math=\(,end-escape-math=\)@}
% \end{Verbatim}
%
% \bigskip
% Here is an example of utilisation.
%
% \medskip
% \begin{Verbatim}
% \begin{Piton}[line-numbers]
% def arctan(x,n=10):
% if ~emphase#\(x < 0\)@ :
% return ~emphase#\(-\arctan(-x)\)@
% elif ~emphase#\(x > 1\)@ :
% return ~emphase#\(\pi/2 - \arctan(1/x)\)@
% else:
% s = ~emphase#\(0\)@
% for ~emphase#\(k\)@ in range(~emphase#\(n\)@): s += ~emphase#\(\smash{\frac{(-1)^k}{2k+1} x^{2k+1}}\)@
% return s
% \end{Piton}
% \end{Verbatim}
%
%
% \bigskip
%
% \begin{Piton}[line-numbers]
% def arctan(x,n=10):
% if \(x < 0\) :
% return \(-\arctan(-x)\)
% elif \(x > 1\) :
% return \(\pi/2 - \arctan(1/x)\)
% else:
% s = \(0\)
% for \(k\) in range(\(n\)): s += \(\smash{\frac{(-1)^k}{2k+1} x^{2k+1}}\)
% return s
% \end{Piton}
%
%
% \subsection{Behaviour in the class Beamer}
%
% \label{beamer}
% \index{Beamer@\cls{Beamer} (class)}
%
% \emph{First remark}\par\nobreak
% Since the environment |{Piton}| catches its body with a verbatim mode, it's
% necessary to use the environments |{Piton}| within environments |{frame}| of
% Beamer protected by the key |fragile|, i.e. beginning with
% |\begin{frame}[fragile]|.\footnote{Remind that for an environment
% \texttt{\{frame\}} of Beamer using the key |fragile|, the instruction
% \texttt{\textbackslash end\{frame\}} must be alone on a single line (except
% for any leading whitespace).}
%
%
% \bigskip
% When the package \pkg{piton} is used within the class
% \cls{beamer}\footnote{The extension \pkg{piton} detects the class \cls{beamer}
% and the package \pkg{beamerarticle} if it is loaded previously
% but, if needed, it's also possible to activate that mechanism with the key
% |beamer| provided by \pkg{piton} at load-time: |\textbackslash
% usepackage[beamer]\{piton\}|}, the behaviour of \pkg{piton} is slightly
% modified, as described now.
%
% \subsubsection{\{Piton\} et \textbackslash PitonInputFile are
% ``overlay-aware''}
%
% When \pkg{piton} is used in the class \cls{beamer}, the environment |{Piton}|
% and the command |\PitonInputFile| accept the optional argument |<...>| of
% Beamer for the overlays which are involved.
%
% For example, it's possible to write:
%
% \begin{Verbatim}
% \begin{Piton}~emphase#<2-5>@
% ...
% \end{Piton}
% \end{Verbatim}
%
% and
%
% \begin{Verbatim}
% \PitonInputFile~emphase#<2-5>@{my_file.py}
% \end{Verbatim}
%
% \subsubsection{Commands of Beamer allowed in \{Piton\} and \textbackslash PitonInputFile}
%
% \index{detected-beamer-commands}
%
% When \pkg{piton} is used in the class \cls{beamer} , the following commands of
% \cls{beamer} (classified upon their number of arguments) are automatically
% detected in the environments |{Piton}| (and in the listings processed by
% |\PitonInputFile|):
% \begin{itemize}
% \item no mandatory argument : |\pause|\footnote{One should remark that it's
% also possible to use the command \texttt{\textbackslash pause} in a ``LaTeX
% comment'', that is to say by writing \texttt{\#> \textbackslash pause}. By
% this way, if the Python code is copied, it's still executable by Python}. ;
% \item one mandatory argument : |\action|, |\alert|, |\invisible|, |\only|,
% |\uncover| and |\visible| ; \newline
% % It's possible to add new commands to that list with the key
% \Definition{detected-beamer-commands} (the names of the commands must
% \emph{not} be preceded by a backslash).
% \item two mandatory arguments : |\alt| ;
% \item three mandatory arguments : |\temporal|.
% \end{itemize}
% \medskip
% These commands must be used preceded and following by a space. In the
% mandatory arguments of these commands, the braces must be balanced. However,
% the braces included in short strings\footnote{The short strings of Python are
% the strings delimited by characters \texttt{'} or the characters \texttt{"}
% and not \texttt{'''} nor \texttt{"""}. In Python, the short strings can't
% extend on several lines.} of Python are not considered.
%
% \medskip
% Regarding the functions |\alt| and |\temporal| there should be no carriage
% returns in the mandatory arguments of these functions.
%
% \medskip
% Here is a complete example of file:
%
% \begin{Verbatim}[formatcom = \small\color{gray}]
% \documentclass{beamer}
% \usepackage{piton}
% \begin{document}
% \begin{frame}[fragile]
% \begin{Piton}
% def string_of_list(l):
% """Convert a list of numbers in string"""
% ~emphase# \only<2->{s = "{" + str(l[0])}@
% ~emphase# \only<3->{for x in l[1:]: s = s + "," + str(x)}@
% ~emphase# \only<4->{s = s + "}"}@
% return s
% \end{Piton}
% \end{frame}
% \end{document}
% \end{Verbatim}
%
% In the previous example, the braces in the Python strings |"{"| and |"}"| are
% correctly interpreted (without any escape character).
%
%
%
%
% \bigskip
% \subsubsection{Environments of Beamer allowed in \{Piton\} and \textbackslash PitonInputFile}
%
% When \pkg{piton} is used in the class \pkg{beamer}, the following environments
% of Beamer are directly detected in the environments |{Piton}| (and in the
% listings processed by |\PitonInputFile|): |{actionenv}|, |{alertenv}|,
% |{invisibleenv}|, |{onlyenv}|, |{uncoverenv}| and |{visibleenv}|.
%
% \smallskip
% \index{detected-beamer-environments}
% It's possible to add new environments to that list with the key
% \Definition{detected-beamer-environments}.
%
% \smallskip
%
% However, there is a restriction: these environments must contain only \emph{whole
% lines of Python code} in their body. The instructions |\begin{...}| and
% |\end{...}| must be alone on their lines.
%
%\medskip
% Here is an example:
%
% \begin{Verbatim}[formatcom = \small\color{gray}]
% \documentclass{beamer}
% \usepackage{piton}
% \begin{document}
% \begin{frame}[fragile]
% \begin{Piton}
% def square(x):
% """Compure the square of its argument"""
% ~emphase#\begin{uncoverenv}<2>@
% return x*x
% ~emphase#\end{uncoverenv}@
% \end{Piton}
% \end{frame}
% \end{document}
% \end{Verbatim}
%
%
% \vspace{1cm}
% \textbf{Remark concerning the command \textbackslash alert and the environment
% \{alertenv\} of Beamer}\par\nobreak
%
% \smallskip
% Beamer provides an easy way to change the color used by the environment
% |{alertenv}| (and by the command |\alert| which relies upon it) to highlight
% its argument. Here is an example:
%
% \begin{Verbatim}
% \setbeamercolor{~emphase#alerted text@}{fg=blue}
% \end{Verbatim}
%
% However, when used inside an environment |{Piton}|, such tuning will probably
% not be the best choice because \pkg{piton} will, by design, change (most of
% the time) the color the different elements of text. One may prefer an environment
% |{alertenv}| that will change the background color for the elements to be
% highlighted.
%
% \smallskip
% Here is a code that will do that job and add a yellow background. That code
% uses the command |\@highLight| of \pkg{lua-ul} (that extension requires also
% the package \pkg{luacolor}).
%
% \begingroup
% \fvset{commandchars=\~\#\+,formatcom=\color{gray}}
% \begin{Verbatim}
% \setbeamercolor{alerted text}{bg=yellow!50}
% \makeatletter
% \AddToHook{env/Piton/begin}
% {\renewenvironment<>{alertenv}{\only~#1{~emphase#\@highLight+[alerted text.bg]}}{}}
% \makeatother
% \end{Verbatim}
% \endgroup
%
% That code redefines locally the environment |{alertenv}| within the
% environments |{Piton}| (we recall that the command |\alert| relies upon that
% environment |{alertenv}|).
%
%
% \subsection{Footnotes in the environments of piton}
%
% \index{footnote@\pkg{footnote} (extension)}
% \index{footnote (key)}
% \index{footnotehyper@\pkg{footnotehyper} (extension)}
% \index{footnotehyper (key)}
%
% \label{footnote}
% If you want to put footnotes in an environment |{Piton}| or
% (or, more unlikely, in a listing produced by |\PitonInputFile|), you can use a
% pair |\footnotemark|--|\footnotetext|.
%
% \smallskip
% However, it's also possible to extract the footnotes with the help of the
% package \pkg{footnote} or the package \pkg{footnotehyper}.
%
% \smallskip
% If \pkg{piton} is loaded with the option \Definition{footnote} (with
% |\usepackage[footnote]{piton}| or with |\PassOptionsToPackage|), the
% package \pkg{footnote} is loaded (if it is not yet loaded) and it is used to
% extract the footnotes.
%
% \smallskip
% If \pkg{piton} is loaded with the option \Definition{footnotehyper}, the
% package \pkg{footnotehyper} is loaded (if it is not yet loaded) ant it is used
% to extract footnotes.
%
% \smallskip
% Caution: The packages \pkg{footnote} and \pkg{footnotehyper} are incompatible.
% The package \pkg{footnotehyper} is the successor of the package \pkg{footnote}
% and should be used preferently. The package \pkg{footnote} has some drawbacks,
% in particular: it must be loaded after the package \pkg{xcolor} and it is not
% perfectly compatible with \pkg{hyperref}.
%
%
% \medskip
% \textbf{Important remark} : If you use Beamer, you should know taht Beamer has
% its own system to extract the footnotes. Therefore, \pkg{piton} must be loaded
% in that class without the option |footnote| nor the option |footnotehyper|.
%
%
% \bigskip
% By default, in an environment |{Piton}|, a command |\footnote| may appear only
% within a ``LaTeX comment''. But it's also possible to add the command
% |\footnote| to the list of the ``\emph{detected-commands}''
% (cf.~part~\ref{detected-commands}, p.~\pageref{detected-commands}).
% \medskip
% In this document, the package \pkg{piton} has been loaded with the
% option |footnotehyper| dans we added the command |\footnote| to the list of
% the ``\emph{detected-commands}'' with the following instruction in the
% preamble of the LaTeX document.
%
% \qquad \verb|\PitonOptions{detected-commands = footnote}|
%
%
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% \PitonOptions{background-color=gray!15}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x)~emphase&\footnote{First recursive call.}]@
% elif x > 1:
% return pi/2 - arctan(1/x)~emphase&\footnote{Second recursive call.}@
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \end{Verbatim}
% \endgroup
%
% \begingroup
% \PitonOptions{background-color=gray!15}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x)\footnote{First recursive call.}
% elif x > 1:
% return pi/2 - arctan(1/x)\footnote{Second recursive call.}
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \endgroup
%
%
% \vspace{1cm}
%
% If an environment |{Piton}| is used in an environment |{minipage}| of LaTeX,
% the notes are composed, of course, at the foot of the environment
% |{minipage}|. Recall that such |{minipage}| can't be broken by a page break.
%
%
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% \PitonOptions{background-color=gray!15}
% \emphase\begin{minipage}{\linewidth}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x)~emphase&\footnote{First recursive call.}@
% elif x > 1:
% return pi/2 - arctan(1/x)~emphase&\footnote{Second recursive call.}@
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \end{minipage}
% \end{Verbatim}
% \endgroup
%
% \begingroup
% \PitonOptions{background-color=gray!15}
% \begin{minipage}{\linewidth}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x)\footnote{First recursive call.}
% elif x > 1:
% return pi/2 - arctan(1/x)\footnote{Second recursive call.}
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \end{minipage}
% \endgroup
%
%
% \subsection{Tabulations}
%
% \index{tabulations}
% \index{tab-size}
%
% \smallskip
% Even though it's probably recommended to indent the informatics listings with
% spaces and not tabulations\footnote{For the language Python, see the note %
% PEP~8}, \pkg{piton} accepts the characters of tabulation (that is to say the
% characters U+0009) at the beginning of the lines. Each character U+0009 is
% replaced by $n$~spaces. The initial value of $n$ is $4$ but it's possible to
% change it with the key \Definition{tab-size} of |\PitonOptions|.
%
% \smallskip
% There exists also a key \Definition{tabs-auto-gobble} which computes the
% minimal value $n$ of the number of consecutive characters U+0009 beginning
% each (non empty) line of the environment |{Piton}| and applies |gobble| with
% that value of~$n$ (before replacement of the tabulations by spaces, of
% course). Hence, that key is similar to the key |auto-gobble| but acts on
% U+0009 instead of U+0020 (spaces).
%
% The key |env-gobble| is not compatible with the tabulations.
%
%
% \bigskip
% \section{API for the developpers}
%
% \label{API}
%
% The L3 variable \DefinitionCommand{l_piton_language_str} contains the name of
% the current language of \pkg{piton} (in lower case).
%
% \bigskip
%
% The extension \pkg{piton} provides a Lua function
% \Definition{piton.get_last_code} without argument which returns the code in
% the latest environment of \pkg{piton}.
% \begin{itemize}
% \item The carriage returns (which are present in the initial environment)
% appears as characters |\r| (i.e. U+000D).
%
% \item The code returned by |piton.get_last_code()| takes into account the
% potential application of a key |gobble|, |auto-gobble| or |env-gobble|
% (cf.~p.~\pageref{gobble}).
%
% \item The extra formatting elements added in the code are deleted in the code
% returned by |piton.get_last_code()|. That concerns the LaTeX commands declared
% by the key |detected-commands| (cf. part~\ref{detected-commands}) and the
% elements inserted by the mechanism ``|escape|'' (cf. part~\ref{escape}).
%
% \item |piton.get_last_code| is a Lua function and not a Lua string: the
% treatments outlined above are executed when the function is called. Therefore,
% it might be judicious to store the value returned by |piton.get_last_code()|
% in a variable of Lua if it will be used several times.
% \end{itemize}
%
% \medskip
% For an example of use, see the part concerning |pyluatex|, part~\ref{pyluatex},
% p.~\pageref{pyluatex}.
%
%
% \section{Examples}
%
% \subsection{Line numbering}
%
% \label{example-numbering}
% \index{numbers of the lines de code|emph}
%
% We remind that it's possible to have an automatic numbering of the lines in
% the informatic listings by using the key |line-numbers| (used without value).
%
% By default, the numbers of the lines are composed by \pkg{piton} in an
% overlapping position on the left (by using internally the command |\llap| of LaTeX).
%
% In order to avoid that overlapping, it's possible to use the option |left-margin=auto|
% which will insert automatically a margin adapted to the numbers of lines that
% will be written (that margin is larger when the numbers are greater than~10).
%
%
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% ~emphase&\PitonOptions{background-color=gray!15, left-margin = auto, line-numbers}@
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> (recursive call)
% elif x > 1:
% return pi/2 - arctan(1/x) #> (other recursive call)
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \end{Verbatim}
% \endgroup
%
%
%
% \begingroup
% \PitonOptions{background-color=gray!15,left-margin = auto, line-numbers}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> (recursive call)
% elif x > 1:
% return pi/2 - arctan(1/x) #> (other recursive call)
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \endgroup
%
%
%
% \bigskip
% \subsection{Formatting of the LaTeX comments}
%
% \label{example-comments}
%
% It's possible to modify the style |Comment.LaTeX| (with |\SetPitonStyle|) in
% order to display the LaTeX comments (which begin with |#>|) aligned on the
% right margin.
%
%
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% \PitonOptions{background-color=gray!15}
% ~emphase&\SetPitonStyle{Comment.LaTeX = \hfill \normalfont\color{gray}}@
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> recursive call
% elif x > 1:
% return pi/2 - arctan(1/x) #> other recursive call
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \end{Verbatim}
% \endgroup
%
% \begingroup
% \PitonOptions{background-color=gray!15}
% \SetPitonStyle{Comment.LaTeX = \hfill \normalfont\color{gray}}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> recursive call
% elif x > 1:
% return pi/2 - arctan(1/x) #> another recursive call
% else:
% return sum( (-1)**k/(2*k+1)*x**(2*k+1) for k in range(n) )
% \end{Piton}
% \endgroup
%
%
% \vspace{1cm}
% It's also possible to display these LaTeX comments in a kind of second column
% by limiting the width of the Python code with the key |width|. In the
% following example, we use the key |width| with the special value~|min|.
% Several compilations are required.
%
% \begingroup
% \fvset{commandchars=\~\&\@,formatcom=\small\color{gray}}
% \begin{Verbatim}
% \PitonOptions{background-color=gray!15, width=min}
% ~emphase&\NewDocumentCommand{\MyLaTeXCommand}{m}{\hfill \normalfont\itshape\rlap{\quad #1}}@
% ~emphase&\SetPitonStyle{Comment.LaTeX = \MyLaTeXCommand}@
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> recursive call
% elif x > 1:
% return pi/2 - arctan(1/x) #> another recursive call
% else:
% s = 0
% for k in range(n):
% s += (-1)**k/(2*k+1)*x**(2*k+1)
% return s
% \end{Piton}
% \end{Verbatim}
% \endgroup
%
%
%
% \begingroup
% \PitonOptions{background-color=gray!15, width=min}
% \NewDocumentCommand{\MyLaTeXCommand}{m}{\hfill \normalfont\itshape\rlap{\quad #1}}
% \SetPitonStyle{Comment.LaTeX = \MyLaTeXCommand}
% \begin{Piton}
% def arctan(x,n=10):
% if x < 0:
% return -arctan(-x) #> recursive call
% elif x > 1:
% return pi/2 - arctan(1/x) #> another recursive call
% else:
% s = 0
% for k in range(n):
% s += (-1)**k/(2*k+1)*x**(2*k+1)
% return s
% \end{Piton}
% \endgroup
%
%
%
%
%
% \bigskip
%
% \subsection{An example of tuning of the styles}
%
% The graphical styles have been presented in the section \ref{styles},
% p.~\pageref{styles}.
%
% \smallskip
% We present now an example of tuning of these styles adapted to the documents
% in black and white.
%
% That tuning uses the command |\highLight| of \pkg{lua-ul} (that package
% requires itself the package \pkg{luacolor}).
%
% \begin{Verbatim}
% \SetPitonStyle
% {
% Number = ,
% String = \itshape ,
% String.Doc = \color{gray} \slshape ,
% Operator = ,
% Operator.Word = \bfseries ,
% Name.Builtin = ,
% Name.Function = \bfseries \highLight[gray!20] ,
% Comment = \color{gray} ,
% Comment.LaTeX = \normalfont \color{gray},
% Keyword = \bfseries ,
% Name.Namespace = ,
% Name.Class = ,
% Name.Type = ,
% InitialValues = \color{gray}
% }
% \end{Verbatim}
%
% In that tuning, many values given to the keys are empty: that means that the
% corresponding style won't insert any formatting instruction (the element will
% be composed in the standard color, usually in black, etc.). Nevertheless,
% those entries are mandatory because the initial value of those keys in
% \pkg{piton} is \emph{not} empty.
%
% \begingroup
% \PitonOptions{splittable}
%
% \SetPitonStyle
% {
% Number = ,
% String = \itshape ,
% String.Doc = \color{gray} \slshape ,
% Operator.Word = \bfseries ,
% Operator = ,
% Name.Builtin = ,
% Name.Function = \bfseries \highLight[gray!20] ,
% Comment = \color{gray} ,
% Comment.LaTeX = \normalfont \color{gray} ,
% Keyword = \bfseries ,
% Name.Namespace = ,
% Name.Class = ,
% Name.Type = ,
% InitialValues = \color{gray}
% }
%
%
% \bigskip
%
% \begin{Piton}
% from math import pi
%
% def arctan(x,n=10):
% """Compute the mathematical value of arctan(x)
%
% n is the number of terms in the sum
% """
% if x < 0:
% return -arctan(-x) # recursive call
% elif x > 1:
% return pi/2 - arctan(1/x)
% #> (we have used that $\arctan(x)+\arctan(1/x)=\pi/2$ for $x>0$)
% else:
% s = 0
% for k in range(n):
% s += (-1)**k/(2*k+1)*x**(2*k+1)
% return s
% \end{Piton}
%
% \endgroup
%
% \subsection{Use with pyluatex}
%
% \index{pyluatex@{\pkg{pyluatex}} (extension)}
% \label{pyluatex}
%
% The package \pkg{pyluatex} is an extension which allows the execution of some
% Python code from |lualatex| (provided that Python is installed on the machine
% and that the compilation is done with |lualatex| and |--shell-escape|).
%
% Here is, for example, an environment |{PitonExecute}| which formats a Python
% listing (with \pkg{piton}) but also displays the output of the execution of the
% code with Python.
%
% \medskip
% \begin{Verbatim}
% \NewPitonEnvironment{~emphase#PitonExecute@}{!O{}}
% {\PitonOptions{~#1}}
% {\begin{center}
% \directlua{pyluatex.execute(piton.get_last_code(), false, true, false, true)}%
% \end{center}
% \ignorespacesafterend}
% \end{Verbatim}
%
% \medskip
% We have used the Lua function |piton.get_last_code| provided in the API of
% \pkg{piton} : cf.~part~\ref{API}, p.~\pageref{API}.
%
% \medskip
% This environment |{PitonExecute}| takes in as optional argument (between
% square brackets) the options of the command |\PitonOptions|.
%
%
%
% \clearpage
% \section{The styles for the different computer languages}
%
% \label{Semantic}
%
%
% \subsection{The language Python}
%
% In \pkg{piton}, the default language is Python. If necessary, it's possible to
% come back to the language Python with |\PitonOptions{language=Python}|.
%
% \bigskip
%
% The initial settings
% done by \pkg{piton} in |piton.sty| are inspired by the style \pkg{manni} de
% Pygments, as applied by Pygments to the language Python.\footnote{See:
% \url{https://pygments.org/styles/}. Remark that, by default, Pygments provides
% for its style \pkg{manni} a colored background whose color is the HTML color
% \texttt{\#F0F3F3}. It's possible to have the same color in \texttt{\{Piton\}}
% with the instruction \texttt{\textbackslash PitonOptions\{background-color =
% [HTML]\{F0F3F3\}\}}.}
%
% \vspace{1cm}
%
% \begin{center}
% \begin{tabularx}{\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Use \\
% \midrule
% Number & the numbers \\
% String.Short & the short strings (entre \texttt{'} ou \texttt{"}) \\
% String.Long & the long strings (entre \texttt{'''} ou \texttt{"""}) excepted
% the doc-strings (governed by |String.Doc|)\\
% String & that key fixes both |String.Short| et |String.Long| \\
% String.Doc & the doc-strings (only with |"""| following PEP~257) \\
% String.Interpol & the syntactic elements of the fields of the f-strings
% (that is to say the characters \texttt{\{} et \texttt{\}}); that style
% inherits for the styles |String.Short| and |String.Long| (according the kind
% of string where the interpolation appears) \\
% Interpol.Inside & the content of the interpolations in the f-strings (that
% is to say the elements between \texttt{\{} and~\texttt{\}}); if the final
% user has not set that key, those elements will be formatted by \pkg{piton}
% as done for any Python code. \\
% Operator & the following operators: \texttt{!= == << >> - \~{} + / * \% = < >
% \& .} \verb+|+ \verb|@| \\
% Operator.Word & the following operators: |in|, |is|, |and|, |or| et |not| \\
% Name.Builtin & almost all the functions predefined by Python \\
% Name.Decorator & the decorators (instructions beginning by \verb|@|) \\
% Name.Namespace & the name of the modules \\
% Name.Class & the name of the Python classes defined by the user \emph{at their
% point of definition} (with the keyword |class|) \\
% Name.Function & the name of the Python functions defined by the user \emph{at their
% point of definition} (with the keyword |def|) \\
% UserFunction & the name of the Python functions previously defined by the user
% (the initial value of that parameter is
% {\ttfamily \textbackslash PitonStyle\{Identifier\}} and,
% therefore, the names of that functions are formatted like the
% identifiers). \\
% Exception & les exceptions prédéfinies (ex.: \texttt{SyntaxError}) \\
% InitialValues & the initial values (and the preceding symbol |=|) of the
% optional arguments in the definitions of functions; if the final
% user has not set that key, those elements will be formatted by \pkg{piton}
% as done for any Python code. \\
% Comment & the comments beginning with \texttt{\#} \\
% Comment.LaTeX & the comments beginning with \texttt{\#>}, which are composed by
% \pkg{piton} as LaTeX code (merely named ``LaTeX comments'' in this document) \\
% Keyword.Constant & |True|, |False| et |None| \\
% Keyword & the following keywords:
% \ttfamily assert, break, case, continue, del,
% elif, else, except, exec, finally, for, from,
% global, if, import, in, lambda, non local,
% pass, raise, return, try, while,
% with, yield et yield from.\\
% Identifier & the identifiers. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
%
% \newpage
%
% \subsection{The language OCaml}
%
% It's possible to switch to the language |OCaml| with the key |language|:
% |language = OCaml|.
%
%
% \bigskip
%
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Use \\
% \midrule
% Number & the numbers \\
% String.Short & the characters (between \texttt{'}) \\
% String.Long & the strings, between |"| but also the \emph{quoted-strings} \\
% String & that key fixes both |String.Short| and |String.Long| \\
% Operator & les opérateurs, en particulier |+|, |-|, |/|, |*|, |@|, |!=|, |==|, |&&| \\
% Operator.Word & les opérateurs suivants : |asr|, |land|, |lor|, |lsl|, |lxor|, |mod| et |or| \\
% Name.Builtin & les fonctions |not|, |incr|, |decr|, |fst| et |snd| \\
% Name.Type & the name of a type of OCaml \\
% Name.Field & the name of a field of a module \\
% Name.Constructor & the name of the constructors of types (which begins by a capital) \\
% Name.Module & the name of the modules \\
% Name.Function & the name of the Python functions defined by the user \emph{at their
% point of definition} (with the keyword |let|) \\
% UserFunction & the name of the Python functions previously defined by the user
% (the initial value of that parameter is
% {\ttfamily \textbackslash PitonStyle\{Identifier\}} and,
% therefore, the names of that functions are formatted like the identifiers). \\
% Exception & the predefined exceptions (eg : |End_of_File|) \\
% TypeParameter & the parameters of the types \\
% Comment & the comments, between |(*| et |*)|; these comments may be nested \\
% Keyword.Constant & |true| et |false| \\
% Keyword & the following keywords: |assert|, |as|, |done|, |downto|, |do|,
% |else|, |exception|, |for|, |function| , |fun|, |if|, |lazy|, |match|,
% |mutable|, |new|, |of|, |private|, |raise|, |then|, |to|, |try| , |virtual|,
% |when|, |while| and |with| \\
% Keyword.Governing & the following keywords: |and|, |begin|, |class|, |constraint|,
% |end|, |external|, |functor|, |include|, |inherit|, |initializer|,
% |in|, |let|, |method|, |module|, |object|, |open|, |rec|, |sig|,
% |struct|, |type| and |val|. \\
% Identifier & the identifiers. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
% \newpage
%
% \subsection[The language C (and C++)]{The language C (and \CC)}
%
%
% It's possible to switch to the language |C| with the key |language|: |language = C|.
%
% \bigskip
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Use \\
% \midrule
% Number & the numbers \\
% String.Long & the strings (between \texttt{"}) \\
% String.Interpol & the elements \texttt{\%d}, \texttt{\%i}, \texttt{\%f},
% \texttt{\%c}, etc. in the strings; that style inherits from the style |String.Long| \\
% Operator & the following operators :
% \texttt{!= == << >> - \~{} + / * \% = < > \& .} \verb+|+ \verb|@| \\
% Name.Type & the following predefined types:
% |bool|, |char|, |char16_t|, |char32_t|, |double|, |float|, |int|, |int8_t|,
% |int16_t|, |int32_t|, |int64_t|, |long|, |short|, |signed|, |unsigned|,
% |void| et |wchar_t| \\
% Name.Builtin & the following predefined functions: |printf|, |scanf|,
% |malloc|, |sizeof| and |alignof| \\
% Name.Class & le nom des classes au moment de leur définition, c'est-à-dire
% après le mot-clé \verb|class| \\
% Name.Function & the name of the Python functions defined by the user \emph{at their
% point of definition} (with the keyword |let|) \\
% UserFunction & the name of the Python functions previously defined by the user
% (the initial value of that parameter is
% {\ttfamily \textbackslash PitonStyle\{Identifier\}} and,
% therefore, the names of that functions are formatted like the
% identifiers). \\
% Preproc & the instructions of the preprocessor (beginning par |#|) \\
% Comment & the comments (beginning by \texttt{//} or between |/*| and |*/|) \\
% Comment.LaTeX & the comments beginning by \texttt{//>} which are composed by
% \pkg{piton} as LaTeX code (merely named ``LaTeX comments'' in this document) \\
% Keyword.Constant & |default|, |false|, |NULL|, |nullptr| and |true| \\
% Keyword & the following keywords:
% |alignas|, |asm|, |auto|, |break|, |case|, |catch|, |class|,
% |constexpr|, |const|, |continue|, |decltype|, |do|, |else|, |enum|,
% |extern|, |for|, |goto|, |if|, |nexcept|, |private|, |public|, |register|,
% |restricted|, |try|, |return|, |static|, |static_assert|, |struct|, |switch|,
% |thread_local|, |throw|, |typedef|, |union|, |using|, |virtual|, |volatile|
% and |while| \\
% Identifier & the identifiers. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
% \newpage
%
% \subsection{The language SQL}
%
%
% It's possible to switch to the language |SQL| with the key |language|: |language = SQL|.
%
% \bigskip
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Use \\
% \midrule
% Number & the numbers \\
% String.Long & the strings (between \texttt{'} and not \texttt{"} because the
% elements between \texttt{"} are names of fields and formatted with |Name.Field|) \\
% Operator & the following operators : \texttt{= != <> >= > < <= * + / } \\
% Name.Table & the names of the tables \\
% Name.Field & the names of the fields of the tables \\
% Name.Builtin & the following built-in functions (their names are \emph{not} case-sensitive):
% |avg|, |count|, |char_lenght|, |concat|, |curdate|, |current_date|,
% |date_format|, |day|, |lower|, |ltrim|, |max|, |min|, |month|, |now|,
% |rank|, |round|, |rtrim|, |substring|, |sum|, |upper| and |year|. \\
% Comment & the comments (beginning by \texttt{--} or between |/*| and |*/|) \\
% Comment.LaTeX & the comments beginning by \texttt{-->} which are composed by
% \pkg{piton} as LaTeX code (merely named ``LaTeX comments'' in this document) \\
% Keyword & the following keywords (their names are \emph{not} case-sensitive):
% |add|, |after|, |all|, |alter|, |and|, |as|, |asc|, |between|, |by|,
% |change|, |column|, |create|, |cross join|, |delete|, |desc|, |distinct|,
% |drop|, |from|, |group|, |having|, |in|, |inner|, |insert|, |into|, |is|,
% |join|, |left|, |like|, |limit|, |merge|, |not|, |null|, |on|, |or|,
% |order|, |over|, |right|, |select|, |set|, |table|, |then|, |truncate|,
% |union|, |update|, |values|, |when|, |where| and |with|. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
%
% \bigskip
% It's possible to automatically capitalize the keywords by modifying locally
% for the language SQL the style |Keywords|.
% \begin{Verbatim}
% \SetPitonStyle~emphase#[SQL]@{Keywords = \bfseries \MakeUppercase}
% \end{Verbatim}
%
% \newpage
% \subsection{The languages defined by \textbackslash NewPitonLanguage}
%
% \vspace{1cm}
% The command |\NewPitonLanguage|, which defines new informatic languages with the
% syntax of the extension \pkg{listings}, has been described p.~\pageref{NewPitonLanguage}.
%
% All the languages defined by the command |\NewPitonLanguage| use the same styles.
% \vspace{1cm}
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Use \\
% \midrule
% Number & the numbers \\
% String.Long & the strings defined in |\NewPitonLanguage| by the key |morestring| \\
% Comment & the comments defined in |\NewPitonLanguage| by the key |morecomment| \\
% Comment.LaTeX & the comments which are composed by \pkg{piton} as LaTeX code (merely named ``LaTeX comments'' in this document) \\
% Keyword & the keywords defined in |\NewPitonLanguage| by the keys |morekeywords|
% and |moretexcs| (and also the key |sensitive| which specifies whether
% the keywords are case-sensitive or not) \\
% Directive & the directives defined in |\NewPitonLanguage| by the key
% |moredirectives| \\
% Tag & the ``tags'' defines by the key |tag| (the lexical units detected within
% the tag will also be formatted with their own style) \\
% Identifier & the identifiers. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
%
%
%
% \subsection{The language ``minimal''}
%
% \label{minimal}
%
% It's possible to switch to the language ``|minimal|'' with the key |language|:
% |language = minimal|.
%
% \bigskip
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Usage \\
% \midrule
% Number & the numbers \\
% String & the strings (between \texttt{"}) \\
% Comment & the comments (which begin with |#|) \\
% Comment.LaTeX & the comments beginning with \texttt{\#>}, which are composed by
% \pkg{piton} as LaTeX code (merely named ``LaTeX comments'' in this document)
% \\
% Identifier & the identifiers. \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
% \bigskip
% That language is provided for the final user who might wish to add keywords in
% that language (with the command |\SetPitonIdentifier|: cf. \ref{SetPitonIdentifier},
% p.~\pageref{SetPitonIdentifier}) in order to create, for example, a language
% for pseudo-code.
%
% \vspace{1cm}
%
% \subsection{The language ``verbatim''}
%
% \label{verbatim}
%
% \colorbox{yellow!50}{\textbf{New 4.1}}
%
% It's possible to switch to the language ``|verbatim|'' with the key |language|:
% |language = verbatim|.
%
% \bigskip
%
% \begin{center}
% \begin{tabularx}{0.9\textwidth}{@{}>{\ttfamily}l>{\raggedright\arraybackslash}X@{}}
% \toprule
% \normalfont Style & Usage \\
% \midrule
% None... & \\
% \bottomrule
% \end{tabularx}
% \end{center}
%
% The language |verbatim| doen't provide any style and, thus, does not do any
% syntactic formating. However, it's possible to use the mechanism
% |detected-commands| (cf. part~\ref{detected-commands},
% p.~\pageref{detected-commands}) and the detection of the commands and
% environments of Beamer.
%
%
% \newpage
%
% \section{Implementation}
%
% \medskip
% The development of the extension \pkg{piton} is done on the following GitHub
% depot:
%
% \verb|https://github.com/fpantigny/piton|
%
% \subsection{Introduction}
%
% The main job of the package \pkg{piton} is to take in as input a Python
% listing and to send back to LaTeX as output that code \emph{with interlaced LaTeX
% instructions of formatting}.
%
% In fact, all that job is done by a \textsc{lpeg} called |python|. That
% \textsc{lpeg}, when matched against the string of a Python listing,
% returns as capture a Lua table containing data to send to LaTeX.
% The only thing to do after will be to apply |tex.tprint| to each element of
% that table.\footnote{Recall that |tex.tprint| takes in as argument a Lua table whose
% first component is a ``catcode table'' and the second element a string. The
% string will be sent to LaTeX with the regime of catcodes specified by the
% catcode table. If no catcode table is provided, the standard catcodes of LaTeX
% will be used.}
%
% \bigskip
% Consider, for example, the following Python code:
%
% \begin{Piton}
% def parity(x):
% return x%2
% \end{Piton}
%
% The capture returned by the \pkg{lpeg} |python| against that code is the
% Lua table containing the following elements :
%
% \bigskip
% \begin{minipage}{\linewidth}
% \color{gray}
%
% |{ "\\__piton_begin_line:" }|\footnote{Each line of the Python listings will
% be encapsulated in a pair: \texttt{\textbackslash_@@_begin_line:} --
% \texttt{\textbackslash@@_end_line:}. The token
% \texttt{\textbackslash@@_end_line:} must be explicit because it will be used as
% marker in order to delimit the argument of the command \texttt{\textbackslash
% @@\_begin\_line:}. Both tokens \texttt{\textbackslash_@@_begin_line:} and
% \texttt{\textbackslash@@_end_line:} will be nullified in the command
% \texttt{\textbackslash piton} (since there can't be lines breaks in the
% argument of a command \texttt{\textbackslash piton}).}
%
% \texttt{\{ "\{\textbackslash PitonStyle\{Keyword\}\{" \}}\footnote{The
% lexical elements of Python for which we have a \pkg{piton} style will be
% formatted via the use of the command \texttt{\textbackslash PitonStyle}.
% Such an element is typeset in LaTeX via the syntax \texttt{\{\textbackslash
% PitonStyle\{\textsl{style}\}\{...\}\}} because the instructions inside an \texttt{\textbackslash
% PitonStyle} may be both semi-global declarations like
% \texttt{\textbackslash bfseries} and commands with one argument like
% \texttt{\textbackslash fbox}.}
%
% \texttt{\{
% luatexbase.catcodetables.CatcodeTableOther\footnote{\texttt{luatexbase.catcodetables.CatcodeTableOther} is a mere number which corresponds to the ``catcode table'' whose all characters have the catcode ``other'' (which means that they will be typeset by LaTeX verbatim).}, "def" \} }
%
% |{ "}}" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, " " }|
%
% |{ "{\PitonStyle{Name.Function}{" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "parity" }|
%
% |{ "}}" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "(" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "x" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, ")" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, ":" }|
%
% |{ "\\__piton_end_line: \\__piton_newline: \\__piton_begin_line:" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, " " }|
%
% |{ "{\PitonStyle{Keyword}{" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "return" }|
%
% |{ "}}" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, " " }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "x" }|
%
% |{ "{\PitonStyle{Operator}{" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "&" }|
%
% |{ "}}" }|
%
% |{ "{\PitonStyle{Number}{" }|
%
% |{ luatexbase.catcodetables.CatcodeTableOther, "2" }|
%
% |{ "}}" }|
%
% |{ "\\__piton_end_line:" }|
%
% \end{minipage}
%
% \bigskip
% We give now the LaTeX code which is sent back by Lua to TeX (we have written
% on several lines for legibility but no character |\r| will be sent to LaTeX). The
% characters which are greyed-out are sent to LaTeX with the catcode ``other''
% (=12). All the others characters are sent with the regime of catcodes of L3
% (as set by |\ExplSyntaxOn|)
%
%
% \begingroup
% \def\gbox#1{\colorbox{gray!20}{\strut #1}}
% \setlength{\fboxsep}{1pt}
%
% \begin{Verbatim*}[formatcom = \color{black}]
% \__piton_begin_line:{\PitonStyle{Keyword}{~gbox#def@}}
% ~gbox# @{\PitonStyle{Name.Function}{~gbox#parity@}}~gbox#(x):@\__piton_end_line:\__piton_newline:
% \__piton_begin_line:~gbox# @{\PitonStyle{Keyword}{~gbox#return@}}
% ~gbox# x@{\PitonStyle{Operator}{~gbox#%@}}{\PitonStyle{Number}{~gbox#2@}}\__piton_end_line:
% \end{Verbatim*}
% \endgroup
%
%
%
%
% \subsection{The L3 part of the implementation}
%
% \subsubsection{Declaration of the package}
% \begin{macrocode}
%<*STY>
\NeedsTeXFormat{LaTeX2e}
\RequirePackage{l3keys2e}
\ProvidesExplPackage
{piton}
{\PitonFileDate}
{\PitonFileVersion}
{Highlight informatic listings with LPEG on LuaLaTeX}
% \end{macrocode}
%
% \bigskip
% The command |\text| provided by the package \pkg{amstext} will be used to
% allow the use of the command |\pion{...}| (with the standard syntax) in
% mathematical mode.
% \begin{macrocode}
\RequirePackage { amstext }
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_error:n { \msg_error:nn { piton } }
\cs_new_protected:Npn \@@_warning:n { \msg_warning:nn { piton } }
\cs_new_protected:Npn \@@_error:nn { \msg_error:nnn { piton } }
\cs_new_protected:Npn \@@_error:nnn { \msg_error:nnnn { piton } }
\cs_new_protected:Npn \@@_fatal:n { \msg_fatal:nn { piton } }
\cs_new_protected:Npn \@@_fatal:nn { \msg_fatal:nnn { piton } }
\cs_new_protected:Npn \@@_msg_new:nn { \msg_new:nnn { piton } }
\cs_new_protected:Npn \@@_gredirect_none:n #1
{
\group_begin:
\globaldefs = 1
\msg_redirect_name:nnn { piton } { #1 } { none }
\group_end:
}
% \end{macrocode}
%
% With Overleaf, by default, a document is compiled in non-stop mode. When there
% is an error, there is no way to the user to use the key H in order to have
% more information. That's why we decide to put that piece of information (for
% the messages with such information) in the main part of the message when the
% key |messages-for-Overleaf| is used (at load-time).
% \begin{macrocode}
\cs_new_protected:Npn \@@_msg_new:nnn #1 #2 #3
{
\bool_if:NTF \g_@@_messages_for_Overleaf_bool
{ \msg_new:nnn { piton } { #1 } { #2 \\ #3 } }
{ \msg_new:nnnn { piton } { #1 } { #2 } { #3 } }
}
% \end{macrocode}
%
% \bigskip
% We also create a command which will generate usually an error but only a
% warning on Overleaf. The argument is given by curryfication.
% \begin{macrocode}
\cs_new_protected:Npn \@@_error_or_warning:n
{ \bool_if:NTF \g_@@_messages_for_Overleaf_bool \@@_warning:n \@@_error:n }
% \end{macrocode}
%
% We try to detect whether the compilation is done on Overleaf. We use
% |\c_sys_jobname_str| because, with Overleaf, the value of |\c_sys_jobname_str|
% is always ``|output|''.
% \begin{macrocode}
\bool_new:N \g_@@_messages_for_Overleaf_bool
\bool_gset:Nn \g_@@_messages_for_Overleaf_bool
{
\str_if_eq_p:on \c_sys_jobname_str { _region_ } % for Emacs
|| \str_if_eq_p:on \c_sys_jobname_str { output } % for Overleaf
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\@@_msg_new:nn { LuaLaTeX~mandatory }
{
LuaLaTeX~is~mandatory.\\
The~package~'piton'~requires~the~engine~LuaLaTeX.\\
\str_if_eq:onT \c_sys_jobname_str { output }
{ If~you~use~Overleaf,~you~can~switch~to~LuaLaTeX~in~the~"Menu". \\}
If~you~go~on,~the~package~'piton'~won't~be~loaded.
}
\sys_if_engine_luatex:F { \msg_critical:nn { piton } { LuaLaTeX~mandatory } }
% \end{macrocode}
%
%
% \bigskip
% \begin{macrocode}
\RequirePackage { luatexbase }
\RequirePackage { luacode }
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\@@_msg_new:nnn { piton.lua~not~found }
{
The~file~'piton.lua'~can't~be~found.\\
This~error~is~fatal.\\
If~you~want~to~know~how~to~retrieve~the~file~'piton.lua',~type~H~<return>.
}
{
On~the~site~CTAN,~go~to~the~page~of~'piton':~https://ctan.org/pkg/piton.~
The~file~'README.md'~explains~how~to~retrieve~the~files~'piton.sty'~and~
'piton.lua'.
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\file_if_exist:nF { piton.lua } { \@@_fatal:n { piton.lua~not~found } }
% \end{macrocode}
%
%
% \bigskip
% The boolean |\g_@@_footnotehyper_bool| will indicate if the option
% |footnotehyper| is used.
% \begin{macrocode}
\bool_new:N \g_@@_footnotehyper_bool
% \end{macrocode}
%
% \medskip
% The boolean |\g_@@_footnote_bool| will indicate if the option |footnote| is
% used, but quickly, it will also be set to |true| if the option |footnotehyper|
% is used.
% \begin{macrocode}
\bool_new:N \g_@@_footnote_bool
% \end{macrocode}
%
% \medskip
% The following boolean corresponds to the key |math-comments| (available only
% in the preamble of the LaTeX document).
% \begin{macrocode}
\bool_new:N \g_@@_math_comments_bool
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\bool_new:N \g_@@_beamer_bool
\tl_new:N \g_@@_escape_inside_tl
% \end{macrocode}
%
% \medskip
% In version 4.0 of \pkg{piton}, we changed the mechanism used by \pkg{piton}
% to search the file to load with |\PitonInputFile|. With the key
% |old-PitonInputFile|, it's possible to keep the old behaviour but it's only
% for backward compatibility and it will be deleted in a future version.
% \begin{macrocode}
\bool_new:N \l_@@_old_PitonInputFile_bool
% \end{macrocode}
%
%
% \bigskip
% We define a set of keys for the options at load-time.
% \begin{macrocode}
\keys_define:nn { piton / package }
{
footnote .bool_gset:N = \g_@@_footnote_bool ,
footnotehyper .bool_gset:N = \g_@@_footnotehyper_bool ,
footnote .usage:n = load ,
footnotehyper .usage:n = load ,
beamer .bool_gset:N = \g_@@_beamer_bool ,
beamer .default:n = true ,
beamer .usage:n = load ,
% \end{macrocode}
% \medskip
% In version 4.0 of \pkg{piton}, we changed the mechanism used by \pkg{piton}
% to search the file to load with |\PitonInputFile|. With the key
% |old-PitonInputFile|, it's possible to keep the old behaviour but it's only
% for backward compatibility and it will be deleted in a future version.
% \begin{macrocode}
old-PitonInputFile .bool_set:N = \l_@@_old_PitonInputFile_bool ,
old-PitonInputFile .default:n = true ,
old-PitonInputFile .usage:n = load ,
unknown .code:n = \@@_error:n { Unknown~key~for~package }
}
% \end{macrocode}
%
%
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~key~for~package }
{
Unknown~key.\\
You~have~used~the~key~'\l_keys_key_str'~but~the~only~keys~available~here~
are~'beamer',~'footnote',~'footnotehyper'~and~'old-PitonInputFile'.~
Other~keys~are~available~in~\token_to_str:N \PitonOptions.\\
That~key~will~be~ignored.
}
% \end{macrocode}
%
%
% \bigskip
% We process the options provided by the user at load-time.
% \begin{macrocode}
\ProcessKeysOptions { piton / package }
% \end{macrocode}
%
%
% \bigskip
% \begin{macrocode}
\IfClassLoadedTF { beamer } { \bool_gset_true:N \g_@@_beamer_bool } { }
\IfPackageLoadedTF { beamerarticle } { \bool_gset_true:N \g_@@_beamer_bool } { }
\lua_now:n { piton = piton~or~{ } }
\bool_if:NT \g_@@_beamer_bool { \lua_now:n { piton.beamer = true } }
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\hook_gput_code:nnn { begindocument / before } { . }
{ \IfPackageLoadedTF { xcolor } { } { \usepackage { xcolor } } }
% \end{macrocode}
%
%
% \begin{macrocode}
\@@_msg_new:nn { footnote~with~footnotehyper~package }
{
Footnote~forbidden.\\
You~can't~use~the~option~'footnote'~because~the~package~
footnotehyper~has~already~been~loaded.~
If~you~want,~you~can~use~the~option~'footnotehyper'~and~the~footnotes~
within~the~environments~of~piton~will~be~extracted~with~the~tools~
of~the~package~footnotehyper.\\
If~you~go~on,~the~package~footnote~won't~be~loaded.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { footnotehyper~with~footnote~package }
{
You~can't~use~the~option~'footnotehyper'~because~the~package~
footnote~has~already~been~loaded.~
If~you~want,~you~can~use~the~option~'footnote'~and~the~footnotes~
within~the~environments~of~piton~will~be~extracted~with~the~tools~
of~the~package~footnote.\\
If~you~go~on,~the~package~footnotehyper~won't~be~loaded.
}
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\bool_if:NT \g_@@_footnote_bool
{
% \end{macrocode}
% The class \cls{beamer} has its own system to extract footnotes and that's why
% we have nothing to do if \cls{beamer} is used.
% \begin{macrocode}
\IfClassLoadedTF { beamer }
{ \bool_gset_false:N \g_@@_footnote_bool }
{
\IfPackageLoadedTF { footnotehyper }
{ \@@_error:n { footnote~with~footnotehyper~package } }
{ \usepackage { footnote } }
}
}
% \end{macrocode}
%
% \begin{macrocode}
\bool_if:NT \g_@@_footnotehyper_bool
{
% \end{macrocode}
% The class \cls{beamer} has its own system to extract footnotes and that's why
% we have nothing to do if \cls{beamer} is used.
% \begin{macrocode}
\IfClassLoadedTF { beamer }
{ \bool_gset_false:N \g_@@_footnote_bool }
{
\IfPackageLoadedTF { footnote }
{ \@@_error:n { footnotehyper~with~footnote~package } }
{ \usepackage { footnotehyper } }
\bool_gset_true:N \g_@@_footnote_bool
}
}
% \end{macrocode}
% The flag |\g_@@_footnote_bool| is raised and so, we will only have to test
% |\g_@@_footnote_bool| in order to know if we have to insert an environment
% |{savenotes}|.
%
% \bigskip
% \begin{macrocode}
\lua_now:n
{
piton.BeamerCommands = lpeg.P [[\uncover]]
+ [[\only]] + [[\visible]] + [[\invisible]] + [[\alert]] + [[\action]]
piton.beamer_environments = { "uncoverenv" , "onlyenv" , "visibleenv" ,
"invisibleenv" , "alertenv" , "actionenv" }
piton.DetectedCommands = lpeg.P ( false )
piton.last_code = ''
piton.last_language = ''
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{Parameters and technical definitions}
%
% The following string will contain the name of the informatic language
% considered (the initial value is |python|).
%
% \begin{macrocode}
\str_new:N \l_piton_language_str
\str_set:Nn \l_piton_language_str { python }
% \end{macrocode}
%
% \medskip
% Each time an environment of \pkg{piton} is used, the informatic code in the
% body of that environment will be stored in the following global string.
% \begin{macrocode}
\tl_new:N \g_piton_last_code_tl
% \end{macrocode}
%
% \medskip
% The following parameter corresponds to the key |path| (which is the path used
% to include files by |\PitonInputFile|). Each component of that sequence will
% be a string (type |str|).
% \begin{macrocode}
\seq_new:N \l_@@_path_seq
% \end{macrocode}
%
% \medskip
% The following parameter corresponds to the key |path-write| (which is the path
% used when writing files from listings inserted in the environments of
% \pkg{piton} by use of the key |write|).
% \begin{macrocode}
\str_new:N \l_@@_path_write_str
% \end{macrocode}
%
% \medskip
% In order to have a better control over the keys.
% \begin{macrocode}
\bool_new:N \l_@@_in_PitonOptions_bool
\bool_new:N \l_@@_in_PitonInputFile_bool
% \end{macrocode}
%
% \medskip
% The following parameter corresponds to the key |font-command|.
% \begin{macrocode}
\tl_new:N \l_@@_font_command_tl
\tl_set:Nn \l_@@_font_command_tl { \ttfamily }
% \end{macrocode}
%
% \medskip
% We will compute (with Lua) the numbers of lines of the listings (or
% \emph{chunks} of listings when |split-on-empty-lines| is in force) and store
% it in the following counter.
% \begin{macrocode}
\int_new:N \l_@@_nb_lines_int
% \end{macrocode}
%
% The same for the number of non-empty lines of the listings.
% \begin{macrocode}
\int_new:N \l_@@_nb_non_empty_lines_int
% \end{macrocode}
%
%
% \medskip
% The following counter will be used to count the lines during the composition.
% It will take into account all the lines, empty or not empty. It won't be used
% to print the numbers of the lines but will be used to allow or disallow line
% breaks (when |splittable| is in force) and for the color of the background
% (when |background-color| is used with a \emph{list} of colors).
% \begin{macrocode}
\int_new:N \g_@@_line_int
% \end{macrocode}
%
% \medskip
% The following token list will contain the (potential) information to write
% on the |aux| (to be used in the next compilation). The technic of the
% auxiliary file will be used when the key |width| is used with the value~|min|.
% \begin{macrocode}
\tl_new:N \g_@@_aux_tl
% \end{macrocode}
%
% \medskip
% The following counter corresponds to the key |splittable| of |\PitonOptions|.
% If the value of |\l_@@_splittable_int| is equal to $n$, then no line break can
% occur within the first $n$~lines or the last $n$~lines of a listing (or a
% \emph{chunk} of listings when the key |split-on-empty-lines| is in force).
% \begin{macrocode}
\int_new:N \l_@@_splittable_int
% \end{macrocode}
%
% \medskip
% An initial value of |splittable| equal to 100 is equivalent to say that the
% environments |{Piton}| are unbreakable.
% \begin{macrocode}
\int_set:Nn \l_@@_splittable_int { 100 }
% \end{macrocode}
%
% \medskip
% When the key |split-on-empty-lines| will be in force, then the following token
% list will be inserted between the chunks of code (the informatic code provided
% by the final user is split in chunks on the empty lines in the code).
% \begin{macrocode}
\tl_new:N \l_@@_split_separation_tl
\tl_set:Nn \l_@@_split_separation_tl
{ \vspace { \baselineskip } \vspace { -1.25pt } }
% \end{macrocode}
% That parameter must contain elements to be inserted in \emph{vertical} mode by
% TeX.
%
%
% \medskip
% The following string corresponds to the key |background-color| of |\PitonOptions|.
% \begin{macrocode}
\clist_new:N \l_@@_bg_color_clist
% \end{macrocode}
%
% \medskip
% The package \pkg{piton} will also detect the lines of code which correspond to
% the user input in a Python console, that is to say the lines of code beginning
% with |>>>| and |...|. It's possible, with the key |prompt-background-color|,
% to require a background for these lines of code (and the other lines of code
% will have the standard background color specified by |background-color|).
% \begin{macrocode}
\tl_new:N \l_@@_prompt_bg_color_tl
% \end{macrocode}
%
% \medskip
% The following parameters correspond to the keys |begin-range| and |end-range| of
% the command |\PitonInputFile|.
% \begin{macrocode}
\str_new:N \l_@@_begin_range_str
\str_new:N \l_@@_end_range_str
% \end{macrocode}
%
% \medskip
% The argument of |\PitonInputFile|.
% \begin{macrocode}
\str_new:N \l_@@_file_name_str
% \end{macrocode}
%
% \medskip
% We will count the environments |{Piton}| (and, in fact, also the commands
% |\PitonInputFile|, despite the name |\g_@@_env_int|).
% \begin{macrocode}
\int_new:N \g_@@_env_int
% \end{macrocode}
%
% \medskip
% The parameter |\l_@@_writer_str| corresponds to the key |write|. We will store
% the list of the files already used in |\g_@@_write_seq| (we must not erase a
% file which has been still been used).
% \begin{macrocode}
\str_new:N \l_@@_write_str
\seq_new:N \g_@@_write_seq
% \end{macrocode}
%
% \medskip
% The following boolean corresponds to the key |show-spaces|.
% \begin{macrocode}
\bool_new:N \l_@@_show_spaces_bool
% \end{macrocode}
%
% \medskip
% The following booleans correspond to the keys |break-lines| and
% |indent-broken-lines|.
% \begin{macrocode}
\bool_new:N \l_@@_break_lines_in_Piton_bool
\bool_new:N \l_@@_indent_broken_lines_bool
% \end{macrocode}
%
% \medskip
% The following token list corresponds to the key |continuation-symbol|.
% \begin{macrocode}
\tl_new:N \l_@@_continuation_symbol_tl
\tl_set:Nn \l_@@_continuation_symbol_tl { + }
% \end{macrocode}
%
% \medskip
% The following token list corresponds to the key
% |continuation-symbol-on-indentation|. The name has been shorten to |csoi|.
% \begin{macrocode}
\tl_new:N \l_@@_csoi_tl
\tl_set:Nn \l_@@_csoi_tl { $ \hookrightarrow \; $ }
% \end{macrocode}
%
% \medskip
% The following token list corresponds to the key |end-of-broken-line|.
% \begin{macrocode}
\tl_new:N \l_@@_end_of_broken_line_tl
\tl_set:Nn \l_@@_end_of_broken_line_tl { \hspace*{0.5em} \textbackslash }
% \end{macrocode}
%
% \medskip
% The following boolean corresponds to the key |break-lines-in-piton|.
% \begin{macrocode}
\bool_new:N \l_@@_break_lines_in_piton_bool
% \end{macrocode}
% However, the key |break-lines_in_piton| raises that boolean but also executes the
% following instruction:
%
% \quad |\tl_set_eq:NN \l_@@_space_in_string_tl \space|
% The initial value of |\l_@@_space_in_string_tl| is |\nobreakspace|.
%
% \bigskip
% The following dimension will be the width of the listing constructed by
% |{Piton}| or |\PitonInputFile|.
% \begin{itemize}
% \item If the user uses the key |width| of |\PitonOptions| with a numerical
% value, that value will be stored in |\l_@@_width_dim|.
% \item If the user uses the key |width| with the special value~|min|, the
% dimension |\l_@@_width_dim| will, \emph{in the second run}, be computed from
% the value of |\l_@@_line_width_dim| stored in the |aux| file
% (computed during the first run the maximal width of the lines of the listing).
% During the first run, |\l_@@_width_line_dim| will be set equal to |\linewidth|.
% \item Elsewhere, |\l_@@_width_dim| will be set at the beginning of the listing
% (in |\@@_pre_env:|) equal to the current value of |\linewidth|.
% \end{itemize}
%
% \begin{macrocode}
\dim_new:N \l_@@_width_dim
% \end{macrocode}
%
% \medskip
% We will also use another dimension called |\l_@@_line_width_dim|. That
% will the width of the actual lines of code. That dimension may be lower than
% the whole |\l_@@_width_dim| because we have to take into account the value of
% |\l_@@_left_margin_dim| (for the numbers of lines when |line-numbers| is in
% force) and another small margin when a background color is used (with the key
% |background-color|).
% \begin{macrocode}
\dim_new:N \l_@@_line_width_dim
% \end{macrocode}
%
% \medskip
% The following flag will be raised with the key |width| is used with the
% special value |min|.
% \begin{macrocode}
\bool_new:N \l_@@_width_min_bool
% \end{macrocode}
%
% \medskip
% If the key |width| is used with the special value~|min|, we will compute the
% maximal width of the lines of an environment |{Piton}| in |\g_@@_tmp_width_dim|
% because we need it for the case of the key |width| is used with the special
% value |min|. We need a global variable because, when the key |footnote| is in
% force, each line when be composed in an environment |{savenotes}| and we need
% to exit our |\g_@@_tmp_width_dim| from that environment.
% \begin{macrocode}
\dim_new:N \g_@@_tmp_width_dim
% \end{macrocode}
%
% \medskip
% The following dimension corresponds to the key |left-margin| of |\PitonOptions|.
% \begin{macrocode}
\dim_new:N \l_@@_left_margin_dim
% \end{macrocode}
%
% \medskip
% The following boolean will be set when the key |left-margin=auto|
% is used.
% \begin{macrocode}
\bool_new:N \l_@@_left_margin_auto_bool
% \end{macrocode}
%
% \medskip
% The following dimension corresponds to the key |numbers-sep| of
% |\PitonOptions|.
% \begin{macrocode}
\dim_new:N \l_@@_numbers_sep_dim
\dim_set:Nn \l_@@_numbers_sep_dim { 0.7 em }
% \end{macrocode}
%
%
% \medskip
% Be careful. The following sequence |\g_@@_languages_seq| is not the list of
% the languages supported by \pkg{piton}. It's the list of the languages for
% which at least a user function has been defined. We need that sequence only
% for the command |\PitonClearUserFunctions| when it is used without its
% optional argument: it must clear all the list of languages for which at least
% a user function has been defined.
% \begin{macrocode}
\seq_new:N \g_@@_languages_seq
% \end{macrocode}
%
%
% \medskip
% \begin{macrocode}
\int_new:N \l_@@_tab_size_int
\int_set:Nn \l_@@_tab_size_int { 4 }
% \end{macrocode}
%
% \begin{macrocode}
\cs_new_protected:Npn \@@_tab:
{
\bool_if:NTF \l_@@_show_spaces_bool
{
\hbox_set:Nn \l_tmpa_box
{ \prg_replicate:nn \l_@@_tab_size_int { ~ } }
\dim_set:Nn \l_tmpa_dim { \box_wd:N \l_tmpa_box }
\( \mathcolor { gray }
{ \hbox_to_wd:nn \l_tmpa_dim { \rightarrowfill } } \)
}
{ \hbox:n { \prg_replicate:nn \l_@@_tab_size_int { ~ } } }
\int_gadd:Nn \g_@@_indentation_int \l_@@_tab_size_int
}
% \end{macrocode}
%
%
% \medskip
% The following integer corresponds to the key |gobble|.
% \begin{macrocode}
\int_new:N \l_@@_gobble_int
% \end{macrocode}
%
% \medskip
% The following token list will be used only for the spaces in the strings.
% \begin{macrocode}
\tl_set_eq:NN \l_@@_space_in_string_tl \nobreakspace
% \end{macrocode}
% When the key |break-lines-in-piton| is set, that parameter will be replaced by
% |\space| (in |\piton| with the standard syntax) and when the key
% |show-spaces-in-strings| is set, it will be replaced by ␣ (U+2423).
%
%
% \medskip
% At each line, the following counter will count the spaces at the beginning.
% \begin{macrocode}
\int_new:N \g_@@_indentation_int
% \end{macrocode}
%
% \medskip
% Be careful: when executed, the following command does \emph{not} create a
% space (only an incrementation of the counter).
% \begin{macrocode}
\cs_new_protected:Npn \@@_leading_space:
{ \int_gincr:N \g_@@_indentation_int }
% \end{macrocode}
%
%
% \bigskip
% In the environment |{Piton}|, the command |\label| will be linked to the
% following command.
% \begin{macrocode}
\cs_new_protected:Npn \@@_label:n #1
{
\bool_if:NTF \l_@@_line_numbers_bool
{
\@bsphack
\protected@write \@auxout { }
{
\string \newlabel { #1 }
{
% \end{macrocode}
% Remember that the content of a line is typeset in a box \emph{before} the
% composition of the potential number of line.
% \begin{macrocode}
{ \int_eval:n { \g_@@_visual_line_int + 1 } }
{ \thepage }
}
}
\@esphack
}
{ \@@_error:n { label~with~lines~numbers } }
}
% \end{macrocode}
%
% \bigskip
% The following commands corresponds to the keys |marker/beginning| and
% |marker/end|. The values of that keys are functions that will be applied to
% the ``\emph{range}'' specified by the final user in an individual
% |\PitonInputFile|. They will construct the markers used to find textually in
% the external file loaded by \pkg{piton} the part which must be included (and
% formatted).
% \begin{macrocode}
\cs_new_protected:Npn \@@_marker_beginning:n #1 { }
\cs_new_protected:Npn \@@_marker_end:n #1 { }
% \end{macrocode}
%
%
%
% \bigskip
% The following token list will be evaluated at the beginning of
% |\@@_begin_line:|... |\@@_end_line:| and cleared at the end. It will be used
% by LPEG acting between the lines of the Python code in order to add
% instructions to be executed at the beginning of the line.
% \begin{macrocode}
\tl_new:N \g_@@_begin_line_hook_tl
% \end{macrocode}
%
% \smallskip
% For example, the LPEG |Prompt| will trigger the following command which will
% insert an instruction in the hook |\g_@@_begin_line_hook| to specify that a
% background must be inserted to the current line of code.
% \begin{macrocode}
\cs_new_protected:Npn \@@_prompt:
{
\tl_gset:Nn \g_@@_begin_line_hook_tl
{
\tl_if_empty:NF \l_@@_prompt_bg_color_tl
{ \clist_set:No \l_@@_bg_color_clist \l_@@_prompt_bg_color_tl }
}
}
% \end{macrocode}
%
%
% \bigskip
% The spaces at the end of a line of code are deleted by \pkg{piton}.
% However, it's not actually true: they are replace by |\@@_trailing_space:|.
% \begin{macrocode}
\cs_new_protected:Npn \@@_trailing_space: { }
% \end{macrocode}
% When we have to rescan some pieces of code, we will use |\@@_piton:n|, which
% we will set |\@@_trailing_space:| equal to |\space|.
%
% \bigskip
% \subsubsection{Treatment of a line of code}
%
% \begin{macrocode}
\cs_generate_variant:Nn \@@_replace_spaces:n { o }
\cs_new_protected:Npn \@@_replace_spaces:n #1
{
\tl_set:Nn \l_tmpa_tl { #1 }
\bool_if:NTF \l_@@_show_spaces_bool
{
\tl_set:Nn \l_@@_space_in_string_tl { ␣ } % U+2423
\regex_replace_all:nnN { \x20 } { ␣ } \l_tmpa_tl
}
{
% \end{macrocode}
% If the key |break-lines-in-Piton| is in force, we replace all the characters
% U+0020 (that is to say the spaces) by |\@@_breakable_space:|. Remark that,
% except the spaces inserted in the LaTeX comments (and maybe in the math
% comments), all these spaces are of catcode ``other'' (=12) and are
% unbreakable.
% \begin{macrocode}
\bool_if:NT \l_@@_break_lines_in_Piton_bool
{
\regex_replace_all:nnN
{ \x20 }
{ \c { @@_breakable_space: } }
\l_tmpa_tl
\regex_replace_all:nnN
{ \c { l_@@_space_in_string_tl } }
{ \c { @@_breakable_space: } }
\l_tmpa_tl
}
}
\l_tmpa_tl
}
% \end{macrocode}
%
% \bigskip
% In the contents provided by Lua, each line of the Python code will be
% surrounded by |\@@_begin_line:| and |\@@_end_line:|.
% |\@@_begin_line:| is a
% TeX command with a delimited argument (|\@@_end_line:| is the marker for the
% end of the argument).
%
% However, we define also |\@@_end_line:| as no-op, because, when the last line
% of the listing is the end of an environment of Beamer (eg |\end{uncoverenv}|),
% we will have a token |\@@_end_line:| added at the end without any
% corresponding |\@@_begin_line:|).
% \begin{macrocode}
\cs_set_protected:Npn \@@_end_line: { }
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_set_protected:Npn \@@_begin_line: #1 \@@_end_line:
{
\group_begin:
\g_@@_begin_line_hook_tl
\int_gzero:N \g_@@_indentation_int
% \end{macrocode}
%
% \medskip
% First, we will put in the coffin |\l_tmpa_coffin| the actual content of a line
% of the code (without the potential number of line).
%
% Be careful: There is curryfication in the following code.
% \begin{macrocode}
\bool_if:NTF \l_@@_width_min_bool
\@@_put_in_coffin_ii:n
\@@_put_in_coffin_i:n
{
\language = -1
\raggedright
\strut
\@@_replace_spaces:n { #1 }
\strut \hfil
}
% \end{macrocode}
% Now, we add the potential number of line, the potential left margin and the
% potential background.
% \begin{macrocode}
\hbox_set:Nn \l_tmpa_box
{
\skip_horizontal:N \l_@@_left_margin_dim
\bool_if:NT \l_@@_line_numbers_bool
{
% \end{macrocode}
% |\l_tmpa_int| will be true equal to $1$ when the current line is not empty.
% \begin{macrocode}
\int_set:Nn \l_tmpa_int
{
\lua_now:e
{
tex.sprint
(
luatexbase.catcodetables.expl ,
% \end{macrocode}
% Since the argument of |tostring| will be a integer of Lua (\emph{integer} is a
% sub-type of \emph{number} introduced in Lua 5.3), the output will be of the
% form |"3"| (and not |"3.0"|) which is what we want for |\int_set:Nn|.
% \begin{macrocode}
tostring
( piton.empty_lines
[ \int_eval:n { \g_@@_line_int + 1 } ]
)
)
}
}
\bool_lazy_or:nnT
{ \int_compare_p:nNn \l_tmpa_int = \c_one_int }
{ ! \l_@@_skip_empty_lines_bool }
{ \int_gincr:N \g_@@_visual_line_int }
\bool_lazy_or:nnT
{ \int_compare_p:nNn \l_tmpa_int = \c_one_int }
{ ! \l_@@_skip_empty_lines_bool && \l_@@_label_empty_lines_bool }
\@@_print_number:
}
% \end{macrocode}
% If there is a background, we must remind that there is a left margin of 0.5~em
% for the background...
% \begin{macrocode}
\clist_if_empty:NF \l_@@_bg_color_clist
{
% \end{macrocode}
% ... but if only if the key |left-margin| is not used !
% \begin{macrocode}
\dim_compare:nNnT \l_@@_left_margin_dim = \c_zero_dim
{ \skip_horizontal:n { 0.5 em } }
}
\coffin_typeset:Nnnnn \l_tmpa_coffin T l \c_zero_dim \c_zero_dim
}
\box_set_dp:Nn \l_tmpa_box { \box_dp:N \l_tmpa_box + 1.25 pt }
\box_set_ht:Nn \l_tmpa_box { \box_ht:N \l_tmpa_box + 1.25 pt }
% \end{macrocode}
% We have to explicitely begin a paragraph because we will insert a TeX box (and
% we don't want that box to be inserted in the vertical list).
% \begin{macrocode}
\mode_leave_vertical:
\clist_if_empty:NTF \l_@@_bg_color_clist
{ \box_use_drop:N \l_tmpa_box }
{
\vtop
{
\hbox:n
{
\@@_color:N \l_@@_bg_color_clist
\vrule height \box_ht:N \l_tmpa_box
depth \box_dp:N \l_tmpa_box
width \l_@@_width_dim
}
\skip_vertical:n { - \box_ht_plus_dp:N \l_tmpa_box }
\box_use_drop:N \l_tmpa_box
}
}
\group_end:
\tl_gclear:N \g_@@_begin_line_hook_tl
}
% \end{macrocode}
%
% \bigskip
% In the general case (which is also the simpler), the key |width| is not used,
% or (if used) it is not used with the special value~|min|.
% In that case, the content of a line of code is composed in a vertical coffin
% with a width equal to |\l_@@_line_width_dim|. That coffin may,
% eventually, contains several lines when the key |break-lines-in-Piton| (or
% |break-lines|) is used.
%
% That commands takes in its argument by curryfication.
% \begin{macrocode}
\cs_set_protected:Npn \@@_put_in_coffin_i:n
{ \vcoffin_set:Nnn \l_tmpa_coffin \l_@@_line_width_dim }
% \end{macrocode}
%
% \bigskip
% The second case is the case when the key |width| is used with the special
% value~|min|.
% \begin{macrocode}
\cs_set_protected:Npn \@@_put_in_coffin_ii:n #1
{
% \end{macrocode}
% First, we compute the natural width of the line of code because we have to
% compute the natural width of the whole listing (and it will be written on the
% |aux| file in the variable |\l_@@_width_dim|).
% \begin{macrocode}
\hbox_set:Nn \l_tmpa_box { #1 }
% \end{macrocode}
% Now, you can actualize the value of |\g_@@_tmp_width_dim| (it will be used to
% write on the |aux| file the natural width of the environment).
% \begin{macrocode}
\dim_compare:nNnT { \box_wd:N \l_tmpa_box } > \g_@@_tmp_width_dim
{ \dim_gset:Nn \g_@@_tmp_width_dim { \box_wd:N \l_tmpa_box } }
% \end{macrocode}
%
% \begin{macrocode}
\hcoffin_set:Nn \l_tmpa_coffin
{
\hbox_to_wd:nn \l_@@_line_width_dim
% \end{macrocode}
% We unpack the block in order to free the potential |\hfill| springs present in
% the LaTeX comments (cf. section~\ref{example-comments}, p.~\pageref{example-comments}).
% \begin{macrocode}
{ \hbox_unpack:N \l_tmpa_box \hfil }
}
}
% \end{macrocode}
%
%
% \bigskip
% The command |\@@_color:N| will take in as argument a reference to a
% comma-separated list of colors. A color will be picked by using the value of
% |\g_@@_line_int| (modulo the number of colors in the list).
% \begin{macrocode}
\cs_set_protected:Npn \@@_color:N #1
{
\int_set:Nn \l_tmpa_int { \clist_count:N #1 }
\int_set:Nn \l_tmpb_int { \int_mod:nn \g_@@_line_int \l_tmpa_int + 1 }
\tl_set:Ne \l_tmpa_tl { \clist_item:Nn #1 \l_tmpb_int }
\tl_if_eq:NnTF \l_tmpa_tl { none }
% \end{macrocode}
% By setting |\l_@@_width_dim| to zero, the colored rectangle will be
% drawn with zero width and, thus, it will be a mere strut (and we need that strut).
% \begin{macrocode}
{ \dim_zero:N \l_@@_width_dim }
{ \@@_color_i:o \l_tmpa_tl }
}
% \end{macrocode}
%
% The following command |\@@_color:n| will accept both the instruction
% |\@@_color:n { red!15 }| and the instruction |\@@_color:n { [rgb]{0.9,0.9,0} }|.
% \begin{macrocode}
\cs_generate_variant:Nn \@@_color_i:n { o }
\cs_set_protected:Npn \@@_color_i:n #1
{
\tl_if_head_eq_meaning:nNTF { #1 } [
{
\tl_set:Nn \l_tmpa_tl { #1 }
\tl_set_rescan:Nno \l_tmpa_tl { } \l_tmpa_tl
\exp_last_unbraced:No \color \l_tmpa_tl
}
{ \color { #1 } }
}
% \end{macrocode}
%
% \bigskip
% The command |\@@_newline:| will be inserted by Lua between two lines of the
% informatic listing.
% \begin{itemize}
% \item In fact, it will be inserted between two commands
% |\@@_begin_line:|...|\@@_end_of_line:|.
% \item When the key |break-lines-in-Piton| is in force, a line of the
% informatic code (the \emph{input}) may result in several lines in the
% \textsc{pdf} (the \emph{output}).
% \item Remind that |\@@_newline:| has a rather complex behaviour because it will
% finish and start paragraphs.
% \end{itemize}
% \begin{macrocode}
\cs_new_protected:Npn \@@_newline:
{
\bool_if:NT \g_@@_footnote_bool \endsavenotes
% \end{macrocode}
% We recall that |\g_@@_line_int| is \emph{not} used for the number of line
% printed in the \textsc{pdf} (when |line-numbers| is in force)...
% \begin{macrocode}
\int_gincr:N \g_@@_line_int
% \end{macrocode}
% ... it will be used to allow or disallow page breaks.
%
%
% Each line in the listing is composed in a box of TeX (which may contain
% several lines when the key |break-lines-in-Piton| is in force) put in a
% paragraph.
% \begin{macrocode}
\par
% \end{macrocode}
% We now add a |\kern| because each line of code is overlapping vertically by a
% quantity of 2.5~pt in order to have a good background (when |background-color|
% is in force). We need to use a |\kern| (in fact |\par\kern...|) and not a
% |\vskip| because page breaks should \emph{not} be allowed on that kern.
% \begin{macrocode}
\kern -2.5 pt
% \end{macrocode}
% Now, we control page breaks after the paragraph. We use the Lua table
% |piton.lines_status| which has been written by |piton.ComputeLinesStatus| for
% this aim. Each line has a ``status`` (equal to 0, 1 or 2) and that status
% directly says whether a break is allowed.
% \begin{macrocode}
\int_case:nn
{
\lua_now:e
{
tex.sprint
(
luatexbase.catcodetables.expl ,
tostring ( piton.lines_status [ \int_use:N \g_@@_line_int ] )
)
}
}
{ 1 { \penalty 100 } 2 \nobreak }
% \end{macrocode}
%
% \begin{macrocode}
\bool_if:NT \g_@@_footnote_bool \savenotes
% \end{macrocode}
%
% \begin{macrocode}
}
% \end{macrocode}
% After the command |\@@_newline:|, we will usually have a command |\@@_begin_line:|.
%
% \bigskip
% \begin{macrocode}
\cs_set_protected:Npn \@@_breakable_space:
{
\discretionary
{ \hbox:n { \color { gray } \l_@@_end_of_broken_line_tl } }
{
\hbox_overlap_left:n
{
{
\normalfont \footnotesize \color { gray }
\l_@@_continuation_symbol_tl
}
\skip_horizontal:n { 0.3 em }
\clist_if_empty:NF \l_@@_bg_color_clist
{ \skip_horizontal:n { 0.5 em } }
}
\bool_if:NT \l_@@_indent_broken_lines_bool
{
\hbox:n
{
\prg_replicate:nn { \g_@@_indentation_int } { ~ }
{ \color { gray } \l_@@_csoi_tl }
}
}
}
{ \hbox { ~ } }
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{PitonOptions}
%
%
%
% \medskip
% \begin{macrocode}
\bool_new:N \l_@@_line_numbers_bool
\bool_new:N \l_@@_skip_empty_lines_bool
\bool_set_true:N \l_@@_skip_empty_lines_bool
\bool_new:N \l_@@_line_numbers_absolute_bool
\tl_new:N \l_@@_line_numbers_format_bool
\tl_set:Nn \l_@@_line_numbers_format_tl { \footnotesize \color { gray } }
\bool_new:N \l_@@_label_empty_lines_bool
\bool_set_true:N \l_@@_label_empty_lines_bool
\int_new:N \l_@@_number_lines_start_int
\bool_new:N \l_@@_resume_bool
\bool_new:N \l_@@_split_on_empty_lines_bool
\bool_new:N \l_@@_splittable_on_empty_lines_bool
% \end{macrocode}
%
%
% \bigskip
% \begin{macrocode}
\keys_define:nn { PitonOptions / marker }
{
beginning .code:n = \cs_set:Nn \@@_marker_beginning:n { #1 } ,
beginning .value_required:n = true ,
end .code:n = \cs_set:Nn \@@_marker_end:n { #1 } ,
end .value_required:n = true ,
include-lines .bool_set:N = \l_@@_marker_include_lines_bool ,
include-lines .default:n = true ,
unknown .code:n = \@@_error:n { Unknown~key~for~marker }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\keys_define:nn { PitonOptions / line-numbers }
{
true .code:n = \bool_set_true:N \l_@@_line_numbers_bool ,
false .code:n = \bool_set_false:N \l_@@_line_numbers_bool ,
start .code:n =
\bool_set_true:N \l_@@_line_numbers_bool
\int_set:Nn \l_@@_number_lines_start_int { #1 } ,
start .value_required:n = true ,
skip-empty-lines .code:n =
\bool_if:NF \l_@@_in_PitonOptions_bool
{ \bool_set_true:N \l_@@_line_numbers_bool }
\str_if_eq:nnTF { #1 } { false }
{ \bool_set_false:N \l_@@_skip_empty_lines_bool }
{ \bool_set_true:N \l_@@_skip_empty_lines_bool } ,
skip-empty-lines .default:n = true ,
label-empty-lines .code:n =
\bool_if:NF \l_@@_in_PitonOptions_bool
{ \bool_set_true:N \l_@@_line_numbers_bool }
\str_if_eq:nnTF { #1 } { false }
{ \bool_set_false:N \l_@@_label_empty_lines_bool }
{ \bool_set_true:N \l_@@_label_empty_lines_bool } ,
label-empty-lines .default:n = true ,
absolute .code:n =
\bool_if:NTF \l_@@_in_PitonOptions_bool
{ \bool_set_true:N \l_@@_line_numbers_absolute_bool }
{ \bool_set_true:N \l_@@_line_numbers_bool }
\bool_if:NT \l_@@_in_PitonInputFile_bool
{
\bool_set_true:N \l_@@_line_numbers_absolute_bool
\bool_set_false:N \l_@@_skip_empty_lines_bool
} ,
absolute .value_forbidden:n = true ,
resume .code:n =
\bool_set_true:N \l_@@_resume_bool
\bool_if:NF \l_@@_in_PitonOptions_bool
{ \bool_set_true:N \l_@@_line_numbers_bool } ,
resume .value_forbidden:n = true ,
sep .dim_set:N = \l_@@_numbers_sep_dim ,
sep .value_required:n = true ,
format .tl_set:N = \l_@@_line_numbers_format_tl ,
format .value_required:n = true ,
unknown .code:n = \@@_error:n { Unknown~key~for~line-numbers }
}
% \end{macrocode}
%
% \bigskip
% Be careful! The name of the following set of keys must be considered as
% public! Hence, it should \emph{not} be changed.
%
% \begin{macrocode}
\keys_define:nn { PitonOptions }
{
break-strings-anywhere .code:n =
\cs_set_eq:NN \@@_break_anywhere:n \@@_actually_break_anywhere:n ,
% \end{macrocode}
% First, we put keys that should be available only in the preamble.
% \begin{macrocode}
detected-commands .code:n =
\lua_now:n { piton.addDetectedCommands('#1') } ,
detected-commands .value_required:n = true ,
detected-commands .usage:n = preamble ,
detected-beamer-commands .code:n =
\lua_now:n { piton.addBeamerCommands('#1') } ,
detected-beamer-commands .value_required:n = true ,
detected-beamer-commands .usage:n = preamble ,
detected-beamer-environments .code:n =
\lua_now:n { piton.addBeamerEnvironments('#1') } ,
detected-beamer-environments .value_required:n = true ,
detected-beamer-environments .usage:n = preamble ,
% \end{macrocode}
%
%
% Remark that the command |\lua_escape:n| is fully expandable. That's why we use
% |\lua_now:e|.
% \begin{macrocode}
begin-escape .code:n =
\lua_now:e { piton.begin_escape = "\lua_escape:n{#1}" } ,
begin-escape .value_required:n = true ,
begin-escape .usage:n = preamble ,
end-escape .code:n =
\lua_now:e { piton.end_escape = "\lua_escape:n{#1}" } ,
end-escape .value_required:n = true ,
end-escape .usage:n = preamble ,
begin-escape-math .code:n =
\lua_now:e { piton.begin_escape_math = "\lua_escape:n{#1}" } ,
begin-escape-math .value_required:n = true ,
begin-escape-math .usage:n = preamble ,
end-escape-math .code:n =
\lua_now:e { piton.end_escape_math = "\lua_escape:n{#1}" } ,
end-escape-math .value_required:n = true ,
end-escape-math .usage:n = preamble ,
comment-latex .code:n = \lua_now:n { comment_latex = "#1" } ,
comment-latex .value_required:n = true ,
comment-latex .usage:n = preamble ,
math-comments .bool_gset:N = \g_@@_math_comments_bool ,
math-comments .default:n = true ,
math-comments .usage:n = preamble ,
% \end{macrocode}
%
% \bigskip
% Now, general keys.
% \begin{macrocode}
language .code:n =
\str_set:Ne \l_piton_language_str { \str_lowercase:n { #1 } } ,
language .value_required:n = true ,
path .code:n =
\seq_clear:N \l_@@_path_seq
\clist_map_inline:nn { #1 }
{
\str_set:Nn \l_tmpa_str { ##1 }
\seq_put_right:No \l_@@_path_seq \l_tmpa_str
} ,
path .value_required:n = true ,
% \end{macrocode}
% The initial value of the key |path| is not empty: it's |.|, that is to say a
% comma separated list with only one component which is |.|, the current directory.
% \begin{macrocode}
path .initial:n = . ,
path-write .str_set:N = \l_@@_path_write_str ,
path-write .value_required:n = true ,
font-command .tl_set:N = \l_@@_font_command_tl ,
font-command .value_required:n = true ,
gobble .int_set:N = \l_@@_gobble_int ,
gobble .value_required:n = true ,
auto-gobble .code:n = \int_set:Nn \l_@@_gobble_int { -1 } ,
auto-gobble .value_forbidden:n = true ,
env-gobble .code:n = \int_set:Nn \l_@@_gobble_int { -2 } ,
env-gobble .value_forbidden:n = true ,
tabs-auto-gobble .code:n = \int_set:Nn \l_@@_gobble_int { -3 } ,
tabs-auto-gobble .value_forbidden:n = true ,
splittable-on-empty-lines .bool_set:N = \l_@@_splittable_on_empty_lines_bool ,
splittable-on-empty-lines .default:n = true ,
split-on-empty-lines .bool_set:N = \l_@@_split_on_empty_lines_bool ,
split-on-empty-lines .default:n = true ,
split-separation .tl_set:N = \l_@@_split_separation_tl ,
split-separation .value_required:n = true ,
marker .code:n =
\bool_lazy_or:nnTF
\l_@@_in_PitonInputFile_bool
\l_@@_in_PitonOptions_bool
{ \keys_set:nn { PitonOptions / marker } { #1 } }
{ \@@_error:n { Invalid~key } } ,
marker .value_required:n = true ,
line-numbers .code:n =
\keys_set:nn { PitonOptions / line-numbers } { #1 } ,
line-numbers .default:n = true ,
splittable .int_set:N = \l_@@_splittable_int ,
splittable .default:n = 1 ,
background-color .clist_set:N = \l_@@_bg_color_clist ,
background-color .value_required:n = true ,
prompt-background-color .tl_set:N = \l_@@_prompt_bg_color_tl ,
prompt-background-color .value_required:n = true ,
width .code:n =
\str_if_eq:nnTF { #1 } { min }
{
\bool_set_true:N \l_@@_width_min_bool
\dim_zero:N \l_@@_width_dim
}
{
\bool_set_false:N \l_@@_width_min_bool
\dim_set:Nn \l_@@_width_dim { #1 }
} ,
width .value_required:n = true ,
write .str_set:N = \l_@@_write_str ,
write .value_required:n = true ,
left-margin .code:n =
\str_if_eq:nnTF { #1 } { auto }
{
\dim_zero:N \l_@@_left_margin_dim
\bool_set_true:N \l_@@_left_margin_auto_bool
}
{
\dim_set:Nn \l_@@_left_margin_dim { #1 }
\bool_set_false:N \l_@@_left_margin_auto_bool
} ,
left-margin .value_required:n = true ,
tab-size .int_set:N = \l_@@_tab_size_int ,
tab-size .value_required:n = true ,
show-spaces .bool_set:N = \l_@@_show_spaces_bool ,
show-spaces .value_forbidden:n = true ,
show-spaces-in-strings .code:n =
\tl_set:Nn \l_@@_space_in_string_tl { ␣ } , % U+2423
show-spaces-in-strings .value_forbidden:n = true ,
break-lines-in-Piton .bool_set:N = \l_@@_break_lines_in_Piton_bool ,
break-lines-in-Piton .default:n = true ,
break-lines-in-piton .bool_set:N = \l_@@_break_lines_in_piton_bool ,
break-lines-in-piton .default:n = true ,
break-lines .meta:n = { break-lines-in-piton , break-lines-in-Piton } ,
break-lines .value_forbidden:n = true ,
indent-broken-lines .bool_set:N = \l_@@_indent_broken_lines_bool ,
indent-broken-lines .default:n = true ,
end-of-broken-line .tl_set:N = \l_@@_end_of_broken_line_tl ,
end-of-broken-line .value_required:n = true ,
continuation-symbol .tl_set:N = \l_@@_continuation_symbol_tl ,
continuation-symbol .value_required:n = true ,
continuation-symbol-on-indentation .tl_set:N = \l_@@_csoi_tl ,
continuation-symbol-on-indentation .value_required:n = true ,
first-line .code:n = \@@_in_PitonInputFile:n
{ \int_set:Nn \l_@@_first_line_int { #1 } } ,
first-line .value_required:n = true ,
last-line .code:n = \@@_in_PitonInputFile:n
{ \int_set:Nn \l_@@_last_line_int { #1 } } ,
last-line .value_required:n = true ,
begin-range .code:n = \@@_in_PitonInputFile:n
{ \str_set:Nn \l_@@_begin_range_str { #1 } } ,
begin-range .value_required:n = true ,
end-range .code:n = \@@_in_PitonInputFile:n
{ \str_set:Nn \l_@@_end_range_str { #1 } } ,
end-range .value_required:n = true ,
range .code:n = \@@_in_PitonInputFile:n
{
\str_set:Nn \l_@@_begin_range_str { #1 }
\str_set:Nn \l_@@_end_range_str { #1 }
} ,
range .value_required:n = true ,
env-used-by-split .code:n =
\lua_now:n { piton.env_used_by_split = '#1' } ,
env-used-by-split .initial:n = Piton ,
resume .meta:n = line-numbers/resume ,
unknown .code:n = \@@_error:n { Unknown~key~for~PitonOptions } ,
% deprecated
all-line-numbers .code:n =
\bool_set_true:N \l_@@_line_numbers_bool
\bool_set_false:N \l_@@_skip_empty_lines_bool ,
all-line-numbers .value_forbidden:n = true
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_in_PitonInputFile:n #1
{
\bool_if:NTF \l_@@_in_PitonInputFile_bool
{ #1 }
{ \@@_error:n { Invalid~key } }
}
% \end{macrocode}
%
%
%
% \bigskip
% \begin{macrocode}
\NewDocumentCommand \PitonOptions { m }
{
\bool_set_true:N \l_@@_in_PitonOptions_bool
\keys_set:nn { PitonOptions } { #1 }
\bool_set_false:N \l_@@_in_PitonOptions_bool
}
% \end{macrocode}
%
%
%
% \bigskip
% When using |\NewPitonEnvironment| a user may use |\PitonOptions| inside.
% However, the set of keys available should be different that in standard
% |\PitonOptions|. That's why we define a version of |\PitonOptions| with no
% restriction on the set of available keys and we will link that version to
% |\PitonOptions| in such environment.
% \begin{macrocode}
\NewDocumentCommand \@@_fake_PitonOptions { }
{ \keys_set:nn { PitonOptions } }
% \end{macrocode}
%
%
%
%
% \bigskip
% \subsubsection{The numbers of the lines}
%
% \medskip
% The following counter will be used to count the lines in the code when the
% user requires the numbers of the lines to be printed (with |line-numbers|)
% whereas the counter |\g_@@_line_int| previously defined is \emph{not} used for
% that functionality.
%
% \begin{macrocode}
\int_new:N \g_@@_visual_line_int
% \end{macrocode}
%
% \begin{macrocode}
\cs_new_protected:Npn \@@_incr_visual_line:
{
\bool_if:NF \l_@@_skip_empty_lines_bool
{ \int_gincr:N \g_@@_visual_line_int }
}
% \end{macrocode}
%
% \begin{macrocode}
\cs_new_protected:Npn \@@_print_number:
{
\hbox_overlap_left:n
{
{
\l_@@_line_numbers_format_tl
% \end{macrocode}
% We put braces. Thus, the user may use the key |line-numbers/format| with a
% value such as |\fbox|.
% \begin{macrocode}
{ \int_to_arabic:n \g_@@_visual_line_int }
}
\skip_horizontal:N \l_@@_numbers_sep_dim
}
}
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{The command to write on the aux file}
%
%
% \begin{macrocode}
\cs_new_protected:Npn \@@_write_aux:
{
\tl_if_empty:NF \g_@@_aux_tl
{
\iow_now:Nn \@mainaux { \ExplSyntaxOn }
\iow_now:Ne \@mainaux
{
\tl_gset:cn { c_@@_ \int_use:N \g_@@_env_int _ tl }
{ \exp_not:o \g_@@_aux_tl }
}
\iow_now:Nn \@mainaux { \ExplSyntaxOff }
}
\tl_gclear:N \g_@@_aux_tl
}
% \end{macrocode}
%
% \bigskip
% The following macro with be used only when the key |width| is used with the
% special value~|min|.
% \begin{macrocode}
\cs_new_protected:Npn \@@_width_to_aux:
{
\tl_gput_right:Ne \g_@@_aux_tl
{
\dim_set:Nn \l_@@_line_width_dim
{ \dim_eval:n { \g_@@_tmp_width_dim } }
}
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{The main commands and environments for the final user}
%
% \bigskip
% \begin{macrocode}
\NewDocumentCommand { \NewPitonLanguage } { O { } m ! o }
{
\tl_if_novalue:nTF { #3 }
% \end{macrocode}
% The last argument is provided by curryfication.
% \begin{macrocode}
{ \@@_NewPitonLanguage:nnn { #1 } { #2 } }
% \end{macrocode}
% The two last arguments are provided by curryfication.
% \begin{macrocode}
{ \@@_NewPitonLanguage:nnnnn { #1 } { #2 } { #3 } }
}
% \end{macrocode}
%
% \bigskip
% The following property list will contain the definitions of the informatic
% languages as provided by the final user. However, if a language is defined
% over another base language, the corresponding list will contain the \emph{whole}
% definition of the language.
% \begin{macrocode}
\prop_new:N \g_@@_languages_prop
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\keys_define:nn { NewPitonLanguage }
{
morekeywords .code:n = ,
otherkeywords .code:n = ,
sensitive .code:n = ,
keywordsprefix .code:n = ,
moretexcs .code:n = ,
morestring .code:n = ,
morecomment .code:n = ,
moredelim .code:n = ,
moredirectives .code:n = ,
tag .code:n = ,
alsodigit .code:n = ,
alsoletter .code:n = ,
alsoother .code:n = ,
unknown .code:n = \@@_error:n { Unknown~key~NewPitonLanguage }
}
% \end{macrocode}
%
% \bigskip
% The function |\@@_NewPitonLanguage:nnn| will be used when the language is
% \emph{not} defined above a base language (and a base dialect).
% \begin{macrocode}
\cs_new_protected:Npn \@@_NewPitonLanguage:nnn #1 #2 #3
{
% \end{macrocode}
% We store in |\l_tmpa_tl| the name of the language with the potential dialect,
% that is to say, for example : |[AspectJ]{Java}|. We use |\tl_if_blank:nF|
% because the final user may have written |\NewPitonLanguage[ ]{Java}{...}|.
% \begin{macrocode}
\tl_set:Ne \l_tmpa_tl
{
\tl_if_blank:nF { #1 } { [ \str_lowercase:n { #1 } ] }
\str_lowercase:n { #2 }
}
% \end{macrocode}
%
% The following set of keys is only used to raise an error when a key in unknown!
% \begin{macrocode}
\keys_set:nn { NewPitonLanguage } { #3 }
% \end{macrocode}
%
% We store in LaTeX the definition of the language because some languages may be
% defined with that language as base language.
% \begin{macrocode}
\prop_gput:Non \g_@@_languages_prop \l_tmpa_tl { #3 }
% \end{macrocode}
% The Lua part of the package \pkg{piton} will be loaded in a
% |\AtBeginDocument|. Hence, we will put also in a |\AtBeginDocument| the
% utilisation of the Lua function |piton.new_language| (which does the main job).
% \begin{macrocode}
\@@_NewPitonLanguage:on \l_tmpa_tl { #3 }
}
% \end{macrocode}
%
% \begin{macrocode}
\cs_generate_variant:Nn \@@_NewPitonLanguage:nn { o }
\cs_new_protected:Npn \@@_NewPitonLanguage:nn #1 #2
{
\hook_gput_code:nnn { begindocument } { . }
{ \lua_now:e { piton.new_language("#1","\lua_escape:n{#2}") } }
}
% \end{macrocode}
%
% \bigskip
% Now the case when the language is defined upon a base language.
% \begin{macrocode}
\cs_new_protected:Npn \@@_NewPitonLanguage:nnnnn #1 #2 #3 #4 #5
{
% \end{macrocode}
% We store in |\l_tmpa_tl| the name of the base language with the dialect, that
% is to say, for example : |[AspectJ]{Java}|. We use |\tl_if_blank:nF| because
% the final user may have used |\NewPitonLanguage[Handel]{C}[ ]{C}{...}|
% \begin{macrocode}
\tl_set:Ne \l_tmpa_tl
{
\tl_if_blank:nF { #3 } { [ \str_lowercase:n { #3 } ] }
\str_lowercase:n { #4 }
}
% \end{macrocode}
% We retrieve in |\l_tmpb_tl| the definition (as provided by the final user) of
% that base language. Caution: |\g_@@_languages_prop| does not contain all the
% languages provided by \pkg{piton} but only those defined by using
% |\NewPitonLanguage|.
% \begin{macrocode}
\prop_get:NoNTF \g_@@_languages_prop \l_tmpa_tl \l_tmpb_tl
% \end{macrocode}
% We can now define the new language by using the previous function.
% \begin{macrocode}
{ \@@_NewPitonLanguage:nnno { #1 } { #2 } { #5 } \l_tmpb_tl }
{ \@@_error:n { Language~not~defined } }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_generate_variant:Nn \@@_NewPitonLanguage:nnnn { n n n o }
\cs_new_protected:Npn \@@_NewPitonLanguage:nnnn #1 #2 #3 #4
% \end{macrocode}
% In the following line, we write |#4,#3| and not |#3,#4| because we want that the
% keys which correspond to base language appear before the keys which are added
% in the language we define.
% \begin{macrocode}
{ \@@_NewPitonLanguage:nnn { #1 } { #2 } { #4 , #3 } }
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\NewDocumentCommand { \piton } { }
{ \peek_meaning:NTF \bgroup \@@_piton_standard \@@_piton_verbatim }
% \end{macrocode}
%
% \begin{macrocode}
\NewDocumentCommand { \@@_piton_standard } { m }
{
\group_begin:
\bool_if:NT \l_@@_break_lines_in_piton_bool
{ \tl_set_eq:NN \l_@@_space_in_string_tl \space }
% \end{macrocode}
% The following tuning of LuaTeX in order to avoid all breaks of lines on the
% hyphens.
% \begin{macrocode}
\automatichyphenmode = 1
% \end{macrocode}
% Remark that the argument of |\piton| (with the normal syntax) is expanded in
% the TeX sens, (see the |\tl_set:Ne| below) and that's why we can provide the
% following escapes to the final user:
% \begin{macrocode}
\cs_set_eq:NN \\ \c_backslash_str
\cs_set_eq:NN \% \c_percent_str
\cs_set_eq:NN \{ \c_left_brace_str
\cs_set_eq:NN \} \c_right_brace_str
\cs_set_eq:NN \$ \c_dollar_str
% \end{macrocode}
% The standard command |\␣| is \emph{not} expandable and we need here expandable
% commands. With the following code, we define an expandable command.
% \begin{macrocode}
\cs_set_eq:cN { ~ } \space
% \end{macrocode}
%
% \begin{macrocode}
\cs_set_eq:NN \@@_begin_line: \prg_do_nothing:
\tl_set:Ne \l_tmpa_tl
{
\lua_now:e
{ piton.ParseBis('\l_piton_language_str',token.scan_string()) }
{ #1 }
}
\bool_if:NTF \l_@@_show_spaces_bool
{ \regex_replace_all:nnN { \x20 } { ␣ } \l_tmpa_tl } % U+2423
% \end{macrocode}
% The following code replaces the characters U+0020 (spaces) by characters
% U+0020 of catcode~10: thus, they become breakable by an end of line. Maybe,
% this programmation is not very efficient but the key |break-lines-in-piton|
% will be rarely used.
% \begin{macrocode}
{
\bool_if:NT \l_@@_break_lines_in_piton_bool
{ \regex_replace_all:nnN { \x20 } { \x20 } \l_tmpa_tl }
}
% \end{macrocode}
% The command |\text| is provided by the package \pkg{amstext} (loaded by \pkg{piton}).
% \begin{macrocode}
\if_mode_math:
\text { \l_@@_font_command_tl \l_tmpa_tl }
\else:
\l_@@_font_command_tl \l_tmpa_tl
\fi:
\group_end:
}
% \end{macrocode}
%
%
% \begin{macrocode}
\NewDocumentCommand { \@@_piton_verbatim } { v }
{
\group_begin:
\l_@@_font_command_tl
\automatichyphenmode = 1
\cs_set_eq:NN \@@_begin_line: \prg_do_nothing:
\tl_set:Ne \l_tmpa_tl
{
\lua_now:e
{ piton.Parse('\l_piton_language_str',token.scan_string()) }
{ #1 }
}
\bool_if:NT \l_@@_show_spaces_bool
{ \regex_replace_all:nnN { \x20 } { ␣ } \l_tmpa_tl } % U+2423
\l_tmpa_tl
\group_end:
}
% \end{macrocode}
%
% \bigskip
%
%
% \bigskip
% The following command does \emph{not} correspond to a user command. It will
% be used when we will have to ``rescan'' some chunks of informatic code. For
% example, it will be the initial value of the Piton style |InitialValues| (the
% default values of the arguments of a Python function).
% \begin{macrocode}
\cs_new_protected:Npn \@@_piton:n #1
{ \tl_if_blank:nF { #1 } { \@@_piton_i:n { #1 } } }
\cs_new_protected:Npn \@@_piton_i:n #1
{
\group_begin:
\cs_set_eq:NN \@@_begin_line: \prg_do_nothing:
\cs_set:cpn { pitonStyle _ \l_piton_language_str _ Prompt } { }
\cs_set:cpn { pitonStyle _ Prompt } { }
\cs_set_eq:NN \@@_trailing_space: \space
\tl_set:Ne \l_tmpa_tl
{
\lua_now:e
{ piton.ParseTer('\l_piton_language_str',token.scan_string()) }
{ #1 }
}
\bool_if:NT \l_@@_show_spaces_bool
{ \regex_replace_all:nnN { \x20 } { ␣ } \l_tmpa_tl } % U+2423
\@@_replace_spaces:o \l_tmpa_tl
\group_end:
}
% \end{macrocode}
%
%
% \bigskip
% Despite its name, |\@@_pre_env:| will be used both in |\PitonInputFile| and
% in the environments such as |{Piton}|.
% \begin{macrocode}
\cs_new:Npn \@@_pre_env:
{
\automatichyphenmode = 1
\int_gincr:N \g_@@_env_int
\tl_gclear:N \g_@@_aux_tl
\dim_compare:nNnT \l_@@_width_dim = \c_zero_dim
{ \dim_set_eq:NN \l_@@_width_dim \linewidth }
% \end{macrocode}
% We read the information written on the |aux| file by a previous run (when the
% key |width| is used with the special value~|min|). At this time, the only
% potential information written on the |aux| file is the value of
% |\l_@@_line_width_dim| when the key |width| has been used with the special
% value~|min|).
% \begin{macrocode}
\cs_if_exist_use:c { c_@@ _ \int_use:N \g_@@_env_int _ tl }
\bool_if:NF \l_@@_resume_bool { \int_gzero:N \g_@@_visual_line_int }
\dim_gzero:N \g_@@_tmp_width_dim
\int_gzero:N \g_@@_line_int
\dim_zero:N \parindent
\dim_zero:N \lineskip
\cs_set_eq:NN \label \@@_label:n
}
% \end{macrocode}
%
%
% \bigskip
% If the final user has used both |left-margin=auto| and |line-numbers|, we have
% to compute the width of the maximal number of lines at the end of the
% environment to fix the correct value to |left-margin|. The first argument of
% the following function is the name of the Lua function that will be applied to
% the second argument in order to count the number of lines.
% \begin{macrocode}
\cs_generate_variant:Nn \@@_compute_left_margin:nn { n o }
\cs_new_protected:Npn \@@_compute_left_margin:nn #1 #2
{
\bool_lazy_and:nnT \l_@@_left_margin_auto_bool \l_@@_line_numbers_bool
{
\hbox_set:Nn \l_tmpa_box
{
\l_@@_line_numbers_format_tl
\bool_if:NTF \l_@@_skip_empty_lines_bool
{
\lua_now:n
{ piton.#1(token.scan_argument()) }
{ #2 }
\int_to_arabic:n
{ \g_@@_visual_line_int + \l_@@_nb_non_empty_lines_int }
}
{
\int_to_arabic:n
{ \g_@@_visual_line_int + \l_@@_nb_lines_int }
}
}
\dim_set:Nn \l_@@_left_margin_dim
{ \box_wd:N \l_tmpa_box + \l_@@_numbers_sep_dim + 0.1 em }
}
}
% \end{macrocode}
%
%
%
% \bigskip
% Whereas |\l_@@_with_dim| is the width of the environment,
% |\l_@@_line_width_dim| is the width of the lines of code without the
% potential margins for the numbers of lines and the background. Depending on
% the case, you have to compute |\l_@@_line_width_dim| from |\l_@@_width_dim| or
% we have to do the opposite.
% \begin{macrocode}
\cs_new_protected:Npn \@@_compute_width:
{
\dim_compare:nNnTF \l_@@_line_width_dim = \c_zero_dim
{
\dim_set_eq:NN \l_@@_line_width_dim \l_@@_width_dim
\clist_if_empty:NTF \l_@@_bg_color_clist
% \end{macrocode}
% If there is no background, we only subtract the left margin.
% \begin{macrocode}
{ \dim_sub:Nn \l_@@_line_width_dim \l_@@_left_margin_dim }
% \end{macrocode}
% If there is a background, we subtract 0.5~em for the margin on the right.
% \begin{macrocode}
{
\dim_sub:Nn \l_@@_line_width_dim { 0.5 em }
% \end{macrocode}
% And we subtract also for the left margin. If the key |left-margin| has been
% used (with a numerical value or with the special value~|min|),
% |\l_@@_left_margin_dim| has a non-zero value\footnote{If the key
% \texttt{left-margin} has been used with the special value \texttt{min}, the
% actual value of \texttt{\textbackslash l_\@\@_left_margin_dim} has yet been
% computed when we use the current command.} and we use that value. Elsewhere,
% we use a value of 0.5~em.
% \begin{macrocode}
\dim_compare:nNnTF \l_@@_left_margin_dim = \c_zero_dim
{ \dim_sub:Nn \l_@@_line_width_dim { 0.5 em } }
{ \dim_sub:Nn \l_@@_line_width_dim \l_@@_left_margin_dim }
}
}
% \end{macrocode}
% If |\l_@@_line_width_dim| has yet a non-zero value, that means that it has
% been read in the |aux| file: it has been written by a previous run because the
% key |width| is used with the special value~|min|). We compute now the width of
% the environment by computations opposite to the preceding ones.
% \begin{macrocode}
{
\dim_set_eq:NN \l_@@_width_dim \l_@@_line_width_dim
\clist_if_empty:NTF \l_@@_bg_color_clist
{ \dim_add:Nn \l_@@_width_dim \l_@@_left_margin_dim }
{
\dim_add:Nn \l_@@_width_dim { 0.5 em }
\dim_compare:nNnTF \l_@@_left_margin_dim = \c_zero_dim
{ \dim_add:Nn \l_@@_width_dim { 0.5 em } }
{ \dim_add:Nn \l_@@_width_dim \l_@@_left_margin_dim }
}
}
}
% \end{macrocode}
%
%
%
% \bigskip
% \begin{macrocode}
\NewDocumentCommand { \NewPitonEnvironment } { m m m m }
{
% \end{macrocode}
% We construct a TeX macro which will catch as argument all the tokens until
% |\end{|\texttt{\textsl{name_env}}|}| with, in that
% |\end{|\texttt{\textsl{name_env}}|}|, the catcodes of |\|, |{| and |}| equal to
% 12 (``\texttt{other}''). The latter explains why the definition of that
% function is a bit complicated.
% \begin{macrocode}
\use:x
{
\cs_set_protected:Npn
\use:c { _@@_collect_ #1 :w }
####1
\c_backslash_str end \c_left_brace_str #1 \c_right_brace_str
}
{
\group_end:
\mode_if_vertical:TF { \noindent \mode_leave_vertical: } \newline
% \end{macrocode}
% The following line is only to compute |\l_@@_lines_int| which will be used
% only when both |left-margin=auto| and |skip-empty-lines = false| are in force.
% You should change that.
% \begin{macrocode}
\lua_now:e { piton.CountLines ( '\lua_escape:n{##1}' ) }
% \end{macrocode}
% The first argument of the following function is the name of the Lua function
% that will be applied to the second argument in order to count the number of lines.
% \begin{macrocode}
\@@_compute_left_margin:nn { CountNonEmptyLines } { ##1 }
\@@_compute_width:
\l_@@_font_command_tl
\dim_zero:N \parskip
\noindent
% \end{macrocode}
%
% Now, the key |write|.
% \begin{macrocode}
\str_if_empty:NTF \l_@@_path_write_str
{ \lua_now:e { piton.write = "\l_@@_write_str" } }
{
\lua_now:e
{ piton.write = "\l_@@_path_write_str / \l_@@_write_str" }
}
\str_if_empty:NTF \l_@@_write_str
{ \lua_now:n { piton.write = '' } }
{
\seq_if_in:NoTF \g_@@_write_seq \l_@@_write_str
{ \lua_now:n { piton.write_mode = "a" } }
{
\lua_now:n { piton.write_mode = "w" }
\seq_gput_left:No \g_@@_write_seq \l_@@_write_str
}
}
% \end{macrocode}
% \bigskip
% Now, the main job.
% \begin{macrocode}
\bool_if:NTF \l_@@_split_on_empty_lines_bool
\@@_retrieve_gobble_split_parse:n
\@@_retrieve_gobble_parse:n
{ ##1 }
% \end{macrocode}
%
% If the user has used the key |width| with the special value~|min|, we write on
% the |aux| file the value of |\l_@@_line_width_dim| (largest width of the lines
% of code of the environment).
% \begin{macrocode}
\bool_if:NT \l_@@_width_min_bool \@@_width_to_aux:
% \end{macrocode}
% The following |\end{#1}| is only for the stack of environments of LaTeX.
% \begin{macrocode}
\end { #1 }
\@@_write_aux:
}
% \end{macrocode}
%
%
% \bigskip
% We can now define the new environment.
%
% We are still in the definition of the command |\NewPitonEnvironment|...
% \begin{macrocode}
\NewDocumentEnvironment { #1 } { #2 }
{
\cs_set_eq:NN \PitonOptions \@@_fake_PitonOptions
#3
\@@_pre_env:
\int_compare:nNnT \l_@@_number_lines_start_int > \c_zero_int
{ \int_gset:Nn \g_@@_visual_line_int { \l_@@_number_lines_start_int - 1 } }
\group_begin:
\tl_map_function:nN
{ \ \\ \{ \} \$ \& \# \^ \_ \% \~ \^^I }
\char_set_catcode_other:N
\use:c { _@@_collect_ #1 :w }
}
{ #4 }
% \end{macrocode}
%
% \medskip
% The following code is for technical reasons. We want to change the catcode of
% |^^M| before catching the arguments of the new environment we are defining.
% Indeed, if not, we will have problems if there is a final optional argument in
% our environment (if that final argument is not used by the user in an
% instance of the environment, a spurious space is inserted, probably because
% the |^^M| is converted to space).
% \begin{macrocode}
\AddToHook { env / #1 / begin } { \char_set_catcode_other:N \^^M }
}
% \end{macrocode}
% This is the end of the definition of the command |\NewPitonEnvironment|.
%
% \bigskip
% The following function will be used when the key |split-on-empty-lines| is not
% in force. It will retrieve the first empty line, gobble the spaces at the
% beginning of the lines and parse the code. The argument is provided by
% curryfication.
% \begin{macrocode}
\cs_new_protected:Npn \@@_retrieve_gobble_parse:n
{
\lua_now:e
{
piton.RetrieveGobbleParse
(
'\l_piton_language_str' ,
\int_use:N \l_@@_gobble_int ,
\bool_if:NTF \l_@@_splittable_on_empty_lines_bool
{ \int_eval:n { - \l_@@_splittable_int } }
{ \int_use:N \l_@@_splittable_int } ,
token.scan_argument ( )
)
}
}
% \end{macrocode}
%
% \bigskip
% The following function will be used when the key |split-on-empty-lines| is in
% force. It will gobble the spaces at the beginning of the lines (if the key
% |gobble| is in force), then split the code at the empty lines and, eventually,
% parse the code. The argument is provided by curryfication.
% \begin{macrocode}
\cs_new_protected:Npn \@@_retrieve_gobble_split_parse:n
{
\lua_now:e
{
piton.RetrieveGobbleSplitParse
(
'\l_piton_language_str' ,
\int_use:N \l_@@_gobble_int ,
\int_use:N \l_@@_splittable_int ,
token.scan_argument ( )
)
}
}
% \end{macrocode}
%
% \bigskip
% Now, we define the environment |{Piton}|, which is the main environment
% provided by the package \pkg{piton}. Of course, you use
% |\NewPitonEnvironment|.
% \begin{macrocode}
\bool_if:NTF \g_@@_beamer_bool
{
\NewPitonEnvironment { Piton } { d < > O { } }
{
\keys_set:nn { PitonOptions } { #2 }
\tl_if_novalue:nTF { #1 }
{ \begin { uncoverenv } }
{ \begin { uncoverenv } < #1 > }
}
{ \end { uncoverenv } }
}
{
\NewPitonEnvironment { Piton } { O { } }
{ \keys_set:nn { PitonOptions } { #1 } }
{ }
}
% \end{macrocode}
%
%
% \bigskip
% The code of the command |\PitonInputFile| is somewhat similar to the code of
% the environment |{Piton}|. In fact, it's simpler because there isn't the
% problem of catching the content of the environment in a verbatim mode.
% \begin{macrocode}
\NewDocumentCommand { \PitonInputFileTF } { d < > O { } m m m }
{
\group_begin:
% \end{macrocode}
% In version 4.0 of \pkg{piton}, we changed the mechanism used by \pkg{piton}
% to search the file to load with |\PitonInputFile|. With the key
% |old-PitonInputFile|, it's possible to keep the old behaviour but it's only
% for backward compatibility and it will be deleted in a future version.
% \begin{macrocode}
\bool_if:NTF \l_@@_old_PitonInputFile_bool
{
\bool_set_false:N \l_tmpa_bool
\seq_map_inline:Nn \l__piton_path_seq
{
\str_set:Nn \l__piton_file_name_str { ##1 / #3 }
\file_if_exist:nT { \l__piton_file_name_str }
{
\__piton_input_file:nn { #1 } { #2 }
\bool_set_true:N \l_tmpa_bool
\seq_map_break:
}
}
\bool_if:NTF \l_tmpa_bool { #4 } { #5 }
}
{
\seq_concat:NNN
\l_file_search_path_seq
\l_@@_path_seq
\l_file_search_path_seq
\file_get_full_name:nNTF { #3 } \l_@@_file_name_str
{
\@@_input_file:nn { #1 } { #2 }
#4
}
{ #5 }
}
\group_end:
}
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_unknown_file:n #1
{ \msg_error:nnn { piton } { Unknown~file } { #1 } }
% \end{macrocode}
%
% \begin{macrocode}
\NewDocumentCommand { \PitonInputFile } { d < > O { } m }
{ \PitonInputFileTF < #1 > [ #2 ] { #3 } { } { \@@_unknown_file:n { #3 } } }
\NewDocumentCommand { \PitonInputFileT } { d < > O { } m m }
{ \PitonInputFileTF < #1 > [ #2 ] { #3 } { #4 } { \@@_unknown_file:n { #3 } } }
\NewDocumentCommand { \PitonInputFileF } { d < > O { } m m }
{ \PitonInputFileTF < #1 > [ #2 ] { #3 } { } { #4 } }
% \end{macrocode}
%
% The following command uses as implicit argument the name of the file in
% |\l_@@_file_name_str|.
% \begin{macrocode}
\cs_new_protected:Npn \@@_input_file:nn #1 #2
{
% \end{macrocode}
% We recall that, if we are in Beamer, the command |\PitonInputFile| is
% ``overlay-aware'' and that's why there is an optional argument between angular
% brackets (|<| and |>|).
% \begin{macrocode}
\tl_if_novalue:nF { #1 }
{
\bool_if:NTF \g_@@_beamer_bool
{ \begin { uncoverenv } < #1 > }
{ \@@_error_or_warning:n { overlay~without~beamer } }
}
\group_begin:
\int_zero_new:N \l_@@_first_line_int
\int_zero_new:N \l_@@_last_line_int
\int_set_eq:NN \l_@@_last_line_int \c_max_int
\bool_set_true:N \l_@@_in_PitonInputFile_bool
\keys_set:nn { PitonOptions } { #2 }
\bool_if:NT \l_@@_line_numbers_absolute_bool
{ \bool_set_false:N \l_@@_skip_empty_lines_bool }
\bool_if:nTF
{
(
\int_compare_p:nNn \l_@@_first_line_int > \c_zero_int
|| \int_compare_p:nNn \l_@@_last_line_int < \c_max_int
)
&& ! \str_if_empty_p:N \l_@@_begin_range_str
}
{
\@@_error_or_warning:n { bad~range~specification }
\int_zero:N \l_@@_first_line_int
\int_set_eq:NN \l_@@_last_line_int \c_max_int
}
{
\str_if_empty:NF \l_@@_begin_range_str
{
\@@_compute_range:
\bool_lazy_or:nnT
\l_@@_marker_include_lines_bool
{ ! \str_if_eq_p:NN \l_@@_begin_range_str \l_@@_end_range_str }
{
\int_decr:N \l_@@_first_line_int
\int_incr:N \l_@@_last_line_int
}
}
}
\@@_pre_env:
\bool_if:NT \l_@@_line_numbers_absolute_bool
{ \int_gset:Nn \g_@@_visual_line_int { \l_@@_first_line_int - 1 } }
\int_compare:nNnT \l_@@_number_lines_start_int > \c_zero_int
{
\int_gset:Nn \g_@@_visual_line_int
{ \l_@@_number_lines_start_int - 1 }
}
% \end{macrocode}
% The following case arises when the code |line-numbers/absolute| is in force
% without the use of a marked range.
% \begin{macrocode}
\int_compare:nNnT \g_@@_visual_line_int < \c_zero_int
{ \int_gzero:N \g_@@_visual_line_int }
\mode_if_vertical:TF \mode_leave_vertical: \newline
% \end{macrocode}
% We count with Lua the number of lines of the argument. The result will be
% stored by Lua in |\l_@@_nb_lines_int|.
% \begin{macrocode}
\lua_now:e { piton.CountLinesFile ( '\l_@@_file_name_str' ) }
% \end{macrocode}
% The first argument of the following function is the name of the Lua function
% that will be applied to the second argument in order to count the number of lines.
% \begin{macrocode}
\@@_compute_left_margin:no { CountNonEmptyLinesFile } \l_@@_file_name_str
\@@_compute_width:
\l_@@_font_command_tl
\lua_now:e
{
piton.ParseFile(
'\l_piton_language_str' ,
'\l_@@_file_name_str' ,
\int_use:N \l_@@_first_line_int ,
\int_use:N \l_@@_last_line_int ,
\bool_if:NTF \l_@@_splittable_on_empty_lines_bool
{ \int_eval:n { - \l_@@_splittable_int } }
{ \int_use:N \l_@@_splittable_int } ,
\bool_if:NTF \l_@@_split_on_empty_lines_bool { 1 } { 0 } )
}
\bool_if:NT \l_@@_width_min_bool \@@_width_to_aux:
\group_end:
% \end{macrocode}
%
%
% The following line is to allow programs such as |latexmk| to be aware that the
% file (read by |\PitonInputFile|) is loaded during the compilation of the LaTeX
% document.
% \begin{macrocode}
\iow_log:e {(\l_@@_file_name_str)}
% \end{macrocode}
% We recall that, if we are in Beamer, the command |\PitonInputFile| is
% ``overlay-aware'' and that's why we close now an environment |{uncoverenv}|
% that we have opened at the beginning of the command.
% \begin{macrocode}
\tl_if_novalue:nF { #1 }
{ \bool_if:NT \g_@@_beamer_bool { \end { uncoverenv } } }
\@@_write_aux:
}
% \end{macrocode}
%
%
% \bigskip
% The following command computes the values of |\l_@@_first_line_int| and
% |\l_@@_last_line_int| when |\PitonInputFile| is used with textual markers.
% \begin{macrocode}
\cs_new_protected:Npn \@@_compute_range:
{
% \end{macrocode}
% We store the markers in L3 strings (|str|) in order to do safely the following
% replacement of |\#|.
% \begin{macrocode}
\str_set:Ne \l_tmpa_str { \@@_marker_beginning:n \l_@@_begin_range_str }
\str_set:Ne \l_tmpb_str { \@@_marker_end:n \l_@@_end_range_str }
% \end{macrocode}
% We replace the sequences |\#| which may be present in the prefixes (and, more
% unlikely, suffixes) added to the markers by the functions
% |\@@_marker_beginning:n| and |\@@_marker_end:n|
% \begin{macrocode}
\regex_replace_all:nnN { \\\# } \c_hash_str \l_tmpa_str
\regex_replace_all:nnN { \\\# } \c_hash_str \l_tmpb_str
\lua_now:e
{
piton.ComputeRange
( '\l_tmpa_str' , '\l_tmpb_str' , '\l_@@_file_name_str' )
}
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{The styles}
%
% \medskip
% The following command is fundamental: it will be used by the Lua code.
% \begin{macrocode}
\NewDocumentCommand { \PitonStyle } { m }
{
\cs_if_exist_use:cF { pitonStyle _ \l_piton_language_str _ #1 }
{ \use:c { pitonStyle _ #1 } }
}
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\NewDocumentCommand { \SetPitonStyle } { O { } m }
{
\str_clear_new:N \l_@@_SetPitonStyle_option_str
\str_set:Ne \l_@@_SetPitonStyle_option_str { \str_lowercase:n { #1 } }
\str_if_eq:onT \l_@@_SetPitonStyle_option_str { current-language }
{ \str_set_eq:NN \l_@@_SetPitonStyle_option_str \l_piton_language_str }
\keys_set:nn { piton / Styles } { #2 }
}
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_math_scantokens:n #1
{ \normalfont \scantextokens { \begin{math} #1 \end{math} } }
% \end{macrocode}
%
% \medskip
% \begin{macrocode}
\clist_new:N \g_@@_styles_clist
\clist_gset:Nn \g_@@_styles_clist
{
Comment ,
Comment.LaTeX ,
Discard ,
Exception ,
FormattingType ,
Identifier.Internal ,
Identifier ,
InitialValues ,
Interpol.Inside ,
Keyword ,
Keyword.Governing ,
Keyword.Constant ,
Keyword2 ,
Keyword3 ,
Keyword4 ,
Keyword5 ,
Keyword6 ,
Keyword7 ,
Keyword8 ,
Keyword9 ,
Name.Builtin ,
Name.Class ,
Name.Constructor ,
Name.Decorator ,
Name.Field ,
Name.Function ,
Name.Module ,
Name.Namespace ,
Name.Table ,
Name.Type ,
Number ,
Operator ,
Operator.Word ,
Preproc ,
Prompt ,
String.Doc ,
String.Interpol ,
String.Long ,
String.Short ,
Tag ,
TypeParameter ,
UserFunction ,
% \end{macrocode}
% |TypeExpression| is an internal style for expressions which defines types in OCaml.
% \begin{macrocode}
TypeExpression ,
% \end{macrocode}
% Now, specific styles for the languages created with |\NewPitonLanguage| with
% the syntax of \pkg{listings}.
% \begin{macrocode}
Directive
}
\clist_map_inline:Nn \g_@@_styles_clist
{
\keys_define:nn { piton / Styles }
{
#1 .value_required:n = true ,
#1 .code:n =
\tl_set:cn
{
pitonStyle _
\str_if_empty:NF \l_@@_SetPitonStyle_option_str
{ \l_@@_SetPitonStyle_option_str _ }
#1
}
{ ##1 }
}
}
\keys_define:nn { piton / Styles }
{
String .meta:n = { String.Long = #1 , String.Short = #1 } ,
Comment.Math .tl_set:c = pitonStyle _ Comment.Math ,
unknown .code:n =
\@@_error:n { Unknown~key~for~SetPitonStyle }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\SetPitonStyle[OCaml]
{
TypeExpression =
\SetPitonStyle { Identifier = \PitonStyle { Name.Type } }
\@@_piton:n ,
}
% \end{macrocode}
%
% \bigskip
% We add the word |String| to the list of the styles because we will use that
% list in the error message for an unknown key in |\SetPitonStyle|.
%
% \begin{macrocode}
\clist_gput_left:Nn \g_@@_styles_clist { String }
% \end{macrocode}
%
% \bigskip
% Of course, we sort that clist.
% \begin{macrocode}
\clist_gsort:Nn \g_@@_styles_clist
{
\str_compare:nNnTF { #1 } < { #2 }
\sort_return_same:
\sort_return_swapped:
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_set_eq:NN \@@_break_anywhere:n \prg_do_nothing:
\cs_new_protected:Npn \@@_actually_break_anywhere:n #1
{
\seq_clear:N \l_tmpa_seq
\tl_map_inline:nn { #1 }
{ \seq_put_right:Nn \l_tmpa_seq { ##1 } }
\seq_use:Nn \l_tmpa_seq { \- }
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{The initial styles}
%
% The initial styles are inspired by the style ``manni'' of Pygments.
%
% \medskip
% \begin{macrocode}
\SetPitonStyle
{
Comment = \color[HTML]{0099FF} \itshape ,
Exception = \color[HTML]{CC0000} ,
Keyword = \color[HTML]{006699} \bfseries ,
Keyword.Governing = \color[HTML]{006699} \bfseries ,
Keyword.Constant = \color[HTML]{006699} \bfseries ,
Name.Builtin = \color[HTML]{336666} ,
Name.Decorator = \color[HTML]{9999FF},
Name.Class = \color[HTML]{00AA88} \bfseries ,
Name.Function = \color[HTML]{CC00FF} ,
Name.Namespace = \color[HTML]{00CCFF} ,
Name.Constructor = \color[HTML]{006000} \bfseries ,
Name.Field = \color[HTML]{AA6600} ,
Name.Module = \color[HTML]{0060A0} \bfseries ,
Name.Table = \color[HTML]{309030} ,
Number = \color[HTML]{FF6600} ,
Operator = \color[HTML]{555555} ,
Operator.Word = \bfseries ,
String = \color[HTML]{CC3300} \@@_break_anywhere:n ,
String.Doc = \color[HTML]{CC3300} \itshape ,
String.Interpol = \color[HTML]{AA0000} ,
Comment.LaTeX = \normalfont \color[rgb]{.468,.532,.6} ,
Name.Type = \color[HTML]{336666} ,
InitialValues = \@@_piton:n ,
Interpol.Inside = \l_@@_font_command_tl \@@_piton:n ,
TypeParameter = \color[HTML]{336666} \itshape ,
Preproc = \color[HTML]{AA6600} \slshape ,
% \end{macrocode}
% We need the command |\@@_identifier:n| because of the command
% |\SetPitonIdentifier|. The command |\@@_identifier:n| will potentially call
% the style |Identifier| (which is a user-style, not an internal style).
% \begin{macrocode}
Identifier.Internal = \@@_identifier:n ,
Identifier = ,
Directive = \color[HTML]{AA6600} ,
Tag = \colorbox{gray!10},
UserFunction = \PitonStyle{Identifier} ,
Prompt = ,
Discard = \use_none:n
}
% \end{macrocode}
%
% \medskip
% If the key |math-comments| has been used in the preamble of the LaTeX
% document, we change the style |Comment.Math| which should be considered only
% at an ``internal style''. However, maybe we will document in a future version
% the possibility to write change the style \emph{locally} in a document)].
% \begin{macrocode}
\hook_gput_code:nnn { begindocument } { . }
{
\bool_if:NT \g_@@_math_comments_bool
{ \SetPitonStyle { Comment.Math = \@@_math_scantokens:n } }
}
% \end{macrocode}
%
% \bigskip
%
% \bigskip
% \subsubsection{Highlighting some identifiers}
%
%
% \medskip
% \begin{macrocode}
\NewDocumentCommand { \SetPitonIdentifier } { o m m }
{
\clist_set:Nn \l_tmpa_clist { #2 }
\tl_if_novalue:nTF { #1 }
{
\clist_map_inline:Nn \l_tmpa_clist
{ \cs_set:cpn { PitonIdentifier _ ##1 } { #3 } }
}
{
\str_set:Ne \l_tmpa_str { \str_lowercase:n { #1 } }
\str_if_eq:onT \l_tmpa_str { current-language }
{ \str_set_eq:NN \l_tmpa_str \l_piton_language_str }
\clist_map_inline:Nn \l_tmpa_clist
{ \cs_set:cpn { PitonIdentifier _ \l_tmpa_str _ ##1 } { #3 } }
}
}
% \end{macrocode}
%
% \begin{macrocode}
\cs_new_protected:Npn \@@_identifier:n #1
{
\cs_if_exist_use:cF { PitonIdentifier _ \l_piton_language_str _ #1 }
{
\cs_if_exist_use:cF { PitonIdentifier _ #1 }
{ \PitonStyle { Identifier } }
}
{ #1 }
}
% \end{macrocode}
%
%
% \bigskip
% In particular, we have an highlighting of the identifiers which are the
% names of Python functions previously defined by the user. Indeed, when a
% Python function is defined, the style |Name.Function.Internal| is applied to
% that name. We define now that style (you define it directly and you short-cut
% the function |\SetPitonStyle|).
% \begin{macrocode}
\cs_new_protected:cpn { pitonStyle _ Name.Function.Internal } #1
{
% \end{macrocode}
% First, the element is composed in the TeX flow with the style |Name.Function|
% which is provided to the final user.
% \begin{macrocode}
{ \PitonStyle { Name.Function } { #1 } }
% \end{macrocode}
% Now, we specify that the name of the new Python function is a known identifier
% that will be formatted with the Piton style |UserFunction|. Of course,
% here the affectation is global because we have to exit many groups and even
% the environments |{Piton}|).
% \begin{macrocode}
\cs_gset_protected:cpn { PitonIdentifier _ \l_piton_language_str _ #1 }
{ \PitonStyle { UserFunction } }
% \end{macrocode}
% Now, we put the name of that new user function in the dedicated sequence
% (specific of the current language). {\bfseries That sequence will be used only
% by |\PitonClearUserFunctions|}.
% \begin{macrocode}
\seq_if_exist:cF { g_@@_functions _ \l_piton_language_str _ seq }
{ \seq_new:c { g_@@_functions _ \l_piton_language_str _ seq } }
\seq_gput_right:cn { g_@@_functions _ \l_piton_language_str _ seq } { #1 }
% \end{macrocode}
% We update |\g_@@_languages_seq| which is used only by the command
% |\PitonClearUserFunctions| when it's used without its optional argument.
% \begin{macrocode}
\seq_if_in:NoF \g_@@_languages_seq \l_piton_language_str
{ \seq_gput_left:No \g_@@_languages_seq \l_piton_language_str }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\NewDocumentCommand \PitonClearUserFunctions { ! o }
{
\tl_if_novalue:nTF { #1 }
% \end{macrocode}
% If the command is used without its optional argument, we will deleted the
% user language for all the informatic languages.
% \begin{macrocode}
{ \@@_clear_all_functions: }
{ \@@_clear_list_functions:n { #1 } }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_clear_list_functions:n #1
{
\clist_set:Nn \l_tmpa_clist { #1 }
\clist_map_function:NN \l_tmpa_clist \@@_clear_functions_i:n
\clist_map_inline:nn { #1 }
{ \seq_gremove_all:Nn \g_@@_languages_seq { ##1 } }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_clear_functions_i:n #1
{ \@@_clear_functions_ii:n { \str_lowercase:n { #1 } } }
% \end{macrocode}
%
% The following command clears the list of the user-defined functions for the
% language provided in argument (mandatory in lower case).
% \begin{macrocode}
\cs_generate_variant:Nn \@@_clear_functions_ii:n { e }
\cs_new_protected:Npn \@@_clear_functions_ii:n #1
{
\seq_if_exist:cT { g_@@_functions _ #1 _ seq }
{
\seq_map_inline:cn { g_@@_functions _ #1 _ seq }
{ \cs_undefine:c { PitonIdentifier _ #1 _ ##1} }
\seq_gclear:c { g_@@_functions _ #1 _ seq }
}
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_clear_functions:n #1
{
\@@_clear_functions_i:n { #1 }
\seq_gremove_all:Nn \g_@@_languages_seq { #1 }
}
% \end{macrocode}
%
% \bigskip
% The following command clears all the user-defined functions for all the
% informatic languages.
% \begin{macrocode}
\cs_new_protected:Npn \@@_clear_all_functions:
{
\seq_map_function:NN \g_@@_languages_seq \@@_clear_functions_i:n
\seq_gclear:N \g_@@_languages_seq
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{Security}
%
% \begin{macrocode}
\AddToHook { env / piton / begin }
{ \@@_fatal:n { No~environment~piton } }
\msg_new:nnn { piton } { No~environment~piton }
{
There~is~no~environment~piton!\\
There~is~an~environment~{Piton}~and~a~command~
\token_to_str:N \piton\ but~there~is~no~environment~
{piton}.~This~error~is~fatal.
}
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{The error messages of the package}
%
%
% \begin{macrocode}
\@@_msg_new:nn { Language~not~defined }
{
Language~not~defined \\
The~language~'\l_tmpa_tl'~has~not~been~defined~previously.\\
If~you~go~on,~your~command~\token_to_str:N \NewPitonLanguage\
will~be~ignored.
}
% \end{macrocode}
%
%
% \begin{macrocode}
\@@_msg_new:nn { bad~version~of~piton.lua }
{
Bad~number~version~of~'piton.lua'\\
The~file~'piton.lua'~loaded~has~not~the~same~number~of~
version~as~the~file~'piton.sty'.~You~can~go~on~but~you~should~
address~that~issue.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~key~NewPitonLanguage }
{
Unknown~key~for~\token_to_str:N \NewPitonLanguage.\\
The~key~'\l_keys_key_str'~is~unknown.\\
This~key~will~be~ignored.\\
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~key~for~SetPitonStyle }
{
The~style~'\l_keys_key_str'~is~unknown.\\
This~key~will~be~ignored.\\
The~available~styles~are~(in~alphabetic~order):~
\clist_use:Nnnn \g_@@_styles_clist { ~and~ } { ,~ } { ~and~ }.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { Invalid~key }
{
Wrong~use~of~key.\\
You~can't~use~the~key~'\l_keys_key_str'~here.\\
That~key~will~be~ignored.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~key~for~line-numbers }
{
Unknown~key. \\
The~key~'line-numbers / \l_keys_key_str'~is~unknown.\\
The~available~keys~of~the~family~'line-numbers'~are~(in~
alphabetic~order):~
absolute,~false,~label-empty-lines,~resume,~skip-empty-lines,~
sep,~start~and~true.\\
That~key~will~be~ignored.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~key~for~marker }
{
Unknown~key. \\
The~key~'marker / \l_keys_key_str'~is~unknown.\\
The~available~keys~of~the~family~'marker'~are~(in~
alphabetic~order):~ beginning,~end~and~include-lines.\\
That~key~will~be~ignored.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { bad~range~specification }
{
Incompatible~keys.\\
You~can't~specify~the~range~of~lines~to~include~by~using~both~
markers~and~explicit~number~of~lines.\\
Your~whole~file~'\l_@@_file_name_str'~will~be~included.
}
% \end{macrocode}
%
% We don't give the name |syntax error| for the following error because you
% should not give a name with a space because such space could be replaced by
% U+2423 when the key |show-spaces| is in force in the command |\piton|.
% \begin{macrocode}
\@@_msg_new:nn { SyntaxError }
{
Syntax~Error.\\
Your~code~of~the~language~'\l_piton_language_str'~is~not~
syntactically~correct.\\
It~won't~be~printed~in~the~PDF~file.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { FileError }
{
File~Error.\\
It's~not~possible~to~write~on~the~file~'\l_@@_write_str'.\\
\sys_if_shell_unrestricted:F { Be~sure~to~compile~with~'-shell-escape'.\\ }
If~you~go~on,~nothing~will~be~written~on~the~file.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nn { begin~marker~not~found }
{
Marker~not~found.\\
The~range~'\l_@@_begin_range_str'~provided~to~the~
command~\token_to_str:N \PitonInputFile\ has~not~been~found.~
The~whole~file~'\l_@@_file_name_str'~will~be~inserted.
}
% \end{macrocode}
%
%
% \begin{macrocode}
\@@_msg_new:nn { end~marker~not~found }
{
Marker~not~found.\\
The~marker~of~end~of~the~range~'\l_@@_end_range_str'~
provided~to~the~command~\token_to_str:N \PitonInputFile\
has~not~been~found.~The~file~'\l_@@_file_name_str'~will~
be~inserted~till~the~end.
}
% \end{macrocode}
%
%
% \begin{macrocode}
\@@_msg_new:nn { Unknown~file }
{
Unknown~file. \\
The~file~'#1'~is~unknown.\\
Your~command~\token_to_str:N \PitonInputFile\ will~be~discarded.
}
% \end{macrocode}
%
% \begin{macrocode}
\@@_msg_new:nnn { Unknown~key~for~PitonOptions }
{
Unknown~key. \\
The~key~'\l_keys_key_str'~is~unknown~for~\token_to_str:N \PitonOptions.~
It~will~be~ignored.\\
For~a~list~of~the~available~keys,~type~H~<return>.
}
{
The~available~keys~are~(in~alphabetic~order):~
auto-gobble,~
background-color,~
begin-range,~
break-lines,~
break-lines-in-piton,~
break-lines-in-Piton,~
break-strings-anywhere,~
continuation-symbol,~
continuation-symbol-on-indentation,~
detected-beamer-commands,~
detected-beamer-environments,~
detected-commands,~
end-of-broken-line,~
end-range,~
env-gobble,~
env-used-by-split,~
font-command,~
gobble,~
indent-broken-lines,~
language,~
left-margin,~
line-numbers/,~
marker/,~
math-comments,~
path,~
path-write,~
prompt-background-color,~
resume,~
show-spaces,~
show-spaces-in-strings,~
splittable,~
splittable-on-empty-lines,~
split-on-empty-lines,~
split-separation,~
tabs-auto-gobble,~
tab-size,~
width~and~write.
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\@@_msg_new:nn { label~with~lines~numbers }
{
You~can't~use~the~command~\token_to_str:N \label\
because~the~key~'line-numbers'~is~not~active.\\
If~you~go~on,~that~command~will~ignored.
}
% \end{macrocode}
%
%
% \bigskip
% \begin{macrocode}
\@@_msg_new:nn { overlay~without~beamer }
{
You~can't~use~an~argument~<...>~for~your~command~
\token_to_str:N \PitonInputFile\ because~you~are~not~
in~Beamer.\\
If~you~go~on,~that~argument~will~be~ignored.
}
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{We load piton.lua}
%
%
% \bigskip
% \begin{macrocode}
\cs_new_protected:Npn \@@_test_version:n #1
{
\str_if_eq:onF \PitonFileVersion { #1 }
{ \@@_error:n { bad~version~of~piton.lua } }
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
\hook_gput_code:nnn { begindocument } { . }
{
\lua_now:n
{
require ( "piton" )
tex.sprint ( luatexbase.catcodetables.CatcodeTableExpl ,
"\\@@_test_version:n {" .. piton_version .. "}" )
}
}
% \end{macrocode}
%
% \bigskip
% \subsubsection{Detected commands}
%
%
% \begin{macrocode}
\ExplSyntaxOff
\begin{luacode*}
lpeg.locale(lpeg)
local P , alpha , C , space , S , V
= lpeg.P , lpeg.alpha , lpeg.C , lpeg.space , lpeg.S , lpeg.V
local add
function add(...)
local s = P ( false )
for _ , x in ipairs({...}) do s = s + x end
return s
end
local my_lpeg =
P { "E" ,
E = ( V "F" * ( "," * V "F" ) ^ 0 ) / add ,
% \end{macrocode}
% Be careful: in Lua, \verb|/| has no priority over \verb|*|. Of course, we want
% a behaviour for this comma-separated list equal to the behaviour of a |clist|
% of L3.
% \begin{macrocode}
F = space ^ 0 * ( ( alpha ^ 1 ) / "\\%0" ) * space ^ 0
}
function piton.addDetectedCommands ( key_value )
piton.DetectedCommands = piton.DetectedCommands + my_lpeg : match ( key_value )
end
function piton.addBeamerCommands( key_value )
piton.BeamerCommands
= piton.BeamerCommands + my_lpeg : match ( key_value )
end
% \end{macrocode}
%
% \begin{macrocode}
local insert
function insert(...)
local s = piton.beamer_environments
for _ , x in ipairs({...}) do table.insert(s,x) end
return s
end
local my_lpeg_bis =
P { "E" ,
E = ( V "F" * ( "," * V "F" ) ^ 0 ) / insert ,
F = space ^ 0 * ( alpha ^ 1 ) * space ^ 0
}
function piton.addBeamerEnvironments( key_value )
piton.beamer_environments = my_lpeg_bis : match ( key_value )
end
\end{luacode*}
%</STY>
% \end{macrocode}
%
%
% \bigskip
% \subsection{The Lua part of the implementation}
%
% \bigskip
% The Lua code will be loaded via a |{luacode*}| environment. The environment
% is by itself a Lua block and the local declarations will be local to that
% block. All the global functions (used by the L3 parts of the implementation)
% will be put in a Lua table |piton|.
%
%
% \begin{macrocode}
%<*LUA>
piton.comment_latex = piton.comment_latex or ">"
piton.comment_latex = "#" .. piton.comment_latex
% \end{macrocode}
%
%
% \begin{macrocode}
local sprintL3
function sprintL3 ( s )
tex.sprint ( luatexbase.catcodetables.expl , s )
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{Special functions dealing with LPEG}
%
% \medskip
% We will use the Lua library \pkg{lpeg} which is built in LuaTeX. That's why we
% define first aliases for several functions of that library.
% \begin{macrocode}
local P, S, V, C, Ct, Cc = lpeg.P, lpeg.S, lpeg.V, lpeg.C, lpeg.Ct, lpeg.Cc
local Cs , Cg , Cmt , Cb = lpeg.Cs, lpeg.Cg , lpeg.Cmt , lpeg.Cb
local B , R = lpeg.B , lpeg.R
% \end{macrocode}
%
%
%
% \bigskip
% The function |Q| takes in as argument a pattern and returns a \textsc{lpeg}
% \emph{which does a capture} of the pattern. That capture will be sent to LaTeX
% with the catcode ``other'' for all the characters: it's suitable for elements
% of the informatic listings that \pkg{piton} will typeset verbatim (thanks to the
% catcode ``other'').
% \begin{macrocode}
local Q
function Q ( pattern )
return Ct ( Cc ( luatexbase.catcodetables.CatcodeTableOther ) * C ( pattern ) )
end
% \end{macrocode}
%
%
% \bigskip
% The function |L| takes in as argument a pattern and returns a \textsc{lpeg}
% \emph{which does a capture} of the pattern. That capture will be sent to LaTeX
% with standard LaTeX catcodes for all the characters: the elements captured
% will be formatted as normal LaTeX codes. It's suitable for the ``LaTeX
% comments'' in the environments |{Piton}| and the elements between
% |begin-escape| and |end-escape|. That function won't be much used.
% \begin{macrocode}
local L
function L ( pattern ) return
Ct ( C ( pattern ) )
end
% \end{macrocode}
%
% \bigskip
% The function |Lc| (the c is for \emph{constant}) takes in as argument a string
% and returns a \textsc{lpeg} \emph{with does a constant capture} which returns
% that string. The elements captured will be formatted as L3 code. It will be
% used to send to LaTeX all the formatting LaTeX instructions we have to insert
% in order to do the syntactic highlighting (that's the main job of
% \pkg{piton}). That function, unlike the previous one, will be widely used.
% \begin{macrocode}
local Lc
function Lc ( string ) return
Cc ( { luatexbase.catcodetables.expl , string } )
end
% \end{macrocode}
%
% \bigskip
% The function |K| creates a \textsc{lpeg} which will return as capture the
% whole LaTeX code corresponding to a Python chunk (that is to say with the
% LaTeX formatting instructions corresponding to the syntactic nature of that
% Python chunk). The first argument is a Lua string corresponding to the name of
% a \pkg{piton} style and the second element is a pattern (that is to say a
% \textsc{lpeg} without capture)
% \begin{macrocode}e
local K
function K ( style , pattern ) return
Lc ( [[ {\PitonStyle{ ]] .. style .. "}{" )
* Q ( pattern )
* Lc "}}"
end
% \end{macrocode}
% The formatting commands in a given \pkg{piton} style (eg. the style |Keyword|)
% may be semi-global declarations (such as |\bfseries| or |\slshape|) or LaTeX
% macros with an argument (such as |\fbox| or |\colorbox{yellow}|). In order to
% deal with both syntaxes, we have used two pairs of braces:
% |{\PitonStyle{Keyword}{|\texttt{\slshape text to format}|}}|.
%
%
% \bigskip
% The following function |WithStyle| is similar to the function |K| but should
% be used for multi-lines elements.
% \begin{macrocode}
local WithStyle
function WithStyle ( style , pattern ) return
Ct ( Cc "Open" * Cc ( [[{\PitonStyle{]] .. style .. "}{" ) * Cc "}}" )
* pattern
* Ct ( Cc "Close" )
end
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} catches the Python chunks which are in LaTeX
% escapes (and that chunks will be considered as normal LaTeX constructions).
% \begin{macrocode}
Escape = P ( false )
EscapeClean = P ( false )
if piton.begin_escape then
Escape =
P ( piton.begin_escape )
* L ( ( 1 - P ( piton.end_escape ) ) ^ 1 )
* P ( piton.end_escape )
% \end{macrocode}
% The LPEG |EscapeClean| will be used in the LPEG Clean (and that LPEG is used
% to ``clean'' the code by removing the formatting elements).
% \begin{macrocode}
EscapeClean =
P ( piton.begin_escape )
* ( 1 - P ( piton.end_escape ) ) ^ 1
* P ( piton.end_escape )
end
% \end{macrocode}
%
% \begin{macrocode}
EscapeMath = P ( false )
if piton.begin_escape_math then
EscapeMath =
P ( piton.begin_escape_math )
* Lc "\\ensuremath{"
* L ( ( 1 - P(piton.end_escape_math) ) ^ 1 )
* Lc "}"
* P ( piton.end_escape_math )
end
% \end{macrocode}
%
% \vspace{1cm}
% The following line is mandatory.
% \begin{macrocode}
lpeg.locale(lpeg)
% \end{macrocode}
%
% \bigskip
% \paragraph{The basic syntactic LPEG}
%
% \begin{macrocode}
local alpha , digit = lpeg.alpha , lpeg.digit
local space = P " "
% \end{macrocode}
%
% Remember that, for \textsc{lpeg}, the Unicode characters such as |à|, |â|,
% |ç|, etc. are in fact strings of length 2 (2 bytes) because \pkg{lpeg} is not
% Unicode-aware.
% \begin{macrocode}
local letter = alpha + "_" + "â" + "à" + "ç" + "é" + "è" + "ê" + "ë" + "ï" + "î"
+ "ô" + "û" + "ü" + "Â" + "À" + "Ç" + "É" + "È" + "Ê" + "Ë"
+ "Ï" + "Î" + "Ô" + "Û" + "Ü"
local alphanum = letter + digit
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} |identifier| is a mere pattern (that is to say
% more or less a regular expression) which matches the Python identifiers (hence
% the name).
% \begin{macrocode}
local identifier = letter * alphanum ^ 0
% \end{macrocode}
%
% \medskip
% On the other hand, the \textsc{lpeg} |Identifier| (with a capital) also returns
% a \emph{capture}.
% \begin{macrocode}
local Identifier = K ( 'Identifier.Internal' , identifier )
% \end{macrocode}
%
% \bigskip
% By convention, we will use names with an initial capital for \textsc{lpeg}
% which return captures.
%
%
% \bigskip
% Here is the first use of our function~|K|. That function will be used to
% construct \textsc{lpeg} which capture Python chunks for which we have a
% dedicated \pkg{piton} style. For example, for the numbers, \pkg{piton}
% provides a style which is called |Number|. The name of the style is provided
% as a Lua string in the second argument of the function~|K|. By convention, we
% use single quotes for delimiting the Lua strings which are names of
% \pkg{piton} styles (but this is only a convention).
% \begin{macrocode}
local Number =
K ( 'Number' ,
( digit ^ 1 * P "." * # ( 1 - P "." ) * digit ^ 0
+ digit ^ 0 * P "." * digit ^ 1
+ digit ^ 1 )
* ( S "eE" * S "+-" ^ -1 * digit ^ 1 ) ^ -1
+ digit ^ 1
)
% \end{macrocode}
%
% \bigskip
% We will now define the LPEG |Word|.
%
% We have a problem in the following LPEG because, obviously, we should adjust
% the list of symbols with the delimiters of the current language (no?).
% \begin{macrocode}
local lpeg_central = 1 - S " '\"\r[({})]" - digit
% \end{macrocode}
% We recall that |piton.begin_escape| and |piton_end_escape| are Lua strings
% corresponding to the keys |begin-escape| and |end-escape|.
% \begin{macrocode}
if piton.begin_escape then
lpeg_central = lpeg_central - piton.begin_escape
end
if piton.begin_escape_math then
lpeg_central = lpeg_central - piton.begin_escape_math
end
local Word = Q ( lpeg_central ^ 1 )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Space = Q " " ^ 1
local SkipSpace = Q " " ^ 0
local Punct = Q ( S ".,:;!" )
local Tab = "\t" * Lc [[ \@@_tab: ]]
% \end{macrocode}
%
% \bigskip
% Remember that |\@@_leading_space:| does \emph{not} create a space, only an
% incrementation of the counter |\g_@@_indentation_int|.
% \begin{macrocode}
local SpaceIndentation = Lc [[ \@@_leading_space: ]] * Q " "
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Delim = Q ( S "[({})]" )
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} catches a space (U+0020) and replace it by
% |\l_@@_space_in_string_tl|. It will be used in the strings. Usually,
% |\l_@@_space_in_string_tl| will contain a space and therefore there won't be
% difference. However, when the key |show-spaces-in-strings| is in force,
% |\\l_@@_space_in_string_tl| will contain ␣ (U+2423) in order to visualize the
% spaces.
% \begin{macrocode}
local SpaceInString = space * Lc [[ \l_@@_space_in_string_tl ]]
% \end{macrocode}
%
% \bigskip
% \paragraph{Several tools for the construction of the main LPEG}
%
% \begin{macrocode}
local LPEG0 = { }
local LPEG1 = { }
local LPEG2 = { }
local LPEG_cleaner = { }
% \end{macrocode}
%
% \bigskip
% For each language, we will need a pattern to match expressions with balanced
% braces. Those balanced braces must \emph{not} take into account the braces
% present in strings of the language. However, the syntax for the strings is
% language-dependent. That's why we write a Lua function |Compute_braces| which
% will compute the pattern by taking in as argument a pattern for the strings of
% the language (at least the shorts strings). The argument of |Compute_braces|
% must be a pattern \emph{which does no catching}.
% \begin{macrocode}
local Compute_braces
function Compute_braces ( lpeg_string ) return
P { "E" ,
E =
(
"{" * V "E" * "}"
+
lpeg_string
+
( 1 - S "{}" )
) ^ 0
}
end
% \end{macrocode}
%
%
%
% \bigskip
% The following Lua function will compute the \text{lpeg} |DetectedCommands|
% which is a \textsc{lpeg} with captures.
% \begin{macrocode}
local Compute_DetectedCommands
function Compute_DetectedCommands ( lang , braces ) return
Ct (
Cc "Open"
* C ( piton.DetectedCommands * space ^ 0 * P "{" )
* Cc "}"
)
* ( braces
/ ( function ( s )
if s ~= '' then return
LPEG1[lang] : match ( s )
end
end )
)
* P "}"
* Ct ( Cc "Close" )
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Compute_LPEG_cleaner
function Compute_LPEG_cleaner ( lang , braces ) return
Ct ( ( piton.DetectedCommands * "{"
* ( braces
/ ( function ( s )
if s ~= '' then return
LPEG_cleaner[lang] : match ( s )
end
end )
)
* "}"
+ EscapeClean
+ C ( P ( 1 ) )
) ^ 0 ) / table.concat
end
% \end{macrocode}
%
% \bigskip
% The following function |ParseAgain| will be used in the definitions of the
% LPEG of the different informatic languages when we will need to
% \emph{parse again} a small chunk of code. It's a way to avoid the use of a actual
% \emph{grammar} of LPEG (in a sens, a recursive regular expression).
%
% Remark that there is no \pkg{piton} style associated to a chunk of code which
% is analyzed by |ParseAgain|. If we wish a \pkg{piton} style available to the
% final user (if he wish to format that element with a uniform font instead of
% an analyze by |ParseAgain|), we have to use |\@@_piton:n|.
% \begin{macrocode}
local ParseAgain
function ParseAgain ( code )
if code ~= '' then return
% \end{macrocode}
% The variable |piton.language| is set in the function |piton.Parse|.
% \begin{macrocode}
LPEG1[piton.language] : match ( code )
end
end
% \end{macrocode}
%
%
%
% \bigskip
% \paragraph{Constructions for Beamer}
%
% \bigskip
% If the class Beamer is used, some environments and commands of Beamer are
% automatically detected in the listings of \pkg{piton}.
% \begin{macrocode}
local Beamer = P ( false )
local BeamerBeginEnvironments = P ( true )
local BeamerEndEnvironments = P ( true )
% \end{macrocode}
%
% \begin{macrocode}
piton.BeamerEnvironments = P ( false )
for _ , x in ipairs ( piton.beamer_environments ) do
piton.BeamerEnvironments = piton.BeamerEnvironments + x
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
BeamerBeginEnvironments =
( space ^ 0 *
L
(
P [[\begin{]] * piton.BeamerEnvironments * "}"
* ( "<" * ( 1 - P ">" ) ^ 0 * ">" ) ^ -1
)
* "\r"
) ^ 0
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
BeamerEndEnvironments =
( space ^ 0 *
L ( P [[\end{]] * piton.BeamerEnvironments * "}" )
* "\r"
) ^ 0
% \end{macrocode}
%
%
%
% \bigskip
% The following Lua function will be used to compute the \textsc{lpeg} |Beamer|
% for each informatic language.
% \begin{macrocode}
local Compute_Beamer
function Compute_Beamer ( lang , braces )
% \end{macrocode}
%
% \smallskip
% We will compute in |lpeg| the \textsc{lpeg} that we will return.
% \begin{macrocode}
local lpeg = L ( P [[\pause]] * ( "[" * ( 1 - P "]" ) ^ 0 * "]" ) ^ -1 )
lpeg = lpeg +
Ct ( Cc "Open"
* C ( piton.BeamerCommands
* ( "<" * ( 1 - P ">" ) ^ 0 * ">" ) ^ -1
* P "{"
)
* Cc "}"
)
* ( braces /
( function ( s ) if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* "}"
* Ct ( Cc "Close" )
% \end{macrocode}
%
%
% \bigskip
% For the command |\alt|, the specification of the overlays (between angular
% brackets) is mandatory.
% \begin{macrocode}
lpeg = lpeg +
L ( P [[\alt]] * "<" * ( 1 - P ">" ) ^ 0 * ">{" )
* ( braces /
( function ( s ) if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* L ( P "}{" )
* ( braces /
( function ( s ) if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* L ( P "}" )
% \end{macrocode}
%
% \bigskip
% For |\temporal|, the specification of the overlays (between angular brackets)
% is mandatory.
% \begin{macrocode}
lpeg = lpeg +
L ( P [[\temporal]] * "<" * ( 1 - P ">" ) ^ 0 * ">{" )
* ( braces
/ ( function ( s )
if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* L ( P "}{" )
* ( braces
/ ( function ( s )
if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* L ( P "}{" )
* ( braces
/ ( function ( s )
if s ~= '' then return LPEG1[lang] : match ( s ) end end ) )
* L ( P "}" )
% \end{macrocode}
%
% \bigskip
% Now, the environments of Beamer.
% \begin{macrocode}
for _ , x in ipairs ( piton.beamer_environments ) do
lpeg = lpeg +
Ct ( Cc "Open"
* C (
P ( [[\begin{]] .. x .. "}" )
* ( "<" * ( 1 - P ">") ^ 0 * ">" ) ^ -1
)
* Cc ( [[\end{]] .. x .. "}" )
)
* (
( ( 1 - P ( [[\end{]] .. x .. "}" ) ) ^ 0 )
/ ( function ( s )
if s ~= '' then return
LPEG1[lang] : match ( s )
end
end )
)
* P ( [[\end{]] .. x .. "}" )
* Ct ( Cc "Close" )
end
% \end{macrocode}
%
% \bigskip
% Now, you can return the value we have computed.
% \begin{macrocode}
return lpeg
end
% \end{macrocode}
%
%
% \bigskip
% The following LPEG is in relation with the key |math-comments|. It will be
% used in all the languages.
% \begin{macrocode}
local CommentMath =
P "$" * K ( 'Comment.Math' , ( 1 - S "$\r" ) ^ 1 ) * P "$" -- $
% \end{macrocode}
%
%
% \bigskip
% \paragraph{EOL}
%
% \bigskip
% The following LPEG will detect the Python prompts when the user is typesetting
% an interactive session of Python (directly or through |{pyconsole}| of
% \pkg{pyluatex}). We have to detect that prompt twice. The first detection
% (called \emph{hasty detection}) will be before the |\@@_begin_line:| because
% you want to trigger a special background color for that row (and, after the
% |\@@_begin_line:|, it's too late to change de background).
% \begin{macrocode}
local PromptHastyDetection =
( # ( P ">>>" + "..." ) * Lc [[ \@@_prompt: ]] ) ^ -1
% \end{macrocode}
% We remind that the marker |#| of \textsc{lpeg} specifies that the pattern will be
% detected but won't consume any character.
%
% \medskip
% With the following \textsc{lpeg}, a style will actually be applied to the
% prompt (for instance, it's possible to decide to discard these prompts).
% \begin{macrocode}
local Prompt = K ( 'Prompt' , ( ( P ">>>" + "..." ) * P " " ^ -1 ) ^ -1 )
% \end{macrocode}
%
%
%
% \bigskip
% The following \textsc{lpeg} |EOL| is for the end of lines.
% \begin{macrocode}
local EOL =
P "\r"
*
(
space ^ 0 * -1
+
% \end{macrocode}
% We recall that each line of the informatic code we have to parse will be sent
% back to LaTeX between a pair |\@@_begin_line:| --
% |\@@_end_line:|\footnote{Remember that the \texttt{\textbackslash
% @@\_end\_line:} must be explicit because it will be used as marker in order to
% delimit the argument of the command \texttt{\textbackslash @@\_begin\_line:}}.
% \begin{macrocode}
Ct (
Cc "EOL"
*
Ct ( Lc [[ \@@_end_line: ]]
* BeamerEndEnvironments
*
(
% \end{macrocode}
% If the last line of the listing is the end of an environment of Beamer (eg.
% |\end{uncoverenv}|), then, we don't open a new line. A token |\@@_end_line:|
% will be added at the end of the environment but it will be no-op since we have
% defined the macro |\@@_end_line:| to be no-op (even though it is also used as
% a marker for the TeX delimited macro |\@@_begin_line:|).
% \begin{macrocode}
-1
+
BeamerBeginEnvironments
* PromptHastyDetection
* Lc [[ \@@_newline:\@@_begin_line: ]]
* Prompt
)
)
)
)
* ( SpaceIndentation ^ 0 * # ( 1 - S " \r" ) ) ^ -1
% \end{macrocode}
%
%
% \bigskip
% The following \textsc{lpeg} |CommentLaTeX| is for what is called in that
% document the ``LaTeX comments''. Since the elements that will be caught must
% be sent to LaTeX with standard LaTeX catcodes, we put the capture (done by
% the function~|C|) in a table (by using~|Ct|, which is an alias for |lpeg.Ct|).
% \begin{macrocode}
local CommentLaTeX =
P ( piton.comment_latex )
* Lc [[{\PitonStyle{Comment.LaTeX}{\ignorespaces]]
* L ( ( 1 - P "\r" ) ^ 0 )
* Lc "}}"
* ( EOL + -1 )
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{The language Python}
%
% We open a Lua local scope for the language Python (of course, there will be
% also global definitions).
% \begin{macrocode}
do
% \end{macrocode}
%
% \bigskip
% Some strings of length 2 are explicit because we want the corresponding
% ligatures available in some fonts such as \emph{Fira Code} to be active.
% \begin{macrocode}
local Operator =
K ( 'Operator' ,
P "!=" + "<>" + "==" + "<<" + ">>" + "<=" + ">=" + ":=" + "//" + "**"
+ S "-~+/*%=<>&.@|" )
local OperatorWord =
K ( 'Operator.Word' , P "in" + "is" + "and" + "or" + "not" )
% \end{macrocode}
%
% \smallskip
% The keyword |in| in a construction such as ``|for i in range(n)|'' must be
% formatted as a keyword and not as an |Operator.Word| and that's why we write
% the following LPEG |For|.
% \begin{macrocode}
local For = K ( 'Keyword' , P "for" )
* Space
* Identifier
* Space
* K ( 'Keyword' , P "in" )
local Keyword =
K ( 'Keyword' ,
P "as" + "assert" + "break" + "case" + "class" + "continue" + "def" +
"del" + "elif" + "else" + "except" + "exec" + "finally" + "for" + "from" +
"global" + "if" + "import" + "lambda" + "non local" + "pass" + "return" +
"try" + "while" + "with" + "yield" + "yield from" )
+ K ( 'Keyword.Constant' , P "True" + "False" + "None" )
local Builtin =
K ( 'Name.Builtin' ,
P "__import__" + "abs" + "all" + "any" + "bin" + "bool" + "bytearray" +
"bytes" + "chr" + "classmethod" + "compile" + "complex" + "delattr" +
"dict" + "dir" + "divmod" + "enumerate" + "eval" + "filter" + "float" +
"format" + "frozenset" + "getattr" + "globals" + "hasattr" + "hash" +
"hex" + "id" + "input" + "int" + "isinstance" + "issubclass" + "iter" +
"len" + "list" + "locals" + "map" + "max" + "memoryview" + "min" + "next"
+ "object" + "oct" + "open" + "ord" + "pow" + "print" + "property" +
"range" + "repr" + "reversed" + "round" + "set" + "setattr" + "slice" +
"sorted" + "staticmethod" + "str" + "sum" + "super" + "tuple" + "type" +
"vars" + "zip" )
local Exception =
K ( 'Exception' ,
P "ArithmeticError" + "AssertionError" + "AttributeError" +
"BaseException" + "BufferError" + "BytesWarning" + "DeprecationWarning" +
"EOFError" + "EnvironmentError" + "Exception" + "FloatingPointError" +
"FutureWarning" + "GeneratorExit" + "IOError" + "ImportError" +
"ImportWarning" + "IndentationError" + "IndexError" + "KeyError" +
"KeyboardInterrupt" + "LookupError" + "MemoryError" + "NameError" +
"NotImplementedError" + "OSError" + "OverflowError" +
"PendingDeprecationWarning" + "ReferenceError" + "ResourceWarning" +
"RuntimeError" + "RuntimeWarning" + "StopIteration" + "SyntaxError" +
"SyntaxWarning" + "SystemError" + "SystemExit" + "TabError" + "TypeError"
+ "UnboundLocalError" + "UnicodeDecodeError" + "UnicodeEncodeError" +
"UnicodeError" + "UnicodeTranslateError" + "UnicodeWarning" +
"UserWarning" + "ValueError" + "VMSError" + "Warning" + "WindowsError" +
"ZeroDivisionError" + "BlockingIOError" + "ChildProcessError" +
"ConnectionError" + "BrokenPipeError" + "ConnectionAbortedError" +
"ConnectionRefusedError" + "ConnectionResetError" + "FileExistsError" +
"FileNotFoundError" + "InterruptedError" + "IsADirectoryError" +
"NotADirectoryError" + "PermissionError" + "ProcessLookupError" +
"TimeoutError" + "StopAsyncIteration" + "ModuleNotFoundError" +
"RecursionError" )
local RaiseException = K ( 'Keyword' , P "raise" ) * SkipSpace * Exception * Q "("
% \end{macrocode}
%
% \bigskip
% In Python, a ``decorator'' is a statement whose begins by |@| which patches
% the function defined in the following statement.
% \begin{macrocode}
local Decorator = K ( 'Name.Decorator' , P "@" * letter ^ 1 )
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} |DefClass| will be used to detect the definition of a
% new class (the name of that new class will be formatted with the \pkg{piton}
% style |Name.Class|).
%
% \smallskip
% Example:\enskip \piton{class myclass:}
% \begin{macrocode}
local DefClass =
K ( 'Keyword' , "class" ) * Space * K ( 'Name.Class' , identifier )
% \end{macrocode}
%
% If the word |class| is not followed by a identifier, it will be caught as
% keyword by the \textsc{lpeg} |Keyword| (useful if we want to type a
% list of keywords).
%
% \bigskip
% The following \textsc{lpeg} |ImportAs| is used for the lines beginning by |import|.
% % We have to detect the potential keyword |as| because both the name of the
% module and its alias must be formatted with the \pkg{piton} style |Name.Namespace|.
%
% \smallskip
% Example:\enskip \piton{import numpy as np}
%
% \smallskip
% Moreover, after the keyword |import|, it's possible to have a comma-separated
% list of modules (if the keyword |as| is not used).
%
% \smallskip
% Example:\enskip \piton{import math, numpy}
% \begin{macrocode}
local ImportAs =
K ( 'Keyword' , "import" )
* Space
* K ( 'Name.Namespace' , identifier * ( "." * identifier ) ^ 0 )
* (
( Space * K ( 'Keyword' , "as" ) * Space
* K ( 'Name.Namespace' , identifier ) )
+
( SkipSpace * Q "," * SkipSpace
* K ( 'Name.Namespace' , identifier ) ) ^ 0
)
% \end{macrocode}
% Be careful: there is no commutativity of |+| in the previous expression.
%
% \bigskip
% The \textsc{lpeg} |FromImport| is used for the lines beginning by |from|. We
% need a special treatment because the identifier following the keyword |from|
% must be formatted with the \pkg{piton} style |Name.Namespace| and the
% following keyword |import| must be formatted with the \pkg{piton} style
% |Keyword| and must \emph{not} be caught by the \textsc{lpeg} |ImportAs|.
%
% \smallskip
% Example:\enskip \piton{from math import pi}
%
% \smallskip
% \begin{macrocode}
local FromImport =
K ( 'Keyword' , "from" )
* Space * K ( 'Name.Namespace' , identifier )
* Space * K ( 'Keyword' , "import" )
% \end{macrocode}
%
% \bigskip
% \paragraph{The strings of Python}
%
% For the strings in Python, there are four categories of delimiters (without
% counting the prefixes for f-strings and raw strings). We will use, in the
% names of our \textsc{lpeg}, prefixes to distinguish the \textsc{lpeg} dealing
% with that categories of strings, as presented in the following tabular.
% \begin{center}
% \begin{tabular}{@{}lcc@{}}
% \toprule
% & |Single| & |Double| \\
% \midrule
% |Short| & |'text'| & |"text"| \\
% |Long| & |'''test'''| & |"""text"""| \\
% \bottomrule
% \end{tabular}
% \end{center}
%
%
% \bigskip
% We have also to deal with the interpolations in the f-strings. Here
% is an example of a f-string with an interpolation and a format
% instruction\footnote{There is no special \pkg{piton} style for the formatting
% instruction (after the colon): the style which will be applied will be the
% style of the encompassing string, that is to say |String.Short| or
% |String.Long|.} in that interpolation:
%
% \piton{f'Total price: {total+1:.2f} €'}
%
%
% \bigskip
% The interpolations beginning by |%| (even though there is more modern
% techniques now in Python).
% \begin{macrocode}
local PercentInterpol =
K ( 'String.Interpol' ,
P "%"
* ( "(" * alphanum ^ 1 * ")" ) ^ -1
* ( S "-#0 +" ) ^ 0
* ( digit ^ 1 + "*" ) ^ -1
* ( "." * ( digit ^ 1 + "*" ) ) ^ -1
* ( S "HlL" ) ^ -1
* S "sdfFeExXorgiGauc%"
)
% \end{macrocode}
%
% \bigskip
% We can now define the \textsc{lpeg} for the four kinds of strings. It's not
% possible to use our function~|K| because of the interpolations which must be
% formatted with another \pkg{piton} style that the rest of the
% string.\footnote{The interpolations are formatted with the \pkg{piton} style
% |Interpol.Inside|. The initial value of that style is \texttt{\textbackslash
% @@\_piton:n} which means that the interpolations are parsed once again by \pkg{piton}.}
% \begin{macrocode}
local SingleShortString =
WithStyle ( 'String.Short' ,
% \end{macrocode}
% First, we deal with the f-strings of Python, which are prefixed by |f| or |F|.
% \begin{macrocode}
Q ( P "f'" + "F'" )
* (
K ( 'String.Interpol' , "{" )
* K ( 'Interpol.Inside' , ( 1 - S "}':" ) ^ 0 )
* Q ( P ":" * ( 1 - S "}:'" ) ^ 0 ) ^ -1
* K ( 'String.Interpol' , "}" )
+
SpaceInString
+
Q ( ( P "\\'" + "\\\\" + "{{" + "}}" + 1 - S " {}'" ) ^ 1 )
) ^ 0
* Q "'"
+
% \end{macrocode}
% Now, we deal with the standard strings of Python, but also the ``raw strings''.
% \begin{macrocode}
Q ( P "'" + "r'" + "R'" )
* ( Q ( ( P "\\'" + "\\\\" + 1 - S " '\r%" ) ^ 1 )
+ SpaceInString
+ PercentInterpol
+ Q "%"
) ^ 0
* Q "'" )
% \end{macrocode}
%
% \begin{macrocode}
local DoubleShortString =
WithStyle ( 'String.Short' ,
Q ( P "f\"" + "F\"" )
* (
K ( 'String.Interpol' , "{" )
* K ( 'Interpol.Inside' , ( 1 - S "}\":" ) ^ 0 )
* ( K ( 'String.Interpol' , ":" ) * Q ( (1 - S "}:\"") ^ 0 ) ) ^ -1
* K ( 'String.Interpol' , "}" )
+
SpaceInString
+
Q ( ( P "\\\"" + "\\\\" + "{{" + "}}" + 1 - S " {}\"" ) ^ 1 )
) ^ 0
* Q "\""
+
Q ( P "\"" + "r\"" + "R\"" )
* ( Q ( ( P "\\\"" + "\\\\" + 1 - S " \"\r%" ) ^ 1 )
+ SpaceInString
+ PercentInterpol
+ Q "%"
) ^ 0
* Q "\"" )
local ShortString = SingleShortString + DoubleShortString
% \end{macrocode}
%
% \bigskip
% \paragraph{Beamer}
%
% The argument of |Compute_braces| must be a pattern \emph{which does no
% catching} corresponding to the strings of the language.
%
% \begin{macrocode}
local braces =
Compute_braces
(
( P "\"" + "r\"" + "R\"" + "f\"" + "F\"" )
* ( P "\\\"" + 1 - S "\"" ) ^ 0 * "\""
+
( P '\'' + 'r\'' + 'R\'' + 'f\'' + 'F\'' )
* ( P '\\\'' + 1 - S '\'' ) ^ 0 * '\''
)
if piton.beamer then Beamer = Compute_Beamer ( 'python' , braces ) end
% \end{macrocode}
%
% \bigskip
% \paragraph{Detected commands}
%
% \begin{macrocode}
DetectedCommands = Compute_DetectedCommands ( 'python' , braces )
% \end{macrocode}
%
% \bigskip
%
% \paragraph{LPEG_cleaner}
%
% \begin{macrocode}
LPEG_cleaner.python = Compute_LPEG_cleaner ( 'python' , braces )
% \end{macrocode}
%
% \bigskip
% \paragraph{The long strings}
%
%
% \begin{macrocode}
local SingleLongString =
WithStyle ( 'String.Long' ,
( Q ( S "fF" * P "'''" )
* (
K ( 'String.Interpol' , "{" )
* K ( 'Interpol.Inside' , ( 1 - S "}:\r" - "'''" ) ^ 0 )
* Q ( P ":" * (1 - S "}:\r" - "'''" ) ^ 0 ) ^ -1
* K ( 'String.Interpol' , "}" )
+
Q ( ( 1 - P "'''" - S "{}'\r" ) ^ 1 )
+
EOL
) ^ 0
+
Q ( ( S "rR" ) ^ -1 * "'''" )
* (
Q ( ( 1 - P "'''" - S "\r%" ) ^ 1 )
+
PercentInterpol
+
P "%"
+
EOL
) ^ 0
)
* Q "'''" )
% \end{macrocode}
%
% \begin{macrocode}
local DoubleLongString =
WithStyle ( 'String.Long' ,
(
Q ( S "fF" * "\"\"\"" )
* (
K ( 'String.Interpol', "{" )
* K ( 'Interpol.Inside' , ( 1 - S "}:\r" - "\"\"\"" ) ^ 0 )
* Q ( ":" * (1 - S "}:\r" - "\"\"\"" ) ^ 0 ) ^ -1
* K ( 'String.Interpol' , "}" )
+
Q ( ( 1 - S "{}\"\r" - "\"\"\"" ) ^ 1 )
+
EOL
) ^ 0
+
Q ( S "rR" ^ -1 * "\"\"\"" )
* (
Q ( ( 1 - P "\"\"\"" - S "%\r" ) ^ 1 )
+
PercentInterpol
+
P "%"
+
EOL
) ^ 0
)
* Q "\"\"\""
)
% \end{macrocode}
%
% \begin{macrocode}
local LongString = SingleLongString + DoubleLongString
% \end{macrocode}
%
% \bigskip
% We have a \textsc{lpeg} for the Python docstrings. That \textsc{lpeg} will
% be used in the \textsc{lpeg} |DefFunction| which deals with the whole preamble
% of a function definition (which begins with |def|).
% \begin{macrocode}
local StringDoc =
K ( 'String.Doc' , P "r" ^ -1 * "\"\"\"" )
* ( K ( 'String.Doc' , (1 - P "\"\"\"" - "\r" ) ^ 0 ) * EOL
* Tab ^ 0
) ^ 0
* K ( 'String.Doc' , ( 1 - P "\"\"\"" - "\r" ) ^ 0 * "\"\"\"" )
% \end{macrocode}
%
% \bigskip
% \paragraph{The comments in the Python listings}
%
% We define different \textsc{lpeg} dealing with comments in the Python
% listings.
% \begin{macrocode}
local Comment =
WithStyle
( 'Comment' ,
Q "#" * ( CommentMath + Q ( ( 1 - S "$\r" ) ^ 1 ) ) ^ 0 -- $
)
* ( EOL + -1 )
% \end{macrocode}
%
%
% \bigskip
% \paragraph{DefFunction}
%
% The following \textsc{lpeg} |expression| will be used for the parameters in
% the \emph{argspec} of a Python function. It's necessary to use a \emph{grammar}
% because that pattern mainly checks the correct nesting of the delimiters
% (and it's known in the theory of formal languages that this can't be done with
% regular expressions \emph{stricto sensu} only).
% \begin{macrocode}
local expression =
P { "E" ,
E = ( "'" * ( P "\\'" + 1 - S "'\r" ) ^ 0 * "'"
+ "\"" * ( P "\\\"" + 1 - S "\"\r" ) ^ 0 * "\""
+ "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ "[" * V "F" * "]"
+ ( 1 - S "{}()[]\r," ) ) ^ 0 ,
F = ( "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ "[" * V "F" * "]"
+ ( 1 - S "{}()[]\r\"'" ) ) ^ 0
}
% \end{macrocode}
%
% \bigskip
% We will now define a \textsc{lpeg} |Params| that will catch the list of
% parameters (that is to say the \emph{argspec}) in the definition of a Python
% function. For example, in the line of code
% \begin{center}
% \piton{def MyFunction(a,b,x=10,n:int): return n}
% \end{center}
% the \textsc{lpeg} |Params| will be used to catch the chunk\enskip |a,b,x=10,n:int|.
%
% \medskip
% \begin{macrocode}
local Params =
P { "E" ,
E = ( V "F" * ( Q "," * V "F" ) ^ 0 ) ^ -1 ,
F = SkipSpace * ( Identifier + Q "*args" + Q "**kwargs" ) * SkipSpace
* (
K ( 'InitialValues' , "=" * expression )
+ Q ":" * SkipSpace * K ( 'Name.Type' , identifier )
) ^ -1
}
% \end{macrocode}
%
%
% \bigskip
% The following \textsc{lpeg} |DefFunction| catches a keyword |def| and the
% following name of function \emph{but also everything else until a potential
% docstring}. That's why this definition of \textsc{lpeg} must occur (in the file
% |piton.sty|) after the definition of several other \textsc{lpeg} such as
% |Comment|, |CommentLaTeX|, |Params|, |StringDoc|...
% \begin{macrocode}
local DefFunction =
K ( 'Keyword' , "def" )
* Space
* K ( 'Name.Function.Internal' , identifier )
* SkipSpace
* Q "(" * Params * Q ")"
* SkipSpace
* ( Q "->" * SkipSpace * K ( 'Name.Type' , identifier ) ) ^ -1
% \end{macrocode}
%
% \begin{macrocode}
* ( C ( ( 1 - S ":\r" ) ^ 0 ) / ParseAgain )
* Q ":"
* ( SkipSpace
* ( EOL + CommentLaTeX + Comment ) -- in all cases, that contains an EOL
* Tab ^ 0
* SkipSpace
* StringDoc ^ 0 -- there may be additional docstrings
) ^ -1
% \end{macrocode}
% Remark that, in the previous code, |CommentLaTeX| \emph{must} appear
% before |Comment|: there is no commutativity of the addition for the
% \emph{parsing expression grammars} (\textsc{peg}).
%
% \smallskip
% If the word |def| is not followed by an identifier and parenthesis, it will be
% caught as keyword by the \textsc{lpeg} |Keyword| (useful if, for example, the
% final user wants to speak of the keyword \piton{def}).
%
%
% \paragraph{Miscellaneous}
%
% \begin{macrocode}
local ExceptionInConsole = Exception * Q ( ( 1 - P "\r" ) ^ 0 ) * EOL
% \end{macrocode}
%
%
% \bigskip
% \paragraph{The main LPEG for the language Python}
%
% \begin{macrocode}
local EndKeyword
= Space + Punct + Delim + EOL + Beamer + DetectedCommands + Escape +
EscapeMath + -1
% \end{macrocode}
%
% First, the main loop :
% \begin{macrocode}
local Main =
space ^ 0 * EOL -- faut-il le mettre en commentaire ?
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ LongString
+ Comment
+ ExceptionInConsole
+ Delim
+ Operator
+ OperatorWord * EndKeyword
+ ShortString
+ Punct
+ FromImport
+ RaiseException
+ DefFunction
+ DefClass
+ For
+ Keyword * EndKeyword
+ Decorator
+ Builtin * EndKeyword
+ Identifier
+ Number
+ Word
% \end{macrocode}
%
% \bigskip
% Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.python = Main ^ 0
% \end{macrocode}
%
% \bigskip
% We recall that each line in the Python code to parse will be sent back to
% LaTeX between a pair |\@@_begin_line:| -- |\@@_end_line:|\footnote{Remember
% that the \texttt{\textbackslash @@\_end\_line:} must be explicit because it
% will be used as marker in order to delimit the argument of the command
% \texttt{\textbackslash @@\_begin\_line:}}.
% \begin{macrocode}
LPEG2.python =
Ct (
( space ^ 0 * "\r" ) ^ -1
* BeamerBeginEnvironments
* PromptHastyDetection
* Lc [[ \@@_begin_line: ]]
* Prompt
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
% \bigskip
% End of the Lua scope for the language Python.
% \begin{macrocode}
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{The language Ocaml}
%
% We open a Lua local scope for the language OCaml (of course, there will be also
% global definitions).
% \begin{macrocode}
do
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local SkipSpace = ( Q " " + EOL ) ^ 0
local Space = ( Q " " + EOL ) ^ 1
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local braces = Compute_braces ( "\"" * ( 1 - S "\"" ) ^ 0 * "\"" )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
if piton.beamer then
Beamer = Compute_Beamer ( 'ocaml' , braces )
end
DetectedCommands = Compute_DetectedCommands ( 'ocaml' , braces )
local Q
function Q ( pattern ) return
Ct ( Cc ( luatexbase.catcodetables.CatcodeTableOther ) * C ( pattern ) )
+ Beamer + DetectedCommands + EscapeMath + Escape
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local K
function K ( style , pattern ) return
Lc ( [[ {\PitonStyle{ ]] .. style .. "}{" )
* Q ( pattern )
* Lc "}}"
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local WithStyle
function WithStyle ( style , pattern ) return
Ct ( Cc "Open" * Cc ( [[{\PitonStyle{]] .. style .. "}{" ) * Cc "}}" )
* ( pattern + Beamer + DetectedCommands + EscapeMath + Escape )
* Ct ( Cc "Close" )
end
% \end{macrocode}
%
% \bigskip
% The following LPEG corresponds to the balanced expressions (balanced according
% to the parenthesis). Of course, we must write |(1 - S "()")| with outer parenthesis.
% \begin{macrocode}
local balanced_parens =
P { "E" , E = ( "(" * V "E" * ")" + ( 1 - S "()" ) ) ^ 0 }
% \end{macrocode}
%
% \paragraph{The strings of OCaml}
% \begin{macrocode}
local ocaml_string =
Q "\""
* (
SpaceInString
+
Q ( ( 1 - S " \"\r" ) ^ 1 )
+
EOL
) ^ 0
* Q "\""
% \end{macrocode}
%
% \begin{macrocode}
local String = WithStyle ( 'String.Long' , ocaml_string )
% \end{macrocode}
%
% \bigskip
% Now, the ``quoted strings'' of OCaml (for example \verb+{ext|Essai|ext}+).
%
% For those strings, we will do two consecutive analysis. First an analysis to
% determine the whole string and, then, an analysis for the potential visual
% spaces and the EOL in the string.
%
% The first analysis require a match-time capture. For explanations about that
% programmation, see the paragraphe \emph{Lua's long strings} in
% |www.inf.puc-rio.br/~roberto/lpeg|.
%
% \begin{macrocode}
local ext = ( R "az" + "_" ) ^ 0
local open = "{" * Cg ( ext , 'init' ) * "|"
local close = "|" * C ( ext ) * "}"
local closeeq =
Cmt ( close * Cb ( 'init' ) ,
function ( s , i , a , b ) return a == b end )
% \end{macrocode}
%
% \medskip
% The \textsc{lpeg} |QuotedStringBis| will do the second analysis.
% \begin{macrocode}
local QuotedStringBis =
WithStyle ( 'String.Long' ,
(
Space
+
Q ( ( 1 - S " \r" ) ^ 1 )
+
EOL
) ^ 0 )
% \end{macrocode}
%
% \medskip
% We use a ``function capture'' (as called in the official documentation of the
% \textsc{lpeg}) in order to do the second analysis on the result of the first one.
% \begin{macrocode}
local QuotedString =
C ( open * ( 1 - closeeq ) ^ 0 * close ) /
( function ( s ) return QuotedStringBis : match ( s ) end )
% \end{macrocode}
%
% \bigskip
% In OCaml, the delimiters for the comments are |(*| and |*)|. There are
% unsymmetrical and OCaml allows those comments to be nested. That's why we need a
% grammar.
%
% In these comments, we embed the math comments (between |$| and |$|) and we
% embed also a treatment for the end of lines (since the comments may be multi-lines).
%
% \begin{macrocode}
local Comment =
WithStyle ( 'Comment' ,
P {
"A" ,
A = Q "(*"
* ( V "A"
+ Q ( ( 1 - S "\r$\"" - "(*" - "*)" ) ^ 1 ) -- $
+ ocaml_string
+ "$" * K ( 'Comment.Math' , ( 1 - S "$\r" ) ^ 1 ) * "$" -- $
+ EOL
) ^ 0
* Q "*)"
} )
% \end{macrocode}
%
%
% \paragraph{Some standard LPEG}
%
% \begin{macrocode}
local Delim = Q ( P "[|" + "|]" + S "[()]" )
local Punct = Q ( S ",:;!" )
% \end{macrocode}
%
% \bigskip
% The identifiers caught by |cap_identifier| begin with a capital. In OCaml,
% it's used for the constructors of types and for the names of the modules.
%
% \begin{macrocode}
local cap_identifier = R "AZ" * ( R "az" + R "AZ" + S "_'" + digit ) ^ 0
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Constructor =
K ( 'Name.Constructor' ,
Q "`" ^ -1 * cap_identifier
% \end{macrocode}
% We consider |::| and |[]| as constructors (of the lists) as does the Tuareg
% mode of Emacs.
% \begin{macrocode}
+ Q "::"
+ Q "[" * SkipSpace * Q "]" )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local ModuleType = K ( 'Name.Type' , cap_identifier )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local OperatorWord =
K ( 'Operator.Word' ,
P "asr" + "land" + "lor" + "lsl" + "lxor" + "mod" + "or" )
% \end{macrocode}
%
% \bigskip
% In OCaml, some keywords are considered as \emph{governing keywords} with some
% special syntactic characteristics.
% \begin{macrocode}
local governing_keyword = P "and" + "begin" + "class" + "constraint" +
"end" + "external" + "functor" + "include" + "inherit" + "initializer" +
"in" + "let" + "method" + "module" + "object" + "open" + "rec" + "sig" +
"struct" + "type" + "val"
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Keyword =
K ( 'Keyword' ,
P "assert" + "as" + "done" + "downto" + "do" + "else" + "exception"
+ "for" + "function" + "fun" + "if" + "lazy" + "match" + "mutable"
+ "new" + "of" + "private" + "raise" + "then" + "to" + "try"
+ "virtual" + "when" + "while" + "with" )
+ K ( 'Keyword.Constant' , P "true" + "false" )
+ K ( 'Keyword.Governing', governing_keyword )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local EndKeyword
= Space + Punct + Delim + EOL + Beamer + DetectedCommands + Escape
+ EscapeMath + -1
% \end{macrocode}
%
% \bigskip
% Now, the identifier. Recall that we have also a LPEG |cap_identifier| for the
% indentifiers beginning with a capital letter.
% \begin{macrocode}
local identifier = ( R "az" + "_" ) * ( R "az" + R "AZ" + S "_'" + digit ) ^ 0
- ( OperatorWord + Keyword ) * EndKeyword
% \end{macrocode}
%
% \bigskip
% We have the internal style |Identifier.Internal| in order to be able to
% implement the mechanism |\SetPitonIdentifier|. The final user has access to a
% style called |Identifier|.
% \begin{macrocode}
local Identifier = K ( 'Identifier.Internal' , identifier )
% \end{macrocode}
%
% \bigskip
% In OCmal, \emph{character} is a type different of the type |string|.
% \begin{macrocode}
local Char =
K ( 'String.Short',
P "'" *
(
( 1 - S "'\\" )
+ "\\"
* ( S "\\'ntbr \""
+ digit * digit * digit
+ P "x" * ( digit + R "af" + R "AF" )
* ( digit + R "af" + R "AF" )
* ( digit + R "af" + R "AF" )
+ P "o" * R "03" * R "07" * R "07" )
)
* "'" )
% \end{macrocode}
%
% \bigskip
% For the parameter of the types (for example : |`\a| as in |`a list|).
% \begin{macrocode}
local TypeParameter =
K ( 'TypeParameter' ,
"'" * Q"_" ^ -1 * alpha ^ 1 * ( # ( 1 - P "'" ) + -1 ) )
% \end{macrocode}
%
% \paragraph{The records}
%
% \begin{macrocode}
local expression_for_fields_type =
P { "E" ,
E = ( "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ TypeParameter
+ ( 1 - S "{}()[]\r;" ) ) ^ 0 ,
F = ( "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ ( 1 - S "{}()[]\r\"'" ) + TypeParameter ) ^ 0
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local expression_for_fields_value =
P { "E" ,
E = ( "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ "[" * V "F" * "]"
+ String + QuotedString + Char
+ ( 1 - S "{}()[]\r;" ) ) ^ 0 ,
F = ( "{" * V "F" * "}"
+ "(" * V "F" * ")"
+ "[" * V "F" * "]"
+ ( 1 - S "{}()[]\r\"'" )) ^ 0
}
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local OneFieldDefinition =
( K ( 'Keyword' , "mutable" ) * SkipSpace ) ^ -1
* K ( 'Name.Field' , identifier ) * SkipSpace
* Q ":" * SkipSpace
* K ( 'TypeExpression' , expression_for_fields_type )
* SkipSpace
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local OneField =
K ( 'Name.Field' , identifier ) * SkipSpace
* Q "=" * SkipSpace
* ( expression_for_fields_value / ParseAgain )
* SkipSpace
% \end{macrocode}
%
% \bigskip
% The \emph{records} may occur in the definitions of type (beginning by |type|)
% but also when used as values.
% \begin{macrocode}
local Record =
Q "{" * SkipSpace
*
(
OneFieldDefinition
* ( Q ";" * SkipSpace * ( Comment * SkipSpace ) ^ 0 * OneFieldDefinition ) ^ 0
+
OneField * ( Q ";" * SkipSpace * ( Comment * SkipSpace ) ^ 0 * OneField ) ^ 0
)
* SkipSpace
* Q ";" ^ -1
* SkipSpace
* Comment ^ -1
* SkipSpace
* Q "}"
% \end{macrocode}
%
% \paragraph{DotNotation}
%
% Now, we deal with the notations with points (eg: |List.length|). In OCaml,
% such notation is used for the fields of the records and for the modules.
% \begin{macrocode}
local DotNotation =
(
K ( 'Name.Module' , cap_identifier )
* Q "."
* ( Identifier + Constructor + Q "(" + Q "[" + Q "{" ) ^ -1
+
Identifier
* Q "."
* K ( 'Name.Field' , identifier )
)
* ( Q "." * K ( 'Name.Field' , identifier ) ) ^ 0
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Operator =
K ( 'Operator' ,
P "!=" + "<>" + "==" + "<<" + ">>" + "<=" + ">=" + ":=" + "||" + "&&" +
"//" + "**" + ";;" + "->" + "+." + "-." + "*." + "/."
+ S "-~+/*%=<>&@|" )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Builtin =
K ( 'Name.Builtin' , P "not" + "incr" + "decr" + "fst" + "snd" + "ref" )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Exception =
K ( 'Exception' ,
P "Division_by_zero" + "End_of_File" + "Failure" + "Invalid_argument" +
"Match_failure" + "Not_found" + "Out_of_memory" + "Stack_overflow" +
"Sys_blocked_io" + "Sys_error" + "Undefined_recursive_module" )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
LPEG_cleaner.ocaml = Compute_LPEG_cleaner ( 'ocaml' , braces )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Argument =
% \end{macrocode}
% For the labels of the labeled arguments. Maybe you will, in the future, create
% a style for those elements.
% \begin{macrocode}
( Q "~" * Identifier * Q ":" * SkipSpace ) ^ -1
*
( K ( 'Identifier.Internal' , identifier )
+ Q "(" * SkipSpace
* K ( 'Identifier.Internal' , identifier ) * SkipSpace
* Q ":" * SkipSpace
* K ( 'TypeExpression' , balanced_parens ) * SkipSpace
* Q ")"
)
% \end{macrocode}
%
% \bigskip
% Despite its name, then \textsc{lpeg} |DefFunction| deals also with |let open|
% which opens locally a module.
% \begin{macrocode}
local DefFunction =
K ( 'Keyword.Governing' , "let open" )
* Space
* K ( 'Name.Module' , cap_identifier )
+
K ( 'Keyword.Governing' , P "let rec" + "let" + "and" )
* Space
* K ( 'Name.Function.Internal' , identifier )
* Space
* (
Q "=" * SkipSpace * K ( 'Keyword' , "function" )
+
Argument
* ( SkipSpace * Argument ) ^ 0
* (
SkipSpace
* Q ":"
* K ( 'TypeExpression' , ( 1 - P "=" ) ^ 0 )
) ^ -1
)
% \end{macrocode}
%
% \paragraph{DefModule}
%
% \begin{macrocode}
local DefModule =
K ( 'Keyword.Governing' , "module" ) * Space
*
(
K ( 'Keyword.Governing' , "type" ) * Space
* K ( 'Name.Type' , cap_identifier )
+
K ( 'Name.Module' , cap_identifier ) * SkipSpace
*
(
Q "(" * SkipSpace
* K ( 'Name.Module' , cap_identifier ) * SkipSpace
* Q ":" * SkipSpace
* K ( 'Name.Type' , cap_identifier ) * SkipSpace
*
(
Q "," * SkipSpace
* K ( 'Name.Module' , cap_identifier ) * SkipSpace
* Q ":" * SkipSpace
* K ( 'Name.Type' , cap_identifier ) * SkipSpace
) ^ 0
* Q ")"
) ^ -1
*
(
Q "=" * SkipSpace
* K ( 'Name.Module' , cap_identifier ) * SkipSpace
* Q "("
* K ( 'Name.Module' , cap_identifier ) * SkipSpace
*
(
Q ","
*
K ( 'Name.Module' , cap_identifier ) * SkipSpace
) ^ 0
* Q ")"
) ^ -1
)
+
K ( 'Keyword.Governing' , P "include" + "open" )
* Space
* K ( 'Name.Module' , cap_identifier )
% \end{macrocode}
%
% \paragraph{DefType}
%
% \begin{macrocode}
local DefType =
K ( 'Keyword.Governing' , "type" )
* Space
* K ( 'TypeExpression' , Q ( 1 - P "=" ) ^ 1 )
* SkipSpace
* ( Q "+=" + Q "=" )
* SkipSpace
* (
Record
+
WithStyle
(
'TypeExpression' ,
(
( EOL + Q ( 1 - P ";;" - governing_keyword ) ) ^ 0
* ( # ( governing_keyword ) + Q ";;" )
)
)
)
% \end{macrocode}
%
% \bigskip
% \paragraph{The main LPEG for the language OCaml}
%
% \begin{macrocode}
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ Beamer
+ DetectedCommands
+ TypeParameter
+ String + QuotedString + Char
+ Comment
+ Operator
% \end{macrocode}
% For the labels (maybe we will write in the future a dedicated LPEG pour those tokens).
% \begin{macrocode}
+ Q "~" * Identifier * ( Q ":" ) ^ -1
+ Q ":" * # (1 - P ":") * SkipSpace
* K ( 'TypeExpression' , balanced_parens ) * SkipSpace * Q ")"
+ Exception
+ DefType
+ DefFunction
+ DefModule
+ Record
+ Keyword * EndKeyword
+ OperatorWord * EndKeyword
+ Builtin * EndKeyword
+ DotNotation
+ Constructor
+ Identifier
+ Punct
+ Delim
+ Number
+ Word
% \end{macrocode}
%
% \bigskip
% % Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.ocaml = Main ^ 0
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
LPEG2.ocaml =
Ct (
% \end{macrocode}
% The following lines are in order to allow, in |\piton| (and not in |{Piton}|),
% judgments of type (such as |f : my_type -> 'a list|) or single expressions of
% type such as |my_type -> 'a list| (in that case, the argument of |\piton|
% \emph{must} begin by a colon).
% \begin{macrocode}
( P ":" + Identifier * SkipSpace * Q ":" )
* SkipSpace
* K ( 'TypeExpression' , ( 1 - P "\r" ) ^ 0 )
+
( space ^ 0 * "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( ( space * Lc [[ \@@_trailing_space: ]] ) ^ 1 * -1
+ space ^ 0 * EOL
+ Main
) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
% \bigskip
% End of the Lua scope for the language OCaml.
% \begin{macrocode}
end
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{The language C}
%
% We open a Lua local scope for the language C (of course, there will be also
% global definitions).
% \begin{macrocode}
do
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local Delim = Q ( S "{[()]}" )
% \end{macrocode}
%
% \begin{macrocode}
local Punct = Q ( S ",:;!" )
% \end{macrocode}
%
% \bigskip
% Some strings of length 2 are explicit because we want the corresponding
% ligatures available in some fonts such as \emph{Fira Code} to be active.
% \begin{macrocode}
local identifier = letter * alphanum ^ 0
local Operator =
K ( 'Operator' ,
P "!=" + "==" + "<<" + ">>" + "<=" + ">=" + "||" + "&&"
+ S "-~+/*%=<>&.@|!" )
local Keyword =
K ( 'Keyword' ,
P "alignas" + "asm" + "auto" + "break" + "case" + "catch" + "class" +
"const" + "constexpr" + "continue" + "decltype" + "do" + "else" + "enum" +
"extern" + "for" + "goto" + "if" + "nexcept" + "private" + "public" +
"register" + "restricted" + "return" + "static" + "static_assert" +
"struct" + "switch" + "thread_local" + "throw" + "try" + "typedef" +
"union" + "using" + "virtual" + "volatile" + "while"
)
+ K ( 'Keyword.Constant' , P "default" + "false" + "NULL" + "nullptr" + "true" )
local Builtin =
K ( 'Name.Builtin' ,
P "alignof" + "malloc" + "printf" + "scanf" + "sizeof" )
local Type =
K ( 'Name.Type' ,
P "bool" + "char" + "char16_t" + "char32_t" + "double" + "float" + "int" +
"int8_t" + "int16_t" + "int32_t" + "int64_t" + "long" + "short" + "signed"
+ "unsigned" + "void" + "wchar_t" ) * Q "*" ^ 0
local DefFunction =
Type
* Space
* Q "*" ^ -1
* K ( 'Name.Function.Internal' , identifier )
* SkipSpace
* # P "("
% \end{macrocode}
% We remind that the marker |#| of \textsc{lpeg} specifies that the pattern will be
% detected but won't consume any character.
%
% \bigskip
% The following \textsc{lpeg} |DefClass| will be used to detect the definition of a
% new class (the name of that new class will be formatted with the \pkg{piton}
% style |Name.Class|).
%
% \smallskip
% Example:\enskip \piton{class myclass:}
% \begin{macrocode}
local DefClass =
K ( 'Keyword' , "class" ) * Space * K ( 'Name.Class' , identifier )
% \end{macrocode}
%
% If the word |class| is not followed by a identifier, it will be caught as
% keyword by the \textsc{lpeg} |Keyword| (useful if we want to type a
% list of keywords).
%
% \bigskip
% \paragraph{The strings of C}
%
% \begin{macrocode}
String =
WithStyle ( 'String.Long' ,
Q "\""
* ( SpaceInString
+ K ( 'String.Interpol' ,
"%" * ( S "difcspxXou" + "ld" + "li" + "hd" + "hi" )
)
+ Q ( ( P "\\\"" + 1 - S " \"" ) ^ 1 )
) ^ 0
* Q "\""
)
% \end{macrocode}
%
% \bigskip
% \paragraph{Beamer}
%
% \bigskip
% The argument of |Compute_braces| must be a pattern \emph{which does no
% catching} corresponding to the strings of the language.
% \begin{macrocode}
local braces = Compute_braces ( "\"" * ( 1 - S "\"" ) ^ 0 * "\"" )
if piton.beamer then Beamer = Compute_Beamer ( 'c' , braces ) end
% \end{macrocode}
%
% \begin{macrocode}
DetectedCommands = Compute_DetectedCommands ( 'c' , braces )
% \end{macrocode}
%
% \begin{macrocode}
LPEG_cleaner.c = Compute_LPEG_cleaner ( 'c' , braces )
% \end{macrocode}
%
% \bigskip
% \paragraph{The directives of the preprocessor}
%
% \begin{macrocode}
local Preproc = K ( 'Preproc' , "#" * ( 1 - P "\r" ) ^ 0 ) * ( EOL + -1 )
% \end{macrocode}
%
%
% \bigskip
% \paragraph{The comments in the C listings}
%
% We define different \textsc{lpeg} dealing with comments in the C listings.
% \begin{macrocode}
local Comment =
WithStyle ( 'Comment' ,
Q "//" * ( CommentMath + Q ( ( 1 - S "$\r" ) ^ 1 ) ) ^ 0 ) -- $
* ( EOL + -1 )
local LongComment =
WithStyle ( 'Comment' ,
Q "/*"
* ( CommentMath + Q ( ( 1 - P "*/" - S "$\r" ) ^ 1 ) + EOL ) ^ 0
* Q "*/"
) -- $
% \end{macrocode}
%
%
%
%
% \bigskip
% \paragraph{The main LPEG for the language C}
%
% \begin{macrocode}
local EndKeyword
= Space + Punct + Delim + EOL + Beamer + DetectedCommands + Escape +
EscapeMath + -1
% \end{macrocode}
%
% First, the main loop :
% \begin{macrocode}
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ Preproc
+ Comment + LongComment
+ Delim
+ Operator
+ String
+ Punct
+ DefFunction
+ DefClass
+ Type * ( Q "*" ^ -1 + EndKeyword )
+ Keyword * EndKeyword
+ Builtin * EndKeyword
+ Identifier
+ Number
+ Word
% \end{macrocode}
%
% \bigskip
% Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.c = Main ^ 0
% \end{macrocode}
%
% \bigskip
% We recall that each line in the C code to parse will be sent back to
% LaTeX between a pair |\@@_begin_line:| -- |\@@_end_line:|\footnote{Remember
% that the \texttt{\textbackslash @@\_end\_line:} must be explicit because it
% will be used as marker in order to delimit the argument of the command
% \texttt{\textbackslash @@\_begin\_line:}}.
% \begin{macrocode}
LPEG2.c =
Ct (
( space ^ 0 * P "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
% \bigskip
% End of the Lua scope for the language C.
% \begin{macrocode}
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{The language SQL}
%
% We open a Lua local scope for the language SQL (of course, there will be also
% global definitions).
% \begin{macrocode}
do
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local LuaKeyword
function LuaKeyword ( name ) return
Lc [[ {\PitonStyle{Keyword}{ ]]
* Q ( Cmt (
C ( letter * alphanum ^ 0 ) ,
function ( s , i , a ) return string.upper ( a ) == name end
)
)
* Lc "}}"
end
% \end{macrocode}
%
% \bigskip
% In the identifiers, we will be able to catch those contening spaces, that is
% to say like |"last name"|.
% \begin{macrocode}
local identifier =
letter * ( alphanum + "-" ) ^ 0
+ P '"' * ( ( 1 - P '"' ) ^ 1 ) * '"'
% \end{macrocode}
%
% \begin{macrocode}
local Operator =
K ( 'Operator' , P "=" + "!=" + "<>" + ">=" + ">" + "<=" + "<" + S "*+/" )
% \end{macrocode}
%
% In SQL, the keywords are case-insensitive. That's why we have a little
% complication. We will catch the keywords with the identifiers and, then,
% distinguish the keywords with a Lua function. However, some keywords will be
% caught in special LPEG because we want to detect the names of the SQL tables.
%
% \bigskip
% The following function converts a comma-separated list in a ``set'', that is
% to say a Lua table with a fast way to test whether a string belongs to that
% set (eventually, the indexation of the components of the table is no longer
% done by integers but by the strings themselves).
% \begin{macrocode}
local Set
function Set ( list )
local set = { }
for _ , l in ipairs ( list ) do set[l] = true end
return set
end
% \end{macrocode}
%
% \bigskip
% We now use the previsou function |Set| to creates the ``sets'' |set_keywords|
% and |set_builtin|.
% \begin{macrocode}
local set_keywords = Set
{
"ADD" , "AFTER" , "ALL" , "ALTER" , "AND" , "AS" , "ASC" , "BETWEEN" , "BY" ,
"CHANGE" , "COLUMN" , "CREATE" , "CROSS JOIN" , "DELETE" , "DESC" , "DISTINCT" ,
"DROP" , "EXCEPT" , "FROM" , "GROUP" , "HAVING" , "IN" , "INNER" ,
"INSERT" , "INTERSECT" , "INTO" , "IS" , "JOIN" , "LEFT" , "LIKE" , "LIMIT" ,
"MERGE" , "NOT" , "NULL" , "OFFSET" , "ON" , "OR" , "ORDER" , "OVER" ,
"RIGHT" , "SELECT" , "SET" , "TABLE" , "THEN" , "TRUNCATE" , "UNION" ,
"UPDATE" , "VALUES" , "WHEN" , "WHERE" , "WITH"
}
% \end{macrocode}
%
% \begin{macrocode}
local set_builtins = Set
{
"AVG" , "COUNT" , "CHAR_LENGHT" , "CONCAT" , "CURDATE" , "CURRENT_DATE" ,
"DATE_FORMAT" , "DAY" , "LOWER" , "LTRIM" , "MAX" , "MIN" , "MONTH" , "NOW" ,
"RANK" , "ROUND" , "RTRIM" , "SUBSTRING" , "SUM" , "UPPER" , "YEAR"
}
% \end{macrocode}
%
% The \textsc{lpeg} |Identifier| will catch the identifiers of the fields
% but also the keywords and the built-in functions of SQL. If will \emph{not}
% catch the names of the SQL tables.
% \begin{macrocode}
local Identifier =
C ( identifier ) /
(
function ( s )
if set_keywords[string.upper(s)] then return
% \end{macrocode}
% Remind that, in Lua, it's possible to return \emph{several} values.
% \begin{macrocode}
{ [[{\PitonStyle{Keyword}{]] } ,
{ luatexbase.catcodetables.other , s } ,
{ "}}" }
else
if set_builtins[string.upper(s)] then return
{ [[{\PitonStyle{Name.Builtin}{]] } ,
{ luatexbase.catcodetables.other , s } ,
{ "}}" }
else return
{ [[{\PitonStyle{Name.Field}{]] } ,
{ luatexbase.catcodetables.other , s } ,
{ "}}" }
end
end
end
)
% \end{macrocode}
%
% \bigskip
% \paragraph{The strings of SQL}
%
% \begin{macrocode}
local String = K ( 'String.Long' , "'" * ( 1 - P "'" ) ^ 1 * "'" )
% \end{macrocode}
%
% \bigskip
% \paragraph{Beamer}
%
% \bigskip
% The argument of |Compute_braces| must be a pattern \emph{which does no
% catching} corresponding to the strings of the language.
%
% \begin{macrocode}
local braces = Compute_braces ( "'" * ( 1 - P "'" ) ^ 1 * "'" )
if piton.beamer then Beamer = Compute_Beamer ( 'sql' , braces ) end
% \end{macrocode}
%
% \begin{macrocode}
DetectedCommands = Compute_DetectedCommands ( 'sql' , braces )
% \end{macrocode}
%
% \begin{macrocode}
LPEG_cleaner.sql = Compute_LPEG_cleaner ( 'sql' , braces )
% \end{macrocode}
%
%
%
% \bigskip
% \paragraph{The comments in the SQL listings}
%
% We define different \textsc{lpeg} dealing with comments in the SQL listings.
% \begin{macrocode}
local Comment =
WithStyle ( 'Comment' ,
Q "--" -- syntax of SQL92
* ( CommentMath + Q ( ( 1 - S "$\r" ) ^ 1 ) ) ^ 0 ) -- $
* ( EOL + -1 )
local LongComment =
WithStyle ( 'Comment' ,
Q "/*"
* ( CommentMath + Q ( ( 1 - P "*/" - S "$\r" ) ^ 1 ) + EOL ) ^ 0
* Q "*/"
) -- $
% \end{macrocode}
%
%
%
% \bigskip
% \paragraph{The main LPEG for the language SQL}
%
% \begin{macrocode}
local EndKeyword
= Space + Punct + Delim + EOL + Beamer + DetectedCommands + Escape +
EscapeMath + -1
% \end{macrocode}
%
% \begin{macrocode}
local TableField =
K ( 'Name.Table' , identifier )
* Q "."
* K ( 'Name.Field' , identifier )
local OneField =
(
Q ( "(" * ( 1 - P ")" ) ^ 0 * ")" )
+
K ( 'Name.Table' , identifier )
* Q "."
* K ( 'Name.Field' , identifier )
+
K ( 'Name.Field' , identifier )
)
* (
Space * LuaKeyword "AS" * Space * K ( 'Name.Field' , identifier )
) ^ -1
* ( Space * ( LuaKeyword "ASC" + LuaKeyword "DESC" ) ) ^ -1
local OneTable =
K ( 'Name.Table' , identifier )
* (
Space
* LuaKeyword "AS"
* Space
* K ( 'Name.Table' , identifier )
) ^ -1
local WeCatchTableNames =
LuaKeyword "FROM"
* ( Space + EOL )
* OneTable * ( SkipSpace * Q "," * SkipSpace * OneTable ) ^ 0
+ (
LuaKeyword "JOIN" + LuaKeyword "INTO" + LuaKeyword "UPDATE"
+ LuaKeyword "TABLE"
)
* ( Space + EOL ) * OneTable
% \end{macrocode}
%
% \begin{macrocode}
local EndKeyword
= Space + Punct + Delim + EOL + Beamer
+ DetectedCommands + Escape + EscapeMath + -1
% \end{macrocode}
%
%
% First, the main loop :
% \begin{macrocode}
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ Comment + LongComment
+ Delim
+ Operator
+ String
+ Punct
+ WeCatchTableNames
+ ( TableField + Identifier ) * ( Space + Operator + Punct + Delim + EOL + -1 )
+ Number
+ Word
% \end{macrocode}
%
% \bigskip
% Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.sql = Main ^ 0
% \end{macrocode}
%
% \bigskip
% We recall that each line in the code to parse will be sent back to
% LaTeX between a pair |\@@_begin_line:| -- |\@@_end_line:|\footnote{Remember
% that the \texttt{\textbackslash @@\_end\_line:} must be explicit because it
% will be used as marker in order to delimit the argument of the command
% \texttt{\textbackslash @@\_begin\_line:}}.
% \begin{macrocode}
LPEG2.sql =
Ct (
( space ^ 0 * "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
% \bigskip
% End of the Lua scope for the language SQL.
% \begin{macrocode}
end
% \end{macrocode}
%
% \subsubsection{The language ``Minimal''}
%
% We open a Lua local scope for the language ``Minimal'' (of course, there
% will be also global definitions).
% \begin{macrocode}
do
% \end{macrocode}
%
% \begin{macrocode}
local Punct = Q ( S ",:;!\\" )
local Comment =
WithStyle ( 'Comment' ,
Q "#"
* ( CommentMath + Q ( ( 1 - S "$\r" ) ^ 1 ) ) ^ 0 -- $
)
* ( EOL + -1 )
local String =
WithStyle ( 'String.Short' ,
Q "\""
* ( SpaceInString
+ Q ( ( P "\\\"" + 1 - S " \"" ) ^ 1 )
) ^ 0
* Q "\""
)
% \end{macrocode}
%
% \bigskip
% The argument of |Compute_braces| must be a pattern \emph{which does no
% catching} corresponding to the strings of the language.
% \begin{macrocode}
local braces = Compute_braces ( P "\"" * ( P "\\\"" + 1 - P "\"" ) ^ 1 * "\"" )
if piton.beamer then Beamer = Compute_Beamer ( 'minimal' , braces ) end
DetectedCommands = Compute_DetectedCommands ( 'minimal' , braces )
LPEG_cleaner.minimal = Compute_LPEG_cleaner ( 'minimal' , braces )
local identifier = letter * alphanum ^ 0
local Identifier = K ( 'Identifier.Internal' , identifier )
local Delim = Q ( S "{[()]}" )
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ Comment
+ Delim
+ String
+ Punct
+ Identifier
+ Number
+ Word
% \end{macrocode}
%
% \bigskip
% Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.minimal = Main ^ 0
LPEG2.minimal =
Ct (
( space ^ 0 * "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
%
% \bigskip
% End of the Lua scope for the language ``Minimal''.
% \begin{macrocode}
end
% \end{macrocode}
%
% \subsubsection{The language ``Verbatim''}
%
% We open a Lua local scope for the language ``Verbatim'' (of course, there
% will be also global definitions).
% \begin{macrocode}
do
% \end{macrocode}
% \bigskip
% Here, we don't use |braces| as done with the other languages because we don't
% have have to take into account the strings (there is no string in the langage
% ``Verbatim'').
% \begin{macrocode}
local braces =
P { "E" ,
E = ( "{" * V "E" * "}" + ( 1 - S "{}" ) ) ^ 0
}
if piton.beamer then Beamer = Compute_Beamer ( 'verbatim' , braces ) end
DetectedCommands = Compute_DetectedCommands ( 'verbatim' , braces )
LPEG_cleaner.verbatim = Compute_LPEG_cleaner ( 'verbatim' , braces )
% \end{macrocode}
%
% Now, you will construct the LPEG Word.
% \begin{macrocode}
local lpeg_central = 1 - S " \\\r"
if piton.begin_escape then
lpeg_central = lpeg_central - piton.begin_escape
end
if piton.begin_escape_math then
lpeg_central = lpeg_central - piton.begin_escape_math
end
local Word = Q ( lpeg_central ^ 1 )
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ Beamer
+ DetectedCommands
+ Q [[\]]
+ Word
% \end{macrocode}
%
% \bigskip
% Here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1.verbatim = Main ^ 0
LPEG2.verbatim =
Ct (
( space ^ 0 * "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
%
% \bigskip
% End of the Lua scope for the language ``|verbatim|''.
% \begin{macrocode}
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{The function Parse}
%
% \medskip
% The function |Parse| is the main function of the package \pkg{piton}. It
% parses its argument and sends back to LaTeX the code with interlaced
% formatting LaTeX instructions. In fact, everything is done by the
% \textsc{lpeg} corresponding to the considered language (|LPEG2[language]|)
% which returns as capture a Lua table containing data to send to LaTeX.
%
% \bigskip
% \begin{macrocode}
function piton.Parse ( language , code )
% \end{macrocode}
% The variable |piton.language| will be used by the function |ParseAgain|.
% \begin{macrocode}
piton.language = language
local t = LPEG2[language] : match ( code )
if t == nil then
sprintL3 [[ \@@_error_or_warning:n { SyntaxError } ]]
return -- to exit in force the function
end
local left_stack = {}
local right_stack = {}
for _ , one_item in ipairs ( t ) do
if one_item[1] == "EOL" then
for _ , s in ipairs ( right_stack ) do
tex.sprint ( s )
end
for _ , s in ipairs ( one_item[2] ) do
tex.tprint ( s )
end
for _ , s in ipairs ( left_stack ) do
tex.sprint ( s )
end
else
% \end{macrocode}
%
% Here is an example of an item beginning with |"Open"|.
%
% |{ "Open" , "\begin{uncover}<2>" , "\end{uncover}" }|
%
% In order to deal with the ends of lines, we have to close the environment
% (|{uncover}| in this example) at the end of each line and reopen it at the
% beginning of the new line. That's why we use two Lua stacks, called
% |left_stack| and |right_stack|. |left_stack| will be for the elements like
% |\begin{uncover}<2>| and |right_stack| will be for the elements like
% |\end{uncover}|.
% \begin{macrocode}
if one_item[1] == "Open" then
tex.sprint( one_item[2] )
table.insert ( left_stack , one_item[2] )
table.insert ( right_stack , one_item[3] )
else
if one_item[1] == "Close" then
tex.sprint ( right_stack[#right_stack] )
left_stack[#left_stack] = nil
right_stack[#right_stack] = nil
else
tex.tprint ( one_item )
end
end
end
end
end
% \end{macrocode}
%
%
%
% \bigskip
% The function |ParseFile| will be used by the LaTeX command |\PitonInputFile|.
% That function merely reads the file (between |first_line| and |last_line|) and
% then apply the function~|Parse| to the resulting Lua string.
% \begin{macrocode}
function piton.ParseFile
( lang , name , first_line , last_line , splittable , split )
local s = ''
local i = 0
% \end{macrocode}
% At the date of septembre 2024, LuaLaTeX uses Lua 5.3 and not 5.4. In the
% version 5.4, |io.lines| returns four values (and not just one) but the
% following code should be correct.
% \begin{macrocode}
for line in io.lines ( name ) do
i = i + 1
if i >= first_line then
s = s .. '\r' .. line
end
if i >= last_line then break end
end
% \end{macrocode}
% We extract the BOM of utf-8, if present.
% \begin{macrocode}
if string.byte ( s , 1 ) == 13 then
if string.byte ( s , 2 ) == 239 then
if string.byte ( s , 3 ) == 187 then
if string.byte ( s , 4 ) == 191 then
s = string.sub ( s , 5 , -1 )
end
end
end
end
if split == 1 then
piton.RetrieveGobbleSplitParse ( lang , 0 , splittable , s )
else
piton.RetrieveGobbleParse ( lang , 0 , splittable , s )
end
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
function piton.RetrieveGobbleParse ( lang , n , splittable , code )
local s
s = ( ( P " " ^ 0 * "\r" ) ^ -1 * C ( P ( 1 ) ^ 0 ) * -1 ) : match ( code )
piton.GobbleParse ( lang , n , splittable , s )
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{Two variants of the function Parse with integrated preprocessors}
%
% The following command will be used by the user command |\piton|.
% For that command, we have to undo the duplication of the symbols |#|.
% \begin{macrocode}
function piton.ParseBis ( lang , code )
local s = ( Cs ( ( P '##' / '#' + 1 ) ^ 0 ) ) : match ( code )
return piton.Parse ( lang , s )
end
% \end{macrocode}
%
% \bigskip
% The following command will be used when we have to parse some small chunks of
% code that have yet been parsed. They are re-scanned by LaTeX because it has
% been required by |\@@_piton:n| in the \pkg{piton} style of the syntaxic
% element. In that case, you have to remove the potential |\@@_breakable_space:|
% that have been inserted when the key |break-lines| is in force.
% \begin{macrocode}
function piton.ParseTer ( lang , code )
% \end{macrocode}
% Be careful: we have to write |[[\@@_breakable_space: ]]| with a space after
% the name of the LaTeX command |\@@_breakable_space:|.
% \begin{macrocode}
local s
s = ( Cs ( ( P [[\@@_breakable_space: ]] / ' ' + 1 ) ^ 0 ) )
: match ( code )
% \end{macrocode}
% Remember that |\@@_leading_space:| does not create a space, only an
% incrementation of the counter |\g_@@_indentation_int|. That's why we don't
% replace it by a space...
% \begin{macrocode}
s = ( Cs ( ( P [[\@@_leading_space: ]] / '' + 1 ) ^ 0 ) )
: match ( s )
return piton.Parse ( lang , s )
end
% \end{macrocode}
%
%
% \bigskip
% \subsubsection{Preprocessors of the function Parse for gobble}
%
% We deal now with preprocessors of the function |Parse| which are needed when
% the ``gobble mechanism'' is used.
%
%
% \bigskip
% The following \textsc{lpeg} returns as capture the minimal number of spaces at
% the beginning of the lines of code.
% \begin{macrocode}
local AutoGobbleLPEG =
( (
P " " ^ 0 * "\r"
+
Ct ( C " " ^ 0 ) / table.getn
* ( 1 - P " " ) * ( 1 - P "\r" ) ^ 0 * "\r"
) ^ 0
* ( Ct ( C " " ^ 0 ) / table.getn
* ( 1 - P " " ) * ( 1 - P "\r" ) ^ 0 ) ^ -1
) / math.min
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} is similar but works with the tabulations.
% \begin{macrocode}
local TabsAutoGobbleLPEG =
(
(
P "\t" ^ 0 * "\r"
+
Ct ( C "\t" ^ 0 ) / table.getn
* ( 1 - P "\t" ) * ( 1 - P "\r" ) ^ 0 * "\r"
) ^ 0
* ( Ct ( C "\t" ^ 0 ) / table.getn
* ( 1 - P "\t" ) * ( 1 - P "\r" ) ^ 0 ) ^ -1
) / math.min
% \end{macrocode}
%
% \bigskip
% The following \textsc{lpeg} returns as capture the number of spaces at the
% last line, that is to say before the |\end{Piton}| (and usually it's also the
% number of spaces before the corresponding |\begin{Piton}| because that's the
% traditional way to indent in LaTeX).
% \begin{macrocode}
local EnvGobbleLPEG =
( ( 1 - P "\r" ) ^ 0 * "\r" ) ^ 0
* Ct ( C " " ^ 0 * -1 ) / table.getn
% \end{macrocode}
%
% \begin{macrocode}
local remove_before_cr
function remove_before_cr ( input_string )
local match_result = ( P "\r" ) : match ( input_string )
if match_result then return
string.sub ( input_string , match_result )
else return
input_string
end
end
% \end{macrocode}
%
% \bigskip
% The function |gobble| gobbles $n$ characters on the left of the code. The
% negative values of $n$ have special significations.
% \begin{macrocode}
local gobble
function gobble ( n , code )
code = remove_before_cr ( code )
if n == 0 then return
code
else
if n == -1 then
n = AutoGobbleLPEG : match ( code )
else
if n == -2 then
n = EnvGobbleLPEG : match ( code )
else
if n == -3 then
n = TabsAutoGobbleLPEG : match ( code )
end
end
end
% \end{macrocode}
% We have a second test |if n == 0| because the, even if the key like
% |auto-gobble| is in force, it's possible that, in fact, there is no space to
% gobble...
% \begin{macrocode}
if n == 0 then return
code
else return
% \end{macrocode}
% We will now use a \textsc{lpeg} that we have to compute dynamically because it
% depends on the value of~$n$.
% \begin{macrocode}
( Ct (
( 1 - P "\r" ) ^ (-n) * C ( ( 1 - P "\r" ) ^ 0 )
* ( C "\r" * ( 1 - P "\r" ) ^ (-n) * C ( ( 1 - P "\r" ) ^ 0 )
) ^ 0 )
/ table.concat
) : match ( code )
end
end
end
% \end{macrocode}
%
%
% \bigskip
%
% \bigskip
% In the following code, |n| is the value of |\l_@@_gobble_int|.
%
% |splittable| is the value of |\l_@@_splittable_int|.
% \begin{macrocode}
function piton.GobbleParse ( lang , n , splittable , code )
piton.ComputeLinesStatus ( code , splittable )
piton.last_code = gobble ( n , code )
piton.last_language = lang
% \end{macrocode}
% We count the number of lines of the informatic code. The result will be stored
% by Lua in |\l_@@_nb_lines_int|.
% \begin{macrocode}
piton.CountLines ( piton.last_code )
sprintL3 [[ \bool_if:NT \g_@@_footnote_bool \savenotes ]]
piton.Parse ( lang , piton.last_code )
% \end{macrocode}
%
% \begin{macrocode}
sprintL3 [[ \vspace{2.5pt} ]]
sprintL3 [[ \bool_if:NT \g_@@_footnote_bool \endsavenotes ]]
% \end{macrocode}
% We finish the paragraph (each line of the listing is composed in a TeX box
% --- with potentially several lines when |break-lines-in-Piton| is in force ---
% put alone in a paragraph.
% \begin{macrocode}
sprintL3 [[ \par ]]
% \end{macrocode}
%
% Now, if the final user has used the key |write| to write the code of the
% environment on an external file.
% \begin{macrocode}
if piton.write and piton.write ~= '' then
local file = io.open ( piton.write , piton.write_mode )
if file then
file : write ( piton.get_last_code ( ) )
file : close ( )
else
sprintL3 [[ \@@_error_or_warning:n { FileError } ]]
end
end
end
% \end{macrocode}
%
% \bigskip
% The following function will be used when the key |split-on-empty-lines| is in
% force. With that key, the informatic code is split in chunks at the empty
% lines (usually between the informatic functions defined in the informatic
% code). LaTeX will be able to change the page between the chunks. The second
% argument |n| corresponds to the value of the key |gobble| (number of spaces to
% gobble).
% \begin{macrocode}
function piton.GobbleSplitParse ( lang , n , splittable , code )
local chunks
chunks =
(
Ct (
(
P " " ^ 0 * "\r"
+
C ( ( ( 1 - P "\r" ) ^ 1 * "\r" - ( P " " ^ 0 * "\r" ) ) ^ 1 )
) ^ 0
)
) : match ( gobble ( n , code ) )
sprintL3 [[ \begingroup ]]
sprintL3
(
[[ \PitonOptions { split-on-empty-lines = false, gobble = 0, ]]
.. "language = " .. lang .. ","
.. "splittable = " .. splittable .. "}"
)
for k , v in pairs ( chunks ) do
if k > 1 then
sprintL3 [[ \l_@@_split_separation_tl ]]
end
tex.sprint
(
[[\begin{]] .. piton.env_used_by_split .. "}\r"
.. v
.. [[\end{]] .. piton.env_used_by_split .. "}"
)
end
sprintL3 [[ \endgroup ]]
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
function piton.RetrieveGobbleSplitParse ( lang , n , splittable , code )
local s
s = ( ( P " " ^ 0 * "\r" ) ^ -1 * C ( P ( 1 ) ^ 0 ) * -1 ) : match ( code )
piton.GobbleSplitParse ( lang , n , splittable , s )
end
% \end{macrocode}
%
% \bigskip
% The following Lua string will be inserted between the chunks of code created
% when the key |split-on-empty-lines| is in force. It's used only once: you have
% given a name to that Lua string only for legibily. The token list
% |\l_@@_split_separation_tl| corresponds to the key |split-separation|. That
% token list must contain elements inserted in \emph{vertical mode} of TeX.
% \begin{macrocode}
piton.string_between_chunks =
[[ \par \l_@@_split_separation_tl \mode_leave_vertical: ]]
.. [[ \int_gzero:N \g_@@_line_int ]]
% \end{macrocode}
% The counter |\g_@@_line_int| will be used to control the points where the code
% may be broken by a change of page (see the key |splittable|).
%
% \bigskip
% The following public Lua function is provided to the developer.
% \begin{macrocode}
function piton.get_last_code ( )
return LPEG_cleaner[piton.last_language] : match ( piton.last_code )
end
% \end{macrocode}
%
%
% \bigskip
%
% \subsubsection{To count the number of lines}
%
% \begin{macrocode}
function piton.CountLines ( code )
local count = 0
count =
( Ct ( ( ( 1 - P "\r" ) ^ 0 * C "\r" ) ^ 0
* ( ( 1 - P "\r" ) ^ 1 * Cc "\r" ) ^ -1
* -1
) / table.getn
) : match ( code )
sprintL3 ( string.format ( [[ \int_set:Nn \l_@@_nb_lines_int { %i } ]] , count ) )
end
% \end{macrocode}
%
% \bigskip
% The following function is only used once (in |piton.GobbleParse|). We have
% written an autonomous function only for legibility. The number of lines of the
% code will be stored in |\l_@@_nb_non_empty_lines_int|. It will be used to
% compute the largest number of lines to write (when |line-numbers| is in force).
% \begin{macrocode}
function piton.CountNonEmptyLines ( code )
local count = 0
count =
( Ct ( ( P " " ^ 0 * "\r"
+ ( 1 - P "\r" ) ^ 0 * C "\r" ) ^ 0
* ( 1 - P "\r" ) ^ 0
* -1
) / table.getn
) : match ( code )
sprintL3
( string.format ( [[ \int_set:Nn \l_@@_nb_non_empty_lines_int { %i } ]] , count ) )
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
function piton.CountLinesFile ( name )
local count = 0
for line in io.lines ( name ) do count = count + 1 end
sprintL3
( string.format ( [[ \int_set:Nn \l_@@_nb_lines_int { %i } ]], count ) )
end
% \end{macrocode}
%
%
% \bigskip
% \begin{macrocode}
function piton.CountNonEmptyLinesFile ( name )
local count = 0
for line in io.lines ( name ) do
if not ( ( P " " ^ 0 * -1 ) : match ( line ) ) then
count = count + 1
end
end
sprintL3
( string.format ( [[ \int_set:Nn \l_@@_nb_non_empty_lines_int { % i } ]] , count ) )
end
% \end{macrocode}
%
%
% \bigskip
% The following function stores in |\l_@@_first_line_int| and
% |\l_@@_last_line_int| the numbers of lines of the file |file_name|
% corresponding to the strings |marker_beginning| and |marker_end|.
% \begin{macrocode}
function piton.ComputeRange(marker_beginning,marker_end,file_name)
local s = ( Cs ( ( P '##' / '#' + 1 ) ^ 0 ) ) : match ( marker_beginning )
local t = ( Cs ( ( P '##' / '#' + 1 ) ^ 0 ) ) : match ( marker_end )
local first_line = -1
local count = 0
local last_found = false
for line in io.lines ( file_name ) do
if first_line == -1 then
if string.sub ( line , 1 , #s ) == s then
first_line = count
end
else
if string.sub ( line , 1 , #t ) == t then
last_found = true
break
end
end
count = count + 1
end
if first_line == -1 then
sprintL3 [[ \@@_error_or_warning:n { begin~marker~not~found } ]]
else
if last_found == false then
sprintL3 [[ \@@_error_or_warning:n { end~marker~not~found } ]]
end
end
sprintL3 (
[[ \int_set:Nn \l_@@_first_line_int { ]] .. first_line .. ' + 2 }'
.. [[ \int_set:Nn \l_@@_last_line_int { ]] .. count .. ' }' )
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{To determine the empty lines of the listings}
%
% Despite its name, the Lua function |ComputeLinesStatus| computes
% |piton.lines_status| but also |piton.empty_lines|.
%
% \medskip
% In |piton.empty_lines|, a line will have the number 0 if it's a empty line (in
% fact a blank line, with only spaces) and 1 elsewhere.
%
% \medskip
% In |piton.lines_status|, each line will have a status with regard the
% breaking points allowed (for the changes of pages).
% \begin{itemize}
% \item 0 if the line is empty and a page break is allowed;
% \item 1 if the line is not empty but a page break is allowed after that line;
% \item 2 if a page break is \emph{not} allowed after that line (empty or not empty).
% \end{itemize}
%
% \medskip
% |splittable| is the value of |\l_@@_splittable_int|.
% However, if |splittable-on-empty-lines| is in force, |splittable| is the
% opposite of |\l_@@_splittable_int|.
% \begin{macrocode}
function piton.ComputeLinesStatus ( code , splittable )
% \end{macrocode}
% The lines in the listings which correspond to the beginning or the end of an
% environment of Beamer (eg. |\begin{uncoverenv}|) must be retrieved (those
% lines have \emph{no} number and therefore, \emph{no} status).
% \begin{macrocode}
local lpeg_line_beamer
if piton.beamer then
lpeg_line_beamer =
space ^ 0
* P [[\begin{]] * piton.BeamerEnvironments * "}"
* ( "<" * ( 1 - P ">" ) ^ 0 * ">" ) ^ -1
+
space ^ 0
* P [[\end{]] * piton.BeamerEnvironments * "}"
else
lpeg_line_beamer = P ( false )
end
% \end{macrocode}
% \begin{macrocode}
local lpeg_empty_lines =
Ct (
( lpeg_line_beamer * "\r"
+
P " " ^ 0 * "\r" * Cc ( 0 )
+
( 1 - P "\r" ) ^ 0 * "\r" * Cc ( 1 )
) ^ 0
*
( lpeg_line_beamer + ( 1 - P "\r" ) ^ 1 * Cc ( 1 ) ) ^ -1
)
* -1
% \end{macrocode}
% \begin{macrocode}
local lpeg_all_lines =
Ct (
( lpeg_line_beamer * "\r"
+
( 1 - P "\r" ) ^ 0 * "\r" * Cc ( 1 )
) ^ 0
*
( lpeg_line_beamer + ( 1 - P "\r" ) ^ 1 * Cc ( 1 ) ) ^ -1
)
* -1
% \end{macrocode}
% We begin with the computation of |piton.empty_lines|. It will be used in
% conjonction with |line-numbers|.
% \begin{macrocode}
piton.empty_lines = lpeg_empty_lines : match ( code )
% \end{macrocode}
%
% Now, we compute |piton.lines_status|. It will be used in conjonction with
% |splittable| and |splittable-on-empty-lines|.
%
% Now, we will take into account the current value of |\l_@@_splittable_int|
% (provided by the \emph{absolute value} of the argument |splittable|).
% \begin{macrocode}
local lines_status
local s = splittable
if splittable < 0 then s = - splittable end
% \end{macrocode}
%
% \begin{macrocode}
if splittable > 0 then
lines_status = lpeg_all_lines : match ( code )
else
% \end{macrocode}
% Here, we should try to copy |piton.empty_lines| but it's not easy.
% \begin{macrocode}
lines_status = lpeg_empty_lines : match ( code )
for i , x in ipairs ( lines_status ) do
if x == 0 then
for j = 1 , s - 1 do
if i + j > #lines_status then break end
if lines_status[i+j] == 0 then break end
lines_status[i+j] = 2
end
for j = 1 , s - 1 do
if i - j == 1 then break end
if lines_status[i-j-1] == 0 then break end
lines_status[i-j-1] = 2
end
end
end
end
% \end{macrocode}
%
% In all cases (whatever is the value of |splittable-on-empty-lines|) we have to
% deal with both extremities of the listing to format.
%
% First from the beginning of the code.
% \begin{macrocode}
for j = 1 , s - 1 do
if j > #lines_status then break end
if lines_status[j] == 0 then break end
lines_status[j] = 2
end
% \end{macrocode}
% Now, from the end of the code.
% \begin{macrocode}
for j = 1 , s - 1 do
if #lines_status - j == 0 then break end
if lines_status[#lines_status - j] == 0 then break end
lines_status[#lines_status - j] = 2
end
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
piton.lines_status = lines_status
end
% \end{macrocode}
%
% \bigskip
% \subsubsection{To create new languages with the syntax of listings}
%
% \begin{macrocode}
function piton.new_language ( lang , definition )
lang = string.lower ( lang )
% \end{macrocode}
%
% \bigskip
% \begin{macrocode}
local alpha , digit = lpeg.alpha , lpeg.digit
local extra_letters = { "@" , "_" , "$" } -- $
% \end{macrocode}
%
%
% \bigskip
% The command |add_to_letter| (triggered by the key ||) don't write right away
% in the \textsc{lpeg} pattern of the letters in an intermediate |extra_letters|
% because we may have to retrieve letters from that ``list'' if there appear in
% a key |alsoother|.
% \begin{macrocode}
function add_to_letter ( c )
if c ~= " " then table.insert ( extra_letters , c ) end
end
% \end{macrocode}
%
% For the digits, it's straitforward.
% \begin{macrocode}
function add_to_digit ( c )
if c ~= " " then digit = digit + c end
end
% \end{macrocode}
%
% \bigskip
% The main use of the key |alsoother| is, for the language LaTeX, when you have
% to retrieve some characters from the list of letters, in particular |@| and
% |_| (which, by default, are not allowed in the name of a control sequence in
% TeX).
%
% \medskip
% (In the following \textsc{lpeg} we have a problem when we try to add |{| and
% |}|).
% \begin{macrocode}
local other = S ":_@+-*/<>!?;.()[]~^=#&\"\'\\$" -- $
local extra_others = { }
% \end{macrocode}
%
% \begin{macrocode}
function add_to_other ( c )
if c ~= " " then
% \end{macrocode}
% We will use |extra_others| to retrieve further these characters from the list
% of the letters.
% \begin{macrocode}
extra_others[c] = true
% \end{macrocode}
% The \textsc{lpeg} pattern |other| will be used in conjunction with the key
% |tag| (mainly for the language \textsc{html}) for the character |/| in the
% closing tags |</....>|).
% \begin{macrocode}
other = other + P ( c )
end
end
% \end{macrocode}
%
%
% \bigskip
% Now, the first transformation of the definition of the language, as provided
% by the final user in the argument |definition| of |piton.new_language|.
% \begin{macrocode}
local def_table
if ( S ", " ^ 0 * -1 ) : match ( definition ) then
def_table = {}
else
local strict_braces =
P { "E" ,
E = ( "{" * V "F" * "}" + ( 1 - S ",{}" ) ) ^ 0 ,
F = ( "{" * V "F" * "}" + ( 1 - S "{}" ) ) ^ 0
}
local cut_definition =
P { "E" ,
E = Ct ( V "F" * ( "," * V "F" ) ^ 0 ) ,
F = Ct ( space ^ 0 * C ( alpha ^ 1 ) * space ^ 0
* ( "=" * space ^ 0 * C ( strict_braces ) ) ^ -1 )
}
def_table = cut_definition : match ( definition )
end
% \end{macrocode}
% The definition of the language, provided by the final user of \pkg{piton} is
% now in the Lua table |def_table|. We will use it \emph{several times}.
%
% \medskip
% The following \textsc{lpeg} will be used to extract arguments in the values of
% the keys (|morekeywords|, |morecomment|, |morestring|, etc.).
% \begin{macrocode}
local tex_braced_arg = "{" * C ( ( 1 - P "}" ) ^ 0 ) * "}"
local tex_arg = tex_braced_arg + C ( 1 )
local tex_option_arg = "[" * C ( ( 1 - P "]" ) ^ 0 ) * "]" + Cc ( nil )
% \end{macrocode}
%
% \begin{macrocode}
local args_for_tag
= tex_option_arg
* space ^ 0
* tex_arg
* space ^ 0
* tex_arg
% \end{macrocode}
%
% \begin{macrocode}
local args_for_morekeywords
= "[" * C ( ( 1 - P "]" ) ^ 0 ) * "]"
* space ^ 0
* tex_option_arg
* space ^ 0
* tex_arg
* space ^ 0
* ( tex_braced_arg + Cc ( nil ) )
% \end{macrocode}
%
% \begin{macrocode}
local args_for_moredelims
= ( C ( P "*" ^ -2 ) + Cc ( nil ) ) * space ^ 0
* args_for_morekeywords
% \end{macrocode}
%
% \begin{macrocode}
local args_for_morecomment
= "[" * C ( ( 1 - P "]" ) ^ 0 ) * "]"
* space ^ 0
* tex_option_arg
* space ^ 0
* C ( P ( 1 ) ^ 0 * -1 )
% \end{macrocode}
%
%
% \bigskip
% We scan the definition of the language (i.e. the table |def_table|) in order
% to detect the potential key |sensitive|. Indeed, we have to catch that key
% before the treatment of the keywords of the language. We will also look for
% the potential keys |alsodigit|, |alsoletter| and |tag|.
% \begin{macrocode}
local sensitive = true
local style_tag , left_tag , right_tag
for _ , x in ipairs ( def_table ) do
if x[1] == "sensitive" then
if x[2] == nil or ( P "true" ) : match ( x[2] ) then
sensitive = true
else
if ( P "false" + P "f" ) : match ( x[2] ) then sensitive = false end
end
end
if x[1] == "alsodigit" then x[2] : gsub ( "." , add_to_digit ) end
if x[1] == "alsoletter" then x[2] : gsub ( "." , add_to_letter ) end
if x[1] == "alsoother" then x[2] : gsub ( "." , add_to_other ) end
if x[1] == "tag" then
style_tag , left_tag , right_tag = args_for_tag : match ( x[2] )
style_tag = style_tag or [[\PitonStyle{Tag}]]
end
end
% \end{macrocode}
% Now, the \textsc{lpeg} for the numbers. Of course, it uses |digit| previously
% computed.
% \begin{macrocode}
local Number =
K ( 'Number' ,
( digit ^ 1 * "." * # ( 1 - P "." ) * digit ^ 0
+ digit ^ 0 * "." * digit ^ 1
+ digit ^ 1 )
* ( S "eE" * S "+-" ^ -1 * digit ^ 1 ) ^ -1
+ digit ^ 1
)
% \end{macrocode}
%
% \begin{macrocode}
local string_extra_letters = ""
for _ , x in ipairs ( extra_letters ) do
if not ( extra_others[x] ) then
string_extra_letters = string_extra_letters .. x
end
end
local letter = alpha + S ( string_extra_letters )
+ P "â" + "à" + "ç" + "é" + "è" + "ê" + "ë" + "ï" + "î"
+ "ô" + "û" + "ü" + "Â" + "À" + "Ç" + "É" + "È" + "Ê" + "Ë"
+ "Ï" + "Î" + "Ô" + "Û" + "Ü"
% \end{macrocode}
%
% \begin{macrocode}
local alphanum = letter + digit
local identifier = letter * alphanum ^ 0
local Identifier = K ( 'Identifier.Internal' , identifier )
% \end{macrocode}
%
%
% \bigskip
% Now, we scan the definition of the language (i.e. the table |def_table|) for
% the keywords.
%
%
% The following LPEG does \emph{not} catch the optional argument between square
% brackets in first position.
% \begin{macrocode}
local split_clist =
P { "E" ,
E = ( "[" * ( 1 - P "]" ) ^ 0 * "]" ) ^ -1
* ( P "{" ) ^ 1
* Ct ( V "F" * ( "," * V "F" ) ^ 0 )
* ( P "}" ) ^ 1 * space ^ 0 ,
F = space ^ 0 * C ( letter * alphanum ^ 0 + other ^ 1 ) * space ^ 0
}
% \end{macrocode}
% The following function will be used if the keywords are not case-sensitive.
% \begin{macrocode}
local keyword_to_lpeg
function keyword_to_lpeg ( name ) return
Q ( Cmt (
C ( identifier ) ,
function ( s , i , a ) return
string.upper ( a ) == string.upper ( name )
end
)
)
end
local Keyword = P ( false )
local PrefixedKeyword = P ( false )
% \end{macrocode}
% Now, we actually treat all the keywords and also the key |moredirectives|.
% \begin{macrocode}
for _ , x in ipairs ( def_table )
do if x[1] == "morekeywords"
or x[1] == "otherkeywords"
or x[1] == "moredirectives"
or x[1] == "moretexcs"
then
local keywords = P ( false )
% \end{macrocode}
% \begin{macrocode}
local style = [[\PitonStyle{Keyword}]]
if x[1] == "moredirectives" then style = [[\PitonStyle{Directive}]] end
style = tex_option_arg : match ( x[2] ) or style
local n = tonumber ( style )
if n then
if n > 1 then style = [[\PitonStyle{Keyword]] .. style .. "}" end
end
% \end{macrocode}
% \begin{macrocode}
for _ , word in ipairs ( split_clist : match ( x[2] ) ) do
if x[1] == "moretexcs" then
keywords = Q ( [[\]] .. word ) + keywords
else
if sensitive
% \end{macrocode}
% The documentation of \pkg{lstlistings} specifies that, for the key
% |morekeywords|, if a keyword is a prefix of another keyword, then the prefix
% must appear first. However, for the \text{lpeg}, it's rather the contrary.
% That's why, here, we add the new element \emph{on the left}.
% \begin{macrocode}
then keywords = Q ( word ) + keywords
else keywords = keyword_to_lpeg ( word ) + keywords
end
end
end
Keyword = Keyword +
Lc ( "{" .. style .. "{" ) * keywords * Lc "}}"
end
% \end{macrocode}
% Of course, the feature with the key |keywordsprefix| is designed for the
% languages TeX, LaTeX, et \emph{al}. In that case, there is two kinds of
% keywords (= control sequences).
% \begin{itemize}
% \item those beginning with |\| and a sequence of characters of catcode
% ``|letter|'';
% \item those beginning by |\| followed by one character of catcode ``|other|''.
% \end{itemize}
% The following code addresses both cases. Of course, the \textsc{lpeg} pattern
% |letter| must catch only characters of catcode ``|letter|''. That's why we
% have a key |alsoletter| to add new characters in that category (e.g. |:| when
% we want to format L3 code). However, the \textsc{lpeg} pattern is allowed to
% catch \emph{more} than only the characters of catcode ``other'' in TeX.
% \begin{macrocode}
if x[1] == "keywordsprefix" then
local prefix = ( ( C ( 1 - P " " ) ^ 1 ) * P " " ^ 0 ) : match ( x[2] )
PrefixedKeyword = PrefixedKeyword
+ K ( 'Keyword' , P ( prefix ) * ( letter ^ 1 + other ) )
end
end
% \end{macrocode}
%
%
% \bigskip
% Now, we scan the definition of the language (i.e. the table |def_table|) for
% the strings.
% \begin{macrocode}
local long_string = P ( false )
local Long_string = P ( false )
local LongString = P (false )
local central_pattern = P ( false )
for _ , x in ipairs ( def_table ) do
if x[1] == "morestring" then
arg1 , arg2 , arg3 , arg4 = args_for_morekeywords : match ( x[2] )
arg2 = arg2 or [[\PitonStyle{String.Long}]]
if arg1 ~= "s" then
arg4 = arg3
end
central_pattern = 1 - S ( " \r" .. arg4 )
if arg1 : match "b" then
central_pattern = P ( [[\]] .. arg3 ) + central_pattern
end
% \end{macrocode}
% In fact, the specifier |d| is point-less: when it is not in force, it's still
% possible to double the delimiter with a correct behaviour of \pkg{piton}
% since, in that case, \pkg{piton} will compose \emph{two} contiguous strings...
% \begin{macrocode}
if arg1 : match "d" or arg1 == "m" then
central_pattern = P ( arg3 .. arg3 ) + central_pattern
end
if arg1 == "m"
then prefix = B ( 1 - letter - ")" - "]" )
else prefix = P ( true )
end
% \end{macrocode}
% First, a pattern \emph{without captures} (needed to compute |braces|).
% \begin{macrocode}
long_string = long_string +
prefix
* arg3
* ( space + central_pattern ) ^ 0
* arg4
% \end{macrocode}
% Now a pattern \emph{with captures}.
% \begin{macrocode}
local pattern =
prefix
* Q ( arg3 )
* ( SpaceInString + Q ( central_pattern ^ 1 ) + EOL ) ^ 0
* Q ( arg4 )
% \end{macrocode}
% We will need |Long_string| in the nested comments.
% \begin{macrocode}
Long_string = Long_string + pattern
LongString = LongString +
Ct ( Cc "Open" * Cc ( "{" .. arg2 .. "{" ) * Cc "}}" )
* pattern
* Ct ( Cc "Close" )
end
end
% \end{macrocode}
% The argument of |Compute_braces| must be a pattern \emph{which does no
% catching} corresponding to the strings of the language.
% \begin{macrocode}
local braces = Compute_braces ( long_string )
if piton.beamer then Beamer = Compute_Beamer ( lang , braces ) end
DetectedCommands = Compute_DetectedCommands ( lang , braces )
LPEG_cleaner[lang] = Compute_LPEG_cleaner ( lang , braces )
% \end{macrocode}
%
% \bigskip
% Now, we deal with the comments and the delims.
% \begin{macrocode}
local CommentDelim = P ( false )
for _ , x in ipairs ( def_table ) do
if x[1] == "morecomment" then
local arg1 , arg2 , other_args = args_for_morecomment : match ( x[2] )
arg2 = arg2 or [[\PitonStyle{Comment}]]
% \end{macrocode}
% If the letter |i| is present in the first argument (eg:
% |morecomment = [si]{(*}{*)}|, then the corresponding comments are discarded.
% \begin{macrocode}
if arg1 : match "i" then arg2 = [[\PitonStyle{Discard}]] end
if arg1 : match "l" then
local arg3 = ( tex_braced_arg + C ( P ( 1 ) ^ 0 * -1 ) )
: match ( other_args )
if arg3 == [[\#]] then arg3 = "#" end -- mandatory
CommentDelim = CommentDelim +
Ct ( Cc "Open"
* Cc ( "{" .. arg2 .. "{" ) * Cc "}}" )
* Q ( arg3 )
* ( CommentMath + Q ( ( 1 - S "$\r" ) ^ 1 ) ) ^ 0 -- $
* Ct ( Cc "Close" )
* ( EOL + -1 )
else
local arg3 , arg4 =
( tex_arg * space ^ 0 * tex_arg ) : match ( other_args )
if arg1 : match "s" then
CommentDelim = CommentDelim +
Ct ( Cc "Open" * Cc ( "{" .. arg2 .. "{" ) * Cc "}}" )
* Q ( arg3 )
* (
CommentMath
+ Q ( ( 1 - P ( arg4 ) - S "$\r" ) ^ 1 ) -- $
+ EOL
) ^ 0
* Q ( arg4 )
* Ct ( Cc "Close" )
end
if arg1 : match "n" then
CommentDelim = CommentDelim +
Ct ( Cc "Open" * Cc ( "{" .. arg2 .. "{" ) * Cc "}}" )
* P { "A" ,
A = Q ( arg3 )
* ( V "A"
+ Q ( ( 1 - P ( arg3 ) - P ( arg4 )
- S "\r$\"" ) ^ 1 ) -- $
+ long_string
+ "$" -- $
* K ( 'Comment.Math' , ( 1 - S "$\r" ) ^ 1 ) --$
* "$" -- $
+ EOL
) ^ 0
* Q ( arg4 )
}
* Ct ( Cc "Close" )
end
end
end
% \end{macrocode}
% For the keys |moredelim|, we have to add another argument in first position,
% equal to |*| or |**|.
% \begin{macrocode}
if x[1] == "moredelim" then
local arg1 , arg2 , arg3 , arg4 , arg5
= args_for_moredelims : match ( x[2] )
local MyFun = Q
if arg1 == "*" or arg1 == "**" then
function MyFun ( x )
if x ~= '' then return
LPEG1[lang] : match ( x )
end
end
end
local left_delim
if arg2 : match "i" then
left_delim = P ( arg4 )
else
left_delim = Q ( arg4 )
end
if arg2 : match "l" then
CommentDelim = CommentDelim +
Ct ( Cc "Open" * Cc ( "{" .. arg3 .. "{" ) * Cc "}}" )
* left_delim
* ( MyFun ( ( 1 - P "\r" ) ^ 1 ) ) ^ 0
* Ct ( Cc "Close" )
* ( EOL + -1 )
end
if arg2 : match "s" then
local right_delim
if arg2 : match "i" then
right_delim = P ( arg5 )
else
right_delim = Q ( arg5 )
end
CommentDelim = CommentDelim +
Ct ( Cc "Open" * Cc ( "{" .. arg3 .. "{" ) * Cc "}}" )
* left_delim
* ( MyFun ( ( 1 - P ( arg5 ) - "\r" ) ^ 1 ) + EOL ) ^ 0
* right_delim
* Ct ( Cc "Close" )
end
end
end
local Delim = Q ( S "{[()]}" )
local Punct = Q ( S "=,:;!\\'\"" )
% \end{macrocode}
%
%
% \begin{macrocode}
local Main =
space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ CommentDelim
% \end{macrocode}
% We must put |LongString| before |Delim| because, in PostScript, the strings
% are delimited by parenthesis and those parenthesis would be caught by |Delim|.
% \begin{macrocode}
+ LongString
+ Delim
+ PrefixedKeyword
+ Keyword * ( -1 + # ( 1 - alphanum ) )
+ Punct
+ K ( 'Identifier.Internal' , letter * alphanum ^ 0 )
+ Number
+ Word
% \end{macrocode}
%
% The \textsc{lpeg} |LPEG1[lang]| is used to reformat small elements, for
% example the arguments of the ``detected commands''.
%
% Of course, here, we must not put |local|, of course.
% \begin{macrocode}
LPEG1[lang] = Main ^ 0
% \end{macrocode}
%
%
% The \textsc{lpeg} |LPEG2[lang]| is used to format general chunks of code.
% \begin{macrocode}
LPEG2[lang] =
Ct (
( space ^ 0 * P "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* ( space ^ 1 * -1 + space ^ 0 * EOL + Main ) ^ 0
* -1
* Lc [[ \@@_end_line: ]]
)
% \end{macrocode}
%
% If the key |tag| has been used. Of course, this feature is designed for the
% \textsc{html}.
% \begin{macrocode}
if left_tag then
local Tag = Ct ( Cc "Open" * Cc ( "{" .. style_tag .. "{" ) * Cc "}}" )
* Q ( left_tag * other ^ 0 ) -- $
* ( ( ( 1 - P ( right_tag ) ) ^ 0 )
/ ( function ( x ) return LPEG0[lang] : match ( x ) end ) )
* Q ( right_tag )
* Ct ( Cc "Close" )
MainWithoutTag
= space ^ 1 * -1
+ space ^ 0 * EOL
+ Space
+ Tab
+ Escape + EscapeMath
+ CommentLaTeX
+ Beamer
+ DetectedCommands
+ CommentDelim
+ Delim
+ LongString
+ PrefixedKeyword
+ Keyword * ( -1 + # ( 1 - alphanum ) )
+ Punct
+ K ( 'Identifier.Internal' , letter * alphanum ^ 0 )
+ Number
+ Word
LPEG0[lang] = MainWithoutTag ^ 0
local LPEGaux = Tab + Escape + EscapeMath + CommentLaTeX
+ Beamer + DetectedCommands + CommentDelim + Tag
MainWithTag
= space ^ 1 * -1
+ space ^ 0 * EOL
+ Space
+ LPEGaux
+ Q ( ( 1 - EOL - LPEGaux ) ^ 1 )
LPEG1[lang] = MainWithTag ^ 0
LPEG2[lang] =
Ct (
( space ^ 0 * P "\r" ) ^ -1
* BeamerBeginEnvironments
* Lc [[ \@@_begin_line: ]]
* SpaceIndentation ^ 0
* LPEG1[lang]
* -1
* Lc [[ \@@_end_line: ]]
)
end
end
%</LUA>
% \end{macrocode}
%
%
%
% \vspace{1cm}
% \section{History}
%
% The successive versions of the file |piton.sty| provided by TeXLive are available on the
% \textsc{svn} server of TeXLive:\par\nobreak
%
% \smallskip
% {
% \small
% \nolinkurl{https://tug.org/svn/texlive/trunk/Master/texmf-dist/tex/lualatex/piton/piton.sty}
% }
%
% \medskip
% The development of the extension \pkg{piton} is done on the following GitHub
% repository:
%
% \verb|https://github.com/fpantigny/piton|
%
% \subsection*{Changes between versions 4.0 and 4.1}
%
% New language |verbatim|.
%
% New key |break-strings-anywhere|.
%
% \subsection*{Changes between versions 3.1 and 4.0}
%
% This version introduces an incompatibility: the syntax for the relative and
% absolute paths in |\PitonInputFile| and the key |path| has been changed to be
% conform to usual conventions. An temporary key |old-PitonInputFile|, available
% at load-time, has been added for backward compatibility.
%
% New keys |font-command|, |splittable-on-empty-lines| and |env-used-by-split|.
%
%
% \subsection*{Changes between versions 3.0 and 3.1}
%
% Keys |line-numbers/format|, |detected-beamer-commands| and
% |detected-beamer-environments|.
%
%
% \subsection*{Changes between versions 2.8 and 3.0}
%
% New command |\NewPitonLanguage|. Thanks to that command, it's now possible to
% define new informatic languages with the syntax used by \pkg{listings}.
% Therefore, it's possible to say that virtually all the informatic languages
% are now supported by \pkg{piton}.
%
% \subsection*{Changes between versions 2.7 and 2.8}
%
% The key |path| now accepts a \emph{list} of paths where the files to include
% will be searched.
%
% New commands |\PitonInputFileT|, |\PitonInputFileF| and |\PitonInputFileTF|.
%
% \subsection*{Changes between versions 2.6 and 2.7}
%
% New keys |split-on-empty-lines| and |split-separation|
%
% \subsection*{Changes between versions 2.5 and 2.6}
%
% API: |piton.last_code| and |\g_piton_last_code_tl| are provided.
%
% \subsection*{Changes between versions 2.4 and 2.5}
%
% New key |path-write|
%
% \subsection*{Changes between versions 2.3 and 2.4}
%
% The key |identifiers| of the command |\PitonOptions| is now deprecated and
% replaced by the new command |\SetPitonIdentifier|.
%
% A new special language called ``minimal'' has been added.
%
% New key |detected-commands|.
%
% \subsection*{Changes between versions 2.2 and 2.3}
%
% New key |detected-commands|
%
% The variable |\l_piton_language_str| is now public.
%
%
% New key |write|.
%
% \subsection*{Changes between versions 2.1 and 2.2}
%
% New key |path| for |\PitonOptions|.
%
% New language SQL.
%
% It's now possible to define styles locally to a given language (with the
% optional argument of |\SetPitonStyle|).
%
% \subsection*{Changes between versions 2.0 and 2.1}
%
% The key |line-numbers| has now subkeys |line-numbers/skip-empty-lines|,
% |line-numbers/label-empty-lines|, etc.
%
% The key |all-line-numbers| is deprecated: use
% |line-numbers/skip-empty-lines=false|.
%
% New system to import, with |\PitonInputFile|, only a part (of the file)
% delimited by textual markers.
%
% New keys |begin-escape|, |end-escape|, |begin-escape-math| and |end-escape-math|.
%
% The key |escape-inside| is deprecated: use |begin-escape| and |end-escape|.
%
%
%
% \tableofcontents
%
% \end{document}
%
%
% Local Variables:
% TeX-fold-mode: t
% TeX-fold-preserve-comments: nil
% flyspell-mode: nil
% fill-column: 80
% End:
|