Core: add pre-commit and run it on all files

This commit is contained in:
Bertrand Benjamin 2022-08-21 09:12:40 +02:00
parent e119ea87f6
commit 0cc34422fe
32 changed files with 166 additions and 164 deletions

15
.pre-commit-config.yaml Normal file
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@ -0,0 +1,15 @@
# See https://pre-commit.com for more information
# See https://pre-commit.com/hooks.html for more hooks
---
repos:
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v3.2.0
hooks:
- id: trailing-whitespace
- id: end-of-file-fixer
- id: check-yaml
- id: check-added-large-files
- repo: https://github.com/rstcheck/rstcheck
rev: 'v6.1.0' # Use the sha / tag you want to point at
hooks:
- id: rstcheck

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@ -75,9 +75,9 @@ Les balises doivent être bien imbriquée. C'est à dire qu'il faut fermer la de
\begin{lstlisting}
<div>
Conversation
<p>
Bonjour
</p>
<p>
Bonjour
</p>
</div>
\end{lstlisting}
@ -86,10 +86,10 @@ Les balises doivent être bien imbriquée. C'est à dire qu'il faut fermer la de
\begin{lstlisting}
<div>
Conversation
<p>
Bonjour
<p>
Bonjour
</div>
</p>
</p>
\end{lstlisting}
\end{multicols}
@ -97,7 +97,7 @@ Les balises doivent être bien imbriquée. C'est à dire qu'il faut fermer la de
\subsection*{Validation}
Même si le rendu d'une page web peut sembler correcte, cela ne signifie pas que le code respecte les normes du HTML. En effet, les navigateurs sont en général très permissifs sur la qualité du code qui leur est fourni.
Même si le rendu d'une page web peut sembler correcte, cela ne signifie pas que le code respecte les normes du HTML. En effet, les navigateurs sont en général très permissifs sur la qualité du code qui leur est fourni.
Ces normes sont définis pas le W3C (World Wide Web Consortium). Cet organisme propose un validateur:
\begin{center}

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@ -1,4 +1,4 @@
% ---- HTML
% ---- HTML
\begin{exercise}[subtitle={Modifier une page HTML}, step={1}, origin={Ma tête}, topics={ Web HTML}, tags={ Web }]
\begin{enumerate}
\item Copier puis modifier le code de \texttt{page\_balises.html} pour qu'elle ressemble au document pdf à coté.
@ -14,7 +14,7 @@
\item liens 1 et 2
\item listes
\item images
\end{enumerate}
\end{enumerate}
\end{multicols}
\end{exercise}
@ -30,7 +30,7 @@
La page \texttt{page\_non\_valide.html} ne passe pas la validation W3C. À vous de la corriger pour que le rendu reste identique et qu'elle passe le test de validation.
\end{exercise}
% ---- CSS
% ---- CSS
\begin{exercise}[subtitle={Modifier une feuille de style CSS}, step={2}, origin={Ma tête}, topics={ Web CSS}, tags={ Web }]
\begin{enumerate}
\item Copier tous les fichiers du dossier \texttt{page\_CSS} puis modifier uniquement le fichier \texttt{style.css} pour que la page ressemble au rendu du pdf.

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@ -55,7 +55,7 @@
<footer>
<hr>
<p>Pied de page. Merci d'avoir lu</p>
<p>Pied de page. Merci d'avoir lu</p>
</footer>
</body>

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@ -56,7 +56,7 @@
<footer>
<hr>
<p>Pied de page. Merci d'avoir lu</p>
<p>Pied de page. Merci d'avoir lu</p>
</footer>
</body>

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@ -56,7 +56,7 @@
<footer>
<hr>
<p>Pied de page. Merci d'avoir lu</p>
<p>Pied de page. Merci d'avoir lu</p>
</footer>
</body>

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@ -56,7 +56,7 @@
<footer>
<hr>
<p>Pied de page. Merci d'avoir lu</p>
<p>Pied de page. Merci d'avoir lu</p>
</footer>
</body>

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@ -4,7 +4,7 @@ Divers
:date: 2022-08-21
:modified: 2022-08-21
:authors: Benjamin Bertrand
:tags:
:tags:
:category: 1ST
:summary: Four tout pour les 1ST

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@ -1,7 +1,7 @@
% Tableaux croisés
\begin{exercise}[subtitle={Ventes du moi de janvier}, step={1}, origin={Ma tête}, topics={ Croisement de deux variables }, tags={ Statistiques}, mode={\searchMode}]
Sur le document "vente du mois de janvier", on a recueillit les données de vente de plusieurs commerciaux d'une entreprise.
Sur le document "vente du mois de janvier", on a recueillit les données de vente de plusieurs commerciaux d'une entreprise.
\begin{multicols}{2}
\begin{enumerate}
\item Combien de ventes ont été réalisées par Trantow?
@ -23,7 +23,7 @@
\item Questions du type 1 et 2
\item Questions du type 3 et 4
\item Questions du type 5 à 7
\end{enumerate}
\end{enumerate}
\end{multicols}
Proposer un tableau qui permet de répondre aux questions 1 à 7 sans avoir à faire de calculs.
\end{exercise}
@ -194,9 +194,6 @@
\item Parmi les filles, quel est le pourcentage de diplômées d'un CAP?
\item Quelle est la proportion de garçons parmi les diplômés du DNB?
\end{enumerate}
\end{enumerate}
\end{enumerate}
\end{minipage}
\end{exercise}

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@ -11,22 +11,22 @@ Croisement de deux variables
Programme
=========
Contenus
Contenus
---------
- Tableau croisé deffectifs.
- Fréquence conditionnelle, fréquence marginale.
- Tableau croisé deffectifs.
- Fréquence conditionnelle, fréquence marginale.
Capacités attendues
Capacités attendues
--------------------
- Calculer des fréquences conditionnelles et des fréquences marginales.
- Compléter un tableau croisé par des raisonnements sur les effectifs ou en utilisant des fréquences conditionnelles.
- Calculer des fréquences conditionnelles et des fréquences marginales.
- Compléter un tableau croisé par des raisonnements sur les effectifs ou en utilisant des fréquences conditionnelles.
Commentaires
Commentaires
-------------
- Létude des fréquences conditionnelles permet un travail sur la langue française en considérant les formulations usuellement utilisées dans les médias.
- Létude des fréquences conditionnelles permet un travail sur la langue française en considérant les formulations usuellement utilisées dans les médias.
- Des variables catégorielles de natures diverses sont étudiées: nominale (profession, espèce, département de résidence…), ordinale (niveau détude, degré de satisfaction de la clientèle…) ou définies par des intervalles (classe dâge, temps de transport…).
- Les élèves travaillent avec des données réelles dans des domaines variés (sécurité routière, démographie, économie, agronomie…).
- Au moins un traitement statistique de fichier de données individuelles anonymes est proposé, issu par exemple du web (OpenData…).
@ -34,7 +34,7 @@ Commentaires
Situations algorithmiques
-------------------------
- À partir de deux listes représentant deux caractères d'individus, déterminer un sous-ensemble d'individus répondant à un critère (filtre, utilisation des ET, OU, NON).
- À partir de deux listes représentant deux caractères d'individus, déterminer un sous-ensemble d'individus répondant à un critère (filtre, utilisation des ET, OU, NON).
- Dresser le tableau croisé de deux variables catégorielles à partir du fichier des individus et calculer des fréquences conditionnelles ou marginales.
Progression
@ -57,5 +57,3 @@ On cherche à faire émerger la notion de tableau croisé. Pour cela on donne au
Étape 3: Fréquence conditionnelle et fréquence marginale
--------------------------------------------------------

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@ -23,8 +23,8 @@
Savoir-faire de la séquence
\begin{itemize}
\item Calculer, appliquer, exprimer une proportion sous différentes formes (décimale, fractionnaire, pourcentage)
\item Calculer des fréquences conditionnelles et des fréquences marginales.
\item Compléter un tableau croisé par des raisonnements sur les effectifs ou en utilisant des fréquences conditionnelles.
\item Calculer des fréquences conditionnelles et des fréquences marginales.
\item Compléter un tableau croisé par des raisonnements sur les effectifs ou en utilisant des fréquences conditionnelles.
\end{itemize}

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@ -34,4 +34,4 @@ rsync_cleUSB: clean
rsync -rtv -u $(COMMON_EXCLUDE) ../Productions\ Eleves/ /run/media/lafrite/$(CLEUSB)/Productions
.PHONY:
.PHONY:

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@ -4,7 +4,7 @@ Divers
:date: 2022-08-21
:modified: 2022-08-21
:authors: Benjamin Bertrand
:tags:
:tags:
:category: SNT
:summary: Four tout pour la SNT

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@ -10,4 +10,3 @@ source ~/.venv/enseignements/bin/activate
goroot(){
cd $ROOT
}

Binary file not shown.

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@ -50,7 +50,7 @@
},
year label/.style={
fill=white,text=darkgreen,font=\bfseries\Large
},
},
current year/.store in=\currentyear,
current year=2022,
next year/.store in=\nextyear,
@ -63,7 +63,7 @@
row 7/.style={darkgreen,node distance=.3ex},
column sep=1ex,%
draw=darkgreen,thick,rounded corners=5pt,%
append after command={
append after command={
\pgfextra{\edef\matrixname{\tikzlastnode}}
node [year label/.try, right=1ex of \matrixname.south west] {\nextyear}
node [year label/.try, right=1ex of \matrixname.north west] {\currentyear}
@ -86,7 +86,7 @@
},
year label/.style={
fill=white,text=darkgreen,font=\bfseries\Large
},
},
current year/.store in=\currentyear,
current year=2023,
]
@ -97,7 +97,7 @@
row 7/.style={darkgreen,node distance=.3ex},
column sep=1ex,%
draw=darkgreen,thick,rounded corners=5pt,%
append after command={
append after command={
\pgfextra{\edef\matrixname{\tikzlastnode}}
node [year label/.try, right=1ex of \matrixname.south west] {\currentyear}
node [year label/.try, right=1ex of \matrixname.north west] {\currentyear}

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@ -170,7 +170,7 @@
\begin{multicols}{2}
\begin{verbatim}
\begin{tikzpicture}[baseline=(current bounding box.south),
\begin{tikzpicture}[baseline=(current bounding box.south),
xscale=1, yscale=0.5]
\tkzInit[xmin=-5,xmax=5,xstep=1,
ymin=-5,ymax=5,ystep=1]
@ -182,7 +182,7 @@
\end{verbatim}
\columnbreak
\begin{tikzpicture}[baseline=(current bounding box.south),
\begin{tikzpicture}[baseline=(current bounding box.south),
xscale=1, yscale=0.5]
\tkzInit[xmin=-5,xmax=5,xstep=1,
ymin=-5,ymax=5,ystep=1]
@ -198,7 +198,7 @@ Quand on change la valeur de \verb+xstep+, il faut replacer \verb+x+ par \verb+\
\begin{multicols}{2}
\begin{verbatim}
\begin{tikzpicture}[baseline=(current bounding box.south),
\begin{tikzpicture}[baseline=(current bounding box.south),
xscale=0.5, yscale=0.4]
\tkzInit[xmin=-5,xmax=5,xstep=0.5,
ymin=-5,ymax=5,ystep=1]
@ -209,7 +209,7 @@ Quand on change la valeur de \verb+xstep+, il faut replacer \verb+x+ par \verb+\
\end{tikzpicture}
\end{verbatim}
\columnbreak
\begin{tikzpicture}[baseline=(current bounding box.south),
\begin{tikzpicture}[baseline=(current bounding box.south),
xscale=0.5, yscale=0.4]
\tkzInit[xmin=-5,xmax=5,xstep=0.5,
ymin=-5,ymax=5,ystep=1]
@ -257,4 +257,3 @@ Quand on change la valeur de \verb+xstep+, il faut replacer \verb+x+ par \verb+\
\end{document}

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@ -5,7 +5,7 @@
\usepackage{tikz}
\usepackage{pgfplots}
\pgfplotsset{compat = newest}
\usepgfplotslibrary{external}
\usepgfplotslibrary{external}
\RequirePackage{tkz-tab}
@ -35,7 +35,7 @@
% rectangle
\draw (5, 0) rectangle (6, 6);
\end{tikzpicture}
\section{Graphiques de fonctions}
@ -58,6 +58,6 @@
\begin{tikzpicture}
\begin{axis}[axis x line=bottom,axis y line = left]
\addplot[ybar,fill=blue,draw=blue,bar width=1cm] coordinates { (1,194) (2,213) (3,251)(4,233) (5,194)}; \end{axis}
\end{tikzpicture}
\end{tikzpicture}
\end{document}

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@ -67,4 +67,3 @@ export tribe=$tribe
export duration=$duration
envsubst < ./tools/skeleton/eval/exercises.tex > $sequence_path/exercises.tex
envsubst < ./tools/skeleton/eval/sujet.tex > $sequence_path/sujet.tex

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@ -113,4 +113,3 @@ for i in `ls $SKELETONPATH/$sequence_type`
do
envsubst < $SKELETONPATH/$sequence_type/$i > $sequence_path/$i
done

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@ -20,8 +20,7 @@ Le barème est donné à titre indicatif, il pourra être modifié.
\printcollection{banque}
\end{document}
%%% Local Variables:
%%% Local Variables:
%%% mode: latex
%%% TeX-master: "master"
%%% End:

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@ -73,7 +73,7 @@
% Les tableaux
\renewcommand{\arraystretch}{1.5}
\newcolumntype{C}[1]{>{\centering\arraybackslash }b{#1}}
\newcolumntype{C}[1]{>{\centering\arraybackslash }b{#1}}
% Figure qui se fondent dans le texte
\RequirePackage{wrapfig}
@ -86,4 +86,3 @@
\RequirePackage{enumitem}
\setlist[itemize,1]{label=$\bullet$}

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@ -1,7 +1,7 @@
\NeedsTeXFormat{LaTeX2e}
\ProvidesClass{classPres}
% Classe de base - Beamer
%\pdfminorversion=4
\LoadClassWithOptions{beamer}
@ -12,7 +12,7 @@
%\usefonttheme[onlymath]{serif}
% extensions
\RequirePackage{colorscheme}
\RequirePackage{base}
\geometry{left=10mm,right=10mm, top=0mm}

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@ -18,7 +18,7 @@
{€}{{\euro}}1 {£}{{\pounds}}1 {«}{{\guillemotleft}}1
{»}{{\guillemotright}}1 {ñ}{{\~n}}1 {Ñ}{{\~N}}1 {¿}{{?`}}1
}
\lstset{
\lstset{
backgroundcolor=\color{white}, % choose the background color; you must add \usepackage{color} or \usepackage{xcolor}; should come as last argument
%basicstyle=\tiny, % the size of the fonts that are used for the code
breakatwhitespace=false, % sets if automatic breaks should only happen at whitespace

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@ -1,5 +1,5 @@
\NeedsTeXFormat{LaTeX2e}
% Couleurs,
\RequirePackage{xcolor}

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@ -118,7 +118,7 @@
\GetExerciseProperty{subtitle}%
{{\PropertyValue}}%
\dotfill
%Auto-évaluation
%Auto-évaluation
\begin{tikzpicture}
\foreach \k in {0,1,...,4}{
\draw (\k*0.5, 0) node[draw, star, star points=5, star point ratio=0.5]{};
@ -141,11 +141,10 @@
\newcommand\infoMode{\faIcon{desktop}}
\newcommand\legendMode{%
\textbf{Légende:} \hfill
\textbf{Légende:} \hfill
\searchMode: pour découvrir quelque chose
\hfill
\groupMode: à faire en groupe
\hfill
\trainMode: pour s'entrainer
}

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@ -1,6 +1,6 @@
\NeedsTeXFormat{LaTeX2e}
% extensions
\RequirePackage{colorscheme}
\RequirePackage{lastpage}
@ -17,7 +17,7 @@
\newcommand{\duree}[1]{\renewcommand{\op@duree}{#1}}
\newcommand{\sujet}[1]{\renewcommand{\op@sujet}{Sujet #1}}
%% Redéfinition de maketitle
%% Redéfinition de maketitle
\renewcommand{\maketitle}{%
\noindent{\huge \color{title}\bfseries \@title}\par
\noindent{\color{line}\rule{\linewidth}{1ex}}\par
@ -32,7 +32,7 @@
\begin{center}
{\Huge \@title} \\
\vfill
{\Huge \op@tribe} \\
{\Huge \op@tribe} \\
\vfill
\fbox{

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@ -25,7 +25,7 @@
\qrcode{#2}
\end{minipage}
\begin{minipage}{0.8\linewidth}
\url{#2}
\url{#2}
\end{minipage}
}%

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@ -12,7 +12,7 @@
% version 2005/12/01 or later.
%
% This work has the LPPL maintenance status `maintained'.
%
%
% The Current Maintainer of this work is Anders O.F. Hendrickson.
%
% This work consists of the files qrcode.dtx and qrcode.ins
@ -34,7 +34,7 @@
\documentclass{ltxdoc}
\usepackage{hyperref}
\usepackage[nolinks]{qrcode}
\EnableCrossrefs
\EnableCrossrefs
\CodelineIndex
\OnlyDescription
\RecordChanges
@ -72,7 +72,7 @@
% \GetFileInfo{qrcode.sty}
%
% \DoNotIndex{\newcommand,\newenvironment,\def}
%
%
% \def\F{F}
%
% \title{The \textsf{qrcode} package: \\
@ -93,18 +93,18 @@
% Although QR codes can encode any information up to almost three kilobytes,
% their most common use is as physical hyperlinks: a mobile device scans
% a printed QR code, decodes a URL, and automatically points a browser to that location.
%
%
% It is natural to want to include QR codes in certain \LaTeX\ documents;
% for example, one may want to direct the reader of a printed page to
% for example, one may want to direct the reader of a printed page to
% related interactive content online.
% Before now, the only \LaTeX\ package for producing QR codes was the
% immensely flexible {\tt pst-barcode}. As that package relies on
% {\tt pstricks}, however, it can be difficult to integrate with
% immensely flexible {\tt pst-barcode}. As that package relies on
% {\tt pstricks}, however, it can be difficult to integrate with
% a pdf\LaTeX\ workflow,\footnote{%
% The {\tt auto-pst-pdf} or {\tt pstool} packages can make this possible
% by automatically running
% \LaTeX${}\rightarrow \tt dvips \rightarrow ps2pdf \rightarrow pdfcrop$
% for each barcode generated in {\tt pstricks},
% \LaTeX${}\rightarrow \tt dvips \rightarrow ps2pdf \rightarrow pdfcrop$
% for each barcode generated in {\tt pstricks},
% so long as the user is able and willing to enable {\tt\string\write18}
% in {\tt pdflatex} and install Perl.
% Judging by questions on {\tt tex.stackexchange.com} and {\tt latexcommunity.org},
@ -114,16 +114,16 @@
% and a pdf\LaTeX\ user may not want the extra overhead just to produce a QR code.
% If one wants to avoid {\tt pstricks}, a Lua\TeX\ solution was proposed at
% {\tt http://tex.stackexchange.com/questions/89649/},
% and a plain\TeX\ solution can be found at
% and a plain\TeX\ solution can be found at
% {\catcode`\~=12\tt http://ktiml.mff.cuni.cz/~maj/QRcode.TeX},
% but until now no \LaTeX\ package had been available that did not call on outside machinery.
%
% The {\tt qrcode} package, in contrast, implements the QR code algorithm using
%
% The {\tt qrcode} package, in contrast, implements the QR code algorithm using
% only \TeX\ and \LaTeX\ commands, so it should work with any \LaTeX\ workflow.
% Because it draws the squares constituting a QR code using the \TeX\ primitive
% Because it draws the squares constituting a QR code using the \TeX\ primitive
% |\rule|, there is no need to load any graphics package whatsoever.
% For a user who merely wants a QR code, this is the simplest solution.
%
%
% \section{Usage}\label{sect:usage}
%
%
@ -141,26 +141,26 @@
% The few exceptions to this are described in section \ref{sect:specialcharacters}.
%
% \subsection{Package Options}
%
%
% \DescribeMacro{nolinks}
% When the |hyperref| package is loaded,
% by default |\qrcode| assumes its argument is a URL
% and makes the QR code produced a hyperlink to that URL.
% This default behavior may be changed by invoking the |nolinks| package option.
% For example, most of the QR codes in this document are not in fact URLs,
% For example, most of the QR codes in this document are not in fact URLs,
% so this documentation was typeset with |\usepackage[nolinks]{qrcode}|.
% The |hyperlinks| option is an antonym to |nolinks| and is the default.
% These options have no effect if hyperref is not loaded.
%
%
% \DescribeMacro{draft}
% \DescribeMacro{final}
% Creating QR codes for short URLs takes relatively little time.\footnote{On
% this author's laptop, even a 60-character URL (version 4, level M) adds
% Creating QR codes for short URLs takes relatively little time.\footnote{On
% this author's laptop, even a 60-character URL (version 4, level M) adds
% only about 0.7 seconds of compilation time.}
% Because \TeX\ was designed for typesetting, not for extensive computations,
% however, if many small QR codes or a single large one are required,
% the time spent can be quite noticeable. To save compilation
% time while working on a large document, calling the |draft| option
% time while working on a large document, calling the |draft| option
% causes the package not to compute QR codes, but merely to insert placeholder
% symbols with no data. The |final| option is an antonym to |draft|
% and is the default.
@ -169,7 +169,7 @@
% {\qrcode[draft,version=15]{http://www.tug.org}}
% &
% \begin{minipage}{3in}
% \tt
% \tt
% |\documentclass{article}| \\
% |\usepackage[draft]{qrcode}| \\
% |\begin{document}| \\
@ -189,7 +189,7 @@
%
% \DescribeMacro{forget}
% There may be times when this is not desired; testing of this package is the chief
% example, but one might also have reason to believe that the {\tt .aux} file
% example, but one might also have reason to believe that the {\tt .aux} file
% contains bad data.
% Invoking the |forget| package option causes |\qrcode| to calculate
% every QR code anew, even if a QR code for that \meta{text to be encoded}, level,
@ -221,7 +221,7 @@
% \end{quote}
%
% \DescribeMacro{height}
% The |height=|\meta{dimen} key sets the printed height (and width) of the
% The |height=|\meta{dimen} key sets the printed height (and width) of the
% QR code. The default value is {\tt 2cm}.
% \begin{quote}
% \begin{tabular}{p{2in}p{2in}}
@ -229,11 +229,11 @@
% & |\qrcode{ABCD}| |\qrcode[height=1cm]{ABCD}|
% \end{tabular}
% \end{quote}
%
%
% \DescribeMacro{level}
% The QR code specification (ISO 18004:2006) includes four
% The QR code specification (ISO 18004:2006) includes four
% levels of encoding: Low, Medium, Quality, and High, in
% increasing order of error-correction capabaility.
% increasing order of error-correction capabaility.
% In general, for a given text a higher error-correction
% level requires more bits of information in the QR code.
% The key |level=|\meta{level specification}
@ -242,17 +242,17 @@
% the default is |M|.
% It may happen that the smallest QR code able to encode
% the specified text at the desired level
% is in fact large enough to provide a higher level of
% is in fact large enough to provide a higher level of
% error-correction. If so, {\tt qrcode} automatically upgrades to the higher
% error-correction level, and a message is printed in the log file.
%
%
% \DescribeMacro{version}
% QR codes range in size from $21\times 21$ modules (``version 1'')
% to $177\times 177$ modules (``version 40''), in steps of 4 modules.
% QR codes range in size from $21\times 21$ modules (``version 1'')
% to $177\times 177$ modules (``version 40''), in steps of 4 modules.
% The package automatically selects the smallest version large enough to encode
% the specified text at the desired error-correction level.
% Nevertheless, there might be occasions when a specific version is required;
% for example, perhaps a set of QR codes should have the same dimensions for
% for example, perhaps a set of QR codes should have the same dimensions for
% aesthetic reasons, even though some encode shorter texts than others.
% For this reason, the key |version=|\meta{version specification} allows the user
% to specify a minimum version number, from 1 through 40, for the QR code.
@ -264,7 +264,7 @@
% \begin{tabular}{p{5.2cm}p{3in}}
% \raggedright
% \qrcode{ABCD}
% \qrcode[version=5]{ABCD}
% \qrcode[version=5]{ABCD}
% \medskip \\
% \qrcode[version=10]{ABCD}
% \qrcode[version=20]{ABCD}
@ -279,27 +279,27 @@
% \end{tabular}
% \end{quote}
%
%
%
% \DescribeMacro{tight}
% \DescribeMacro{padding}
% The QR specification states that a QR code should be surrounded by white\-space
% of a width equal to that of four modules. In many applications, a document
% author is likely to provide sufficient spacing anyway (e.g., by placing the
% QR code in a {\tt center} environment, header, or |\marginpar|), so by
% default the |qrcode| package adds no spacing. If the option |padding| is
% author is likely to provide sufficient spacing anyway (e.g., by placing the
% QR code in a {\tt center} environment, header, or |\marginpar|), so by
% default the |qrcode| package adds no spacing. If the option |padding| is
% specified, however, the QR code will automatically be surrounded with 4 modules'
% worth of white\-space. The key |tight| is an antonym of |padding|; the default is |tight|.
%
%
% \DescribeMacro{link}
% \DescribeMacro{nolink}
% \DescribeMacro{\qrcode*}
% As described above, if the |hyperref| package is loaded,
% then the QR codes produced in a PDF document can be made
% into hyperlinks to their text. The default behavior
% then the QR codes produced in a PDF document can be made
% into hyperlinks to their text. The default behavior
% can be controlled with the options |nolinks| and |hyperlinks|,
% but this default can be overridden for individual QR codes by invoking
% the options |link| or |nolink|.
% Moreover, the starred version of the macro, |\qrcode*|, is a shorthand
% the options |link| or |nolink|.
% Moreover, the starred version of the macro, |\qrcode*|, is a shorthand
% equivalent to |\qrcode[nolink]|.
% \begin{quote}
% \begin{tabular}{p{5.2cm}p{3in}}
@ -307,7 +307,7 @@
% \qrset{link, height=1.5cm}
% \qrcode{http://www.ctan.org}
% \qrcode[nolink]{This is not a URL.}
% \qrcode*{Neither is this.}
% \qrcode*{Neither is this.}
% &
% \begin{minipage}{3in}
% |\qrset{link, height=1.5cm}| \\
@ -317,21 +317,21 @@
% \end{minipage}
% \end{tabular}
% \end{quote}
%
%
% \subsection{Special characters}\label{sect:specialcharacters}
% Many URLs can be processed by \TeX\ with no hiccups,
% but not infrequently a URL may contain the symbols |%|, |#|,
% |~|, |_|, and |&|. Moreover, QR codes need not just contain
% URL's, so a user may wish to encode text containing |^|, |$|, or spaces.
% The |qrcode| package offers two ways of coping with these special characters.
%
% First, the |\qrcode| command itself processes its \meta{text to be encoded}
%
% First, the |\qrcode| command itself processes its \meta{text to be encoded}
% in a limited verbatim mode. The following characters will be encoded into
% the QR code as typed:
% \begin{center}
% |#| |$| |&| |^| |_| |~| |%| {\tt\char32}
% \end{center}
% and line breaks as well.\footnote{Technically, when the input character
% and line breaks as well.\footnote{Technically, when the input character
% {\tt\char`\^\char`\^M} (CR, charcode 13) is encountered,
% the character {\tt\char`\^\char`\^J} (LF, charcode 10) is placed into the QR code.}
% Conspicuously absent from this list are |\|, |{|, and |}|.
@ -355,8 +355,8 @@
% \end{minipage}
% \end{tabular}
% \end{quote}
%
% As with all verbatim modes, however, because \TeX\ irrevocably sets catcodes
%
% As with all verbatim modes, however, because \TeX\ irrevocably sets catcodes
% when it first encounters characters, this will not work if the |\qrcode| macro
% is contained in another macro. If you call |\qrcode| inside an
% |\fbox| or a |\marginpar|, for example, and if your URL contains one of those
@ -370,11 +370,11 @@
% A line break may be obtained with |\?|.
% \begin{quote}
% \begin{tabular}{p{1.5cm}p{2in}}
% \fbox{\qrcode[height=1cm]{\#\$\&\^\_\~\?\%\ \\\{\}}}
% & |\fbox{qrcode[height=1cm]{\#\$\&\^\_\~\?\%\ \\\{\}}}|
% \fbox{\qrcode[height=1cm]{\#\$\&\^\_\~\?\%\ \\\{\}}}
% & |\fbox{qrcode[height=1cm]{\#\$\&\^\_\~\?\%\ \\\{\}}}|
% \end{tabular}
% \end{quote}
%
%
% \section{Limitations and Cautions}
%
% \begin{itemize}
@ -384,9 +384,9 @@
% \item The QR specification offers ways to string lengthy data across multiple
% QR codes. This package does not implement that possibility.
% \end{itemize}
%
%
% \StopEventually{}
%
%
% \section{Implementation}
% \subsection{Key handling and options}
% \begin{macrocode}
@ -466,7 +466,7 @@
\ifx\qr@testi\qr@relax
%we are done.
\let\qr@next=\relax%
\else
\else
\advance\qr@a by 1%
\def\qr@next{\qr@stringlength@recursive(#2)}%
\fi
@ -483,7 +483,7 @@
% For example, |\qr@for \i=1 to 8 by 2 {\fbox{\number\i}}|
% produces {\makeatletter\qr@for \i=1 to 8 by 2 {\fbox{\number\i}}}.
% \begin{macrocode}
%The \qr@for@depth counter measures the depth of our loop.
%The \qr@for@depth counter measures the depth of our loop.
%The outermost loop has depth zero.
\newcount\qr@for@depth%
\newcount\qr@for@maxdepth%
@ -508,7 +508,7 @@
}%
\long\def\qr@for@int#1#2#3#4#5{%
\bgroup
%Because we're working within a TeX group,
%Because we're working within a TeX group,
%any values of \qr@for@start, \qr@for@end, and \qr@for@step from an outer loop
%will be restored after the \egroup.
%
@ -790,7 +790,7 @@
{\catcode`\_=12\relax\gdef\qr@otherunderscore{_}}%
{\catcode`\$=12\relax\gdef\qr@otherdollar{$}}%
%Line feeds require some special handling. \TeX\ reads a line feed in the input
%Line feeds require some special handling. \TeX\ reads a line feed in the input
%as |^^M| (carriage return, character code 13), but it should be encoded in a
%QR code as |^^J| (line feed, character code 10).
%To do this, we make |^^M| an active character and a synonym for a |^^J| with catcode 12.
@ -1003,7 +1003,7 @@
% to the (#5,#6) position of matrix #4.
\xa\xa\xa\global%
\xa\xa\xa\let\xa\xa\csname #4@#5@#6\endcsname%
\csname #1@#2@#3\endcsname%
\csname #1@#2@#3\endcsname%
}%
\def\qr@createduplicatematrix#1#2{%
@ -1078,7 +1078,7 @@
\stepcounter{qr@j}%
}%
\stepcounter{qr@i}%
}%
}%
}%
\newif\ifqr@incorner%
@ -1088,7 +1088,7 @@
%They begin in row 7, column 7,
%except that the ones in the NW, NE, and SW corners
%are omitted because of the finder patterns.
%Recall that
%Recall that
% * \qr@k stores k,
% * \qr@alignment@firstskip stores how far between the 1st and 2nd row/col, &
% * \qr@alignment@generalskip stores how far between each subsequent row/col.
@ -1341,7 +1341,7 @@
\newif\ifqr@cellinmask
\def\qr@setmaskingfunction#1{%
% #1 = 1 decimal digit for the mask. (I see no reason to use the 3-bit binary code.)
% #1 = 1 decimal digit for the mask. (I see no reason to use the 3-bit binary code.)
% The current position is (\themaski,\themaskj), with indexing starting at 0.
\edef\qr@maskselection{#1}%
\xa\ifcase\qr@maskselection\relax
@ -1472,7 +1472,7 @@
% but the LaTeX counters (maski,maskj) should contain
% the current position with indexing starting at 0.
% That is, maski = \i-1 and maskj = \j-1.
%
%
% \qr@parsemaskingfunction must have been set by a call to \qr@setmaskingfunction
\qr@parsemaskingfunction
\xa\ifnum\qr@maskfunctionresult=0\relax
@ -1623,7 +1623,7 @@
% LASTFIVE CODE FOR PENALTY 1
% First, add the new bit to the end.
\xa\g@addto@macro\xa\qr@lastfive\xa{\qr@newbit}%
\ifnum\j<5\relax%
\ifnum\j<5\relax%
%Not yet on the 5th entry.
%Don't do any testing.
\else
@ -1691,7 +1691,7 @@
% LASTNINE CODE FOR PENALTY 3
% First, add the new bit to the end.
\xa\g@addto@macro\xa\qr@lastnine\xa{\qr@newbit}%
\ifnum\j<7\relax%
\ifnum\j<7\relax%
%Not yet on the 7th entry.
%Don't do any testing.
\else
@ -1768,7 +1768,7 @@
% LASTFIVE CODE FOR PENALTY 1
% First, add the new bit to the end.
\xa\g@addto@macro\xa\qr@lastfive\xa{\qr@newbit}%
\ifnum\i<5\relax%
\ifnum\i<5\relax%
%Not yet on the 5th entry.
%Don't do any testing.
\else
@ -1806,7 +1806,7 @@
% LASTNINE CODE FOR PENALTY 3
% First, add the new bit to the end.
\xa\g@addto@macro\xa\qr@lastnine\xa{\qr@newbit}%
\ifnum\i<7\relax%
\ifnum\i<7\relax%
%Not yet on the 7th entry.
%Don't do any testing.
\else
@ -2019,7 +2019,7 @@
% In two transposed regions, so we can write both at the same time.
% In the comments, we describe what happens in the lower-left region,
% not the upper-right.
%
%
%Set \qr@topline equal to n-10.
\qr@a=\qr@size\relax%
\advance\qr@a by -10\relax%
@ -2050,7 +2050,7 @@
\qr@next
}%
% \end{macrocode}
%
%
% \subsection{Encoding and error correction}
% \begin{macrocode}
\newcounter{qr@hexchars}%
@ -2221,7 +2221,7 @@
\xdef\qr@writefromblock@remainder{#1}%
}%
% \end{macrocode}
%
%
% \subsection{Encoding format and version information}
% \begin{macrocode}
\let\xa=\expandafter
@ -2257,7 +2257,7 @@
% #2 = g(x), of degree m
% Obtains a new polynomial h(x), congruent to f(x) modulo g(x),
% but of degree at most n-1.
%
%
% If leading coefficient of f(x) is 1, subtracts off g(x) * x^(n-m).
% If leading coefficient of f(x) is 0, strips off that leading zero.
%
@ -2388,14 +2388,14 @@
\edef\qr@Golayresult{\qr@versioninfo\qr@theremainder}%
}%
% \end{macrocode}
%
%
% \subsection{Error correction}
% The error-correction code is defined over $\F_{256}=GF(256)$,
% the finite field of order $256$.
% The QR specification encodes this field as $\F_2[X]/(X^8+X^4+X^3+X^2+1)$;
% in other words, each field element is an 8-bit binary string representing
% an integer between 0 and 255.
%
%
% We represent these 8-bit strings as two hexadecimal characters;
% for example, {\tt 5a} represents {\tt 01011010}.
% Because addition is done by xor-ing the bitstrings,
@ -2627,7 +2627,7 @@
\def\qr@testi{#1}%
\ifx\qr@testi\qr@relax
%we are done.
\else
\else
\stepcounter{qr@i}%
%\showthe\c@qr@i
\qr@stringlength@recursive(#3)%
@ -2665,7 +2665,7 @@
% #2 = g(x), of degree m
% Obtains a new polynomial h(x), congruent to f(x) modulo g(x),
% but of degree at most n-1.
%
%
% If leading coefficient of f(x) is 0, strips off that leading zero.
% If leading coefficient of f(x) is a, subtracts off a * g(x) * x^(n-m).
% N.B. we assume g is monic.
@ -2803,7 +2803,7 @@
\edef\FX@errorbytes{\qr@theremainder}%
}%
% \end{macrocode}
%
%
% \subsection{Version handling}
% \begin{macrocode}
\newif\ifqr@versionmodules
@ -2811,7 +2811,7 @@
\def\qr@level@char#1{%
\xa\ifcase#1
M\or L\or H\or Q\fi}%
\newif\ifqr@versiongoodenough
\def\qr@choose@best@version#1{%
% \qr@desiredversion = user-requested version
@ -2819,7 +2819,7 @@
\edef\qr@plaintext{#1}%
\qr@getstringlength{\qr@plaintext}%
%
%Run double loop over levels and versions, looking for
%Run double loop over levels and versions, looking for
%the smallest version that can contain our data,
%and then choosing the best error-correcting level at that version,
%subject to the level being at least as good as the user desires.
@ -2835,7 +2835,7 @@
{\edef\qr@version{\the\i}%
\global\qr@versiongoodenoughfalse
\qr@for \j=0 to 3 by 1%
{%First, we map {0,1,2,3} to {1,0,4,3}, so that we loop through {M,L,H,Q}
{%First, we map {0,1,2,3} to {1,0,4,3}, so that we loop through {M,L,H,Q}
%in order of increasing error-correction capabilities.
\qr@a = \j\relax
\divide \qr@a by 2\relax
@ -3034,8 +3034,8 @@
%
%
%
% Our \qr@totaldatacodewords bytes of data are broken up as evenly as possible
% into \qr@numblocks datablocks; some may be one byte longer than others.
% Our \qr@totaldatacodewords bytes of data are broken up as evenly as possible
% into \qr@numblocks datablocks; some may be one byte longer than others.
% We set \qr@shortblock@size to floor(\qr@totaldatacodewords / \qr@numblocks)
% and \qr@numlongblocks to mod(\qr@totaldatacodewords , \qr@numblocks).
\qr@a=\qr@totaldatacodewords\relax
@ -3333,7 +3333,7 @@
}%
\def\qrcode@int{%
\message{^^J^^J<QR code requested for "\qr@texttoencode" in version
\message{^^J^^J<QR code requested for "\qr@texttoencode" in version
\qr@desiredversion-\qr@level@char{\qr@desiredlevel}.>^^J}%
%First, choose the version and level.
%Recall that \qr@choose@best@version sets \qr@version and \qr@level.
@ -3346,7 +3346,7 @@
\let\qrcode@wrapper=\relax%
\fi%
%
%Next, check whether we have already encoded this text at this version
%Next, check whether we have already encoded this text at this version
%and level.
\qrcode@wrapper{%
\xa\ifx\csname qr@savedbinarymatrix@\qr@texttoencode @\qr@version @\qr@level\endcsname
@ -3373,7 +3373,7 @@
\qr@placedummyformatpatterns{newqr}%
\qr@placedummyversionpatterns{newqr}%
\ifqr@draft@mode
\message{<Inserting dummy QR code in draft mode for "\qr@texttoencode" in
\message{<Inserting dummy QR code in draft mode for "\qr@texttoencode" in
version \qr@version-\qr@level@char{\qr@level}.>^^J}%
\relax% Draft mode---don't load any data or do any work. Also don't save!
\def\qr@format@square{\qr@black}%
@ -3381,7 +3381,7 @@
\fboxsep=-\fboxrule%
\fbox{\qr@printmatrix{newqr}}%
\else
\message{<Calculating QR code for "\qr@texttoencode" in
\message{<Calculating QR code for "\qr@texttoencode" in
version \qr@version-\qr@level@char{\qr@level}.>^^J}%
\xa\qr@encode@binary\xa{\qr@texttoencode}%
\qr@splitcodetextintoblocks
@ -3408,7 +3408,7 @@
\qr@matrixtobinary{newqr}%
%
%Now save the binary version into TeX's memory for later use in this document.
\xa\xdef\csname qr@savedbinarymatrix@\qr@texttoencode @\qr@version @\qr@level\endcsname
\xa\xdef\csname qr@savedbinarymatrix@\qr@texttoencode @\qr@version @\qr@level\endcsname
{\qr@binarymatrix@result}%
\message{done.>^^J}%
%
@ -3429,7 +3429,7 @@
\xa\qr@printsavedbinarymatrix\xa{\csname qr@savedbinarymatrix@\qr@texttoencode @\qr@version @\qr@level\endcsname}%
%
% Now this still might need to be written to the aux file.
%
%
\xa\ifx\csname qr@savedflag@\qr@texttoencode @\qr@version @\qr@level\endcsname\@qr@TRUE
%Okay, this has already been written to aux file.
%Do nothing.
@ -3451,7 +3451,7 @@
\def\qr@white@fixed{0}%
\def\qr@black@format{1}%
\def\qr@white@format{0}%
%
%
\qr@for \i = 1 to \qr@size by 1%
{\qr@for \j = 1 to \qr@size by 1%
{\edef\qr@theentry{\qr@matrixentry{#1}{\the\i}{\the\j}}%

View File

@ -10,7 +10,7 @@
%% version 2005/12/01 or later.
%%
%% This work has the LPPL maintenance status `maintained'.
%%
%%
%% The Current Maintainer of this work is Anders O.F. Hendrickson.
%%
%% This work consists of the files qrcode.dtx and qrcode.ins

View File

@ -5,11 +5,11 @@
%% The original source files were:
%%
%% qrcode.dtx (with options: `package')
%%
%%
%% This is a generated file.
%%
%%
%% Copyright (C) 2015 by Anders Hendrickson <ahendric@cord.edu>
%%
%%
%% This work 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.
@ -17,7 +17,7 @@
%% 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.
%%
%%
\NeedsTeXFormat{LaTeX2e}[1999/12/01]
\ProvidesPackage{qrcode}
[2015/01/08 v1.51 QR code generation]

View File

@ -7,7 +7,7 @@
% Displaystyle
\newcommand{\ds}{\displaystyle}
% Ensembles
% Ensembles
\newcommand{\N}{\mathbb{N}}
\newcommand{\Z}{\mathbb{Z}}
%\newcommand{\D}{\mathbb{D}}
@ -19,7 +19,7 @@
% intervalles ouvert ouvert
\newcommand{\intOO}[2]{\left]{#1}\,{;}\,{#2}\right[}
% intervalles ouvert fermé
% intervalles ouvert fermé
\newcommand{\intOF}[2]{\left]{#1}\,{;}\,{#2}\right]}
% intervalles fermé ouvert
\newcommand{\intFO}[2]{\left[{#1}\,{;}\,{#2}\right[}
@ -32,7 +32,7 @@
\newcommand{\vect}[1]{\overrightarrow{#1}}
% Norme d'un vecteur
\newcommand{\norme}[1]{||\vect{#1}||}
% Produit scalaire
% Produit scalaire
\newcommand{\scal}[2]{\vect{#1} \cdot \vect{#2}}
\newcommand{\vectCoord}[2]{%
{\renewcommand{\arraystretch}{1}%
@ -43,7 +43,7 @@
% Les complexes
\def\Ouv{$\left(\text{O}~;~\vect{u},~\vect{v}\right)$}
\newcommand{\e}{\mathrm{\,e\,}}% le e de l'exponentielle
%\renewcommand{\i}{\mathrm{\,i\,}}% le i des complexes
%\renewcommand{\i}{\mathrm{\,i\,}}% le i des complexes
%% Proba
\newcommand{\coefBino}[2]{\vectCoord{#1}{#2}}
@ -315,4 +315,3 @@
units=cm,
scale=.1,
}