\NeedsTeXFormat{LaTeX2e}[1994/06/01] \ProvidesPackage{pinoutikz}[1.0.1 Pinout diagram definitions] \RequirePackage{ifthen} \RequirePackage{lmodern} \RequirePackage{xstring} \RequirePackage{upquote} \RequirePackage{amsmath,amssymb} \RequirePackage{amsfonts} \RequirePackage{forarray} \RequirePackage{arrayjob} \RequirePackage{tikz} %% 'sans serif' option \DeclareOption{sans}{ \renewcommand{\familydefault}{\sfdefault} } %% 'roman' option \DeclareOption{roman}{ \renewcommand{\familydefault}{\rmdefault} } %% Global indentation option \newif\if@neverindent\@neverindentfalse \DeclareOption{neverindent}{ \@neverindenttrue } \ExecuteOptions{sans} \ProcessOptions\relax \def\pinoutikzname {pinouTikz} \def\pinoutikzversion {1.0.1} \def\pinoutikzdate {2019/11/23} %% Formatt a pin name \def\FormatPinLabel#1{ \pgfmathparse{0}\let\negstate\pgfmathresult \pgfmathparse{0}\let\index\pgfmathresult \ForEach{~}% {% \StrLen{\thislevelitem}[\itemlen]% \ifthenelse{\itemlen>0}{% \ifthenelse{\equal{\negstate}{1}}{$\overline{\thislevelitem}$}{\thislevelitem}% \pgfmathparse{\index+1}\let\index\pgfmathresult }{}% \pgfmathparse{!\negstate}\let\negstate\pgfmathresult% }% {#1} } %% PIN diagram with label decoding %% @param#1: options %% @param#2: offset %% @param#3: pin name %% @param#4: pin number \def\PIN[#1](#2)#3#4{ % decode label \begin{scope}[shift={(#2)}] \def\pinlabel{#3} \ifthenelse{\equal{#1}{right}}{% \draw (0.12,0) node[label=right:{\footnotesize \pinlabel},label=left:{\small \pgfmathprintnumber{#4}} ]{}; \draw (0,-.15) rectangle(0.12,0.15); }% {% \draw (0,0) node[label=left:{\footnotesize \pinlabel},label=right:{\small \pgfmathprintnumber{#4}} ]{}; \draw (0,-.15) rectangle(0.12,0.15); }% \end{scope} } %% PDIP package diagram %% @param#1: offset %% @param#2: number of pins (divisible by 2) %% @param#3: comma separated definitions list for every pin - every pin definition must be enclosed in quotation marks ("") \def\PDIP(#1)#2{% \begin{tikzpicture} \begin{scope}[shift={(0,0)}] \sffamily \textsf{% \def\pins{{#2}} \pgfmathparse{#1/2-1}\let\cntpinsl\pgfmathresult \pgfmathparse{#1/2}\let\cntstr\pgfmathresult \pgfmathparse{#1-1}\let\cntpinsr\pgfmathresult \pgfmathparse{\cntstr*.5}\let\height\pgfmathresult \draw[line width=1.5pt] (0.12,-0.5) rectangle (1.88,\height); \draw (0.80,\height) arc (180:360:2mm); %iterate through pin definitions \foreach \pinnum/\i in {#2}% {% \pgfmathparse{\pinnum-1}\let\pinidx\pgfmathresult \pgfmathparse{(\pinnum>0 && \pinnum<(\cntstr+1)) ? 0 : 1}\let\pinrange\pgfmathresult \ifthenelse{\equal{\pinrange}{0} } {% \pgfmathparse{(\cntpinsl-\pinidx)*0.5}\let\ypin\pgfmathresult \PIN[left](0,\ypin){\i}{\pinnum} }%else {% \pgfmathparse{(\pinidx-\cntstr)*0.5}\let\ypin\pgfmathresult \PIN[right](1.88,\ypin){\i}{\pinnum} } % \fi } } \end{scope} \end{tikzpicture} } %% \newlength{\pardefault} \setlength{\pardefault}{\parindent} \newcommand{\neverindent}{ \setlength{\parindent}{0pt} } \newcommand{\autoindent}{ \setlength{\parindent}{\pardefault} } \if@neverindent \neverindent \fi % ... \endinput