%% $Id: pst-bezier-doc.tex 104 2009-03-04 16:06:54Z herbert $ \documentclass[11pt,english,BCOR10mm,DIV12,bibliography=totoc,parskip=false,smallheadings headexclude,footexclude,oneside]{pst-doc} \usepackage[utf8]{inputenc} \usepackage{pst-barcode} \let\pstBarcodeFV\fileversion \lstset{pos=l,wide=false,language=PSTricks, morekeywords={multidipole,parallel},basicstyle=\footnotesize\ttfamily} % \def\bgImage{\begin{pspicture}(1in,1in) %\psbarcode{Herbert Voss Freie Universitaet Berlin}{rows=52 columns=52}{datamatrix} \end{pspicture}} \begin{document} \title{\texttt{pst-barcode}} \subtitle{A PSTricks package for drawing bar codes; v.\pstBarcodeFV} \author{Terry Burton \\Herbert Vo\ss} \docauthor{Herbert Vo\ss} \date{\today} \maketitle \tableofcontents \clearpage \iffalse \begin{abstract} \noindent The \LPack{pstricks} package provides (essentially) one macro for printing barcodes. The type of the code is defined by a parameter and passed to postscript. %\vfill\noindent %Thanks to: \\ % Jean-C\^ome Charpentier. \end{abstract} \fi \section{Introduction} The \LPack{pstricks} package provides (essentially) one macro for printing barcodes. The type of the code is defined by a parameter and passed to postscript. To install the package put the three files in a place, where \TeX{} will search for the files: \bigskip\noindent \begin{tabular}{@{} l l l @{}} \emph{name} & \emph{meaning}& \emph{target dir} \\\hline \verb+pst-barcode.tex+ & \LaTeX\ style file -- wrapper & \verb+$LOCALTEXMF/tex/generic/pstricks/+\\ \verb+pst-barcode.sty+ & \TeX\ file -- PS interface &\verb+$LOCALTEXMF/tex/latex/pstricks/+\\ \verb+pst-barcode.pro+ & PostScript file & \verb+$LOCALTEXMF/dvips/pstricks/+ \\ \verb+pst-barcode-doc.tex+ & documentation source & \verb+$LOCALTEXMF/doc/pstricks/+\\ \verb+pst-barcode-doc.bib+ & bibliography source & \verb+$LOCALTEXMF/doc/pstricks/+\\ \verb+pst-barcode-doc.pdf+ & documentation & \verb+$LOCALTEXMF/doc/pstricks/+ %$ \end{tabular} \bigskip There is only one macro \verb+\psbarcode+ with the usual PSTricks syntax \begin{BDef} \Lcs{psbarcode}\OptArgs\Largb{PS options}\Largb{barcode type} \end{BDef} Important is the fact, that the barcode is printed in a \TeX\ box of zero dimension. If you want to save some space in your text, use the \Lenv{pspicture} environment or the \Lcs{makebox} macro. \section{The options} \subsection{The \TeX\ options} \begin{tabular}{@{}lll@{}} \emph{name} & \emph{default} & \emph{remarks}\\\hline \Lkeyword{transx} & 0 & horizontal shift\\ \Lkeyword{transy} & 0 & vertical shift\\ \Lkeyword{scalex} & 1 & horizontal scaling\\ \Lkeyword{scaley} & 1 & vertical scaling\\ \Lkeyword{rotate} & 0 & rotating angle in degrees \end{tabular} \subsection{The PostScript options} \begin{tabularx}{\textwidth}{@{}llX@{}} \emph{name} & \emph{default} & \emph{remarks}\\\hline \Lps{height} & 1 & dimension is inch\\ \Lps{textsize} & 10 & dimension is pt\\ \Lps{textpos} & -2 & dimension is pt; it is the shift for additional code text\\ \Lps{inkspread} & 0.15 & dimension is pt\\ \Lps{showborder} & -- & - \\ \Lps{borderwidth} & 0.5 & dimension in pt \\ \Lps{borderleft} & 10 & dimension in pt\\ \Lps{borderright} & 10 & dimension in pt\\ \Lps{bordertop} & 1 & dimension in pt\\ \Lps{borderbottom} & 1 & dimension in pt\\ \Lps{borderwidth} & 0.5 & dimension in pt\\ \Lps{width} & -- & dimension in inch\\ % \Lps{font} & /Helvetica & must be a PostScript font\\ \Lps{includetext} & -- & enable human readable text \\ \Lps{includecheck} & -- & enable check digit \\ \Lps{includecheckintext} & -- & check digit visible in text\\ \Lps{parse} & -- & parse variable field für decimal values, like \^{}032 for space, and convert them to ASCII \end{tabularx} \subsection{Examples for the TeX options} \begin{LTXexample}[pos=t,preset=\centering] \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{includetext}{ean8} \end{pspicture} \begin{pspicture}(-2,-1.5)(0.5,0.2in) \psbarcode[rotate=180,linecolor=red]{12345678}{includetext guardwhitespace height=0.6}{ean8} \end{pspicture} \begin{pspicture}(3.5,1.2in) \psbarcode[scalex=1.5,scaley=0.5,transy=20]{12345678}{includetext inkspread=0.5}{ean8} \end{pspicture} \end{LTXexample} \newpage \subsection{Examples for the PostScript options} \begin{LTXexample}[pos=t,preset=\centering] \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{includetext guardwhitespace height=0.6}{ean8} \end{pspicture} \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{textsize=15 includetext guardwhitespace height=0.6}{ean8} \end{pspicture} \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{includetext inkspread=0.5}{ean8} \end{pspicture} \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{includetext textpos=0}{ean8} \end{pspicture} \end{LTXexample} \begin{LTXexample}[pos=t,preset=\centering] \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{includetext guardwhitespace}{ean8} \end{pspicture} \begin{pspicture}(3.5,1.2in) \psbarcode{12345678}{textsize=15 includetext guardwhitespace width=2}{ean8} \end{pspicture} \end{LTXexample} \section{Usage} By default the barcode has a width and a height of zero. Using the \Lcs{parbox} macro or the \Lenv{pspicture} environment can reserve the needed space for the barcode. The \Lcs{fbox} in the following examples is used only for demonstration. \xLps{code39} \begin{LTXexample}[width=.5\linewidth] foo \fbox{% \parbox[b][1in]{1.5in}{\psbarcode{241078}{includetext width=1.5 height=1}{code39}}} bar \end{LTXexample} \xLps{code39} \bigskip \begin{LTXexample}[width=.5\linewidth] foo \fbox{% \begin{pspicture}(0,-8pt)(1.5in,1in) \psbarcode{241078}{includetext width=1.5 height=1}{code39} \end{pspicture}} bar \end{LTXexample} \section{Possible barcodes} The following section shows the symbologies that are supported by the encoders, including the available features for each. This list may not be up-to-date. If it does not contain any of the formats or features that you require then check the project source code or try the support mailing list. \subsection{EAN-13} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 12 or 13 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\\hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \item[Notes] If just 12 digits are entered then the check digit is calculated automatically \end{description} \xLps{ean13} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(3,1.2in) \psbarcode[scalex=0.8,scaley=0.8]{9781860742712}{includetext guardwhitespace}{ean13} \end{pspicture} \end{LTXexample} \subsection{EAN-8} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 8 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \end{description} \xLps{ean8} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(-2,-1.2)(0,0.2in) \psbarcode[rotate=180,linecolor=red]{12345678}{includetext guardwhitespace height=0.6}{ean8} \end{pspicture} \end{LTXexample} \subsection{UPC-A} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 11 or 12 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \item[Notes] If just 11 digits are entered then the check digit is calculated automatically \end{description} \xLps{upca} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(3,1.2in) \psbarcode[transx=15pt,transy=10pt]{78858101497}{includetext}{upca} \qdisk(0,0){3pt}\rput[lb](5pt,-10pt){Origin} \end{pspicture} \end{LTXexample} \subsection{UPC-E} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 7 or 8 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \item[Notes] If just 7 digits are entered then the check digit is calculated automatically \end{description} \xLps{upce} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(1.5,1.2in) \psbarcode{0123456}{includetext}{upce} \end{pspicture} \end{LTXexample} \subsection{EAN-5} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 5 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \end{description} \xLps{ean5} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(2,1in) \psbarcode{90200}{includetext guardwhitespace}{ean5} \end{pspicture} \end{LTXexample} \subsection{EAN-2} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] 2 digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\\hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \end{description} \xLps{ean2} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(1,1in) \psbarcode{38}{includetext guardwhitespace}{ean2} \end{pspicture} \end{LTXexample} \subsection{onecode} \begin{description} \item[Characters] \verb+0123456789+ \item[Data] Variable \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\\hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \end{description} \xLps{onecode} \begin{LTXexample}[pos=t] \begin{pspicture}(0,-5mm)(2.5in,0.3in) \psbarcode{0123456709498765432101234567891}{includetext}{onecode} \end{pspicture} \end{LTXexample} \newpage \subsection{ISBN} An ISBN symbol is really an EAN-13 with a particular prefix, 978 for the older ISBN-10 format, and others for the new ISBN-13 format. \begin{description} \item[Characters] \verb+-0123456789+ \item[Data] 9 or 10 digits for ISBN-10 seperated appropriately with dashes \item[Data] 12 or 13 digits for ISBN-13 seperated appropriately with dashes \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \item[Notes] If just 9 (ISBN-10) or 12 (ISBN-13) digits are entered then the human readable, ISBN check digit is calculated automatically \end{description} \xLps{isbn} \smallskip \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(3,1in) \psbarcode{3-86541-114}{includetext guardwhitespace}{isbn} \end{pspicture} \end{LTXexample} \bigskip\enlargethispage{2ex} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(3,1in) \psbarcode{978-3-86541-114}{includetext guardwhitespace}{isbn} \end{pspicture} \end{LTXexample} \subsection{Code-39} \begin{description} \item[Characters] \verb+0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ-. $/+%*+ %$ \item[Data] Variable number of characters, digits and any of the symbols \texttt{-.\@ *\$/+\%}. \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includecheck} & Enable check digit\\ \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make check digit visible in text\\ \end{tabular} \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,1in) \psbarcode{CODE-39}{includecheck includetext}{code39} \end{pspicture} \end{LTXexample} \subsection{Code-128 and UCC/EAN-128} \begin{description} \item[Characters] \verb|!"#$%&'\(\)*+,-./0...9:;<=>?@A...Z[\\]^_`a...z|\verb+{|}~+ %$ \item[Data] Variable number of ASCII characters and special funtion symbols, starting with the approriate start character for the initial character set. UCC/EAN-128s must have a manditory \texttt{FNC 1} symbol immediately following the start character. \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make check digit visible in text\\ \end{tabular} \item[Notes] Any non-printable character can be entered via its escaped ordinal value, for example \texttt{\^{}070} for \texttt{ACK} and \texttt{\^{}102} for \texttt{FNC 1}. Since a caret symbol serves as an escape character it must be escaped as \texttt{\^{}062} if used in the data. The check character is always added automatically. \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,1in) \psbarcode{^104^102Count^0991234^101!}{includetext}{code128} \end{pspicture} \end{LTXexample} \subsection{Rationalized Codabar} \begin{description} \item[Characters] \verb!0123456789-$:/.+ABCD! %$ \item[Data] Variable number of digits and any of the symbols \texttt{-\$:/.+ABCD}. \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includecheck} & Enable check digit\\ \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make check digit visible in text\\ \end{tabular} \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(4,1in) \psbarcode{0123456789}{includetext}{rationalizedCodabar} \end{pspicture} \end{LTXexample} \newpage \subsection{Interleaved 2 of 5 and ITF-14} \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number of digits. An ITF-14 is 14 characters and does not have a check digit. \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includecheck} & Enable check digit\\ \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make check digit visible in text\\ \end{tabular} \item[Notes] The data may be automatically prefixed with 0 to make the data, including optional check digit, of even length. \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,0.7in) \psbarcode{05012345678900}{includecheck height=0.7}{interleaved2of5} \end{pspicture} \end{LTXexample} \subsection{Code 2 of 5} \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number of digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,1.2in) \psbarcode{0123456789}{includetext textpos=75 textfont=Helvetica textsize=16}{code2of5} \end{pspicture} \end{LTXexample} \subsection{Postnet} \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make the check digit visible in the text \end{tabular} \item[Notes] Check digit is always added automatically \end{description} \begin{LTXexample}[width=.6\linewidth] \begin{pspicture}(7,0.3in) \psbarcode{01234567}{includetext textpos=-10 textfont=Arial textsize=10}{postnet} \end{pspicture} \end{LTXexample} \subsection{Royal Mail} \begin{description} \item[Characters] \verb!ZUVWXY501234B6789AHCDEFGNIJKLMTOPQRS! \item[Data] Variable number digits and capital letters \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make the check digit visible in the text \end{tabular} \item[Notes] Check digit is always added automatically \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,0.5in) \psbarcode{LE28HS9Z}{includetext}{royalmail} \end{pspicture} \end{LTXexample} \subsection{Kix (Customer index) -- Dutch Mail} \begin{description} \item[Characters] \verb!ZUVWXY501234B6789AHCDEFGNIJKLMTOPQRS! \item[Data] Variable number digits and capital letters \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ % \texttt{includecheckintext} & Make the check digit visible in the text \end{tabular} \item[Notes] Check digit is always added automatically \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,0.3in) \psbarcode{1203AA12}{includetext}{kix} \end{pspicture} \end{LTXexample} \subsection{Australian postal service} \begin{description} \item[Characters] \verb!ZUVWXY501234B6789AHCDEFGNIJKLMTOPQRSabc...xyz! \item[Data] Variable number digits and letters \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make the check digit visible in the text \end{tabular} %\item[Notes] Check digit is always added automatically \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(5,0.3in) \psbarcode{1139549554}{includetext}{auspost} \end{pspicture} \end{LTXexample} \subsection{Japan post service} \begin{description} \item[Characters] \verb!ZUVWXY501234B6789AHCDEFGNIJKLMTOPQRSabc...xyz! \item[Data] Variable number digits and letters \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make the check digit visible in the text \end{tabular} %\item[Notes] Check digit is always added automatically \end{description} \begin{LTXexample}[pos=t] \begin{pspicture}(0,-5mm)(7,0.5in) \psbarcode{6540123789-A-K-Z}{includetext textxalign=center}{japanpost} \end{pspicture} \end{LTXexample} \subsection{onecode} %United States Postal Service, replaces POSTNET and PLANET symbols. %Each barcode can be 20, 25, 29, or 31 digits long, depending on the type of ZIP code present. Each digit has four possible states, so one digit represents numbers 0-3. \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number digits \iffalse \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\ \hline \texttt{includetext} & Enable human readable text\\ \end{tabular} \fi \end{description} \begin{LTXexample}[pos=t,preset=\centering] \begin{pspicture}(0,-5mm)(5,0.3in) \psbarcode{0123456709498765432101234567891}{includetext}{onecode} \end{pspicture} \end{LTXexample} \subsection{Symbol} The purpose of the symbol encoder is to store the definitions of miscellaneous barcode symbols such as the FIM symbols used by the US Postal Service on their reply mail. \begin{LTXexample}[width=.4\linewidth] \begin{pspicture}(1cm,1.5cm) \psbarcode{fima}{}{symbol} \end{pspicture} \end{LTXexample} \begin{LTXexample}[width=.4\linewidth] \begin{pspicture}(1cm,1.5cm) \psbarcode{fimb}{}{symbol} \end{pspicture} \end{LTXexample} \begin{LTXexample}[width=.4\linewidth] \begin{pspicture}(1cm,1.5cm) \psbarcode{fimc}{}{symbol} \end{pspicture} \end{LTXexample} \begin{LTXexample}[width=.4\linewidth] \begin{pspicture}(1cm,1.5cm) \psbarcode{fimd}{}{symbol} \end{pspicture} \end{LTXexample} \subsection{MSI} \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number digits \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\\hline \texttt{includecheck} & Enable check digit\\ \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make check digit visible in the text \end{tabular} \end{description} \begin{LTXexample}[width=.5\linewidth] \begin{pspicture}(6,1in) \psbarcode{0123456789}{includecheck includetext}{msi} \end{pspicture} \end{LTXexample} \subsection{Plessey} \begin{description} \item[Characters] \verb!01234B6789ABCDEF! \item[Data] Variable number of hexadecimal characters \item[Options]~\\ \begin{tabular}{l|l} Option & Feature\\\hline \texttt{includetext} & Enable human readable text\\ \texttt{includecheckintext} & Make the check digits visible in the text \end{tabular} \item[Notes] Check digits are always added automatically. \end{description} \begin{LTXexample}[pos=t,preset=\centering] \begin{pspicture}(0,-2mm)(12,1in) \psbarcode{0123456789ABCDEF}{includetext}{plessey} \end{pspicture} \end{LTXexample} \subsection{Reduced Space Symbology (RSS)} This is a family that includes RSS-14\textregistered, RSS Limited\textregistered, and RSS Expanded\textregistered{} (\url{http://www.gs1.org/productssolutions/barcodes/technical/rss.html}). RSS-14 and RSS Limited encode Global Trade Item Numbers (GTINs). RSS Expanded will encode any of the GS1 System identification numbers as well as all other Application Identifiers. RSS is used in the healthcare industry. \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number digits \end{description} \subsubsection{rss14} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(12,.3in) \psbarcode{(01)24012345678905}{format=truncated includetext height=0.3}{rss14} \end{pspicture} \end{LTXexample} \subsubsection{rsslimited} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(12,.3in) \psbarcode{(01)15012345678907}{height=0.3}{rsslimited} \end{pspicture} \end{LTXexample} \subsubsection{rssexpanded} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(12,.3in) \psbarcode{(10)12A}{height=0.3}{rssexpanded} \end{pspicture} \end{LTXexample} \subsection{Pharmacode} For a documentation see \url{http://www.laetus.com/laetus.php?request=file&id=69}. \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number digits \end{description} \begin{LTXexample}[width=.3\linewidth] \begin{pspicture}(12,.3in) \psbarcode{117480}{}{pharmacode} \end{pspicture} \end{LTXexample} \subsection{PDF417} For a documentation see \url{http://de.wikipedia.org/wiki/Strichcode#PDF417}. \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=2in,wide] \begin{pspicture}(2in,0.3in) \psbarcode{^453^178^121^239}{columns=2 rows=10}{pdf417} \end{pspicture} \end{LTXexample} \subsection{Data matrix} For a documentation see \url{http://de.wikipedia.org/wiki/Strichcode#DataMatrix}. It is used for the german post company DHL. \begin{description} \item[Characters] extended ASCII \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1in,wide] \begin{pspicture}(1in,1in) \psbarcode{Herbert Voss ^142^164^186}{rows=48 columns=48 parse}{datamatrix} \end{pspicture} \end{LTXexample} \subsection{2D Maxi code} For a documentation see \url{http://www.logicalconcepts.eu/wDeutsch/autoid/barcodetypen/index.html?navid=21}. MaxiCode is a fixed-sized two-dimensional symbology created by the United Parcel Service that is primarily used for freight sortation and tracking. It's symbols have modules arranged in a hexagonal grid around a circular finder pattern which can be read omnidirectionally. \begin{itemize} \item MaxiCode has five alphabets A, B, C, D and E, each containing 64 characters. \begin{itemize} \item Alphabet A contains mostly upper case letters, numbers and some common ASCII symbols. \item Alphabet B contains mostly lower case letters and common ASCII symbols. \item Alphabet C contains mostly upper case letters from the extended ASCII character set and less common ASCII symbols. \item Alphabet D contains mostly lower case letters from the extended ASCII character set and less common ASCII symbols. \item Alphabet E contains mostly the special ASCII characters and unprintable symbols. \end{itemize} \item Non-printable/typable characters can be entered as their escaped ordinal values, e.g. \textasciicircum 028 for FS and \textasciicircum 059 for [shift B], etc. \item The symbol always starts in alphabet A which is suitable for the most basic contents. \item You can switch the working alphabet within the data using the [latch B], [latch A], ... characters. \item You can temporarily shift to another alphabet for a varying number of characters using the [shift A], [2 shift A], [3 shift A], ... characters. \item You can remain in an alphabet to which you have shifted using the [lock in C], [lock in D], ... characters. \item There are also more advanced features for encoding for which a thorough reading of the specification is required as these cannot be described succinctly here. \end{itemize} The modes: \begin{itemize} \item Mode 0 - Obsolete. (Older printers will produce Mode 0 if the firmware is outdated. Mode 0 MaxiCodes can be visually determined by examining the two horizontal hexagons in the upper right-hand corner. They will be white if the Mode is 0. For all other modes, they are black.) \item Mode 2 - Used for Numeric postal codes. (Primary use is US domestic destinations.) \item Mode 3 - Used for Alphanumeric postal codes. (Primary use is Int'l destinations.) \item Mode 4 - Standard Error Correction. \item Mode 5 - Enhanced Error Correction. \item Mode 6 - Used for programming hardware devices. \end{itemize} %(^059^042^041^059^040^03001^02996152382802^029840^029001^0291Z00004951^029UPSN^02906X610^029159^0291234567^0291^0471^029^029Y^029634 %ALPHA DR^029PITTSBURGH^029PA^030^062^004^063) (mode 2 parse) maxicode barcode \begin{description} \item[Characters] \verb!@ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1in,wide] \begin{pspicture}(1in,1in) \expandafter\psbarcode{[\string\)>^03001^02996152382802^029840^029001^0291Z00004951^029UPSN^02906X610^029159^0291234567^0291/1^029^029Y^029634 ALPHA DR^029PITTSBURGH^029PA^029^004}{mode=2 parse}{maxicode} \end{pspicture} \end{LTXexample} \subsection{QR Code} A QR Code (Quick Response) is a 2 dimensional matrix code created by Japanese corporation Denso-Wave in 1994 (\url{http://de.wikipedia.org/wiki/QR_Code}). \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1in,wide] \begin{pspicture}(1in,1in) \psbarcode{http://www.dante.de}{}{qrcode} \end{pspicture} \end{LTXexample} \subsection{Aztec Code} Aztec Code is a 2 dimensional matrix style bar code symbology. Aztec Code was invented by Andrew Longacre (USA) in 1995 (\url{http://de.wikipedia.org/wiki/Aztec_Code}). \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1in,wide] \begin{pspicture}(1in,1in) \psbarcode{0123456789}% {format=compact layers=3}{azteccode} \end{pspicture} \end{LTXexample} %315 140 moveto (00100111001000000101001101111000010100111100101000000110) (format=compact layers=3) azteccode barcode %0 -10 rmoveto (Aztec Code) show \subsection{itf14} %Aztec Code is a 2 dimensional matrix style bar code symbology. %Aztec Code was invented by Andrew Longacre (USA) in 1995 %(\url{http://de.wikipedia.org/wiki/Aztec_Code}). \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1.5in,wide] \begin{pspicture}(1in,1in) \psbarcode{1001234567890}{showborder borderwidth=4 borderleft=15 borderright=15 height=0.5 includecheck includetext includecheckintext textyoffset=-10}{interleaved2of5} \end{pspicture} \end{LTXexample} \subsection{qrcode} %Aztec Code is a 2 dimensional matrix style bar code symbology. %Aztec Code was invented by Andrew Longacre (USA) in 1995 %(\url{http://de.wikipedia.org/wiki/Aztec_Code}). \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1.5in,wide] \begin{pspicture}(1in,1in) \psbarcode{http://www.dante.de}{eclevel=M}{qrcode} \end{pspicture} \end{LTXexample} %\psbarcode{000100000010000000001100010101100110000110000}{version=1 eclevel=M}{qrcode} \subsection{PDF417} %Aztec Code is a 2 dimensional matrix style bar code symbology. %Aztec Code was invented by Andrew Longacre (USA) in 1995 %(\url{http://de.wikipedia.org/wiki/Aztec_Code}). \begin{description} \item[Characters] \verb!0123456789! \item[Data] Variable number characters \end{description} \begin{LTXexample}[width=1.5in,wide] \begin{pspicture}(1in,1in) \psbarcode{^453^178^121^239}% {columns=2 rows=10}{pdf417} \end{pspicture} \end{LTXexample} \section{Code Commentary} This commentary assumes familiarity with the PostScript language\footnote{The PostScript Language Tutorial and Cookbook (a.k.a. the Blue Book), which is freely available online, serves as both a useful tutorial and reference manual to the language.}. The code is split cleanly into two types of procedure: \begin{description} \item[The encoders]{Each of these represents a barcode symbology\footnote{By symbology we mean an accepted standard for representation of data as a barcode}, e.g. EAN-13 or Code-128. It takes a string containing the barcode data and a string containing a list of options that modify the output of the encoder. It generates a structured representation of the barcode and its text for the symbology, including the calculation of check digits where necessary.} \item[The renderer]{This takes the output of an encoder and generates a visual representation of the barcode.} \end{description} This means that all barcodes can be generated simply in a similar manner: \begin{lstlisting} (78858101497) (includetext height=0.6) upca barcode (0123456789) (includecheck) interleaved2of5 barcode \end{lstlisting} \subsection{The Barcode Data Structure} \label{datastructure} The following table describes the structured representation of a barcode that is passed by an encoder to the renderer as a dictionary when the PostScript is executed. \begin{center} \begin{tabular}{l|c|p{6.5cm}} Element & Key & Value \\ \hline Space bar succession & \texttt{sbs} & String containing the integer widths, in points, of each bar and space, starting with the leftmost bar.\\ Bar height succession & \texttt{bhs} & Array containing the height of each bar in inches, starting with the leftmost bar.\\ Bar base succession & \texttt{bbs} & Array containing the offset of the base of each bar in inches, starting with the leftmost bar.\\ Human readable text & \texttt{txt} & Array of arrays that contain the character, position, height, font and scale factor (font size), in points, for each of the visible text characters. \end{tabular} \end{center} \subsection{An Encoder} The procedure labelled code2of5 is a simple example of an encoder, which we will now consider. Its purpose is to accept as input a string containing the barcode contents and a string containing a list of options, and to process these in a way that is specific to this encoder, and finally to output an instance of the dictionary-based data structure described in section \ref{datastructure} that represents the barcode contents in the Code 2 of 5 symbology. As with all of the encoders, the input string is assumed to be valid for the corresponding symbology, otherwise the behaviour is undefined. The variables that we use in this procedure are confined to local scope by declaring the procedure as follows: \begin{lstlisting} /code2of5 { 0 begin ... end } bind def /code2of5 load 0 1 dict put \end{lstlisting} We start by immediately reading the contents strings that are passed as arguments to this procedure by the user. \begin{lstlisting} /options exch def /barcode exch def \end{lstlisting} We initialise a few default variables. Those variables corresponding to options that can be enabled with the options argument are initially set to false. \begin{lstlisting} /includetext false def /textfont /Courier def /textsize 10 def /textpos -7 def /height 1 def \end{lstlisting} The options string is tokenised with each successive token defining either a name value pair which we instantiate or a lone variable that we define as true, allowing us to override the given default variables given above. \begin{lstlisting} options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop \end{lstlisting} Since any user given options create variables that are strings we need to convert them back to their intended types. \begin{lstlisting} /textfont textfont cvlit def /textsize textsize cvr def /textpos textpos cvr def /height height cvr def \end{lstlisting} We then create an array of string encodings for each of the available characters which we then declare in another string. This information can be derived from careful reading of the relevant specification, although this is often surprisingly difficult to obtain. \begin{lstlisting} /encs [ (1111313111) (3111111131) (1131111131) (3131111111) (1111311131) (3111311111) (1131311111) (1111113131) (3111113111) (1131113111) (313111) (311131) ] def /barchars (0123456789) def \end{lstlisting} We now store the length of the content string and calculate the total number of bars and spaces in the resulting barcode. We initialise a string of size dependant on this length into which we will build the space bar succession. Similarly, we create an array into which we will add the human readable text information. \begin{lstlisting} /barlen barcode length def /sbs barlen 10 mul 12 add string def /txt barlen array def \end{lstlisting} We now begin to populate the space bar succession by adding the encoding of the start character to the beginning. \begin{lstlisting} sbs 0 encs 10 get putinterval \end{lstlisting} We now enter the main loop which iterates over the content string from start to finish, looking up the encoding for each character, adding this to the space bar succession. It is important to understand how the encoding for a given character is derived. Firstly, given a character, we find its position in the string of all available characters. We then use this position to index the array of character encodings to obtain the encoding for the given character, which is added to the space/bar succession. Likewise, the character is added to the array of human readable text along with positioning and font information. \begin{lstlisting} 0 1 barlen 1 sub { /i exch def barcode i 1 getinterval barchars exch search pop length /indx exch def pop pop /enc encs indx get def sbs i 10 mul 6 add enc putinterval txt i [barcode i 1 getinterval i 14 mul 10 add -7 textfont textsize] put } for \end{lstlisting} The encoding for the end character is obtained and added to the end of the space bar succession. \begin{lstlisting} sbs barlen 10 mul 6 add encs 11 get putinterval \end{lstlisting} Finally we prepare to push a dictionary containing the space bar succession (and any additional information defined in section \ref{datastructure}) that will be passed to the renderer. \begin{lstlisting} /retval 1 dict def retval (sbs) sbs put retval (bhs) [sbs length 1 add 2 idiv {height} repeat] put retval (bbs) [sbs length 1 add 2 idiv {0} repeat] put includetext { retval (txt) txt put } if retval \end{lstlisting} \subsection{The Renderer} The procedure labelled barcode is known as the renderer, which we now consider. Its purpose is to accept as input an instance of the dictionary-based data structure described in section \ref{datastructure} that represents a barcode in some arbitrary symbology and produce a visual rendering of this at the current point. The variables that we use in this procedure are confined to local scope by declaring the procedure as follows: \begin{lstlisting} /barcode { 0 begin ... end } bind def /barcode load 0 1 dict put \end{lstlisting} We then immediately read the dictionary-based data structure which is passed as a single argument to this procedure by an encoder, from which we extract the space bar succession, bar height succession and bar base succession. \begin{lstlisting} /args exch def /sbs args (sbs) get def /bhs args (bhs) get def /bbs args (bbs) get def \end{lstlisting} We attempt to extract from the dictionary the array containing the information about human readable text. However, this may not exist in the dictionary in which case we create a default empty array. \begin{lstlisting} args (txt) known { /txt args (txt) get def } { /txt [] def } ifelse \end{lstlisting} We have extracted or derived all of the necessary information from the input, and now use the space bar succession, bar height succession and bar base succession in calculations that create a single array containing elements that give coordinates for each of the bars in the barcode. We start by creating a bars array that is half the length of the space bar succession. We build this by repeatedly adding array elements that contain the height, x-coordinate, y-coordinate and width of single bars. The height and y-coordinates are read from the bar height succession and the bar base succession, respectively, whilst the x-coordinate and the width are made from a calculation of the total indent, based on the space bar succession and a compensating factor that accounts for ink spread. \begin{lstlisting} /bars sbs length 1 add 2 idiv array def /x 0.00 def 0 1 sbs length 1 sub { /i exch def /d sbs i get 48 sub def i 2 mod 0 eq { /h bhs i 2 idiv get 72 mul def /c d 2 div x add def /y bbs i 2 idiv get 72 mul def /w d 0.15 sub def bars i 2 idiv [h c y w] put } if /x x d add def } for \end{lstlisting} Finally, we perform the actual rendering in two phases. Firstly we use the contents of the bars array that we just built to render each of the bars, and secondly we use the contents of the text array extracted from the input argument to render the text. We make an efficiency saving here by not performing loading and rescaling of a font if the scale factor for the font size is 0. The graphics state is preserved across calls to this procedure to prevent unexpected interference with the users environment. \begin{lstlisting} gsave bars { {} forall setlinewidth moveto 0 exch rlineto stroke } forall txt { {} forall dup 0 ne {exch findfont exch scalefont setfont} {pop pop} ifelse moveto show } forall grestore \end{lstlisting} \subsection{Notes Regarding Coding Style} PostScript programming veterans are encouraged to remember that the majority of people who read the code are likely to have little, if any, prior knowledge of the language. To encourage development, the code has been written with these goals in mind: \begin{itemize} \item[-]{That it be easy to use and to comprehend} \item[-]{That it be easy to modify and enhance} \end{itemize} To this end the following points should be observed for all new code submissions: \begin{itemize} \item[-]{New encoders should be based on the code of a similar existing encoder} \item[-]{Include comments where these clarify the operations involved, particular where something unexpected happens} \item[-]{Prefer simplicity to efficency and clarity to obfuscation, except where this will be a problem} \end{itemize} \subsection{Installing the Barcode Generation Capability into a Printer's Virtual Machine} Most genuine PostScript printers allow procedures to be defined such that they persist across different jobs through the use of the \texttt{exitserver} command. If your printer supports this then you will be able to print the main code containing the definitons of all the encoders and the renderer once, e.g. soon after the device is turned on, and later omit these definitons from each of the barcode documents that you print. To install the barcode generation capabilities into the virtual machine of a PostScript printer you need to uncomment a line near the top of the code so that it reads: \begin{lstlisting} serverdict begin 0 exitserver \end{lstlisting} Once this code is printed the procedural definitions for the encoders and the renderer will remain defined across all jobs until the device is reset either by power-cycling or with the following code: \begin{lstlisting} serverdict begin 0 exitserver systemdict /quit get exec \end{lstlisting} \section{List of all optional arguments for \texttt{pst-barcode}} \xkvview{family=pst-barcode,columns={key,type,default}} \bgroup \raggedright \nocite{*} \bibliographystyle{plain} \bibliography{\jobname} \egroup \printindex \end{document} \clearpage \section{Package code} \subsection{\texttt{pst-barcode.sty}} \lstinputlisting[xleftmargin=-1cm,xrightmargin=-1cm]{pst-barcode.sty} \subsection{\texttt{pst-barcode.tex}} \lstinputlisting[xleftmargin=-1cm,xrightmargin=-1cm]{pst-barcode.tex} %\subsection{\texttt{pst-barcode.pro}} %\lstinputlisting[language={},xleftmargin=-1.5cm,xrightmargin=-1.5cm]{pst-barcode.pro} \iffalse 30 500 moveto (CODE 39) (includecheck includetext) code39 barcode 0 -17 rmoveto (Code 39) show 390 200 moveto (THIS IS CODE 93) (includecheck includetext) code93 barcode 0 -17 rmoveto (Code 93) show 400 600 moveto (^104^102Abc^09912345678^101!) (includetext) code128 barcode 0 -17 rmoveto (Code 128) show 150 700 moveto (0123456789) (includecheck includetext) interleaved2of5 barcode 0 -17 rmoveto (Interleaved 2 of 5) show 215 300 moveto (24012345678905) (height=0.3 includetext) rss14 barcode 0 -17 rmoveto (RSS-14) show 220 550 moveto (00978186074271) (height=0.3 includetext) rsslimited barcode 0 -17 rmoveto (RSS Limited) show 220 500 moveto (000000010011001010100001000000010000) (height=0.3) rssexpanded barcode 0 -10 rmoveto (RSS Expanded) show 215 348 moveto (117480) (includetext) pharmacode barcode 0 -17 rmoveto (Pharmacode) show 30 300 moveto (01234567) (includetext includecheck) code2of5 barcode 0 -17 rmoveto (Code 2 of 5) show 165 600 moveto (0124589) (includetext includecheck barcolor=AA0000 textyoffset=-8 textcolor=008888 backgroundcolor=2020FF0F showborder bordercolor=0000FF) code11 barcode 0 -17 rmoveto (Code 11) show 30 400 moveto (A0123456789B) (includecheck includetext) rationalizedCodabar barcode 0 -17 rmoveto (Rationalized Codabar) show 430 700 moveto (977147396801) (includetext) ean13 barcode 0 -17 rmoveto (EAN-13) show 535 705.4 moveto (05) (includetext guardwhitespace) ean2 barcode 0 -17 rmoveto (EAN-2) show 30 700 moveto (01335583) (includetext guardwhitespace) ean8 barcode 0 -17 rmoveto (EAN-8) show 30 600 moveto (78858101497) (includetext) upca barcode 0 -17 rmoveto (UPC-A) show 320 700 moveto (0425261) (includetext) upce barcode 0 -17 rmoveto (UPC-E) show 405 400 moveto (978-1-86074-271) (includetext) isbn barcode 0 -17 rmoveto (ISBN) show 510 405.4 moveto (90200) (includetext) ean5 barcode 0 -17 rmoveto (EAN-5) show 240 455 moveto (012345) (includetext) postnet barcode 0 -17 rmoveto (Postnet) show 240 410 moveto (LE28HS9Z) (includetext) royalmail barcode 0 -17 rmoveto (Royal Mail) show 410 145 moveto (1231FZ13XHS) (includetext) kix barcode 0 -17 rmoveto (KIX) show 385 515 moveto (5956439111ABA 9) (includetext) auspost barcode 0 -17 rmoveto (AusPost) show 350 300 moveto (12345) (includecheck includetext) msi barcode 0 -17 rmoveto (MSI) show 30 200 moveto (123ABCD) (includetext) plessey barcode 0 -17 rmoveto (Plessey) show 47 135 moveto (1001234567890) (showborder borderwidth=4 borderleft=15 borderright=15 height=0.5 includecheck includetext includecheckintext textyoffset=-10) interleaved2of5 barcode -15 -20 rmoveto (ITF-14) show 485 300 moveto (^059^042^041^059^040^03001^02996152382802^029840^029001^0291Z00004951^029UPSN^02906X610^029159^0291234567^0291^0471^029^029Y^029634 ALPHA DR^029PITTSBURGH^029PA^030^062^004^063) (mode=2) maxicode barcode 0 -10 rmoveto (MaxiCode) show %300 600 moveto (^142^164^186) (rows=48 columns=48) datamatrix barcode %0 -10 rmoveto (Data Matrix) show \fi