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+% \iffalse meta-comment
+%
+% Copyright (C) 2005 by Scott Pakin <scott+bf@pakin.org>
+% ------------------------------------------------------
+%
+% This file may be distributed and/or modified under the
+% conditions of the LaTeX Project Public License, either version 1.3a
+% 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 1.3a or later is part of all distributions of LaTeX
+% version 2004/10/11 or later.
+%
+% \fi
+%
+% \iffalse
+%<*driver>
+\ProvidesFile{bytefield.dtx}
+%</driver>
+%<package>\NeedsTeXFormat{LaTeX2e}[1999/12/01]
+%<package>\ProvidesPackage{bytefield}
+%<*package>
+ [2005/07/31 v1.2a Network protocol diagrams]
+%</package>
+%
+%<*driver>
+\documentclass{ltxdoc}
+\usepackage{textcomp}
+\usepackage{bytefield}
+\IfFileExists{hyperref.sty}{%
+ \usepackage{color}
+ \usepackage{hyperref}
+ \definecolor{darkred}{rgb}{0.5,0,0}
+ \definecolor{darkgreen}{rgb}{0,0.3,0}
+ \definecolor{darkblue}{rgb}{0,0,0.5}
+ \definecolor{darkbrown}{rgb}{0.28,0.07,0.07}
+ \hypersetup{%
+ pdftitle={The bytefield package},
+ pdfauthor={Scott Pakin <scott+bf@pakin.org>},
+ pdfsubject={Protocol diagrams for LaTeX},
+ pdfkeywords={bits, bytes, bitfields, protocol diagrams, LaTeX, memory maps},
+ bookmarksopen=true,
+ colorlinks=true,
+ citecolor=darkblue,
+ urlcolor=darkgreen,
+ linkcolor=darkred,
+ menucolor=darkbrown}
+}
+\EnableCrossrefs
+\CodelineIndex
+\RecordChanges
+\setcounter{IndexColumns}{2}
+\begin{document}
+ \DocInput{bytefield.dtx}
+ \PrintChanges
+ \PrintIndex
+\end{document}
+%</driver>
+% \fi
+%
+% \CheckSum{599}
+%
+% \CharacterTable
+% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z
+% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z
+% Digits \0\1\2\3\4\5\6\7\8\9
+% Exclamation \! Double quote \" Hash (number) \#
+% Dollar \$ Percent \% Ampersand \&
+% Acute accent \' Left paren \( Right paren \)
+% Asterisk \* Plus \+ Comma \,
+% Minus \- Point \. Solidus \/
+% Colon \: Semicolon \; Less than \<
+% Equals \= Greater than \> Question mark \?
+% Commercial at \@ Left bracket \[ Backslash \\
+% Right bracket \] Circumflex \^ Underscore \_
+% Grave accent \` Left brace \{ Vertical bar \|
+% Right brace \} Tilde \~}
+%
+%
+% \changes{v1.0}{2000/07/02}{Initial version}
+% \changes{v1.1}{2002/09/14}{Restructured the \texttt{.dtx} file}
+%
+% \GetFileInfo{bytefield.dtx}
+%
+% \DoNotIndex{\&,\{,\}}
+% \DoNotIndex{\addtocounter,\advance}
+% \DoNotIndex{\begin,\begingroup,\bgroup}
+% \DoNotIndex{\catcode,\ch@ck,\count,\cr}
+% \DoNotIndex{\DeclareRobustCommand,\def,\dimen,\dimendef}
+% \DoNotIndex{\edef,\egroup,\else,\end,\endgroup,\expandafter}
+% \DoNotIndex{\fi}
+% \DoNotIndex{\gdef,\global}
+% \DoNotIndex{\if,\ifnum,\ifx,\ignorespaces,\insc@unt}
+% \DoNotIndex{\let}
+% \DoNotIndex{\newbox,\newcounter,\newenvironment,\newif,\newlength}
+% \DoNotIndex{\newsavebox}
+% \DoNotIndex{\raisebox,\ratio,\real,\relax,\renewcommand}
+% \DoNotIndex{\sbox,\setcounter,\setlength,\settowidth,\space,\string}
+% \DoNotIndex{\the}
+% \DoNotIndex{\usebox}
+% \DoNotIndex{\value,\vbox}
+% \DoNotIndex{\wlog}
+% \DoNotIndex{\xdef}
+%
+%
+% \title{The \textsf{bytefield} package\thanks{This document
+% corresponds to \textsf{bytefield}~\fileversion, dated \filedate.}}
+% \author{Scott Pakin \\ \texttt{scott+bf@pakin.org}}
+%
+% \sloppy
+% \maketitle
+%
+% ^^A Define an environment for command/environment delcarations.
+% \newsavebox{\declbox}
+% \newenvironment{decl}{^^A
+% \begin{lrbox}{\declbox}\begin{tabular}{l}}{^^A
+% \end{tabular}\end{lrbox}^^A
+% \vspace{3ex}\noindent\hspace*{-3em}\fbox{\usebox{\declbox}}\vspace*{2ex}}
+%
+% ^^A Draw a cute smiley face to use within text (classier than ":-)").
+% \newcommand{\smileyface}{\raisebox{-2pt}{^^A
+% \begin{picture}(9,9)
+% \put(5,5){\circle{9}}
+% \put(3.5,7){\circle*{2}}
+% \put(6.6,7){\circle*{2}}
+% \put(0,0){\makebox(9,3)[t]{\tiny $\,\smile$}}
+% \end{picture}}}
+%
+% ^^A Define an ellipsis that permits a subsequent line break.
+% \newcommand{\ellipsis}{$\ldots$\linebreak[0]}
+%
+% ^^A Define an environment for showing sample bytefield diagrams.
+% \newenvironment{bffigure}{%
+% \bigskip
+% \noindent\hspace*{3em}%
+% }{%
+% \bigskip
+% }
+%
+% ^^A Define something like \cs to use within \StopEventually.
+% \DeclareRobustCommand{\cseq}[1]{\texttt{\string#1}}
+%
+%
+% \begin{abstract}
+% The \texttt{bytefield} package helps the user create illustrations for
+% network protocol specifications and anything else that utilizes fields of
+% data. These illustrations show how the bits and bytes are laid out in a
+% packet or in memory.
+% \end{abstract}
+%
+% \section{Introduction}
+%
+% Network protocols are usually specified in terms of a sequence of bits
+% and bytes arranged in a field. This is portrayed graphically as
+% a grid of boxes. Each row in the grid represents one word (frequently,
+% 32~bits), and each column represents a bit within a word.
+% The \texttt{bytefield} package makes it easy to typeset these sorts of
+% figures.
+%
+% \texttt{bytefield} lets one draw protocol diagrams that contain:
+%
+% \begin{itemize}
+% \item Words of any arbitrary number of bits
+% \item Column headers showing bit positions
+% \item Multiword fields---even non-word-aligned and even if the total
+% number of bits is not a multiple of the word length
+% \item Word labels on either the left or right of the figure
+% \item ``Skipped words'' within fields
+% \end{itemize}
+%
+% Because \texttt{bytefield} draws its figures using only
+% the \LaTeX{} \texttt{picture} environment, these figures are not
+% specific to any particular backend, do not require PostScript support,
+% and do not need support from external programs. Furthermore, unlike an
+% imported graphic, \texttt{bytefield} pictures can include arbitrary
+% \LaTeX{} constructs, such as mathematical equations, |\ref|s and
+% |\cite|s to the surrounding document, and macro calls.
+%
+%
+% \section{Usage}
+%
+% \subsection{Basic commands}
+%
+% This section explains how to use the \texttt{bytefield} package.
+% It lists all the exported environments, commands, and variables in
+% decreasing order of importance.
+%
+% \begin{decl}
+% |\begin{bytefield}| \marg{bit-width} \\
+% \meta{fields} \\
+% |\end{bytefield}|
+% \end{decl}
+%
+% The top-level environment is called, not surprisingly,
+% ``|bytefield|''. It takes one (mandatory) argument, which is the
+% number of bits in each word. One can think of a \texttt{bytefield} as
+% being analogous to a \texttt{tabular}: words are separated
+% by~|\\|, and fields within a word are separated by~|&|.
+%
+% \begin{decl}
+% |\wordbox| \oarg{sides} \marg{height} \marg{text} \\
+% |\bitbox| \oarg{sides} \marg{width} \marg{text}
+% \end{decl}
+%
+% The two main commands one uses within a \texttt{bytefield} environment
+% are |\wordbox| and |\bitbox|. The former typesets a field
+% that is one or more words tall and an entire word wide.
+% The latter typesets a field that is one or more bits wide and a single
+% word tall.
+%
+% The optional argument, \meta{sides}, is a list of letters
+% specifying which sides of the field box to draw---|[l]|eft, |[r]|ight,
+% |[t]|op, and/or |[b]|ottom. The default is ``|lrtb|'' (i.e., all sides
+% are drawn). \meta{text} is the text to include within the |\wordbox| or
+% |\bitbox|. It is typeset horizontally centered within a vertically
+% centered |\parbox|. Hence, words will wrap, and |\\| can
+% be used to break lines manually.
+%
+% The following example shows how to produce a simple 16-bit-wide byte field:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \wordbox{1}{A 16-bit field} \\
+% \bitbox{8}{8 bits} & \bitbox{8}{8 more bits} \\
+% \wordbox{2}{A 32-bit field. Note that text wraps within the box.}
+% \end{bytefield}
+% \end{verbatim}
+%
+% The resulting figure looks like this:
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \wordbox{1}{A 16-bit field} \\
+% \bitbox{8}{8 bits} & \bitbox{8}{8 more bits} \\
+% \wordbox{2}{A 32-bit field. Note that text wraps within the box.}
+% \end{bytefield}
+% \end{bffigure}
+%
+% It is the user's responsibility to ensure that the total
+% number of bits in each row adds up to the number of bits in a single
+% word (the mandatory argument to the |bytefield| environment).
+%
+% Within a |\wordbox| or |\bitbox|, the \texttt{bytefield} package
+% defines |\height|, |\depth|, |\totalheight|, and |\width| to the
+% corresponding dimensions of the box. Section~\ref{sec:tricks} gives an
+% example of how these lengths may be utilized.
+%
+% \begin{decl}
+% |\bitheader| \oarg{endianness} \marg{bit-positions}
+% \end{decl}
+%
+% To make the figure more readable, it helps to label bit positions across
+% the top. The |\bitheader| command provides a flexible way to do that.
+% The optional argument, \meta{endianness} is one of ``|b|'' or ``|l|''
+% and specifies whether the bits in each word are numbered in big-endian
+% style (right to left) or little-endian style (left to right). The default
+% is little-endian (|l|).
+%
+% |\bitheader|'s mandatory argument, \meta{bit-positions}, is a
+% comma-separated list of bit positions to label.
+% For example, ``|0,2,4,6,8,10,12,14|'' means to label those bit positions.
+% The numbers must be listed in increasing order. (Use \meta{endianness}
+% to display the header in reverse order.) Hyphen-separated ranges are
+% also valid. For example, ``|0-15|'' means to label all bits from~0 to~15,
+% inclusive. While not particularly useful, ranges and single numbers can
+% be intermixed, as in ``|0-3,8,12-15|''.
+%
+% The following example shows how |\bitheader| may be used:
+%
+% \begin{verbatim}
+% \begin{bytefield}{32}
+% \bitheader{0-31} \\
+% \bitbox{4}{Four} & \bitbox{8}{Eight} &
+% \bitbox{16}{Sixteen} & \bitbox{4}{Four}
+% \end{bytefield}
+% \end{verbatim}
+%
+% The resulting figure looks like this:
+%
+% \begin{bffigure}
+% \begin{bytefield}{32}
+% \bitheader{0-31} \\
+% \bitbox{4}{Four} & \bitbox{8}{Eight} &
+% \bitbox{16}{Sixteen} & \bitbox{4}{Four}
+% \end{bytefield}
+% \end{bffigure}
+%
+%
+% \begin{decl}
+% |\wordgroupr| \marg{text} \\
+% |\endwordgroupr| \\
+% \\
+% |\wordgroupl| \marg{text} \\
+% |\endwordgroupl|
+% \end{decl}
+%
+% When a set of words functions as a single, logical unit, it helps to
+% group these words together visually. All words defined between
+% |\wordgroupr| and |\endwordgroupr| will be labeled on the right with
+% \meta{text}. Similarly, all words defined between
+% |\wordgroupl| and |\endwordgroupl| will be labeled on the left with
+% \meta{text}. |\wordgroup|\textit{x} must lie at the beginning of a row
+% (i.e., right after a |\\|), and |\endwordgroup|\textit{x} must lie right
+% \emph{before} the end of the row (i.e., right before a |\\|).
+%
+% |\wordgroupr|\ellipsis|\endwordgroupr| and
+% |\wordgroupl|\ellipsis|\endwordgroupl| can overlap each other.
+% However, they cannot overlap themselves. In other words,
+% |\wordgroupr|\ellipsis|\wordgroupl|\ellipsis|\endwordgroupr|\ellipsis|\endwordgroupl|
+% is a valid sequence, but
+% |\wordgroupr|\ellipsis|\wordgroupr|\ellipsis|\endwordgroupr|\ellipsis|\endwordgroupr|
+% is not.
+%
+% The following example shows how to use |\wordgroupr| and |\endwordgroupr|:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \wordgroupr{Header}
+% \bitbox{4}{Tag} & \bitbox{12}{Mask} \\
+% \bitbox{8}{Source} & \bitbox{8}{Destination}
+% \endwordgroupr \\
+% \wordbox{3}{Data}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \noindent
+% Note the justaposition of |\\| to |\wordgroupr| and |\endwordgroupr|
+% in the above. The resulting figure looks like this:
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \wordgroupr{Header}
+% \bitbox{4}{Tag} & \bitbox{12}{Mask} \\
+% \bitbox{8}{Source} & \bitbox{8}{Destination}
+% \endwordgroupr \\
+% \wordbox{3}{Data}
+% \end{bytefield}
+% \end{bffigure}
+%
+% \noindent
+% As a more complex example, the following nests left and right labels:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \wordgroupr{Header}
+% \bitbox{4}{Tag} & \bitbox{12}{Mask} \\
+% \wordgroupl{Node IDs}
+% \bitbox{8}{Source} & \bitbox{8}{Destination}
+% \endwordgroupl
+% \endwordgroupr \\
+% \wordbox{3}{Data}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \wordgroupr{Header}
+% \bitbox{4}{Tag} & \bitbox{12}{Mask} \\
+% \wordgroupl{Node IDs}
+% \bitbox{8}{Source} & \bitbox{8}{Destination}
+% \endwordgroupl
+% \endwordgroupr \\
+% \wordbox{3}{Data}
+% \end{bytefield}
+% \end{bffigure}
+%
+% \noindent
+% Again, note the justaposition of |\\| to the various word-grouping
+% commands in the above.
+%
+% \begin{decl}
+% |\skippedwords|
+% \end{decl}
+%
+% Draw a graphic representing a number of words that are not shown.
+% |\skippedwords| is intended to work with the \meta{sides} argument
+% to |\wordbox|. For example:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \wordbox{1}{Some data} \\
+% \wordbox[lrt]{1}{Lots of data} \\
+% \skippedwords \\
+% \wordbox[lrb]{1}{} \\
+% \wordbox{2}{More data}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \wordbox{1}{Some data} \\
+% \wordbox[lrt]{1}{Lots of data} \\
+% \skippedwords \\
+% \wordbox[lrb]{1}{} \\
+% \wordbox{2}{More data}
+% \end{bytefield}
+% \end{bffigure}
+%
+% \begin{decl}
+% |\bitwidth| \\
+% |\byteheight|
+% \end{decl}
+%
+% The above variables represent the width of each bit and height of each
+% byte in the figure. Change them with |\setlength| to adjust the size
+% of the figure. The default value of |\byteheight| is~|2ex|, and the
+% default value of |\bitwidth| is the width of ``|{\tiny 99i}|'',
+% i.e.,~the width of a two-digit number plus a small amount of extra space.
+% This enables |\bitheader| to show two-digit numbers without overlap.
+%
+% \begin{decl}
+% |\curlyspace| \\
+% |\labelspace|
+% \end{decl}
+%
+% |\curlyspace| is the space to insert between the figure and the curly
+% brace preceding a word group (default: |1ex|). |\labelspace| is the
+% space to insert between the curly brace and the label (default: |0.5ex|).
+% Change these with |\setlength| to adjust the spacing.
+%
+% \begin{decl}
+% |\curlyshrinkage|
+% \end{decl}
+%
+% In \TeX/\LaTeX, the height of a curly brace does not include the tips.
+% Hence, in a word group label, the tips of the curly brace will extend
+% beyond the height of the word group. |\curlyshrinkage| is an amount by
+% which to reduce the height of curly braces in labels. It is set to |5pt|,
+% and it is extremely unlikely that one would ever need to change it.
+% Nevertheless, it is documented here in case the document is typeset with
+% a math font containing radically different curly braces from the ones
+% that come with \TeX/\LaTeX.
+%
+% \subsection{Common tricks}
+% \label{sec:tricks}
+%
+% This section shows some clever ways to use \texttt{bytefield}'s commands
+% to produce some useful effects.
+%
+% \paragraph{Odd-sized fields}
+% To produce a field that is, say, 1\textonehalf{} words long, use a
+% |\bitbox| for the fractional part and specify appropriate values
+% for the various \meta{sides} parameters. For instance:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \bitbox{8}{8-bit field} & \bitbox[lrt]{8}{} \\
+% \wordbox[lrb]{1}{24-bit field}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \bitheader{0,7,8,15} \\
+% \bitbox{8}{8-bit field} & \bitbox[lrt]{8}{} \\
+% \wordbox[lrb]{1}{24-bit field}
+% \end{bytefield}
+% \end{bffigure}
+%
+% \paragraph{Ellipses}
+% To skip words from the middle of enumerated data, put some |\vdots|
+% in a |\wordbox| with empty \meta{sides}:
+%
+% \begin{verbatim}
+% \begin{bytefield}{16}
+% \bitbox{8}{Type} & \bitbox{8}{\# of nodes} \\
+% \wordbox{1}{Node~1} \\
+% \wordbox{1}{Node~2} \\
+% \wordbox[]{1}{$\vdots$ \\[1ex]} \\
+% \wordbox{1}{Node~$N$} \\
+% \end{bytefield}
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \begin{bytefield}{16}
+% \bitbox{8}{Type} & \bitbox{8}{\# of nodes} \\
+% \wordbox{1}{Node~1} \\
+% \wordbox{1}{Node~2} \\
+% \wordbox[]{1}{$\vdots$ \\[1ex]} \\
+% \wordbox{1}{Node~$N$} \\
+% \end{bytefield}
+% \end{bffigure}
+%
+% \noindent
+% The extra |1ex| of vertical space helps center the |\vdots| a bit better.
+%
+% \paragraph{Unused bits}
+% Because |\width| and |\height| are defined within |\bitbox|es (also
+% |\wordbox|es), we can represent unused bits by filling a |\bitbox|
+% with a rule of size |\width|~$\times$| \height|.
+%
+% \begin{verbatim}
+% \begin{bytefield}{32}
+% \bitheader{0,4,8,12,16,20,24,28} \\
+% \bitbox{8}{Tag} & \bitbox{8}{Value} &
+% \bitbox{4}{\rule{\width}{\height}} & \bitbox{12}{Mask} \\
+% \wordbox{1}{Key}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \begin{bytefield}{32}
+% \bitheader{0,4,8,12,16,20,24,28} \\
+% \bitbox{8}{Tag} & \bitbox{8}{Value} &
+% \bitbox{4}{\rule{\width}{\height}} & \bitbox{12}{Mask} \\
+% \wordbox{1}{Key}
+% \end{bytefield}
+% \end{bffigure}
+%
+% \noindent
+% The effect is much better when the \texttt{color} package is used to
+% draw the unused bits in color. (Gray looks nice.)
+%
+% \subsection{Not-so-common tricks}
+%
+% While certainly not the intended purpose of the \texttt{bytefield}
+% package, one can utilize |\wordbox|es with empty \meta{sides} and
+% word labels to produce memory-map diagrams:
+%
+% \begin{verbatim}
+% \setlength{\byteheight}{4\baselineskip}
+% \newcommand{\descbox}[2]{\parbox[c][3.8\baselineskip]{0.95\width}{%
+% \raggedright #1\vfill #2}}
+% \begin{bytefield}{32}
+% \wordgroupr{Partition 4}
+% \bitbox[]{8}{\texttt{0xFFFFFFFF} \\[2\baselineskip]
+% \texttt{0xC0000000}} &
+% \bitbox{24}{\descbox{1\,GB area for VxDs, memory manager,
+% file system code; shared by all processes.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 3}
+% \bitbox[]{8}{\texttt{0xBFFFFFFF} \\[2\baselineskip]
+% \texttt{0x80000000}} &
+% \bitbox{24}{\descbox{1\,GB area for memory-mapped files,
+% shared system DLLs, file system code; shared by all
+% processes.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 2}
+% \bitbox[]{8}{\texttt{0x7FFFFFFF} \\[2\baselineskip]
+% \texttt{0x00400000}} &
+% \bitbox{24}{\descbox{$\sim$2\,GB area private to process,
+% process code, and data.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 1}
+% \bitbox[]{8}{\texttt{0x003FFFFF} \\[2\baselineskip]
+% \texttt{0x00001000}} &
+% \bitbox{24}{\descbox{4\,MB area for MS-DOS and Windows~3.1
+% compatibility.}{Read/writable.}} \\
+% \bitbox[]{8}{\texttt{0x00000FFF} \\[2\baselineskip]
+% \texttt{0x00000000}} &
+% \bitbox{24}{\descbox{4096~byte area for MS-DOS and Windows~3.1
+% compatibility.}{Protected---catches {\small NULL} pointers.}}
+% \endwordgroupr \\
+% \end{verbatim}
+%
+% \begin{bffigure}
+% \setlength{\byteheight}{4\baselineskip}
+% \newcommand{\descbox}[2]{\parbox[c][3.8\baselineskip]{0.95\width}{%
+% \raggedright #1\vfill #2}}
+% \begin{bytefield}{32}
+% \wordgroupr{Partition 4}
+% \bitbox[]{8}{\texttt{0xFFFFFFFF} \\[2\baselineskip]
+% \texttt{0xC0000000}} &
+% \bitbox{24}{\descbox{1\,GB area for VxDs, memory manager,
+% file system code; shared by all processes.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 3}
+% \bitbox[]{8}{\texttt{0xBFFFFFFF} \\[2\baselineskip]
+% \texttt{0x80000000}} &
+% \bitbox{24}{\descbox{1\,GB area for memory-mapped files,
+% shared system DLLs, file system code; shared by all
+% processes.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 2}
+% \bitbox[]{8}{\texttt{0x7FFFFFFF} \\[2\baselineskip]
+% \texttt{0x00400000}} &
+% \bitbox{24}{\descbox{$\sim$2\,GB area private to process, process
+% code, and data.}{Read/writable.}}
+% \endwordgroupr \\
+% \wordgroupr{Partition 1}
+% \bitbox[]{8}{\texttt{0x003FFFFF} \\[2\baselineskip]
+% \texttt{0x00001000}} &
+% \bitbox{24}{\descbox{4\,MB area for MS-DOS and Windows~3.1
+% compatibility.}{Read/writable.}} \\
+% \bitbox[]{8}{\texttt{0x00000FFF} \\[2\baselineskip]
+% \texttt{0x00000000}} &
+% \bitbox{24}{\descbox{4096~byte area for MS-DOS and Windows~3.1
+% compatibility.}{Protected---catches {\small NULL} pointers.}}
+% \endwordgroupr \\
+% \end{bytefield}
+% \end{bffigure}
+%
+%
+% \subsection{Putting it all together}
+%
+% The following code showcases most of \texttt{bytefield}'s features in a
+% single figure.
+%
+% \begin{verbatim}
+% \setlength{\byteheight}{2.5\baselineskip}
+% \begin{bytefield}{32}
+% \bitheader{0,7,8,15,16,23,24,31} \\
+% \wordgroupr{\parbox{6em}{\raggedright These words were taken
+% verbatim from the TCP header definition (RFC~793).}}
+% \bitbox{4}{Data offset} & \bitbox{6}{Reserved} &
+% \bitbox{1}{\tiny U\\R\\G} & \bitbox{1}{\tiny A\\C\\K} &
+% \bitbox{1}{\tiny P\\S\\H} & \bitbox{1}{\tiny R\\S\\T} &
+% \bitbox{1}{\tiny S\\Y\\N} & \bitbox{1}{\tiny F\\I\\N} &
+% \bitbox{16}{Window} \\
+% \bitbox{16}{Checksum} & \bitbox{16}{Urgent pointer}
+% \endwordgroupr \\
+% \wordbox[lrt]{1}{Data octets} \\
+% \skippedwords \\
+% \wordbox[lrb]{1}{} \\
+% \wordgroupl{\parbox{6em}{\raggedright Note that we can display,
+% for example, a misaligned 64-bit value with clever use of the
+% optional argument to \texttt{\textbackslash wordbox} and
+% \texttt{\textbackslash bitbox}.}}
+% \bitbox{8}{Source} & \bitbox{8}{Destination} &
+% \bitbox[lrt]{16}{} \\
+% \wordbox[lr]{1}{Timestamp} \\
+% \wordgroupr{\parbox{6em}{\raggedright Why two Length fields?
+% No particular reason.}}
+% \bitbox[lrb]{16}{} & \bitbox{16}{Length}
+% \endwordgroupl \\
+% \bitbox{6}{Key} & \bitbox{6}{Value} & \bitbox{4}{Unused} &
+% \bitbox{16}{Length}
+% \endwordgroupr \\
+% \wordbox{1}{Total number of 16-bit data words that follow this
+% header word, excluding the subsequent checksum-type value} \\
+% \bitbox{16}{Data~1} & \bitbox{16}{Data~2} \\
+% \bitbox{16}{Data~3} & \bitbox{16}{Data~4} \\
+% \bitbox[]{16}{$\vdots$ \\[1ex]} &
+% \bitbox[]{16}{$\vdots$ \\[1ex]} \\
+% \bitbox{16}{Data~$N-1$} & \bitbox{16}{Data~$N$} \\
+% \bitbox{20}{\[ \mbox{A5A5}_{\mbox{\scriptsize H}} \oplus
+% \left(\sum_{i=1}^N \mbox{Data}_i \right) \bmod 2^{20} \]} &
+% \bitbox{12}{Command} \\
+% \wordbox{2}{64-bit random number}
+% \end{bytefield}
+% \end{verbatim}
+%
+% \noindent
+% Figure~\ref{fig:complex-diagram} shows the resulting protocol diagram.
+%
+% \begin{figure}[phtb]
+% \setlength{\byteheight}{2.5\baselineskip}
+% \begin{bytefield}{32}
+% \bitheader{0,7,8,15,16,23,24,31} \\
+% \wordgroupr{\parbox{6em}{\raggedright These words were taken
+% verbatim from the TCP header definition (RFC~793).}}
+% \bitbox{4}{Data offset} & \bitbox{6}{Reserved} &
+% \bitbox{1}{\tiny U\\R\\G} & \bitbox{1}{\tiny A\\C\\K} &
+% \bitbox{1}{\tiny P\\S\\H} & \bitbox{1}{\tiny R\\S\\T} &
+% \bitbox{1}{\tiny S\\Y\\N} & \bitbox{1}{\tiny F\\I\\N} &
+% \bitbox{16}{Window} \\
+% \bitbox{16}{Checksum} & \bitbox{16}{Urgent pointer}
+% \endwordgroupr \\
+% \wordbox[lrt]{1}{Data octets} \\
+% \skippedwords \\
+% \wordbox[lrb]{1}{} \\
+% \wordgroupl{\parbox{6em}{\raggedright Note that we can display,
+% for example, a misaligned 64-bit value with clever use of the
+% optional argument to \texttt{\textbackslash wordbox} and
+% \texttt{\textbackslash bitbox}.}}
+% \bitbox{8}{Source} & \bitbox{8}{Destination} & \bitbox[lrt]{16}{} \\
+% \wordbox[lr]{1}{Timestamp} \\
+% \wordgroupr{\parbox{6em}{\raggedright Why two Length fields?
+% No particular reason.}}
+% \bitbox[lrb]{16}{} & \bitbox{16}{Length}
+% \endwordgroupl \\
+% \bitbox{6}{Key} & \bitbox{6}{Value} & \bitbox{4}{Unused} &
+% \bitbox{16}{Length}
+% \endwordgroupr \\
+% \wordbox{1}{Total number of 16-bit data words that follow this
+% header word, excluding the subsequent checksum-type value} \\
+% \bitbox{16}{Data~1} & \bitbox{16}{Data~2} \\
+% \bitbox{16}{Data~3} & \bitbox{16}{Data~4} \\
+% \bitbox[]{16}{$\vdots$ \\[1ex]} & \bitbox[]{16}{$\vdots$ \\[1ex]} \\
+% \bitbox{16}{Data~$N-1$} & \bitbox{16}{Data~$N$} \\
+% \bitbox{20}{\[ \mbox{A5A5}_{\mbox{\scriptsize H}} \oplus
+% \left(\sum_{i=1}^N \mbox{Data}_i \right) \bmod 2^{20} \]} &
+% \bitbox{12}{Command} \\
+% \wordbox{2}{64-bit random number}
+% \end{bytefield}
+% \caption{Complex protocol diagram drawn with the \texttt{bytefield}
+% package}
+% \label{fig:complex-diagram}
+% \end{figure}
+%
+%
+% \StopEventually{^^A
+%
+% \section{Future work}
+%
+% \texttt{bytefield} is my first \LaTeX{} package, and, as such, there
+% are a number of macros that could probably have been implemented a lot
+% better. The package should really get a major rewrite. If I were to
+% do it all over again, I would probably not use an \cseq\ialign\ for the
+% main \texttt{bytefield} environment. The problem---as I discovered
+% too late---is that \cseq\begin\ellipsis\cseq\end\ blocks are unable to
+% cross cells of an \cseq\ialign\ (or \texttt{tabular} environment, for
+% that matter).
+%
+% That said, I'd like the next major release of \texttt{bytefield} to
+% let the user use \texttt{\cseq\begin\char'173
+% wordgroup\char'175[r]}\ellipsis \texttt{\cseq\end\char'173
+% wordgroup\char'175} instead of
+% \cseq\wordgroupr\ellipsis\cseq\endwordgroupr\ and
+% \texttt{\cseq\begin\char'173 wordgroup\char'175[l]}\ellipsis
+% \texttt{\cseq\end\char'173 wordgroup\char'175} instead of
+% \cseq\wordgroupl\ellipsis\cseq\endwordgroupl. That would make the
+% word-grouping commands a little more \LaTeX-ish.
+%
+% Finally, a minor improvement I'd like to make in the package is to
+% move left, small curly braces closer to the figure. In the following
+% figure, notice how distant the small curly appears from the figure
+% body:
+%
+% \begin{bffigure}
+% \setlength{\byteheight}{4ex}
+% \begin{bytefield}{16}
+% \wordgroupl{Too distant}
+% \wordbox{1}{Something}
+% \endwordgroupl \\
+% \wordgroupl{Looks okay}
+% \wordbox{4}{Something else}
+% \endwordgroupl
+% \end{bytefield}
+% \end{bffigure}
+%
+% \noindent
+% The problem is that the curly braces are left-aligned relative to
+% each other, while they should be right-aligned.
+% }
+%
+%
+% \section{Implementation}
+%
+% \newcommand{\usermacro}{\marginpar{\vspace*{1ex}{\hspace{18pt}\huge$\star$}\vspace*{-1ex}}}
+%
+% This section contains the complete source code for \texttt{bytefield}.
+% Most users will not get much out of it, but it should be of use to
+% those who need more precise documentation and those who want to extend
+% (or debug~\smileyface) the \texttt{bytefield} package.
+%
+% In this section, macros marked in the margin with a ``{\Large $\star$}''
+% are intended to be called by the user (and were described in the previous
+% section). All other macros are used only internally by \texttt{bytefield}.
+%
+% \begin{macrocode}
+%<*package>
+% \end{macrocode}
+%
+%
+% \subsection{Required packages}
+%
+% Although |\widthof| and |\heightof| were introduced in June~1998,
+% te\kern-1.5pt\TeX~2.0---still in widespread use at the time of this
+% writing (2005)---ships with an earlier |calc.sty| in the |source|
+% directory. Because a misconfigured system may find the |source|
+% version of |calc.sty| we explicitly specify a later date when loading
+% the |calc| package.
+% \changes{v1.2a}{2005/07/31}{Specified an explicit package date when
+% loading the \texttt{calc} package to avoid loading an outdated
+% version. Thanks to Kevin Quick for discovering that outdated versions
+% of \texttt{calc} are still being included in \TeX{} distributions.}
+% \begin{macrocode}
+\RequirePackage{calc}[1998/07/07]
+% \end{macrocode}
+%
+%
+% \subsection{Utility macros}
+%
+% The following macros in this section are used by the box-drawing macros
+% and the ``skipped words''-drawing macros.
+%
+% \begin{macro}{\bf@newdimen}
+% \changes{v1.1}{2002/09/15}{Bug fix: Added
+% \texttt{\string\string\string\bf@newdimen} to eliminate ``\texttt{No
+% room for a new \string\string\string\dimen}'' errors (reported by
+% Vitaly A. Repin)}
+% |\newdimen| defines new \meta{dimen}s globally. |\bf@newdimen|
+% defines them locally. It simply merges \LaTeXe's |\newdimen| and
+% |\alloc@| macros while omitting |\alloc@|'s ``|\global|'' declaration.
+% \begin{macrocode}
+\def\bf@newdimen#1{\advance\count11 by 1
+ \ch@ck1\insc@unt\dimen% Check room
+ \allocationnumber=\count11
+ \dimendef#1=\allocationnumber
+ \wlog{\string#1=\string\dimen\the\allocationnumber\space (locally)}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\bytefield@height}
+% \begin{macro}{\ifcounting@words}
+% When |\ifcounting@words| is \textsc{True}, add the height of the next
+% \texttt{picture} environment to |\bytefield@height|. We set
+% |\counting@wordstrue| at the beginning of each word, and
+% |\counting@wordsfalse| after each |\bitbox|, |\wordbox|, or |\skippedwords|
+% picture.
+% \begin{macrocode}
+\newlength{\bytefield@height}
+\newif\ifcounting@words
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\inc@bytefield@height}
+% We have to define a special macro to increment |\bytefield@height|
+% because the \texttt{calc} package's |\addtolength| macro doesn't seem
+% to see the global value. So we |\setlength| a temporary (to get
+% \texttt{calc}'s nice infix features) and |\advance| |\bytefield@height|
+% by that amount.
+% \begin{macrocode}
+\newlength{\bytefield@height@increment}
+\DeclareRobustCommand{\inc@bytefield@height}[1]{%
+ \setlength{\bytefield@height@increment}{#1}%
+ \global\advance\bytefield@height by \bytefield@height@increment}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection{Top-level environment}
+%
+% \begin{macro}{bits@wide}
+% The number of bits in each word (i.e., the argument to the |\bytefield|
+% environment).
+% \begin{macrocode}
+\newcounter{bits@wide}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\entire@bytefield@picture}
+% A box containing the entire bytefield. By storing everything in a box
+% and then typesetting it later (at the |\end{bytefield}|), we can center
+% the bytefield, put a box around it, and do other operations on the entire
+% figure.
+% \begin{macrocode}
+\newsavebox{\entire@bytefield@picture}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{environment}{bytefield}
+% \usermacro
+% Environment containing the layout of bits in a sequence of bytes.
+% This is the main environment defined by the \texttt{bytefield} pacakge.
+% The argument is the number of bits wide the bytefield should be.
+% We turn |&| into a space character so the user can think of a
+% \texttt{bytefield} as being analogous to a \texttt{tabular} environment,
+% even though we're really setting the bulk of the picture in a single
+% column. (Row labels go in separate columns, however.)
+% \begin{macrocode}
+\newenvironment{bytefield}[1]{%
+ \setcounter{bits@wide}{#1}%
+ \let\old@nl=\\%
+ \let\amp=&%
+ \catcode`\&=10
+ \openup -1pt
+ \setlength{\bytefield@height}{0pt}%
+ \setlength{\unitlength}{1pt}%
+ \counting@wordstrue
+ \begin{lrbox}{\entire@bytefield@picture}%
+% \end{macrocode}
+% \begin{macro}{\\}
+% We redefine |\\| within the |bytefield| environment to make it aware
+% of curly braces that surround the protocol diagram.
+% \begin{macrocode}
+ \renewcommand{\\}{%
+ \amp\show@wordlabelr\cr%
+ \ignorespaces\counting@wordstrue\make@lspace\amp}%
+% \end{macrocode}
+% \end{macro}
+% \begin{macrocode}
+ \vbox\bgroup\ialign\bgroup##\amp##\amp##\cr\amp%
+}{%
+ \amp\show@wordlabelr\cr\egroup\egroup%
+ \end{lrbox}%
+ \usebox{\entire@bytefield@picture}}
+% \end{macrocode}
+% \end{environment}
+%
+% \subsection{Box-drawing macros}
+%
+% \subsubsection{Drawing (proper)}
+%
+% \begin{macro}{\bitwidth}
+% \usermacro
+% The width of a single bit. Note that this is wide enough to display a
+% two-digit number without it running into adjacent numbers. For larger
+% words, be sure to |\setlength| this larger.
+% \begin{macrocode}
+\newlength{\bitwidth}
+\AtBeginDocument{\settowidth{\bitwidth}{\tiny 99i}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\byteheight}
+% \usermacro
+% The height of a single byte.
+% \begin{macrocode}
+\newlength{\byteheight}
+\AtBeginDocument{\setlength{\byteheight}{4ex}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\units@wide}
+% \begin{macro}{\units@tall}
+% Scratch variables for storing the width and height (in points) of
+% the box we're about to draw.
+% \begin{macrocode}
+\newlength{\units@wide}
+\newlength{\units@tall}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\bitbox}
+% \usermacro
+% Put some text (|#3|) in a box that's a given number of bits (|#2|)
+% wide and one byte tall.
+% An optional argument (|#1|) specifies which lines to draw---|[l]|eft,
+% |[r]|ight, |[t]|op, and/or |[b]|ottom (default: |lrtb|).
+% \begin{macrocode}
+\DeclareRobustCommand{\bitbox}[3][lrtb]{%
+ \setlength{\units@wide}{\bitwidth * #2}%
+ \parse@bitbox@arg{#1}%
+ \draw@bit@picture{\strip@pt\units@wide}{\strip@pt\byteheight}{#3}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\wordbox}
+% \usermacro
+% Put some text (|#3|) in a box that's a given number of bytes (|#2|)
+% tall and one word (|bits@wide| bits) wide.
+% An optional argument (|#1|) specifies which lines to draw---|[l]|eft,
+% |[r]|ight, |[t]|op, and/or |[b]|ottom (default: |lrtb|).
+% \begin{macrocode}
+\DeclareRobustCommand{\wordbox}[3][lrtb]{%
+ \setlength{\units@wide}{\bitwidth * \value{bits@wide}}%
+ \setlength{\units@tall}{\byteheight * #2}%
+ \parse@bitbox@arg{#1}%
+ \draw@bit@picture{\strip@pt\units@wide}{\strip@pt\units@tall}{#3}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\draw@bit@picture}
+% Put some text (|#3|) in a box that's a given number of units (|#1|)
+% wide and a given number of units (|#2|) tall.
+% We format the text with a |\parbox| to enable word-wrapping and explicit
+% line breaks. In addition, we define |\height|, |\depth|, |\totalheight|,
+% and |\width| (\`a la |\makebox| and friends), so the user can utilize
+% those for special effects (e.g., a |\rule| that fills the entire box).
+% As an added bonus, we define |\widthunits| and |\heightunits|, which
+% are the width and height of the box in multiples of |\unitlength|
+% (i.e., |#1| and |#2|, respectively).
+% \begin{macrocode}
+\DeclareRobustCommand{\draw@bit@picture}[3]{%
+ \begin{picture}(#1,#2)%
+% \end{macrocode}
+% \begin{macro}{\height}
+% \begin{macro}{\depth}
+% \begin{macro}{\totalheight}
+% \begin{macro}{\width}
+% \begin{macro}{\widthunits}
+% \begin{macro}{\heightunits}
+% First, we plot the user's text, with all sorts of useful lengths
+% predefined.
+% \begin{macrocode}
+ \put(0,0){\makebox(#1,#2){\parbox[c]{#1\unitlength}{%
+ \bf@newdimen\height
+ \bf@newdimen\depth
+ \bf@newdimen\totalheight
+ \bf@newdimen\width
+ \height=#2\unitlength
+ \depth=0pt%
+ \totalheight=#2\unitlength
+ \width=#1\unitlength
+ \def\widthunits{#1}%
+ \def\heightunits{#2}%
+ \centering #3}}}%
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% Next, we draw each line individually. I suppose we could make a special
+% case for ``all lines'' and use a |\framebox| above, but the following
+% works just fine.
+% \begin{macrocode}
+ \ifbitbox@top
+ \put(0,#2){\line(1,0){#1}}
+ \fi
+ \ifbitbox@bottom
+ \put(0,0){\line(1,0){#1}}
+ \fi
+ \ifbitbox@left
+ \put(0,0){\line(0,1){#2}}
+ \fi
+ \ifbitbox@right
+ \put(#1,0){\line(0,1){#2}}
+ \fi
+ \end{picture}%
+% \end{macrocode}
+% Finally, we indicate that we're no longer at the beginning of a word.
+% The following code structure (albeit with different arguments to
+% |\inc@bytefield@height|) is repeated in various places throughout this
+% package. We document it only here, however.
+% \begin{macrocode}
+ \ifcounting@words
+ \inc@bytefield@height{\unitlength * \real{#2}}%
+ \counting@wordsfalse
+ \fi
+ \ignorespaces}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsubsection{Parsing arguments}
+%
+% The macros in this section are used to parse the optional argument
+% to |\bitbox| or |\wordbox|, which is some subset of
+% $\{ |l|, |r|, |t|, |b| \}$.
+%
+% \begin{macro}{\ifbitbox@top}
+% \begin{macro}{\ifbitbox@bottom}
+% \begin{macro}{\ifbitbox@left}
+% \begin{macro}{\ifbitbox@right}
+% These macros are set to \textsc{True} if we're to draw the
+% corresponding edge on the subsequent |\bitbox| or |\wordbox|.
+% \begin{macrocode}
+\newif\ifbitbox@top
+\newif\ifbitbox@bottom
+\newif\ifbitbox@left
+\newif\ifbitbox@right
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\parse@bitbox@arg}
+% This main parsing macro merely resets the above conditionals and
+% calls a helper function, |\parse@bitbox@sides|.
+% \begin{macrocode}
+\def\parse@bitbox@arg#1{%
+ \bitbox@topfalse
+ \bitbox@bottomfalse
+ \bitbox@leftfalse
+ \bitbox@rightfalse
+ \parse@bitbox@sides#1X}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\parse@bitbox@sides}
+% The helper function for |\parse@bitbox@arg| parses a single letter,
+% sets the appropriate conditional to \textsc{True}, and calls itself
+% tail-recursively until it sees an ``|X|''.
+% \begin{macrocode}
+\def\parse@bitbox@sides#1{%
+ \ifx#1X%
+ \else
+ \ifx#1t%
+ \bitbox@toptrue
+ \else
+ \ifx#1b%
+ \bitbox@bottomtrue
+ \else
+ \ifx#1l%
+ \bitbox@lefttrue
+ \else
+ \ifx#1r%
+ \bitbox@righttrue
+ \fi
+ \fi
+ \fi
+ \fi
+ \expandafter\parse@bitbox@sides
+ \fi}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection{Skipped words}
+%
+% \begin{macro}{\units@high}
+% The height of each diagonal line in the |\skippedwords| graphic.
+% Note that |\units@high|~$=$ |\units@tall|~$-$ \textit{optional argument
+% to} |\skippedwords|.
+% \begin{macrocode}
+\newlength{\units@high}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\skippedwords}
+% \usermacro
+% Output a fancy graphic representing skipped words. The optional argument
+% is the vertical space between the two diagonal lines (default: |2ex|).
+% \begin{macrocode}
+\DeclareRobustCommand{\skippedwords}[1][2ex]{%
+ \setlength{\units@wide}{\bitwidth * \value{bits@wide}}%
+ \setlength{\units@high}{1pt * \ratio{\units@wide}{6.0pt}}%
+ \setlength{\units@tall}{#1 + \units@high}%
+ \edef\num@wide{\strip@pt\units@wide}%
+ \edef\num@tall{\strip@pt\units@tall}%
+ \edef\num@high{\strip@pt\units@high}%
+ \begin{picture}(\num@wide,\num@tall)
+ \put(0,\num@tall){\line(6,-1){\num@wide}}
+ \put(\num@wide,0){\line(-6,1){\num@wide}}
+ \put(0,0){\line(0,1){\num@high}}
+ \put(\num@wide,\num@tall){\line(0,-1){\num@high}}
+ \end{picture}%
+ \ifcounting@words
+ \inc@bytefield@height{\unitlength * \real{\num@tall}}%
+ \counting@wordsfalse
+ \fi}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection{Bit-position labels}
+%
+% \begin{macro}{\bitheader}
+% \usermacro
+% Output a header of numbered bit positions. The optional argument (|#1|)
+% is ``|l|'' for little-endian (default) or ``|b|'' for big-endian.
+% The required argument (|#2|) is a list of bit positions to label.
+% It is composed of comma-separated ranges of numbers, for example,
+% ``|0-31|'', ``|0,7-8,15-16,23-24,31|'', or even something odd like
+% ``|0-7,15-23|''. Ranges must be specified in increasing order; use the
+% optional argument to |\bitheader| to reverse the labels' direction.
+% \begin{macrocode}
+\DeclareRobustCommand{\bitheader}[2][l]{%
+ \parse@bitbox@arg{lrtb}%
+ \setlength{\units@wide}{\bitwidth * \value{bits@wide}}%
+ \setlength{\units@tall}{\heightof{\tiny 9}}%
+ \setlength{\units@high}{\units@tall * -1}%
+ \def\bit@endianness{#1}%
+ \begin{picture}(\strip@pt\units@wide,\strip@pt\units@tall)%
+ (0,\strip@pt\units@high)
+ \parse@range@list#2,X,
+ \end{picture}%
+ \ifcounting@words
+ \inc@bytefield@height{\unitlength * \real{\strip@pt\units@tall}}%
+ \counting@wordsfalse
+ \fi
+ \ignorespaces}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\parse@range@list}
+% Helper function~\#1 for |\bitheader|---parse a comma-separated list of
+% ranges, calling |\parse@range| on each range.
+% \changes{v1.1}{2002/06/24}{Bug fix: Swapped order of arguments to
+% \texttt{\string\bslash\space ifx} test (suggested by Hans-Joachim
+% Widmaier)}
+% \begin{macrocode}
+\def\parse@range@list#1,{%
+ \ifx X#1
+ \else
+ \parse@range#1-#1-#1\relax
+ \expandafter\parse@range@list
+ \fi}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\header@xpos}
+% \begin{macro}{header@val}
+% \begin{macro}{max@header@val}
+% Miscellaneous variables used internally by |\parse@range|---$x$ position
+% of header, current label to output, and maximum label to output ($+ 1$).
+% \begin{macrocode}
+\newlength{\header@xpos}
+\newcounter{header@val}
+\newcounter{max@header@val}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\parse@range}
+% Helper function~\#2 for |\bitheader|---parse a hyphen-separated pair
+% of numbers (or a single number) and display the number at the correct
+% bit position.
+% \begin{macrocode}
+\def\parse@range#1-#2-#3\relax{%
+ \setcounter{header@val}{#1}
+ \setcounter{max@header@val}{#2 + 1}
+ \loop
+ \ifnum\value{header@val}<\value{max@header@val}%
+ \if\bit@endianness b%
+ \setlength{\header@xpos}{%
+ \bitwidth * (\value{bits@wide}-\value{header@val}-1)}
+ \else
+ \setlength{\header@xpos}{\bitwidth * \value{header@val}}
+ \fi
+ \put(\strip@pt\header@xpos,0){%
+ \makebox(\strip@pt\bitwidth,\strip@pt\units@tall){%
+ \tiny \theheader@val}}
+ \addtocounter{header@val}{1}
+ \repeat}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection{Word labels}
+%
+% \subsubsection{Curly-brace manipulation}
+%
+% \begin{macro}{\curlyshrinkage}
+% \usermacro
+% Reduce the height of a curly brace by |\curlyshrinkage| so its ends don't
+% overlap whatever is above or below it. The default value (5\,pt.) was
+% determined empirically and shouldn't need to be changed. However,
+% on the off-chance the user employs a math font with very different
+% curly braces from Computer Modern's, |\curlyshrinkage| can be modified.
+% \begin{macrocode}
+\newlength{\curlyshrinkage}
+\setlength{\curlyshrinkage}{5pt}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\curlyspace}
+% \usermacro
+% \begin{macro}{\labelspace}
+% \usermacro
+% Space to insert before a curly brace and before a word label
+% (i.e., after a curly brace). Because the default values are specified
+% in terms of $x$~heights, we wait until the |\begin{document}| to set
+% them, after the default font has been selected.
+% \begin{macrocode}
+\newlength{\curlyspace}
+\AtBeginDocument{\setlength{\curlyspace}{1ex}}
+\newlength{\labelspace}
+\AtBeginDocument{\setlength{\labelspace}{0.5ex}}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\curly@box}
+% Define a box in which to temporarily store formatted curly braces.
+% \changes{v1.2}{2004/06/14}{Bug fix: Defined
+% \texttt{\string\string\string\curly@box} globally (suggested by
+% Stefan Ulrich)}
+% \begin{macrocode}
+\newbox{\curly@box}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\store@rcurly}
+% \begin{macro}{\curly@height}
+% \begin{macro}{\half@curly@height}
+% \begin{macro}{\curly@shift}
+% Store a ``\}'' that's |#2| tall in box |#1|.
+% The only unintuitive thing here is that we have to redefine
+% |\fontdimen22|---axis height---to~0\,pt.\ before typesetting the curly
+% brace. Otherwise, the brace would be vertically off-center by a few
+% points. When we're finished, we reset it back to its old value.
+% \begin{macrocode}
+\def\store@rcurly#1#2{%
+ \begingroup
+ \bf@newdimen\curly@height%
+ \setlength{\curly@height}{#2 - \curlyshrinkage}%
+ \bf@newdimen\half@curly@height%
+ \setlength{\half@curly@height}{0.5\curly@height}%
+ \bf@newdimen\curly@shift%
+ \setlength{\curly@shift}{\half@curly@height + 0.5\curlyshrinkage}%
+ \global\sbox{#1}{\raisebox{\curly@shift}{%
+ $\xdef\old@axis{\the\fontdimen22\textfont2}$%
+ $\fontdimen22\textfont2=0pt%
+ \left.\vrule height\half@curly@height
+ width 0pt
+ depth\half@curly@height\right\}$%
+ $\fontdimen22\textfont2=\old@axis$}}%
+ \endgroup
+}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\store@lcurly}
+% \begin{macro}{\curly@height}
+% \begin{macro}{\half@curly@height}
+% \begin{macro}{\curly@shift}
+% Same as |\store@rcurly|, but using a ``\{'' instead of a ``\}''.
+% \begin{macrocode}
+\def\store@lcurly#1#2{%
+ \begingroup
+ \bf@newdimen\curly@height%
+ \setlength{\curly@height}{#2 - \curlyshrinkage}%
+ \bf@newdimen\half@curly@height%
+ \setlength{\half@curly@height}{0.5\curly@height}%
+ \bf@newdimen\curly@shift%
+ \setlength{\curly@shift}{\half@curly@height + 0.5\curlyshrinkage}%
+ \global\sbox{#1}{\raisebox{\curly@shift}{%
+ $\xdef\old@axis{\the\fontdimen22\textfont2}$%
+ $\fontdimen22\textfont2=0pt%
+ \left\{\vrule height\half@curly@height
+ width 0pt
+ depth\half@curly@height\right.$%
+ $\fontdimen22\textfont2=\old@axis$}}%
+ \endgroup
+}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \subsubsection{Right-side labels}
+%
+% \begin{macro}{\show@wordlabelr}
+% This macro is output in the third column of every row of the
+% |\ialign|ed bytefield table. It's normally a no-op, but
+% |\endwordgroupr| defines it to output the word label and then
+% reset itself to a no-op.
+% \begin{macrocode}
+\def\show@wordlabelr{}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\wordlabelr@start}
+% \begin{macro}{\wordlabelr@end}
+% The starting and ending height (in points) of the set of rows to be
+% labelled on the right.
+% \begin{macrocode}
+\newlength{\wordlabelr@start}
+\newlength{\wordlabelr@end}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\wordgroupr}
+% \usermacro
+% \begin{macro}{\endwordgroupr}
+% \usermacro
+% Label the words defined between |\wordgroupr| and |\endwordgroupr|
+% on the right side of the figure.
+% The argument is the text of the label. The label is typeset to the
+% right of a large curly brace, which groups the words together.
+% \begin{macrocode}
+\newenvironment{wordgroupr}[1]{%
+% \end{macrocode}
+% \begin{macro}{\wordlabelr@start}
+% \begin{macro}{\wordlabelr@text}
+% \begin{macro}{\wordlabelr@end}
+% |\wordgroupr| merely stores the starting height in |\wordlabelr@start|
+% and the user-supplied text in |\wordlabelr@text|. |\endwordgroupr|
+% does most of the work.
+% \begin{macrocode}
+ \global\wordlabelr@start=\bytefield@height
+ \gdef\wordlabelr@text{#1}%
+ \ignorespaces%
+}{%
+ \global\wordlabelr@end=\bytefield@height
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+% \begin{macro}{\show@wordlabelr}
+% Redefine |\show@wordlabelr| to output |\curlyspace| space, followed by
+% a large curly brace (in |\curlybox|), followed by |\labelspace| space,
+% followed by the user's text (previously recorded in |\wordlabelr@text|).
+% We typeset |\wordlabelr@text| within a |tabular| environment, so
+% \LaTeX\ will calculate its width automatically.
+% \begin{macrocode}
+ \gdef\show@wordlabelr{%
+ \sbox{\word@label@box}{%
+ \begin{tabular}[b]{@{}l@{}}\wordlabelr@text\end{tabular}}%
+ \settowidth{\label@box@width}{\usebox{\word@label@box}}%
+ \setlength{\label@box@height}{\wordlabelr@end-\wordlabelr@start}%
+ \store@rcurly{\curly@box}{\label@box@height}%
+ \bf@newdimen\total@box@width%
+ \setlength{\total@box@width}{%
+ \curlyspace +
+ \widthof{\usebox{\curly@box}} +
+ \labelspace +
+ \label@box@width}%
+ \begin{picture}(\strip@pt\total@box@width,0)
+ \put(0,0){%
+ \hspace*{\curlyspace}%
+ \usebox{\curly@box}%
+ \hspace*{\labelspace}%
+ \makebox(\strip@pt\label@box@width,\strip@pt\label@box@height){%
+ \usebox{\word@label@box}}}
+ \end{picture}%
+% \end{macrocode}
+% The last thing |\show@wordlabelr| does is redefine itself back to a no-op.
+% \begin{macrocode}
+ \gdef\show@wordlabelr{}}%
+ \ignorespaces}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \subsubsection{Left-side labels}
+%
+% \begin{macro}{\wordlabell@start}
+% \begin{macro}{\wordlabell@end}
+% The starting and ending height (in points) of the set of rows to be
+% labelled on the left.
+% \begin{macrocode}
+\newlength{\wordlabell@start}
+\newlength{\wordlabell@end}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macro}{\total@box@width}
+% The total width of the next label to typeset on the left of the figure,
+% that is, the aggregate width of the text box, curly brace, and spaces
+% on either side of the curly brace.
+% \begin{macrocode}
+\newlength{\total@lbox@width}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\make@lspace}
+% This macro is output in the first column of every row of the
+% |\ialign|ed bytefield table. It's normally a no-op, but
+% |\wordgroupl| defines it to output enough space for the next word
+% label and then reset itself to a no-op.
+% \begin{macrocode}
+\gdef\make@lspace{}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\wordgroupl}
+% \usermacro
+% \begin{macro}{\endwordgroupl}
+% \usermacro
+% Same as |\wordgroupr| and |\endwordgroupr|, but put the label on the left.
+% However, the following code is not symmetric to that of |\wordgroupr|
+% and |\endwordgroupr|. The problem is that we encounter |\wordgroupl|
+% after entering the second (i.e., figure) column, which doesn't give us
+% a chance to reserve space in the first (i.e., left label) column.
+% When we reach the |\endwordgroupl|, we know the height of the group of
+% words we wish to label. However, if we try to label the words in the
+% subsequent first column, we won't know the vertical offset from the
+% ``cursor'' at which to start drawing the label, because we can't know
+% the height of the subsequent row until we reach the second
+% column.\footnote{Question: Is there a way to push the label up to the
+% \emph{top} of the subsequent row, perhaps with
+% \texttt{\textbackslash vfill}?}
+%
+% Our solution is to allocate space for the box the next time we enter a
+% first column. As long as space is eventually allocated, the column
+% will expand to fit that space. |\endwordgroupl| outputs the label
+% immediately. Even though |\endwordgroupl| is called at the end
+% of the \emph{second} column, it |\put|s the label at a sufficiently
+% negative $x$ location for it to overlap the first column. Because there
+% will eventually be enough space to accomodate the label, we know that
+% the label won't overlap the figure or extend beyond the figure boundaries.
+% \begin{macrocode}
+\newenvironment{wordgroupl}[1]{%
+% \end{macrocode}
+% \begin{macro}{\wordlabell@start}
+% \begin{macro}{\wordlabell@text}
+% First, we store the starting height and label text, which are needed
+% by |\endwordgroupl|.
+% \begin{macrocode}
+ \global\wordlabell@start=\bytefield@height
+ \gdef\wordlabell@text{#1}%
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% Next, we typeset a draft version of the label into |\word@label@box|,
+% which we measure (into |\total@lbox@width|) and then discard.
+% We can't typeset the final version of the label until we reach the
+% |\endwordgroupl|, because that's when we learn the height of the
+% word group. Without knowing the height of the word group, we don't
+% how how big to make the curly brace. In the scratch version, we make
+% the curly brace 5\,cm.~tall. This should be more than large enough to
+% reach the maximum curly-brace width, which is all we really care about
+% at this point.
+% \begin{macrocode}
+ \sbox{\word@label@box}{%
+ \begin{tabular}[b]{@{}l@{}}\wordlabell@text\end{tabular}}%
+ \settowidth{\label@box@width}{\usebox{\word@label@box}}%
+ \store@lcurly{\curly@box}{5cm}%
+ \setlength{\total@lbox@width}{%
+ \curlyspace +
+ \widthof{\usebox{\curly@box}} +
+ \labelspace +
+ \label@box@width}%
+ \global\total@lbox@width=\total@lbox@width
+% \end{macrocode}
+% Now we know how wide the box is going to be (unless, of course,
+% the user is using some weird math font that scales the width of a curly
+% brace proportionally to its height). So we redefine |\make@lspace| to
+% output |\total@lbox@width|'s worth of space and then redefine itself
+% back to a no-op.
+% \begin{macrocode}
+ \gdef\make@lspace{%
+ \hspace*{\total@lbox@width}%
+ \gdef\make@lspace{}}%
+ \ignorespaces%
+}{%
+% \end{macrocode}
+% |\endwordgroupl| is comparatively straightforward. We calculate the
+% final height of the word group, and then output the label text, followed
+% by |\labelspace| space, followed by a curly brace (now that we know how
+% tall it's supposed to be), followed by |\curlyspace| space. The trick,
+% as described earlier, is that we typeset the entire label in the second
+% column, but in a $0 \times 0$ |picture| environment and with a negative
+% horizontal offset (|\starting@point|), thereby making it overlap the
+% first column.
+% \begin{macrocode}
+ \global\wordlabell@end=\bytefield@height
+ \bf@newdimen\starting@point
+ \setlength{\starting@point}{%
+ -\total@lbox@width - \bitwidth*\value{bits@wide}}%
+ \sbox{\word@label@box}{%
+ \begin{tabular}[b]{@{}l@{}}\wordlabell@text\end{tabular}}%
+ \settowidth{\label@box@width}{\usebox{\word@label@box}}%
+ \setlength{\label@box@height}{\wordlabell@end-\wordlabell@start}%
+ \store@lcurly{\curly@box}{\label@box@height}%
+ \begin{picture}(0,0)
+ \put(\strip@pt\starting@point,0){%
+ \makebox(\strip@pt\label@box@width,\strip@pt\label@box@height){%
+ \usebox{\word@label@box}}%
+ \hspace*{\labelspace}%
+ \usebox{\curly@box}%
+ \hspace*{\curlyspace}}
+ \end{picture}%
+ \ignorespaces}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+%
+% \subsubsection{Scratch space}
+%
+% \begin{macro}{\label@box@width}
+% \begin{macro}{\label@box@height}
+% \begin{macro}{\word@label@box}
+% Scratch storage for the width, height, and contents of the word label
+% we're about to output.
+% \begin{macrocode}
+\newlength{\label@box@width}
+\newlength{\label@box@height}
+\newsavebox{\word@label@box}
+% \end{macrocode}
+% \end{macro}
+% \end{macro}
+% \end{macro}
+%
+% \begin{macrocode}
+%</package>
+% \end{macrocode}
+%
+% \Finale
+\endinput
diff --git a/Master/texmf-dist/source/latex/bytefield/bytefield.ins b/Master/texmf-dist/source/latex/bytefield/bytefield.ins
new file mode 100644
index 00000000000..4f762755f2c
--- /dev/null
+++ b/Master/texmf-dist/source/latex/bytefield/bytefield.ins
@@ -0,0 +1,51 @@
+%%
+%% Copyright (C) 2005 by Scott Pakin <scott+bf@pakin.org>
+%%
+%% This file may be distributed and/or modified under the conditions of
+%% the LaTeX Project Public License, either version 1.3a 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 1.3a or later is part of all distributions of LaTeX version
+%% 2004/10/11 or later.
+%%
+
+\input docstrip.tex
+\keepsilent
+
+\usedir{tex/latex/bytefield}
+
+\preamble
+
+This is a generated file.
+
+Copyright (C) 2005 by Scott Pakin <scott+bf@pakin.org>
+
+This file may be distributed and/or modified under the conditions of
+the LaTeX Project Public License, either version 1.3a 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 1.3a or later is part of all distributions of LaTeX version
+2004/10/11 or later.
+
+\endpreamble
+
+\generate{\file{bytefield.sty}{\from{bytefield.dtx}{package}}}
+
+\Msg{***************************************************************}
+\Msg{*}
+\Msg{* To finish the installation, move bytefield.sty into a}
+\Msg{* directory searched by TeX.}
+\Msg{*}
+\Msg{* To produce the documentation, run the file bytefield.dtx}
+\Msg{* through LaTeX.}
+\Msg{*}
+\Msg{* Happy TeXing!}
+\Msg{***************************************************************}
+
+\endbatchfile