From e0c6872cf40896c7be36b11dcc744620f10adf1d Mon Sep 17 00:00:00 2001 From: Norbert Preining Date: Mon, 2 Sep 2019 13:46:59 +0900 Subject: Initial commit --- macros/latex/contrib/stringstrings/README | 20 + .../latex/contrib/stringstrings/stringstrings.dtx | 4385 ++++++++++++++++++++ .../latex/contrib/stringstrings/stringstrings.ins | 6 + .../latex/contrib/stringstrings/stringstrings.pdf | Bin 0 -> 436700 bytes 4 files changed, 4411 insertions(+) create mode 100644 macros/latex/contrib/stringstrings/README create mode 100644 macros/latex/contrib/stringstrings/stringstrings.dtx create mode 100644 macros/latex/contrib/stringstrings/stringstrings.ins create mode 100644 macros/latex/contrib/stringstrings/stringstrings.pdf (limited to 'macros/latex/contrib/stringstrings') diff --git a/macros/latex/contrib/stringstrings/README b/macros/latex/contrib/stringstrings/README new file mode 100644 index 0000000000..17f0911ad6 --- /dev/null +++ b/macros/latex/contrib/stringstrings/README @@ -0,0 +1,20 @@ + The stringstrings package + ========================= + +This package provides a large and sundry array of routines for the +manipulation of strings. The routines are developed not only for +cosmetic application, such as the changing of letter cases, selective +removal of character classes, and string substitution, but also for +programming application, such as character look-ahead applications, +argument parsing, if-tests for various string conditions, etc. A key +tenet employed during the development of this package (unlike, for +comparison, the \uppercase and \lowercase routines) was to have +resultant strings be ``expanded'' (i.e., the product of an \edef), so +that the \stringstrings routines could be strung together sequentially and +nested (after a fashion) to achieve very complex manipulations. + +Run `stringstrings.ins' through LaTeX to produce stringstrings.sty + from stringstrings.dtx. +Run `stringstrings.dtx' through LaTeX to produce the documentation. + + diff --git a/macros/latex/contrib/stringstrings/stringstrings.dtx b/macros/latex/contrib/stringstrings/stringstrings.dtx new file mode 100644 index 0000000000..24baeeda9c --- /dev/null +++ b/macros/latex/contrib/stringstrings/stringstrings.dtx @@ -0,0 +1,4385 @@ +% \iffalse +%\ProvidesPackage{stringstrings} +%[2015/02/02 v1.23 +% Extensive array of string manipulation routines for +% cosmetic and programming application] +%\NeedsTeXFormat{LaTeX2e} +%<*driver> +% This work may be distributed and/or modified under the +% conditions of the LaTeX Project Public License, either version 1.3 +% of this license or (at your option) any later version. +% The latest version of this license is in +% http://www.latex-project.org/lppl.txt +% and version 1.3c or later is part of all distributions of LaTeX +% version 2005/12/01 or later. +% +% This work has the LPPL maintenance status `maintained'. +% +% The Current Maintainer of this work is Steven B. Segletes. +% +% v1.00 -Initial Release +% v1.01 -Included support for & character, though it loses catcode 4 +% status +% v1.02 -Bug fix. Needed some % chars in \convertchar to avoid extra spaces +% v1.03 -Documentation fix; notably removed 's' from \narg in \getargs +% v1.04 -Removed \rotate command, as it conflicts with environment in +% \usepackage{rotating} +% v1.10 -Fixed bug in convertword by adding @@@stringsize definition to +% \whereisword +% -Added suite of routines to support \capitalizetitle functionality +% v1.20 -Added ability to encode/decode arbitrary tokens +% v1.21 -Added %, removing extra space (bug) from \whereisword +% v1.22 -Added %, removing extra space (bug) from \getargs +% v1.23 -Changed {~} to {\ } in \retokenizechar +% -Forced all stringtest commands to function outside of math mode +% which will give correct result, when invoked within math mode. +\documentclass{ltxdoc} +\usepackage{stringstrings} +\DisableCrossrefs +\CodelineNumbered +% DEFINE SOME CAMMANDS THAT ARE EASIER HERE THAN IN DocInput ENVIRONMENT +\newcommand\stringstrings{\textsf{stringstrings}~} +\newcommand\coolstr{\textsf{coolstr}~} +% ITALICIZED i.e., +\newcommand{\ie}{\textit{i.e.},~}% +% ITALICIZED e.g., +\newcommand{\eg}{\textit{e.g.},~}% +% ITALICIZED etc. +\newcommand{\etc}{\textit{etc}.}% +\def\modetablelayout{|l|c|c|c|} +\def\mylayout{@{}c|c|l@{}} +\stringencode{\|} +\stringdecode[q]{\thestring} +\edef\mypipe{\thestring} +\stringencode{\carat} +\stringdecode[q]{\thestring} +\edef\mycarat{\thestring} + +\GetFileInfo{stringstrings.sty} +\begin{document} + \title{The \stringstrings Package\\ + \rule{0em}{0.7em}\small\fileinfo} + \author{Steven B. Segletes\\ + steven.b.segletes.civ@mail.mil} + \date{\filedate\\ + \fileversion} + \maketitle + \DocInput{stringstrings.dtx} +\end{document} +% +%\fi +% \parskip 1ex +% \begin{abstract} +% The \stringstrings package provides a large and sundry array of routines +% for the manipulation of strings. The routines are developed not only +% for cosmetic application, such as the changing of letter +% cases, selective removal of character classes, and string +% substitution, +% but also for programming application, such as character look-ahead +% applications, argument parsing, |\if|-tests for various string +% conditions, etc. A key tenet employed during the +% development of this package (unlike, for comparison, the |\uppercase| +% and |\lowercase| routines) was to have resultant strings be +% ``expanded'' (\ie the product of an |\edef|), so that the +% \stringstrings routines could be strung together sequentially and +% nested (after a fashion) to achieve very complex manipulations. +% +% \end{abstract} +% +% \vspace{-.55em} +% \tableofcontents\rule[.2em]{4.5in}{.3mm}\vspace{-1.5em} +% +% \section {Motivation} +% +% There were two seminal moments that brought about my motivation to +% develop this package. The first was the realization of the oft +% cited and infamous \LaTeX{} limitation concerning the inability to +% nest letter-case changes with \LaTeX{}'s intrinsic |\uppercase| and +% |\lowercase| routines. The second, +% though not diminishing its utility in many useful applications, was +% the inherent limitations of the \coolstr package, which is otherwise +% a useful tool for extracting substrings and measuring string lengths. +% +% The former is well documented and need not be delved into in great +% detail. Basically, as it was explained to me, |\uppercase| and +% |\lowercase| are expanded by \LaTeX{} at the last possible moment, and +% thus attempts to capture their result for subsequent use are doomed to +% failure. One is forced to adopt the left-to-right (rather than +% nested) approach to case changes. +% +% In the case of the \coolstr package, I again want to express +% my admiration for the utility of this package. I briefly considered +% building the \stringstrings package around it, but it proved +% unworkable, because of some intrinsic limitations. +% First, \coolstr operates on +% strings, not tokens, and so in order to fool it into working on +% tokenized inputs, one must use the cumbersome nomenclature of +% +% |\expandafter\substr\expandafter{\TokenizedString}{...}{...}| +% \vspace{1ex}\\% +% in order to, for example grab a substring of |\TokenizedString|. One +% may |\def| the result of this subroutine, and use it elsewhere in an +% unaltered state. However, one may not expand, via |\edef|, the +% result of |\substr| in order to use it as input to a subsequent string +% manipulation. And thus, the desire to engage in successive string +% manipulations of different natures (\eg capitalization of leading +% characters, extraction of words, reversal of character sequence, +% removal of character classes, etc., etc.) are not achievable in the +% context of \textsf{coolstr}. +% +% It was this state of affairs that brought me to hunger for routines +% that could thoroughly manipulate strings, and yet produce their result +% ``in the clear'' (\ie in an untokenized form) which could be used as +% input for the next manipulation. It turns out the heart of the +% \stringstrings package which achieves this goal is based on the simple +% (if much maligned) |\if| construct of \LaTeX{}, by using successive +% iterations of the following construct: +% +% |\if <|\textit{test char.}|><|\textit{string}|><|\textit{manipulated +% test char.}|>\else ...\fi| +% \vspace{1ex}\\% +% in which a character at the begining of a string is tested. If a +% match is found, +% the manipulated test character is replaced at the end of the string, +% while the original test character is lopped off from the beginning of +% the string. A false result is used to proceed to a different test +% character. In this manner, the string may be rotated through, +% character by character, performing the desired manipulations. And, +% most importantly, the product of this operation may be placed into an +% |\edef|. +% +% It turns out there was one glitch to this process (which has been +% successfully remedied in the \stringstrings package). And that is that +% there are several tokenized \LaTeX{} symbols (\eg |\$|, |\{|, |\}|, +% |\AE|, |\oe|, etc.) which expand to more than a single byte. If +% I was more savvy on \LaTeX{} constructs, I would probably have known +% how to handle this better. But my solution was to develop my own +% encoding scheme wherein these problematic characters were re-encoded +% in my intermediate calculations as a 2-byte (escape character-escape code) +% combination, and only converted back into \LaTeX{} symbols at the last +% moment, as the finalized strings were handed back to the user. +% +% There are also several tokens, like |\dag|, |\ddag|, |\P|, |\d|, |\t|, +% |\b|, and |\copyright| which +% can not be put into an |\edef| construct. The solution developed for +% strings containing these such characters was to convert the encoded +% string not into an expanded |\edef| construct, but rather back into a +% tokenized form amenable to |\def|. The |\retokenize| command +% accomplishes this task and several others. +% +% There was also one glitch that I have not yet been able to resolve +% to my full satisfaction, though I have provided a workaround. +% And that is the occurance of \LaTeX{} grouping characters, |{| and +% |}|, that might typically occur in math mode. The problem is that the +% character-rotate technique that is the core of \stringstrings breaks +% when rotating these group characters. Why?? Because a string +% comprised of |...{...}...|, during the rotation process, will +% eventually become |...}......{| during an intermediate stage of +% character rotation. This +% latter string breaks \LaTeX{} because it is not a properly constructed +% grouping, even if subsequent rotations would intend to bring it back +% into a proper construction. +% +% And so, while \stringstrings can handle certain math-mode +% constructs (\eg |$|, |^|, and |_|), it is unable to {\it directly} +% handle groupings that are brought about by the use of curly braces. +% Note that |\{| and |\}| are handled just fine, but not |{| and |}|. +% As a result of this limitation regarding the use of grouping braces +% within strings, \stringstrings support for various math symbols +% remains quite limited. +% +% While it is also common to use curly braces to +% delimit the arguments of diacritcal marks in words like +% |m\"{u}de| \etc, the same result can be achieved without the +% use of braces as |m\"ude|, with the proper result obtained: m\"ude. +% For diacritical marks that have an alphabetic token such as the breve, +% given by |\u|, the curly braces can also be omitted, with the only +% change being a space required after the |\u| to delimit the token. +% Thus, |c\u at| becomes c\u at. Therefore, when manipulating strings +% containing diacritical marks, it is best to formulate them, if +% possible, without the use of curly braces. +% +% The workaround fix I have developed, to provide grouping functions +% within \stringstrings arguments, involves the use of newly defined +% tokens |\LB| and |\RB| (to be used in lieu of |{| and |}|), +% along with a command |\retokenize|. This +% workaround will be described subsequently, in the Disclaimers section. +% +% \section{Philosophy of Operation} +% +% There are several classes of commands that have been developed as part +% of the \stringstrings package. In addition to {\bf Configuration +% Commands}, which set parameters for subsequent string operations, +% there are the following command classes: +% \begin{itemize} +% \item {\bf Commands to Manipulate Strings} -- these commands take an +% input string or token and perform a specific manipulation on the +% string; +% \item {\bf Commands to Extract String Information} -- these commands +% take an input string or token, and ascertain a particular +% characteristic of the string; and +% \item {\bf Commands to Test Strings} -- these commands take an input +% string or token and test for a particular alphanumeric condition. +% \end{itemize} +% Of course, there are also {\bf Support Commands} which are low-level +% routines which provide functionality to the package, which are +% generally not accessible to the user. +% +% To support the intended philosophy that the user may achieve a complex +% string manipulation though a series of simpler manipulations (which +% is otherwise known as nesting), a mechanism had to be developed. True +% command nesting of the form |\commandA{\commandB{\commandC{string}}}| +% is {\bf not} supported by the \stringstrings package, since many of +% the manipulation commands make use of (and would thus inadvertantly +% overwrite) the same sets of variables used by other routines. +% Furthermore, there is that 'ol left-to-right philosophy of \LaTeX{} to +% contend with. +% +% Instead, for the case of commands that manipulate strings, the expanded +% (\ie |\edef|'ed) result of the manipulation is placed into a string +% called |\thestring|\DescribeMacro{\thestring}. Then, |\thestring| +% may either be directly used +% as the input to a subsequent operation, or |\edef|'ed into another +% variable to save it for future use. +% +% String manipulation commands use an optional first argument to specify +% what to do with the manipulated string (in addition to putting it in +% |\thestring|). Most string manipulation +% commands default to verbose mode |[v]|\DescribeMacro{[v]}, and print +% out their result immediately on the assumption that a simple string +% manipulation is, many times, all that is required. If the user wishes +% to use the manipulated result as is, but needs to use it later in the +% document, a quiet mode |[q]| \DescribeMacro{[q]} is provided which +% suppresses the immediate output of |\thestring|. +% +% In the absence of symbol tokens (\eg |\$|, |\&|, |\oe|, |\^|, \etc), +% the verbose and quiet modes would prove sufficient. However, when a +% tokenized symbol is |\edef|'ed, the token is expanded to the actual +% symbolic representation of the character. If this expanded symbol is +% used as part of an input string to a +% subsequent \stringstrings manipulation +% routine, it gets confused, because the means to detect the token are +% characteristically different than the means to detect the expanded +% symbol. Thus, if one wishes to use |\thestring| as an input to a +% subsequent manipulation routine, \stringstrings provides an encoded +% mode |[e]| \DescribeMacro{[e]} which places an encoded version of the +% resulting manipulation into +% |\thestring|. The encoded mode is also a quiet mode, since it leaves +% |\thestring| in a visually unappealing state that is intended for +% subsequent manipulation. +% +% The encoded mode is not a \LaTeX{} standard, +% but was developed for this application. And therefore, if the result +% of a \stringstrings manipulation is needed as input for a routine +% outside of the \stringstrings package, the encoded mode will be of no +% use. For this reason (and others), +% the |\retokenize| \DescribeMacro{\retokenize} +% command is provided. Its use is one of only three times that a +% \stringstrings command +% returns a tokenized |\def|'ed string in |\thestring|, rather than an +% expanded, |\edef|'ed string. And in the other two cases, both +% call upon |\retokenize|. +% +% In addition to providing tokenized strings that can be passed to other +% \LaTeX{} packages, |\retokenize| can also remedy \stringstrings problems +% associated with inadequate character encodings (OT1) and the use of +% grouping characters |{| and |}| within \stringstrings arguments. This +% issue is discussed more fully in the Disclaimers section, and in the +% actual |\retokenize| command description. +% +% Therefore, for complex multistage string manipulations, the +% recommended procedure +% is to perform each stage of the manipulation in encoded |[e]| mode, +% passing along |\thestring| to each subsequent stage of the +% manipulation, until the very last manipulation, which should be, +% at the last, performed in verbose |[v]| or quiet |[q]| modes. If +% the resulting manipulation is to be passed to a command outside of the +% \stringstrings package for further manipulation (or if the string +% contains characters which cannot be placed into an |\edef|), +% |\thestring| may +% need to be |\retokenize|'ed. If concatenations of two (or more) different +% manipulations are to be used as input to a third manipulation, +% |\thestring| from the first manipulation will need to be immediately +% |\edef|'ed into a different variable, since |\thestring| will be +% overwritten by the second manipulation (see Table~\ref{tbl:modes} +% for summary). +% \begin{table}[h] +% \begin{center} +% \caption{\bf Execution Modes of \stringstrings Commands +% \label{tbl:modes}}\vspace{0.5em} +% \small +% \begin{tabular}\modetablelayout +% \hline +% Mode & Coding & Use when result is & |\thestring| is\\ +% \hline +% \hline +% |[v]| verbose & decoded or retokenized & final & echoed \\ +% |[q]| quiet & decoded or retokenized & final & not echoed \\ +% |[e]| encoded & encoded & intermediate & not echoed \\ +% \hline +% \end{tabular} +% \end{center} +% \end{table} +% +% Moving on to commands that extract string information, this class of +% commands (unless otherwise noted) output their result into a token +% which is given the name |\theresult|\DescribeMacro{\theresult}. +% This token does not contain a manipulated form of the string, but +% rather a piece of information about the string, such as ``how many +% characters are in the string?'', ``how many words are in the string?'', +% ``how many letter `e's are in the string?'', \etc +% +% The final class of \stringstrings commands are the string-test +% commands. While some of this class of commands also store their +% test result in |\theresult|, most of these commands use the +% |\test|{\it condition}|{|{\it string}|}| |\if|{\it +% condition} constructs (see {\sf ifthen} package) to answer true/false +% questions like ``is the string composed entirely of lowercase +% characters?'', ``is the string's first letter capitalized?'' \etc +% +% \section {Configuration Commands} +% +% \noindent% +% |\Treatments{|{\it U-mode}|}{|{\it l-mode}|}{|{\it p-mode}|}{|{\it% +% n-mode}|}{|{\it s-mode}|}{|{\it b-mode}|}|\\ +% |\defaultTreatments|\\ +% |\encodetoken[|{\it index}|]{|{\it token}|}|\\ +% |\decodetoken[|{\it index}|]{|{\it token}|}|\\ +% |\+|\\ +% |\?| +% +% The command |\Treatments| \DescribeMacro{\Treatments} +% is used to define how different classes of +% characters are to be treated by the command |\substring|, which is the +% brains of the \stringstrings package. As will be explained in the +% next section, most string manipulation routines end up calling +% |\substring|, the difference between them being a matter of how these +% character treatments are set prior to the call. +% Because most string manipulation +% commands will set the treatments as necessary to perform their given +% task, and reset them to the default upon conclusion, one should set +% the |\Treatments| immediately prior to the call upon |\substring|. +% +% |\Treatments| has six arguments, that define the mode of treatment +% for the six classes of characters that \stringstrings has designated. +% All modes are one-digit integers. They are described below: +% \begin{itemize} +% \item{\it U-mode---} This mode defines the +% treatment for the upper-case characters (A--Z, \OE, \AE, \AA, \O, and +% \L). +% A mode of 0 tells |\substring| to remove upper-case characters, a +% mode of 1 indicates to leave upper-case characters alone, and +% a mode of 2 indicates to change the case of upper-case +% characters to lower case. +% +% \item {\it l-mode---} This mode defines the +% treatment for the lower-case characters (a--z, \oe, \ae, \aa, \o, \l, +% and \ss). +% A mode of 0 tells |\substring| to remove lower-case characters, a +% mode of 1 indicates to leave lower-case characters alone, and +% a mode of 2 indicates to change the case of lower-case +% characters to upper case. In the case of the eszett character (\ss), +% there is no uppercase equivalent, and so an {\it l-mode} of 2 will +% leave the eszett unchanged. +% +% \item {\it p-mode---} This mode defines the +% treatment for the punctuation characters. \stringstrings +% defines the punctuation characters as ; : ' " , . ? ` and ! A mode of +% 0 tells |\substring| to remove punctuation characters, while a mode of +% 1 indicates to leave punctuation characters as is. +% +% \item {\it n-mode---} This mode defines the +% treatment for the numerals (0--9). A mode of +% 0 tells |\substring| to remove numerals, while a mode of +% 1 indicates to leave numerals as is. +% +% \item {\it s-mode---} This mode defines the +% treatment for the symbols. \stringstrings +% defines symbols as the following characters and diacritical marks: +% \substring{/ * ( ) - = + [ ] $<$ $>$}{1}{$} \& |\& \% \# \{ \} \_ \$| +% \dag~\ddag~\S~\P~\L~\pounds~\copyright~\v x \^x \~x \"x \`x \'x \=x +% \.x \u x \v x +% \H x \c x \d x \t{xx} \b x as well as |@|, math and text carats, +% and the pipe symbol. A mode of +% 0 tells |\substring| to remove symbols, while a mode of +% 1 indicates to leave symbols as is. Note that the \$ symbol, when +% used for entering and exiting math mode, is left intact, regardless of +% {\it s-mode}. +% +% % \item {\it b-mode---} This mode defines the +% treatment for blankspaces. A mode of +% 0 tells |\substring| to remove blankspaces, while a mode of +% 1 indicates to leave blankspaces as is. The treatment apples to both +% soft (~) as well as hard (|~|) spaces. +% \end{itemize} +% +% The command |\defaultTreatments| \DescribeMacro{\defaultTreatments} +% resets all treatment modes to their default settings, which are to +% leave individual characters unaltered by a string manipulation. +% +% The commands |\encodetoken| \DescribeMacro{\encodetoken} and +% |\decodetoken| \DescribeMacro{\decodetoken} have been introduced in +% \stringstrings v1.20. Prior to this version, the ability of +% \stringstrings to handle a particular token was dependent on whether +% provisions for encoding that token had been explicitly hardwired into +% the \stringstrings package. A large number of alphabetic and +% diacritical marks had reserved encodings set aside in \stringstrings +% for their treatment (see next paragraph or Table 2 for their enumeration). +% However, requests would invariable come in for treating yet another +% token, which required a new \stringstrings release for each revision. +% The command |\encodetoken| allows the user to specify an arbitrary +% token, to be assigned to the reserved encoding slot associated with the +% index (permissible indices are in the range 1--3, 1 being the default). +% Once assigned an encoding slot, a token may be successfully manipulated in +% \stringstrings routines. Once \stringstrings manipulation is +% complete, the token must undergo a |\decodetoken| operation in order +% for that token to be reset to a normal \LaTeX{} token again (lest it +% display in its encoded \stringstrings form). +% +% The commands |\+| and |\?| \DescribeMacro{\+}\DescribeMacro{\?} +% are a pair that work in tandem to turn on \stringstrings encoding and +% turn off \stringstrings encoding, respectively. Generally, the user +% will not need these commands unless he is writing his own routines to +% take advantage of the \stringstrings library. After |\+| is called, +% tokens which would otherwise expand to multi-byte sequences are +% instead encoded according to the \stringstrings methodology. The +% affected tokens +% include +% |\$ \^ \" \{ \} \_ \dag \ddag \P \S \ss \AA \aa \O \o \AE \ae| +% |\OE|, |\oe|, |\~|, |\`|, |\'|, |\=|, |\.|, |\u|, |\v|, |\H|, |\c|, +% |\d|, |\t|, |\b|, |\copyright|, |\pounds|, |\L|, |\l|, and |\ss|. In +% addition, pipes, text carats, and hard spaces (|~|) are encoded +% as well. The command |\?| restores the +% standard \LaTeX{} encoding for these tokens. +% +% \section {Commands to Manipulate Strings} +% +% These commands take an +% input string or token and perform a specific manipulation on the +% string. They include: +% +% \noindent|\substring[|{\it mode}|]{|{\it +% string}|}{|{\it min}|}{|{\it max}|}|\\ +% |\caseupper[|{\it mode}|]{|{\it string}|}|\\ +% |\caselower[|{\it mode}|]{|{\it string}|}|\\ +% |\solelyuppercase[|{\it mode}|]{|{\it string}|}|\\ +% |\solelylowercase[|{\it mode}|]{|{\it string}|}|\\ +% |\changecase[|{\it mode}|]{|{\it string}|}|\\ +% |\noblanks[|{\it mode}|]{|{\it string}|}|\\ +% |\nosymbolsnumerals[|{\it mode}|]{|{\it string}|}|\\ +% |\alphabetic[|{\it mode}|]{|{\it string}|}|\\ +% |\capitalize[|{\it mode}|]{|{\it string}|}|\\ +% |\capitalizewords[|{\it mode}|]{|{\it string}|}|\\ +% |\capitalizetitle[|{\it mode}|]{|{\it string}|}|\\ +% |\addlcword{|{\it word}|}|\\ +% |\addlcwords{|{\it word1 word2 word3 \ldots}|}|\\ +% |\resetlcwords|\\ +% |\reversestring[|{\it mode}|]{|{\it string}|}|\\ +% |\convertchar[|{\it mode}|]{|{\it +% string}|}{|{\it from-char}|}{|{\it to-string}|}|\\ +% |\convertword[|{\it mode}|]{|{\it +% string}|}{|{\it from-string}|}{|{\it to-string}|}|\\ +% |\rotateword[|{\it mode}|]{|{\it string}|}|\\ +% |\removeword[|{\it mode}|]{|{\it string}|}|\\ +% |\getnextword[|{\it mode}|]{|{\it string}|}|\\ +% |\getaword[|{\it mode}|]{|{\it string}|}{|{\it n}|}|\\ +% |\rotateleadingspaces[|{\it mode}|]{|{\it string}|}|\\ +% |\removeleadingspaces[|{\it mode}|]{|{\it string}|}|\\ +% |\stringencode[|{\it mode}|]{|{\it string}|}|\\ +% |\stringdecode[|{\it mode}|]{|{\it string}|}|\\ +% |\gobblechar[|{\it mode}|]{|{\it string}|}|\\ +% |\gobblechars[|{\it mode}|]{|{\it string}|}{|{\it n}|}|\\ +% |\retokenize[|{\it mode}|]{|{\it string}|}| +% +% \noindent +% Unless otherwise noted, the {\it mode} may take one of three values: +% |[v]| for verbose mode (generally, the default), |[q]| for quiet mode, +% and |[e]| for encoded mode. In all cases, the result of +% the operation is stored in |\thestring|. In verbose mode, it is also +% output immediately (and may be captured by an |\edef|). In quiet mode, +% no string is output, though the result still resides in |\thestring|. +% Encoded mode is also a quiet mode. However, the encoded mode saves +% the string with its \stringstrings encodings. Encoded mode indicates +% that the result is an intermediate result which will be subsequently +% used as input to another \stringstrings manipulation. +% +% The command |\substring| \DescribeMacro{\substring} is the brains of +% the \stringstrings package, in that most of the commands in this +% section call upon |\substring| in one form or another. Nominally, the +% routine returns a substring of {\it string} between the characters +% defined by the integers {\it min} and {\it max}, inclusive. +% However, the returned substring is +% affected by the designated |\Treatments| which have been defined +% for various classes of characters. Additionally, a shorthand of \$ +% may be used in {\it min} and {\it max} to define END-OF-STRING, and +% the shorthand \$--{\it integer} may be used to define an offset of +% {\it integer} relative to the END-OF-STRING. +% +% Regardless of how many bytes a \LaTeX{} token otherwise expands +% to, or how many characters are in the token name, each \LaTeX{} +% symbol token +% counts as a single character for the purposes of defining the +% substring limits, {\it min} and {\it max}. +% +% While the combination of |\Treatments| and |\substring| are sufficient +% to achieve a wide array of character manipulations, many of those +% possibilities are useful enough that separate commands have been +% created to describe them, for convenience. Several of the commands +% that follow fall into this category. +% +% The command |\caseupper| \DescribeMacro{\caseupper} takes the input +% string or token, and converts all lowercase characters in the string +% to uppercase. All other character classes are left untouched. +% Default mode is |[v]|. +% +% The command |\caselower| \DescribeMacro{\caselower} takes the input +% string or token, and converts all uppercase characters in the string +% to lowercase. All other character classes are left untouched. +% Default mode is |[v]|. +% +% The command |\solelyuppercase| \DescribeMacro{\solelyuppercase} is +% similar to |\caseupper|, except that all punctuation, numerals, and +% symbols are discarded from the string. Blankspaces are left alone, +% and lowercase characters are converted to uppercase. +% Default mode is |[v]|. +% +% The command |\solelylowercase| \DescribeMacro{\solelylowercase} is +% similar to |\caselower|, except that all punctuation, numerals, and +% symbols are discarded from the string. Blankspaces are left alone, +% and uppercase characters are converted to lowercase. +% Default mode is |[v]|. +% +% The command |\changecase| \DescribeMacro{\changecase} switches lower +% case to upper case and upper case to lower case. All other characters +% are left unchanged. +% Default mode is |[v]|. +% +% The command |\noblanks| \DescribeMacro{\noblanks} removes blankspaces +% (both hard and soft) from +% a string, while leaving other characters unchanged. +% Default mode is |[v]|. +% +% The command |\nosymbolsnumerals| \DescribeMacro{\nosymbolsnumerals} +% removes symbols and numerals from +% a string, while leaving other characters unchanged. +% Default mode is |[v]|. +% +% The command |\alphabetic| \DescribeMacro{\alphabetic} discards +% punctuation, symbols, and numerals, while retaining alphabetic +% characters and blankspaces. +% Default mode is |[v]|. +% +% The command |\capitalize| \DescribeMacro{\capitalize} turns the first +% character of {\it string} into its upper case, if it is alphabetic. +% Otherwise, that character will remain unaltered. +% Default mode is |[v]|. +% +% The command |\capitalizewords| \DescribeMacro{\capitalizewords} turns +% the first character of every word in {\it string} into its upper +% case, if it is alphabetic. +% Otherwise, that character will remain unaltered. For the purposes of +% this command, ``the first character of a word'' is defined as either +% the first character of the string, or the first non-blank +% character that follows one or more blankspaces. +% Default mode is |[v]|. +% +% The command |\capitalizetitle| \DescribeMacro{\capitalizetitle} is a +% command similar to |\capitalizewords|, except that words which have +% been previously designated as ``lower-case words'' are not +% capitalized (\eg prepositions, conjunctions, \etc). In all cases, +% the first word of the string is +% capitalized, even if it is on the lower-case word list. Words are +% added to the lower-case word list with the commands +% |\addlcword|\DescribeMacro{\addlcword}, in the case of a single word, +% or with |\addlcwords|\DescribeMacro{\addlcwords}, in the case of +% multiple (space-separated) words. Because the addition of many words +% to the lower-case list can substantially slow-down the execution of +% the |\capitalizetitle| command, the command +% |\resetlcwords| \DescribeMacro{\resetlcwords} has been added to +% allow the user to zero out the lower-case word list. +% (See newer \textsf{titlecaps} package as an alternative to this +% command.) +% +% The command |\reversestring| \DescribeMacro{\reversestring} reverses +% the sequence of characters in a string, such that what started as +% the first character becomes the last character in the manipulated +% string, and what started as the last character becomes the +% first character. +% Default mode is |[v]|. +% +% The command |\convertchar| \DescribeMacro{\convertchar} is a substitution +% command in which a specified match character in the original string +% ({\it from-char}) is substituted with a different string ({\it +% to-string}). All occurances of {\it from-char} in the original +% string are replaced. The {\it from-char} can only be a single +% character (or tokenized symbol), whereas {\it to-string} can range +% from the null-string (\ie character removal) to a single character +% (\ie character substitution) +% to a complete multi-character string. +% Default mode is |[v]|. +% +% The command |\convertword| \DescribeMacro{\convertword} is a substitution +% command in which a specified match string in the original string +% ({\it from-string}) is substituted with a different string ({\it +% to-string}). All occurances of {\it from-string} in the original +% string are replaced. If {\it from-string} includes spaces, use +% hard-space |(~)| characters instead of blanks. +% Default mode is |[v]|. +% +% The command |\rotateword| \DescribeMacro{\rotateword} takes the first +% word of {\it string} (and its leading and trailing spaces) +% and rotates them to the end of the string. +% Care must be taken to have a blankspace at the beginning or end +% of {\it string} if one wishes to retain a blankspace word +% separator between the original last word of the string and the +% original first word which has been rotated to the end of the string. +% Default mode is |[v]|. +% +% The command |\removeword| \DescribeMacro{\removeword} removes the +% first word of {\it string}, along with any of its leading and trailing +% spaces. +% Default mode is |[v]|. +% +% The command |\getnextword| \DescribeMacro{\getnextword} returns the +% next word of {\it string}. In this case, ``word'' is a sequence of +% characters delimited either by spaces or by the beginning or end +% of the string. +% Default mode is |[v]|. +% +% The command |\getaword| \DescribeMacro{\getaword} returns a +% word of {\it string} defined by the index, {\it n}. +% In this case, ``word'' is a sequence of +% characters delimited either by spaces or by the first or last +% characters of the string. If the index, {\it n}, requested exceeds the +% number of words available in the string, the index wraps around back +% to the first argument of the string, such that asking for the tenth word +% of an eight word string will return the second word of the string. +% Default mode is |[v]|. +% +% The command |\rotateleadingspaces| +% \DescribeMacro{\rotateleadingspaces} takes any leading spaces of the +% string and rotates them to the end of the string. +% Default mode is |[v]|. +% +% The command |\removeleadingspaces| +% \DescribeMacro{\removeleadingspaces} removes any leading spaces of the +% string. +% Default mode is |[v]|. +% +% The command |\stringencode| \DescribeMacro{\stringencode} returns a +% copy of the string that has been encoded according to the +% \stringstrings encoding scheme. Because an encoded string is an +% intermediate result, the default mode for this command is |[e]|. +% +% The command |\stringdecode| \DescribeMacro{\stringdecode} returns a +% copy of the string that has been decoded. +% Default mode is |[v]|. +% +% The command |\gobblechar| \DescribeMacro{\gobblechar} returns a string +% in which the first character of {\it string} has been removed. Unlike +% the \LaTeX{} system command |\@gobble| which removes the next {\bf +% byte} in +% the input stream, |\gobblechar| not only takes an argument as the +% target of its gobble, but also removes one {\bf character}, regardless +% of whether that character is a single-byte or multi-byte character. +% Because this command may have utility outside of the \stringstrings +% environment, the result of this command is retokenized (\ie |def|'ed) +% rather than expanded (\ie |edef|'ed). +% Default mode is |[q]|. Mode |[e]| is not recognized. +% +% The command |\gobblechars| \DescribeMacro{\gobblechars} returns a string +% in which the first {\it n} characters of {\it string} have been removed. +% Like |\gobblechar|, |\gobblechars| removes characters, regardless +% of whether those characters are single-byte or multi-byte characters. +% Likewise, the result of this command is retokenized (\ie |def|'ed) +% rather than expanded (\ie |edef|'ed). +% Default mode is |[q]|. Mode |[e]| is not recognized. +% +% The command |\retokenize| \DescribeMacro{\retokenize} takes a string +% that is encoded according to the \stringstrings encoding scheme, and +% repopulates the encoded characters with their \LaTeX{} tokens. This +% command is particularly useful for exporting a string to a routine +% outside of the \stringstrings library or if the string includes +% the following +% characters: |\{|, |\}|, \verb,\|,, |\dag|, |\ddag|, |\d|, |\t|, |\b|, +% |\copyright|, and |\P|. +% Default mode is |[q]|. Mode |[e]| is not recognized. +% +% \section {Commands to Extract String Information} +% +% These commands +% take an input string or token, and ascertain a particular +% characteristic of the string. They include: +% +% \noindent|\stringlength[|{\it mode}|]{|{\it string}|}|\\ +% |\findchars[|{\it mode}|]{|{\it string}|}{|{\it match-char}|}|\\ +% |\findwords[|{\it mode}|]{|{\it string}|}{|{\it match-string}|}|\\ +% |\whereischar[|{\it mode}|]{|{\it string}|}{|{\it match-char}|}|\\ +% |\whereisword[|{\it mode}|]{|{\it string}|}{|{\it match-string}|}|\\ +% |\wordcount[|{\it mode}|]{|{\it string}|}|\\ +% |\getargs[|{\it mode}|]{|{\it string}|}| +% +% \noindent Commands in this section return their result in the string +% |\theresult|, unless otherwise specified. +% Unless otherwise noted, the {\it mode} may take one of two values: +% |[v]| for verbose mode (generally, the default), and |[q]| for quiet +% mode. In both cases, the result of +% the operation is stored in |\theresult|. In verbose mode, it is also +% output immediately (and may be captured by an |\edef|). In quiet mode, +% no string is output, though the result still resides in |\theresult|. +% +% The command |\stringlength| \DescribeMacro{\stringlength} returns the +% length of {\it string} in characters (not bytes). +% Default mode is |[v]|. +% +% The command |\findchars| \DescribeMacro{\findchars} checks to see if +% the character {\it match-char} occurs anywhere in {\it string}. The +% number of occurances is stored in |\theresult| and, if in verbose +% mode, printed. If it is desired to find blankspaces, {\it match-char} +% should be set to |{~}| and not |{ }|. +% Default mode is |[v]|. +% +% The command |\findwords| \DescribeMacro{\findwords} checks to see if +% the string {\it match-string} occurs anywhere in {\it string}. The +% number of occurances is stored in |\theresult| and, if in verbose +% mode, printed. If it is desired to find blankspaces, those +% characters in {\it match-string} +% should be set to hardspaces (\ie tildes) and not softspaces (\ie +% blanks), regardless of how they are defined in {\it string}. +% Default mode is |[v]|. +% +% The command |\whereischar| \DescribeMacro{\whereischar} checks to see +% where +% the character {\it match-char} first occurs in {\it string}. The +% location of that occurance is stored in |\theresult| and, if in verbose +% mode, printed. If the character is not found, |\theresult| is set to +% a value of 0. If it is desired to find blankspaces, {\it match-char} +% should be set to |{~}| and not |{ }|. +% Default mode is |[v]|. +% +% The command |\whereisword| \DescribeMacro{\whereisword} checks to see +% where +% the string {\it match-string} first occurs in {\it string}. The +% location of that occurance is stored in |\theresult| and, if in verbose +% mode, printed. If {\it match-string} is not found, |\theresult| is set to +% a value of 0. If it is desired to find blankspaces, those characters +% in {\it match-string} +% should be set to hardspaces (\ie tildes) and not softspaces (\ie +% blanks), regardless of how they are defined in {\it string}. +% Default mode is |[v]|. +% +% The command |\wordcount| \DescribeMacro{\wordcount} counts the number +% of space-separated words that occur in {\it string}. +% Default mode is |[v]|. +% +% The command |\getargs| \DescribeMacro{\getargs} mimics the Unix +% command of the same name, in that it parses {\it string} to determine +% how many arguments (\ie words) are in {\it string}, and extracts +% each word into a separate variable. The number of arguments is placed +% in |\narg| and the individual arguments are placed in variables of +% the name |\argi|, |\argii|, |\argiii|, |\argiv|, etc. This command +% may be used to facilitate simply the use of multiple optional +% arguments in a \LaTeX{} command, for example +% |\mycommand[|{\it option1 option2 option3}|]{|{\it argument}|}|. +% In this case, +% |\mycommand| should exercise |\getargs{#1}|, with the result being +% that {\it option1} is stored in |\argi|, \etc~The command |\mycommand| +% may then proceed to parse the optional arguments and branch +% accordingly. +% Default mode is |[q]|; |[e]| mode is permitted, while |[v]| mode +% is disabled. +% +% \section {Commands to Test Strings} +% +% These commands take an input +% string or token and test for a particular alphanumeric condition. +% They include: +% +% \noindent% +% |\isnextbyte[|{\it mode}|]{|{\it match-byte}|}{|{\it string}|}|\\ +% |\testmatchingchar{|{\it +% string}|}{|{\it n}|}{|{\it match-char}|}|\\ +% |\testcapitalized{|{\it string}|}|\\ +% |\testuncapitalized{|{\it string}|}|\\ +% |\testleadingalpha{|{\it string}|}|\\ +% |\testuppercase{|{\it string}|}|\\ +% |\testsolelyuppercase{|{\it string}|}|\\ +% |\testlowercase{|{\it string}|}|\\ +% |\testsolelylowercase{|{\it string}|}|\\ +% |\testalphabetic{|{\it string}|}| +% +% The command |\isnextbyte| \DescribeMacro{\isnextbyte} tests to see if +% the first byte of {\it string} equals {\it match-byte}. It +% is the only string-testing command in +% this section which does not use the {\sf ifthen} test structure for +% its result. Rather, |\isnextbyte| returns the result of its test as +% a |T| or |F| in the string |\theresult|. More importantly, and +% unlike other \stringstrings commands, |\isnextbyte| is a {\it byte} test +% and not a {\it character} test. This means that, while |\isnextbyte| +% operates very efficiently, it cannot +% be used to directly detect multi-byte characters like |\$|, +% |\^|, |\{|, |\}|, |\_|, |\dag|, |\ddag|, |\AE|, |\ae|, |\OE|, +% |\oe|, \etc~(|\isnextbyte| will give false positives or negatives +% when testing for these multi-byte characters). +% The default mode of |\isnextbyte| is |[v]|. +% +% If a character needs to be tested, rather than a byte, +% \DescribeMacro{\testmatchingchar} |\testmatchingchar| should be used. +% The command |\testmatchingchar| is +% used to ascertain whether character {\it n} of {\it string} equals +% {\it match-char} or not. Whereas |\isnextbyte| checks only a {\it +% byte}, |\testmatchingchar| tests for a {\it character} (single- or +% multi-byte character). After the test is called, the action(s) may be +% called out with |\ifmatchingchar| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testcapitalized| \DescribeMacro{\testcapitalized} is +% used to ascertain whether the first character of {\it string} is +% capitalized or not. If the first character is non-alphabetic, the +% test will return FALSE. After the test is called, the action(s) may be +% called out with |\ifcapitalized| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testuncapitalized| \DescribeMacro{\testuncapitalized} is +% used to ascertain whether the first character of {\it string} is +% uncapitalized. If the first character is non-alphabetic, the +% test will return FALSE. After the test is called, the action(s) may be +% called out with |\ifuncapitalized| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testleadingalpha| \DescribeMacro{\testleadingalpha} is +% used to ascertain whether the first character of {\it string} is +% alphabetic. After the test is called, the action(s) may be +% called out with |\ifleadingalpha| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testuppercase| \DescribeMacro{\testuppercase} is +% used to ascertain whether all the alphabetic characters in {\it +% string} are uppercase or not. The presence of non-alphabetic +% characters in {\it string} does not falsify the test, +% but are merely ignored. However, a string completely void of +% alphabetic characters will always test FALSE. +% After the test is called, the action(s) may be +% called out with |\ifuppercase| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testsolelyuppercase| +% \DescribeMacro{\testsolelyuppercase} is +% used to ascertain whether {\it all} the characters in {\it +% string} are uppercase or not. The presence of non-alphabetic +% characters in {\it string} other than blankspaces will automatically +% falsify the test. Blankspaces are ignored. However, a null string or +% a string composed solely of blankspaces will also test FALSE. +% After the test is called, the action(s) may be +% called out with |\ifsolelyuppercase| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testlowercase| \DescribeMacro{\testlowercase} is +% used to ascertain whether all the alphabetic characters in {\it +% string} are lowercase or not. The presence of non-alphabetic +% characters in {\it string} does not falsify the test, +% but are merely ignored. However, a string completely void of +% alphabetic characters will always test FALSE. +% After the test is called, the action(s) may be +% called out with |\iflowercase| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testsolelylowercase| +% \DescribeMacro{\testsolelylowercase} is +% used to ascertain whether {\it all} the characters in {\it +% string} are lowercase or not. The presence of non-alphabetic +% characters in {\it string} other than blankspaces will automatically +% falsify the test. Blankspaces are ignored. However, a null string or +% a string composed solely of blankspaces will also test FALSE. +% After the test is called, the action(s) may be +% called out with |\ifsolelylowercase| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% The command |\testalphabetic| +% \DescribeMacro{\testalphabetic} is +% used to ascertain whether {\it all} the characters in {\it +% string} are alphabetic or not. The presence of non-alphabetic +% characters in {\it string} other than blankspaces will automatically +% falsify the test. Blankspaces are ignored. However, a null string or +% a string composed solely of blankspaces will also test FALSE. +% After the test is called, the action(s) may be +% called out with |\ifalphabetic| {\it true-code} |\else| {\it +% false-code} |\fi|. +% +% \section{Disclaimers} +% +% Now that we have described the commands available in the +% \stringstrings package, it is appropriate to lay out the quirks and +% warnings associated with the use of the package. +% +% First, \stringstrings is currently set to handle a string no larger +% than 500 characters. A user could circumvent this, presumably, by +% editing the style package to increase the value of +% |\@MAXSTRINGSIZE| \DescribeMacro{\@MAXSTRINGSIZE}. +% +% It is important to remember that \stringstrings follows the underlying +% rules of \LaTeX{}. Therefore, a passed string could not contain a raw +% |%| as part of it, because it would, in fact, comment out the +% remainder of the line. Naturally, the string may freely contain +% instances of |\%|. +% +% Tokens that take two or more characters to express +% (\eg |\#|, |\oe|, |\ddag|, \etc) are {\bf counted as +% a single character} within the string. +% The rule applies if you wanted to know the length +% of a string that was populated with such tokens, or wanted to extract +% a substring from a such a string. Of course, the exception that makes +% the rule is that of diacritical marks, which count as separate symbols +% from the characters they mark. For example, +% |\^a| counts as two characters, because the |a| is +% really just the operand of the |\^| token, even though the net result +% looks like a single character (\^a). +% +% Consistent with +% \LaTeX{} convention, groups of spaces are treated as a single +% blankspace, unless encoded with |~| characters. And finally, again +% consistent with the way \LaTeX{} operates, the space +% that follows an alphabetic token is not actually a space in the +% string, but serves as the delimiter to the token. Therefore, +% |\OE dipus| (\OE dipus) has a length of six characters, +% one for the |\OE| and five +% for the |dipus|. The intervening space merely closes out the |\OE| +% token, and does not represent a space in the middle of the string. +% +% One quirk worthy of particular note concerns the tabbing character, +% meaning \& +% as opposed to |\&| (which is handled without problem). +% As of version 1.01, \stringstrings has the +% capability to operate on arguments containg the ampersand \&, +% normally reserved as the \LaTeX{} tabbing character. However, one +% adverse by-product is that \& characters returned in |\thestring| +% lose their catcode-4 value, and thus lose their ability to function as +% tabbing characters. In the following example,\\ +% | |\\ +% | \caseupper[q]{a & b & c & d}|\\ +% | \begin{tabular}{|\verb,|l|c|c|c|,|}|\\ +% | \hline|\\ +% | \thestring\\|\\ +% | \hline|\\ +% | \end{tabular}|\\ +% | |\\ +% will produce \caseupper[q]{a & b & c & d} +% \begin{tabular}{\modetablelayout} +% \hline +% \thestring\\ +% \hline +% \end{tabular} +% instead of the desired +% \begin{tabular}{\modetablelayout} +% \hline +% A & B & C & D\\ +% \hline +% \end{tabular} +% . +% +% In the |\substring| command, no tests are performed to guarantee that +% the lower limit, {\it min}, is less than the upper limit, {\it max}, +% or that {\it min} is even positive. However, the upper limit, +% {\it max}, is corrected, if set larger than the string length. Also, +% the use of the `\$' symbol to signify the last character of the string +% and `\$--{\it n}' to denote an offset of {\it n} characters from the +% end of the string can be helpful in avoiding the misindexing of strings. +% +% \begin{table}[p] +% \caption{\bf Problematic Characters/Tokens and \stringstrings Solutions% +% \label{tbl:prob}}\vspace{.5em} +% \small +% \begin{tabular}{\mylayout} +% \LaTeX{} & Symbol/Name & Problem/Solution\\ +% \hline +% \hline +% |{| & begin group & Cannot use |{| and |}| in \stringstrings +% arguments.\\ +% |}| & end group & However, use |\LB|\ldots|\RB| in lieu of |{|\ldots|}|;\\ +% & & manipulate string in |[e]| mode \& |\retokenize| \\ +% \hline +% |\dag| & \dag~~Dagger & Cannot |\edef| these tokens; Thus, |[v]| mode\\ +% |\ddag| & \ddag~~Double Dagger & fails with both OT1 and T1 encoding; \\ +% |\P| & \P~~Pilcrow & manipulate string in |[e]| mode \& |\retokenize| \\ +% |\d| & \d x~~Underdot & \\ +% |\t| & \t xx~~Joining Arch & \\ +% |\b| & \b x~~Letter Underline & \\ +% |\copyright| & \copyright~Copyright & \\ +% \hline +% \hline +% |\_| & \_~~Underscore & Cannot |\edef| with OT1 encoding; either\\ +% |\{| & \{~~Left Curly Brace & |\renewcommand\encodingdefault{T1}|, or \\ +% |\}| & \}~~Right Curly Brace & +% manipulate string in |[e]| mode \& |\retokenize|. \\ +% |\S| & \S~~Section Symbol & With OT1, |\S|, |\c| and |\pounds| break\\ +% |\c| & \c x~~Cedilla & \stringstrings |[v]| mode.\\ +% |\pounds| & \pounds~~Pounds & \\ +% \hline +% \verb,\|,& \stringstrings Pipe Char. & Distinct from \verb,|,, +% the \stringstrings encoded-\\ +% & \verb,|, (T1) ~~~\stringdecode{\|} (OT1) & escape character\\ +% \hline +% \hline +% |\$| & \$~~Dollar & Either cannot |\edef|, or\\ +% |\carat| & \mycarat~~(text mode) & +% cannot identify uniquely with |\if| construct, or \\ +% |\^| & \^x~~Circumflex & expanded character is more than one byte. \\ +% |\'| & \'x~~Acute & \\ +% |\"| & \"x~~Umlaut & {\it However},\\ +% |\~| & \~x~~Tilde & +% Use these characters freely, \stringstrings\\ +% |\`| & \`x~~Grave & +% encoding functions transparently with them.\\ +% |\.| & \.x~~Overdot & \\ +% |\=| & \=x~~Macron & |\retokenize| also works\\ +% |\u| & \u x~~Breve & \\ +% |\v| & \v x~~Caron & \\ +% |\H| & \H x~~Double Acute & \\ +% |\ss| & \ss~~Eszett & \\ +% |\AE \ae| & \AE~\ae~~\ae sc & \\ +% |\OE \oe| & \OE~\oe~~\oe thel & \\ +% |\AA \aa| & \AA~\aa~~angstrom & \\ +% |\O \o| & \O~\o~~slashed O & \\ +% |\L \l| & \L~\l~~barred L & \\ +% |~| & Hardspace &\\ +% \hline +% |$| & begin/end math mode & These characters pose no difficulties;\\ +% |^| & math superscript & However, cannot extract substring that \\ +% |_| & math subscript & breaks in middle of math mode.\\ +% & & Other math mode symbols NOT supported.\\ +% \hline +% \& & ampersand & Version 1.01 \stringstrings can manipulate the\\ +% & & ampersand. However, returned strings\\ +% & & containing the \& character lose their\\ +% & & catcode-4 status, making them unfit\\ +% & & for use as tabbing characters.\\ +% \hline +% \hline +% \end{tabular} +% \end{table} +% Table~\ref{tbl:prob} shows a variety of characters and tokens, some of +% which pose a challenge to \stringstrings manipulations. In all cases, +% a solution or workaround is provided. For symbols in the top two +% categories, the workaround +% solution includes the use of retokenized strings instead of expanded +% strings. For symbols in the next two categories, use of T1 encoding +% or retokenizing provides a satisfactory solution. In the bottom three +% categories, because of \stringstrings encoded |[e]| mode, +% there is nothing to impede the use of these characters in +% \stringstrings arguments, if encoded |[e]| mode is employed for +% intermediate calculations. Some of the +% details of these problematic cases is described below. +% +% Not surprisingly, you are not allowed to extract a substring of a +% string, if it breaks in the middle of math mode, because a substring +% with only one |$| in it cannot be |\edef|'ed. +% +% There are a few potential quirks when using \LaTeX{}'s native OT1 +% character encoding, most of which can be circumvented by using the +% more modern +% T1 encoding (accessed via |\renewcommand\encodingdefault{T1}| in the +% document preamble). The quirks arise because there are +% several characters that, while displayable in \LaTeX{}, are not part +% of the OT1 character encoding. The characters include |\{|, |\}|, and +% the \verb,|, symbol (accessed in \stringstrings via \verb,\|,). +% When using \stringstrings to manipulate strings containing +% these characters in the presence of OT1 encoding, +% they come out looking like \stringdecode{\{}, \stringdecode{\}}, +% and \stringdecode{\|}, respectively. However, if the T1 encoding fix +% is not an option for you, you can also work around this problem by +% |\retokenize|'ing the affected string (the |\retokenize| command is +% provided to convert encoded, expanded strings back into tokenized +% form, if need be). +% +% Likewise, for both OT1 and T1 encoding, the characters \dag~(|\dag|), +% \ddag~(|\ddag|), \P~(|\P|), \d~~(|\d|), \t~~~(|\t|), \b~~~(|\b|), +% and \copyright~(|\copyright|) +% cannot be in the argument of an |\edef| expression. For +% manipulated strings including these characters, |\retokenize| is the +% only option available to retain the integrity of the string. +% +% As discussed thoroughly in the previous section, an ``encoded'' form of +% the string manipulation routines is provided to prevent the +% undesirable circumstance of passing an |\edef|'ed symbol as input +% to a subsequent manipulation. Likewise, never try to ``decode'' +% an already ``decoded'' string. +% +% When \stringstrings doesn't understand a token, it is supposed to +% replace it with a period. However, some undecipherable characters may +% inadvertantly be replaced with a space, instead. Of course, neither +% of these possibilities is any comfort to the user. +% +% As mentioned already, \stringstrings cannot handle curly braces that +% are used for grouping purposes, a circumstance which often arises in +% math mode. Nonetheless, |\LB| and |\RB| may be used within +% \stringstrings arguments in lieu of grouping braces, {\it if the final +% result is to be retokenized}. Thus, |\caselower[e]{$X^\LB Y + Z\RB$}| +% followed by |\convertchar[e]{\thestring}{x}{(1+x)}|, when finished up +% with the following command, +% |\retokenize[v]{\thestring}| yields as its result:\\ +% \caselower[e]{$X^\LB Y + Z\RB$}\convertchar[e]{\thestring}{x}{(1+x)} +% \retokenize[v]{\thestring}. +% +% One might ask, ``why not retokenize everything, instead of using the +% |[v]| mode of the \stringstrings routines?'' While one {\it could} +% do this, the answer is simply +% that |\retokenize| is a computationally intensive command, and that +% it is best used, therefore, only when the more efficient methods +% will not suffice. In many, if not most cases, strings to be +% manipulated will be solely composed of alphanumeric characters which +% don't require the use of |\retokenize|, T1 encoding, or even +% \stringstrings encoding. +% +% Despite these several disclaimers and workarounds required when +% dealing with problematic characters, I hope you find the \stringstrings +% architecture and feel to be straightforward and useful. There is only +% one thing left, and that is to dissect the code\ldots and so here we +% go. +% +%% \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 \~} +% \StopEventually{} +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% \vspace{-0.8em} +% \begin{macro}{stringstrings.sty} +% \section{Code Listing} +% I'll try to lay out herein +% the workings of the \stringstrings style package. +% \begin{macrocode} +%<*package> + +%%%%% INITIALIZATIONS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +\catcode`\&=12 +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{ifthen} +% This package makes wide use of the {\sf ifthen} style package. +% \begin{macrocode} +\usepackage{ifthen} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@MAXSTRINGSIZE} +% The parameter |\@MAXSTRINGSIZE| defines the maximum allowable string +% size that \stringstrings can operate upon. +% \begin{macrocode} +\def\@MAXSTRINGSIZE{500} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +\def\endofstring{@E@o@S@}% +\def\undecipherable{.}% UNDECIPHERABLE TOKENS TO BE REPLACED BY PERIOD +\def\@blankaction{\BlankSpace} +% \end{macrocode} +% Save the symbols which will get redefined \stringstrings encoding. + +% \begin{macrocode} +\let\SaveDollar\$ +\let\SaveHardspace~ +\let\SaveCircumflex\^ +\let\SaveTilde\~ +\let\SaveUmlaut\" +\let\SaveGrave\` +\let\SaveAcute\' +\let\SaveMacron\= +\let\SaveOverdot\. +\let\SaveBreve\u +\let\SaveCaron\v +\let\SaveDoubleAcute\H +\let\SaveCedilla\c +\let\SaveUnderdot\d +\let\SaveArchJoin\t +\let\SaveLineUnder\b +\let\SaveCopyright\copyright +\let\SavePounds\pounds +\let\SaveLeftBrace\{ +\let\SaveRightBrace\} +\let\SaveUnderscore\_ +\let\SaveDagger\dag +\let\SaveDoubleDagger\ddag +\let\SaveSectionSymbol\S +\let\SavePilcrow\P +\let\SaveAEsc\AE +\let\Saveaesc\ae +\let\SaveOEthel\OE +\let\Saveoethel\oe +\let\SaveAngstrom\AA +\let\Saveangstrom\aa +\let\SaveSlashedO\O +\let\SaveSlashedo\o +\let\SaveBarredL\L +\let\SaveBarredl\l +\let\SaveEszett\ss +\let\SaveLB{ +\let\SaveRB} +% \end{macrocode} + +% The BlankSpace character is the only character which is reencoded +% with a 1-byte re-encoding\ldots in this case the \OE~character. +% \begin{macrocode} +\def\EncodedBlankSpace{\SaveOEthel} +\edef\BlankSpace{ } +% \end{macrocode} +% All other reencoded symbols consist of 2 bytes: an escape character +% plus a unique code. The escape character is a pipe symbol. the +% unique code comprises either a single number, letter, or symbol. + +% \begin{macrocode} +\def\EscapeChar{|} + +% |0 IS AN ENCODED |, ACCESSED VIA \| +\def\PipeCode{0} +\def\EncodedPipe{\EscapeChar\PipeCode} +\def\Pipe{|} +\let\|\EncodedPipe + +% |1 IS AN ENCODED \$ +\def\DollarCode{1} +\def\EncodedDollar{\EscapeChar\DollarCode} +% THE FOLLOWING IS NEEDED TO KEEP OT1 ENCODING FROM BREAKING; +% IT PROVIDES AN ADEQUATE BUT NOT IDEAL ENVIRONMENT FOR T1 ENCODING +\def\Dollar{\symbol{36}} +% THE FOLLOWING IS BETTER FOR T1 ENCODING, BUT BREAKS OT1 ENCODING +%\def\Dollar{\SaveDollar} + +% |W IS RESERVED TO BE ASSIGNED TO AN ARBITRARY TOKEN +\def\UvariCode{W} +\def\EncodedUvari{\EscapeChar\UvariCode} +\def\Uvari{Uvari} +\let\uvari\EncodedUvari + +% |X IS RESERVED TO BE ASSIGNED TO AN ARBITRARY TOKEN +\def\UvariiCode{X} +\def\EncodedUvarii{\EscapeChar\UvariiCode} +\def\Uvarii{Uvarii} +\let\uvarii\EncodedUvarii + +% |Y IS RESERVED TO BE ASSIGNED TO AN ARBITRARY TOKEN +\def\UvariiiCode{Y} +\def\EncodedUvariii{\EscapeChar\UvariiiCode} +\def\Uvariii{Uvariii} +\let\uvariii\EncodedUvariii + +% |2 IS AN ENCODED ^ FOR USE IN TEXT MODE, ACCESSED VIA \carat +\def\CaratCode{2} +\def\EncodedCarat{\EscapeChar\CaratCode} +\def\Carat{\symbol{94}} +\let\carat\EncodedCarat + +% |4 IS AN ENCODED \{ +\def\LeftBraceCode{4} +\def\EncodedLeftBrace{\EscapeChar\LeftBraceCode} +% THE FOLLOWING IS NEEDED TO KEEP OT1 ENCODING FROM BREAKING; +% IT PROVIDES AN ADEQUATE BUT NOT IDEAL ENVIRONMENT FOR T1 ENCODING +\def\LeftBrace{\symbol{123}} +% THE FOLLOWING IS BETTER FOR T1 ENCODING, BUT BREAKS OT1 ENCODING +%\def\LeftBrace{\SaveLeftBrace} + +% |5 IS AN ENCODED \} +\def\RightBraceCode{5} +\def\EncodedRightBrace{\EscapeChar\RightBraceCode} +% THE FOLLOWING IS NEEDED TO KEEP OT1 ENCODING FROM BREAKING; +% IT PROVIDES AN ADEQUATE BUT NOT IDEAL ENVIRONMENT FOR T1 ENCODING +\def\RightBrace{\symbol{125}} +% THE FOLLOWING IS BETTER FOR T1 ENCODING, BUT BREAKS OT1 ENCODING +%\def\RightBrace{\SaveRightBrace} + +% |6 IS AN ENCODED \_ +\def\UnderscoreCode{6} +\def\EncodedUnderscore{\EscapeChar\UnderscoreCode} +\def\Underscore{\symbol{95}} +%\def\Underscore{\SaveUnderscore} + +% |7 IS AN ENCODED \^ +\def\CircumflexCode{7} +\def\EncodedCircumflex{\EscapeChar\CircumflexCode} +\def\Circumflex{\noexpand\SaveCircumflex} + +% |8 IS AN ENCODED \~ +\def\TildeCode{8} +\def\EncodedTilde{\EscapeChar\TildeCode} +\def\Tilde{\noexpand\SaveTilde} + +% |" IS AN ENCODED \" +\def\UmlautCode{"} +\def\EncodedUmlaut{\EscapeChar\UmlautCode} +\def\Umlaut{\noexpand\SaveUmlaut} + +% |` IS AN ENCODED \` +\def\GraveCode{`} +\def\EncodedGrave{\EscapeChar\GraveCode} +\def\Grave{\noexpand\SaveGrave} + +% |' IS AN ENCODED \' +\def\AcuteCode{'} +\def\EncodedAcute{\EscapeChar\AcuteCode} +\def\Acute{\noexpand\SaveAcute} + +% |= IS AN ENCODED \= +\def\MacronCode{=} +\def\EncodedMacron{\EscapeChar\MacronCode} +\def\Macron{\noexpand\SaveMacron} + +% |. IS AN ENCODED \. +\def\OverdotCode{.} +\def\EncodedOverdot{\EscapeChar\OverdotCode} +\def\Overdot{\noexpand\SaveOverdot} + +% |u IS AN ENCODED \u +\def\BreveCode{u} +\def\EncodedBreve{\EscapeChar\BreveCode} +\def\Breve{\noexpand\SaveBreve} + +% |v IS AN ENCODED \v +\def\CaronCode{v} +\def\EncodedCaron{\EscapeChar\CaronCode} +\def\Caron{\noexpand\SaveCaron} + +% |H IS AN ENCODED \H +\def\DoubleAcuteCode{H} +\def\EncodedDoubleAcute{\EscapeChar\DoubleAcuteCode} +\def\DoubleAcute{\noexpand\SaveDoubleAcute} + +% |c IS AN ENCODED \c +\def\CedillaCode{c} +\def\EncodedCedilla{\EscapeChar\CedillaCode} +\def\Cedilla{\noexpand\SaveCedilla} + +% |d IS AN ENCODED \d +\def\UnderdotCode{d} +\def\EncodedUnderdot{\EscapeChar\UnderdotCode} +\def\Underdot{.}% CANNOT \edef \d + +% |t IS AN ENCODED \t +\def\ArchJoinCode{t} +\def\EncodedArchJoin{\EscapeChar\ArchJoinCode} +\def\ArchJoin{.}% CANNOT \edef \t + +% |b IS AN ENCODED \b +\def\LineUnderCode{b} +\def\EncodedLineUnder{\EscapeChar\LineUnderCode} +\def\LineUnder{.}% CANNOT \edef \b + +% |C IS AN ENCODED \copyright +\def\CopyrightCode{C} +\def\EncodedCopyright{\EscapeChar\CopyrightCode} +\def\Copyright{.}% CANNOT \edef \copyright + +% |p IS AN ENCODED \pounds +\def\PoundsCode{p} +\def\EncodedPounds{\EscapeChar\PoundsCode} +\def\Pounds{\SavePounds} + +% |[ IS AN ENCODED { +\def\LBCode{[} +\def\EncodedLB{\EscapeChar\LBCode} +\def\UnencodedLB{.} +\def\LB{\EncodedLB} + +% |] IS AN ENCODED } +\def\RBCode{]} +\def\EncodedRB{\EscapeChar\RBCode} +\def\UnencodedRB{.} +\def\RB{\EncodedRB} + +% |z IS AN ENCODED \dag +\def\DaggerCode{z} +\def\EncodedDagger{\EscapeChar\DaggerCode} +\def\Dagger{.}% CANNOT \edef \dag + +% |Z IS AN ENCODED \ddag +\def\DoubleDaggerCode{Z} +\def\EncodedDoubleDagger{\EscapeChar\DoubleDaggerCode} +\def\DoubleDagger{.}% CANNOT \edef \ddag + +% |S IS AN ENCODED \S +\def\SectionSymbolCode{S} +\def\EncodedSectionSymbol{\EscapeChar\SectionSymbolCode} +\def\SectionSymbol{\SaveSectionSymbol} + +% |P IS AN ENCODED \P +\def\PilcrowCode{P} +\def\EncodedPilcrow{\EscapeChar\PilcrowCode} +\def\Pilcrow{.}% CANNOT \edef \P + +% |E IS AN ENCODED \AE +\def\AEscCode{E} +\def\EncodedAEsc{\EscapeChar\AEscCode} +\def\AEsc{\SaveAEsc} + +% |e IS AN ENCODED \ae +\def\aescCode{e} +\def\Encodedaesc{\EscapeChar\aescCode} +\def\aesc{\Saveaesc} + +% |O IS AN ENCODED \OE +\def\OEthelCode{O} +\def\EncodedOEthel{\EscapeChar\OEthelCode} +\def\OEthel{\SaveOEthel} + +% |o IS AN ENCODED \oe +\def\oethelCode{o} +\def\Encodedoethel{\EscapeChar\oethelCode} +\def\oethel{\Saveoethel} + +% |A IS AN ENCODED \AA +\def\AngstromCode{A} +\def\EncodedAngstrom{\EscapeChar\AngstromCode} +\def\Angstrom{\SaveAngstrom} + +% |a IS AN ENCODED \aa +\def\angstromCode{a} +\def\Encodedangstrom{\EscapeChar\angstromCode} +\def\angstrom{\Saveangstrom} + +% |Q IS AN ENCODED \O +\def\SlashedOCode{Q} +\def\EncodedSlashedO{\EscapeChar\SlashedOCode} +\def\SlashedO{\SaveSlashedO} + +% |q IS AN ENCODED \o +\def\SlashedoCode{q} +\def\EncodedSlashedo{\EscapeChar\SlashedoCode} +\def\Slashedo{\SaveSlashedo} + +% |L IS AN ENCODED \L +\def\BarredLCode{L} +\def\EncodedBarredL{\EscapeChar\BarredLCode} +\def\BarredL{\SaveBarredL} + +% |l IS AN ENCODED \l +\def\BarredlCode{l} +\def\EncodedBarredl{\EscapeChar\BarredlCode} +\def\Barredl{\SaveBarredl} + +% |s IS AN ENCODED \ss +\def\EszettCode{s} +\def\EncodedEszett{\EscapeChar\EszettCode} +\def\Eszett{\SaveEszett} + +\newcounter{@letterindex} +\newcounter{@@letterindex} +\newcounter{@@@letterindex} +\newcounter{@wordindex} +\newcounter{@iargc} +\newcounter{@gobblesize} +\newcounter{@maxrotation} +\newcounter{@stringsize} +\newcounter{@@stringsize} +\newcounter{@@@stringsize} +\newcounter{@revisedstringsize} +\newcounter{@gobbleindex} +\newcounter{@charsfound} +\newcounter{@alph} +\newcounter{@alphaindex} +\newcounter{@capstrigger} +\newcounter{@fromindex} +\newcounter{@toindex} +\newcounter{@previousindex} +\newcounter{@flag} +\newcounter{@matchloc} +\newcounter{@matchend} +\newcounter{@matchsize} +\newcounter{@matchmax} +\newcounter{@skipped} +\newcounter{@lcwords} +% \end{macrocode} +% \begin{macrocode} +%%%%% CONFIGURATION COMMANDS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% \end{macrocode} + +% \begin{macro}{\defaultTreatments} +% This command can be used to restore the default string treatments, +% prior to calling |\substring|. The default treatments leave all +% symbol types intact and unaltered. +% \begin{macrocode} +\newcommand\defaultTreatments{% + \def\EncodingTreatment{v}% <--Set=v to decode special chars (vs. q,e) + \def\AlphaCapsTreatment{1}% <--Set=1 to retain uppercase (vs. 0,2) + \def\AlphaTreatment{1}% <--Set=1 to retain lowercase (vs. 0,2) + \def\PunctuationTreatment{1}% <--Set=1 to retain punctuation (vs. 0) + \def\NumeralTreatment{1}% <--Set=1 to retain numerals (vs. 0) + \def\SymbolTreatment{1}% <--Set=1 to retain special chars (vs. 0) + \def\BlankTreatment{1}% <--Set=1 to retain blanks (vs. 0) + \def\CapitalizeString{0}% <--Set=0 for no special action (vs. 1,2) + \def\SeekBlankSpace{0}% <--Set=0 for no special action (vs. 1,2) +} +\defaultTreatments +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\Treatments} +% This command allows the user to specify the desired character class +% treatments, prior to a call to |\substring|. Unfortunately for the +% user, I have specified which character class each symbol belongs to. +% Therefore, it is not easy if the user decides that he wants a cedilla, +% for example, to be treated like an alphabetic character rather than +% a symbol. +% \begin{macrocode} +% QUICK WAY TO SET UP TREATMENTS BY WHICH \@rotate HANDLES VARIOUS +% CHARACTERS +\newcommand\Treatments[6]{% + \def\AlphaCapsTreatment{#1}% <--Set=0 to remove uppercase +% =1 to retain uppercase +% =2 to change UC to lc + \def\AlphaTreatment{#2}% <--Set=0 to remove lowercase +% =1 to retain lowercase +% =2 to change lc to UC + \def\PunctuationTreatment{#3}%<--Set=0 to remove punctuation +% =1 to retain punctuation + \def\NumeralTreatment{#4}% <--Set=0 to remove numerals +% =1 to retain numerals + \def\SymbolTreatment{#5}% <--Set=0 to remove special chars +% =1 to retain special chars + \def\BlankTreatment{#6}% <--Set=0 to remove blanks +% =1 to retain blanks +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\+} +% This command (|\+|) is used to enact the \stringstrings encoding. +% Key symbols are redefined, and any |\edef| which occurs while this +% command is active will adopt these new definitions. +% \begin{macrocode} +% REENCODE MULTIBYTE SYMBOLS USING THE stringstrings ENCODING METHOD +\newcommand\+{% + \def\${\EncodedDollar}% + \def~{\EncodedBlankSpace}% + \def\^{\EncodedCircumflex}% + \def\~{\EncodedTilde}% + \def\"{\EncodedUmlaut}% + \def\`{\EncodedGrave}% + \def\'{\EncodedAcute}% + \def\={\EncodedMacron}% + \def\.{\EncodedOverdot}% + \def\u{\EncodedBreve}% + \def\v{\EncodedCaron}% + \def\H{\EncodedDoubleAcute}% + \def\c{\EncodedCedilla}% + \def\d{\EncodedUnderdot}% + \def\t{\EncodedArchJoin}% + \def\b{\EncodedLineUnder}% + \def\copyright{\EncodedCopyright}% + \def\pounds{\EncodedPounds}% + \def\{{\EncodedLeftBrace}% + \def\}{\EncodedRightBrace}% + \def\_{\EncodedUnderscore}% + \def\dag{\EncodedDagger}% + \def\ddag{\EncodedDoubleDagger}% + \def\S{\EncodedSectionSymbol}% + \def\P{\EncodedPilcrow}% + \def\AE{\EncodedAEsc}% + \def\ae{\Encodedaesc}% + \def\OE{\EncodedOEthel}% + \def\oe{\Encodedoethel}% + \def\AA{\EncodedAngstrom}% + \def\aa{\Encodedangstrom}% + \def\O{\EncodedSlashedO}% + \def\o{\EncodedSlashedo}% + \def\L{\EncodedBarredL}% + \def\l{\EncodedBarredl}% + \def\ss{\EncodedEszett}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\?} +% The command |\?| reverts the character encodings back to the standard +% \LaTeX{} definitions. The command effectively undoes a previously +% enacted |\+|. +% \begin{macrocode} +% WHEN TASK IS DONE, REVERT ENCODING TO STANDARD ENCODING METHOD +\newcommand\?{% + \let\$\SaveDollar% + \let~\SaveHardspace% + \let\^\SaveCircumflex% + \let\~\SaveTilde% + \let\"\SaveUmlaut% + \let\`\SaveGrave% + \let\'\SaveAcute% + \let\=\SaveMacron% + \let\.\SaveOverdot% + \let\u\SaveBreve% + \let\v\SaveCaron% + \let\H\SaveDoubleAcute% + \let\c\SaveCedilla% + \let\d\SaveUnderdot% + \let\t\SaveArchJoin% + \let\b\SaveLineUnder% + \let\copyright\SaveCopyright% + \let\pounds\SavePounds% + \let\{\SaveLeftBrace% + \let\}\SaveRightBrace% + \let\_\SaveUnderscore% + \let\dag\SaveDagger% + \let\ddag\SaveDoubleDagger% + \let\S\SaveSectionSymbol% + \let\P\SavePilcrow% + \let\AE\SaveAEsc% + \let\ae\Saveaesc% + \let\OE\SaveOEthel% + \let\oe\Saveoethel% + \let\AA\SaveAngstrom% + \let\aa\Saveangstrom% + \let\O\SaveSlashedO% + \let\o\SaveSlashedo% + \let\L\SaveBarredL% + \let\l\SaveBarredl% + \let\ss\SaveEszett% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\encodetoken} +% The command |\encodetoken| assigns the supplied token to one of three +% reserved \stringstrings user variables (the optional argument dictates +% which user variable). Once encoded, the supplied token cannot be used +% in the normal way, but only in stringstrings routines, unless and +% until it is decoded. +% \begin{macrocode} +\newcommand\encodetoken[2][1]{% + \if 1#1% + \let\Uvari#2% + \let#2\uvari\else + \if 2#1% + \let\Uvarii#2% + \let#2\uvarii\else + \if 3#1% + \let\Uvariii#2% + \let#2\uvariii% + \fi + \fi + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\decodetoken} +% The command |\decodetoken| deassigns the supplied token from the +% reserved \stringstrings user variables (the optional argument dictates +% which user variable), so that the token may be used in the normal way +% again. +% \begin{macrocode} +\newcommand\decodetoken[2][1]{% + \if 1#1% + \let#2\Uvari% + \def\Uvari{Uvari}\else + \if 2#1% + \let#2\Uvarii% + \def\Uvarii{Uvarii}\else + \if 3#1% + \let#2\Uvariii% + \def\Uvariii{Uvariii}% + \fi + \fi + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +%%%%% COMMANDS TO MANIPULATE STRINGS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% \end{macrocode} + +% In the next group of commands, the result is always stored in an +% expandable string, |\thestring|. Expandable means that |\thestring| can +% be put into a subsequent |\edef{}| command. Additionally, the +% optional first argument can be used to cause three actions (verbose, +% encoded, or quiet): +% \begin{enumerate} +% \item [|=v|] |\thestring| is decoded (final result); +% print it immediately (default) +% \item [|=e|] |\thestring| is encoded (intermediate result); +% don't print it +% \item [|=q|] |\thestring| is decoded (final result), +% but don't print it +% \end{enumerate} +% \begin{macro}{\substring} +% The command |\substring| is the brains of this package\ldots +% It is used to acquire a substring from a given string, along with +% performing specified character manipulations along the way. +% Its strategy is fundamental to the \stringstrings +% package: sequentially rotate the 1st character of the +% string to the end of the string, until the desired substring resides +% at end of rotated string. Then, gobble up the leading part of +% string until only the desired substring is left. +% \begin{macrocode} +\newcommand\substring[4][v]{\+% +% \end{macrocode} +% Obtain the string length of the string to be manipulated and store +% it in |@stringsize|. +% \begin{macrocode} + \@getstringlength{#2}{@stringsize}% +% \end{macrocode} +% First, +% |\@decodepointer| is used to convert indirect references like |$| +% and |$-3| into integers. +% \begin{macrocode} + \@decodepointer{#3}% + \setcounter{@fromindex}{\@fromtoindex}% + \@decodepointer{#4}% + \setcounter{@toindex}{\@fromtoindex}% +% \end{macrocode} +% Determine the number of characters to rotate to the end of the string +% and the number of characters to then gobble from it, in order to leave +% the desired substring. +% \begin{macrocode} + \setcounter{@gobblesize}{\value{@stringsize}}% + \ifthenelse{\value{@toindex} > \value{@stringsize}}% + {\setcounter{@maxrotation}{\value{@stringsize}}}% + {\setcounter{@maxrotation}{\value{@toindex}}}% + \addtocounter{@gobblesize}{-\value{@maxrotation}}% + \addtocounter{@gobblesize}{\value{@fromindex}}% + \addtocounter{@gobblesize}{-1}% +% \end{macrocode} +% Prepare for the string rotation by initializing counters, setting the +% targeted string into the working variable, |\rotatingword|, and set +% the encoding treatment specified. +% \begin{macrocode} + \setcounter{@letterindex}{0}% + \edef\rotatingword{#2}% + \def\EncodingTreatment{#1}% +% \end{macrocode} +% If capitalization (first character of string or of each word) +% was specified, the +% trigger for 1st-character capitalization will be set. However, +% the treatments for the alphabetic characters for the remainder of the +% string must be saved and reinstituted after the first character is +% capitalized. +% \begin{macrocode} + \if 0\CapitalizeString% +% DO NOT SET CAPITALIZE TRIGGER FOR FIRST CHARACTER + \setcounter{@capstrigger}{0}% + \else +% SAVE CERTAIN TREATMENTS FOR LATER RESTORATION + \let\SaveAlphaTreatment\AlphaTreatment% + \let\SaveAlphaCapsTreatment\AlphaCapsTreatment% +% SET CAPITALIZE TRIGGER FOR FIRST CHARACTER + \setcounter{@capstrigger}{1}% + \@forcecapson% + \fi +% \end{macrocode} +% The command |\@defineactions| looks at the defined treatments +% and specifies how each of the \stringstrings encoded +% characters should be handled (\ie left alone, removed, modified, +% \etc). +% \begin{macrocode} +\@defineactions% +% \end{macrocode} +% Here begins the primary loop of |\substring| in which characters of +% |\rotatingword| are successively moved (and possibly manipulated) +% from the first character of the string to the last. |@letterindex| is +% the running index defining how many characters have been operated on. +% \begin{macrocode} + \whiledo{\value{@letterindex} < \value{@maxrotation}}{% + \addtocounter{@letterindex}{1}% +% \end{macrocode} +% When |\CapitalizeString| equals 1, only the first character of the +% string is capitalized. When it equals 2, every word in the string +% is capitalized. When equal to 2, this bit of code looks for the +% blankspace that follows the end of a word, and uses it to reset the +% capitalization trigger for the next non-blank character. +% \begin{macrocode} +% IF NEXT CHARACTER BLANK WHILE \CapitalizeString=2, +% SET OR KEEP ALIVE TRIGGER. + \if 2\CapitalizeString% + \isnextbyte[q]{\EncodedBlankSpace}{\rotatingword}% + \if F\theresult\isnextbyte[q]{\BlankSpace}{\rotatingword}\fi% + \if T\theresult% + \if 0\arabic{@capstrigger}% + \@forcecapson% + \@defineactions% + \fi + \setcounter{@capstrigger}{2}% + \fi + \fi +% \end{macrocode} +% Is the next character an encoded symbol? If it is a normal character, +% simply rotate it to the end of the string. +% If it is an encoded symbol however, its +% treatment will depend on whether it will be gobbled away or end up +% in the final substring. If it will be gobbled away, leave it encoded, +% because the gobbling routine knows how to gobble encoded characters. +% If it will end up in the substring, manipulate it according to the +% encoding rules set in |\@defineactions| and rotate it. +% \begin{macrocode} +% CHECK IF NEXT CHARACTER IS A SYMBOL + \isnextbyte[q]{\EscapeChar}{\rotatingword}% + \ifthenelse{\value{@letterindex} < \value{@fromindex}}% + {% +% THIS CHARACTER WILL EVENTUALLY BE GOBBLED + \if T\theresult% +% ROTATE THE ESCAPE CHARACTER, WHICH WILL LEAVE THE SYMBOL ENCODED +% FOR PROPER GOBBLING (ESCAPE CHARACTER DOESN'T COUNT AS A LETTER) + \edef\rotatingword{\@rotate{\rotatingword}}% + \addtocounter{@letterindex}{-1}% + \else +% NORMAL CHARACTER OR SYMBOL CODE... ROTATE IT + \edef\rotatingword{\@rotate{\rotatingword}}% + \fi + }% + {% +% THIS CHARACTER WILL EVENTUALLY MAKE IT INTO SUBSTRING + \if T\theresult% +% ROTATE THE SYMBOL USING DEFINED TREATMENT RULES + \edef\rotatingword{\ESCrotate{\expandafter\@gobble\rotatingword}}% + \else +% NORMAL CHARACTER... ROTATE IT + \edef\rotatingword{\@rotate{\rotatingword}}% + \fi + }% +% \end{macrocode} +% Here, the capitalization trigger persistently tries to turn +% itself off with each loop +% through the string rotation. Only if the earlier code found the +% rotation to be pointing to the blank character(s) between words while +% |\CapitalizeString| equals 2 will the trigger be prevented from +% extinguishing itself. +% \begin{macrocode} +% DECREMENT CAPITALIZATION TRIGGER TOWARDS 0, EVERY TIME THROUGH LOOP + \if 0\arabic{@capstrigger}% + \else + \addtocounter{@capstrigger}{-1}% + \if 0\arabic{@capstrigger}\@relaxcapson\fi + \fi +% \end{macrocode} +% In addition to the standard |\substring| calls in which fixed +% substring limits are specified (which in turn fixes the number of +% character rotations to be executed), some \stringstrings commands +% want the rotations to continue until a blankspace is located. +% This bit of code looks for that blank space, if that was the option +% requested. Once found, the rotation will stop. However, depending +% on the value of |\SeekBlankSpace|, the remainder of the string may +% either be retained or discarded. +% \begin{macrocode} +% IF SOUGHT SPACE IS FOUND, END ROTATION OF STRING + \if 0\SeekBlankSpace\else + \isnextbyte[q]{\EncodedBlankSpace}{\rotatingword}% + \if F\theresult\isnextbyte[q]{\BlankSpace}{\rotatingword}\fi% + \if T\theresult% + \if 1\SeekBlankSpace% +% STOP ROTATION, KEEP REMAINDER OF STRING + \setcounter{@maxrotation}{\value{@letterindex}}% + \else +% STOP ROTATION, THROW AWAY REMAINDER OF STRING + \addtocounter{@gobblesize}{\value{@maxrotation}}% + \setcounter{@maxrotation}{\value{@letterindex}}% + \addtocounter{@gobblesize}{-\value{@maxrotation}}% + \fi + \fi + \fi + }% +% \end{macrocode} +% The loop has ended.\\ +% Gobble up the first |@gobblesize| characters (not bytes!)~of the string, +% which should leave the desired substring as the remainder. If the +% mode is verbose, print out the resulting substring. +% \begin{macrocode} +% GOBBLE AWAY THAT PART OF STRING THAT ISN'T PART OF REQUESTED SUBSTRING + \@gobblearg{\rotatingword}{\arabic{@gobblesize}}% + \edef\thestring{\gobbledword}% + \if v#1\thestring\fi% +\?} +% \end{macrocode} +% \end{macro} + +% Many of the following commands are self-expanatory. The recipe they +% follow is to use |\Treatments| to specify how different character +% classes are to be manipulated, and then to call upon |\substring| to +% effect the desired manipulation. Treatments are typically +% re-defaulted at the conclusion of the command, which is why the user, +% if desiring special treatments, should specify those treatments +% immediately before a call to |\substring|. +% \begin{macro}{\caseupper} +% \begin{macrocode} +% Convert Lower to Uppercase; retain all symbols, numerals, +% punctuation, and blanks. +\newcommand\caseupper[2][v]{% + \Treatments{1}{2}{1}{1}{1}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\caselower} +% \begin{macrocode} +% Convert Upper to Lowercase; retain all symbols, numerals, +% punctuation, and blanks. +\newcommand\caselower[2][v]{% + \Treatments{2}{1}{1}{1}{1}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\solelyuppercase} +% \begin{macrocode} +% Convert Lower to Uppercase; discard symbols, numerals, and +% punctuation, but keep blanks. +\newcommand\solelyuppercase[2][v]{% + \Treatments{1}{2}{0}{0}{0}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\solelylowercase} +% \begin{macrocode} +% Convert Upper to Lowercase; discard symbols, numerals, and +% punctuation, but keep blanks. +\newcommand\solelylowercase[2][v]{% + \Treatments{2}{1}{0}{0}{0}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\changecase} +% \begin{macrocode} +% Convert Lower to Uppercase & Upper to Lower; retain all symbols, numerals, +% punctuation, and blanks. +\newcommand\changecase[2][v]{% + \Treatments{2}{2}{1}{1}{1}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\noblanks} +% \begin{macrocode} +% Remove blanks; retain all else. +\newcommand\noblanks[2][v]{% + \Treatments{1}{1}{1}{1}{1}{0}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\nosymbolsnumerals} +% \begin{macrocode} +% Retain case; discard symbols & numerals; retain +% punctuation & blanks. +\newcommand\nosymbolsnumerals[2][v]{% + \Treatments{1}{1}{1}{0}{0}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\alphabetic} +% \begin{macrocode} +% Retain case; discard symbols, numerals & +% punctuation; retain blanks. +\newcommand\alphabetic[2][v]{% + \Treatments{1}{1}{0}{0}{0}{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\capitalize} +% The command |\CapitalizeString| is not set by |\Treatments|, but +% only in |\capitalize| or in |\capitalizewords|. +% \begin{macrocode} +% Capitalize first character of string, +\newcommand\capitalize[2][v]{% + \defaultTreatments% + \def\CapitalizeString{1}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \def\CapitalizeString{0}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\capitalizewords} +% \begin{macrocode} +% Capitalize first character of each word in string, +\newcommand\capitalizewords[2][v]{% + \defaultTreatments% + \def\CapitalizeString{2}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \def\CapitalizeString{0}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\reversestring} +% Reverses a string from back to front. To do this, a loop is set +% up in which characters are grabbed one at a time from the end of the +% given string, working towards the beginning of the string. The +% grabbed characters are concatenated onto the end of the working +% string, |\@reversedstring|. By the time the loop is complete +% |\@reversedstring| fully represents the reversed string. The result +% is placed into |\thestring|. +% \begin{macrocode} +% REVERSES SEQUENCE OF CHARACTERS IN STRING +\newcommand\reversestring[2][v]{% + \def\@reversedstring{}% + \+\@getstringlength{#2}{@@stringsize}\?% + \setcounter{@@@letterindex}{\the@@stringsize}% + \whiledo{\the@@@letterindex > 0}{% + \if e#1% + \substring[e]{#2}{\the@@@letterindex}{\the@@@letterindex}% + \else + \substring[q]{#2}{\the@@@letterindex}{\the@@@letterindex}% + \fi + \edef\@reversedstring{\@reversedstring\thestring}% + \addtocounter{@@@letterindex}{-1}% + }% + \edef\thestring{\@reversedstring}% + \if v#1\thestring\fi% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\convertchar} +% Takes a string, and replaces each occurance of a specified character +% with a replacement string. The only complexity in the logic is that +% a separate replacement algorithm exists depending on whether the +% specified character to be replaced is a normal character or an +% encoded character. +% \begin{macrocode} +% TAKES A STARTING STRING #2 AND SUBSTITUTES A SPECIFIED STRING #4 +% FOR EVERY OCCURANCE OF A PARTICULAR GIVEN CHARACTER #3. THE +% CHARACTER TO BE CONVERTED MAY BE EITHER A PLAIN CHARACTER OR +% AN ENCODABLE SYMBOL. +\newcommand\convertchar[4][v]{% + \+% + \edef\encodedstring{#2}% + \edef\encodedfromarg{#3}% + \edef\encodedtoarg{#4}% + \?% + \isnextbyte[q]{\EscapeChar}{\encodedfromarg}% + \if F\theresult% +% PLAIN "FROM" ARGUMENT + \@convertbytetostring[#1]{\encodedstring}{#3}{\encodedtoarg}% + \else +% ENCODABLE "FROM" ARGUMENT + \@convertsymboltostring[#1]{\encodedstring}% + {\expandafter\@gobble\encodedfromarg}{\encodedtoarg}% + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\convertword} +% Takes a string, a replaces each occurance of a specified string +% with a replacement string. +% \begin{macrocode} +\newcounter{@@matchloc} +% LIKE \convertchar, EXCEPT FOR WORDS +\newcommand\convertword[4][v]{% + \+\edef\@@teststring{#2}% + \edef\@fromstring{#3}% + \edef\@tostring{#4}\?% + \edef\@@@teststring{\@@teststring}% + \def\@buildfront{}% + \edef\@buildstring{\@@teststring}% + \setcounter{@charsfound}{0}% + \whiledo{\the@charsfound > -1}{% +% \end{macrocode} +% Seek occurance of |\@fromstring| in larger |\@@teststring| +% \begin{macrocode} + \whereisword[q]{\@@teststring}{\@fromstring}% + \setcounter{@matchloc}{\theresult}% + \ifthenelse{\the@matchloc = 0}% + {% +% \end{macrocode} +% Not found. Done. +% \begin{macrocode} + \setcounter{@charsfound}{-1}% + }% + {% +% \end{macrocode} +% Potential matchstring. +% \begin{macrocode} + \addtocounter{@charsfound}{1}% +% \end{macrocode} +% Grab current test string from beginning to point just prior +% to potential match. +% \begin{macrocode} + \addtocounter{@matchloc}{-1}% + \substring[e]{\@@@teststring}{1}{\the@matchloc}% +% \end{macrocode} +% The string |\@buildfront| is the total original string, with +% string substitutions, from character 1 to current potential match. +% \begin{macrocode} + \edef\@buildfront{\@buildfront\thestring}% +% \end{macrocode} +% See if potential matchstring takes us to end-of-string\ldots +% \begin{macrocode} + \addtocounter{@matchloc}{1}% + \addtocounter{@matchloc}{\the@matchsize}% + \ifthenelse{\the@matchloc > \the@@@stringsize}% + {% +% \end{macrocode} +% \ldots if so, then match is last one in string. Tack on replacement +% string to |\@buildfront| to create final string. Exit. +% \begin{macrocode} + \setcounter{@charsfound}{-1}% + \edef\@buildstring{\@buildfront\@tostring}% + }% + {% +% \end{macrocode} +% \ldots if not, redefine current teststring to begin at point following +% the current substitution. Make substitutions to current +% |\@buildstring| and |\@buildfront|. Loop through logic again on new +% teststring. +% \begin{macrocode} + \substring[e]{\@@@teststring}{\the@matchloc}{\@MAXSTRINGSIZE}% + \edef\@@teststring{\thestring}% + \edef\@@@teststring{\@@teststring}% + \edef\@buildstring{\@buildfront\@tostring\@@@teststring}% + \edef\@buildfront{\@buildfront\@tostring}% + }% + }% + }% + \substring[#1]{\@buildstring}{1}{\@MAXSTRINGSIZE}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\resetlcwords} +% Removes all words from designated ``lower-case words'' list. This can +% be useful because large lists of lower-case words can significantly +% slow-down the function of |\capitalizetitle|. +% \begin{macrocode} +\setcounter{@lcwords}{0} +% RESET LOWER-CASE WORD COUNT; START OVER +\newcommand\resetlcwords[0]{% + \setcounter{@lcwords}{0}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\addlcwords} +% Add words to the list of designated ``lower-case words'' which will +% not be capitalized by |\capitalizetitle|. The input should consist of +% space-separated words, which are, in turn, passed on to |\addlcword|. +% \begin{macrocode} +% PROVIDE LIST OF SPACE-SEPARATED WORDS TO REMAIN LOWERCASE IN TITLES +\newcommand\addlcwords[1]{% + \getargs{#1}% + \setcounter{@wordindex}{0}% + \whiledo{\value{@wordindex} < \narg}{% + \addtocounter{@wordindex}{1}% + \addlcword{\csname arg\roman{@wordindex}\endcsname}% + } +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\addlcword} +% Add a word to the list of designated ``lower-case words'' which will +% not be capitalized by |\capitalizetitle|. +% \begin{macrocode} +% PROVIDE A SINGLE WORD TO REMAIN LOWERCASE IN TITLES +\newcommand\addlcword[1]{% + \addtocounter{@lcwords}{1}% + \expandafter\edef\csname lcword\roman{@lcwords}\endcsname{#1} +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\capitalizetitle} +% Makes every word of a multi-word input string capitalized, except for +% specifically noted ``lower-case words'' (examples might include +% prepositions, conjunctions, \etc). The first word of the input string +% is capitalized, while lower-case words, previously designated with +% |\addlcword| and |\addlcwords|, are left in lower case. +% \begin{macrocode} +% CAPITALIZE TITLE, EXCEPT FOR DESIGNATED "LOWER-CASE" WORDS +\newcommand\capitalizetitle[2][v]{% +% First, capitalize every word (save in encoded form, not printed) + \capitalizewords[e]{#2}% +% Then lowercase words that shouldn't be capitalized, like articles, +% prepositions, etc. (save in encoded form, not printed) + \setcounter{@wordindex}{0}% + \whiledo{\value{@wordindex} < \value{@lcwords}}{% + \addtocounter{@wordindex}{1}% + \edef\mystring{\thestring}% + \edef\lcword{\csname lcword\roman{@wordindex}\endcsname}% + \capitalize[e]{\lcword}% + \edef\ucword{\thestring}% + \convertword[e]{\mystring}{\ucword~}{\lcword~}% + } +% Finally, recapitalize the first word of the Title, and print it. + \capitalize[#1]{\thestring}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\rotateword} +% Moves first word of given string |#2| to end of string, including +% leading and trailing blank spaces. +% \begin{macrocode} +\newcommand\rotateword[2][v]{% + \+\edef\thestring{#2}\?% +% \end{macrocode} +% Rotate leading blank spaces to end of string +% \begin{macrocode} + \@treatleadingspaces[e]{\thestring}{}% +% \end{macrocode} +% Define end-of-rotate condition for |\substring| as next blank space +% \begin{macrocode} + \def\SeekBlankSpace{1}% +% \end{macrocode} +% Leave rotated characters alone +% \begin{macrocode} + \Treatments{1}{1}{1}{1}{1}{1}% +% \end{macrocode} +% Rotate to the next blank space or the end of string, whichever comes +% first. +% \begin{macrocode} + \substring[e]{\thestring}{1}{\@MAXSTRINGSIZE}% +% \end{macrocode} +% Rotate trailing spaces. +% \begin{macrocode} + \@treatleadingspaces[#1]{\thestring}{}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\removeword} +% Remove the first word of given string |#2|, including leading and +% trailing spaces. Note that logic is identical to |\rotateword|, +% except that affected spaces and characters are removed instead of +% being rotated. +% \begin{macrocode} +\newcommand\removeword[2][v]{% + \+\edef\thestring{#2}\?% +% \end{macrocode} +% The |{x}| final argument indicates to delete leading spaces. +% \begin{macrocode} + \@treatleadingspaces[e]{\thestring}{x}% + \def\SeekBlankSpace{1}% +% \end{macrocode} +% The Treatments are specified to remove all characters. +% \begin{macrocode} + \Treatments{0}{0}{0}{0}{0}{0}% + \substring[e]{\thestring}{1}{\@MAXSTRINGSIZE}% +% \end{macrocode} +% Trailing spaces are also deleted. +% \begin{macrocode} + \@treatleadingspaces[#1]{\thestring}{x}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\getnextword} +% A special case of |\getaword|, where word-to-get is specified as +% ``1''. +% \begin{macrocode} +% GETS NEXT WORD FROM STRING #2. +% NOTE: ROTATES BACK TO BEGINNING, AFTER STRING OTHERWISE EXHAUSTED +\newcommand\getnextword[2][v]{% + \getaword[#1]{#2}{1}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\getaword} +% Obtain a specified word number (|#3|) from string |#2|. Logic: rotate +% leading spaces to end of string; then loop |#3|~--~1 times through +% |\rotateword|. Finally, get next word. +% \begin{macrocode} +% GETS WORD #3 FROM STRING #2. +% NOTE: ROTATES BACK TO BEGINNING, AFTER STRING OTHERWISE EXHAUSTED +\newcommand\getaword[3][v]{% + \setcounter{@wordindex}{1}% + \+\edef\thestring{#2}\?% + \@treatleadingspaces[e]{\thestring}{}% + \whiledo{\value{@wordindex} < #3}{% + \rotateword[e]{\thestring}% + \addtocounter{@wordindex}{1}% + }% + \@getnextword[#1]{\thestring}% +} +% \end{macrocode} +% \end{macro} +% +% \begin{macro}{\rotateleadingspaces} +% Rotate leading spaces of string |#2| to the end of string. +% \begin{macrocode} +\newcommand\rotateleadingspaces[2][v]{% + \@treatleadingspaces[#1]{#2}{}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\removeleadingspaces} +% Remove leading spaces from string |#2|. +% \begin{macrocode} +\newcommand\removeleadingspaces[2][v]{% + \@treatleadingspaces[#1]{#2}{x}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\stringencode} +% \begin{macrocode} +% ENCODE STRING; UNLIKE OTHER COMMANDS, DEFAULT IS NO PRINT +\newcommand\stringencode[2][e]{% + \defaultTreatments% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\stringdecode} +% \begin{macrocode} +% DECODE STRING +\newcommand\stringdecode[2][v]{% + \defaultTreatments% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\gobblechar} +% Remove first character (not byte!) from string |#2|. Unlike just about +% all other \stringstrings commands, result is retokenized and not +% expanded. +% \begin{macrocode} +% SINGLE-CHARACTER VERSION OF \gobblechars. IN THIS CASE, TWO-BYTE +% ESCAPE SEQUENCES, WHEN ENCOUNTERED, COUNT AS A SINGLE GOBBLE. +\newcommand\gobblechar[2][q]{\+% + \@gobblearg{#2}{1}% + \?\retokenize[#1]{\gobbledword}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\gobblechars} +% Remove first |#3| characters (not bytes!) from string |#2|. +% Unlike just about all other \stringstrings commands, result is +% retokenized and not expanded. +% \begin{macrocode} +% USER CALLABLE VERSION OF \@gobblearg. TURNS ON REENCODING. +% GOBBLE FIRST #3 CHARACTERS FROM STRING #2. TWO-BYTE +% ESCAPE SEQUENCES, WHEN ENCOUNTERED, COUNT AS A SINGLE GOBBLE. +\newcommand\gobblechars[3][q]{\+% + \@gobblearg{#2}{#3}% + \?\retokenize[#1]{\gobbledword}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\retokenize} +% One of the key \stringstrings routines that provides several +% indispensible functions. Its function is to take an encoded string +% |#2| that has been given, and repopulate the string with its \LaTeX{} +% tokens in a |\def| form (not an expanded |\edef| form). It is +% useful if required to operate on a string outside of the +% \stringstrings library routines, following a \stringstrings +% manipulation. It is also useful to display certain tokens which +% cannot be manipulated in expanded form. See +% Table~\ref{tbl:prob} for a list of tokens that will only work when the +% resulting string is retokenized (and not expanded). +% +% Logic: Loop through each character of given string |#2|. Each +% successive character of the string is retokenized as |\inexttoken|, +% |\iinexttoken|, |\iiinexttoken|, |\ivnexttoken|, \etc, respectively. +% Then a series of strings are formed as\\ +% \\ +% |\def\buildtoken{}|\\ +% |\def\buildtokeni{\builtoken\inexttoken}|\\ +% |\def\buildtokenii{\builtokeni\iinexttoken}|\\ +% |\def\buildtokeniii{\builtokenii\iiinexttoken}|\\ +% |\def\buildtokeniv{\builtokeniii\ivnexttoken}|\\ +% \\ +% The last in the sequence of |\builtoken...| strings (renamed +% |\buildtokenq|) is the retokenized +% version of string |#2|. +% \begin{macrocode} +% CONVERTS ENCODED STRING BACK INTO TOKENIZED FORM (i.e., def'ED). +\newcommand\retokenize[2][q]{\+% + \edef\@svstring{#2}% + \edef\buildtoken{}% + \@getstringlength{#2}{@@stringsize}\?% + \setcounter{@@letterindex}{0}% + \whiledo{\the@@letterindex < \the@@stringsize}{% + \setcounter{@previousindex}{\the@@letterindex}% + \addtocounter{@@letterindex}{1}% + \substring[e]{\@svstring}{\the@@letterindex}{\the@@letterindex}% + \@retokenizechar{\thestring}{\roman{@@letterindex}nexttoken}% + \expandafter\def\csname buildtoken\roman{@@letterindex}% + \expandafter\endcsname\expandafter% + {\csname buildtoken\roman{@previousindex}\expandafter\endcsname% + \csname\roman{@@letterindex}nexttoken\endcsname}% + }% + \expandafter\def\expandafter\buildtokenq\expandafter{% + \csname buildtoken\roman{@@letterindex}\endcsname}% + \def\thestring{\buildtokenq}% + \if v#1\thestring\fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +% %%%%% COMMANDS TO EXTRACT STRING INFORMATION %%%%%%%%%%%%%%%%%%%%%%%%%% +% \end{macrocode} + +% The following group of commands extract information about a string, +% and store the result in a string called |\theresult|. Since the +% result is not a substring, a \textit{mode} of |[e]| carries no +% meaning. Only |[v]| and |[q]| modes apply here. +% \begin{macro}{\stringlength} +% Returns the length of the given string in \textit{characters}, not +% \textit{bytes}. +% \begin{macrocode} +% USER CALLABLE VERSION of \@getstringlength: +% GET'S STRING LENGTH OF [#2], PUTS RESULT IN \theresult. PRINTS RESULT +% UNLESS IN QUIET [q] MODE. +\newcommand\stringlength[2][v]{\+% + \@getstringlength{#2}{@@stringsize}% + \edef\theresult{\arabic{@@stringsize}}% + \if v#1\theresult\fi% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\findchars} +% Find number of occurances of character |#3| in string |#2|. +% \begin{macrocode} +% CHECKS TO SEE IF THE CHARACTER [#3] APPEARS ANYWHERE IN STRING [#2]. +% THE NUMBER OF OCCURANCES IS PRINTED OUT, EXCEPT WHEN [#1]=q, QUIET +% MODE. RESULT IS ALSO STORED IN \theresult . TO FIND SPACES, ARG3 +% SHOULD BE SET TO {~}, NOT { }. +\newcommand\findchars[3][v]{\+% + \@getstringlength{#2}{@@stringsize}% + \setcounter{@charsfound}{0}% + \setcounter{@@letterindex}{0}% +% \end{macrocode} +% Loop through each character of |#2|. +% \begin{macrocode} + \whiledo{\value{@@letterindex} < \value{@@stringsize}}{% + \addtocounter{@@letterindex}{1}% +% \end{macrocode} +% Test if the |@@letterindex| character of string |#2| equals |#3|. +% If so, add to tally. +% \begin{macrocode} + \testmatchingchar{#2}{\arabic{@@letterindex}}{#3}% + \ifmatchingchar\addtocounter{@charsfound}{1}\fi + }% + \edef\theresult{\arabic{@charsfound}}% + \if q#1\else\theresult\fi% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\whereischar} +% Similar to |\findchars|, but instead finds first occurance of match +% character |#3| within |#2| and returns its location within |#2|. +% \begin{macrocode} +% CHECKS TO FIND LOCATION OF FIRST OCCURANCE OF [#3] IN STRING [#2]. +% THE LOCATION IS PRINTED OUT, EXCEPT WHEN [#1]=q, QUIET +% MODE. RESULT IS ALSO STORED IN \theresult . TO FIND SPACES, ARG3 +% SHOULD BE SET TO {~}, NOT { }. +\newcommand\whereischar[3][v]{\+% + \@getstringlength{#2}{@@stringsize}% + \edef\@theresult{0}% + \setcounter{@@letterindex}{0}% +% \end{macrocode} +% Loop through characters of |#2| sequentially. +% \begin{macrocode} + \whiledo{\value{@@letterindex} < \value{@@stringsize}}{% + \addtocounter{@@letterindex}{1}% +% \end{macrocode} +% Look for match. If found, save character-location index, +% and reset loop index to break from loop. +% \begin{macrocode} + \testmatchingchar{#2}{\arabic{@@letterindex}}{#3}% + \ifmatchingchar% + \edef\@theresult{\the@@letterindex}% + \setcounter{@@letterindex}{\the@@stringsize}% + \fi + }% + \edef\theresult{\@theresult}% + \if q#1\else\theresult\fi% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\whereisword} +% Finds location of specified word (|#3|) in string |#2|. +% \begin{macrocode} +% LIKE \whereischar, EXCEPT FOR WORDS +\newcommand\whereisword[3][v]{\+% + \setcounter{@skipped}{0}% +% \end{macrocode} +% |\@@@@teststring| initially contains |#2|. As false alarms are +% located, the string will be redefined to lop off initial characters +% of string. +% \begin{macrocode} + \edef\@@@@teststring{#2}% + \edef\@matchstring{#3}% + \@getstringlength{#2}{@@stringsize}% + \setcounter{@@@stringsize}{\value{@@stringsize}}% + \@getstringlength{#3}{@matchsize}% + \setcounter{@matchmax}{\the@@stringsize}% + \addtocounter{@matchmax}{-\the@matchsize}% + \addtocounter{@matchmax}{1}% + \setcounter{@flag}{0}% +% \end{macrocode} +% Define |\matchchar| as the first character of the match string (|#3|). +% \begin{macrocode} + \substring[e]{#3}{1}{1}% + \edef\matchchar{\thestring}% + \whiledo{\the@flag = 0}{% +% \end{macrocode} +% Look for first character of match string within |\@@@@teststring|. +% \begin{macrocode} + \whereischar[q]{\@@@@teststring}{\matchchar}% + \setcounter{@matchloc}{\theresult}% + \ifthenelse{\equal{0}{\value{@matchloc}}}% +% \end{macrocode} +% If none found, we are done. +% \begin{macrocode} + {% + \setcounter{@flag}{1}% + }% +% \end{macrocode} +% If |\matchchar| is found, must determine if it is the beginning +% of the match string, or just an extraneous match (\ie false alarm). +% Extract substring +% of |\@@@@teststring|, of a size equal to the match string. +% Compare this extracted string with the match string. +% \begin{macrocode} + {% + \setcounter{@matchend}{\theresult}% + \addtocounter{@matchend}{\value{@matchsize}}% + \addtocounter{@matchend}{-1}% + \substring[e]{\@@@@teststring}{\the@matchloc}{\the@matchend}% + \ifthenelse{\equal{\thestring}{\@matchstring}}% +% \end{macrocode} +% Found a match! Save the match location +% \begin{macrocode} + {% + \setcounter{@flag}{1}% + \addtocounter{@matchloc}{\the@skipped}% + \edef\theresult{\the@matchloc}% + }% +% \end{macrocode} +% False alarm. Determine if lopping off the leading characters of +% |\@@@@teststring| (to discard the false-alarm occurance) is feasible. +% If lopping would take one past the end of the string, +% then no match is possible. If lopping permissible, redefine the +% string |\@@@@teststring|, keeping track of the total number of +% lopped-off characters in the counter |@skipped|. +% \begin{macrocode} + {% + \addtocounter{@skipped}{\the@matchloc}% + \addtocounter{@matchloc}{1}% + \ifthenelse{\value{@matchloc} > \value{@matchmax}}% + {% + \setcounter{@flag}{1}% + \edef\theresult{0}% + }% + {% + \substring[e]{\@@@@teststring}{\the@matchloc}{\@MAXSTRINGSIZE}% + \edef\@@@@teststring{\thestring}% + }% + }% + }% + }% + \if q#1\else\theresult\fi% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\findwords} +% Finds the number of occurances of a word within the provided string +% \begin{macrocode} +% LIKE \findchar, EXCEPT FOR WORDS +\newcommand\findwords[3][v]{% + \+\edef\@@teststring{#2}\?% + \edef\@@@teststring{\@@teststring}% + \setcounter{@charsfound}{0}% + \whiledo{\the@charsfound > -1}{% +% \end{macrocode} +% Seek occurance of |#3| in the string to be tested +% \begin{macrocode} + \whereisword[q]{\@@teststring}{#3}% + \setcounter{@matchloc}{\theresult}% + \ifthenelse{\the@matchloc = 0}% + {% +% \end{macrocode} +% None found. Break from loop. +% \begin{macrocode} + \edef\theresult{\the@charsfound}% + \setcounter{@charsfound}{-1}% + }% + {% +% \end{macrocode} +% Found. Increment count. +% \begin{macrocode} + \addtocounter{@charsfound}{1}% + \addtocounter{@matchloc}{\the@matchsize}% + \ifthenelse{\the@matchloc > \the@@stringsize}% + {% +% \end{macrocode} +% This "find" takes us to the end-of-string. Break from loop now. +% \begin{macrocode} + \edef\theresult{\the@charsfound}% + \setcounter{@charsfound}{-1}% + }% + {% +% \end{macrocode} +% More string to search. Lop off what has been searched from string to +% be tested, and re-loop for next search. +% \begin{macrocode} + \substring[e]{\@@@teststring}{\the@matchloc}{\@MAXSTRINGSIZE}% + \edef\@@teststring{\thestring}% + \edef\@@@teststring{\@@teststring}% + }% + }% + }% + \if q#1\else\theresult\fi% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\wordcount} +% Counts words (space-separated text) in a string. Simply removes one +% word at a time, counting the words as it goes. With each removal, +% checks for non-zero string size remaining. +% \begin{macrocode} +% WORD COUNT +\newcommand\wordcount[2][v]{\+% + \edef\@argv{#2} + \@getstringlength{\@argv}{@stringsize} + \setcounter{@iargc}{0} + \whiledo{\value{@stringsize} > 0}{% + \addtocounter{@iargc}{1}% + \removeword[e]{\@argv}% + \edef\@argv{\thestring}% + \@getstringlength{\@argv}{@stringsize}% + } + \edef\theresult{\arabic{@iargc}}% + \if v#1\theresult\fi% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\getargs} +% Parse a string of arguments in Unix-like manner. Define |\argv| as |#2|. +% Grabs leading word from |\argv| and puts it in |\argi|. Increment +% argument count; remove leading word from |\argv|. Repeat this process, +% with each new argument being placed in |\argii|, |\argiii|, |\argiv|, +% \etc~ Continue until size of |\argv| is exhausted. +% \begin{macrocode} +% OBTAINS ARGUMENTS (WORDS) IN #1 ALA UNIX getarg COMMAND +% narg CONTAINS NUMBER OF ARGUMENTS. ARGUMENTS CONTAINED IN +% argi, argii, argiii, argiv, ETC. +% v mode disabled +\newcommand\getargs[2][q]{\+% + \if v#1\def\@mode{q}\else\def\@mode{#1}\fi% + \edef\@argv{#2}% + \@getstringlength{\@argv}{@stringsize}% + \setcounter{@iargc}{0}% + \whiledo{\value{@stringsize} > 0}{% + \addtocounter{@iargc}{1}% + \getaword[\@mode]{\@argv}{1}% + \expandafter\edef\csname arg\roman{@iargc}\endcsname{\thestring}% + \removeword[e]{\@argv}% + \edef\@argv{\thestring}% + \@getstringlength{\@argv}{@stringsize}% + }% + \edef\narg{\arabic{@iargc}}% +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +%%%%% COMMANDS TO TEST STRINGS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% \end{macrocode} + +% The following group of commands test for various alphanumeric +% string conditions. +% \begin{macro}{\isnextbyte} +% This routine performs a simple test to determine if the first byte of +% string |#3| matches the byte given by |#2|. The only problem is that +% the test can produce a false negative if the first byte of the test +% string equals the match byte and the second byte of the test string +% equals the |SignalChar| (defined below). +% +% To resolve this possibility, the test is performed twice with two +% different values for |\SignalChar|, only one of which can produce +% a false negative for a given test string. If the two results match, +% then that result gives the correct answer to the question of whether +% the first byte of |#3| equals |#2|. If, however, the two results fail +% to match, then one can assume that one of the results is a false +% negative, and so a ``true'' condition results. +% \begin{macrocode} +% \end{macrocode} +% The following two ``signal characters,'' used for the two tests, +% can be any two distinct characters. They are used solely +% by |\isnextbyte|. +% \begin{macrocode} +\def\PrimarySignalChar{@} +\def\SecondarySignalChar{`} + +% \isnextbyte NEEDS TO OPERATE IN RAW (SINGLE BYTE) MODE SO AS TO +% PERFORM TESTS FOR PRESENCE OF \EscapeChar +% \end{macrocode} +% Incidentally, +% |\isnextbyte| can and is used by \stringstrings to detect +% multi-byte characters in a manner which may also be employed by the +% user. To do this: +% First, the string to be tested should be encoded. Then, |\isnextbyte| +% may be used to check for |\EscapeChar| which is how every multi-byte +% character will begin its encoding by the \stringstrings package. +% If |\EscapeChar| is detected as the next character, then the string to +% test may have its leading byte gobbled and the next character (called +% the Escape Code) may be tested, and compared against the known +% \stringstrings escape codes. The combination of +% Escape-Character/Escape-Code is how all multi-byte characters are +% encoded by the \stringstrings package. +% \begin{macrocode} +\newcommand\isnextbyte[3][v]{% +% \end{macrocode} +% Here's the first test\ldots +% \begin{macrocode} + \let\SignalChar\PrimarySignalChar% + \edef\@x{\if #2#3\else\SignalChar\fi}% + \edef\@x{\if \SignalChar\@x F\else T\fi}% +% \end{macrocode} +% \ldots and the second +% \begin{macrocode} + \let\SignalChar\SecondarySignalChar% + \edef\@y{\if #2#3\else\SignalChar\fi}% + \edef\@y{\if \SignalChar\@y F\else T\fi}% +% \end{macrocode} +% If the two tests produced the same result, then a comparison of |\@x\@y| +% and |\@y\@x| will show it. +% \begin{macrocode} +% BECAUSE THE METHOD ONLY PRODUCES FALSE NEGATIVES, IF RESULTS DON'T +% AGREE FROM USING TWO DIFFERENT SIGNAL CHARACTERS, RESULT MUST BE TRUE. + \ifthenelse{\equal{\@x\@y}{\@y\@x}} + {\edef\theresult{\@x}}% +% CORRECT THE FALSE NEGATIVE + {\edef\theresult{T}}% + \if q#1\else\theresult\fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testmatchingchar} +% This routine checks for a specified match-character within a target +% string. Unlike |\isnextbyte|, this +% routine checks for characters (single- or multi-byte) and not just +% individual bytes. Additionally, rather than testing the +% match-character against the first byte of the test-string, the user +% specifies (through |#2|) which byte of the test-string should be +% compared to the match-character. +% +% This routine is not as efficient as |\isnextbyte|, but much more +% versatile. +% \begin{macrocode} +% CHECKS TO SEE IF [#2]'th CHARACTER IN STRING [#1] EQUALS [#3] +% RESULT STORED IN BOOLEAN \ifmatchingchar +\newif\ifmatchingchar +\newcommand\testmatchingchar[3]{% + \setbox0=\hbox{% +% \end{macrocode} +% Extract desired character from test string +% \begin{macrocode} + \substring[e]{#1}{#2}{#2}\+% +% \end{macrocode} +% Determine if the match-character is a multi-byte symbol. +% \begin{macrocode} + \isnextbyte[q]{\EscapeChar}{#3}% + \if T\theresult% +% \end{macrocode} +% Is the tested character also a multi-byte symbol? +% \begin{macrocode} + \isnextbyte[q]{\EscapeChar}{\thestring}% + \if T\theresult% +% \end{macrocode} +% Yes it is\ldots Therefore, compare codes following the escape character +% \begin{macrocode} + \edef\@testcode{\expandafter\@DiscardNextChar\expandafter{#3}}% + \edef\@teststring{\@DiscardNextChar{\thestring}}% + \if \@teststring\@testcode\matchingchartrue\else\matchingcharfalse\fi + \else +% \end{macrocode} +% No, we are comparing a normal character against a multi-byte symbol +% (apples and oranges), a false comparison. +% \begin{macrocode} + \global\matchingcharfalse% + \fi + \else +% \end{macrocode} +% No, we are comparing two normal one-byte characters, not a mult-byte +% character. +% \begin{macrocode} + \if \thestring#3\global\matchingchartrue\else\global\matchingcharfalse\fi + \fi} +\?} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testcapitalized} +% This routine checks to see if first character of string is +% capitalized. The only quirk is that the routine must ascertain +% whether that character is a single-byte character or a multi-byte +% character. +% \begin{macrocode} +\newif\ifcapitalized +\newcommand\testcapitalized[1]{\+% + \setbox0=\hbox{% + \isnextbyte[q]{\EscapeChar}{#1}% + \if T\theresult% + \def\EncodingTreatment{e}% + \edef\rotatingword{#1}% +% \end{macrocode} +% Rotate the first [multi-byte] character of the string to the end +% of the string, lowering its case. Store as |\@stringA|. +% \begin{macrocode} + \def\AlphaCapsTreatment{2}% + \@defineactions% + \edef\@stringA{\ESCrotate{\expandafter\@gobble\rotatingword}}% +% \end{macrocode} +% Rotate the first [multi-byte] character of the string to the end +% of the string, retaining its case. Store as |\@stringB|. +% \begin{macrocode} + \def\AlphaCapsTreatment{1}% + \@defineactions% + \edef\@stringB{\ESCrotate{\expandafter\@gobble\rotatingword}}% + \else +% \end{macrocode} +% \ldots or, if the first character is a normal one-byte character\ldots +% Rotate the first [normal] character of the string to the end +% of the string, lowering its case. Store as |\@stringA|. +% \begin{macrocode} + \def\AlphaCapsTreatment{2}% + \edef\@stringA{\@rotate{#1}}% +% \end{macrocode} +% Rotate the first [normal] character of the string to the end +% of the string, retaining its case. Store as |\@stringB|. +% \begin{macrocode} + \def\AlphaCapsTreatment{1}% + \edef\@stringB{\@rotate{#1}}% + \fi +% \end{macrocode} +% Compare strings A and B, to see if changing the case of first letter +% altered the string +% \begin{macrocode} + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {\global\capitalizedfalse}{\global\capitalizedtrue}}\?% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testuncapitalized} +% This routine is the complement of |\testcapitalized|. The only +% difference is that the |\@stringA| has its case made upper for the +% comparison, instead of lowered. +% \begin{macrocode} +\newif\ifuncapitalized +\newcommand\testuncapitalized[1]{\+% + \setbox0=\hbox{% + \isnextbyte[q]{\EscapeChar}{#1}% + \if T\theresult% + \def\EncodingTreatment{e}% + \edef\rotatingword{#1}% + \def\AlphaTreatment{2}% + \@defineactions% + \edef\@stringA{\ESCrotate{\expandafter\@gobble\rotatingword}}% + \def\AlphaTreatment{1}% + \@defineactions% + \edef\@stringB{\ESCrotate{\expandafter\@gobble\rotatingword}}% + \else + \def\AlphaTreatment{2}% + \edef\@stringA{\@rotate{#1}}% + \def\AlphaTreatment{1}% + \edef\@stringB{\@rotate{#1}}% + \fi + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {\global\uncapitalizedfalse}{\global\uncapitalizedtrue}}\?% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testleadingalpha} +% Test if the leading character of the string is alphabetic. This is +% simply accomplished by checking whether the string is either +% capitalized or uncapitalized. If non-alphabetic, it will show +% up as false for both those tests. +% \begin{macrocode} +\newif\ifleadingalpha +\newcommand\testleadingalpha[1]{% + \testcapitalized{#1}% + \ifcapitalized + \leadingalphatrue% + \else + \testuncapitalized{#1}% + \ifuncapitalized + \leadingalphatrue% + \else + \leadingalphafalse% + \fi + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testuppercase} +% Checks to see if all alphabetic characters in a string are uppercase. +% Non-alphabetic characters don't affect the result, unless the string +% is composed solely of nonalphabetic characters, in which case the test +% results is false. +% \begin{macrocode} +\newif\ifuppercase +\newcommand\testuppercase[1]{% + \setbox0=\hbox{% +% \end{macrocode} +% Strip all non-alphabetic characters. Save as |\@stringA|. +% \begin{macrocode} + \Treatments{1}{1}{0}{0}{0}{0}% + \substring[e]{#1}{1}{\@MAXSTRINGSIZE}% + \edef\@stringA{\thestring}% +% \end{macrocode} +% Lower the case of all uppercase characters in |\@stringA|. Save as +% |\@stringB|. Compare these two strings. +% \begin{macrocode} + \def\AlphaTreatment{2}% + \substring[e]{#1}{1}{\@MAXSTRINGSIZE}% + \edef\@stringB{\thestring}% + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {% +% \end{macrocode} +% If the strings are equal, then all the alphabetic characters in the +% original string were uppercase. Need only check to make sure at +% least one alphabetic character was present in the original string. +% \begin{macrocode} + \@getstringlength{\@stringA}{@stringsize}% + \ifthenelse{\value{@stringsize} = 0}% + {\global\uppercasefalse}{\global\uppercasetrue}% + }% +% \end{macrocode} +% If strings are not equal, then the alphabetic characters of the +% original string were not all uppercase. Test false. +% \begin{macrocode} + {\global\uppercasefalse}}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\ifsolelyuppercase} +% Compare the original string to one made solely uppercase. If they are +% equal (and not composed solely of blankspaces), then the original +% string was solely uppercase to begin with. +% \begin{macrocode} +\newif\ifsolelyuppercase +\newcommand\testsolelyuppercase[1]{% + \setbox0=\hbox{% + \stringencode{#1}% + \edef\@stringA{\thestring}% + \solelyuppercase[e]{#1}% + \edef\@stringB{\thestring}% + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {% + \noblanks[q]{\@stringA}% + \@getstringlength{\thestring}{@stringsize}% + \ifthenelse{\value{@stringsize} = 0}% + {\global\solelyuppercasefalse}{\global\solelyuppercasetrue}% + }% + {\global\solelyuppercasefalse}}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testlowercase} +% This routine is the complement to |\testuppercase|, with corresponding +% logic. +% \begin{macrocode} +\newif\iflowercase +\newcommand\testlowercase[1]{% + \setbox0=\hbox{% + \Treatments{1}{1}{0}{0}{0}{0}% + \substring[e]{#1}{1}{\@MAXSTRINGSIZE}% + \edef\@stringA{\thestring}% + \def\AlphaCapsTreatment{2}% + \substring[e]{#1}{1}{\@MAXSTRINGSIZE}% + \edef\@stringB{\thestring}% + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {% + \@getstringlength{\@stringA}{@stringsize}% + \ifnum\value{@stringsize}= 0\relax% + \global\lowercasefalse\else\global\lowercasetrue\fi% + }% + {\global\lowercasefalse}}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testsolelylowercase} +% This routine is the complement to |\testsolelyuppercase|, with +% corresponding logic. +% \begin{macrocode} +\newif\ifsolelylowercase +\newcommand\testsolelylowercase[1]{% + \setbox0=\hbox{% + \stringencode{#1}% + \edef\@stringA{\thestring}% + \solelylowercase[e]{#1}% + \edef\@stringB{\thestring}% + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {% + \noblanks[q]{\@stringA}% + \@getstringlength{\thestring}{@stringsize}% + \ifthenelse{\value{@stringsize} = 0}% + {\global\solelylowercasefalse}{\global\solelylowercasetrue}% + }% + {\global\solelylowercasefalse}}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\testalphabetic} +% Comparable to |\testsolelyuppercase| and +% |\testsolelylowercase| in its logic, this routine tests whether +% the string is purely alphabetic or not. +% \begin{macrocode} +\newif\ifalphabetic +\newcommand\testalphabetic[1]{% + \setbox0=\hbox{% + \stringencode{#1}% + \edef\@stringA{\thestring}% + \alphabetic[e]{#1}% + \edef\@stringB{\thestring}% + \ifthenelse{\equal{\@stringA}{\@stringB}}% + {% + \noblanks[q]{\@stringA}% + \@getstringlength{\thestring}{@stringsize}% + \ifthenelse{\value{@stringsize} = 0}% + {\global\alphabeticfalse}{\global\alphabetictrue}% + }% + {\global\alphabeticfalse}}% + \defaultTreatments% +} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +% +%%%%% SUPPORT ROUTINES %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% \end{macrocode} +% The following routines support the execution of the \stringstrings +% package. + +% \begin{macro}{\ESCrotate} +% After the escape character has been ascertained as the next character, +% this routine operates on the subsequent escape code to rotate the +% symbol to end of string, in the fashion of macro |\@rotate|. +% \begin{macrocode} +\newcommand\ESCrotate[1]{% + \if\UvariCode#1\@uvariaction\else + \if\UvariiCode#1\@uvariiaction\else + \if\UvariiiCode#1\@uvariiiaction\else + \if\@fromcode#1\@tostring\else + \if\PipeCode#1\@pipeaction\else + \if\DollarCode#1\@dollaraction\else + \if\CaratCode#1\@carataction\else + \if\CircumflexCode#1\@circumflexaction\else + \if\TildeCode#1\@tildeaction\else + \if\UmlautCode#1\@umlautaction\else + \if\GraveCode#1\@graveaction\else + \if\AcuteCode#1\@acuteaction\else + \if\MacronCode#1\@macronaction\else + \if\OverdotCode#1\@overdotaction\else + \if\LeftBraceCode#1\@leftbraceaction\else + \if\RightBraceCode#1\@rightbraceaction\else + \if\UnderscoreCode#1\@underscoreaction\else + \if\DaggerCode#1\@daggeraction\else + \if\DoubleDaggerCode#1\@doubledaggeraction\else + \if\SectionSymbolCode#1\@sectionsymbolaction\else + \if\PilcrowCode#1\@pilcrowaction\else + \if\LBCode#1\@lbaction\else + \if\RBCode#1\@rbaction\else + \if\BreveCode#1\@breveaction\else + \if\CaronCode#1\@caronaction\else + \if\DoubleAcuteCode#1\@doubleacuteaction\else + \if\CedillaCode#1\@cedillaaction\else + \if\UnderdotCode#1\@underdotaction\else + \if\ArchJoinCode#1\@archjoinaction\else + \if\LineUnderCode#1\@lineunderaction\else + \if\CopyrightCode#1\@copyrightaction\else + \if\PoundsCode#1\@poundsaction\else + \if\AEscCode#1\@AEscaction\else + \if\aescCode#1\@aescaction\else + \if\OEthelCode#1\@OEthelaction\else + \if\oethelCode#1\@oethelaction\else + \if\AngstromCode#1\@Angstromaction\else + \if\angstromCode#1\@angstromaction\else + \if\SlashedOCode#1\@slashedOaction\else + \if\SlashedoCode#1\@slashedoaction\else + \if\BarredlCode#1\@barredlaction\else + \if\BarredLCode#1\@barredLaction\else + \if\EszettCode#1\@eszettaction\else + \expandafter\@gobble#1\undecipherable% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@getnextword} +% A low-level routine designed to extract the next [space-delimited] +% word of the primary +% argument. It has several quirks: if the passed string has one leading +% space, it is included as part of next word. If it has two leading +% [hard]spaces, the 2$^\mathrm{nd}$ hard space \textit{is} the next word. +% Using the higher-level |\getnextword| deals automatically with +% these abberant possibilities. +% \begin{macrocode} +\newcommand\@getnextword[2][v]{% + \defaultTreatments% + \def\SeekBlankSpace{2}% + \substring[#1]{#2}{1}{\@MAXSTRINGSIZE}% + \def\SeekBlankSpace{0}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@retokenizechar} +% This command is the guts of the retokenize command. It grabs the +% character provided in string |#1| and assigns it to a unique token +% whose name is created from the string |#2|. The command has two +% primary |\if| branches. The first branch is taken if the +% character is a special two-byte-encoded escape-sequence, while +% the second branch is taken if the character is a |&|, |%|, |#|, +% a blankspace, or any simple one-byte character. +% \begin{macrocode} +\newcommand\@retokenizechar[2]{% + \isnextbyte[q]{\EscapeChar}{#1}% + \if T\theresult% + \edef\@ESCcode{\expandafter\@gobble#1}% + \if\UvariCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\Uvari}\else + \if\UvariiCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\Uvarii}\else + \if\UvariiiCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\Uvariii}\else + \if\PipeCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\Pipe}\else + \if\DollarCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\$}\else + \if\CaratCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\Carat}\else + \if\CircumflexCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\^}\else + \if\TildeCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\~}\else + \if\UmlautCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\"}\else + \if\GraveCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\`}\else + \if\AcuteCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\'}\else + \if\MacronCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\=}\else + \if\OverdotCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\.}\else + \if\LeftBraceCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\{}\else + \if\RightBraceCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\}}\else + \if\UnderscoreCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\_}\else + \if\DaggerCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\dag}\else + \if\DoubleDaggerCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\ddag}\else + \if\SectionSymbolCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\S}\else + \if\PilcrowCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\P}\else + \if\LBCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\SaveLB}\else + \if\RBCode\@ESCcode% + \expandafter\def\csname#2\endcsname{\SaveRB}\else + \if\BreveCode\@ESCcode\expandafter\def\csname#2\endcsname{\u}\else + \if\CaronCode\@ESCcode\expandafter\def\csname#2\endcsname{\v}\else + \if\DoubleAcuteCode\@ESCcode\expandafter\def\csname#2\endcsname{\H}\else + \if\CedillaCode\@ESCcode\expandafter\def\csname#2\endcsname{\c}\else + \if\UnderdotCode\@ESCcode\expandafter\def\csname#2\endcsname{\d}\else + \if\ArchJoinCode\@ESCcode\expandafter\def\csname#2\endcsname{\t}\else + \if\LineUnderCode\@ESCcode\expandafter\def\csname#2\endcsname{\b}\else + \if\CopyrightCode\@ESCcode\expandafter\def\csname#2\endcsname{\copyright}\else + \if\PoundsCode\@ESCcode\expandafter\def\csname#2\endcsname{\pounds}\else + \if\AEscCode\@ESCcode\expandafter\def\csname#2\endcsname{\AE}\else + \if\aescCode\@ESCcode\expandafter\def\csname#2\endcsname{\ae}\else + \if\OEthelCode\@ESCcode\expandafter\def\csname#2\endcsname{\OE}\else + \if\oethelCode\@ESCcode\expandafter\def\csname#2\endcsname{\oe}\else + \if\AngstromCode\@ESCcode\expandafter\def\csname#2\endcsname{\AA}\else + \if\angstromCode\@ESCcode\expandafter\def\csname#2\endcsname{\aa}\else + \if\SlashedOCode\@ESCcode\expandafter\def\csname#2\endcsname{\O}\else + \if\SlashedoCode\@ESCcode\expandafter\def\csname#2\endcsname{\o}\else + \if\BarredlCode\@ESCcode\expandafter\def\csname#2\endcsname{\l}\else + \if\BarredLCode\@ESCcode\expandafter\def\csname#2\endcsname{\L}\else + \if\EszettCode\@ESCcode\expandafter\def\csname#2\endcsname{\ss}\else + \expandafter\def\csname#2\endcsname{\undecipherable}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \else + \expandafter\ifx\expandafter\% + \expandafter\def\csname#2\endcsname{\&}\else + \expandafter\ifx\expandafter\%#1% + \expandafter\def\csname#2\endcsname{\%}\else + \expandafter\ifx\expandafter\##1% + \expandafter\def\csname#2\endcsname{\#}\else + \if\EncodedBlankSpace#1\expandafter\def\csname#2\endcsname{\ }\else + \expandafter\edef\csname#2\endcsname{#1}% + \fi + \fi + \fi + \fi + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@defineactions} +% This routine defines how encoded characters are to be treated by the +% |\ESCrotate| routine, depending on the [encoding, capitalization, +% blank, symbol, \textit{etc.}] treatments that have +% been \textit{a priori} specified. +% \begin{macrocode} +% \@blankaction AND OTHER ...action'S ARE SET, DEPENDING ON VALUES OF +% TREATMENT FLAGS. CHARS ARE EITHER ENCODED, DECODED, OR REMOVED. +\newcommand\@defineactions{% +% SET UP TREATMENT FOR SPACES, ENCODED SPACES, AND [REENCODED] SYMBOLS + \if e\EncodingTreatment% +% ENCODE SPACES, KEEP ENCODED SPACES ENCODED, ENCODE SYMBOLS. + \edef\@blankaction{\EncodedBlankSpace}% + \def\@dollaraction{\EncodedDollar}% + \def\@pipeaction{\EncodedPipe}% + \def\@uvariaction{\EncodedUvari}% + \def\@uvariiaction{\EncodedUvarii}% + \def\@uvariiiaction{\EncodedUvariii}% + \def\@carataction{\EncodedCarat}% + \def\@circumflexaction{\EncodedCircumflex}% + \def\@tildeaction{\EncodedTilde}% + \def\@umlautaction{\EncodedUmlaut}% + \def\@graveaction{\EncodedGrave}% + \def\@acuteaction{\EncodedAcute}% + \def\@macronaction{\EncodedMacron}% + \def\@overdotaction{\EncodedOverdot}% + \def\@breveaction{\EncodedBreve}% + \def\@caronaction{\EncodedCaron}% + \def\@doubleacuteaction{\EncodedDoubleAcute}% + \def\@cedillaaction{\EncodedCedilla}% + \def\@underdotaction{\EncodedUnderdot}% + \def\@archjoinaction{\EncodedArchJoin}% + \def\@lineunderaction{\EncodedLineUnder}% + \def\@copyrightaction{\EncodedCopyright}% + \def\@poundsaction{\EncodedPounds}% + \def\@leftbraceaction{\EncodedLeftBrace}% + \def\@rightbraceaction{\EncodedRightBrace}% + \def\@underscoreaction{\EncodedUnderscore}% + \def\@daggeraction{\EncodedDagger}% + \def\@doubledaggeraction{\EncodedDoubleDagger}% + \def\@sectionsymbolaction{\EncodedSectionSymbol}% + \def\@pilcrowaction{\EncodedPilcrow}% + \def\@eszettaction{\EncodedEszett}% + \def\@lbaction{\EncodedLB}% + \def\@rbaction{\EncodedRB}% + \if 2\AlphaCapsTreatment% + \def\@AEscaction{\Encodedaesc}% + \def\@OEthelaction{\Encodedoethel}% + \def\@Angstromaction{\Encodedangstrom}% + \def\@slashedOaction{\EncodedSlashedo}% + \def\@barredLaction{\EncodedBarredl}% + \else + \def\@AEscaction{\EncodedAEsc}% + \def\@OEthelaction{\EncodedOEthel}% + \def\@Angstromaction{\EncodedAngstrom}% + \def\@slashedOaction{\EncodedSlashedO}% + \def\@barredLaction{\EncodedBarredL}% + \fi + \if 2\AlphaTreatment% + \def\@aescaction{\EncodedAEsc}% + \def\@oethelaction{\EncodedOEthel}% + \def\@angstromaction{\EncodedAngstrom}% + \def\@slashedoaction{\EncodedSlashedO}% + \def\@barredlaction{\EncodedBarredL}% + \else + \def\@aescaction{\Encodedaesc}% + \def\@oethelaction{\Encodedoethel}% + \def\@angstromaction{\Encodedangstrom}% + \def\@slashedoaction{\EncodedSlashedo}% + \def\@barredlaction{\EncodedBarredl}% + \fi + \else +% EncodingTreatment=v or q: +% LEAVE SPACES ALONE; RESTORE ENCODED SPACES AND SYMBOLS + \def\@blankaction{\BlankSpace}% + \def\@dollaraction{\Dollar}% + \def\@pipeaction{\Pipe}% + \def\@uvariaction{\Uvari}% + \def\@uvariiaction{\Uvarii}% + \def\@uvariiiaction{\Uvariii}% + \def\@carataction{\Carat}% + \def\@circumflexaction{\Circumflex}% + \def\@tildeaction{\Tilde}% + \def\@umlautaction{\Umlaut}% + \def\@graveaction{\Grave}% + \def\@acuteaction{\Acute}% + \def\@macronaction{\Macron}% + \def\@overdotaction{\Overdot}% + \def\@breveaction{\Breve}% + \def\@caronaction{\Caron}% + \def\@doubleacuteaction{\DoubleAcute}% + \def\@cedillaaction{\Cedilla}% + \def\@underdotaction{\Underdot}% + \def\@archjoinaction{\ArchJoin}% + \def\@lineunderaction{\LineUnder}% + \def\@copyrightaction{\Copyright}% + \def\@poundsaction{\Pounds}% + \def\@leftbraceaction{\LeftBrace}% + \def\@rightbraceaction{\RightBrace}% + \def\@underscoreaction{\Underscore}% + \def\@daggeraction{\Dagger}% + \def\@doubledaggeraction{\DoubleDagger}% + \def\@sectionsymbolaction{\SectionSymbol}% + \def\@pilcrowaction{\Pilcrow}% + \def\@eszettaction{\Eszett}% + \def\@lbaction{\UnencodedLB}% + \def\@rbaction{\UnencodedRB}% + \if 2\AlphaCapsTreatment% + \def\@AEscaction{\aesc}% + \def\@OEthelaction{\oethel}% + \def\@Angstromaction{\angstrom}% + \def\@slashedOaction{\Slashedo}% + \def\@barredLaction{\Barredl}% + \else + \def\@AEscaction{\AEsc}% + \def\@OEthelaction{\OEthel}% + \def\@Angstromaction{\Angstrom}% + \def\@slashedOaction{\SlashedO}% + \def\@barredLaction{\BarredL}% + \fi + \if 2\AlphaTreatment% + \def\@aescaction{\AEsc}% + \def\@oethelaction{\OEthel}% + \def\@angstromaction{\Angstrom}% + \def\@slashedoaction{\SlashedO}% + \def\@barredlaction{\BarredL}% + \else + \def\@aescaction{\aesc}% + \def\@oethelaction{\oethel}% + \def\@angstromaction{\angstrom}% + \def\@slashedoaction{\Slashedo}% + \def\@barredlaction{\Barredl}% + \fi + \fi +% REMOVE SPACES AND ENCODED SPACES? + \if 0\BlankTreatment% + \edef\@blankaction{}% + \fi +% REMOVE ENCODED SYMBOLS? + \if 0\SymbolTreatment% + \def\@dollaraction{}% + \def\@pipeaction{}% + \def\@carataction{}% + \def\@circumflexaction{}% + \def\@tildeaction{}% + \def\@umlautaction{}% + \def\@graveaction{}% + \def\@acuteaction{}% + \def\@macronaction{}% + \def\@overdotaction{}% + \def\@breveaction{}% + \def\@caronaction{}% + \def\@doubleacuteaction{}% + \def\@cedillaaction{}% + \def\@underdotaction{}% + \def\@archjoinaction{}% + \def\@lineunderaction{}% + \def\@copyrightaction{}% + \def\@poundsaction{}% + \def\@leftbraceaction{}% + \def\@rightbraceaction{}% + \def\@underscoreaction{}% + \def\@daggeraction{}% + \def\@doubledaggeraction{}% + \def\@sectionsymbolaction{}% + \def\@pilcrowaction{}% + \def\@lbaction{}% + \def\@rbaction{}% + \fi +% REMOVE ENCODED ALPHACAPS? + \if 0\AlphaCapsTreatment% + \def\@AEscaction{}% + \def\@OEthelaction{}% + \def\@Angstromaction{}% + \def\@slashedOaction{}% + \def\@barredLaction{}% + \fi +% REMOVE ENCODED ALPHA? + \if 0\AlphaTreatment% + \def\@aescaction{}% + \def\@oethelaction{}% + \def\@angstromaction{}% + \def\@slashedoaction{}% + \def\@barredlaction{}% + \def\@eszettaction{}% + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@forcecapson} +% Force capitalization of strings processed by |\substring| for the +% time being. +% \begin{macrocode} +\newcommand\@forcecapson{% + \def\AlphaTreatment{2}% + \def\AlphaCapsTreatment{1}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@relaxcapson} +% Restore prior treatments following a period of enforced capitalization. +% \begin{macrocode} +\newcommand\@relaxcapson{% + \let\AlphaTreatment\SaveAlphaTreatment% + \let\AlphaCapsTreatment\SaveAlphaCapsTreatment% + \@defineactions% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@decodepointer} +% As pertains to arguments 3 and 4 of |\substring|, this routine +% implements use of the |$| character to mean END-OF-STRING, +% and |$-{|\textit{integer}|}| for addressing relative to the +% END-OF-STRING. +% \begin{macrocode} +\newcommand\@decodepointer[2][\value{@stringsize}]{% + \isnextbyte[q]{$}{#2}% + \if T\theresult% + \isnextbyte[q]{-}{\expandafter\@gobble#2}% + \if T\theresult% + \setcounter{@@@letterindex}{#1}% + \@gobblearg{#2}{2}% + \addtocounter{@@@letterindex}{-\gobbledword}% + \edef\@fromtoindex{\value{@@@letterindex}}% + \else + \edef\@fromtoindex{#1}% + \fi + \else + \edef\@fromtoindex{#2}% + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@getstringlength} +% Get's string length of |#1|, puts result in counter |#2|. +% \begin{macrocode} +\newcommand\@getstringlength[2]{% + \edef\@@teststring{#1\endofstring}% + \ifthenelse{\equal{\@@teststring}{\endofstring}}% + {\setcounter{#2}{0}}% + {% + \setcounter{@gobblesize}{1}% + \whiledo{\value{@gobblesize} < \@MAXSTRINGSIZE}{% +% + \@gobblearg{\@@teststring}{1}% + \edef\@@teststring{\gobbledword}% + \ifthenelse{\equal{\@@teststring}{\endofstring}}% + {\setcounter{#2}{\value{@gobblesize}}% + \setcounter{@gobblesize}{\@MAXSTRINGSIZE}}% + {\addtocounter{@gobblesize}{1}}% + }% + }% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@gobblearg} +% Gobble first |#2| characters from string |#1|. The +% result is stored in |\gobbledword|. Two-byte escape sequences, +% when encountered, count as a single gobble. +% \begin{macrocode} +\newcommand\@gobblearg[2]{% + \setcounter{@letterindex}{0}% + \setcounter{@gobbleindex}{#2}% + \edef\gobbledword{#1}% + \whiledo{\value{@letterindex} < \value{@gobbleindex}}{% + \isnextbyte[q]{\EscapeChar}{\gobbledword}% + \if T\theresult% +% GOBBLE ESCAPE CHARACTER + \edef\gobbledword{\@DiscardNextChar{\gobbledword}}% + \fi +% GOBBLE NORMAL CHARACTER OR ESCAPE CODE + \edef\gobbledword{\@DiscardNextChar{\gobbledword}}% + \addtocounter{@letterindex}{1}% + }% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@DiscardNextChar} +% Remove the next character from the argument string. Since +% |\@gobble| skips spaces, the routine must first look for the case of +% a leading blankspace. If none is found, proceed with a normal +% |\@gobble|. Note: as per \LaTeX{} convention, |\@DiscardNextChar| +% treats double/multi-softspaces as single space. +% \begin{macrocode} +\newcommand\@DiscardNextChar[1]{% + \expandafter\if\expandafter\BlankSpace#1\else + \expandafter\@gobble#1% + \fi +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@convertsymboltostring} +% Routine for converting an encodable symbol (|#3|) into string (|#4|), +% for every occurance in the given string |#2|. +% \begin{macrocode} +\newcommand\@convertsymboltostring[4][v]{% + \def\@fromcode{#3}% + \def\@tostring{#4}% + \def\EncodingTreatment{e}% + \substring[e]{#2}{1}{\@MAXSTRINGSIZE}% + \@convertoff% + \if e#1\else\substring[#1]{\thestring}{1}{\@MAXSTRINGSIZE}\fi% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@convertbytetostring} +% Routine for converting an plain byte (|#3|) into string (|#4|), +% for every occurance in the given string |#2|. +% \begin{macrocode} +\newcommand\@convertbytetostring[4][v]{% + \def\@frombyte{#3}% + \def\@tostring{#4}% + \def\EncodingTreatment{e}% + \substring[e]{#2}{1}{\@MAXSTRINGSIZE}% + \@convertoff% + \if e#1\else\substring[#1]{\thestring}{1}{\@MAXSTRINGSIZE}\fi% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@treatleadingspaces} +% This routine will address the leading spaces of string |#2|. If +% argument |#3| is an 'x' character, those leading spaces will be +% deleted from the string. Otherwise, those leading spaces will be +% rotated to the end of the string. +% \begin{macrocode} +\newcommand\@treatleadingspaces[3][v]{\+% + \defaultTreatments% + \edef\thestring{#2}% + \@getstringlength{\thestring}{@stringsize}% + \setcounter{@maxrotation}{\value{@stringsize}}% + \setcounter{@letterindex}{0}% + \whiledo{\value{@letterindex} < \value{@maxrotation}}{% + \addtocounter{@letterindex}{1}% + \isnextbyte[q]{\EncodedBlankSpace}{\thestring}% + \if F\theresult\isnextbyte[q]{\BlankSpace}{\thestring}\fi% + \if T\theresult% + \isnextbyte[q]{#3}{x}% + \if F\theresult% +% NORMAL OR ENCODED BLANK... ROTATE IT + \edef\thestring{\@rotate{\thestring}}% + \else +% NORMAL OR ENCODED BLANK... DELETE IT (IF 3rd ARG=X) + \@gobblearg{\thestring}{1}% + \edef\thestring{\gobbledword}% + \fi + \else + \setcounter{@maxrotation}{\value{@letterindex}}% + \fi + }\?% + \substring[#1]{\thestring}{1}{\@MAXSTRINGSIZE}% +} +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@convertoff} +% This routine is an initialization routine to +% guarantee that there is no conversion of |\@frombyte| to |\@tostring|, +% until further notice. It accomplishes this +% by setting up such that subsequent |\if\@frombyte| and +% |\if\@fromcode| clauses will automatically fail. +% \begin{macrocode} +\newcommand\@convertoff{\def\@frombyte{xy}\def\@tostring{}% + \def\@fromcode{xy}} +\@convertoff +% \end{macrocode} +% \end{macro} + +% \begin{macro}{\@rotate} +% The following code is the engine of the string manipulation routine. +% It is a tree of successive \LaTeX{} commands (each of which is +% composed of an |\if...| cascade) which have the net +% effect of rotating the first letter of the string into the last +% position. Depending on modes set by |\@defineactions| and +% |\defaultTreatments|, the leading character is either encoded, +% decoded, or removed in the process. +% Note: |\@rotate| loses track of double/multi-spaces, per \LaTeX{} +% convention, unless encoded blanks (|~|) are used. +% \begin{macrocode} +\newcommand\@rotate[1]{% +% CHECK BYTE CONVERSION TEST FIRST + \if \@frombyte#1\@tostring\else +% MUST CHECK FOR MULTI-BYTE CHARACTERS NEXT, SO THAT ENCODING CHARACTER +% ISN'T MISTAKEN FOR A NORMAL CHARACTER LATER IN MACRO. + \if 0\SymbolTreatment% + \@removeExpandableSymbols{#1}% + \else + \@rotateExpandableSymbols{#1}% + \fi + \fi +} + +\newcommand\@rotateExpandableSymbols[1]{% +% INDIRECT (EXPANDABLE) SYMBOLS + \expandafter\ifx\expandafter\\&\else + \expandafter\ifx\expandafter\%#1\%\else + \expandafter\ifx\expandafter\##1\#\else + \@rotateBlankSpaces{#1}% + \fi + \fi + \fi +} + +\newcommand\@removeExpandableSymbols[1]{% +% INDIRECT (EXPANDABLE) SYMBOLS + \expandafter\ifx\expandafter\\else + \expandafter\ifx\expandafter\%#1\else + \expandafter\ifx\expandafter\##1\else + \@rotateBlankSpaces{#1}% + \fi + \fi + \fi +} + +\newcommand\@rotateBlankSpaces[1]{% + \expandafter\ifx\expandafter$#1$\else% <---RETAIN GOING INTO/FROM MATH MODE +% THE FOLLOWING FINDS TILDES, BUT MUST COME AFTER EXPANDABLE SYMBOL +% SEARCH, OR ELSE IT FINDS THEM TOO, BY MISTAKE. + \if \EncodedBlankSpace#1\@blankaction\else% <--- FINDS REENCODED TILDE +% THE FOLLOWING SHOULD FIND TILDES, BUT DOESN'T... THUS, COMMENTED OUT. +% \expandafter\ifx\expandafter\EncodedBlankSpace#1\@blankaction\else + \if \BlankSpace#1\@blankaction\else + \if 2\AlphaTreatment% + \@chcaseAlpha{#1}% + \else + \if 0\AlphaTreatment% + \@removeAlpha{#1}% + \else + \@rotateAlpha{#1}% + \fi + \fi + \fi +% \fi + \fi + \fi +} + +\newcommand\@rotateAlpha[1]{% +% LOWERCASE + \if a#1a\else + \if b#1b\else + \if c#1c\else + \if d#1d\else + \if e#1e\else + \if f#1f\else + \if g#1g\else + \if h#1h\else + \if i#1i\else + \if j#1j\else + \if k#1k\else + \if l#1l\else + \if m#1m\else + \if n#1n\else + \if o#1o\else + \if p#1p\else + \if q#1q\else + \if r#1r\else + \if s#1s\else + \if t#1t\else + \if u#1u\else + \if v#1v\else + \if w#1w\else + \if x#1x\else + \if y#1y\else + \if z#1z\else + \if 2\AlphaCapsTreatment% + \@chcaseAlphaCaps{#1}% + \else + \if 0\AlphaCapsTreatment% + \@removeAlphaCaps{#1}% + \else + \@rotateAlphaCaps{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@removeAlpha[1]{% +% LOWERCASE + \if a#1\else + \if b#1\else + \if c#1\else + \if d#1\else + \if e#1\else + \if f#1\else + \if g#1\else + \if h#1\else + \if i#1\else + \if j#1\else + \if k#1\else + \if l#1\else + \if m#1\else + \if n#1\else + \if o#1\else + \if p#1\else + \if q#1\else + \if r#1\else + \if s#1\else + \if t#1\else + \if u#1\else + \if v#1\else + \if w#1\else + \if x#1\else + \if y#1\else + \if z#1\else + \if 2\AlphaCapsTreatment% + \@chcaseAlphaCaps{#1}% + \else + \if 0\AlphaCapsTreatment% + \@removeAlphaCaps{#1}% + \else + \@rotateAlphaCaps{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@chcaseAlpha[1]{% +% LOWERCASE TO UPPERCASE + \if a#1A\else + \if b#1B\else + \if c#1C\else + \if d#1D\else + \if e#1E\else + \if f#1F\else + \if g#1G\else + \if h#1H\else + \if i#1I\else + \if j#1J\else + \if k#1K\else + \if l#1L\else + \if m#1M\else + \if n#1N\else + \if o#1O\else + \if p#1P\else + \if q#1Q\else + \if r#1R\else + \if s#1S\else + \if t#1T\else + \if u#1U\else + \if v#1V\else + \if w#1W\else + \if x#1X\else + \if y#1Y\else + \if z#1Z\else + \if 2\AlphaCapsTreatment% + \@chcaseAlphaCaps{#1}% + \else + \if 0\AlphaCapsTreatment% + \@removeAlphaCaps{#1}% + \else + \@rotateAlphaCaps{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@rotateAlphaCaps[1]{% +% UPPERCASE + \if A#1A\else + \if B#1B\else + \if C#1C\else + \if D#1D\else + \if E#1E\else + \if F#1F\else + \if G#1G\else + \if H#1H\else + \if I#1I\else + \if J#1J\else + \if K#1K\else + \if L#1L\else + \if M#1M\else + \if N#1N\else + \if O#1O\else + \if P#1P\else + \if Q#1Q\else + \if R#1R\else + \if S#1S\else + \if T#1T\else + \if U#1U\else + \if V#1V\else + \if W#1W\else + \if X#1X\else + \if Y#1Y\else + \if Z#1Z\else + \if 0\NumeralTreatment% + \@removeNumerals{#1}% + \else + \@rotateNumerals{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@removeAlphaCaps[1]{% +% UPPERCASE + \if A#1\else + \if B#1\else + \if C#1\else + \if D#1\else + \if E#1\else + \if F#1\else + \if G#1\else + \if H#1\else + \if I#1\else + \if J#1\else + \if K#1\else + \if L#1\else + \if M#1\else + \if N#1\else + \if O#1\else + \if P#1\else + \if Q#1\else + \if R#1\else + \if S#1\else + \if T#1\else + \if U#1\else + \if V#1\else + \if W#1\else + \if X#1\else + \if Y#1\else + \if Z#1\else + \if 0\NumeralTreatment% + \@removeNumerals{#1}% + \else + \@rotateNumerals{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@chcaseAlphaCaps[1]{% +% UPPERCASE TO LOWERCASE + \if A#1a\else + \if B#1b\else + \if C#1c\else + \if D#1d\else + \if E#1e\else + \if F#1f\else + \if G#1g\else + \if H#1h\else + \if I#1i\else + \if J#1j\else + \if K#1k\else + \if L#1l\else + \if M#1m\else + \if N#1n\else + \if O#1o\else + \if P#1p\else + \if Q#1q\else + \if R#1r\else + \if S#1s\else + \if T#1t\else + \if U#1u\else + \if V#1v\else + \if W#1w\else + \if X#1x\else + \if Y#1y\else + \if Z#1z\else + \if 0\NumeralTreatment% + \@removeNumerals{#1}% + \else + \@rotateNumerals{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@rotateNumerals[1]{% +% NUMERALS + \if 1#11\else + \if 2#12\else + \if 3#13\else + \if 4#14\else + \if 5#15\else + \if 6#16\else + \if 7#17\else + \if 8#18\else + \if 9#19\else + \if 0#10\else + \if 0\PunctuationTreatment% + \@removePunctuation{#1}% + \else + \@rotatePunctuation{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@removeNumerals[1]{% +% NUMERALS + \if 1#1\else + \if 2#1\else + \if 3#1\else + \if 4#1\else + \if 5#1\else + \if 6#1\else + \if 7#1\else + \if 8#1\else + \if 9#1\else + \if 0#1\else + \if 0\PunctuationTreatment% + \@removePunctuation{#1}% + \else + \@rotatePunctuation{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@rotatePunctuation[1]{% +% PUNCTUATION + \if ;#1;\else + \if :#1:\else + \if '#1'\else + \if "#1"\else + \if ,#1,\else + \if .#1.\else + \if ?#1?\else + \if `#1`\else + \if !#1!\else + \if 0\SymbolTreatment% + \@removeDirectSymbols{#1}% + \else + \@rotateDirectSymbols{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@removePunctuation[1]{% +% PUNCTUATION + \if ;#1\else + \if :#1\else + \if '#1\else + \if "#1\else + \if ,#1\else + \if .#1\else + \if ?#1\else + \if `#1\else + \if !#1\else + \if 0\SymbolTreatment% + \@removeDirectSymbols{#1}% + \else + \@rotateDirectSymbols{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@rotateDirectSymbols[1]{% +% DIRECT SYMBOLS + \if /#1/\else + \if @#1@\else + \if *#1*\else + \if (#1(\else + \if )#1)\else + \if -#1-\else + \if _#1_\else + \if =#1=\else + \if +#1+\else + \if [#1[\else + \if ]#1]\else + \if ^#1^\else% <--FOR SUPERSCRIPTS, NOT \^ + \if <#1<\else + \if >#1>\else + \if |#1|\else + \if &\else + \@rotateUndecipherable{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@removeDirectSymbols[1]{% +% DIRECT SYMBOLS + \if /#1\else + \if @#1\else + \if *#1\else + \if (#1\else + \if )#1\else + \if -#1\else + \if _#1\else + \if =#1\else + \if +#1\else + \if [#1\else + \if ]#1\else + \if ^#1\else% <--FOR SUPERSCRIPTS, NOT \^ + \if <#1\else + \if >#1\else + \if |#1\else + \if \else + \@rotateUndecipherable{#1}% + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi + \fi +} + +\newcommand\@rotateUndecipherable[1]{% +% REPLACE UNDECIPHERABLE SYMBOL WITH A TOKEN CHARACTER (DEFAULT .) + \expandafter\@gobble#1\undecipherable% +% DONE... CLOSE UP SHOP +} +% \end{macrocode} +% \end{macro} + +% \begin{macrocode} +\catcode`\&=4 +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% \end{macrocode} +% +% \Finale +\endinput +% +% End of file `stringstrings.dtx'. diff --git a/macros/latex/contrib/stringstrings/stringstrings.ins b/macros/latex/contrib/stringstrings/stringstrings.ins new file mode 100644 index 0000000000..3564603d75 --- /dev/null +++ b/macros/latex/contrib/stringstrings/stringstrings.ins @@ -0,0 +1,6 @@ +% LaTeX this .ins file in order to generate the .sty file from the .dtx file +\input docstrip +\askforoverwritefalse +\generate{\file{stringstrings.sty}{\from{stringstrings.dtx}{package}} + } +\endbatchfile diff --git a/macros/latex/contrib/stringstrings/stringstrings.pdf b/macros/latex/contrib/stringstrings/stringstrings.pdf new file mode 100644 index 0000000000..13684086f6 Binary files /dev/null and b/macros/latex/contrib/stringstrings/stringstrings.pdf differ -- cgit v1.2.3