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textmerg.dtx
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% \iffalse meta-comment
% \begin{macrocode}
%<*textmerg|plain>
\def\fileversion{2.02}
\def\filedate{2019/06/25}
\def\filename{textmerg.dtx}
\def\Copyright{Copyright (C) 1992,1994 Mike Piff, University of Sheffield, England}
%</textmerg|plain>
% \end{macrocode}
%
% This file is placed in the public domain. No provision is made for
% support of the use of the facilities herein.
%
% For updates, contact your nearest CTAN site.
%
% \fi
%
% \changes{2.01}{1994/06/20}{First version for LaTeX2e}
% \changes{2.01a}{2000/08/25}{[email protected] --- relaxation of licence
% terms}
%
%\CheckSum{349}
%
%\title{Text merges in \TeX\ and \LaTeX\thanks{This article originally
%appeared in TUGboat Vol 13(4), 1992, p518--523.}}
%\author{Mike Piff}
%\maketitle
%\thispagestyle{headings}
%\begin{abstract}
% In this article the author explains how to do some standard
% and not so standard word processor text merges in \TeX\ documents,
% using no other tools than \TeX\ itself.
% A common application is to the mail merge or form letter,
% where names and addresses are
% stored in a file, together with other bits of information, and a standard
% letter with variable fields embedded in it is customized for every name
% from this file.
% Another application is to the pretty-printing of the contents of a database.
%
% The macros described in |textmerg.sty| work equally
% in both plain \TeX\ and \LaTeX. However, this has meant heavy use
% of |\def| where |\newcommand| would have been preferable.
%\end{abstract}
%
%\tableofcontents
%
%\section{Introduction}
%It is often said that although \LaTeX\ is good at typesetting
%mathematics, it is wholly unsuitable for common word processor functions
%such as mail merges.
%The latter are easy to achieve in most ordinary word processors,
%but in its raw state \LaTeX\ is incapable of doing a mail merge, or, indeed, of
%generating the same block of text over and over again but with different
%parameters in each block, those parameters having been read from a subsidiary
%merge file.
%The latter file might possibly be the output from a database or any other
%program.
%
%This article aims to show the reader that such a repetitive task need not be
%as difficult as it at first appears. In \TeX, it is possible to hide many
%details of a facility inside a subsidiary style file, so that the user is
%unaware of what fearful processes are going on in the background.
%It is then possible to present the end-user with an extremely simple
%interface, perhaps simpler and more powerful than is available in other
%systems.
%
%In earlier TUGboat articles
%\cite{Bell:TB8-1-54,Garavelli:TB8-1-53,Lee:TB7-3-187,%
%McKinstry:TB8-1-60} it was shown how a standard letter could be
%customized by adding names and addresses from a separate file. I aim to show
%that it is possible to achieve far more than this with a fairly compact
%but general set of macros.
%
%\section{A simple example}
%Suppose that we have a list of student names and examination grades, one
%per student, and that we wish to send a letter to each student giving
%his/her exam grade.
%We must decide first what bits of information must be prepared in
%our subsidiary file, by looking at an example letter and finding out which
%items change from letter to letter.
%
%Suppose that one instance of our letter is the following,
%a \LaTeX\ example.
%\begin{verbatim}
%\begin{letter}{Miss Iusta Mo\\
% 34 Winchester Road\\
% Sheffield\\
% England}
% \opening{Dear Miss Mo,}
% This letter is to inform you
% that you obtained grade A in
% your recent examinations.
% \closing{Yours faithfully,}
%\end{letter}
%\end{verbatim}
%We can see that we need to know the student's title, forename(s), surname,
%address and grade to compose such a letter.
%
%One of the simplest ways of achieving this effect is to prepare a file
%with lines of the form
%\begin{verbatim}
%\MyLetter{Mr}...{C}
%\end{verbatim}
%for each student and then simply |\input| it into a \LaTeX\ file in which
%|\MyLetter| has been defined as having five parameters.
%A problem with this approach is that we may not be able to coax the student
%database into producing such a file.
%Another problem is that we need something more subtle if there are fifty
%parameters. For example, we might want to print out the
%contents of the student database with one page per student, but it could be
%that there are fifty information fields per student. Even worse,
%the number of pieces of information per student might not be a
%constant number, because, say, we are printing out fields from a related
%file in which marks on individual examination papers are held.
%
%We shall tackle our simple example in a way that lends itself
%to more generality later on, and in a form that most database programs
%should be capable of handling.
%
%We thus prepare a subsidiary file |results.dat|
%with records of five fields in it.
%Each student is represented by five lines of this file,
% \begin{macrocode}
%<*results>
Miss
Iusta
Mo
34 Winchester Road\\Sheffield\\England
A
Mr
Arthur
Minit
43 Sheffield Road\\Winchester\\England
C
%</results>
% \end{macrocode}
%and the student records appear one after another in this file.
%Thus both the field and record separators are carriage returns.
%
%\DescribeMacro{\Merge}
%\DescribeMacro{\Fields}
%\TeX\ itself needs to know three bits of information:
%\begin{enumerate}
% \item the name of the subsidiary file,
% \item the fields to read, and
% \item the template of the letter.
%\end{enumerate}
%We pass it this information in the following form
% \begin{macrocode}
%<*examp>
\documentclass[12pt]{letter}
\usepackage{textmerg}
\begin{document}
\Fields{\Title\Forenames\Surname
\Address\Grade}
\Merge{results.dat}{%
\begin{letter}{\Title\ \Forenames\
\Surname\\\Address}
\opening{Dear \Title\ \Surname,}
This letter is to inform you
that you obtained grade \Grade\ in
your recent examinations.
\closing{Yours faithfully,}
\end{letter}}
\end{document}
%</examp>
% \end{macrocode}
%\LaTeX\ should
%open the subsidiary file and, for each set of five parameters,
%generate a letter in the |dvi| file. When it reaches the end of
%the merge file, \LaTeX\ should terminate execution of the |\Merge|
%command and presumably finish the document.
%
%\section{A few complications}
%
%Looking at the above example in a bit more generality,
%we see that we are reading
%records of $n$ fields from the merge file and placing them into a \TeX\ document
%in such a way that they replace $n$ preassigned control sequences.
%However, it may happen that the merge file is prepared by humans, who might
%possibly have inserted some extra blank lines into the file. Again, it
%could be that certain sorts of fields might be blank,
%whereas others can never be blank.
%Perhaps it would be better to build in some degree of error recovery.
%
%\DescribeMacro{\Fields}
%We shall make the assumption that the first field in any record is definitely
%a non-blank one and that we know beforehand whether each
%of the others might conceivably be blank.
%We make a modification to our |\Fields| statement.
%It can contain not only
%the field name control sequences but also the tokens |+| and~|-|,
%with the following interpretation. A |+| indicates that all following
%fields should be re-read until a non-blank result is obtained.
%A |-| indicates that any following fields could conceivably be blank,
%subject to the restriction that the very first field is always non-blank.
%
%Thus the command
%\begin{verbatim}
%\Fields{\a+\b\c-\d}
%\end{verbatim}
%would indicate that only |\d| is allowed to be blank, because the
%|+| token has no effect.
%In
%\begin{verbatim}
%\Fields{-\a\b+-\c+\d}
%\end{verbatim}
%the initial |-| token enables blank reading of data tokens, but the very
%first data token is not permitted to be blank anyway.
%Thus |\a| is read as a non-blank token and |\b| as a
%possibly blank token.
%The sequence |+-| now switches non-blank reading on and off again,
%so |\c| is read as possibly blank.
%Finally |\d| is non-blank.
%
%Another complication we allow is that the |\Fields| command can
%appear several times in our file. The interpretation is that
%the last occurrence of |\Fields| before we encounter the |\Merge|
%command will indicate the fields to be read for every record. Any
%occurrences of |\Fields| within the merged text indicate a new list
%of fields to be read when that command is encountered. This lets us
%do some conditional processing, such as\footnote{It is assumed that
%{\tt\string\Mrs} expands to {\tt Mrs}.}
%\begin{verbatim}
% \ifx\Title\Mrs
% \Fields{\MaidenName}
% \fi
%\end{verbatim}
%and also gives us some flexibility about the field order later on.
%
%It should also be stressed that the undefined control sequences
%appearing in the template need not
%correspond exactly to the fields in the subsidiary file.
%An example might be that the subsidiary file contains the text
%\begin{verbatim}
%Spriggs, Mr Abraham L
%\end{verbatim}
%and one field read is |\FullName|.
%\TeX\ would then have to pre-process this
%name to generate its several components as used in the template.
%The command |\PreProcess| could be included at the start of the template.
%\begin{verbatim}
%\def\parse#1, #2 #3\endparse{%
% \def\Surname{#1}\def\Title{#2}%
% \def\Forenames{#3}}
%\def\PreProcess{\expandafter
% \parse\FullName\endparse}
%\end{verbatim}
%
%An alternative and simpler looking approach to reading fields from a file
%|\fil| might be to define each such field as
%follows.
%\begin{verbatim}
%\def\Field#1{\def#1{\read\fil to#1#1}}
%\Field\Name \Field\Address \Field\Mark
%\end{verbatim}
%The first time |\Name| is encountered, it reads its own expansion
%from |\fil| and then expands itself.
%Henceforth, it has acquired its new expansion.
%The disadvantage is that |\Name| must appear in the
%text before any subsidiary field such as |\Surname|
%can be used.
%
%Finally we should consider the possibility that the second parameter of
%|\Merge| might be too large to fit into memory. We can clearly handle
%this problem by allowing the second parameter merely to consist of the text
%|\input template|, so that the root file handles two subsidiary
%files, one containing the template and the other containing the fields.
%
%
%\section{A complicated example}
%
%We will next look at an example in which the template contains a table
%of indeterminate length, albeit fixed width. So far our macros work
%in either plain \TeX\ or in \LaTeX, but the way in which these
%two packages handle
%tables is slightly different. However, the only difference that need
%concern us is that \LaTeX\ uses |\\| where plain \TeX\ uses |\cr|.
%
%\DescribeMacro{\MultiRead}
%The example given here is in \LaTeX, but our style will work equally well
%in plain \TeX. In our student letter we wish to insert a table of course
%codes and marks. Since each student did a different number of courses, we
%need some way of recognizing the end of the course list in the merge file.
%The default will be to insert a blank line at the end of such a sub-list.
%Thus, the following text appears before the close of the letter template.
%\begin{verbatim}
%Here are your marks on individual papers.
%\begin{center}
% \begin{tabular}{|lr|}\hline
% Code&Mark\\\hline
% \MultiRead{2}\\\hline
% \end{tabular}
%\end{center}
%\end{verbatim}
%The merge file now has the following structure.
%\begin{verbatim}
%Title
%...
%Grade
%Code
%Mark
%...
%Code
%Mark
%\end{verbatim}
%$\langle${\it blank\/}$\rangle$
%\begin{verbatim}
%Title
%...
%\end{verbatim}
%
%\DescribeMacro{\MarkEnd}
%In other applications some of the fields in the table might possibly be blank.
%We then let the user change the $\langle${\it blank\/}$\rangle$
%line marking the end of a list to some other string of his own choosing.
%\begin{verbatim}
%\MarkEnd{***}
%\end{verbatim}
%
%There might be multiple tables in the same template,
%with their data intermingled in the merge file with main fields.
%The generalized |\Fields| command allows us
%to order the merge file however we want. Thus we could have main fields, then
%a table, followed by more main fields, and so on.
%
%\DescribeMacro{\Process}
%A final complication is that the fields appearing in a table are essentially
%anonymous. By this I mean that they are transferred into the table as
%they are, without any pre-processing possible through appearing
%in the template as control sequences. If we wish what appears in
%the table to be different from what appears in the file, a mechanism is needed
%to tell \TeX\ that a certain column has to be treated in a certain way.
%The command
%\begin{verbatim}
%\Process{n}{\foo}
%\end{verbatim}
%will replace every field $\langle f\rangle$ read into column $n$
%by |\foo{|$\langle f\rangle$|}|.
%It is even possible to do some numerical calculations by this method.
%
%Here is a \LaTeX\ example to illustrate the table processing
%features of |textmerg.sty|.
% \begin{macrocode}
%<*example>
\documentclass[12pt]{article}
\usepackage{textmerg}
\MarkEnd{***}
\Process{2}{\Advance}
\def\Advance#1{#1\addtocounter{page}{#1}}
\Fields{+\Name\Verb}
\begin{document}
\Merge{silly.dat}{%
Dear \Name,\par
Here is a table to \Verb\ at:
\Fields{\Width}%
\begin{tabular}{*{\Width}c}
\MultiRead\Width
\end{tabular}.\par
\Fields{\Adj}%
That was \Adj!
\clearpage}
\end{document}
%</example>
% \end{macrocode}
%The effect of this file is not apparent until we see |silly.dat|.
%It is listed here.
% \begin{macrocode}
%<*silly>
Mike
look
3
1
2
3
11
12
13
***
good
Shelagh
gaze
2
21
22
23
24
***
horrid
%</silly>
% \end{macrocode}
%
% The same can be done in plain \TeX.
% \begin{macrocode}
%<*plainexample>
\input textmerg
\MarkEnd{***}
\Process{2}{\Advance}
\def\Advance#1{#1\global\advance\count0by#1}
\Fields{+\Name\Verb}
\Merge{silly.dat}{%
Dear \Name,\par
Here is a table to \Verb\ at:
\Fields{\Width}%
\vbox{\halign{\hfil{} ## {}\hfil&&\hfil{} ## {}\hfil\cr
\MultiRead\Width\cr
}}.\par
\Fields{\Adj}%
That was \Adj!
\vfill\eject}
\end
%</plainexample>
% \end{macrocode}
%
%
%\StopEventually{
%\begin{thebibliography}{GHWW84}
%\bibitem[{Bel}87]{Bell:TB8-1-54}
%Edwin~V. {Bell, II}.
%\newblock {{AutoLetter: A \TeX\ form letter procedure}}.
%\newblock {\em TUGBoat}, 8(1):54, April 1987.
%
%\bibitem[Gar87]{Garavelli:TB8-1-53}
%John~S. Garavelli.
%\newblock {{Form letter macros}}.
%\newblock {\em TUGBoat}, 8(1):53, April 1987.
%
%\bibitem[Lee86]{Lee:TB7-3-187}
%John Lee.
%\newblock {{Form letters}}.
%\newblock {\em TUGBoat}, 7(3):187, October 1986.
%
%\bibitem[McK87]{McKinstry:TB8-1-60}
%Graeme McKinstry.
%\newblock {{Form letters}}.
%\newblock {\em TUGBoat}, 8(1):60, April 1987.
%\end{thebibliography}
%}
%
% \section{Identification}
%
% This package can only be used with \LaTeXe, so
% an appropriate message is displayed when another
% format is used\footnote{However, some code is inserted
% to allow its use with plain \protect\TeX}.
% \begin{macrocode}
%<*textmerg>
\NeedsTeXFormat{LaTeX2e}[1994/01/01]
% \end{macrocode}
%
% Announce the package name and its version:
% \begin{macrocode}
\ProvidesPackage{textmerg}[\filedate]
% \end{macrocode}
%
% And display it on the terminal (and the log file):
% \begin{macrocode}
\typeout{Package `textmerg' <\filedate>.}
\typeout{\Copyright}
%</textmerg>
% \end{macrocode}
%
% The plain \TeX\ version will simply |\input| this package file. Thus
% we need to know that it will understand everything in the file.
% \begin{macrocode}
%<*plain>
\def\NeedsTeXFormat#1[#2]{}
\def\ProvidesPackage#1[#2]{}
\def\typeout#1{\immediate\write0{#1}}
\input textmerg.sty
%</plain>
% \end{macrocode}
%
%
%\section{Implementation of the simple case}
%
% \begin{macro}{\glet}
%For convenience we define a frequently used combination here.
% \begin{macrocode}
%<*textmerg>
\def\glet{\global\let}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\MergeFile}
% \begin{macro}{\InputFile}
%The subsidiary merge file is defined next. A macro is then defined that
%attempts to open it for reading. If that is unsuccessful, the file is
%closed and an error message is issued.
% \begin{macrocode}
\newread\MergeFile
\def\InputFile#1{%
\openin\MergeFile=#1
\ifeof\MergeFile
\errmessage{Empty merge file}%
\closein\MergeFile
\long\def\MakeTemplate##1{%
\def\Template{}}%
\else\GetInput\fi}
% \end{macrocode}
% \end{macro}
% \end{macro}
%The command |\MakeTemplate| will be used later to generate the body
%of the form into which fields are inserted. We redefine it if the file
%is empty so that it produces no text.
%
% \begin{macro}{\GetInput}
%Because the conditional |\ifeof| does not return true until after an
%unsuccessful read operation, a mechanism of looking ahead is used which is
%similar to that found in Pascal.
% \begin{macrocode}
\def\GetInput{{\endlinechar=-1
\global\read\MergeFile to\InputBuffer}}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\SeeIfEof}
% \begin{macro}{\LookAgain}
%We set up a mechanism for deciding whether or not we have
%exhausted the merge file. It forces |\ifeof| to return true
%by skipping over blank lines.
% \begin{macrocode}
\def\SeeIfEof{%
\let\NextLook\relax
\ifeof\MergeFile
\else
\ifx\InputBuffer\empty
\LookAgain
\fi
\fi
\NextLook}
\def\LookAgain{\GetInput
\let\NextLook\SeeIfEof}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\ifNonBlank}
% \begin{macro}{\AllowBlank}
% \begin{macro}{\DontAllowBlank}
%We can now prepare to read actual fields from the merge file. A conditional
%is used to indicate whether or not the field we are about to read is
%allowed to be blank. We also set up a mechanism for changing its value.
% \begin{macrocode}
\newif\ifNonBlank \NonBlankfalse
\def\AllowBlank{\global\NonBlankfalse}
\def\DontAllowBlank{\global\NonBlanktrue}
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\ReadIn}
% \begin{macro}{\MissingField}
%Fields are actually read by means of the following command. Its only
%parameter is the name of the control sequence into which the field is
%read.
% \begin{macrocode}
\def\ReadIn#1{%
\ifNonBlank\SeeIfEof\fi
\ifeof\MergeFile
\gdef#1{??}\MissingField
\else
\glet#1\InputBuffer
\GetInput
\fi}
\def\MissingField{%
\message{Missing field in file}}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\GlobalFields}
% \begin{macro}{\Fields}
%The |\Fields| command places its parameter into a token
%register called |\GlobalFields|.
%This command will be redefined by the |\Merge| command.
% \begin{macrocode}
\newtoks\GlobalFields
\def\Fields#1{\GlobalFields{#1}}
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\ParseFields}
% \begin{macro}{\EndParseFields}
%When a field token list is read,
%each individual token within it must be either
%read as a field or interpreted as a blank/nonblank switch.
%The next token is then read by tail recursion.
%It is assumed that the final token in the list is |\EndParseFields|.
%This must be defined to expand to something unlikely to be read as a
%value of one of the fields, and so we |\let| it to |\ParseFields|.
% \begin{macrocode}
\def\ParseFields#1{%
\ifx#1\EndParseFields
\let\NextParse\relax
\else
\let\NextParse\ParseFields
\ifx#1+\DontAllowBlank
\else
\ifx#1-\AllowBlank
\else\ReadIn#1%
\fi
\fi
\fi\NextParse}
\let\EndParseFields\ParseFields
% \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\ReadFields}
%We apply this command to our token register after expanding it.
% \begin{macrocode}
\def\ReadFields#1{\expandafter\ParseFields
\the#1\EndParseFields
\AllowBlank}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\Merge}
% \begin{macro}{\MakeTemplate}
%At long last we are ready to define the |\Merge| command itself.
%The first parameter is the filename of the subsidiary file and the second
%is the template or form into which fields are inserted.
%Since a |\Fields| command within the |\Merge| text is meant
%to act immediately on the token list that follows it, we redefine it
%to operate in a different way.
% \begin{macrocode}
\long\def\Merge#1#2{\begingroup%
\InputFile{#1}%
\def\Fields##1{%
\ParseFields##1\EndParseFields}%
\MakeTemplate{#2}\Iterate}
\long\def\MakeTemplate#1{\def\Template{#1}}
% \end{macrocode}
% \end{macro}
% \end{macro}
%The grouping keeps any changes to the definition of |\MakeTemplate|
%local to this merge.
%Thus several consecutive merges can be handled
%within one document.
%The |\endgroup| is supplied by the macro |\Iterate|
%when the merge file has been exhausted.
%
% \begin{macro}{\Iteratecounter}
% \begin{macro}{\Iterate}
%|\Iterate| must read the fields which were declared before it was entered,
%substitute them into its template and repeat itself using tail recursion
%if the end of the merge file has not been encountered.
% \begin{macrocode}
\countdef\Iteratecounter=2
\Iteratecounter=0
\def\Iterate{%
\global\advance\Iteratecounter by1
\ReadFields\GlobalFields
\Template
\SeeIfEof
\ifeof\MergeFile
\def\NextIteration{%
\endgroup\closein\MergeFile}%
\else
\let\NextIteration\Iterate
\fi
\NextIteration}
% \end{macrocode}
% \end{macro}
% \end{macro}
%The point of the use of counter 2 in the above is that it is accessible to
%the print driver for page selection.
%Anyone who has started printing 150 letters, all with page number~1,
%only to run out of paper half way, will appreciate the use of this artifice!
%
%\section{Implementation of merged tables}
%
% \begin{macro}{\MultiCount}
% \begin{macro}{\MaxCount}
% \begin{macro}{\ifStartOfList}
%We set up two counters, one for the column we are reading and the
%other for the total number of columns in the table.
%We also need a conditional to mark the start of the table, so that
%we terminate each row correctly with |\\| or |\cr|, or nothing at all
%at the beginning of the first row.
% \begin{macrocode}
\newcount\MultiCount \newcount\MaxCount
\newif\ifStartOfList
% \end{macrocode}
% \end{macro}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\MultiRead}
%The parameter to |\MultiRead| is the number of columns to read at a
%time. This command passes control to |\NextRead| after initializing
%certain parameters.
% \begin{macrocode}
\def\MultiRead#1{%
\ifnum#1>0
\SelectCR
\MakeEmpty{#1}%
\global\StartOfListtrue
\glet\NextRead\MRead
\AllowBlank
\global\MaxCount=#1
\NextRead
\fi}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\Emptyctr}
% \begin{macro}{\MakeEmpty}
%The command |\MakeEmpty| is required by the pre-pro\-cess\-ing
%of each field.
%The idea is that the command |\csname pr|$nn$|\endcsname|,
%which we will loosely call |\pr|$nn$,
%is executed on each field in column $nn$. However, most of these commands
%will be undefined, and so we equate each of those that has not been
%defined to |\empty|.
% \begin{macrocode}
\newcount\Emptyctr
\def\MakeEmpty#1{\Emptyctr=0
\loop
\advance\Emptyctr by1
\expandafter\ifx\csname
pr\the\Emptyctr\endcsname\relax
\expandafter\glet\csname
pr\the\Emptyctr\endcsname\empty
\fi
\ifnum\Emptyctr<#1
\repeat}
% \end{macrocode}
% \end{macro}
% \end{macro}
%Note that, because of the way we are accessing it via |\csname|,
%the first time |\pr|$nn$ is encountered it equates to |\relax|.
%
% \begin{macro}{\Process}
%The command |\Process#1#2| defines |\pr#1| to mean |#2|.
% \begin{macrocode}
\def\Process#1#2{%
\expandafter\def\csname
pr#1\endcsname##1{#2{##1}}}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\MarkEnd}
%We need to know how the last row is to be recognized. The default is an
%empty line in the merge file.
% \begin{macrocode}
\def\MarkEnd#1{\gdef\EndMarker{#1}}
\MarkEnd{}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NextLine}
% \begin{macro}{\NextField}
%We collect each row in a token register. The full row is assembled
%in |\NextLine| before being passed back to \TeX. Each field is
%read in |\TempField| and then placed temporarily into
%|\NextField|.
% \begin{macrocode}
\newtoks\NextLine \newtoks\NextField
% \end{macrocode}
% \end{macro}
% \end{macro}
%It is not necessary to do things this way; |\edef| can be used
%instead, but that approach might expand tokens prematurely.
%
% \begin{macro}{\AppendNextField}
%After the next field has been read, it is appended to |\NextLine|.
% \begin{macrocode}
\def\AppendNextField{%
\global\advance\MultiCount1
\NextField=\expandafter{\TempField}%
\edef\Append{\NextLine=
{\the\NextLine&\csname
pr\the\MultiCount\endcsname
{\the\NextField}}}%
\Append}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\EndLine}
% \begin{macro}{\FinishLine}
%We need to insert the correct end marker after each row of the table.
%The token |\cr| must be disguised a little before it is acceptable
%in a \LaTeX\ document.
% \begin{macrocode}
\def\SelectCR{\glet\EndLine\\}%
%</textmerg>
%<plain>\def\SelectCR{\gdef\EndLine{\cr}}%
%<*textmerg>
\def\FinishLine{%
\ifStartOfList
\global\StartOfListfalse
\else\EndLine\fi}
% \end{macrocode}
% \end{macro}
% \end{macro}
%This makes the assumption that if |\array| is defined then we must be
%in \LaTeX.
%
% \begin{macro}{\StopProcessing}
%We need a command to finish off a table. This should reset |\NextRead|
%to |\AllowBlank| to terminate the tail recursion,
%and also do some
%error recovery in case the file ends prematurely in the middle of a row.
% \begin{macrocode}
\def\StopProcessing{%
\global\MultiCount\MaxCount
\glet\NextRead\AllowBlank}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\MRead}
%The command |\MRead| prepares to read a row of a table. It reads a
%field from the merge file and checks to see whether the table has been
%exhausted.
% \begin{macrocode}
\def\MRead{%
\global\MultiCount=1
\ReadIn\TempField
\ifx\TempField\EndMarker
\StopProcessing
\else
\FinishLine
\NextField=\expandafter{\TempField}%
\edef\StartLine{\NextLine={\csname
pr1\endcsname{\the\NextField}}}%
\StartLine
\ConstructNextRow
\fi
\NextRead}
% \end{macrocode}
% \end{macro}
%
% \begin{macro}{\ConstructNextRow}
%Command |\ConstructNextRow| does most of the work of assembling a row of
%the table.
%It assembles |\MaxCount| fields
%at a time into |\NextLine| unless an error is encountered.
% \begin{macrocode}
\def\ConstructNextRow{%
\ifnum\MultiCount<\MaxCount
\loop
\ReadIn\TempField
\ifx\TempField\EndMarker
\glet\TempField\empty
\StopProcessing
\MissingField
\else
\ifeof\MergeFile
\glet\TempField\empty
\StopProcessing
\MissingField
\fi
\fi
\AppendNextField
\ifnum\MultiCount<\MaxCount
\repeat
\fi
\the\NextLine}
%</textmerg>
% \end{macrocode}
% \end{macro}
%
%
% \section{The documentation driver file}
%
% This is the driver file that produces this documentation.
% We use the document class provided by the \LaTeXe\ distribution
% for producing the documentation.
% \begin{macrocode}
%<*driver>
\documentclass{ltxdoc}
\RecordChanges
\begin{document}
\DocInput{textmerg.dtx}
\PrintIndex
\PrintChanges
\end{document}
%</driver>
% \end{macrocode}
%
%
%
%\Finale
%
%\endinput