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+% $StyleId: cwebbase.doc,v 1.4 1995/11/07 17:55:19 schrod Exp $
+%----------------------------------------------------------------------
+% Written by Joachim Schrod <schrod@iti.informatik.th-darmstadt.de>.
+% Copyright conditions see below (GPL).
+
+%
+% LaTeX macros cwebbase
+% support for incorporation of CWEAVE markup in LaTeX documents
+%
+% [LaTeX in MAKEPROG]
+% (history at end)
+
+
+
+
+\documentclass{progltx}
+
+\usepackage{cweb-doc} % document-specific markup
+\usepackage{fullpage}
+
+
+\RCS $StyleRevision: 1.4 $
+\RCS $StyleDate: 1995/11/07 17:55:19 $
+
+
+\begin{document}
+
+
+\title{Typesetting \cweave{} Output}
+\author{% % LaTeX does not discard unnecessary glue...
+ Joachim Schrod%
+ \thanks{%
+ \protect\raggedright
+ TU~Darmstadt, Computer Science Department, WG Systems Programming,
+ Alexanderstr.~10, D-64283~Darmstadt, Germany.
+ Email: \texttt{schrod@iti.informatik.th-darmstadt.de}.%
+ }%
+ }
+\date{%
+ Revision \RCSStyleRevision\\
+ (as of \RCSStyleDate)%
+ }
+
+\maketitle
+
+
+% doesn't work with progltx yet
+%\tableofcontents
+
+
+
+
+\chap Introduction.
+
+This code shall interpret and render the tag set output by \cweave{}.
+That's realized in this module as it's needed in multiple places --
+when we want to use \LaTeX{} markup in \cweb{}, when we want to
+incorporate \cweb{} pieces in \LaTeX{} documents (as examples, or in
+textbooks), and when we want to incorporate whole \cweb{} documents in
+a \LaTeX{} document. (That's by far the most difficult task.)
+
+As \cweb{} operates in modes, for obvious reasons our implementation
+is based on a finite state automaton (FSA). The whole tag set is
+separated into subsets that are valid in certain states.
+
+The complete set of tags does not obey any name conventions, some tags
+are even in conflict with standard \LaTeX{} tags (e.g.\ |\\|). Most
+tags are used to render code pieces. With the introduction of states
+we can restrict the visibilities of these tags to those states where
+we typeset program parts. The needed functionality will be available
+in cseqs of our namespace, we'll map that to \cweave{}'s names in a
+group.
+
+Then we have to implement the rendering of chunks and sections, that's
+(more or less) a straight-forward task. Actually, we only set up the
+basic code pieces, the integration of section divisions in the actual
+\LaTeX{} document is a task of higher-level code; that integration
+depends heavily on the type of document. That also implies that we
+won't implement front or back matter material (document markup, table
+of contents, index, list of refinements, etc.)\ in this module.
+
+
+\sect Let's identify this module.
+
+\noindent The code below is explained in the implementation
+documentation of the \pkg{rcs} package.
+
+\beginprog
+\begingroup
+ \def\RCSFile#1#2 $#3: #4 #5\endRCS $#6: #7 #8\endRCS{%
+ \def\date{#4}\def\id{v#7}%
+ \ProvidesFile{#1}[\date\space\id\space #2]%
+ }
+
+ \RCSFile{cwebbase.tex}{CWEAVE tags for LaTeX markup}
+ $StyleDate: 1995/11/07 17:55:19 $: 9999/00/00 \endRCS
+ $StyleRevision: 1.4 $: 0.0 \endRCS
+\endgroup
+\endprog
+
+
+\sect This module is part of the supported \textsl{cweb-sty} bundle.
+Send bug reports, comments and repairs.
+
+It assumes that the canonical setup of my modules has happened and can
+be used herein. (In particular, the underscore is a letter.)
+
+
+\sect This module reserves the namespace |cwbb|. It assumes that
+|\cweb_warning| is bound either to |\PackageWarningNoLine| or
+|\ClassWarningNoLine|, depending on the environment.
+
+\beginprog
+\ifx \cwbb@loaded\undefined
+ \def\cwbb@loaded{$StyleRevision: 1.4 $}
+\else
+ \cweb_warning{cwebbase}%
+ {Some other package already uses namespace `cwbb'}
+\fi
+\endprog
+
+
+\sect This is freely distributable software; you can redistribute it
+and/or modify it under the terms of the GNU General Public License as
+published by the Free Software Foundation; either version~2 of the
+License, or (at your option) any later version.
+
+This software is distributed in the hope that it will be useful, but
+\textbf{without any warranty}; without even the implied warranty of
+\textbf{merchantability} or \textbf{fitness for a particular purpose}.
+See the GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License in
+the file |License| along with this package; if not, write to the Free
+Software Foundation, Inc., 675~Mass Ave, Cambridge, MA~02139,~USA.
+
+
+
+
+% ------------------------------------------------------------
+%
+% subdocument: The interface between CWEAVE and TeX
+%
+
+\input{cweave-spec}
+
+%
+% ------------------------------------------------------------
+
+
+
+
+\chap Interface of \pkg{cwebbase} module.
+
+\pkg{cwebbase} implements most of \cweave{} tags. It sets up tons of
+redefinable cseqs, all of them start with |Cweb|.
+%
+\begin{fixme}
+ How do I document them? We need a configuration document anyhow. Do
+ I present here just a list of those cseqs realized in this module
+ and refer to the config docs? Need to wait until I have it, then
+ we'll see how the stuff here will be added.
+\end{fixme}
+
+
+\sect This module supports both hierarchic and flat section
+structuring. You have to bind |\cweb@structure| to 0 (hierarchic) or 1
+(flat) before importing it, to show which structure is wanted.
+
+
+\sect This module supports suppression of different document parts.
+You have to define flags |@cweb@suppress@|\<foo>|@| with
+$\mbox{\<foo>} \in \{ |changehints|, |unchanged|, |format| \}$ to
+denote if suppression shall happen.
+
+
+\sect The counter |secnumdepth| must be~11 if chunks shall be
+numbered. That counter doesn't need to be set when this module is
+imported, it can be set locally during typesetting \cweb{} code.
+
+The definitions for flat structure assume that |secnumdepth| is~11
+during typesetting.
+
+
+\sect |\part|, |\chapter| (if available), and |\section| are used for
+\cweb{} section divisions (those with the lowest ranks). These
+commands will change the respective counters globally and will
+add toc lines and marks. You might want to prevent that by redefining
+|\addcontentsline| and |\mark|.
+
+Table of contents macros are not defined for the section divisions
+introduced by this module. You must either prevent that they are
+written to the |AUX| file at all; or you must define them.
+%
+\begin{fixme}
+ Add explanation of introduced section divisions.
+\end{fixme}
+
+For flat structure, all section divisions are of type `|chunk|', like
+chunks. The section names start with `|\cwbbRank{|\<rank>|}|'. By
+default, |\cwbbRank| takes one argument and expands to the empty list
+-- this can be redefined for the table of contents.
+
+
+\sect The document end, as explained in the \cweave{} interface specs
+(chunk~\ref{spec:sec:docend}), is not implemented. That must be done
+by the user of this module -- if the back matter is to be processed at
+all.
+
+
+
+
+\chap Processing states.
+
+We have to typeset five different categories of material:
+Documentation, program pieces---embedded within the documentation and
+as large chunks, \TeX{} material within program pieces (i.e., comments
+and refinement names), and cross reference information. Since we need
+a complete other environment for the program pieces than for the rest
+we design ``states'' where we switch to appropriately.
+%
+\begin{enumerate}
+
+\item A chunk starts in the \textsl{documentation state}.
+
+\item |\B| switches to \textsl{program state}. This can happen in
+documentation and program state.
+
+\item While we process the argument of |\PB| we're in \textsl{restricted
+program state}; |\PB| may appear in documentation and in \TeX{}
+state. Since \TeX{} state can be switched on within restricted
+program state, |\PB| can appear within the argument of itself.
+
+\item In the arguments of |\C|, |\SHC|, and |\X| we switch to
+\textsl{\TeX{} state}. All these cseqs appear only in (restricted)
+program state, their official names are actually different. I.e., only
+in (restricted) program state these cseq are bound to the meaning
+described here.
+
+\item Cross reference information are attached to most chunks with
+refinements. This information is processed in \textsl{CR state}.
+After CR state material
+comes always the next chunk or the document end, i.e., material in
+documentation state.
+
+\end{enumerate}
+%
+This FSA is illustrated by the diagram in figure~\ref{fig:fsa}.
+
+\begin{figure}
+
+\begin{center}
+\chardef\\=`\\
+\input{cweb-fsa.latex}
+\end{center}
+
+\caption{The processing state's FSA. The automaton starts and ends in
+the ``documentation'' state.}
+\label{fig:fsa}
+
+\end{figure}
+
+|\cwbb@documentation| will switch to documentation state,
+|\cwbb@program| to program state, |\cwbb@Rprogram| to restricted
+program state, |\cwbb@tex| to \TeX{} state, and |\cwbb@CR| to CR state.
+If we're already in a state, the switch to this state shall be a
+permissible null operation.
+
+
+\sect The basic difference between these states can be named with
+two parameters: (1)~The cseq bindings in effect and (2)~the layout
+parameters used for paragraph makeup.
+
+In (restricted) program state and in CR state the text is output
+under the control of \cweave{}, and tagged by \cweave{}. The used
+tags are from a global namespace and should only be in effect during
+these states. We call this tag set the \textsl{\cweave{} bindings}. In the
+other two states the tags are largely defined by the user, the tag
+set is called the \textsl{user bindings}. The switch to another binding
+is always done locally, i.e., if we switch from documentation to
+restricted program state within a group we don't have to bother about
+the restauration of the user binding; it will be done automatically
+by \TeX{} at the end of the group. Nevertheless we must be able to
+switch from the \cweave{} bindings back to the user bindings which
+were in effect when we activated the \cweave{} bindings. This is
+needed for the \TeX{} state which is always activated within
+(restricted) program state.
+
+The parameters for \textsl{program layout} are really special ones
+since they need to support the indentation which shows the program
+structure. These parameters are used in program and in \TeX{} state.
+The \textsl{document layout} parameters established by the user are
+used in the other three states.
+
+The following table shall summarize this. $C$~denotes \cweave{}
+bindings, $U$~user bindings, $P$~program layout, and $D$~document
+layout. If an entry is empty, its value is not changed on entry in
+this state.
+%
+\begin{center}
+ \DeleteShortVerb\|
+\begin{tabular}{r|c|c}
+\multicolumn1{c|}{\textsc{State}} & \textsc{Binding} & \textsc{Layout} \\[1pt]
+\hline
+documentation & $U$ & $D$ \\
+program & $C$ & $P$ \\
+restricted program & $C$ & \\
+\TeX{} & $U$ & \\
+CR & $C$ & $D$ \\
+\end{tabular}
+ \MakeShortVerb\|
+\end{center}
+
+
+\sect Since the user bindings and the document layout is defined
+initially, we don't have to do anything if it's requested. Only if we
+change it, i.e., within |\cwbb@cweave_bindings| and
+|\cwbb@program_layout|, we redefine |\cwbb@user_bindings| and
+|\cwbb@doc_layout|. If they are eventually executed, they shall
+rebind themselves back to |\relax|. This way we can switch to
+documentation state as often as we want.
+
+\beginprog
+\let\cwbb@user_bindings=\relax
+\let\cwbb@doc_layout=\relax
+
+\def\cwbb@documentation{%
+ \cwbb@user_bindings
+ \cwbb@doc_layout
+ }
+\def\cwbb@Rprogram{\cwbb@cweave_bindings}
+
+\def\cwbb@program{%
+ \cwbb@cweave_bindings
+ \cwbb@program_layout
+ }
+\def\cwbb@tex{\cwbb@user_bindings}
+
+\def\cwbb@CR{%
+ \cwbb@cweave_bindings
+ \cwbb@doc_layout
+ }
+\endprog
+
+
+
+
+\chap Saving and restoring control sequences.
+
+We have a lot of cseqs which are defined within the namespace of this
+module and which will be used with other names. This usage is in a
+controlled environment, namely neither in documentation nor in \TeX{}
+state. (I.e., the text processed is tagged by \cweave{}, not by humans;
+therefore we have a precise specification of the cseqs we have to
+accept.) We cannot work with groups where a cseq is just redefined
+and \TeX{} takes care for establishing the old binding again; when we
+switch from program state to \TeX{} state all the bindings which were
+in effect before the program state get active, i.e., in the
+documentation state, must be in effect again. We cannot simply
+consider the \TeX{} state as something parallel to program state, it
+must be a hierarchical relationship: In the program state values are
+set up which must be available after switching back from \TeX{} to
+program state.
+
+We save the current binding of a cseq in another cseq, but only if
+there exists a binding currently. This is done to save valuable
+\TeX{} main memory. (Why don't all those people who talk about
+extending \TeX{} not just implement dynamic memory management for the
+existing \TeX{}? It would still be \TeX{} and would \emph{really} be
+a worthy activity. But not enough fun, I assume\,\dots) Actually, one
+can assume that nearly no cseq bindings must be saved at all---the
+used names are strange enough. The bindings of |\foo|, i.e., of the
+cseq with the name \fbox{\ttfamily foo}, is saved as the cseq with the
+name \fbox{\ttfamily cweb\char `\\ foo}, i.e., as
+|\csname cweb\string\foo \endcsname|.
+
+
+\sect The save process is not done statically, but by the macro
+|\cwbb@rebind| which interprets a list of tuples $({\it old\_name},
+{\it new\_name})$, terminated by the tuple $(|\stop|, |\stop|)$.
+Eventually it constructs two new lists, |\cwbb@to_restore| with the
+cseqs which had a binding, and |\cwbb@undefined| with the names which
+didn't have one.
+
+The saving is actually done by |\cwbb@save_binding|, |\cwbb@rebind|
+is responsible for the initialization, |\cwbb@do_rebind| for the
+effective rebinding and the tail recursion on the list.
+
+\begin{fixme}
+ We could pull the |\next| assignment in the |\else| branch out of
+ the loop to get a better performance. Should measure if this is of
+ interest.
+\end{fixme}
+
+\beginprog
+\newtoks\cwbb@undefined
+\newtoks\cwbb@to_restore
+
+\def\cwbb@rebind{%
+ \cwbb@undefined{}%
+ \cwbb@to_restore{}%
+ \cwbb@do_rebind
+ }
+\def\cwbb@do_rebind#1#2{%
+ \ifx #1\stop
+ \let\next\relax
+ \else
+ \cwbb@save_binding #2%
+ \let #2=#1%
+ \let\next\cwbb@do_rebind
+ \fi
+ \next
+ }
+\endprog
+
+
+\sect If the cseq to be saved is undefined, it may just be added to
+the ``undefined list.'' Otherwise its binding is saved and it's added
+to the ``to-be-restored list.''
+
+\TeX{}nical note: The cseq-name for the saved binding must be created
+before the |\let| is executed.
+
+\beginprog
+\def\cwbb@save_binding#1{%
+ \ifx #1\undefined
+ \cwbb@undefined \expandafter{\the\cwbb@undefined #1}%
+ \else
+ \expandafter\let \csname cweb\string#1\endcsname =#1%
+ \cwbb@to_restore \expandafter{\the\cwbb@to_restore #1}%
+ \fi
+ }
+\endprog
+
+
+\sect The restoration of rebound cseqs is a two-tied activity: All
+previously undefined cseqs must be made undefined again, and all saved
+cseqs must be restored. Actually, we don't need to reset the two token
+lists, but we do it to save space.
+
+Both |\cwbb@undefine| and |\cwbb@restore_binding| iterate over a list
+of cseqs terminated by |\stop|.
+
+\begin{fixme}
+ And here the |\next| assignment could be prepended to the loop as
+ well.
+\end{fixme}
+
+\beginprog
+\def\cwbb@restore_bindings{%
+ \expandafter\cwbb@undefine \the\cwbb@undefined \stop
+ \cwbb@undefined{}%
+ \expandafter\cwbb@restore_binding \the\cwbb@to_restore \stop
+ \cwbb@to_restore{}%
+ }
+
+\def\cwbb@undefine#1{%
+ \ifx #1\stop
+ \let\next\relax
+ \else
+ \let#1\undefined
+ \let\next\cwbb@undefine
+ \fi
+ \next
+ }
+\endprog
+
+
+\sect \TeX{}nical note: As in |\cwbb@save_binding|, the cseq-name for
+the saved binding must be created before the |\let|s are executed.
+
+\begin{fixme}
+ Another |\next| assignment.
+\end{fixme}
+
+\beginprog
+\def\cwbb@restore_binding#1{%
+ \ifx #1\stop
+ \let\next\relax
+ \else
+ \expandafter\let \expandafter#1\csname cweb\string#1\endcsname
+ \expandafter\let \csname cweb\string#1\endcsname \undefined
+ \let\next\cwbb@restore_binding
+ \fi
+ \next
+ }
+\endprog
+
+
+
+
+\chap Chunks.
+
+All chunks are numbered subsequently. The chunk number is supplied as
+part of the markup. In addition, the `changed' tag |\*| may be
+appended to the chunk number.
+
+By default, chunks have approximately two picas vertical space in
+front.
+
+If we use an hierarchic structure, we output the chunk number at the
+refinement. (It's only needed to identify the refinement for cross
+references.) But chunks are important structural units and thus should
+be marked by typographic means that's more visible than the space
+mentioned above, we add a `chunk start marker'.
+
+For a flat structure, we output the chunk number as the chunk start
+marker, that is the traditional \WEB{} layout.
+
+In any case, the documentation part shall be run in after the chunk
+start marker.
+
+\beginprog
+\newskip\CwebChunkPreSkip
+ \CwebChunkPreSkip=2pc plus 1pc minus 6pt
+\endprog
+
+
+\sect In \LaTeX{}, structural divisions are best realized by
+|\@startsection|, we'll use it also for chunk starts. The chunk start
+marker is the section heading. For hierarchic structure, we use a
+traditional paragraph sign, used since medieval times to tag new text
+units. Our first test showed that the paragraph sign has typically an
+underlength, that doesn't look good at the start of a chunk. We raise
+the sign by its depth.
+
+For flat structure, we don't have text as the section heading,
+but we have to cope for a deficiency of \LaTeX{}: It always leaves a
+quad after the section number (by the way, this is not mentioned in
+the documentation---you have to look in the macros to figure this
+out). So we use a backskip of $\rm -1\,em$ as the chunk start marker
+then.
+
+Changed chunks are marked by a changeflag, by default a star lapping
+to the right. We need the information if that chunk is changed to
+decide if we shall output the changeflag. We demand from the chunk
+macros that they record that info in the flag |@cwbb_changed_chunk@|.
+
+Each structural division must be categorized, it belongs to a
+\textsl{type}. This type determines also the name of the counter, the
+mark handling for this category, and how this section tag is
+represented in the table of contents. The type of chunks is `|chunk|'
+(trivial, isn't it?).
+
+Furthermore, a structural division in \LaTeX{} has an associated
+\textsl{level}. That level is used to determine if that division get
+numbered in text or table of contents. For sections, we'll compute the
+level from the rank, it will not be larger than the rank.%
+ \footnote{Check the next section for a more precise definition of
+ `rank' and `level'.}
+Since the highest section rank is~10, we may use 11 as chunk level.
+
+For flat structure, we output the number for all section headings,
+including chunks. For hierarchic structure we use the default maximum
+level as supplied by our document class (e.g., 3~for \cls{article},
+and 2~for \cls{report} or \cls{book}).
+
+As a last point, we have to care already for sections in flat
+structure. They will use the |chunk| category as well, we have to
+distinguish them in the table of contents. For that, we'll record the
+level in the text, it will get written to the table of contents.
+
+\beginprog
+\newif\if@cwbb_changed_chunk@
+\let\CwebChangeFlag=*
+\if@cweb@suppress@changehints@
+ \let\cwbb@change_flag=\relax
+\else
+ \let\cwbb@change_flag=\CwebChangeFlag
+\fi
+\def\cwbb@lap_change_flag{\rlap{\cwbb@change_flag}}
+
+\ifcase \cweb@structure
+ %% hierarchic
+ \let\CwebChunkHeadingStyle\relax
+ \newbox\cweb@chunk_marker
+ \setbox\cweb@chunk_marker=\hbox{\P} % tradition from medivial times
+ \setbox\cweb@chunk_marker=\hbox{%
+ \raise\dp\cweb@chunk_marker \box\cweb@chunk_marker
+ }
+ \def\CwebChunkHeadingMarker{\copy\cweb@chunk_marker}
+ \def\CwebChunkHeading#1{%
+ \CwebChunkHeadingMarker
+ \if@cwbb_changed_chunk@ \cwbb@lap_change_flag \fi
+ }
+ \or
+ %% flat
+ \def\cwbbRank#1{}
+ \def\CwebChunkHeadingStyle{\bfseries}
+ \def\CwebChunkHeading#1{%
+ \protect\cwbbRank{#1}%
+ \kern -1em
+ \if@cwbb_changed_chunk@ \cwbb@lap_change_flag \fi
+ }
+\fi
+\endprog
+
+
+\sect Chunks are tagged with |\M| and get passed the chunk number as
+argument. Before we evaluate |\@startsection|, we'll start the chunk.
+That's common code to be used by sections as well, as they also
+implicitely start a chunk.
+
+\beginprog
+\def\M#1{%
+ \cwbb@start_chunk{#1}%
+ \@startsection
+ {chunk}% % category, == counter etc.
+ {11}% % level
+ {\z@}% % no indentation for heading
+ {\CwebChunkPreSkip}% % skip above heading
+ {\m@ne em}% % run-in heading, 1em distance to text
+ {\normalfont\CwebChunkHeadingStyle}% % layout
+ {\CwebChunkHeading{11}}% % text, level might go to toc file
+ }
+\endprog
+
+
+\sect But let's first declare how a chunk number is represented. The
+principle rendering is controlled by |\thechunk|, namely, we get
+arabic numbers. This rendering is used both for creation of the
+section header (if in flat mode) and for cross references. I.e.,
+|\ref| expands into it.
+
+But for flat structure we need different expansions: In the section
+header a period shall be appended, a cross reference shall appear
+without such a period. We use two different macros: |\thechunk|
+creates the number with the period, |\cwbb@refchunk| only the number.
+The latter is used for a redefinition of |\@currentlabel|. Of course,
+for hierarchic structure, both are the same.
+
+\beginprog
+\newcounter{chunk}
+
+\def\cwbb@refchunk{\arabic{chunk}}
+
+\ifcase \cweb@structure
+ %% hierarchic
+ \let\thechunk=\cwbb@refchunk
+ \or
+ %% flat
+ \def\thechunk{\arabic{chunk}.}
+\fi
+\endprog
+
+
+\sect Each chunk is started by |\cwbb@start_chunk|, which does the
+common actions. First of all, we switch to documentation state.
+
+Then we store the chunk number in the |chunk| counter. That implies
+that the chunk start must not step this counter! We'll take care for
+that later by redefining |\refstepcounter|. The actual number is
+passed as the argument, including an optional |\*| used to denote
+changed chunks. We'll redefine that cseq to update the flag
+|@cwbb_changed_chunk@|.
+
+Each chunk must be typeset with an open |\if| since it is finished by
+|\fi|. If we shall suppress the output of unchanged chunks, we have
+to use |\iffalse| if not |@cwbb_changed_chunk@|, otherwise |\iftrue|.
+The flag |@cwbb_print_chunk@| is set up to provide an appropriate
+test.
+
+When we typeset a chunk, we evaluate |\cwbb@init_print_chunk|. For
+hierarchic structure, that cseq will be used to initialize the
+typesetting of the chunk number at program parts.
+
+\beginprog
+\if@cweb@suppress@unchanged@
+ \def\if@cwbb_print_chunk@{\if@cwbb_changed_chunk@}
+ \@gobble\fi % close \if in case it's skipped
+\else
+ \let\if@cwbb_print_chunk@=\iftrue
+ \@gobble\fi % same here
+\fi
+
+\def\cwbb@start_chunk#1{%
+ \cwbb@documentation
+ \begingroup
+ \def\*{\global\@cwbb_changed_chunk@true}%
+ \global\@cwbb_changed_chunk@false
+ \global \c@chunk #1\relax % might expand \*
+ \endgroup
+ \if@cwbb_print_chunk@
+ \cwbb@init_print_chunk
+ }
+\endprog
+
+
+\sect |\@startsection| will step the section counter (i.e., |chunk|).
+Since we just assigned it in |\cwbb@start_chunk|, that would leave us
+with a counter that's one too high. And our output in cross references
+may be wrong, as a period is appended in flat structure.
+
+That damage all comes from one macro, |\refstepcounter|; let's
+advice it to do the Right Thing for |chunk| counters.
+
+\beginprog
+\let\cwbb@refstepcounter=\refstepcounter
+
+\def\cwbb@string@chunk{chunk}
+\def\refstepcounter#1{%
+ \def\@tempa{#1}%
+ \ifx \@tempa\cwbb@string@chunk
+ \protected@edef\@currentlabel{\cwbb@refchunk}%
+ \else
+ \cwbb@refstepcounter{#1}%
+ \fi
+ }
+\endprog
+
+
+
+
+\chap Sections.
+
+Important sections are started on a new page, normal sections have the
+same space as chunks in front. The very first section does not
+automatically start on a new page since a title may be in front of it.
+
+Each section division has a \textsl{rank}, that denotes the section
+depth as seen by \cweave{}.
+
+For this depth we compute a \textsl{level}, used to denote the section
+depth for \LaTeX{}. This section depth is used to decide where
+numbering shall stop, or if that entry shall be presented in the table
+of contents, etc.
+
+These two numbers are not the same, due to the support of document
+classes with chapters.
+
+We consider a section as important if it's rank is smaller than~3,
+i.e., then we'll start a new page. This limit is controlled by the
+number |\CwebRankNoEject|. The rank is used as the section level
+and is therefore available to configure depth of typeset numbering and
+appearance in table of contents.
+
+\beginprog
+\def\CwebRankNoEject{3}
+\endprog
+
+
+\sect Sections are started with the macro |\N|. It's first parameter
+is the section's rank. The second parameter is the chunk number, the
+third the title of the section. This last parameter must be terminated
+by a dot.
+
+Each section implicitly starts a chunk. As explained above, major
+sections may eject the page, and we add our actual section heading
+with |\CwebSection|.
+
+We also tell the user that we have reached the next section by telling
+him about the current chunk number. The message is output after the
+section header is set, it shall be on the correct page. Since the
+token list to be output is expanded at shipout time, we must take care
+for the immediate expansion ourselves.
+
+\beginprog
+\def\N#1#2#3.{%
+ \cwbb@start_chunk{#2}%
+ \CwebEjectSection{#1}%
+ \CwebSection{#1}{#3}%
+ \begingroup
+ \def\*{}%
+ \edef\tmp{*#2}%
+ \message \expandafter{\tmp}%
+ \endgroup
+ }
+\endprog
+
+
+\sect At the start of a section we usually eject the page if our rank
+is not too low. But if the user had a title above the first section,
+he won't want this page break. So we try to guess it. If we guess
+wrong, the user may either add |\newpage| himself or he may redefine
+|\CwebEjectSection| in a package.
+
+\beginprog
+\def\CwebEjectSection#1{% % #1 == rank
+ \gdef\CwebEjectSection##1{%
+ \relax
+ \ifnum ##1<\CwebRankNoEject\relax
+ \newpage
+ \fi
+ }%
+ }
+
+\if@titlepage
+ \CwebEjectSection{}
+\fi
+\endprog
+
+
+\sect Now comes a heary piece. We have 11~section ranks, and need 11
+different section categories, section counters, etc. For flat
+structure, they shall all do the same; for hierarchic structure, they
+shall be really different.
+
+\noindent Let's have a look at the hierarchic structure first, it's
+more complex.
+%
+\begin{itemize}
+
+\item We associate section rank~0 (that's `|@**|') with document
+ parts, i.e., map it to |\part|. Many smaller programs won't use it.
+
+\item If we are used in a class that has a bound cseq |\chapter|, we
+ associate rank~1 (`|@*0|') with it and rank~2 (`|@*1|') with
+ |\section|. Otherwise we associate rank~1 with |\section|. These
+ tags (|\chapter| and/or |\section|) must be defined because many
+ macros that want to create section divisions will use them.
+
+\item All other section ranks are placed below |\section|.
+ |\subsection| and other \LaTeX{} style markup is not supported.
+
+ For hierarchic structure, we identify these sections with category
+ names `|section|$l$', where $l$ is the respective level, computed
+ from the rank. Those section names do not exist yet, we have to
+ create them.
+
+\end{itemize}
+
+Now we come to the point why we can't use the rank as the section
+level passed to \LaTeX{}: When we assume the level usage of \LaTeX{}'s
+standard classes, |\section| is \emph{always} on level~1, independent
+of the existence of |\chapter|. The latter is placed on level~0, its
+existence only influences the section level of |\part|, which is
+either $-1$ or~0.
+
+This implies that |\subsection| in a standard class is always on
+level~2, but our equivalent section division is either `|@*0|'
+(rank~1) or `|@*1|' (rank~2). I.e., when we have chapters, we use a
+level that's one lower than the rank, otherwise we use the rank.
+
+For flat structure, we use type |chunk|. This way we'll use the chunk
+numbers, they are already set up.
+
+For flat structure, we will map all ranks to the same section markup.
+This markup will also be accessible by |\section| or |\chapter|. They
+will be declared to be on a level that is the same as the rank.
+
+
+\sect The printed representation of a section divison number is simply
+the presentation from the next upper level, a full stop, and an arabic
+section number. When we compute the name of the previous level we must
+pay attention to our first section division created this way. This
+division must be placed below |section|, without any following number.
+
+Since registers are a valuable resource in \TeX{}, we have to take
+care not to allocate a superfluous one.
+
+\beginprog
+\ifcase \cweb@structure
+ %% hierarchic
+ \newcounter{section2}[section]
+ \@namedef{thesection2}{\@nameuse{thesection}.\arabic{section2}}
+ \newcounter{section3}[section2]
+ \@namedef{thesection3}{\@nameuse{thesection2}.\arabic{section3}}
+ \newcounter{section4}[section3]
+ \@namedef{thesection4}{\@nameuse{thesection3}.\arabic{section4}}
+ \newcounter{section5}[section4]
+ \@namedef{thesection5}{\@nameuse{thesection4}.\arabic{section5}}
+ \newcounter{section6}[section5]
+ \@namedef{thesection6}{\@nameuse{thesection5}.\arabic{section6}}
+ \newcounter{section7}[section6]
+ \@namedef{thesection7}{\@nameuse{thesection6}.\arabic{section7}}
+ \newcounter{section8}[section7]
+ \@namedef{thesection8}{\@nameuse{thesection7}.\arabic{section8}}
+ \newcounter{section9}[section8]
+ \@namedef{thesection9}{\@nameuse{thesection8}.\arabic{section9}}
+ \ifx \chapter\undefined
+ \newcounter{section10}[section9]
+ \@namedef{thesection10}{\@nameuse{thesection9}.\arabic{section10}}
+ \fi
+\fi
+\endprog
+
+
+\sect Sections are typeset by |\CwebSection|; rank and title are the
+arguments.
+
+For hierarchic structure, we select the proper cseq according to rank:
+|\part|, |\chapter| if this is a structure with chapters, |\section|,
+and |\cwbb@section{|\<rank>|}| for other ranks. For the last cseq we
+also have to supply the section category, it's `|section|$l$' where
+$l$ is the rank~$r$ if we don't have chapters, $r-1$ otherwise.
+
+That category cannot be computed by |\cwbb@section| itself since we
+want to use that macro also for flat structure. But there all sections
+are basically chunks, we have to use the |chunk| category there. Since
+we want to differentiate them in the table of contents nevertheless,
+we record the current rank in the title.
+
+\beginprog
+\ifcase \cweb@structure
+ %% hierarchic
+ \ifx \chapter\undefined
+ \def\CwebSection#1#2{%
+ \ifcase #1
+ %% 0
+ \let\next\part
+ \or %% 1
+ \let\next\section
+ \else %% level = rank
+ \def\cwbb@sect_name{section#1}%
+ \def\next{\cwbb@section{#1}}%
+ \fi
+ \next{#2}%
+ }
+ \else
+ \def\CwebSection#1#2{%
+ \ifcase #1
+ %% 0
+ \let\next\part
+ \or %% 1
+ \let\next\chapter
+ \or %% 2
+ \let\next\section
+ \else %% level = rank - 1
+ \count@=#1 \advance \count@\m@ne
+ \edef\cwbb@sect_name{section\number\count@}%
+ \edef\next{\noexpand\cwbb@section{\number\count@}}%
+ \fi
+ \next{#2}%
+ }
+ \fi
+ \or
+ %% flat
+ \def\CwebSection#1#2{%
+ \def\cwbb@sect_name{chunk}%
+ \cwbb@section{#1}{\protect\cwbbRank{#1}#2}%
+ }
+ \def\section{%
+ \def\cwbb@sect_name{chunk}%
+ \cwbb@section{1}%
+ }
+\fi
+\endprog
+
+
+\sect We use the same layout for all minor sections. That layout can
+be changed by ammended by defining |\CwebSect|$r$|Hook| to redefine
+|\CwebSectPreSkip| and/or |\CwebSectLayout| locally. (Of couse, it may
+be redefined once globally, too.) These are the values to be used for
+arguments 4 and~5 of |\@startsection|, pay attention to the skip sign,
+telling about indentation of the first paragraph. And don't forget
+that the skip is only used for sections on ranks below
+|\CwebRankNoEject|, the others start on a new page anyhow.
+
+The default definition sets the section title in bold and leaves the
+same space as before chunks. The first paragraph of the following
+documentation has no indentation.
+
+Other layout changes (indentation for heading, etc.)\ must be made by
+redefining |\cwbb@section|. Or---email me, if you want to do it. Then
+I might be enclined to introduce further possibilities.
+
+\beginprog
+\newskip\CwebSectPreSkip
+ \CwebSectPreSkip = -\CwebChunkPreSkip
+\def\CwebSectLayout{\normalfont\bfseries}
+
+\def\cwbb@section#1{% % #2 (next token) is title
+ \csname CwebSect#1Hook\endcsname % \relax if undefined
+ \expandafter\@startsection
+ \expandafter{\cwbb@sect_name}% % category; for counter, etc.
+ {#1}% % level is rank
+ \z@ % no indentation for heading
+ \CwebSectPreSkip % skip above, maybe no next par indent
+ \medskipamount % skip below heading
+ \CwebSectLayout
+ }
+\endprog
+
+
+
+
+\chap Marks.
+
+\begin{fixme}
+ Since I don't know yet how to handle marks I ignore most of them for
+ the time being.
+
+ Have to change this later.
+\end{fixme}
+
+\beginprog
+\let\chunkmark\@gobble
+
+\count@=2
+\@whilenum \count@<11 \do {
+ \expandafter\let \csname section\number\count@ mark\endcsname \@gobble
+ \advance \count@ by 1
+ }
+\endprog
+
+
+
+
+\chap Typesetting programs.
+
+Program pieces come in two flavours: as argument of |\PB|, or as
+material after |\B|. In the former case we can use a group for the
+switch to the restricted program state, the group end will restore the
+previous state again. In the latter case we use |\B| for the switch to
+program state, the cross reference list or the next chunk will go to
+another state. Since we have to do more for the material after |\B|,
+we define this cseq later.
+
+\beginprog
+\def\PB#1{%
+ \begingroup
+ \cwbb@Rprogram
+ \leavevmode
+ #1%
+ \endgroup
+ }
+\endprog
+
+
+\sect Note, that |\Y| cannot just be |\smallskip|, as in Plain
+\cweb{}. We must assert that the current paragraph is ended before the
+vertical glue is inserted, and that's not done by the \LaTeX{}
+definition of |\smallskip|. In addition we add some negative penalty,
+here is a good place for a page break. As the penalty value we use
+half the chunk break penalty---of course a chunk start is an even
+better place for a page break\,\dots
+
+It might be that |\Y| is the very first token in a chunk. Then the
+chunk start marker isn't set already since it is regarded as a run-in
+section heading. In that case we don't set the vertical skip but
+simply start the chunk with the program part.
+
+\TeX{}nical note: The flag |@noskipsec| may be used to test if we're
+immediately after a run-in section heading.
+
+\beginprog
+\newcount\CwebProgPenalty
+ \CwebProgPenalty=\@secpenalty
+ \divide\CwebProgPenalty by 2
+\def\Y{%
+ \if@noskipsec
+ \else
+ \par
+ \penalty\CwebProgPenalty
+ \smallskip
+ \fi
+ }
+\endprog
+
+
+\sect Yep, let's unfold the ``official'' names of the cseqs used in
+program state.
+
+If we turn on the \cweave{} bindings, they might be in effect already,
+we don't need to establish them again. We can test
+|\cwbb@user_bindings| for this case, it will be redefined then.
+
+\beginprog
+\def\cwbb@cweave_bindings{%
+ \ifx \cwbb@user_bindings\relax
+ \cwbb@rebind
+ % indentation and paragraph layout
+ \cwbb@incr_indent \1%
+ \cwbb@decr_indent \2%
+ \cwbb@expr_break \3%
+ \cwbb@backup \4%
+ \cwbb@opt_break \5%
+ \cwbb@break \6%
+ \cwbb@big_break \7%
+ \cwbb@noindent \8%
+ % C/C++ tokens
+ \CwebRel \?%
+ \CwebAddress \AND
+ \CwebComplement \CM
+ \CwebScope \DC
+ \CwebEquiv \E
+ \CwebGe \G
+ \CwebRightShift \GG
+ \CwebNe \I
+ \CwebAssign \K
+ \CwebLeftShift \LL
+ \CwebMod \MOD
+ \CwebNull \NULL
+ \CwebNot \R
+ \CwebBinOr \OR
+ \CwebMemberRef \PA
+ \CwebThis \this
+ \CwebOr \V
+ \CwebAnd \W
+ \CwebXor \XOR
+ \CwebLe \Z
+ \CwebPointer \MG
+ \CwebPointerMemberRef \MGA
+ \CwebDecr \MM
+ \CwebIncr \PP
+ % more tokens
+ \CwebId \\%
+ \CwebIdLetter \|%
+ \CwebRes \&%
+ \CwebString \.% %% ( ...Emacs...
+ \CwebStringBreak \)%
+ \CwebNumber \T
+ \CwebCombinedOp \MRL
+ % goes to TeX state
+ \CwebComment \C
+ \CwebCxxComment \SHC
+ \CwebRefName \X
+ % CWEB tokens
+ \CwebMacrosHere \ATH
+ \CwebDefine \D
+ \cwbb@format \F
+ \CwebIdCat \J
+ \CwebVerbString \vb
+ % cross reference tags
+ \cwbb@change_flag \*%
+ \CwebCRAlso \A
+ \CwebCRsAlso \As
+ \CwebCRCite \Q
+ \CwebCRsCite \Qs
+ \CwebCRUse \U
+ \CwebCRsUse \Us
+ \CwebCREt \ET
+ \CwebCRsEt \ETs
+ % finish the list
+ \stop\stop
+ \def\cwbb@user_bindings{%
+ \cwbb@restore_bindings
+ \let\cwbb@user_bindings\relax
+ }%
+ \fi
+ }
+\endprog
+
+
+\sect Since most of the \cweave{} bindings are simple and tedious
+coding, we'll have a look at the program layout next. Between two
+paragraphs there must not be any skip, the skip used in document
+layout is saved in |\cwbb@save@parskip|. A few other layout
+parameters from the document layout must be saved as well.
+
+\beginprog
+\newskip\cwbb@save@parskip
+\newskip\cwbb@save@rightskip
+\newcount\cwbb@save@sem_sfcode
+\newcount\cwbb@save@pretolerance
+\newcount\cwbb@save@hyphenpenalty
+\newcount\cwbb@save@exhyphenpenalty
+
+\def\cwbb@save_doc_layout{%
+ \cwbb@save@parskip\parskip
+ \cwbb@save@rightskip\rightskip
+ \cwbb@save@sem_sfcode\sfcode`\;
+ \cwbb@save@pretolerance\pretolerance
+ \cwbb@save@hyphenpenalty\hyphenpenalty
+ \cwbb@save@exhyphenpenalty\exhyphenpenalty
+ }
+\def\cwbb@restore_doc_layout{%
+ \parskip\cwbb@save@parskip
+ \rightskip\cwbb@save@rightskip
+ \sfcode`\;=\cwbb@save@sem_sfcode
+ \pretolerance\cwbb@save@pretolerance
+ \hyphenpenalty\cwbb@save@hyphenpenalty
+ \exhyphenpenalty\cwbb@save@exhyphenpenalty
+ }
+\endprog
+
+
+\sect When |\cwbb@program_layout| is called for the very first time
+we have to set up some variables. This cannot be done in advance
+since they depend on values which might be changed by the user in the
+preamble. This setup is done in |\cwbb@layout_init|.
+
+If the program layout is already active, we must not switch it on
+another time. This can be tested by the current binding of
+|\cwbb@doc_layout|.
+
+\beginprog
+\def\cwbb@program_layout{%
+ \ifx \cwbb@doc_layout\relax
+ \cwbb@layout_init
+ \cwbb@save_doc_layout
+ \def\cwbb@doc_layout{%
+ \cwbb@restore_doc_layout
+ \let\cwbb@doc_layout\relax
+ }%
+ % set new values
+ \parskip\z@skip
+ \rightskip\z@ plus 100\p@ minus 10\p@
+ \sfcode`\;=3000
+ \pretolerance\@M
+ \hyphenpenalty 1000 % strings can be broken this way
+ \exhyphenpenalty\@M
+ \fi
+ }
+\endprog
+
+
+\sect The unit of the basic indentation is stored in
+|\CwebIndentUnit|. Continuation lines are indented two units further,
+i.e., the initial hanging indentation is 3~units. The current hanging
+indentation is kept in |\cwbb@indent|.
+
+We need undiscardable items which can be used as backspaces, of one
+and two units, respectively. This is done best by boxes. The
+initialization of the boxes must be postponed until the user had the
+chance to change |\CwebIndentUnit|, it's done in the program state
+initialization.
+
+\beginprog
+\newdimen\CwebIndentUnit
+ \CwebIndentUnit=1em
+\newdimen\cwbb@indent
+
+\newbox\cwbb@bak % backspace one unit
+\newbox\cwbb@bakk % backspace two units
+
+\def\cwbb@layout_init{%
+ \global\setbox\cwbb@bak \hbox to -1\CwebIndentUnit{}%
+ \global\setbox\cwbb@bakk \hbox to -2\CwebIndentUnit{}%
+ \global\let\cwbb@layout_init\relax
+ }
+\endprog
+
+
+\sect Now we can formulate how to start typesetting program pieces: We
+switch to program state, set the initial indentation, and add the
+basic indentation of the first code line. Then we might add a marker
+to this program part; for hierarchic structure we want to typeset the
+chunk number in the margin of the chunk's program part. That's not
+really possible, 'though: definitions and format requests are also
+introduced with |\B|, so the chunk number will happen to be at the
+start of the definition part if one exists.
+
+If the code line is the very first text to be typeset in this chunk,
+we don't add the basic indentation---we're already indented from the
+run-in chunk start marker. But we must not start our chunk with
+|\noindent|, the marker would be typeset in the left margin then. (I
+consider this as a \LaTeX{} error.) So we just emulate an empty
+documentation part, the marker is now set correctly. |\B| can test for
+this case: |@noskipsec| is still true then.
+
+\beginprog
+\def\B{%
+ \cwbb@program
+ \cwbb@indent 3\CwebIndentUnit \hangindent\cwbb@indent
+ \ifvmode
+ \if@noskipsec
+ \indent % add an empty documentation part
+ \else
+ \noindent \kern\CwebIndentUnit
+ \fi
+ \fi
+ \CwebNumberProgramPart
+ }
+\endprog
+
+
+\sect The chunk number shall be added at the first program part. We
+have a hook in the chunk start where we can set up
+|\CwebNumberProgramPart|. It will redefine itself at first call, to
+disable further output on more |\B| occurences in a chunk.
+
+The chunk number should always be in the left margin. If it's in the
+right margin, there would be too much horizontal space between the
+code start and the actual number. (The first code line is typically
+not very long.) \LaTeX{} does not allow to select the margin for
+marginpars, therefore we have to typeset the marginal note `by hand'.
+As we know that we're in horizontal mode when we're called, |\vadjust|
+is used to create the note. The standard \LaTeX{} dimen register for
+the distance between marginal notes and text matter is used, of
+course.
+
+Note that marginal notes may overwrite the chunk number. As it's very
+unlikely that somebody issues marginal notes in program mode (that's
+quite difficult and involves ingenious usage of the implementation of
+this macros), I won't care for that case.
+
+\begin{fixme}
+ The baseline of the marginal note shall be aligned to the baseline
+ of the preceding line. That does not happen by default. Currently, I
+ assume that the preceding line has a depth of appropriately the
+ depth of a~`g'. Experiments showed that this gives good results for
+ most \cweb{} documents. But nevertheless one should determine the
+ exact depth of the preceding line, to know how much |box0| should be
+ raised. If anybody knows how this can be done, please tell me. (I
+ know about the route over the output routine, implementing an own
+ marginal note category, but this seems too much effort.)
+\end{fixme}
+
+For flat structure, we don't add any program part marker and we
+don't need to initialize it.
+
+\beginprog
+\ifcase \cweb@structure
+ %% hierarchic
+ \def\cwbb@marginal_chunkno{%
+ \vadjust{%
+ \setbox\z@ \hbox to \z@{%
+ \hss \vphantom{g}%
+ \small \thechunk
+ \hskip \marginparsep
+ }%
+ \vbox to \z@{%
+ \hsize\z@
+ \vss
+ \noindent \raise \dp\z@ \box\z@
+ }%
+ }%
+ }
+ \def\cwbb@init_print_chunk{%
+ \def\CwebNumberProgramPart{%
+ \cwbb@marginal_chunkno
+ \let\CwebNumberProgramPart\relax
+ }%
+ }
+ \or
+ %% flat
+ \let\cwbb@init_print_chunk\relax
+ \let\CwebNumberProgramPart\relax
+\fi
+\endprog
+
+
+\sect If a statement is finished, a new paragraph with the basic
+indentation has to be started.
+
+An optional statement break is implemented by a low penalty which
+will be selected if the line has to be broken. We assume that the
+hanging indentation of the new line is already set correctly, and
+have to backup two units to get the basic indentation. It might be
+that the line break is not chosen by \TeX{}, we compensate the
+backspace for this case. This compensation is discarded at the start
+of a new line.
+
+\beginprog
+\def\cwbb@break{% % forced break, between statements
+ \ifmmode\else
+ \endgraf % in LaTeX it isn't sure what \par is really...
+ \noindent
+ \hangindent\cwbb@indent \kern\cwbb@indent
+ \copy\cwbb@bakk % go back to basic indentation
+ \ignorespaces
+ \fi
+ }
+\def\cwbb@opt_break{% % optional break between statements
+ \hfil \penalty\m@ne
+ \hfilneg \kern .5em \kern 2\CwebIndentUnit % discarded on line break
+ \copy\cwbb@bakk
+ \ignorespaces
+ }
+\def\cwbb@big_break{% % forced break and a little extra space
+ \Y
+ \cwbb@break
+ }
+\def\cwbb@expr_break#1{% % break with penalty #1 * 10
+ \hfil \penalty#10
+ \hfilneg % discarded on line break
+ }
+\endprog
+
+
+\sect When we increment the indentation, we must not forget to set
+the hanging indentation immediately since |\cwbb@opt_break| relies on
+the new value. If a continuation line is needed it will also be
+indented one unit more, which is ok since it should be distinguishable
+from the next line.
+%
+\begin{fixme}
+ Shouldn't the hanging indentation be set anew at the end of
+ |\cwbb@decr_indent| as well?
+\end{fixme}
+
+\beginprog
+\def\cwbb@incr_indent{%
+ \global\advance\cwbb@indent\CwebIndentUnit
+ \hangindent\cwbb@indent
+ }
+\def\cwbb@decr_indent{\global\advance\cwbb@indent -\CwebIndentUnit}
+\def\cwbb@backup{\copy\cwbb@bak}
+\def\cwbb@noindent{% % no indentation
+ \hskip -\cwbb@indent \hskip 2\CwebIndentUnit
+ }
+\endprog
+
+
+
+
+\chap Program (C or \C++) tokens.
+
+Since the user might want to change the (somewhat unusual) way some
+of the operators are typeset, we supply names for them.
+
+\beginprog
+\let\CwebAnd=\land % logical and, &&
+\let\CwebEquiv=\equiv % equiv sign, for ==
+\let\CwebGe=\ge % greater or equal
+\let\CwebLe=\le % less or equal
+\let\CwebNe=\ne % unequal, !=
+\let\CwebNull=\Lambda % NULL pointer
+\let\CwebNot=\lnot % logical not, !
+\let\CwebOr=\lor % logical or, ||
+\let\CwebXor=\oplus % bitwise exclusive or, ^
+\endprog
+
+
+\sect Some symbols have to be shifted around, to save computation time
+we put them in boxes.
+
+\begin{fixme}
+ It's not sure if the following symbols still look good in other font
+ families than Computer Modern. The movements might need to get
+ adapted when more experience is available. They were chosen from
+ Plain \cweb{}, where these were explicit movements measured in
+ points. I changed the dimension to quads, to achieve at least the
+ support for different sizes in the Computer Modern family.
+\end{fixme}
+
+\TeX{}nical note: The pointer symbol must not be declared as a math
+symbol (e.g., with |\DeclareMathSymbol|). Then \TeX{} would insert an
+italic correction behind it, according to rule~17 from appendix~G.
+(Please send email if you know of an easy way to prevent that
+addition.) So I use the symbol as an accent, but then I have to supply
+a nucleus for this math list. That nucleus also determines the total
+width of this construct. As the vector accent has a width of
+approximately 5\,pt in |cmmi10|, I'm going to use 0.5\,em. (That
+heuristic is as good as any other I can think of.)
+
+\beginprog
+%% pointer to struct component (`->'), use symbol of \vec accent
+\newbox\cwbb@pointer
+\setbox\cwbb@pointer=\hbox{%
+ \kern -.2em
+ \lower .3em \hbox{$\vec{\kern .5em}$}%
+ \kern .1em
+ }
+
+\newbox\cwbb@decr % decrement, --
+\setbox\cwbb@decr=\hbox{%
+ \kern .05em
+ \raise .1em \hbox{$\scriptstyle {-}\kern -.1em{-}$}%
+ \kern .05em
+ }
+\newbox\cwbb@incr % increment, ++
+\setbox\cwbb@incr=\hbox{%
+ \kern .05em
+ \raise .1em \hbox{$\scriptstyle {+}\kern -.1em{+}$}%
+ \kern .05em
+ }
+\endprog
+
+
+\sect Although the following symbols are typeset like an ``ordinary
+\C++ programmer'' would expect them, we provide own module names
+nevertheless. They can now be changed as well, i.e., orthogonality is
+enhanced. (And we can use |\cwbb@rebind| for assigning them to their
+names while we switch to program state\,\dots).
+
+Note: The comment at |\CwebMod| says ``modulo/remainder'', as this is
+not defined by the C standard, i.e., implementation-dependent.
+
+\beginprog
+\mathchardef\CwebAddress="2026 % `&', as binary op
+\let\CwebAssign== % assignment
+\let\CwebBinOr=\mid % binary or
+\def\CwebComplement{{\sim}} % `~', as ordinary symbol
+\def\CwebDecr{\copy\cwbb@decr} % decrement
+\def\CwebIncr{\copy\cwbb@incr} % increment
+\let\CwebLeftShift=\ll % left shift, <<
+\def\CwebMod{\mathbin{\hbox{\footnotesize\rm\%}}} % modulo/remainder, %
+\def\CwebMemberRef{\mathbin{.*}} % ptr to member (on object)
+\def\CwebPointer{\copy\cwbb@pointer}
+\def\CwebPointerMemberRef{\mathbin{\CwebPointer*}} % ptr to member (on ptr)
+\def\CwebRel{\mathrel?} % relation operator
+\let\CwebRightShift=\gg % right shift, >>
+\def\CwebScope{\kern.1em{::}\kern.1em} % scope resolution
+
+\def\CwebThis{\CwebRes{this}} % reserved identifier `this'
+\endprog
+
+
+\sect The special identifier |\TeX| remains. In math mode it shall be
+the identifier, in other modes the usual logo. We use the definition
+supplied by DEK (or \textsc{Silvio Levy}?)\ from Plain \cweb{}.
+
+\beginprog
+\def\TeX{%
+ {%
+ \ifmmode\it\fi
+ \mbox{T\kern-.1667em\lower.424ex\hbox{E}\hskip-.125emX}%
+ }}
+\endprog
+
+
+\sect Some tokens don't have constant names, the name is supplied as
+the argument.
+
+Identifiers are typeset in italics, reserved words and type names in
+boldface, and strings in typewriter. For an underscore in the bold
+words we use a line that's 50\,\% thicker as the usual line thickness.
+-- But what is the usual line thickness. As Knuth uses 0.4\,pt for a
+10\,pt Computer Modern font, we'll use 0.06\,em for a CM font in an
+arbitrary size. If that line thickness is still OK for other fonts is
+doubtful, as it should fit to the stem width. (CM is a rather light
+font, after all.) But since there is no font dimension that gives a
+hint to an appropriate line thickness, it's our best try.
+
+\beginprog
+\def\CwebCombinedOp#1{\mathrel{\let\K==#1}} % e.g., += operator
+\def\CwebId#1{\hbox{\it#1\/\kern.05em}} % identifier, more than one char
+\def\CwebIdLetter#1{\hbox{$#1$}} % identifier, one letter
+\def\CwebRes#1{% % reserverd words and type names
+ \hbox{\bf
+ \def\_{\kern.04em\vbox{\hrule width.3em height.06em}\kern.08em}%
+ #1\/\kern .05em
+ }%
+ }
+\endprog
+
+
+\sect In Plain \cweb{} strings are typeset in the font |cmtex10|,
+which is a typewriter font with extended ASCII characters. This font
+does not have the usual accents and can therefore not used for
+typesetting national characters. (Very often they are input in some
+8-bit encoding, the respective character code is made active and is
+substituted by a cseq which expands to the correct glyph. Of course,
+there are better ways, but that's the reality we have to cope with.)
+Instead of this special font we use the standard typewriter font.
+This has the further advantage that |cmtex10| may not be introduced
+to NFSS\@.
+
+\beginprog
+\def\CwebString{%
+ \hbox \bgroup
+ \tt
+ \cwbb@string_setup
+ \cwbb@string
+ }
+\def\cwbb@string#1{%
+ #1\kern .05em
+ \egroup
+ }
+\endprog
+
+
+\sect Within strings certain cseqs have a special meaning; this is
+introduced by |\cwbb@string_setup|. The cseqs within strings are
+mostly special \TeX{} characters that are to be typeset by cseqs with
+the same name.
+
+But a problem remains: active characters. They will still expand, and
+will mess up the string visualization. This is a particular problem
+with |german.sty| where the double quote is active. (Of course, that's
+a problem -- I'm German. :--) When one typesets strings, a double
+quote shall be typeset as double quotes, and must not expand to the
+special meaning. Remember that double quotes happen to appear quite
+often in strings. As the string argument is already tokenized, one has
+to redefine the binding of $(\textit{\textup{symbol}}\ \textbf{.}\
+|#\"|)$.
+
+\begin{fixme}
+ Perhaps one might use a loop over all characters except the braces,
+ and set their catcode to other. That would give us enough security.
+
+ For now, we handle only the double quote.
+\end{fixme}
+
+Every once in a while we have discretionary breaks in a string,
+denoted by |\CwebStringBreak|. This break is shown with the C
+convention of escaped newlines.
+
+\beginprog
+\def\cwbb@string_setup{%
+ \chardef\ =`\ % % <-- two spaces !
+ \chardef\&=`\&
+ \chardef\\=`\\
+ \chardef\^=`\^
+ \chardef\_=`\_
+ \chardef\{=`\{
+ \chardef\}=`\}
+ \chardef\~=`\~
+ \catcode`\"=\CatOther
+ }
+
+\def\CwebStringBreak{\discretionary{\hbox{\tt\char`\\}}{}{}}
+\endprog
+
+
+\sect Numbers are typeset in different ways. We use the definition of
+Plain \cweb{}.
+%
+\begin{fixme}
+ Should add a specification of the possible input and an explanation
+ of the macros below. In particular, that the closing brace after
+ |\aftergroup| is used much later is probably not grokked by most
+ \TeX{} programmers.
+\end{fixme}
+
+\beginprog
+\def\cwbb@oct{\hbox{$^\circ$\kern-.1em\it\aftergroup\?\aftergroup}}
+\def\cwbb@hex{\hbox{$^{\scriptscriptstyle\#}$\tt\aftergroup}}
+
+\def\CwebNumber#1{% % octal, hex, or decimal constant
+ \hbox{%
+ $%
+ \def\?{\kern.2em}%
+ \def\$##1{\egroup\sb{\,\rm##1}\bgroup}% suffix to constant
+ \def\_{\cdot 10^{\aftergroup}}% power of ten (via dirty trick)
+ \let\~\cwbb@oct \let\^\cwbb@hex
+ {#1}%
+ $}%
+ }
+\endprog
+
+
+\sect Comments are typeset in \TeX{} state. We add a hook, the user
+shall be able to change the layout (e.g., he might want another font).
+%
+\begin{fixme}
+ Currently \C++ comments are typeset like C comments. This is
+ horrible in usual circumstances, i.e., when complete blocks of text
+ are prefixed with |//|. We should simply catenate all these text and
+ typeset it as one paragraph, each line prefixed by |//|. But then we
+ have to implement an |\everyline| first, and since that's not so
+ easy we postpone it\,\dots
+\end{fixme}
+%
+In front of a C comment there is an optional stmt break, with 2\,quad
+in front if the line is not broken and 1.5\,quad if the line is broken.
+
+\beginprog
+\def\CwebComment#1{%
+ \5% % 0.5em will be discarded on line break
+ \hskip 1.5em
+ $/\ast\,$%
+ {\cwbb@tex
+ \CwebCommentHook
+ #1%
+ }%
+ $\,\ast/$%
+ }
+\let\CwebCommentHook\relax
+\let\CwebCxxComment\CwebComment
+\endprog
+
+
+
+
+
+\chap \cweb{} tokens.
+
+We distinguish three categories of \cweb{} tokens: (1) Those which
+output constant text, (2) those which have attributes to be displayed
+in a special way, and (3) those which start a new structure element,
+namely |@d| and~|@f|. Let's consider them in this order.
+
+
+\sect \cweb{} tokens which expand in a constant string are the
+identifier catenation operator~(`|@&|') and the macro placement
+directive~(`|@h|').
+
+\beginprog
+\def\CwebIdCat{\CwebString{@\&}}
+\def\CwebMacrosHere{%
+ \begingroup
+ \def\CwebRefNumber##1{}%
+ \CwebRefName :Preprocessor definitions\X
+ \endgroup
+ }
+\endprog
+
+
+\sect Verbatim program strings, i.e., strings passed verbatim by
+\ctangle{}~(`|@=|') are typeset like normal strings, but within a box.
+We use 2\,pt as the separating distance, this is set locally.
+
+\beginprog
+\def\CwebVerbString#1{{\fboxsep\tw@\p@ \fbox{\CwebString{#1}}}}
+\endprog
+
+
+\sect The refinement names are typeset in angles, this has a long
+tradition. We burry the typesetting of the chunk number (which is
+the first parameter) in a macro call; the user may change this to
+achieve special effects.
+%
+\begin{fixme}
+ One could think about handling special values of the chunk numbers
+ differently. E.g., an empty argument is not typeset at all, a~0
+ triggers a marginal note about a missing definition, etc.
+\end{fixme}
+
+A refinement name may be typeset both in math and horizontal mode.
+The name itself is typeset in horizontal mode, of course; for the
+angles we need math mode. Therefore we assert at the start of the
+macro that we're not in math mode any more. At the end we switch back
+to math mode if we've started in it. This conditional switch from and
+back to math mode is done by |\cwbb@toggle_text|.
+
+\TeX{}nical note: If we're in math mode |\cwbb@toggle_text| must be
+defined globally, as it will turn off math mode and the definition
+would be un-made then. The second invocation of |\cwbb@toggle_text|
+would be undefined then.
+
+A refinement may also consist of the file name the expansion of this
+refinement shall be written to.
+%
+\label{sec:refname-dot}
+%
+This file name is tagged with |\.|, it shall be typeset like a string.
+But the user shall be able to use the dot accent in the refinement
+name as well. We check if the text consists solely of the tag and its
+argument; in this case we substitute |\.| with |\CwebString|.
+Otherwise we leave it as it is. Then a refinement name may not
+consist of a single dot-accented expression---well, that's highly
+unlikely. (Nevertheless I'll document it in the user's manual\,\dots)
+
+\begin{fixme}
+ One should be able to use |\EnsureMath| here. But the refinement
+ name must not be set in math mode and must not be set in an hbox;
+ the latter would prevent line breaks.
+\end{fixme}
+
+\beginprog
+\def\CwebRefName#1:#2\X{%
+ \ifmmode \gdef\cwbb@toggle_text{\null$\null}%
+ \else \let\cwbb@toggle_text\relax
+ \fi
+ \cwbb@toggle_text
+ $\langle\,${\cwbb@tex \cwbb@check_dot{#2}\CwebRefNumber{#1}}$\,\rangle$%
+ \cwbb@toggle_text
+ }
+\def\CwebRefNumber#1{%
+ {\reset@font \footnotesize \kern .5em#1}%
+ }
+\endprog
+
+
+\sect The next macro, |\cwbb@check_dot| is a hassle to implement. We
+must check if it's argument consists solely of a `|\.|'~tag, together
+with the argument to this tag. Then the `|\.|'-argument shall be
+typeset like a string, |\.| itself must be ignored.
+
+The check for |\.| must not evaluate the parameter. Especially |\PB|
+must not be evaluated within, it would lead to havoc with the
+redefinition of all bindings, etc. (At least that's the empirical
+result---it happened; although I don't know where the problems are.
+Anyhow, it wasn't in the specs of the rebinding process.) All other
+cseqs which shouldn't be used in moving arguments may cause problems
+here, too. Note that |\protect| is no solution here, the user often is
+not aware of the presence of \cweave{}-generated tags. As an example,
+consider the refinement \verb"@< local variables of |foo| @>|" which
+will lead to a call with the argument `|local variables of \PB{\\{foo}}|'.
+|\\| must not be evaluated here.
+
+I use an approach where I hope that it will work---but to be honest,
+I'm not sure. I want to define a macro |\next| which shall have an
+empty expansion iff |#1| was a `|\.|'~tag with its argument. Empty
+refinement names are not allowed so we can assume that |#1| consists
+of at least one token. I evaluate the first token of |#1| before the
+|\def| is done. With an appropriate binding a |\.| will disappear,
+perhaps leaving an empty token list. I also take care that |\PB| is
+not evaluated then, by temporary rebinding it to |\relax|. Thereby I
+have taken care for all cseqs \cweave{} might have introduced at the
+very front of |#1|. Other cseqs are user-tags. If they cause
+problems, the user might circumstance them by adding |\protect|.
+
+\beginprog
+\def\cwbb@check_dot#1{%
+ \begingroup
+ \let\.\@gobble
+ \let\PB\relax
+ \expandafter\def \expandafter\next \expandafter{#1}%
+ \ifx \next\empty
+ \gdef\next##1{\CwebString}%
+ \else
+ \global\let\next\relax
+ \fi
+ \endgroup
+ \next #1%
+ }
+\endprog
+
+
+\sect \cweb{} macro definitions (done by~|@d|) and format directives are
+basically program text. When they are started we are already in
+program state, i.e., |\B| has appeared in front of it. But since we have
+an introductionary identifier (either |#define| or |format|) to set at
+the very front we increase the indentation by three units.
+
+The output of format directives may be suppressed. Then we have to
+gather both identifiers that will appear after |\F|. Both of them
+consist of one group-token (a cseq and the identifier name), after
+each identifier one other token separates them. I.e., we have to
+gobble six group-tokens. As the very last token is |\par| if a format
+directive follows directly on another one, the definition must be
+long.
+
+\TeX{}nical note: |\cwbb@format| must expand to |\CwebFormat|, not to
+its expansion. Otherwise a redefinition of |\CwebFormat| in a package
+would not be used.
+
+\beginprog
+\def\CwebDefine{\cwbb@macro{\#define}}
+\def\CwebFormat{\cwbb@macro{format}}
+\if@cweb@suppress@format@
+ \long\def\cwbb@format#1#2#3#4#5#6{}
+\else
+ \def\cwbb@format{\CwebFormat}
+\fi
+
+\def\cwbb@macro#1{%
+ \global\advance\cwbb@indent \tw@\CwebIndentUnit
+ \cwbb@incr_indent
+ \CwebRes{#1 }% % <-- blank!
+ }
+\endprog
+
+
+
+
+\chap Refinement cross references and changes.
+
+At the end of chunks with refinements, \cweave{} may output cross
+reference information: In which chunks additional definitions for
+this refinement are found, where this refinement is used, and where it
+is cited. This cross reference information is always introduced by a
+tag followed by a non-empty list of chunk numbers. Different tags
+are used for lists with only one element and for lists with more than
+one element, this way the introductionary text may be adapted.
+
+Within a list of $n$~chunk numbers the first $n-1$~numbers are
+separated by commas with one following blank. The last two numbers
+are separated by |\ET| if~$n=2$, and by |\ETs| if~$n>2$. If a chunk
+is changed by the changefile, a changeflag~(`|\*|') is appended to
+its number. The list is eventually terminated by a full stop.
+
+
+\sect We separate the cross reference information by a smallskip from
+the refinement or from a previous cross reference information. The
+information itself is typeset in a smaller font, as it is auxilliary,
+inserted stuff. The number list has a hanging indentation of
+|\CwebNumberListHangindent|. But beware: This isn't a dimension
+register, it's a macro. This way one can use ems as dimensions.
+
+The actual size change is represented by a macro. We will redefine it
+when we need an other size, e.g., in the lists at the end of the
+document.
+
+We must assert that we're in CR state while we set a cross reference.
+
+The first parameter of a cross reference information unit is the
+introductionary text, the second is the number list. The parameters
+must be evaluated in a group---local parameter changes therein must
+not influence the environment.
+
+\beginprog
+\def\CwebNumberListHangindent{2em}
+\let\CwebCRSize\footnotesize
+\def\CwebCrossRef#1#2.{%
+ \par\smallskip
+ \cwbb@CR
+ \begingroup
+ \reset@font \CwebCRSize
+ \noindent \hangindent\CwebNumberListHangindent\relax
+ #1~#2.\par
+ \endgroup
+ }
+\endprog
+
+
+\sect Well, let's define all introducing tags, which in fact start the
+cross reference information unit. The number list is gathered by
+|\CwebCrossRef|.
+
+\beginprog
+\def\CwebCRAlso{\CwebCrossRef{See also chunk}}
+\def\CwebCRsAlso{\CwebCrossRef{See also chunks}}
+
+\def\CwebCRCite{\CwebCrossRef{This code is cited in chunk}}
+\def\CwebCRsCite{\CwebCrossRef{This code is cited in chunks}}
+
+\def\CwebCRUse{\CwebCrossRef{This code is used in chunk}}
+\def\CwebCRsUse{\CwebCrossRef{This code is used in chunks}}
+
+\def\CwebCREt{ and~}
+\def\CwebCRsEt{, and~}
+\endprog
+
+
+
+
+\chap Bells and whistles.
+
+\begin{fixme}
+ Just copied from Plain \cweb{}. It doesn't work
+ anyhow---|\char"|\<xy> usually doesn't typeset the correct
+ character. That's because this character is most probably an active
+ character; at least that's typical for the way \TeX{} systems are
+ used in Europe. I have to think about the implementation.
+\end{fixme}
+
+\beginprog
+\def\ATL{\par\noindent\bgroup\catcode`\_=12 \postATL} % print @l in limbo
+\def\postATL#1 #2 {\bf letter \\{\uppercase{\char"#1}}
+ tangles as \tentex "#2"\egroup\par}
+\def\noATL#1 #2 {}
+\def\noatl{\let\ATL=\noATL} % suppress output from @l
+\endprog
+
+
+
+\chap The end.
+
+Well, after all we're finished with this module
+
+\beginprog
+\endinput
+\endprog
+
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+\vskip \PltxPreSectSkip
+
+\rcsLogIntro{After the actual revision log of this module, we give an
+ extract of log messages of the \cls{cweb} class. This module was
+ extracted from revision~2.8 of that class, we present to you the
+ log entries that concern the code of the new module.}
+
+\begin{rcslog}
+$StyleLog: cwebbase.doc,v $
+\Revision 1.4 1995/11/07 17:55:19 schrod
+ \LaTeX{} \cweb{} should work at least with the last two \LaTeX{}
+versions; make it work with the previous-to-last one, version
+\mbox{$\langle$1994/12/01$\rangle$}. For that, one has to install the
+\mbox{$\langle$1995/06/01$\rangle$} (non-outer) definition of
+|\newif|, and |\hb@xt@| must not be used.\\
+Problem reported by Laurent Desnogues
+\path|<laurent.desnogues@aiguemarine.unice.fr>| and somebody else (XXX
+-- add name).
+
+\Revision 1.3 1995/11/07 14:13:12 schrod
+Reset section numbers when higher-level section begins.\\
+Error reported by Bronne Louis \path|<bronne@montefiore.ulg.ac.be>|.
+
+\Revision 1.2 1995/11/06 10:58:47 schrod
+ Support active double quotes in strings. That happens when
+|german.sty| is used. Problems with other active characters may still
+appear.
+
+\Revision 1.1 1995/09/12 23:02:22 schrod
+Moved all code that does the actual typesetting of \cweave{} tags and
+is therefore also needed for a |cweb| environment. It's now an own
+module named \pkg{cwebbase}.
+
+Chunk markers and chunk marginal numbers don't hang below the
+baseline any more.
+
+
+\item[] \noindent\hrulefill\break
+ \textbf{Extract of the revision log for |cweb.doc|:}
+
+ \vskip 2ex
+
+\Revision 2.5 1995/08/29 02:07:26 schrod
+Discard dependencies on 10\,pt fonts.
+
+Support suppression of format directives.
+
+\Revision 2.4 1995/08/27 19:31:43 schrod
+Make configuration of change flag easier.
+
+Put section title of changed chunks list in marks, and tell the user
+that it got typeset.
+
+\Revision 2.3 1995/08/27 17:24:46 schrod
+Make usage of baseclass with chapters work.
+
+\Revision 2.2 1995/08/27 13:26:22 schrod
+Add possibility to suppress change hints.
+
+\Revision 2.1 1995/08/25 19:11:18 schrod
+Hierarchic structures are supported now, in addition to the flat
+structure of the beta-test version. One can choose with an option. For
+that step, the terminology was cleaned up, too: Chunks are not named
+sections any more. (That change involved reimplementation of almost
+all the structure and toc stuff.)
+
+The chunk number supplied by \cweave{} is used now, not some computed
+number. Change flags are printed, too.
+
+One can suppress output of unchanged sections.
+
+\Revision 1.12 1993/08/10 14:15:43 schrod
+New page on main section only if group level $<$ |\cwebSecNoEject|.
+Default for the latter is 3.
+
+\Revision 1.11 1993/08/10 11:21:07 schrod
+Reference to section number does not render a period after the
+number any more.
+
+\Revision 1.10 1993/08/09 20:08:20 schrod
+|\cweb@cweave_bindings| is now a no-op if \cweave{} bindings are in
+effect already.\\
+(Problem reported by Michael M\"uller \path|<mimu@mpi-sb.mpg.de>|.)
+
+\Revision 1.9 1993/08/09 18:05:28 schrod
+Left shift operator wasn't defined correctly.\\
+(Problem reported by Michael M\"uller \path|<mimu@mpi-sb.mpg.de>|.)
+
+\Revision 1.6 1993/06/15 08:49:23 schrod
+|\cweb@check_dot| must not evaluate its argument in an |\edef|, this
+causes problems if a |\PB| is within. Now I try hard not to evaluate any
+tokens outside of my control.
+
+Can use |\@defpar| for an empty line in |\cweb@has_entries|, don't
+need an own macro.
+
+\Revision 1.4 1993/06/14 15:54:18 schrod
+Add FSA diagram about processing states. CR state is also switched
+to from \TeX{} state (that happens with |\ch| at the document end).
+
+\Revision 1.3 1993/05/13 17:51:21 schrod
+Refinements may also be filenames (`|@(|'). Then the complete name
+consists of a |\.| macro call, which is handled now.\\
+(Problem reported by Michael M\"uller \path|<mimu@mpi-sb.mpg.de>|.)
+
+Made the detection of `|@.|' index entries more robust.
+
+\Revision 1.2 1993/05/12 18:28:59 schrod
+Adapted to recent changes of \cweave{} (of April 93):
+
+Main sections have a group level, represented in the table of
+contents. This changed the complete implementation of section tags.
+
+New C token cseqs: |\Z| and |\MRL|, implemented as |\CwebLe| and
+|\CwebCombinedOp|.
+
+\Revision 1.1 1993/04/09 15:00:37 schrod
+Initial revision
+
+\end{rcslog}
+
+
+
+\end{document}
+
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+Local Variables:
+mode: LaTeX
+TeX-brace-indent-level: 4
+indent-tabs-mode: t
+TeX-auto-untabify: nil
+TeX-auto-regexp-list: LaTeX-auto-regexp-list
+compile-command: "make cwebbase.tex"
+End: