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%% This is part of the OpTeX project, see http://petr.olsak.net/optex
\_codedecl \begtt {Verbatim <2021-04-18>} % preloaded in format
\_doc ----------------------------
The internal parameters
\`\_ttskip`, \`\_ttpenalty`, \`\_viline`, \`\_vifile` and \`\_ttfont`
for verbatim macros are set.
\_cod ----------------------------
\_def\_ttskip{\_medskip} % space above and below \begtt, \verbinput
\_mathchardef\_ttpenalty=100 % penalty between lines in \begtt, \verbinput
\_newcount\_viline % last line number in \verbinput
\_newread\_vifile % file given by \verinput
\_def\_ttfont{\_tt} % default tt font
\_doc ----------------------------
\`\code``{<text>}` expands to `\detokenize{<text>}` when `\escapechar=-1`. In
order to do it more robust when it is used in `\write` then it expands as
noexpanded `\code<space>` (followed by space in its csname). This macro
does the real work.
The \`\_printinverbatim``{<text>}` macro is used for `\code{<text>}` printing and for
\code{`}<text>\code{`} printing. It is defined as `\hbox`, so the in-verbatim <text>
will be never broken. But you can re-define this macro.
When `\code` occurs in PDF outlines then it does the same as `\detokenize`.
The macro for preparing outlines sets `\escapechar` to $-1$ and uses
\^`\_regoul` token list before `\edef`.
The `\code` is not `\proteced` because we want it expands to
`\unexpanded{\code<space>{<text>}}` in `\write` parameters. This protect the
expansions of the `\code` parameter (like `\\`, `\^` etc.).
\_cod ----------------------------
\_def\_code#1{\_unexpanded\_ea{\_csname _code \_endcsname{#1}}}
\_protected\_sdef{_code }#1{{\_escapechar=-1 \_ttfont \_the\_everyintt \_relax
\_ea\_printinverbatim\_ea{\_detokenize{#1}}}}
\_def\_printinverbatim#1{\_leavevmode\_hbox{#1}}
\_regmacro {}{}{\_let\code=\_detokenize \_let\_code=\_detokenize}
\_public \code ;
\_doc ----------------------------
The \`\_setverb` macro sets all catcodes to \"verbatim mode". It should be used only
in a group, so we prepare a new catcode table with \"verbatim" catcodes and we define
it as\nl `\_catcodetable`\`\_verbatimcatcodes`. After the group is finished then
original catcode table is restored.
\_cod ----------------------------
\_newcatcodetable \_verbatimcatcodes
\_def\_setverb{\_begingroup
\_def\do##1{\_catcode`##1=12 }
\_dospecials
\_savecatcodetable\_verbatimcatcodes % all characters are normal
\_endgroup
}
\_setverb
\_def\_setverb{\_catcodetable\_verbatimcatcodes }%
\_doc ----------------------------
\`\verbchar``<char>` saves original catcode of previously declared `<char>` (if
such character was declared) using \`\_savedttchar` and \`\_savedttcharc`
values. Then new such values are stored. The declared character is activated
by `\_adef` as a macro (active character) which opens a group,
does `\_setverb` and other settings and reads its parameter until second the same
character. This is done by the \`\_readverb` macro. Finally, it prints scanned
`<text>` by \^`\_printinverbatim` and closes group. Suppose that `\verbchar"` is
used. Then the following work is schematically done:
\begtt
\_def "{\_begingroup \_setverb ... \_readverb}
\_def \_readverb #1"{\_printinverbatim{#1}\_endgroup}
\endtt
Note that the second occurrence of `"` is not active because `\_setverb`
deactivates it.
\_cod ----------------------------
\_def\_verbchar#1{%
\_ifx\_savedttchar\_undefined\_else \_catcode\_savedttchar=\_savedttcharc \_fi
\_chardef\_savedttchar=`#1
\_chardef\_savedttcharc=\_catcode`#1
\_adef{#1}{\_begingroup \_setverb \_adef{ }{\_dsp}\_ttfont \_the\_everyintt\_relax \_readverb}%
\_def\_readverb ##1#1{\_printinverbatim{##1}\_endgroup}%
}
\_let \_activettchar=\_verbchar % for backward compatibility
\_public \verbchar \activettchar ;
\_doc ----------------------------
\`\begtt` is defined only as public. We don't need a private `\_begtt` variant.
This macro opens a group and sets `%` as an active character (temporary).
This will allow it to be used as the comment character at the same line after
`\begtt`. Then \`\_begtti` is run. It is defined by \^`\eoldef`,
so users can put a parameter at the
same line where `\begtt` is. This `#1` parameter is used after \^`\everytt`
parameters settings, so users can change them locally.
The \^`\_begtti` macro does \^`\_setverb` and another preprocessing, sets
`\endlinechar` to `^^J` and reads the following text in verbatim mode
until \`\endtt` occurs. This scanning is done by \`\_startverb` macro which is
defined as:
\begtt \adef/{\bslash}
\_def\_startverb #1/endtt #2^^J{...}
\endtt
We must to ensure that the backslash in `\endtt` has category 12 (this is a
reason of the `\ea` chain in real code).
The `#2` is something between `\endtt` and the end of the same line and it is simply
ignored.
The `\_startverb` puts the scanned data to \`\_prepareverbdata`. It sets the data
to `\_tmpb` without changes by default, but you should re-define it in order
to do special changes if you want. (For example, \^`\hisyntax` redefines
this macro.) The scanned data have `^^J` at each end of line and all spaces are
active characters (defined as {\visiblesp`\ `}).
Other characters have normal category 11 or 12.
When `\_prepareverbdata` finishes then `\_startverb` runs `\_printverb` loop
over each line of the data and does a final work: last skip plus `\noindent`
in the next paragraph.
\_cod ---------------------------
\_def\begtt{\_par \_begingroup \_adef\%##1\_relax{\_relax}\_begtti}
\_eoldef \_begtti#1{\_wipeepar \_setxhsize
\_vskip\_parskip \_ttskip
\_setverb
\_ifnum\_ttline<0 \_let\_printverblinenum=\_relax \_else \_initverblinenum \_fi
\_adef{ }{\_dsp}\_adef\^^I{\t}\_parindent=\_ttindent \_parskip=0pt
\_def\t{\_hskip \_dimexpr\_tabspaces em/2\_relax}%
\_protrudechars=0 % disable protrusion
\_the\_everytt \_relax #1\_relax \_ttfont
\_def\_testcommentchars##1\_iftrue{\_iffalse}\_let\_hicomments=\_relax
\_savemathsb \_endlinechar=`^^J
\_startverb
}
\_ea\_def\_ea\_startverb \_ea#\_ea1\_csstring\\endtt#2^^J{%
\_prepareverbdata\_tmpb{#1^^J}%
\_ea\_printverb \_tmpb\_end
\_par \_restoremathsb
\_endgroup \_ttskip
\_isnextchar\_par{}{\_noindent}%
}
\_def\_prepareverbdata#1#2{\_def#1{#2}}
\_doc
The \`\_printverb` macro calls \^`\_printverbline``{<line>}` repeatedly
to each scanned line of verbatim text. The `\_printverb` is used from
`\begtt...\endtt` and from `\verbinput` too.
The \^`\_testcommentchars` replaces the following `\_iftrue` to
`\_iffalse` by default unless the \~`\commentchars` are set. So, the main body
of the loop is written in the `\_else` part of the `\_iftrue` condition.
The \^`\_printverbline``{<line>}` is called here.
The \`\_printverbline``{<line>}` expects that it starts in vertical mode and it must
do `\par` to return the vertical mode. The \`\_printverblinenum`
is used here: it does nothing when `\_ttline`\code{<0} else it prints the line
number using `\_llap`.
\`\_putttpenalty` puts \^`\_ttpenalty` before second and next lines, but
not before first line in each `\begtt...\endtt` environment.
\_cod ----------------------------
\_def\_printverb #1^^J#2{%
\_ifx\_printverblinenum\_relax \_else \_incr\_ttline \_fi
\_testcommentchars #1\_relax\_relax\_relax
\_iftrue
\_ifx\_end#2 \_printcomments\_fi
\_else
\_ifx\_vcomments\_empty\_else \_printcomments \_def\_vcomments{}\_fi
\_ifx\_end#2
\_bgroup \_adef{ }{}\_def\t{}% if the last line is emtpy, we don't print it
\_ifcat&\_egroup \_else\_egroup \_printverbline{#1}\_fi
\_else
\_printverbline{#1}%
\_fi
\_fi
\_ifx\_end#2 \_let\_next=\_relax \_else \_def\_next{\_printverb#2}\_fi
\_next
}
\_def\_printverbline#1{\_putttpenalty \_indent \_printverblinenum \_kern\_ttshift #1\_par}
\_def\_initverblinenum{\_tenrm \_thefontscale[700]\_ea\_let\_ea\_sevenrm\_the\_font}
\_def\_printverblinenum{\_llap{\_sevenrm \_the\_ttline\_kern.9em}}
\_def\_putttpenalty{\_def\_putttpenalty{\_penalty\_ttpenalty}}
\_doc ----------------------------
Macro \`\verbinput` uses a file read previously or opens the given file. Then
it runs the parameter scanning by \`\_viscanparameter` and \`\_viscanminus`.
Finally the \`\_doverbinput` is run. At the beginning of `\_doverbinput`, we have
`\_viline`= number of lines already read using previous `\verbinput`,
`\_vinolines`= the number of lines we need to skip and `\_vidolnes`= the
number of lines we need to print.
A similar preparation is done as in `\begtt` after the group is opened. Then
we skip \`\_vinolines` lines in a loop a and we read \`\_vidolines` lines. The
read data is accumulated into `\_tmpb` macro. The next steps are equal to
the steps done in \^`\_startverb` macro: data are processed via
\^`\_prepareverbdata` and printed via \^`\_printverb` loop.
\_cod \_fin ----------------------
\_def\_verbinput #1(#2) #3 {\_par \_def\_tmpa{#3}%
\_def\_tmpb{#1}% cmds used in local group
\_ifx\_vifilename\_tmpa \_else
\_openin\_vifile={#3}%
\_global\_viline=0 \_global\_let\_vifilename=\_tmpa
\_ifeof\_vifile
\_opwarning{\_string\verbinput: file "#3" unable to read}
\_ea\_ea\_ea\_skiptorelax
\_fi
\_fi
\_viscanparameter #2+\_relax
}
\_def\_skiptorelax#1\_relax{}
\_def \_viscanparameter #1+#2\_relax{%
\_if$#2$\_viscanminus(#1)\_else \_viscanplus(#1+#2)\_fi
}
\_def\_viscanplus(#1+#2+){%
\_if$#1$\_tmpnum=\_viline
\_else \_ifnum#1<0 \_tmpnum=\_viline \_advance\_tmpnum by-#1
\_else \_tmpnum=#1
\_advance\_tmpnum by-1
\_ifnum\_tmpnum<0 \_tmpnum=0 \_fi % (0+13) = (1+13)
\_fi \_fi
\_edef\_vinolines{\_the\_tmpnum}%
\_if$#2$\_def\_vidolines{0}\_else\_edef\_vidolines{#2}\_fi
\_doverbinput
}
\_def\_viscanminus(#1-#2){%
\_if$#1$\_tmpnum=0
\_else \_tmpnum=#1 \_advance\_tmpnum by-1 \_fi
\_ifnum\_tmpnum<0 \_tmpnum=0 \_fi % (0-13) = (1-13)
\_edef\_vinolines{\_the\_tmpnum}%
\_if$#2$\_tmpnum=0
\_else \_tmpnum=#2 \_advance\_tmpnum by-\_vinolines \_fi
\_edef\_vidolines{\_the\_tmpnum}%
\_doverbinput
}
\_def\_doverbinput{%
\_tmpnum=\_vinolines
\_advance\_tmpnum by-\_viline
\_ifnum\_tmpnum<0
\_openin\_vifile={\_vifilename}%
\_global\_viline=0
\_else
\_edef\_vinolines{\_the\_tmpnum}%
\_fi
\_vskip\_parskip \_ttskip \_wipeepar \_setxhsize
\_begingroup
\_ifnum\_ttline<-1 \_let\_printverblinenum=\_relax \_else \_initverblinenum \_fi
\_setverb \_adef{ }{\_dsp}\_adef\^^I{\t}\_parindent=\_ttindent \_parskip=0pt
\_def\t{\_hskip \_dimexpr\_tabspaces em/2\_relax}%
\_protrudechars=0 % disable protrusion
\_the\_everytt\_relax \_tmpb\_relax \_ttfont
\_savemathsb \_endlinechar=`^^J \_tmpnum=0
\_loop \_ifeof\_vifile \_tmpnum=\_vinolines\_space \_fi
\_ifnum\_tmpnum<\_vinolines\_space
\_vireadline \_advance\_tmpnum by1 \_repeat %% skip lines
\_edef\_ttlinesave{\_ttline=\_the\_ttline}%
\_ifnum\_ttline=-1 \_ttline=\_viline \_fi
\_tmpnum=0 \_def\_tmpb{}%
\_ifnum\_vidolines=0 \_tmpnum=-1 \_fi
\_ifeof\_vifile \_tmpnum=\_vidolines\_space \_fi
\_loop \_ifnum\_tmpnum<\_vidolines\_space
\_vireadline
\_ifnum\_vidolines=0 \_else\_advance\_tmpnum by1 \_fi
\_ifeof\_vifile \_tmpnum=\_vidolines\_space \_else \_visaveline \_fi %% save line
\_repeat
\_ea\_prepareverbdata \_ea \_tmpb\_ea{\_tmpb^^J}%
\_catcode`\ =10 \_catcode`\%=9 % used in \commentchars comments
\_ea\_printverb \_tmpb\_end
\_global\_ttlinesave
\_par \_restoremathsb
\_endgroup
\_ttskip
\_isnextchar\_par{}{\_noindent}%
}
\_def\_vireadline{\_read\_vifile to \_tmp \_incr\_viline }
\_def\_visaveline{\_ea\_addto\_ea\_tmpb\_ea{\_tmp}}
\_public \verbinput ;
\_doc -----------------------------
\`\_savemathsb`, \`\_restoremathsb` pair is used
in \^`\begtt`...\^`\endtt` or in \^`\verbinput` to temporary suppress
the \^`\mathsbon` because we don't need to print `\int _a`
in verbatim mode if `\int``_a` is really written. The \^`\_restoremathsb`
is defined locally as \^`\mathsbon` only if it is needed.
\_cod -----------------------------
\_def\_savemathsb{\_ifmathsb \_mathsboff \_def\_restoremathsb{\_mathsbon}\_fi}
\_def\_restoremathsb{}
\_doc -----------------------------
If the language of your code\label[commentchars]\wlabel{}
printed by \^`\verbinput` supports the
format of comments started by two characters from the beginning of the
line then you can set these characters by \^`\commentchars``<first><second>`.
Such comments are printed in the non-verbatim mode without these two
characters and they look like the verbatim printing is interrupted
at the places where such comments are.
See the section~\ref[lua] for good illustration.
The file `optex.lua` is read by a single command
`\verbinput (4-) optex.lua` here and the `\commentchars --` was set before it.
If you need to set a special character by \^`\commentchars` then you must
to set the catcode to 12 (and space to 13). Examples:
\begtt
\commentchars // % C++ comments
\commentchars -- % Lua comments
{\catcode`\%=12 \_ea}\commentchars %% % TeX comments
{\catcode`\#=12 \catcode`\ =13 \_ea}\commentchars#{ } % bash comments
\endtt
There is one limitation when \TeX/ interprets the comments declared by
\^`\commentchars`. Each block of comments is accumulated to one line
and then it is re-interpreted by \TeX. So, the ends of lines in the
comments block are lost. You cannot use macros which
need to scan end of lines, for example `\begtt...\endtt` inside the comments
block does not work. The character `%` is ignored in comments but you can use `\%`
for printing or `%` alone for de-activating `\_endpar` from empty
comment lines.
Implementation: The \`\commentchars``<first><second>` redefines the \`\_testcommentchars`
used in \^`\_printverb` in order to it removes the following `\_iftrue`
and returns `\_iftrue` or `\_iffalse` depending on the fact that
the comment characters are or aren't present at the beginning of tested line.
If it is true (`\ifnum` expands to `\ifnum 10>0`) then the rest of the
line is added to the \`\_vcomments` macro.
The \`\_hicomments` is `\relax` by default but it is redefined by \^`\commentchars`
in order to keep no-colorized comments if we need to use feature from
\^`\commentchars`.
The accumulated comments are printed whenever the non-comment line
occurs. This is done by \`\_printcomments` macro.
You can re-define it, but the main idea must be kept: it is printed in the
group, `\_reloding \_rm` initializes normal font, `\catcodetable0`
returns to normal catcode table used before `\verbinput` is started, and
the text accumulated in `\_vcomments` must be printed by
`\_scantextokens` primitive.
\_cod -----------------------------
\_def\_vcomments{}
\_let\_hicomments=\_relax
\_def\_commentchars#1#2{%
\_def\_testcommentchars ##1##2##3\_relax ##4\_iftrue{\_ifnum % not closed in this macro
\_ifx #1##1\_ifx#2##21\_fi\_fi 0>0
\_ifx\_relax##3\_relax \_addto\_vcomments{\_endgraf}% empty comment=\enfgraf
\_else \_addto\_vcomments{##3 }\_fi}%
\_def\_hicomments{\_replfromto{\b\n#1#2}{^^J}{\w{#1#2####1}^^J}}% used in \hisyntax
}
\_def\_testcommentchars #1\_iftrue{\_iffalse} % default value of \_testcommentchar
\_def\_printcomments{\_ttskip
{\_catcodetable0 \_reloading \_rm \_everypar={}%
\_noindent \_ignorespaces \_scantextokens\_ea{\_vcomments}\_par}%
\_ttskip
}
\_public \commentchars ;
\_doc -----------------------------
The \`\visiblesp` sets spaces as visible characters \char9251.
It redefines the \^`\_dsp`, so it is useful for verbatim modes only.
The \`\_dsp` is equivalent to {\visiblesp`\ `} primitive.
It is used in all verbatim environments: spaces are active and defined as
`\_dsp` here.
\_cod -----------------------------
\_def \_visiblesp{\_ifx\_initunifonts\_relax \_def\_dsp{\_char9251 }%
\_else \_def\_dsp{\_char32 }\_fi}
\_let\_dsp=\ % primitive "direct space"
\_public \visiblesp ;
\_endcode
\_endinput
History:
2021-04-18 ... \_protrudechars=0 added
2021-04-07 ... \_savemathsb, \_restoremathsb introduced
2021-01-22 ... \activettchar changed to \verbchar
2020-12-30 ... \secc followed by \begtt must be unbreakable
2020-11-13 ... \commentchars implemented
2020-04-22 ... \ttshift introduced
2020-04-06 ... \visiblesp added
2020-04-04 ... ^^I activated as \t for multiline verbatim
\verbinput <cmds> (...) <filename>, <cmds> added.
|