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There are three major shell commands for making a printed manual from a Texinfo file: one for converting the Texinfo file into a file that will be printed, a second for sorting indices, and a third for printing the formatted document. When you use the shell commands, you can either work directly in the operating system shell or work within a shell inside GNU Emacs.
If you are using GNU Emacs, you can use commands provided by Texinfo mode instead of shell commands. In addition to the three commands to format a file, sort the indices, and print the result, Texinfo mode offers key bindings for commands to recenter the output buffer, show the print queue, and delete a job from the print queue.
The typesetting program called TeX is used for formatting a Texinfo file. TeX is a very powerful typesetting program and, if used right, does an exceptionally good job. (See section How to Obtain TeX, for information on how to obtain TeX.)
The makeinfo
, texinfo-format-region
, and
texinfo-format-buffer
commands read the very same @-commands
in the Texinfo file as does TeX, but process them differently to
make an Info file; see section Creating an Info File.
tex
and texindex
Format the Texinfo file with the shell command tex
followed by
the name of the Texinfo file. For example:
tex foo.texi
TeX will produce a DVI file as well as several auxiliary files containing information for indices, cross references, etc. The DVI file (for DeVice Independent file) can be printed on virtually any printe (see the following sections).
The tex
formatting command itself does not sort the indices; it
writes an output file of unsorted index data. (The texi2dvi
command automatically generates indices; see section Format using texi2dvi
.) To generate a printed index after
running the tex
command, you first need a sorted index to work
from. The texindex
command sorts indices. (The source file
`texindex.c' comes as part of the standard Texinfo distribution,
among other places.)
The tex
formatting command outputs unsorted index files under
names that obey a standard convention: the name of your main input file
with any `.tex' (or similar, see section `tex invocation' in Web2c) extension removed, followed by the two letter names of indices.
For example, the raw index output files for the input file
`foo.texinfo' would be `foo.cp', `foo.vr', `foo.fn',
`foo.tp', `foo.pg' and `foo.ky'. Those are exactly the
arguments to give to texindex
.
Instead of specifying all the unsorted index file names explicitly, you can use `??' as shell wildcards and give the command in this form:
texindex foo.??
This command will run texindex
on all the unsorted index files,
including any that you have defined yourself using @defindex
or @defcodeindex
. (You may execute `texindex foo.??'
even if there are similarly named files with two letter extensions
that are not index files, such as `foo.el'. The texindex
command reports but otherwise ignores such files.)
For each file specified, texindex
generates a sorted index file
whose name is made by appending `s' to the input file name. The
@printindex
command knows to look for a file of that name
(see section Index Menus and Printing an Index). texindex
does not alter the
raw index output file.
After you have sorted the indices, you need to rerun the tex
formatting command on the Texinfo file. This regenerates the DVI file,
this time with up-to-date index entries.
Finally, you may need to run tex
one more time, to get the page
numbers in the cross-references correct.
To summarize, this is a four step process:
tex
on your Texinfo file. This generates a DVI file (with
undefined cross-references and no indices), and the raw index files
(with two letter extensions).
texindex
on the raw index files. This creates the
corresponding sorted index files (with three letter extensions).
tex
again on your Texinfo file. This regenerates the DVI
file, this time with indices and defined cross-references, but with page
numbers for the cross-references from last time, generally incorrect.
tex
one last time. This time the correct page numbers are
written for the cross-references.
Alternatively, it's a one-step process: run texi2dvi
.
You need not run texindex
each time after you run tex
. If
you do not, on the next run, the tex
formatting command will use
whatever sorted index files happen to exist from the previous use of
texindex
. This is usually ok while you are
debugging.
texi2dvi
The texi2dvi
command automatically runs both tex
and
texindex
as many times as necessary to produce a DVI file with
up-to-date, sorted indices. It simplifies the
tex
---texindex
---tex
sequence described in the
previous section.
The syntax for texi2dvi
is like this (where `prompt$' is your
shell prompt):
prompt$ texi2dvi filename...
For a list of options, run `texi2dvi --help'.
lpr -d
The precise command to print a DVI file depends on your system installation, but `lpr -d' is common. The command may require the DVI file name without any extension or with a `.dvi' extension. (If it is `lpr', you must include the `.dvi'.)
The following commands, for example, will (probably) suffice to sort the indices, format, and print the Bison Manual:
tex bison.texinfo texindex bison.?? tex bison.texinfo lpr -d bison.dvi
(Remember that the shell commands may be different at your site; but these are commonly used versions.)
Using the texi2dvi
shell script, you simply need type:
texi2dvi bison.texinfo lpr -d bison.dvi
You can give formatting and printing commands from a shell within GNU Emacs. To create a shell within Emacs, type M-x shell. In this shell, you can format and print the document. See section Format and Print Hardcopy, for details.
You can switch to and from the shell buffer while tex
is
running and do other editing. If you are formatting a long document
on a slow machine, this can be very convenient.
You can also use texi2dvi
from an Emacs shell. For example,
here is how to use texi2dvi
to format and print Using and
Porting GNU CC from a shell within Emacs:
texi2dvi gcc.texinfo lpr -d gcc.dvi
Texinfo mode provides several predefined key commands for TeX formatting and printing. These include commands for sorting indices, looking at the printer queue, killing the formatting job, and recentering the display of the buffer in which the operations occur.
texi2dvi
on the current buffer.
texinfo-tex-region
.
texinfo-tex-region
or
texinfo-tex-buffer
.
texinfo-show-tex-print-queue
).
texinfo-tex-region
or texinfo-tex-buffer
, or any other
process running in the Texinfo shell buffer.
Thus, the usual sequence of commands for formatting a buffer is as follows (with comments to the right):
C-c C-t C-b Run texi2dvi
on the buffer.
C-c C-t C-p Print the DVI file.
C-c C-t C-q Display the printer queue.
The Texinfo mode TeX formatting commands start a subshell in Emacs
called the `*tex-shell*'. The texinfo-tex-command
,
texinfo-texindex-command
, and tex-dvi-print-command
commands are all run in this shell.
You can watch the commands operate in the `*tex-shell*' buffer, and you can switch to and from and use the `*tex-shell*' buffer as you would any other shell buffer.
The formatting and print commands depend on the values of several variables. The default values are:
Variable Default value texinfo-texi2dvi-command "texi2dvi" texinfo-tex-command "tex" texinfo-texindex-command "texindex" texinfo-delete-from-print-queue-command "lprm" texinfo-tex-trailer "@bye" tex-start-of-header "%**start" tex-end-of-header "%**end" tex-dvi-print-command "lpr -d" tex-show-queue-command "lpq"
You can change the values of these variables with the M-x edit-options command (see section `Editing Variable Values' in The GNU Emacs Manual), with the M-x set-variable command (see section `Examining and Setting Variables' in The GNU Emacs Manual), or with your `.emacs' initialization file (see section `Init File' in The GNU Emacs Manual).
Yet another way to apply the TeX formatting command to a Texinfo file
is to put that command in a local variables list at the end of the
Texinfo file. You can then specify the tex
or texi2dvi
commands as a compile-command
and have Emacs run it by typing
M-x compile. This creates a special shell called the
`*compilation*' buffer in which Emacs runs the compile command.
For example, at the end of the `gdb.texinfo' file, after the
@bye
, you could put the following:
Local Variables: compile-command: "texi2dvi gdb.texinfo" End:
This technique is most often used by programmers who also compile programs this way; see section `Compilation' in The GNU Emacs Manual.
Every Texinfo file that is to be input to TeX must begin with a
\input
command and must contain an @setfilename
command:
\input texinfo @setfilename arg-not-used-by-TeX
The first command instructs TeX to load the macros it needs to process a Texinfo file and the second command opens auxiliary files.
Every Texinfo file must end with a line that terminates TeX's processing and forces out unfinished pages:
@bye
Strictly speaking, these lines are all a Texinfo file needs to be processed successfully by TeX.
Usually, however, the beginning includes an @settitle
command to
define the title of the printed manual, an @setchapternewpage
command, a title page, a copyright page, and permissions. Besides an
@bye
, the end of a file usually includes indices and a table of
contents. (And of course most manuals contain a body of text as well.)
For more information, see
section @settitle
,
section @setchapternewpage
,
section Page Headings,
section The Title and Copyright Pages,
section Index Menus and Printing an Index, and
section Generating a Table of Contents.
TeX needs to know where to find the `texinfo.tex' file that you have told it to input with the `\input texinfo' command at the beginning of the first line. The `texinfo.tex' file tells TeX how to handle @-commands; it is included in all standard GNU distributions.
Usually, the `texinfo.tex' file is put under the default directory that contains TeX macros (`/usr/local/share/texmf/tex/texinfo/texinfo.tex' by default) when GNU Emacs or other GNU software is installed. In this case, TeX will find the file and you do not need to do anything special. Alternatively, you can put `texinfo.tex' in the current directory when you run TeX, and TeX will find it there.
Also, you should install `epsf.tex' in the same place as
`texinfo.tex', if it is not already installed from another
distribution. This file is needed to support the @image
command
(see section Inserting Images).
Optionally, you may create an additional `texinfo.cnf', and install
it as well. This file is read by TeX at the @setfilename
command (see section @setfilename
). You can put any
commands you like there according to local site-wide conventions, and
they will be read by TeX when processing any Texinfo document. For
example, if `texinfo.cnf' contains the a single line
`@afourpaper' (see section Printing on A4 Paper), then all Texinfo documents will
be processed with that page size in effect. If you have nothing to put
in `texinfo.cnf', you do not need to create it.
If neither of the above locations for these system files suffice for
you, you can specify the directories explicitly. For
`texinfo.tex', you can do this by writing the complete path for the
file after the \input
command. Another way, that works for both
`texinfo.tex' and `texinfo.cnf' (and any other file TeX
might read), is to set the TEXINPUTS
environment variable in your
`.cshrc' or `.profile' file.
Which you use of `.cshrc' or `.profile' depends on
whether you use a Bourne shell-compatible (sh
, bash
,
ksh
, ...) or C shell-compatible (csh
, tcsh
)
command interpreter. The latter read the `.cshrc' file for
initialization information, and the former read `.profile'.
In a `.cshrc' file, you could use the following csh
command
sequence:
setenv TEXINPUTS .:/home/me/mylib:/usr/lib/tex/macros
In a `.profile' file, you could use the following sh
command
sequence:
TEXINPUTS=.:/home/me/mylib:/usr/lib/tex/macros export TEXINPUTS
This would cause TeX to look for `\input' file first in the current directory, indicated by the `.', then in a hypothetical user's `me/mylib' directory, and finally in a system directory.
TeX is sometimes unable to typeset a line without extending it into the right margin. This can occur when TeX comes upon what it interprets as a long word that it cannot hyphenate, such as an electronic mail network address or a very long title. When this happens, TeX prints an error message like this:
Overfull \hbox (20.76302pt too wide)
(In TeX, lines are in "horizontal boxes", hence the term, "hbox". The backslash, `\', is the TeX equivalent of `@'.)
TeX also provides the line number in the Texinfo source file and the text of the offending line, which is marked at all the places that TeX knows how to hyphenate words. See section Catching Errors with TeX Formatting, for more information about typesetting errors.
If the Texinfo file has an overfull hbox, you can rewrite the sentence so the overfull hbox does not occur, or you can decide to leave it. A small excursion into the right margin often does not matter and may not even be noticeable.
However, unless told otherwise, TeX will print a large, ugly, black rectangle beside the line that contains the overfull hbox. This is so you will notice the location of the problem if you are correcting a draft.
To prevent such a monstrosity from marring your final printout, write
the following in the beginning of the Texinfo file on a line of its own,
before the @titlepage
command:
@finalout
By default, TeX typesets pages for printing in an 8.5 by 11 inch format. However, you can direct TeX to typeset a document in a 7 by 9.25 inch format that is suitable for bound books by inserting the following command on a line by itself at the beginning of the Texinfo file, before the title page:
@smallbook
(Since regular sized books are often about 7 by 9.25 inches, this
command might better have been called the @regularbooksize
command, but it came to be called the @smallbook
command by
comparison to the 8.5 by 11 inch format.)
If you write the @smallbook
command between the
start-of-header and end-of-header lines, the Texinfo mode TeX
region formatting command, texinfo-tex-region
, will format the
region in "small" book size (see section Start of Header).
The Free Software Foundation distributes printed copies of The GNU
Emacs Manual and other manuals in the "small" book size.
See section @smallexample
and @smalllisp
, for information about commands that make it easier
to produce examples for a smaller manual.
Alternatively, to avoid embedding this physical paper size in your
document, use texi2dvi
to format your document (see section Format using texi2dvi
), and supply `-t @smallbook' as an argument. Then
other people do not have to change the document source file to format it
differently.
You can tell TeX to typeset a document for printing on European size
A4 paper with the @afourpaper
command. Write the command on a
line by itself between @iftex
and @end iftex
lines near
the beginning of the Texinfo file, before the title page:
For example, this is how you would write the header for this manual:
\input texinfo @c -*-texinfo-*- @c %**start of header @setfilename texinfo @settitle Texinfo @syncodeindex vr fn @iftex @afourpaper @end iftex @c %**end of header
Alternatively, to avoid embedding this physical paper size in your
document, use texi2dvi
to format your document (see section Format using texi2dvi
), and supply `-t @afourpaper' as an argument. Then
other people do not have to change the document source file to format it
differently.
Another alternative: put the @afourpaper
command in the file
`texinfo.cnf' that TeX will read. (No need for @iftex
there.) This will automatically typeset all the Texinfo documents at
your site with that paper size in effect.
You can attempt to direct TeX to print cropmarks at the corners of
pages with the @cropmarks
command. Write the @cropmarks
command on a line by itself between @iftex
and @end
iftex
lines near the beginning of the Texinfo file, before the title
page, like this:
@iftex @cropmarks @end iftex
This command is mainly for printers that typeset several pages on one
sheet of film; but you can attempt to use it to mark the corners of a
book set to 7 by 9.25 inches with the @smallbook
command.
(Printers will not produce cropmarks for regular sized output that is
printed on regular sized paper.) Since different printing machines work
in different ways, you should explore the use of this command with a
spirit of adventure. You may have to redefine the command in the
`texinfo.tex' definitions file.
You can attempt to direct TeX to typeset pages larger or smaller than
usual with the \mag
TeX command. Everything that is typeset
is scaled proportionally larger or smaller. (\mag
stands for
"magnification".) This is not a Texinfo @-command, but is a
plain TeX command that is prefixed with a backslash. You have to
write this command between @tex
and @end tex
(see section Raw Formatter Commands).
Follow the \mag
command with an `=' and then a number that
is 1000 times the magnification you desire. For example, to print pages
at 1.2 normal size, write the following near the beginning of the
Texinfo file, before the title page:
@tex \mag=1200 @end tex
With some printing technologies, you can print normal-sized copies that look better than usual by using a larger-than-normal master.
Depending on your system, \mag
may not work or may work only at
certain magnifications. Be prepared to experiment.
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