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This is Info file texinfo.info, produced by Makeinfo-1.64 from the
input file /ade-src/fsf/texinfo/texinfo.texi.
This file documents Texinfo, a documentation system that uses a single
source file to produce both on-line information and a printed manual.
Copyright (C) 1988, 1990, 1991, 1992, 1993, 1995 Free Software
Foundation, Inc.
This is the second edition of the Texinfo documentation,
and is consistent with version 2 of `texinfo.tex'.
Permission is granted to make and distribute verbatim copies of this
manual provided the copyright notice and this permission notice are
preserved on all copies.
Permission is granted to copy and distribute modified versions of this
manual under the conditions for verbatim copying, provided that the
entire resulting derived work is distributed under the terms of a
permission notice identical to this one.
Permission is granted to copy and distribute translations of this
manual into another language, under the above conditions for modified
versions, except that this permission notice may be stated in a
translation approved by the Free Software Foundation.
File: texinfo.info, Node: Abstract Objects, Next: Data Types, Prev: Typed Variables, Up: Def Cmds in Detail
Object-Oriented Programming
---------------------------
Here are the commands for formatting descriptions about abstract
objects, such as are used in object-oriented programming. A class is a
defined type of abstract object. An instance of a class is a
particular object that has the type of the class. An instance variable
is a variable that belongs to the class but for which each instance has
its own value.
In a definition, if the name of a class is truly a name defined in the
programming system for a class, then you should write an `@code' around
it. Otherwise, it is printed in the usual text font.
`@defcv CATEGORY CLASS NAME'
The `@defcv' command is the general definition command for
variables associated with classes in object-oriented programming.
The `@defcv' command is followed by three arguments: the category
of thing being defined, the class to which it belongs, and its
name. Thus,
@defcv {Class Option} Window border-pattern
...
@end defcv
illustrates how you would write the first line of a definition of
the `border-pattern' class option of the class `Window'.
The template is
@defcv CATEGORY CLASS NAME
...
@end defcv
`@defcv' creates an entry in the index of variables.
`@defivar CLASS NAME'
The `@defivar' command is the definition command for instance
variables in object-oriented programming. `@defivar' is
equivalent to `@defcv {Instance Variable} ...'
The template is:
@defivar CLASS INSTANCE-VARIABLE-NAME
BODY-OF-DEFINITION
@end defivar
`@defivar' creates an entry in the index of variables.
`@defop CATEGORY CLASS NAME ARGUMENTS...'
The `@defop' command is the general definition command for
entities that may resemble methods in object-oriented programming.
These entities take arguments, as functions do, but are associated
with particular classes of objects.
For example, some systems have constructs called "wrappers" that
are associated with classes as methods are, but that act more like
macros than like functions. You could use `@defop Wrapper' to
describe one of these.
Sometimes it is useful to distinguish methods and "operations".
You can think of an operation as the specification for a method.
Thus, a window system might specify that all window classes have a
method named `expose'; we would say that this window system
defines an `expose' operation on windows in general. Typically,
the operation has a name and also specifies the pattern of
arguments; all methods that implement the operation must accept
the same arguments, since applications that use the operation do
so without knowing which method will implement it.
Often it makes more sense to document operations than methods. For
example, window application developers need to know about the
`expose' operation, but need not be concerned with whether a given
class of windows has its own method to implement this operation.
To describe this operation, you would write:
@defop Operation windows expose
The `@defop' command is written at the beginning of a line and is
followed on the same line by the overall name of the category of
operation, the name of the class of the operation, the name of the
operation, and its arguments, if any.
The template is:
@defop CATEGORY CLASS NAME ARGUMENTS...
BODY-OF-DEFINITION
@end defop
`@defop' creates an entry, such as ``expose' on `windows'', in the
index of functions.
`@defmethod CLASS NAME ARGUMENTS...'
The `@defmethod' command is the definition command for methods in
object-oriented programming. A method is a kind of function that
implements an operation for a particular class of objects and its
subclasses. In the Lisp Machine, methods actually were functions,
but they were usually defined with `defmethod'.
`@defmethod' is equivalent to `@defop Method ...'. The command is
written at the beginning of a line and is followed by the name of
the class of the method, the name of the method, and its
arguments, if any.
For example,
@defmethod `bar-class' bar-method argument
...
@end defmethod
illustrates the definition for a method called `bar-method' of the
class `bar-class'. The method takes an argument.
The template is:
@defmethod CLASS METHOD-NAME ARGUMENTS...
BODY-OF-DEFINITION
@end defmethod
`@defmethod' creates an entry, such as ``bar-method' on
`bar-class'', in the index of functions.
File: texinfo.info, Node: Data Types, Prev: Abstract Objects, Up: Def Cmds in Detail
Data Types
----------
Here is the command for data types:
`@deftp CATEGORY NAME ATTRIBUTES...'
The `@deftp' command is the generic definition command for data
types. The command is written at the beginning of a line and is
followed on the same line by the category, by the name of the type
(which is a word like `int' or `float'), and then by names of
attributes of objects of that type. Thus, you could use this
command for describing `int' or `float', in which case you could
use `data type' as the category. (A data type is a category of
certain objects for purposes of deciding which operations can be
performed on them.)
In Lisp, for example, "pair" names a particular data type, and an
object of that type has two slots called the CAR and the CDR.
Here is how you would write the first line of a definition of
`pair'.
@deftp {Data type} pair car cdr
...
@end deftp
The template is:
@deftp CATEGORY NAME-OF-TYPE ATTRIBUTES...
BODY-OF-DEFINITION
@end deftp
`@deftp' creates an entry in the index of data types.
File: texinfo.info, Node: Def Cmd Conventions, Next: Sample Function Definition, Prev: Def Cmds in Detail, Up: Definition Commands
Conventions for Writing Definitions
===================================
When you write a definition using `@deffn', `@defun', or one of the
other definition commands, please take care to use arguments that
indicate the meaning, as with the COUNT argument to the `forward-word'
function. Also, if the name of an argument contains the name of a
type, such as INTEGER, take care that the argument actually is of that
type.
File: texinfo.info, Node: Sample Function Definition, Prev: Def Cmd Conventions, Up: Definition Commands
A Sample Function Definition
============================
A function definition uses the `@defun' and `@end defun' commands.
The name of the function follows immediately after the `@defun' command
and it is followed, on the same line, by the parameter list.
Here is a definition from `The GNU Emacs Lisp Reference Manual'.
(*Note Calling Functions: (elisp)Calling Functions.)
- Function: apply FUNCTION &rest ARGUMENTS
`apply' calls FUNCTION with ARGUMENTS, just like `funcall'
but with one difference: the last of ARGUMENTS is a list of
arguments to give to FUNCTION, rather than a single argument.
We also say that this list is "appended" to the other
arguments.
`apply' returns the result of calling FUNCTION. As with
`funcall', FUNCTION must either be a Lisp function or a
primitive function; special forms and macros do not make
sense in `apply'.
(setq f 'list)
=> list
(apply f 'x 'y 'z)
error--> Wrong type argument: listp, z
(apply '+ 1 2 '(3 4))
=> 10
(apply '+ '(1 2 3 4))
=> 10
(apply 'append '((a b c) nil (x y z) nil))
=> (a b c x y z)
An interesting example of using `apply' is found in the
description of `mapcar'.
In the Texinfo source file, this example looks like this:
@defun apply function &rest arguments
@code{apply} calls @var{function} with
@var{arguments}, just like @code{funcall} but with one
difference: the last of @var{arguments} is a list of
arguments to give to @var{function}, rather than a single
argument. We also say that this list is @dfn{appended}
to the other arguments.
@code{apply} returns the result of calling
@var{function}. As with @code{funcall},
@var{function} must either be a Lisp function or a
primitive function; special forms and macros do not make
sense in @code{apply}.
@example
(setq f 'list)
@result{} list
(apply f 'x 'y 'z)
@error{} Wrong type argument: listp, z
(apply '+ 1 2 '(3 4))
@result{} 10
(apply '+ '(1 2 3 4))
@result{} 10
(apply 'append '((a b c) nil (x y z) nil))
@result{} (a b c x y z)
@end example
An interesting example of using @code{apply} is found
in the description of @code{mapcar}.@refill
@end defun
In this manual, this function is listed in the Command and Variable
Index under `apply'.
Ordinary variables and user options are described using a format like
that for functions except that variables do not take arguments.
File: texinfo.info, Node: Footnotes, Next: Conditionals, Prev: Definition Commands, Up: Top
Footnotes
*********
A "footnote" is for a reference that documents or elucidates the
primary text.(1) (*note Footnotes-Footnotes::)
* Menu:
* Footnote Commands:: How to write a footnote in Texinfo.
* Footnote Styles:: Controlling how footnotes appear in Info.
File: texinfo.info, Node: Footnotes-Footnotes, Up: Footnotes
(1) A footnote should complement or expand upon the primary text,
but a reader should not need to read a footnote to understand the
primary text. For a thorough discussion of footnotes, see `The Chicago
Manual of Style', which is published by the University of Chicago Press.
File: texinfo.info, Node: Footnote Commands, Next: Footnote Styles, Up: Footnotes
Footnote Commands
=================
In Texinfo, footnotes are created with the `@footnote' command. This
command is followed immediately by a left brace, then by the text of
the footnote, and then by a terminating right brace. The template is:
@footnote{TEXT}
Footnotes may be of any length, but are usually short.
For example, this clause is followed by a sample footnote(1) (*note
Footnote Commands-Footnotes::); in the Texinfo source, it looks like
this:
...a sample footnote @footnote{Here is the sample
footnote.}; in the Texinfo source...
*Warning:* Don't use footnotes in the argument of the `@item' command
for a `@table' table. This doesn't work; because of limitations of
TeX, there is no way to fix it. To avoid the problem, move the
footnote into the body text of the table.
In a printed manual or book, the reference mark for a footnote is a
small, superscripted number; the text of the footnote appears at the
bottom of the page, below a horizontal line.
In Info, the reference mark for a footnote is a pair of parentheses
with the footnote number between them, like this: `(1)'.
File: texinfo.info, Node: Footnote Commands-Footnotes, Up: Footnote Commands
(1) Here is the sample footnote.
File: texinfo.info, Node: Footnote Styles, Prev: Footnote Commands, Up: Footnotes
Footnote Styles
===============
Info has two footnote styles, which determine where the text of the
footnote is located:
* In the `End' node style, all the footnotes for a single node are
placed at the end of that node. The footnotes are separated from
the rest of the node by a line of dashes with the word `Footnotes'
within it. Each footnote begins with an `(N)' reference mark.
Here is an example of a single footnote in the end of node style:
--------- Footnotes ---------
(1) Here is a sample footnote.
* In the `Separate' node style, all the footnotes for a single node
are placed in an automatically constructed node of their own. In
this style, a "footnote reference" follows each `(N)' reference
mark in the body of the node. The footnote reference is actually
a cross reference which you use to reach the footnote node.
The name of the node containing the footnotes is constructed by
appending `-Footnotes' to the name of the node that contains the
footnotes. (Consequently, the footnotes' node for the `Footnotes'
node is `Footnotes-Footnotes'!) The footnotes' node has an `Up'
node pointer that leads back to its parent node.
Here is how the first footnote in this manual looks after being
formatted for Info in the separate node style:
File: texinfo.info Node: Overview-Footnotes, Up: Overview
(1) Note that the first syllable of "Texinfo" is
pronounced like "speck", not "hex". ...
A Texinfo file may be formatted into an Info file with either footnote
style.
Use the `@footnotestyle' command to specify an Info file's footnote
style. Write this command at the beginning of a line followed by an
argument, either `end' for the end node style or `separate' for the
separate node style.
For example,
@footnotestyle end
@footnotestyle separate
Write an `@footnotestyle' command before or shortly after the
end-of-header line at the beginning of a Texinfo file. (If you include
the `@footnotestyle' command between the start-of-header and
end-of-header lines, the region formatting commands will format
footnotes as specified.)
If you do not specify a footnote style, the formatting commands use
their default style. Currently, `texinfo-format-buffer' and
`texinfo-format-region' use the `separate' style and `makeinfo' uses
the `end' style.
This chapter contains two footnotes.
File: texinfo.info, Node: Conditionals, Next: Format/Print Hardcopy, Prev: Footnotes, Up: Top
Conditionally Visible Text
**************************
Sometimes it is good to use different text for a printed manual and
its corresponding Info file. In this case, you can use the
"conditional commands" to specify which text is for the printed manual
and which is for the Info file.
* Menu:
* Conditional Commands:: How to specify text for Info or TeX.
* Using Ordinary TeX Commands:: You can use any and all TeX commands.
* set clear value:: How to designate which text to format (for
both Info and TeX); and how to set a
flag to a string that you can insert.
File: texinfo.info, Node: Conditional Commands, Next: Using Ordinary TeX Commands, Prev: Conditionals, Up: Conditionals
Using `@ifinfo' and `@iftex'
============================
`@ifinfo' begins segments of text that should be ignored by TeX when
it typesets the printed manual. The segment of text appears only in
the Info file. The `@ifinfo' command should appear on a line by
itself; end the Info-only text with a line containing `@end ifinfo' by
itself. At the beginning of a Texinfo file, the Info permissions are
contained within a region marked by `@ifinfo' and `@end ifinfo'. (*Note
Info Summary and Permissions::.)
The `@iftex' and `@end iftex' commands are similar to the `@ifinfo'
and `@end ifinfo' commands, except that they specify text that will
appear in the printed manual but not in the Info file.
For example,
@iftex
This text will appear only in the printed manual.
@end iftex
@ifinfo
However, this text will appear only in Info.
@end ifinfo
The preceding example produces the following line:
However, this text will appear only in Info.
Note how you only see one of the two lines, depending on whether you
are reading the Info version or the printed version of this manual.
The `@titlepage' command is a special variant of `@iftex' that is
used for making the title and copyright pages of the printed manual.
(*Note `@titlepage': titlepage.)
File: texinfo.info, Node: Using Ordinary TeX Commands, Next: set clear value, Prev: Conditional Commands, Up: Conditionals
Using Ordinary TeX Commands
===========================
Inside a region delineated by `@iftex' and `@end iftex', you can
embed some PlainTeX commands. Info will ignore these commands since
they are only in that part of the file which is seen by TeX. You can
write the TeX commands as you would write them in a normal TeX file,
except that you must replace the `\' used by TeX with an `@'. For
example, in the `@titlepage' section of a Texinfo file, you can use the
TeX command `@vskip' to format the copyright page. (The `@titlepage'
command causes Info to ignore the region automatically, as it does with
the `@iftex' command.)
However, many features of PlainTeX will not work, as they are
overridden by features of Texinfo.
You can enter PlainTeX completely, and use `\' in the TeX commands,
by delineating a region with the `@tex' and `@end tex' commands. (The
`@tex' command also causes Info to ignore the region, like the `@iftex'
command.)
For example, here is a mathematical expression written in PlainTeX:
@tex
$$ \chi^2 = \sum_{i=1}^N
\left (y_i - (a + b x_i)
\over \sigma_i\right)^2 $$
@end tex
The output of this example will appear only in a printed manual. If
you are reading this in Info, you will not see anything after this
paragraph.
File: texinfo.info, Node: set clear value, Prev: Using Ordinary TeX Commands, Up: Conditionals
`@set', `@clear', and `@value'
==============================
You can direct the Texinfo formatting commands to format or ignore
parts of a Texinfo file with the `@set', `@clear', `@ifset', and
`@ifclear' commands.
In addition, you can use the `@set FLAG' command to set the value of
FLAG to a string of characters; and use `@value{FLAG}' to insert that
string. You can use `@set', for example, to set a date and use
`@value' to insert the date in several places in the Texinfo file.
* Menu:
* ifset ifclear:: Format a region if a flag is set.
* value:: Replace a flag with a string.
* value Example:: An easy way to update edition information.
File: texinfo.info, Node: ifset ifclear, Next: value, Prev: set clear value, Up: set clear value
`@ifset' and `@ifclear'
-----------------------
When a FLAG is set, the Texinfo formatting commands format text
between subsequent pairs of `@ifset FLAG' and `@end ifset' commands.
When the FLAG is cleared, the Texinfo formatting commands do *not*
format the text.
Use the `@set FLAG' command to turn on, or "set", a FLAG; a "flag"
can be any single word. The format for the command looks like this:
@set FLAG
Write the conditionally formatted text between `@ifset FLAG' and
`@end ifset' commands, like this:
@ifset FLAG
CONDITIONAL-TEXT
@end ifset
For example, you can create one document that has two variants, such
as a manual for a `large' and `small' model:
You can use this machine to dig up shrubs
without hurting them.
@set large
@ifset large
It can also dig up fully grown trees.
@end ifset
Remember to replant promptly ...
In the example, the formatting commands will format the text between
`@ifset large' and `@end ifset' because the `large' flag is set.
Use the `@clear FLAG' command to turn off, or "clear", a flag.
Clearing a flag is the opposite of setting a flag. The command looks
like this:
@clear FLAG
Write the command on a line of its own.
When FLAG is cleared, the Texinfo formatting commands do *not* format
the text between `@ifset FLAG' and `@end ifset'; that text is ignored
and does not appear in either printed or Info output.
For example, if you clear the flag of the preceding example by writing
an `@clear large' command after the `@set large' command (but before
the conditional text), then the Texinfo formatting commands ignore the
text between the `@ifset large' and `@end ifset' commands. In the
formatted output, that text does not appear; in both printed and Info
output, you see only the lines that say, "You can use this machine to
dig up shrubs without hurting them. Remember to replant promptly ...".
If a flag is cleared with an `@clear FLAG' command, then the
formatting commands format text between subsequent pairs of `@ifclear'
and `@end ifclear' commands. But if the flag is set with `@set FLAG',
then the formatting commands do *not* format text between an `@ifclear'
and an `@end ifclear' command; rather, they ignore that text. An
`@ifclear' command looks like this:
@ifclear FLAG
In brief, the commands are:
`@set FLAG'
Tell the Texinfo formatting commands that FLAG is set.
`@clear FLAG'
Tell the Texinfo formatting commands that FLAG is cleared.
`@ifset FLAG'
If FLAG is set, tell the Texinfo formatting commands to format the
text up to the following `@end ifset' command.
If FLAG is cleared, tell the Texinfo formatting commands to ignore
text up to the following `@end ifset' command.
`@ifclear FLAG'
If FLAG is set, tell the Texinfo formatting commands to ignore the
text up to the following `@end ifclear' command.
If FLAG is cleared, tell the Texinfo formatting commands to format
the text up to the following `@end ifclear' command.
File: texinfo.info, Node: value, Next: value Example, Prev: ifset ifclear, Up: set clear value
`@value'
--------
You can use the `@set' command to specify a value for a flag, which
is expanded by the `@value' command. The value is a string a
characters.
Write the `@set' command like this:
@set foo This is a string.
This sets the value of `foo' to "This is a string."
The Texinfo formatters replace an `@value{FLAG}' command with the
string to which FLAG is set.
Thus, when `foo' is set as shown above, the Texinfo formatters convert
@value{foo}
This is a string.
You can write an `@value' command within a paragraph; but you must
write an `@set' command on a line of its own.
If you write the `@set' command like this:
@set foo
without specifying a string, the value of `foo' is an empty string.
If you clear a previously set flag with an `@clear FLAG' command, a
subsequent `@value{flag}' command is invalid and the string is replaced
with an error message that says `{No value for "FLAG"}'.
For example, if you set `foo' as follows:
@set how-much very, very, very
then the formatters transform
It is a @value{how-much} wet day.
It is a very, very, very wet day.
If you write
@clear how-much
then the formatters transform
It is a @value{how-much} wet day.
It is a {No value for "how-much"} wet day.
File: texinfo.info, Node: value Example, Prev: value, Up: set clear value
`@value' Example
----------------
You can use the `@value' command to limit the number of places you
need to change when you record an update to a manual. Here is how it
is done in `The GNU Make Manual':
Set the flags:
@set EDITION 0.35 Beta
@set VERSION 3.63 Beta
@set UPDATED 14 August 1992
@set UPDATE-MONTH August 1992
Write text for the first `@ifinfo' section, for people reading the
Texinfo file:
This is Edition @value{EDITION},
last updated @value{UPDATED},
of @cite{The GNU Make Manual},
for @code{make}, Version @value{VERSION}.
Write text for the title page, for people reading the printed manual:
@title GNU Make
@subtitle A Program for Directing Recompilation
@subtitle Edition @value{EDITION}, ...
@subtitle @value{UPDATE-MONTH}
(On a printed cover, a date listing the month and the year looks less
fussy than a date listing the day as well as the month and year.)
Write text for the Top node, for people reading the Info file:
This is Edition @value{EDITION}
of the @cite{GNU Make Manual},
last updated @value{UPDATED}
for @code{make} Version @value{VERSION}.
After you format the manual, the text in the first `@ifinfo' section
looks like this:
This is Edition 0.35 Beta, last updated 14 August 1992,
of `The GNU Make Manual', for `make', Version 3.63 Beta.
When you update the manual, change only the values of the flags; you
do not need to rewrite the three sections.
File: texinfo.info, Node: Format/Print Hardcopy, Next: Create an Info File, Prev: Conditionals, Up: Top
Format and Print Hardcopy
*************************
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.
* Menu:
* Use TeX:: Use TeX to format for hardcopy.
* Format with tex/texindex:: How to format in a shell.
* Format with texi2dvi:: A simpler way to use the shell.
* Print with lpr:: How to print.
* Within Emacs:: How to format and print from an Emacs shell.
* Texinfo Mode Printing:: How to format and print in Texinfo mode.
* Compile-Command:: How to print using Emacs's compile command.
* Requirements Summary:: TeX formatting requirements summary.
* Preparing for TeX:: What you need to do to use TeX.
* Overfull hboxes:: What are and what to do with overfull hboxes.
* smallbook:: How to print small format books and manuals.
* A4 Paper:: How to print on European A4 paper.
* Cropmarks and Magnification:: How to print marks to indicate the size
of pages and how to print scaled up output.
File: texinfo.info, Node: Use TeX, Next: Format with tex/texindex, Prev: Format/Print Hardcopy, Up: Format/Print Hardcopy
Use TeX
=======
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. *Note How to Obtain TeX: Obtaining
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 *Note Create an
Info File::.
File: texinfo.info, Node: Format with tex/texindex, Next: Format with texi2dvi, Prev: Use TeX, Up: Format/Print Hardcopy
Format using `tex' and `texindex'
=================================
Format the Texinfo file with the shell command `tex' followed by the
name of the Texinfo file. This command produces a formatted DVI file
as well as several auxiliary files containing indices, cross
references, etc. The DVI file (for "DeVice Independent" file) can be
printed on a wide variety of printers.
The `tex' formatting command itself does not sort the indices; it
writes an output file of unsorted index data. This is a misfeature of
TeX. (The `texi2dvi' command automatically generates indices; see
*Note Format using `texi2dvi': Format with 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 GNU distribution and is
usually installed when Emacs is installed.)
The `tex' formatting command outputs unsorted index files under names
that obey a standard convention. These names are the name of your main
input file to the `tex' formatting command, with everything after the
first period thrown away, and the two letter names of indices added at
the end. 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'.
Or else, you can use `??' as "wild-cards" 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.
`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 a formatted
DVI file with up-to-date index entries.(1) (*note Format with
tex/texindex-Footnotes::)
To summarize, this is a three step process:
1. Run the `tex' formatting command on the Texinfo file. This
generates the formatted DVI file as well as the raw index files
with two letter extensions.
2. Run the shell command `texindex' on the raw index files to sort
them. This creates the corresponding sorted index files.
3. Rerun the `tex' formatting command on the Texinfo file. This
regenerates a formatted DVI file with the index entries in the
correct order. This second run also corrects the page numbers for
the cross references. (The tables of contents are always correct.)
You need not run `texindex' each time after you run the `tex'
formatting. 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.
File: texinfo.info, Node: Format with tex/texindex-Footnotes, Up: Format with tex/texindex
(1) If you use more than one index and have cross references to an
index other than the first, you must run `tex' *three times* to get
correct output: once to generate raw index data; again (after
`texindex') to output the text of the indices and determine their true
page numbers; and a third time to output correct page numbers in cross
references to them. However, cross references to indices are rare.
File: texinfo.info, Node: Format with texi2dvi, Next: Print with lpr, Prev: Format with tex/texindex, Up: Format/Print Hardcopy
Format using `texi2dvi'
=======================
The `texi2dvi' command is a shell script that automatically runs both
`tex' and `texindex' as needed 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 `%' is the shell
prompt):
% texi2dvi FILENAME...
File: texinfo.info, Node: Print with lpr, Next: Within Emacs, Prev: Format with texi2dvi, Up: Format/Print Hardcopy
Shell Print Using `lpr -d'
==========================
You can print a DVI file with the DVI print command. The precise
printing command to use depends on your system; `lpr -d' is common.
The DVI print command may require a file name without any extension or
with a `.dvi' extension.
The following commands, for example, sort the indices, format, and
print the `Bison Manual' (where `%' is the shell prompt):
% 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
File: texinfo.info, Node: Within Emacs, Next: Texinfo Mode Printing, Prev: Print with lpr, Up: Format/Print Hardcopy
From an Emacs Shell ...
=======================
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. *Note Format and Print
Hardcopy: Format/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 (where `%' is the shell prompt):
% texi2dvi gcc.texinfo
% lpr -d gcc.dvi
*Note Texinfo Mode Printing::, for more information about formatting
and printing in Texinfo mode.
File: texinfo.info, Node: Texinfo Mode Printing, Next: Compile-Command, Prev: Within Emacs, Up: Format/Print Hardcopy
Formatting and Printing in Texinfo Mode
=======================================
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.
`C-c C-t C-b'
`M-x texinfo-tex-buffer'
Run `texi2dvi' on the current buffer.
`C-c C-t C-r'
`M-x texinfo-tex-region'
Run TeX on the current region.
`C-c C-t C-i'
`M-x texinfo-texindex'
Sort the indices of a Texinfo file formatted with
`texinfo-tex-region'.
`C-c C-t C-p'
`M-x texinfo-tex-print'
Print a DVI file that was made with `texinfo-tex-region' or
`texinfo-tex-buffer'.
`C-c C-t C-q'
`M-x tex-show-print-queue'
Show the print queue.
`C-c C-t C-d'
`M-x texinfo-delete-from-print-queue'
Delete a job from the print queue; you will be prompted for the job
number shown by a preceding `C-c C-t C-q' command
(`texinfo-show-tex-print-queue').
`C-c C-t C-k'
`M-x tex-kill-job'
Kill the currently running TeX job started by `texinfo-tex-region'
or `texinfo-tex-buffer', or any other process running in the
Texinfo shell buffer.
`C-c C-t C-x'
`M-x texinfo-quit-job'
Quit a TeX formatting job that has stopped because of an error by
sending an x to it. When you do this, TeX preserves a record of
what it did in a `.log' file.
`C-c C-t C-l'
`M-x tex-recenter-output-buffer'
Redisplay the shell buffer in which the TeX printing and formatting
commands are run to show its most recent output.
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 (*note Editing Variable Values: (emacs)Edit
Options.), with the `M-x set-variable' command (*note Examining and
Setting Variables: (emacs)Examining.), or with your `.emacs'
initialization file (*note Init File: (emacs)Init File.).
File: texinfo.info, Node: Compile-Command, Next: Requirements Summary, Prev: Texinfo Mode Printing, Up: Format/Print Hardcopy
Using the Local Variables List
==============================
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:
@c Local Variables:
@c compile-command: "texi2dvi gdb.texinfo"
@c End:
This technique is most often used by programmers who also compile
programs this way; see *Note Compilation: (emacs)Compilation.
File: texinfo.info, Node: Requirements Summary, Next: Preparing for TeX, Prev: Compile-Command, Up: Format/Print Hardcopy
TeX Formatting Requirements Summary
===================================
Every Texinfo file that is to be input to TeX must begin with a
`\input' command and contain an `@settitle' command:
\input texinfo
@settitle NAME-OF-MANUAL
The first command instructs TeX to load the macros it needs to process
a Texinfo file and the second command specifies the title of printed
manual.
Every Texinfo file must end with a line that terminates TeX
processing and forces out unfinished pages:
@bye
Strictly speaking, these three lines are all a Texinfo file needs for
TeX, besides the body. (The `@setfilename' line is the only line that
a Texinfo file needs for Info formatting.)
Usually, the file's first line contains an `@c -*-texinfo-*-' comment
that causes Emacs to switch to Texinfo mode when you edit the file. In
addition, the beginning usually includes an `@setfilename' for Info
formatting, 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.
For more information, see
*Note `@setchapternewpage': setchapternewpage,
*Note Page Headings: Headings,
*Note Titlepage & Copyright Page::,
*Note Printing Indices & Menus::, and
*Note Contents::.
File: texinfo.info, Node: Preparing for TeX, Next: Overfull hboxes, Prev: Requirements Summary, Up: Format/Print Hardcopy
Preparing to Use TeX
====================
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. (`texinfo.tex' is included in the standard GNU
distributions.)
Usually, the `texinfo.tex' file is put in the default directory that
contains TeX macros (the `/usr/lib/tex/macros' directory) 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 directory in which the Texinfo source
file is located, and TeX will find it there.
However, you may want to specify the location of the `\input' file
yourself. One way to do this is to write the complete path for the file
after the `\input' command. Another way is to set the `TEXINPUTS'
environment variable in your `.cshrc' or `.profile' file. The
`TEXINPUTS' environment variable will tell TeX where to find the
`texinfo.tex' file and any other file that you might want TeX to use.
Whether you use a `.cshrc' or `.profile' file depends on whether you
use `csh', `sh', or `bash' for your shell command interpreter. When
you use `csh', it looks to the `.cshrc' file for initialization
information, and when you use `sh' or `bash', it looks to the
`.profile' file.
In a `.cshrc' file, you could use the following `csh' command
sequence:
setenv TEXINPUTS .:/usr/me/mylib:/usr/lib/tex/macros
In a `.profile' file, you could use the following `sh' command
sequence:
TEXINPUTS=.:/usr/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 the system library.
File: texinfo.info, Node: Overfull hboxes, Next: smallbook, Prev: Preparing for TeX, Up: Format/Print Hardcopy
Overfull "hboxes"
=================
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. *Note Catching Errors with TeX
Formatting: Debugging with TeX, 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 overful 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
File: texinfo.info, Node: smallbook, Next: A4 Paper, Prev: Overfull hboxes, Up: Format/Print Hardcopy
Printing "Small" Books
======================
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
(*note Start of Header::.).
The Free Software Foundation distributes printed copies of `The GNU
Emacs Manual' and other manuals in the "small" book size. *Note
`@smallexample' and `@smalllisp': smallexample & smalllisp, for
information about commands that make it easier to produce examples for
a smaller manual.
File: texinfo.info, Node: A4 Paper, Next: Cropmarks and Magnification, Prev: smallbook, Up: Format/Print Hardcopy
Printing on A4 Paper
====================
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
File: texinfo.info, Node: Cropmarks and Magnification, Prev: A4 Paper, Up: Format/Print Hardcopy
Cropmarks and Magnification
===========================
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 PlainTeX
command that is prefixed with a backslash. You have to write this
command between `@tex' and `@end tex' (*note Using Ordinary TeX
Commands: Using Ordinary TeX 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.
File: texinfo.info, Node: Create an Info File, Next: Install an Info File, Prev: Format/Print Hardcopy, Up: Top
Creating an Info File
*********************
`makeinfo' is a utility that converts a Texinfo file into an Info
file; `texinfo-format-region' and `texinfo-format-buffer' are GNU Emacs
functions that do the same.
A Texinfo file must possess an `@setfilename' line near its
beginning, otherwise the Info formatting commands will fail.
For information on installing the Info file in the Info system, see
*Note Install an Info File::.
* Menu:
* makeinfo advantages:: `makeinfo' provides better error checking.
* Invoking makeinfo:: How to run `makeinfo' from a shell.
* makeinfo options:: Specify fill-column and other options.
* Pointer Validation:: How to check that pointers point somewhere.
* makeinfo in Emacs:: How to run `makeinfo' from Emacs.
* texinfo-format commands:: Two Info formatting commands written
in Emacs Lisp are an alternative
to `makeinfo'.
* Batch Formatting:: How to format for Info in Emacs Batch mode.
* Tag and Split Files:: How tagged and split files help Info
to run better.
File: texinfo.info, Node: makeinfo advantages, Next: Invoking makeinfo, Prev: Create an Info File, Up: Create an Info File
`makeinfo' Preferred
====================
The `makeinfo' utility creates an Info file from a Texinfo source
file more quickly than either of the Emacs formatting commands and
provides better error messages. We recommend it. `makeinfo' is a C
program that is independent of Emacs. You do not need to run Emacs to
use `makeinfo', which means you can use `makeinfo' on machines that are
too small to run Emacs. You can run `makeinfo' in any one of three
ways: from an operating system shell, from a shell inside Emacs, or by
typing a key command in Texinfo mode in Emacs.
The `texinfo-format-region' and the `texinfo-format-buffer' commands
are useful if you cannot run `makeinfo'. Also, in some circumstances,
they format short regions or buffers more quickly than `makeinfo'.
File: texinfo.info, Node: Invoking makeinfo, Next: makeinfo options, Prev: makeinfo advantages, Up: Create an Info File
Running `makeinfo' from a Shell
===============================
To create an Info file from a Texinfo file, type `makeinfo' followed
by the name of the Texinfo file. Thus, to create the Info file for
Bison, type the following at the shell prompt (where `%' is the prompt):
% makeinfo bison.texinfo
(You can run a shell inside Emacs by typing `M-x shell'.)
Sometimes you will want to specify options. For example, if you wish
to discover which version of `makeinfo' you are using, type:
% makeinfo --version
*Note makeinfo options::, for more information.
(.txt)
(.txt)