\input texinfo.tex @c -*-texinfo-*- @c $Id: texinfo.txi,v 1.6 2006/07/17 16:12:36 espie Exp $ @c Ordinarily, Texinfo files have the extension .texi. But texinfo.texi @c clashes with texinfo.tex on 8.3 filesystems, so we use texinfo.txi. @c Everything between the start/end of header lines will be passed by @c Emacs's {texinfo,makeinfo}-format region commands. See the `start of @c header' node for more info. @c %**start of header @c makeinfo and texinfo.tex ignore all text before @setfilename. @c @c Ordinarily, the setfilename argument ends with .info. But @c texinfo.info-13 is too long for 14-character filesystems. @setfilename texinfo @c Automake automatically updates version.texi to @set VERSION and @c @set UPDATED to appropriate values. @include version.texi @settitle GNU Texinfo @value{VERSION} @c Define a new index for options. @defcodeindex op @c Put everything except function (command, in this case) names in one @c index (arbitrarily chosen to be the concept index). @syncodeindex op cp @syncodeindex vr cp @syncodeindex pg cp @paragraphindent 2 @c finalout @comment %**end of header @copying This manual is for GNU Texinfo (version @value{VERSION}, @value{UPDATED}), a documentation system that can produce both online information and a printed manual from a single source. Copyright (C) 1988, 1990, 1991, 1992, 1993, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004 Free Software Foundation, Inc. @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being ``A GNU Manual,'' and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled ``GNU Free Documentation License.'' (a) The FSF's Back-Cover Text is: ``You have freedom to copy and modify this GNU Manual, like GNU software. Copies published by the Free Software Foundation raise funds for GNU development.'' @end quotation @end copying @dircategory Texinfo documentation system @direntry * Texinfo: (texinfo). The GNU documentation format. * install-info: (texinfo)Invoking install-info. Update info/dir entries. * texi2dvi: (texinfo)Format with texi2dvi. Print Texinfo documents. * texi2pdf: (texinfo)PDF Output. PDF output for Texinfo. * texindex: (texinfo)Format with tex/texindex. Sort Texinfo index files. * makeinfo: (texinfo)Invoking makeinfo. Translate Texinfo source. @end direntry @c Before release, run C-u C-c C-u C-a (texinfo-all-menus-update with a @c prefix arg). This updates the node pointers, which texinfmt.el needs. @c Set smallbook if printing in smallbook format so the example of the @c smallbook font is actually written using smallbook; in bigbook, a kludge @c is used for TeX output. Do this through the -t option to texi2dvi, @c so this same source can be used for other paper sizes as well. @c smallbook @c set smallbook @c @@clear smallbook @c If you like blank pages, add through texi2dvi -t. @c setchapternewpage odd @c Currently undocumented command, 5 December 1993: @c nwnode (Same as node, but no warnings; for `makeinfo'.) @shorttitlepage GNU Texinfo @titlepage @title Texinfo @subtitle The GNU Documentation Format @subtitle for Texinfo version @value{VERSION}, @value{UPDATED} @author Robert J. Chassell @author Richard M. Stallman @c Include the Distribution inside the titlepage so @c that headings are turned off. @page @vskip 0pt plus 1filll @insertcopying @sp 1 Published by the Free Software Foundation @* 59 Temple Place Suite 330 @* Boston, MA 02111-1307 @* USA @* ISBN 1-882114-67-1 @c for version 4.0, September 1999. @c ISBN 1-882114-65-5 is for version 3.12, March 1998. @c ISBN 1-882114-64-7 is for edition 2.24 of November 1996. @c ISBN 1-882114-63-9 is for edition 2.20 of 28 February 1995. @sp 1 Cover art by Etienne Suvasa. @end titlepage @summarycontents @contents @ifnottex @node Top @top Texinfo @insertcopying The first part of this master menu lists the major nodes in this Info document, including the @@-command and concept indices. The rest of the menu lists all the lower level nodes in the document. @end ifnottex @menu * Copying Conditions:: Your rights. * Overview:: Texinfo in brief. * Texinfo Mode:: Using the GNU Emacs Texinfo mode. * Beginning a File:: What is at the beginning of a Texinfo file? * Ending a File:: What is at the end of a Texinfo file? * Structuring:: Creating chapters, sections, appendices, etc. * Nodes:: Writing nodes, the basic unit of Texinfo. * Menus:: Writing menus. * Cross References:: Writing cross references. * Marking Text:: Marking words and phrases as code, keyboard input, meta-syntactic variables, and the like. * Quotations and Examples:: Block quotations, examples, etc. * Lists and Tables:: Itemized or numbered lists, and tables. * Special Displays:: Floating figures and footnotes. * Indices:: Creating indices. * Insertions:: Inserting @@-signs, braces, etc. * Breaks:: Forcing or preventing line and page breaks. * Definition Commands:: Describing functions and the like uniformly. * Conditionals:: Specifying text for only some output cases. * Internationalization:: Supporting languages other than English. * Defining New Texinfo Commands:: User-defined macros and aliases. * Hardcopy:: Output for paper, with @TeX{}. * Creating and Installing Info Files:: Details on Info output. * Generating HTML:: Details on HTML output. * Command List:: All the Texinfo @@-commands. * Tips:: Hints on how to write a Texinfo document. * Sample Texinfo Files:: Complete examples, including full texts. * Include Files:: How to incorporate other Texinfo files. * Headings:: How to write page headings and footings. * Catching Mistakes:: How to find formatting mistakes. * Copying This Manual:: The GNU Free Documentation License. * Command and Variable Index:: A menu containing commands and variables. * Concept Index:: A menu covering many topics. @detailmenu --- The Detailed Node Listing --- Overview of Texinfo * Reporting Bugs:: Submitting effective bug reports. * Using Texinfo:: Create printed or online output. * Output Formats:: Overview of the supported output formats. * Info Files:: What is an Info file? * Printed Books:: Characteristics of a printed book or manual. * Formatting Commands:: @@-commands are used for formatting. * Conventions:: General rules for writing a Texinfo file. * Comments:: Writing comments and ignored text in general. * Minimum:: What a Texinfo file must have. * Six Parts:: Usually, a Texinfo file has six parts. * Short Sample:: A short sample Texinfo file. * History:: Acknowledgements, contributors and genesis. Using Texinfo Mode * Texinfo Mode Overview:: How Texinfo mode can help you. * Emacs Editing:: Texinfo mode adds to GNU Emacs' general purpose editing features. * Inserting:: How to insert frequently used @@-commands. * Showing the Structure:: How to show the structure of a file. * Updating Nodes and Menus:: How to update or create new nodes and menus. * Info Formatting:: How to format for Info. * Printing:: How to format and print part or all of a file. * Texinfo Mode Summary:: Summary of all the Texinfo mode commands. Updating Nodes and Menus * Updating Commands:: Five major updating commands. * Updating Requirements:: How to structure a Texinfo file for using the updating command. * Other Updating Commands:: How to indent descriptions, insert missing nodes lines, and update nodes in sequence. Beginning a Texinfo File * Sample Beginning:: A sample beginning for a Texinfo file. * Texinfo File Header:: The first lines. * Document Permissions:: Ensuring your manual is free. * Titlepage & Copyright Page:: Creating the title and copyright pages. * Contents:: How to create a table of contents. * The Top Node:: Creating the `Top' node and master menu. * Global Document Commands:: Affecting formatting throughout. * Software Copying Permissions:: Ensure that you and others continue to have the right to use and share software. Texinfo File Header * First Line:: The first line of a Texinfo file. * Start of Header:: Formatting a region requires this. * setfilename:: Tell Info the name of the Info file. * settitle:: Create a title for the printed work. * End of Header:: Formatting a region requires this. Document Permissions * copying:: Declare the document's copying permissions. * insertcopying:: Where to insert the permissions. Title and Copyright Pages * titlepage:: Create a title for the printed document. * titlefont center sp:: The @code{@@titlefont}, @code{@@center}, and @code{@@sp} commands. * title subtitle author:: The @code{@@title}, @code{@@subtitle}, and @code{@@author} commands. * Copyright:: How to write the copyright notice and include copying permissions. * end titlepage:: Turn on page headings after the title and copyright pages. * headings on off:: An option for turning headings on and off and double or single sided printing. The `Top' Node and Master Menu * Top Node Example:: * Master Menu Parts:: Global Document Commands * documentdescription:: Document summary for the HTML output. * setchapternewpage:: Start chapters on right-hand pages. * paragraphindent:: Specify paragraph indentation. * firstparagraphindent:: Suppress indentation of the first paragraph. * exampleindent:: Specify environment indentation. Ending a Texinfo File * Printing Indices & Menus:: How to print an index in hardcopy and generate index menus in Info. * File End:: How to mark the end of a file. Chapter Structuring * Tree Structuring:: A manual is like an upside down tree @dots{} * Structuring Command Types:: How to divide a manual into parts. * makeinfo top:: The @code{@@top} command, part of the `Top' node. * chapter:: * unnumbered & appendix:: * majorheading & chapheading:: * section:: * unnumberedsec appendixsec heading:: * subsection:: * unnumberedsubsec appendixsubsec subheading:: * subsubsection:: Commands for the lowest level sections. * Raise/lower sections:: How to change commands' hierarchical level. Nodes * Two Paths:: Different commands to structure Info output and printed output. * Node Menu Illustration:: A diagram, and sample nodes and menus. * node:: Creating nodes, in detail. * makeinfo Pointer Creation:: Letting makeinfo determine node pointers. * anchor:: Defining arbitrary cross-reference targets. The @code{@@node} Command * Node Names:: How to choose node and pointer names. * Writing a Node:: How to write an @code{@@node} line. * Node Line Tips:: Keep names short. * Node Line Requirements:: Keep names unique, without @@-commands. * First Node:: How to write a `Top' node. * makeinfo top command:: How to use the @code{@@top} command. Menus * Menu Location:: Menus go at the ends of short nodes. * Writing a Menu:: What is a menu? * Menu Parts:: A menu entry has three parts. * Less Cluttered Menu Entry:: Two part menu entry. * Menu Example:: Two and three part menu entries. * Other Info Files:: How to refer to a different Info file. Cross References * References:: What cross references are for. * Cross Reference Commands:: A summary of the different commands. * Cross Reference Parts:: A cross reference has several parts. * xref:: Begin a reference with `See' @dots{} * Top Node Naming:: How to refer to the beginning of another file. * ref:: A reference for the last part of a sentence. * pxref:: How to write a parenthetical cross reference. * inforef:: How to refer to an Info-only file. * uref:: How to refer to a uniform resource locator. @code{@@xref} * Reference Syntax:: What a reference looks like and requires. * One Argument:: @code{@@xref} with one argument. * Two Arguments:: @code{@@xref} with two arguments. * Three Arguments:: @code{@@xref} with three arguments. * Four and Five Arguments:: @code{@@xref} with four and five arguments. Marking Words and Phrases * Indicating:: How to indicate definitions, files, etc. * Emphasis:: How to emphasize text. Indicating Definitions, Commands, etc. * Useful Highlighting:: Highlighting provides useful information. * code:: Indicating program code. * kbd:: Showing keyboard input. * key:: Specifying keys. * samp:: A literal sequence of characters. * verb:: A verbatim sequence of characters. * var:: Indicating metasyntactic variables. * env:: Indicating environment variables. * file:: Indicating file names. * command:: Indicating command names. * option:: Indicating option names. * dfn:: Specifying definitions. * cite:: Referring to books not in the Info system. * abbr:: Indicating abbreviations. * acronym:: Indicating acronyms. * indicateurl:: Indicating a World Wide Web reference. * email:: Indicating an electronic mail address. Emphasizing Text * emph & strong:: How to emphasize text in Texinfo. * Smallcaps:: How to use the small caps font. * Fonts:: Various font commands for printed output. Quotations and Examples * Block Enclosing Commands:: Different constructs for different purposes. * quotation:: Writing a quotation. * example:: Writing an example in a fixed-width font. * verbatim:: Writing a verbatim example. * verbatiminclude:: Including a file verbatim. * lisp:: Illustrating Lisp code. * small:: Examples in a smaller font. * display:: Writing an example in the current font. * format:: Writing an example without narrowed margins. * exdent:: Undo indentation on a line. * flushleft & flushright:: Pushing text flush left or flush right. * noindent:: Preventing paragraph indentation. * indent:: Forcing paragraph indentation. * cartouche:: Drawing rounded rectangles around examples. Lists and Tables * Introducing Lists:: Texinfo formats lists for you. * itemize:: How to construct a simple list. * enumerate:: How to construct a numbered list. * Two-column Tables:: How to construct a two-column table. * Multi-column Tables:: How to construct generalized tables. Making a Two-column Table * table:: How to construct a two-column table. * ftable vtable:: Automatic indexing for two-column tables. * itemx:: How to put more entries in the first column. @code{@@multitable}: Multi-column Tables * Multitable Column Widths:: Defining multitable column widths. * Multitable Rows:: Defining multitable rows, with examples. Special Displays * Floats:: Figures, tables, and the like. * Images:: Including graphics and images. * Footnotes:: Writing footnotes. Floats * float:: Producing floating material. * caption shortcaption:: Specifying descriptions for floats. * listoffloats:: A table of contents for floats. Inserting Images * Image Syntax:: * Image Scaling:: Footnotes * Footnote Commands:: How to write a footnote in Texinfo. * Footnote Styles:: Controlling how footnotes appear in Info. Indices * Index Entries:: Choose different words for index entries. * Predefined Indices:: Use different indices for different kinds of entries. * Indexing Commands:: How to make an index entry. * Combining Indices:: How to combine indices. * New Indices:: How to define your own indices. Combining Indices * syncodeindex:: How to merge two indices, using @code{@@code} font for the merged-from index. * synindex:: How to merge two indices, using the default font of the merged-to index. Special Insertions * Atsign Braces Comma:: Inserting @@ and @{@} and ,. * Inserting Space:: How to insert the right amount of space within a sentence. * Inserting Accents:: How to insert accents and special characters. * Dots Bullets:: How to insert dots and bullets. * TeX and copyright:: How to insert the @TeX{} logo and the copyright symbol. * euro:: How to insert the Euro currency symbol. * pounds:: How to insert the pounds currency symbol. * minus:: How to insert a minus sign. * math:: How to format a mathematical expression. * Glyphs:: How to indicate results of evaluation, expansion of macros, errors, etc. Inserting @@ and @{@} and @comma{} * Inserting an Atsign:: * Inserting Braces:: * Inserting a Comma:: Inserting Space * Not Ending a Sentence:: Sometimes a . doesn't end a sentence. * Ending a Sentence:: Sometimes it does. * Multiple Spaces:: Inserting multiple spaces. * dmn:: How to format a dimension. Inserting Ellipsis and Bullets * dots:: How to insert dots @dots{} * bullet:: How to insert a bullet. Inserting @TeX{} and Legal Symbols: @copyright{}, @registeredsymbol{} * tex:: The @TeX{} logos. * copyright symbol:: The copyright symbol (c in a circle). * registered symbol:: The registered symbol (R in a circle). Glyphs for Examples * Glyphs Summary:: * result:: How to show the result of expression. * expansion:: How to indicate an expansion. * Print Glyph:: How to indicate printed output. * Error Glyph:: How to indicate an error message. * Equivalence:: How to indicate equivalence. * Point Glyph:: How to indicate the location of point. Glyphs Summary * result:: * expansion:: * Print Glyph:: * Error Glyph:: * Equivalence:: * Point Glyph:: Forcing and Preventing Breaks * Break Commands:: Summary of break-related commands. * Line Breaks:: Forcing line breaks. * - and hyphenation:: Helping @TeX{} with hyphenation points. * w:: Preventing unwanted line breaks in text. * tie:: Inserting an unbreakable but varying space. * sp:: Inserting blank lines. * page:: Forcing the start of a new page. * group:: Preventing unwanted page breaks. * need:: Another way to prevent unwanted page breaks. Definition Commands * Def Cmd Template:: Writing descriptions using definition commands. * Def Cmd Continuation Lines:: Continuing the heading over source lines. * Optional Arguments:: Handling optional and repeated arguments. * deffnx:: Group two or more `first' lines. * Def Cmds in Detail:: Reference for all the definition commands. * Def Cmd Conventions:: Conventions for writing definitions. * Sample Function Definition:: An example. The Definition Commands * Functions Commands:: Commands for functions and similar entities. * Variables Commands:: Commands for variables and similar entities. * Typed Functions:: Commands for functions in typed languages. * Typed Variables:: Commands for variables in typed languages. * Data Types:: The definition command for data types. * Abstract Objects:: Commands for object-oriented programming. Object-Oriented Programming * Variables: Object-Oriented Variables. * Methods: Object-Oriented Methods. Conditionally Visible Text * Conditional Commands:: Text for a given format. * Conditional Not Commands:: Text for any format other than a given one. * Raw Formatter Commands:: Using raw formatter commands. * set clear value:: Variable tests and substitutions. * Conditional Nesting:: Using conditionals inside conditionals. @code{@@set}, @code{@@clear}, and @code{@@value} * set value:: Expand a flag variable to a string. * ifset ifclear:: Format a region if a flag is set. * value Example:: An easy way to update edition information. Internationalization * documentlanguage:: Declaring the current language. * documentencoding:: Declaring the input encoding. Defining New Texinfo Commands * Defining Macros:: Defining and undefining new commands. * Invoking Macros:: Using a macro, once you've defined it. * Macro Details:: Limitations of Texinfo macros. * alias:: Command aliases. * definfoenclose:: Customized highlighting. Formatting and Printing Hardcopy * Use TeX:: Use @TeX{} to format for hardcopy. * Format with tex/texindex:: How to format with explicit shell commands. * Format with texi2dvi:: A simpler way to format. * 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 to do before you 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 A4 or A5 paper. * pagesizes:: How to print with customized page sizes. * Cropmarks and Magnification:: How to print marks to indicate the size of pages and how to print scaled up output. * PDF Output:: Portable Document Format output. * Obtaining TeX:: How to Obtain @TeX{}. Creating and Installing Info Files * Creating an Info File:: * Installing an Info File:: Creating an Info File * makeinfo advantages:: @code{makeinfo} provides better error checking. * Invoking makeinfo:: How to run @code{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 @code{makeinfo} from Emacs. * texinfo-format commands:: Two Info formatting commands written in Emacs Lisp are an alternative to @code{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. Installing an Info File * Directory File:: The top level menu for all Info files. * New Info File:: Listing a new Info file. * Other Info Directories:: How to specify Info files that are located in other directories. * Installing Dir Entries:: How to specify what menu entry to add to the Info directory. * Invoking install-info:: @code{install-info} options. Generating HTML * HTML Translation:: Details of the HTML output. * HTML Splitting:: How HTML output is split. * HTML CSS:: Influencing HTML output with Cascading Style Sheets. * HTML Xref:: Cross-references in HTML output. HTML Cross-references * Link Basics: HTML Xref Link Basics. * Node Expansion: HTML Xref Node Name Expansion. * Command Expansion: HTML Xref Command Expansion. * 8-bit Expansion: HTML Xref 8-bit Character Expansion. * Mismatch: HTML Xref Mismatch. @@-Command List * Command Syntax:: General syntax for varieties of @@-commands. Sample Texinfo Files * Short Sample Texinfo File:: * GNU Sample Texts:: * Verbatim Copying License:: * All-permissive Copying License:: Copying This Manual * GNU Free Documentation License:: License for copying this manual. Include Files * Using Include Files:: How to use the @code{@@include} command. * texinfo-multiple-files-update:: How to create and update nodes and menus when using included files. * Include Files Requirements:: @code{texinfo-multiple-files-update} needs. * Sample Include File:: A sample outer file with included files within it; and a sample included file. * Include Files Evolution:: How use of the @code{@@include} command has changed over time. Page Headings * Headings Introduced:: Conventions for using page headings. * Heading Format:: Standard page heading formats. * Heading Choice:: How to specify the type of page heading. * Custom Headings:: How to create your own headings and footings. Formatting Mistakes * makeinfo Preferred:: @code{makeinfo} finds errors. * Debugging with Info:: How to catch errors with Info formatting. * Debugging with TeX:: How to catch errors with @TeX{} formatting. * Using texinfo-show-structure:: How to use @code{texinfo-show-structure}. * Using occur:: How to list all lines containing a pattern. * Running Info-Validate:: How to find badly referenced nodes. Finding Badly Referenced Nodes * Using Info-validate:: How to run @code{Info-validate}. * Unsplit:: How to create an unsplit file. * Tagifying:: How to tagify a file. * Splitting:: How to split a file manually. Copying This Manual * GNU Free Documentation License:: License for copying this manual. @end detailmenu @end menu @c Reward readers for getting to the end of the menu :). @c Contributed by Arnold Robbins. @quotation Documentation is like sex: when it is good, it is very, very good; and when it is bad, it is better than nothing. ---Dick Brandon @end quotation @node Copying Conditions @unnumbered Texinfo Copying Conditions @cindex Copying conditions @cindex Conditions for copying Texinfo The programs currently being distributed that relate to Texinfo include @code{makeinfo}, @code{info}, @code{texindex}, and @file{texinfo.tex}. These programs are @dfn{free}; this means that everyone is free to use them and free to redistribute them on a free basis. The Texinfo-related programs are not in the public domain; they are copyrighted and there are restrictions on their distribution, but these restrictions are designed to permit everything that a good cooperating citizen would want to do. What is not allowed is to try to prevent others from further sharing any version of these programs that they might get from you. Specifically, we want to make sure that you have the right to give away copies of the programs that relate to Texinfo, that you receive source code or else can get it if you want it, that you can change these programs or use pieces of them in new free programs, and that you know you can do these things. To make sure that everyone has such rights, we have to forbid you to deprive anyone else of these rights. For example, if you distribute copies of the Texinfo related programs, you must give the recipients all the rights that you have. You must make sure that they, too, receive or can get the source code. And you must tell them their rights. Also, for our own protection, we must make certain that everyone finds out that there is no warranty for the programs that relate to Texinfo. If these programs are modified by someone else and passed on, we want their recipients to know that what they have is not what we distributed, so that any problems introduced by others will not reflect on our reputation. The precise conditions of the licenses for the programs currently being distributed that relate to Texinfo are found in the General Public Licenses that accompany them. This manual specifically is covered by the GNU Free Documentation License (@pxref{GNU Free Documentation License}). @node Overview @chapter Overview of Texinfo @cindex Overview of Texinfo @cindex Texinfo overview @dfn{Texinfo}@footnote{The first syllable of ``Texinfo'' is pronounced like ``speck'', not ``hex''. This odd pronunciation is derived from, but is not the same as, the pronunciation of @TeX{}. In the word @TeX{}, the @samp{X} is actually the Greek letter ``chi'' rather than the English letter ``ex''. Pronounce @TeX{} as if the @samp{X} were the last sound in the name `Bach'; but pronounce Texinfo as if the @samp{x} were a `k'. Spell ``Texinfo'' with a capital ``T'' and the other letters in lower case.} is a documentation system that uses a single source file to produce both online information and printed output. This means that instead of writing two different documents, one for the online information and the other for a printed work, you need write only one document. Therefore, when the work is revised, you need revise only that one document. @menu * Reporting Bugs:: Submitting effective bug reports. * Using Texinfo:: Create printed or online output. * Output Formats:: Overview of the supported output formats. * Info Files:: What is an Info file? * Printed Books:: Characteristics of a printed book or manual. * Formatting Commands:: @@-commands are used for formatting. * Conventions:: General rules for writing a Texinfo file. * Comments:: Writing comments and ignored text in general. * Minimum:: What a Texinfo file must have. * Six Parts:: Usually, a Texinfo file has six parts. * Short Sample:: A short sample Texinfo file. * History:: Acknowledgements, contributors and genesis. @end menu @node Reporting Bugs @section Reporting Bugs @cindex Bugs, reporting @cindex Suggestions for Texinfo, making @cindex Reporting bugs We welcome bug reports and suggestions for any aspect of the Texinfo system, programs, documentation, installation, anything. Please email them to @email{bug-texinfo@@gnu.org}. You can get the latest version of Texinfo from @uref{ftp://ftp.gnu.org/gnu/texinfo/} and its mirrors worldwide. @cindex Checklist for bug reports For bug reports, please include enough information for the maintainers to reproduce the problem. Generally speaking, that means: @itemize @bullet @item the version number of Texinfo and the program(s) or manual(s) involved. @item hardware and operating system names and versions. @item the contents of any input files necessary to reproduce the bug. @item a description of the problem and samples of any erroneous output. @item any unusual options you gave to @command{configure}. @item anything else that you think would be helpful. @end itemize When in doubt whether something is needed or not, include it. It's better to include too much than to leave out something important. @cindex Patches, contributing Patches are most welcome; if possible, please make them with @samp{@w{diff -c}} (@pxref{Top,, Overview, diff, Comparing and Merging Files}) and include @file{ChangeLog} entries (@pxref{Change Log,,, emacs, The GNU Emacs Manual}). When sending patches, if possible please do not encode or split them in any way; it's much easier to deal with one plain text message, however large, than many small ones. @uref{ftp://ftp.gnu.org/gnu/sharutils/, GNU shar} is a convenient way of packaging multiple and/or binary files for email. @node Using Texinfo @section Using Texinfo @cindex Using Texinfo in general @cindex Texinfo, introduction to @cindex Introduction to Texinfo Using Texinfo, you can create a printed document (via the @TeX{} typesetting system) the normal features of a book, including chapters, sections, cross references, and indices. From the same Texinfo source file, you can create an Info file with special features to make documentation browsing easy. You can also create from that same source file an HTML output file suitable for use with a web browser, or an XML file. See the next section (@pxref{Output Formats}) for details and the exact commands to generate output from the source. @TeX{} works with virtually all printers; Info works with virtually all computer terminals; the HTML output works with virtually all web browsers. Thus Texinfo can be used by almost any computer user. @cindex Source file format A Texinfo source file is a plain @sc{ascii} file containing text interspersed with @dfn{@@-commands} (words preceded by an @samp{@@}) that tell the typesetting and formatting programs what to do. You can edit a Texinfo file with any text editor, but it is especially convenient to use GNU Emacs since that editor has a special mode, called Texinfo mode, that provides various Texinfo-related features. (@xref{Texinfo Mode}.) You can use Texinfo to create both online help and printed manuals; moreover, Texinfo is freely redistributable. For these reasons, Texinfo is the official documentation format of the GNU project. More information is available at the @uref{http://www.gnu.org/doc/, GNU documentation web page}. @node Output Formats @section Output Formats @cindex Output formats @cindex Back-end output formats Here is a brief overview of the output formats currently supported by Texinfo. @table @asis @item Info @cindex Info output (Generated via @command{makeinfo}.) This format is essentially a plain text transliteration of the Texinfo source. It adds a few control characters to separate nodes and provide navigational information for menus, cross-references, indices, and so on. See the next section (@pxref{Info Files}) for more details on this format. The Emacs Info subsystem (@pxref{Top,,Getting Started,info, Info}), and the standalone @command{info} program (@pxref{Top ,, Info Standalone, info-stnd, GNU Info}), among others, can read these files. @xref{Creating and Installing Info Files}. @item Plain text @cindex Plain text output (Generated via @command{makeinfo --no-headers}.) This is almost the same as Info output, except the navigational control characters are omitted. Also, standard output is used by default. @item HTML @cindex HTML output @cindex W3 consortium @cindex Mozilla @cindex Lynx @cindex Emacs-W3 (Generated via @command{makeinfo --html}.) This is the Hyper Text Markup Language that has become the most commonly used language for writing documents on the World Wide Web. Web browsers, such as Mozilla, Lynx, and Emacs-W3, can render this language online. There are many versions of HTML; @command{makeinfo} tries to use a subset of the language that can be interpreted by any common browser. For details of the HTML language and much related information, see @uref{http://www.w3.org/MarkUp/}. @xref{Generating HTML}. @item DVI @cindex DVI output @pindex dvips @pindex xdvi (Generated via @command{texi2dvi}.) This DeVice Independent binary format is output by the @TeX{} typesetting program (@uref{http://tug.org}). This is then read by a DVI `driver', which writes the actual device-specific commands that can be viewed or printed, notably Dvips for translation to PostScript (@pxref{Invoking Dvips,,, dvips, Dvips}) and Xdvi for viewing on an X display (@uref{http://sourceforge.net/projects/xdvi/}). @xref{Hardcopy}. Be aware that the Texinfo language is very different from and much stricter than @TeX{}'s usual languages, plain @TeX{} and @LaTeX{}. For more information on @TeX{} in general, please see the book @cite{@TeX{} for the Impatient}, available from @uref{http://savannah.gnu.org/projects/teximpatient}. @item PDF @cindex PDF output @cindex Beebe, Nelson @pindex pdftex (Generated via @command{texi2dvi --pdf} or @command{texi2pdf}.) This was developed by Adobe Systems for portable document interchange, based on their previous PostScript language. It can represent the exact appearance of a document, including fonts, and supporting arbitrary scaling. It is intended to be platform-independent and easily viewable, among other design goals; for a discussion, see @uref{http://tug.org/TUGboat/Articles/tb22-3/tb72beebeI.pdf}. Texinfo uses the @command{pdftex} program, a variant of @TeX{}, to output PDF; see @uref{http://tug.org/applications/pdftex}. @xref{PDF Output}. @item XML @cindex XML output @cindex DTD, for Texinfo XML @pindex texinfo.dtd (Generated via @command{makeinfo --xml}.) XML is a generic syntax specification usable for any sort of content (see, for example, @uref{http://www.w3.org/XML/}). The @command{makeinfo} xml output, unlike all the formats above, interprets very little of the Texinfo source. Rather, it merely translates the Texinfo markup commands into XML syntax, for processing by further XML tools. The particular syntax output is defined in the file @file{texinfo.dtd} included in the Texinfo source distribution. @item Docbook @cindex Docbook output (Generated via @command{makeinfo --docbook}.) This is an XML-based format developed some years ago, primarily for technical documentation. It therefore bears some resemblance, in broad outlines, to Texinfo. See @uref{http://www.docbook.org}. If you want to convert from Docbook @emph{to} Texinfo, please see @uref{http://docbook2X.sourceforge.net}. @end table @cindex Man page output, not supported From time to time, proposals are made to generate traditional Unix man pages from Texinfo source. However, because man pages have a very strict conventional format, generating a good man page requires a completely different source than the typical Texinfo applications of writing a good user tutorial and/or a good reference manual. This makes generating man pages incompatible with the Texinfo design goal of not having to document the same information in different ways for different output formats. You might as well just write the man page directly. @pindex help2man @cindex O'Dea, Brendan Man pages still have their place, and if you wish to support them, you may find the program @command{help2man} to be useful; it generates a traditional man page from the @samp{--help} output of a program. In fact, this is currently used to generate man pages for the programs in the Texinfo distribution. It is GNU software written by Brendan O'Dea, available from @uref{ftp://ftp.gnu.org/gnu/help2man/}. @cindex Output formats, supporting more @cindex SGML-tools output format If you are a programmer and would like to contribute to the GNU project by implementing additional output formats for Texinfo, that would be excellent. But please do not write a separate translator texi2foo for your favorite format foo! That is the hard way to do the job, and makes extra work in subsequent maintenance, since the Texinfo language is continually being enhanced and updated. Instead, the best approach is modify @code{makeinfo} to generate the new format. @node Info Files @section Info Files @cindex Info files An Info file is a Texinfo file formatted so that the Info documentation reading program can operate on it. (@code{makeinfo} and @code{texinfo-format-buffer} are two commands that convert a Texinfo file into an Info file.) Info files are divided into pieces called @dfn{nodes}, each of which contains the discussion of one topic. Each node has a name, and contains both text for the user to read and pointers to other nodes, which are identified by their names. The Info program displays one node at a time, and provides commands with which the user can move to other related nodes. @xref{Top,,, info, GNU Info}, for more information about using Info. Each node of an Info file may have any number of child nodes that describe subtopics of the node's topic. The names of child nodes are listed in a @dfn{menu} within the parent node; this allows you to use certain Info commands to move to one of the child nodes. Generally, an Info file is organized like a book. If a node is at the logical level of a chapter, its child nodes are at the level of sections; likewise, the child nodes of sections are at the level of subsections. All the children of any one parent are linked together in a bidirectional chain of `Next' and `Previous' pointers. The `Next' pointer provides a link to the next section, and the `Previous' pointer provides a link to the previous section. This means that all the nodes that are at the level of sections within a chapter are linked together. Normally the order in this chain is the same as the order of the children in the parent's menu. Each child node records the parent node name as its `Up' pointer. The last child has no `Next' pointer, and the first child has the parent both as its `Previous' and as its `Up' pointer.@footnote{In some documents, the first child has no `Previous' pointer. Occasionally, the last child has the node name of the next following higher level node as its `Next' pointer.} The book-like structuring of an Info file into nodes that correspond to chapters, sections, and the like is a matter of convention, not a requirement. The `Up', `Previous', and `Next' pointers of a node can point to any other nodes, and a menu can contain any other nodes. Thus, the node structure can be any directed graph. But it is usually more comprehensible to follow a structure that corresponds to the structure of chapters and sections in a printed book or report.@refill In addition to menus and to `Next', `Previous', and `Up' pointers, Info provides pointers of another kind, called references, that can be sprinkled throughout the text. This is usually the best way to represent links that do not fit a hierarchical structure.@refill Usually, you will design a document so that its nodes match the structure of chapters and sections in the printed output. But occasionally there are times when this is not right for the material being discussed. Therefore, Texinfo uses separate commands to specify the node structure for the Info file and the section structure for the printed output.@refill Generally, you enter an Info file through a node that by convention is named `Top'. This node normally contains just a brief summary of the file's purpose, and a large menu through which the rest of the file is reached. From this node, you can either traverse the file systematically by going from node to node, or you can go to a specific node listed in the main menu, or you can search the index menus and then go directly to the node that has the information you want. Alternatively, with the standalone Info program, you can specify specific menu items on the command line (@pxref{Top,,, info, Info}). If you want to read through an Info file in sequence, as if it were a printed manual, you can hit @key{SPC} repeatedly, or you get the whole file with the advanced Info command @kbd{g *}. (@inforef{Advanced, Advanced Info commands, info}.)@refill @c !!! dir file may be located in one of many places: @c /usr/local/emacs/info mentioned in info.c DEFAULT_INFOPATH @c /usr/local/lib/emacs/info mentioned in info.c DEFAULT_INFOPATH @c /usr/gnu/info mentioned in info.c DEFAULT_INFOPATH @c /usr/local/info @c /usr/local/lib/info The @file{dir} file in the @file{info} directory serves as the departure point for the whole Info system. From it, you can reach the `Top' nodes of each of the documents in a complete Info system.@refill @cindex URI syntax for Info If you wish to refer to an Info file in a URI, you can use the (unofficial) syntax exemplified in the following. This works with Emacs/W3, for example: @example info:///usr/info/emacs#Dissociated%20Press info:emacs#Dissociated%20Press info://localhost/usr/info/emacs#Dissociated%20Press @end example The @command{info} program itself does not follow URI's of any kind. @node Printed Books @section Printed Books @cindex Printed book and manual characteristics @cindex Manual characteristics, printed @cindex Book characteristics, printed @cindex Texinfo printed book characteristics @cindex Characteristics, printed books or manuals @cindex Knuth, Donald A Texinfo file can be formatted and typeset as a printed book or manual. To do this, you need @TeX{}, a powerful, sophisticated typesetting program written by Donald Knuth.@footnote{You can also use the @pindex texi2roff@r{, unsupported software} @uref{ftp://tug.org/texi2roff.tar.gz, @code{texi2roff}} program if you do not have @TeX{}; since Texinfo is designed for use with @TeX{}, @code{texi2roff} is not described here. @code{texi2roff} is not part of the standard GNU distribution and is not maintained or up-to-date with all the Texinfo features described in this manual.} A Texinfo-based book is similar to any other typeset, printed work: it can have a title page, copyright page, table of contents, and preface, as well as chapters, numbered or unnumbered sections and subsections, page headers, cross references, footnotes, and indices.@refill You can use Texinfo to write a book without ever having the intention of converting it into online information. You can use Texinfo for writing a printed novel, and even to write a printed memo, although this latter application is not recommended since electronic mail is so much easier.@refill @TeX{} is a general purpose typesetting program. Texinfo provides a file @file{texinfo.tex} that contains information (definitions or @dfn{macros}) that @TeX{} uses when it typesets a Texinfo file. (@file{texinfo.tex} tells @TeX{} how to convert the Texinfo @@-commands to @TeX{} commands, which @TeX{} can then process to create the typeset document.) @file{texinfo.tex} contains the specifications for printing a document. You can get the latest version of @file{texinfo.tex} from @uref{ftp://ftp.gnu.org/gnu/texinfo/texinfo.tex}. In the United States, documents are most often printed on 8.5 inch by 11 inch pages (216@dmn{mm} by 280@dmn{mm}); this is the default size. But you can also print for 7 inch by 9.25 inch pages (178@dmn{mm} by 235@dmn{mm}, the @code{@@smallbook} size; or on A4 or A5 size paper (@code{@@afourpaper}, @code{@@afivepaper}). (@xref{smallbook, , Printing ``Small'' Books}. Also, see @ref{A4 Paper, ,Printing on A4 Paper}.) By changing the parameters in @file{texinfo.tex}, you can change the size of the printed document. In addition, you can change the style in which the printed document is formatted; for example, you can change the sizes and fonts used, the amount of indentation for each paragraph, the degree to which words are hyphenated, and the like. By changing the specifications, you can make a book look dignified, old and serious, or light-hearted, young and cheery. @TeX{} is freely distributable. It is written in a superset of Pascal called WEB and can be compiled either in Pascal or (by using a conversion program that comes with the @TeX{} distribution) in C. (@xref{TeX Mode, ,@TeX{} Mode, emacs, The GNU Emacs Manual}, for information about @TeX{}.)@refill @TeX{} is very powerful and has a great many features. Because a Texinfo file must be able to present information both on a character-only terminal in Info form and in a typeset book, the formatting commands that Texinfo supports are necessarily limited. To get a copy of @TeX{}, see @ref{Obtaining TeX, , How to Obtain @TeX{}}. @node Formatting Commands @section @@-commands @cindex @@-commands @cindex Formatting commands In a Texinfo file, the commands that tell @TeX{} how to typeset the printed manual and tell @code{makeinfo} and @code{texinfo-format-buffer} how to create an Info file are preceded by @samp{@@}; they are called @dfn{@@-commands}. For example, @code{@@node} is the command to indicate a node and @code{@@chapter} is the command to indicate the start of a chapter.@refill @quotation Note Almost all @@ command names are entirely lower case. @end quotation The Texinfo @@-commands are a strictly limited set of constructs. The strict limits make it possible for Texinfo files to be understood both by @TeX{} and by the code that converts them into Info files. You can display Info files on any terminal that displays alphabetic and numeric characters. Similarly, you can print the output generated by @TeX{} on a wide variety of printers.@refill Depending on what they do or what arguments@footnote{The word @dfn{argument} comes from the way it is used in mathematics and does not refer to a dispute between two people; it refers to the information presented to the command. According to the @cite{Oxford English Dictionary}, the word derives from the Latin for @dfn{to make clear, prove}; thus it came to mean `the evidence offered as proof', which is to say, `the information offered', which led to its mathematical meaning. In its other thread of derivation, the word came to mean `to assert in a manner against which others may make counter assertions', which led to the meaning of `argument' as a dispute.} they take, you need to write @@-commands on lines of their own or as part of sentences: @itemize @bullet @item Write a command such as @code{@@quotation} at the beginning of a line as the only text on the line. (@code{@@quotation} begins an indented environment.) @item Write a command such as @code{@@chapter} at the beginning of a line followed by the command's arguments, in this case the chapter title, on the rest of the line. (@code{@@chapter} creates chapter titles.)@refill @item Write a command such as @code{@@dots@{@}} wherever you wish but usually within a sentence. (@code{@@dots@{@}} creates dots @dots{})@refill @item Write a command such as @code{@@code@{@var{sample-code}@}} wherever you wish (but usually within a sentence) with its argument, @var{sample-code} in this example, between the braces. (@code{@@code} marks text as being code.)@refill @item Write a command such as @code{@@example} on a line of its own; write the body-text on following lines; and write the matching @code{@@end} command, @code{@@end example} in this case, on a line of its own after the body-text. (@code{@@example} @dots{} @code{@@end example} indents and typesets body-text as an example.) It's usually ok to indent environment commands like this, but in complicated and hard-to-define circumstances the extra spaces cause extra space to appear in the output, so beware. @end itemize @noindent @cindex Braces, when to use As a general rule, a command requires braces if it mingles among other text; but it does not need braces if it starts a line of its own. The non-alphabetic commands, such as @code{@@:}, are exceptions to the rule; they do not need braces.@refill As you gain experience with Texinfo, you will rapidly learn how to write the different commands: the different ways to write commands actually make it easier to write and read Texinfo files than if all commands followed exactly the same syntax. @xref{Command Syntax, , @@-Command Syntax}, for all the details. @node Conventions @section General Syntactic Conventions @cindex General syntactic conventions @cindex Syntactic conventions @cindex Conventions, syntactic @cindex Characters, basic input This section describes the general conventions used in all Texinfo documents. @itemize @bullet @item @cindex Source files, characters used All printable @sc{ascii} characters except @samp{@@}, @samp{@{} and @samp{@}} can appear in a Texinfo file and stand for themselves. @samp{@@} is the escape character which introduces commands, while @samp{@{} and @samp{@}} are used to surround arguments to certain commands. To put one of these special characters into the document, put an @samp{@@} character in front of it, like this: @samp{@@@@}, @samp{@@@{}, and @samp{@@@}}. @item @cindex Paragraph separator @cindex Blank lines, as paragraph separator @cindex Newlines, as blank lines Separate paragraphs with one or more blank lines. Currently Texinfo only recognizes newline characters as end of line, not the CRLF sequence used on some systems; so a @dfn{blank line} means exactly two consecutive newlines. Sometimes blank lines are useful or convenient in other cases as well; you can use the @code{@@noindent} to inhibit paragraph indentation if required (@pxref{noindent,,@code{@@noindent}}). @item @cindex Quotation characters (`'), in source Use doubled single-quote characters to begin and end quotations: @w{@t{`@w{}`@dots{}'@w{}'}}. @TeX{} converts two single quotes to left- and right-hand doubled quotation marks, @c this comes out as "like this" in Info, which is just confusing. @iftex ``like this'', @end iftex and Info converts doubled single-quote characters to @sc{ascii} double-quotes: @w{@t{`@w{}`@dots{}'@w{}'}} becomes @w{@t{"@dots{}"}}. You may occasionally need to produce two consecutive single quotes; for example, in documenting a computer language such as Maxima where @t{'@w{}'} is a valid command. You can do this with the input @t{'@@w@{@}'}; the empty @code{@@w} command stops the combination into the double-quote characters. @cindex Unicode quotation characters @cindex Grave accent, vs.@: left quote The left quote character (@t{`}, ASCII code 96) used in Texinfo is a grave accent in ANSI and ISO character set standards. We use it as a quote character because that is how @TeX{} is set up, by default. We hope to eventually support the various quotation characters in Unicode. @item @cindex Multiple dashes in source @cindex Dashes in source @cindex Hyphens in source, two or three in a row @cindex Em dash, producing @cindex En dash, producing Use three hyphens in a row, @samp{---}, to produce a long dash---like this (called an @dfn{em dash}), used for punctuation in sentences. Use two hyphens, @samp{--}, to produce a medium dash (called an @dfn{en dash}), used primarily for numeric ranges, as in ``June 25--26''. Use a single hyphen, @samp{-}, to produce a standard hyphen used in compound words. For display on the screen, Info reduces three hyphens to two and two hyphens to one (not transitively!). Of course, any number of hyphens in the source remain as they are in literal contexts, such as @code{@@code} and @code{@@example}. @item @cindex Tabs; don't use! @strong{Caution:} Last and most important, do not use tab characters in a Texinfo file (except in verbatim modes)! @TeX{} uses variable-width fonts, which means that it is impractical at best to define a tab to work in all circumstances. Consequently, @TeX{} treats tabs like single spaces, and that is not what they look like in the source. Furthermore, @code{makeinfo} does nothing special with tabs, and thus a tab character in your input file will usually appear differently in the output. @noindent To avoid this problem, Texinfo mode causes GNU Emacs to insert multiple spaces when you press the @key{TAB} key. @noindent Also, you can run @code{untabify} in Emacs to convert tabs in a region to multiple spaces, or use the @code{unexpand} command from the shell. @end itemize @node Comments @section Comments @cindex Comments @findex comment @findex c @r{(comment)} You can write comments in a Texinfo file that will not appear in either the Info file or the printed manual by using the @code{@@comment} command (which may be abbreviated to @code{@@c}). Such comments are for the person who revises the Texinfo file. All the text on a line that follows either @code{@@comment} or @code{@@c} is a comment; the rest of the line does not appear in either the Info file or the printed manual. Often, you can write the @code{@@comment} or @code{@@c} in the middle of a line, and only the text that follows after the @code{@@comment} or @code{@@c} command does not appear; but some commands, such as @code{@@settitle} and @code{@@setfilename}, work on a whole line. You cannot use @code{@@comment} or @code{@@c} in a line beginning with such a command. @cindex Ignored text @cindex Unprocessed text @findex ignore You can write long stretches of text that will not appear in either the Info file or the printed manual by using the @code{@@ignore} and @code{@@end ignore} commands. Write each of these commands on a line of its own, starting each command at the beginning of the line. Text between these two commands does not appear in the processed output. You can use @code{@@ignore} and @code{@@end ignore} for writing comments. Text enclosed by @code{@@ignore} or by failing @code{@@ifset} or @code{@@ifclear} conditions is ignored in the sense that it will not contribute to the formatted output. However, @TeX{} and makeinfo must still parse the ignored text, in order to understand when to @emph{stop} ignoring text from the source file; that means that you may still get error messages if you have invalid Texinfo commands within ignored text. @node Minimum @section What a Texinfo File Must Have @cindex Minimal Texinfo file (requirements) @cindex Must have in Texinfo file @cindex Required in Texinfo file @cindex Texinfo file minimum By convention, the namea of a Texinfo file ends with (in order of preference) one of the extensions @file{.texinfo}, @file{.texi}, @file{.txi}, or @file{.tex}. The longer extensions are preferred since they describe more clearly to a human reader the nature of the file. The shorter extensions are for operating systems that cannot handle long file names. In order to be made into a printed manual and an Info file, a Texinfo file @strong{must} begin with lines like this: @example @group \input texinfo @@setfilename @var{info-file-name} @@settitle @var{name-of-manual} @end group @end example @noindent The contents of the file follow this beginning, and then you @strong{must} end a Texinfo file with a line like this: @example @@bye @end example @findex \input @r{(raw @TeX{} startup)} @noindent Here's an explanation: @itemize @bullet @item The @samp{\input texinfo} line tells @TeX{} to use the @file{texinfo.tex} file, which tells @TeX{} how to translate the Texinfo @@-commands into @TeX{} typesetting commands. (Note the use of the backslash, @samp{\}; this is correct for @TeX{}.) @item The @code{@@setfilename} line provides a name for the Info file and tells @TeX{} to open auxiliary files. @strong{All text before @code{@@setfilename} is ignored!} @item The @code{@@settitle} line specifies a title for the page headers (or footers) of the printed manual, and the default document description for the @samp{
} in HTML format. Strictly speaking, @code{@@settitle} is optional---if you don't mind your document being titled `Untitled'. @item The @code{@@bye} line at the end of the file on a line of its own tells the formatters that the file is ended and to stop formatting. @end itemize Typically, you will not use quite such a spare format, but will include mode setting and start-of-header and end-of-header lines at the beginning of a Texinfo file, like this: @example @group \input texinfo @@c -*-texinfo-*- @@c %**start of header @@setfilename @var{info-file-name} @@settitle @var{name-of-manual} @@c %**end of header @end group @end example @noindent In the first line, @samp{-*-texinfo-*-} causes Emacs to switch into Texinfo mode when you edit the file. The @code{@@c} lines which surround the @code{@@setfilename} and @code{@@settitle} lines are optional, but you need them in order to run @TeX{} or Info on just part of the file. (@xref{Start of Header}.) Furthermore, you will usually provide a Texinfo file with a title page, indices, and the like, all of which are explained in this manual. But the minimum, which can be useful for short documents, is just the three lines at the beginning and the one line at the end. @node Six Parts @section Six Parts of a Texinfo File Generally, a Texinfo file contains more than the minimal beginning and end described in the previous section---it usually contains the six parts listed below. These are described fully in the following sections. @table @r @item 1. Header The @dfn{Header} names the file, tells @TeX{} which definitions file to use, and other such housekeeping tasks. @item 2. Summary and Copyright The @dfn{Summary and Copyright} segment describes the document and contains the copyright notice and copying permissions. This is done with the @code{@@copying} command. @item 3. Title and Copyright The @dfn{Title and Copyright} segment contains the title and copyright pages for the printed manual. The segment must be enclosed between @code{@@titlepage} and @code{@@end titlepage} commands. The title and copyright page appear only in the printed manual. @item 4. `Top' Node and Master Menu The `Top' node starts off the online output; it does not appear in the printed manual. We recommend including the copying permissions here as well as the segments above. And it contains at least a top-level menu listing the chapters, and possibly a @dfn{Master Menu} listing all the nodes in the entire document. @item 5. Body The @dfn{Body} of the document is typically structured like a traditional book or encyclopedia, but it may be free form. @item 6. End The @dfn{End} segment contains commands for printing indices and generating the table of contents, and the @code{@@bye} command on a line of its own. @end table @node Short Sample @section A Short Sample Texinfo File @cindex Sample Texinfo file, with comments Here is a very short but complete Texinfo file, in the six conventional parts enumerated in the previous section, so you can see how Texinfo source appears in practice. The first three parts of the file, from @samp{\input texinfo} through to @samp{@@end titlepage}, look more intimidating than they are: most of the material is standard boilerplate; when writing a manual, you simply change the names as appropriate. @xref{Beginning a File}, for full documentation on the commands listed here. @xref{GNU Sample Texts}, for the full texts to be used in GNU manuals. In the following, the sample text is @emph{indented}; comments on it are not. The complete file, without interspersed comments, is shown in @ref{Short Sample Texinfo File}. @subheading Part 1: Header @noindent The header does not appear in either the Info file or the printed output. It sets various parameters, including the name of the Info file and the title used in the header. @example @group \input texinfo @@c -*-texinfo-*- @@c %**start of header @@setfilename sample.info @@settitle Sample Manual 1.0 @@c %**end of header @end group @end example @subheading Part 2: Summary Description and Copyright @noindent A real manual includes more text here, according to the license under which it is distributed. @xref{GNU Sample Texts}. @example @group @@copying This is a short example of a complete Texinfo file, version 1.0. Copyright @@copyright@{@} 2004 Free Software Foundation, Inc. @@end copying @end group @end example @subheading Part 3: Titlepage, Contents, Copyright @noindent The titlepage segment does not appear in the online output, only in the printed manual. We use the @code{@@insertcopying} command to include the permission text from the previous section, instead of writing it out again; it is output on the back of the title page. The @code{@@contents} command generates a table of contents. @example @group @@titlepage @@title Sample Title @end group @group @@c The following two commands start the copyright page. @@page @@vskip 0pt plus 1filll @@insertcopying @@end titlepage @end group @@c Output the table of contents at the beginning. @@contents @end example @subheading Part 4: `Top' Node and Master Menu @noindent The `Top' node contains the master menu for the Info file. Since the printed manual uses a table of contents rather than a menu, it excludes the `Top' node. We also include the copying text again for the benefit of online readers. Since the copying text begins with a brief description of the manual, no other text is needed in this case. The @samp{@@top} command itself helps @command{makeinfo} determine the relationships between nodes. @example @@ifnottex @@node Top @@top Short Sample @@insertcopying @@end ifnottex @group @@menu * First Chapter:: The first chapter is the only chapter in this sample. * Index:: Complete index. @@end menu @end group @end example @subheading Part 5: The Body of the Document @noindent The body segment contains all the text of the document, but not the indices or table of contents. This example illustrates a node and a chapter containing an enumerated list. @example @group @@node First Chapter @@chapter First Chapter @@cindex chapter, first @end group @group This is the first chapter. @@cindex index entry, another @end group @group Here is a numbered list. @@enumerate @@item This is the first item. @@item This is the second item. @@end enumerate @end group @end example @subheading Part 6: The End of the Document @noindent The end segment contains commands for generating an index in a node and unnumbered chapter of its own, and the @code{@@bye} command that marks the end of the document. @example @group @@node Index @@unnumbered Index @end group @group @@printindex cp @@bye @end group @end example @subheading Some Results Here is what the contents of the first chapter of the sample look like: @sp 1 @need 700 @quotation This is the first chapter. Here is a numbered list. @enumerate @item This is the first item. @item This is the second item. @end enumerate @end quotation @node History @section History @cindex Stallman, Richard M. @cindex Chassell, Robert J. @cindex Fox, Brian @cindex Berry, Karl Richard M.@: Stallman invented the Texinfo format, wrote the initial processors, and created Edition 1.0 of this manual. @w{Robert J.@:} Chassell greatly revised and extended the manual, starting with Edition 1.1. Brian Fox was responsible for the standalone Texinfo distribution until version 3.8, and wrote the standalone @command{makeinfo} and @command{info} programs. Karl Berry has continued maintenance since Texinfo 3.8 (manual edition 2.22). @cindex Pinard, Fran@,{c}ois @cindex Zuhn, David D. @cindex Weisshaus, Melissa @cindex Zaretskii, Eli @cindex Schwab, Andreas @cindex Weinberg, Zack Our thanks go out to all who helped improve this work, particularly the indefatigable Eli Zaretskii and Andreas Schwab, who have provided patches beyond counting. Fran@,{c}ois Pinard and @w{David D.@: Zuhn}, tirelessly recorded and reported mistakes and obscurities. Zack Weinberg did the impossible by implementing the macro syntax in @file{texinfo.tex}. Special thanks go to Melissa Weisshaus for her frequent reviews of nearly similar editions. Dozens of others have contributed patches and suggestions, they are gratefully acknowledged in the @file{ChangeLog} file. Our mistakes are our own. @cindex Scribe @cindex Reid, Brian @cindex History of Texinfo @cindex Texinfo history A bit of history: in the 1970's at CMU, Brian Reid developed a program and format named Scribe to mark up documents for printing. It used the @code{@@} character to introduce commands, as Texinfo does. Much more consequentially, it strived to describe document contents rather than formatting, an idea wholeheartedly adopted by Texinfo. @cindex Bolio @cindex Bo@TeX{} Meanwhile, people at MIT developed another, not too dissimilar format called Bolio. This then was converted to using @TeX{} as its typesetting language: Bo@TeX{}. The earliest Bo@TeX{} version seems to have been 0.02 on October 31, 1984. Bo@TeX{} could only be used as a markup language for documents to be printed, not for online documents. Richard Stallman (RMS) worked on both Bolio and Bo@TeX{}. He also developed a nifty on-line help format called Info, and then combined Bo@TeX{} and Info to create Texinfo, a mark up language for text that is intended to be read both online and as printed hard copy. @node Texinfo Mode @chapter Using Texinfo Mode @cindex Texinfo mode @cindex Mode, using Texinfo @cindex GNU Emacs @cindex Emacs You may edit a Texinfo file with any text editor you choose. A Texinfo file is no different from any other @sc{ascii} file. However, GNU Emacs comes with a special mode, called Texinfo mode, that provides Emacs commands and tools to help ease your work. This chapter describes features of GNU Emacs' Texinfo mode but not any features of the Texinfo formatting language. So if you are reading this manual straight through from the beginning, you may want to skim through this chapter briefly and come back to it after reading succeeding chapters which describe the Texinfo formatting language in detail. @menu * Texinfo Mode Overview:: How Texinfo mode can help you. * Emacs Editing:: Texinfo mode adds to GNU Emacs' general purpose editing features. * Inserting:: How to insert frequently used @@-commands. * Showing the Structure:: How to show the structure of a file. * Updating Nodes and Menus:: How to update or create new nodes and menus. * Info Formatting:: How to format for Info. * Printing:: How to format and print part or all of a file. * Texinfo Mode Summary:: Summary of all the Texinfo mode commands. @end menu @node Texinfo Mode Overview @section Texinfo Mode Overview Texinfo mode provides special features for working with Texinfo files. You can: @itemize @bullet @item Insert frequently used @@-commands. @refill @item Automatically create @code{@@node} lines. @item Show the structure of a Texinfo source file.@refill @item Automatically create or update the `Next', `Previous', and `Up' pointers of a node. @item Automatically create or update menus.@refill @item Automatically create a master menu.@refill @item Format a part or all of a file for Info.@refill @item Typeset and print part or all of a file.@refill @end itemize Perhaps the two most helpful features are those for inserting frequently used @@-commands and for creating node pointers and menus.@refill @node Emacs Editing @section The Usual GNU Emacs Editing Commands In most cases, the usual Text mode commands work the same in Texinfo mode as they do in Text mode. Texinfo mode adds new editing commands and tools to GNU Emacs' general purpose editing features. The major difference concerns filling. In Texinfo mode, the paragraph separation variable and syntax table are redefined so that Texinfo commands that should be on lines of their own are not inadvertently included in paragraphs. Thus, the @kbd{M-q} (@code{fill-paragraph}) command will refill a paragraph but not mix an indexing command on a line adjacent to it into the paragraph.@refill In addition, Texinfo mode sets the @code{page-delimiter} variable to the value of @code{texinfo-chapter-level-regexp}; by default, this is a regular expression matching the commands for chapters and their equivalents, such as appendices. With this value for the page delimiter, you can jump from chapter title to chapter title with the @kbd{C-x ]} (@code{forward-page}) and @kbd{C-x [} (@code{backward-page}) commands and narrow to a chapter with the @kbd{C-x p} (@code{narrow-to-page}) command. (@xref{Pages, , ,emacs, The GNU Emacs Manual}, for details about the page commands.)@refill You may name a Texinfo file however you wish, but the convention is to end a Texinfo file name with one of the extensions @file{.texinfo}, @file{.texi}, @file{.txi}, or @file{.tex}. A longer extension is preferred, since it is explicit, but a shorter extension may be necessary for operating systems that limit the length of file names. GNU Emacs automatically enters Texinfo mode when you visit a file with a @file{.texinfo}, @file{.texi} or @file{.txi} extension. Also, Emacs switches to Texinfo mode when you visit a file that has @samp{-*-texinfo-*-} in its first line. If ever you are in another mode and wish to switch to Texinfo mode, type @code{M-x texinfo-mode}.@refill Like all other Emacs features, you can customize or enhance Texinfo mode as you wish. In particular, the keybindings are very easy to change. The keybindings described here are the default or standard ones.@refill @node Inserting @comment node-name, next, previous, up @section Inserting Frequently Used Commands @cindex Inserting frequently used commands @cindex Frequently used commands, inserting @cindex Commands, inserting them Texinfo mode provides commands to insert various frequently used @@-commands into the buffer. You can use these commands to save keystrokes.@refill The insert commands are invoked by typing @kbd{C-c} twice and then the first letter of the @@-command:@refill @table @kbd @item C-c C-c c @itemx M-x texinfo-insert-@@code @findex texinfo-insert-@@code Insert @code{@@code@{@}} and put the cursor between the braces.@refill @item C-c C-c d @itemx M-x texinfo-insert-@@dfn @findex texinfo-insert-@@dfn Insert @code{@@dfn@{@}} and put the cursor between the braces.@refill @item C-c C-c e @itemx M-x texinfo-insert-@@end @findex texinfo-insert-@@end Insert @code{@@end} and attempt to insert the correct following word, such as @samp{example} or @samp{table}. (This command does not handle nested lists correctly, but inserts the word appropriate to the immediately preceding list.)@refill @item C-c C-c i @itemx M-x texinfo-insert-@@item @findex texinfo-insert-@@item Insert @code{@@item} and put the cursor at the beginning of the next line.@refill @item C-c C-c k @itemx M-x texinfo-insert-@@kbd @findex texinfo-insert-@@kbd Insert @code{@@kbd@{@}} and put the cursor between the braces.@refill @item C-c C-c n @itemx M-x texinfo-insert-@@node @findex texinfo-insert-@@node Insert @code{@@node} and a comment line listing the sequence for the `Next', `Previous', and `Up' nodes. Leave point after the @code{@@node}.@refill @item C-c C-c o @itemx M-x texinfo-insert-@@noindent @findex texinfo-insert-@@noindent Insert @code{@@noindent} and put the cursor at the beginning of the next line.@refill @item C-c C-c s @itemx M-x texinfo-insert-@@samp @findex texinfo-insert-@@samp Insert @code{@@samp@{@}} and put the cursor between the braces.@refill @item C-c C-c t @itemx M-x texinfo-insert-@@table @findex texinfo-insert-@@table Insert @code{@@table} followed by a @key{SPC} and leave the cursor after the @key{SPC}.@refill @item C-c C-c v @itemx M-x texinfo-insert-@@var @findex texinfo-insert-@@var Insert @code{@@var@{@}} and put the cursor between the braces.@refill @item C-c C-c x @itemx M-x texinfo-insert-@@example @findex texinfo-insert-@@example Insert @code{@@example} and put the cursor at the beginning of the next line.@refill @c M-@{ was the binding for texinfo-insert-braces; @c in Emacs 19, backward-paragraph will take this binding. @item C-c C-c @{ @itemx M-x texinfo-insert-braces @findex texinfo-insert-braces Insert @code{@{@}} and put the cursor between the braces.@refill @item C-c C-c @} @itemx C-c C-c ] @itemx M-x up-list @findex up-list Move from between a pair of braces forward past the closing brace. Typing @kbd{C-c C-c ]} is easier than typing @kbd{C-c C-c @}}, which is, however, more mnemonic; hence the two keybindings. (Also, you can move out from between braces by typing @kbd{C-f}.)@refill @end table To put a command such as @w{@code{@@code@{@dots{}@}}} around an @emph{existing} word, position the cursor in front of the word and type @kbd{C-u 1 C-c C-c c}. This makes it easy to edit existing plain text. The value of the prefix argument tells Emacs how many words following point to include between braces---@samp{1} for one word, @samp{2} for two words, and so on. Use a negative argument to enclose the previous word or words. If you do not specify a prefix argument, Emacs inserts the @@-command string and positions the cursor between the braces. This feature works only for those @@-commands that operate on a word or words within one line, such as @code{@@kbd} and @code{@@var}.@refill This set of insert commands was created after analyzing the frequency with which different @@-commands are used in the @cite{GNU Emacs Manual} and the @cite{GDB Manual}. If you wish to add your own insert commands, you can bind a keyboard macro to a key, use abbreviations, or extend the code in @file{texinfo.el}.@refill @findex texinfo-start-menu-description @cindex Menu description, start @cindex Description for menu, start @kbd{C-c C-c C-d} (@code{texinfo-start-menu-description}) is an insert command that works differently from the other insert commands. It inserts a node's section or chapter title in the space for the description in a menu entry line. (A menu entry has three parts, the entry name, the node name, and the description. Only the node name is required, but a description helps explain what the node is about. @xref{Menu Parts, , The Parts of a Menu}.)@refill To use @code{texinfo-start-menu-description}, position point in a menu entry line and type @kbd{C-c C-c C-d}. The command looks for and copies the title that goes with the node name, and inserts the title as a description; it positions point at beginning of the inserted text so you can edit it. The function does not insert the title if the menu entry line already contains a description.@refill This command is only an aid to writing descriptions; it does not do the whole job. You must edit the inserted text since a title tends to use the same words as a node name but a useful description uses different words.@refill @node Showing the Structure @comment node-name, next, previous, up @section Showing the Section Structure of a File @cindex Showing the section structure of a file @cindex Section structure of a file, showing it @cindex Structure of a file, showing it @cindex Outline of file structure, showing it @cindex Contents-like outline of file structure @cindex File section structure, showing it @cindex Texinfo file section structure, showing it You can show the section structure of a Texinfo file by using the @kbd{C-c C-s} command (@code{texinfo-show-structure}). This command shows the section structure of a Texinfo file by listing the lines that begin with the @@-commands for @code{@@chapter}, @code{@@section}, and the like. It constructs what amounts to a table of contents. These lines are displayed in another buffer called the @samp{*Occur*} buffer. In that buffer, you can position the cursor over one of the lines and use the @kbd{C-c C-c} command (@code{occur-mode-goto-occurrence}), to jump to the corresponding spot in the Texinfo file.@refill @table @kbd @item C-c C-s @itemx M-x texinfo-show-structure @findex texinfo-show-structure Show the @code{@@chapter}, @code{@@section}, and such lines of a Texinfo file.@refill @item C-c C-c @itemx M-x occur-mode-goto-occurrence @findex occur-mode-goto-occurrence Go to the line in the Texinfo file corresponding to the line under the cursor in the @file{*Occur*} buffer.@refill @end table If you call @code{texinfo-show-structure} with a prefix argument by typing @w{@kbd{C-u C-c C-s}}, it will list not only those lines with the @@-commands for @code{@@chapter}, @code{@@section}, and the like, but also the @code{@@node} lines. You can use @code{texinfo-show-structure} with a prefix argument to check whether the `Next', `Previous', and `Up' pointers of an @code{@@node} line are correct. Often, when you are working on a manual, you will be interested only in the structure of the current chapter. In this case, you can mark off the region of the buffer that you are interested in by using the @kbd{C-x n n} (@code{narrow-to-region}) command and @code{texinfo-show-structure} will work on only that region. To see the whole buffer again, use @w{@kbd{C-x n w}} (@code{widen}). (@xref{Narrowing, , , emacs, The GNU Emacs Manual}, for more information about the narrowing commands.)@refill @vindex page-delimiter @cindex Page delimiter in Texinfo mode In addition to providing the @code{texinfo-show-structure} command, Texinfo mode sets the value of the page delimiter variable to match the chapter-level @@-commands. This enables you to use the @kbd{C-x ]} (@code{forward-page}) and @kbd{C-x [} (@code{backward-page}) commands to move forward and backward by chapter, and to use the @kbd{C-x p} (@code{narrow-to-page}) command to narrow to a chapter. @xref{Pages, , , emacs, The GNU Emacs Manual}, for more information about the page commands.@refill @node Updating Nodes and Menus @comment node-name, next, previous, up @section Updating Nodes and Menus @cindex Updating nodes and menus @cindex Create nodes, menus automatically @cindex Insert nodes, menus automatically @cindex Automatically insert nodes, menus Texinfo mode provides commands for automatically creating or updating menus and node pointers. The commands are called ``update'' commands because their most frequent use is for updating a Texinfo file after you have worked on it; but you can use them to insert the `Next', `Previous', and `Up' pointers into an @code{@@node} line that has none and to create menus in a file that has none. If you do not use the updating commands, you need to write menus and node pointers by hand, which is a tedious task.@refill @menu * Updating Commands:: Five major updating commands. * Updating Requirements:: How to structure a Texinfo file for using the updating command. * Other Updating Commands:: How to indent descriptions, insert missing nodes lines, and update nodes in sequence. @end menu @node Updating Commands @subsection The Updating Commands You can use the updating commands to:@refill @itemize @bullet @item insert or update the `Next', `Previous', and `Up' pointers of a node,@refill @item insert or update the menu for a section, and@refill @item create a master menu for a Texinfo source file.@refill @end itemize You can also use the commands to update all the nodes and menus in a region or in a whole Texinfo file.@refill The updating commands work only with conventional Texinfo files, which are structured hierarchically like books. In such files, a structuring command line must follow closely after each @code{@@node} line, except for the `Top' @code{@@node} line. (A @dfn{structuring command line} is a line beginning with @code{@@chapter}, @code{@@section}, or other similar command.) You can write the structuring command line on the line that follows immediately after an @code{@@node} line or else on the line that follows after a single @code{@@comment} line or a single @code{@@ifinfo} line. You cannot interpose more than one line between the @code{@@node} line and the structuring command line; and you may interpose only an @code{@@comment} line or an @code{@@ifinfo} line. Commands which work on a whole buffer require that the `Top' node be followed by a node with an @code{@@chapter} or equivalent-level command. The menu updating commands will not create a main or master menu for a Texinfo file that has only @code{@@chapter}-level nodes! The menu updating commands only create menus @emph{within} nodes for lower level nodes. To create a menu of chapters, you must provide a `Top' node. The menu updating commands remove menu entries that refer to other Info files since they do not refer to nodes within the current buffer. This is a deficiency. Rather than use menu entries, you can use cross references to refer to other Info files. None of the updating commands affect cross references.@refill Texinfo mode has five updating commands that are used most often: two are for updating the node pointers or menu of a single node (or a region); two are for updating every node pointer and menu in a file; and one, the @code{texinfo-master-menu} command, is for creating a master menu for a complete file, and optionally, for updating every node and menu in the whole Texinfo file.@refill The @code{texinfo-master-menu} command is the primary command:@refill @table @kbd @item C-c C-u m @itemx M-x texinfo-master-menu @findex texinfo-master-menu Create or update a master menu that includes all the other menus (incorporating the descriptions from pre-existing menus, if any).@refill With an argument (prefix argument, @kbd{C-u,} if interactive), first create or update all the nodes and all the regular menus in the buffer before constructing the master menu. (@xref{The Top Node, , The Top Node and Master Menu}, for more about a master menu.)@refill For @code{texinfo-master-menu} to work, the Texinfo file must have a `Top' node and at least one subsequent node.@refill After extensively editing a Texinfo file, you can type the following: @example C-u M-x texinfo-master-menu @exdent or C-u C-c C-u m @end example @noindent This updates all the nodes and menus completely and all at once.@refill @end table The other major updating commands do smaller jobs and are designed for the person who updates nodes and menus as he or she writes a Texinfo file.@refill @need 1000 The commands are:@refill @table @kbd @item C-c C-u C-n @itemx M-x texinfo-update-node @findex texinfo-update-node Insert the `Next', `Previous', and `Up' pointers for the node that point is within (i.e., for the @code{@@node} line preceding point). If the @code{@@node} line has pre-existing `Next', `Previous', or `Up' pointers in it, the old pointers are removed and new ones inserted. With an argument (prefix argument, @kbd{C-u}, if interactive), this command updates all @code{@@node} lines in the region (which is the text between point and mark).@refill @item C-c C-u C-m @itemx M-x texinfo-make-menu @findex texinfo-make-menu Create or update the menu in the node that point is within. With an argument (@kbd{C-u} as prefix argument, if interactive), the command makes or updates menus for the nodes which are either within or a part of the region.@refill Whenever @code{texinfo-make-menu} updates an existing menu, the descriptions from that menu are incorporated into the new menu. This is done by copying descriptions from the existing menu to the entries in the new menu that have the same node names. If the node names are different, the descriptions are not copied to the new menu.@refill @item C-c C-u C-e @itemx M-x texinfo-every-node-update @findex texinfo-every-node-update Insert or update the `Next', `Previous', and `Up' pointers for every node in the buffer.@refill @item C-c C-u C-a @itemx M-x texinfo-all-menus-update @findex texinfo-all-menus-update Create or update all the menus in the buffer. With an argument (@kbd{C-u} as prefix argument, if interactive), first insert or update all the node pointers before working on the menus.@refill If a master menu exists, the @code{texinfo-all-menus-update} command updates it; but the command does not create a new master menu if none already exists. (Use the @code{texinfo-master-menu} command for that.)@refill When working on a document that does not merit a master menu, you can type the following: @example C-u C-c C-u C-a @exdent or C-u M-x texinfo-all-menus-update @end example @noindent This updates all the nodes and menus.@refill @end table The @code{texinfo-column-for-description} variable specifies the column to which menu descriptions are indented. By default, the value is 32 although it is often useful to reduce it to as low as 24. You can set the variable via customization (@pxref{Changing an Option,,, emacs, The GNU Emacs Manual}) or with the @kbd{M-x set-variable} command (@pxref{Examining, , Examining and Setting Variables, emacs, The GNU Emacs Manual}). Also, the @code{texinfo-indent-menu-description} command may be used to indent existing menu descriptions to a specified column. Finally, if you wish, you can use the @code{texinfo-insert-node-lines} command to insert missing @code{@@node} lines into a file. (@xref{Other Updating Commands}, for more information.)@refill @node Updating Requirements @subsection Updating Requirements @cindex Updating requirements @cindex Requirements for updating commands To use the updating commands, you must organize the Texinfo file hierarchically with chapters, sections, subsections, and the like. When you construct the hierarchy of the manual, do not `jump down' more than one level at a time: you can follow the `Top' node with a chapter, but not with a section; you can follow a chapter with a section, but not with a subsection. However, you may `jump up' any number of levels at one time---for example, from a subsection to a chapter.@refill Each @code{@@node} line, with the exception of the line for the `Top' node, must be followed by a line with a structuring command such as @code{@@chapter}, @code{@@section}, or @code{@@unnumberedsubsec}.@refill Each @code{@@node} line/structuring-command line combination must look either like this: @example @group @@node Comments, Minimum, Conventions, Overview @@comment node-name, next, previous, up @@section Comments @end group @end example or like this (without the @code{@@comment} line): @example @group @@node Comments, Minimum, Conventions, Overview @@section Comments @end group @end example or like this (without the explicit node pointers): @example @group @@node Comments @@section Comments @end group @end example @noindent In this example, `Comments' is the name of both the node and the section. The next node is called `Minimum' and the previous node is called `Conventions'. The `Comments' section is within the `Overview' node, which is specified by the `Up' pointer. (Instead of an @code{@@comment} line, you may also write an @code{@@ifinfo} line.) If a file has a `Top' node, it must be called @samp{top} or @samp{Top} and be the first node in the file. The menu updating commands create a menu of sections within a chapter, a menu of subsections within a section, and so on. This means that you must have a `Top' node if you want a menu of chapters.@refill Incidentally, the @code{makeinfo} command will create an Info file for a hierarchically organized Texinfo file that lacks `Next', `Previous' and `Up' pointers. Thus, if you can be sure that your Texinfo file will be formatted with @code{makeinfo}, you have no need for the update node commands. (@xref{Creating an Info File}, for more information about @code{makeinfo}.) However, both @code{makeinfo} and the @code{texinfo-format-@dots{}} commands require that you insert menus in the file. @node Other Updating Commands @subsection Other Updating Commands In addition to the five major updating commands, Texinfo mode possesses several less frequently used updating commands:@refill @table @kbd @item M-x texinfo-insert-node-lines @findex texinfo-insert-node-lines Insert @code{@@node} lines before the @code{@@chapter}, @code{@@section}, and other sectioning commands wherever they are missing throughout a region in a Texinfo file.@refill With an argument (@kbd{C-u} as prefix argument, if interactive), the @code{texinfo-insert-node-lines} command not only inserts @code{@@node} lines but also inserts the chapter or section titles as the names of the corresponding nodes. In addition, it inserts the titles as node names in pre-existing @code{@@node} lines that lack names. Since node names should be more concise than section or chapter titles, you must manually edit node names so inserted.@refill For example, the following marks a whole buffer as a region and inserts @code{@@node} lines and titles throughout:@refill @example C-x h C-u M-x texinfo-insert-node-lines @end example This command inserts titles as node names in @code{@@node} lines; the @code{texinfo-start-menu-description} command (@pxref{Inserting, Inserting Frequently Used Commands}) inserts titles as descriptions in menu entries, a different action. However, in both cases, you need to edit the inserted text. @item M-x texinfo-multiple-files-update @findex texinfo-multiple-files-update @r{(in brief)} Update nodes and menus in a document built from several separate files. With @kbd{C-u} as a prefix argument, create and insert a master menu in the outer file. With a numeric prefix argument, such as @kbd{C-u 2}, first update all the menus and all the `Next', `Previous', and `Up' pointers of all the included files before creating and inserting a master menu in the outer file. The @code{texinfo-multiple-files-update} command is described in the appendix on @code{@@include} files. @xref{texinfo-multiple-files-update}. @item M-x texinfo-indent-menu-description @findex texinfo-indent-menu-description Indent every description in the menu following point to the specified column. You can use this command to give yourself more space for descriptions. With an argument (@kbd{C-u} as prefix argument, if interactive), the @code{texinfo-indent-menu-description} command indents every description in every menu in the region. However, this command does not indent the second and subsequent lines of a multi-line description.@refill @item M-x texinfo-sequential-node-update @findex texinfo-sequential-node-update Insert the names of the nodes immediately following and preceding the current node as the `Next' or `Previous' pointers regardless of those nodes' hierarchical level. This means that the `Next' node of a subsection may well be the next chapter. Sequentially ordered nodes are useful for novels and other documents that you read through sequentially. (However, in Info, the @kbd{g *} command lets you look through the file sequentially, so sequentially ordered nodes are not strictly necessary.) With an argument (prefix argument, if interactive), the @code{texinfo-sequential-node-update} command sequentially updates all the nodes in the region.@refill @end table @node Info Formatting @comment node-name, next, previous, up @section Formatting for Info @cindex Formatting for Info @cindex Running an Info formatter @cindex Info formatting Texinfo mode provides several commands for formatting part or all of a Texinfo file for Info. Often, when you are writing a document, you want to format only part of a file---that is, a region.@refill You can use either the @code{texinfo-format-region} or the @code{makeinfo-region} command to format a region:@refill @table @kbd @findex texinfo-format-region @item C-c C-e C-r @itemx M-x texinfo-format-region @itemx C-c C-m C-r @itemx M-x makeinfo-region Format the current region for Info.@refill @end table You can use either the @code{texinfo-format-buffer} or the @code{makeinfo-buffer} command to format a whole buffer:@refill @table @kbd @findex texinfo-format-buffer @item C-c C-e C-b @itemx M-x texinfo-format-buffer @itemx C-c C-m C-b @itemx M-x makeinfo-buffer Format the current buffer for Info.@refill @end table @need 1000 For example, after writing a Texinfo file, you can type the following: @example C-u C-c C-u m @exdent or C-u M-x texinfo-master-menu @end example @noindent This updates all the nodes and menus. Then type the following to create an Info file: @example C-c C-m C-b @exdent or M-x makeinfo-buffer @end example For @TeX{} or the Info formatting commands to work, the file @emph{must} include a line that has @code{@@setfilename} in its header. @xref{Creating an Info File}, for details about Info formatting.@refill @node Printing @comment node-name, next, previous, up @section Printing @cindex Formatting for printing @cindex Printing a region or buffer @cindex Region formatting and printing @cindex Buffer formatting and printing @cindex Part of file formatting and printing Typesetting and printing a Texinfo file is a multi-step process in which you first create a file for printing (called a DVI file), and then print the file. Optionally, you may also create indices. To do this, you must run the @code{texindex} command after first running the @code{tex} typesetting command; and then you must run the @code{tex} command again. Or else run the @code{texi2dvi} command which automatically creates indices as needed (@pxref{Format with texi2dvi}). Often, when you are writing a document, you want to typeset and print only part of a file to see what it will look like. You can use the @code{texinfo-tex-region} and related commands for this purpose. Use the @code{texinfo-tex-buffer} command to format all of a buffer.@refill @table @kbd @item C-c C-t C-b @itemx M-x texinfo-tex-buffer @findex texinfo-tex-buffer Run @code{texi2dvi} on the buffer. In addition to running @TeX{} on the buffer, this command automatically creates or updates indices as needed.@refill @item C-c C-t C-r @itemx M-x texinfo-tex-region @findex texinfo-tex-region Run @TeX{} on the region.@refill @item C-c C-t C-i @itemx M-x texinfo-texindex Run @code{texindex} to sort the indices of a Texinfo file formatted with @code{texinfo-tex-region}. The @code{texinfo-tex-region} command does not run @code{texindex} automatically; it only runs the @code{tex} typesetting command. You must run the @code{texinfo-tex-region} command a second time after sorting the raw index files with the @code{texindex} command. (Usually, you do not format an index when you format a region, only when you format a buffer. Now that the @code{texi2dvi} command exists, there is little or no need for this command.)@refill @item C-c C-t C-p @itemx M-x texinfo-tex-print @findex texinfo-tex-print Print the file (or the part of the file) previously formatted with @code{texinfo-tex-buffer} or @code{texinfo-tex-region}.@refill @end table For @code{texinfo-tex-region} or @code{texinfo-tex-buffer} to work, the file @emph{must} start with a @samp{\input texinfo} line and must include an @code{@@settitle} line. The file must end with @code{@@bye} on a line by itself. (When you use @code{texinfo-tex-region}, you must surround the @code{@@settitle} line with start-of-header and end-of-header lines.)@refill @xref{Hardcopy}, for a description of the other @TeX{} related commands, such as @code{tex-show-print-queue}.@refill @node Texinfo Mode Summary @comment node-name, next, previous, up @section Texinfo Mode Summary In Texinfo mode, each set of commands has default keybindings that begin with the same keys. All the commands that are custom-created for Texinfo mode begin with @kbd{C-c}. The keys are somewhat mnemonic.@refill @subheading Insert Commands The insert commands are invoked by typing @kbd{C-c} twice and then the first letter of the @@-command to be inserted. (It might make more sense mnemonically to use @kbd{C-c C-i}, for `custom insert', but @kbd{C-c C-c} is quick to type.)@refill @example C-c C-c c @r{Insert} @samp{@@code}. C-c C-c d @r{Insert} @samp{@@dfn}. C-c C-c e @r{Insert} @samp{@@end}. C-c C-c i @r{Insert} @samp{@@item}. C-c C-c n @r{Insert} @samp{@@node}. C-c C-c s @r{Insert} @samp{@@samp}. C-c C-c v @r{Insert} @samp{@@var}. C-c C-c @{ @r{Insert braces.} C-c C-c ] C-c C-c @} @r{Move out of enclosing braces.} @group C-c C-c C-d @r{Insert a node's section title} @r{in the space for the description} @r{in a menu entry line.} @end group @end example @subheading Show Structure The @code{texinfo-show-structure} command is often used within a narrowed region.@refill @example C-c C-s @r{List all the headings.} @end example @subheading The Master Update Command The @code{texinfo-master-menu} command creates a master menu; and can be used to update every node and menu in a file as well.@refill @c Probably should use @tables in this section. @example @group C-c C-u m M-x texinfo-master-menu @r{Create or update a master menu.} @end group @group C-u C-c C-u m @r{With @kbd{C-u} as a prefix argument, first} @r{create or update all nodes and regular} @r{menus, and then create a master menu.} @end group @end example @subheading Update Pointers The update pointer commands are invoked by typing @kbd{C-c C-u} and then either @kbd{C-n} for @code{texinfo-update-node} or @kbd{C-e} for @code{texinfo-every-node-update}.@refill @example C-c C-u C-n @r{Update a node.} C-c C-u C-e @r{Update every node in the buffer.} @end example @subheading Update Menus Invoke the update menu commands by typing @kbd{C-c C-u} and then either @kbd{C-m} for @code{texinfo-make-menu} or @kbd{C-a} for @code{texinfo-all-menus-update}. To update both nodes and menus at the same time, precede @kbd{C-c C-u C-a} with @kbd{C-u}.@refill @example C-c C-u C-m @r{Make or update a menu.} @group C-c C-u C-a @r{Make or update all} @r{menus in a buffer.} @end group @group C-u C-c C-u C-a @r{With @kbd{C-u} as a prefix argument,} @r{first create or update all nodes and} @r{then create or update all menus.} @end group @end example @subheading Format for Info The Info formatting commands that are written in Emacs Lisp are invoked by typing @kbd{C-c C-e} and then either @kbd{C-r} for a region or @kbd{C-b} for the whole buffer.@refill The Info formatting commands that are written in C and based on the @code{makeinfo} program are invoked by typing @kbd{C-c C-m} and then either @kbd{C-r} for a region or @kbd{C-b} for the whole buffer.@refill @need 800 @noindent Use the @code{texinfo-format@dots{}} commands: @example @group C-c C-e C-r @r{Format the region.} C-c C-e C-b @r{Format the buffer.} @end group @end example @need 750 @noindent Use @code{makeinfo}: @example C-c C-m C-r @r{Format the region.} C-c C-m C-b @r{Format the buffer.} C-c C-m C-l @r{Recenter the @code{makeinfo} output buffer.} C-c C-m C-k @r{Kill the @code{makeinfo} formatting job.} @end example @subheading Typeset and Print The @TeX{} typesetting and printing commands are invoked by typing @kbd{C-c C-t} and then another control command: @kbd{C-r} for @code{texinfo-tex-region}, @kbd{C-b} for @code{texinfo-tex-buffer}, and so on.@refill @example C-c C-t C-r @r{Run @TeX{} on the region.} C-c C-t C-b @r{Run} @code{texi2dvi} @r{on the buffer.} C-c C-t C-i @r{Run} @code{texindex}. C-c C-t C-p @r{Print the DVI file.} C-c C-t C-q @r{Show the print queue.} C-c C-t C-d @r{Delete a job from the print queue.} C-c C-t C-k @r{Kill the current @TeX{} formatting job.} C-c C-t C-x @r{Quit a currently stopped @TeX{} formatting job.} C-c C-t C-l @r{Recenter the output buffer.} @end example @subheading Other Updating Commands The remaining updating commands do not have standard keybindings because they are rarely used. @example @group M-x texinfo-insert-node-lines @r{Insert missing @code{@@node} lines in region.} @r{With @kbd{C-u} as a prefix argument,} @r{use section titles as node names.} @end group @group M-x texinfo-multiple-files-update @r{Update a multi-file document.} @r{With @kbd{C-u 2} as a prefix argument,} @r{create or update all nodes and menus} @r{in all included files first.} @end group @group M-x texinfo-indent-menu-description @r{Indent descriptions.} @end group @group M-x texinfo-sequential-node-update @r{Insert node pointers in strict sequence.} @end group @end example @node Beginning a File @chapter Beginning a Texinfo File @cindex Beginning a Texinfo file @cindex Texinfo file beginning @cindex File beginning Certain pieces of information must be provided at the beginning of a Texinfo file, such as the name for the output file(s), the title of the document, and the Top node. A table of contents is also generally produced here. This chapter expands on the minimal complete Texinfo source file previously given (@pxref{Six Parts}). It describes the numerous commands for handling the traditional frontmatter items in Texinfo. @cindex Frontmatter, text in Straight text outside of any command before the Top node should be avoided. Such text is treated differently in the different output formats: visible in @TeX{} and HTML, by default not shown in Info readers, and so on. @menu * Sample Beginning:: A sample beginning for a Texinfo file. * Texinfo File Header:: The first lines. * Document Permissions:: Ensuring your manual is free. * Titlepage & Copyright Page:: Creating the title and copyright pages. * Contents:: How to create a table of contents. * The Top Node:: Creating the `Top' node and master menu. * Global Document Commands:: Affecting formatting throughout. * Software Copying Permissions:: Ensure that you and others continue to have the right to use and share software. @end menu @node Sample Beginning @section Sample Texinfo File Beginning @cindex Example beginning of Texinfo file The following sample shows what is needed. The elements given here are explained in more detail in the following sections. Other commands are often included at the beginning of Texinfo files, but the ones here are the most critical. @xref{GNU Sample Texts}, for the full texts to be used in GNU manuals. @example \input texinfo @@c -*-texinfo-*- @@c %**start of header @@setfilename @var{infoname}.info @@settitle @var{name-of-manual} @var{version} @@c %**end of header @@copying This manual is for @var{program}, version @var{version}. Copyright @@copyright@{@} @var{years} @var{copyright-owner}. @group @@quotation Permission is granted to @dots{} @@end quotation @@end copying @end group @group @@titlepage @@title @var{name-of-manual-when-printed} @@subtitle @var{subtitle-if-any} @@subtitle @var{second-subtitle} @@author @var{author} @end group @group @@c The following two commands @@c start the copyright page. @@page @@vskip 0pt plus 1filll @@insertcopying @end group Published by @dots{} @@end titlepage @@c So the toc is printed at the start. @@contents @@ifnottex @@node Top @@top @var{title} @@insertcopying @@end ifnottex @group @@menu * First Chapter:: Getting started @dots{} * Second Chapter:: @dots{} @dots{} * Copying:: Your rights and freedoms. @@end menu @end group @group @@node First Chapter @@chapter First Chapter @@cindex first chapter @@cindex chapter, first @dots{} @end group @end example @node Texinfo File Header @section Texinfo File Header @cindex Header for Texinfo files @cindex Texinfo file header Texinfo files start with at least three lines that provide Info and @TeX{} with necessary information. These are the @code{\input texinfo} line, the @code{@@settitle} line, and the @code{@@setfilename} line. Also, if you want to format just part of the Texinfo file, you must write the @code{@@settitle} and @code{@@setfilename} lines between start-of-header and end-of-header lines. The start- and end-of-header lines are optional, but they do no harm, so you might as well always include them. Any command that affects document formatting as a whole makes sense to include in the header. @code{@@synindex} (@pxref{synindex}), for instance, is another command often included in the header. @xref{GNU Sample Texts}, for complete sample texts. Thus, the beginning of a Texinfo file generally looks like this: @example @group \input texinfo @@c -*-texinfo-*- @@c %**start of header @@setfilename sample.info @@settitle Sample Manual 1.0 @@c %**end of header @end group @end example @menu * First Line:: The first line of a Texinfo file. * Start of Header:: Formatting a region requires this. * setfilename:: Tell Info the name of the Info file. * settitle:: Create a title for the printed work. * End of Header:: Formatting a region requires this. @end menu @node First Line @subsection The First Line of a Texinfo File @cindex First line of a Texinfo file @cindex Beginning line of a Texinfo file @cindex Header of a Texinfo file Every Texinfo file that is to be the top-level input to @TeX{} must begin with a line that looks like this: @example \input texinfo @@c -*-texinfo-*- @end example @noindent This line serves two functions: @enumerate @item When the file is processed by @TeX{}, the @samp{\input texinfo} command tells @TeX{} to load the macros needed for processing a Texinfo file. These are in a file called @file{texinfo.tex}, which should have been installed on your system along with either the @TeX{} or Texinfo software. @TeX{} uses the backslash, @samp{\}, to mark the beginning of a command, exactly as Texinfo uses @samp{@@}. The @file{texinfo.tex} file causes the switch from @samp{\} to @samp{@@}; before the switch occurs, @TeX{} requires @samp{\}, which is why it appears at the beginning of the file. @item When the file is edited in GNU Emacs, the @samp{-*-texinfo-*-} mode specification tells Emacs to use Texinfo mode. @end enumerate @node Start of Header @subsection Start of Header @cindex Start of header line A start-of-header line is a Texinfo comment that looks like this: @example @@c %**start of header @end example Write the start-of-header line on the second line of a Texinfo file. Follow the start-of-header line with @code{@@setfilename} and @code{@@settitle} lines and, optionally, with other commands that globally affect the document formatting, such as @code{@@synindex} or @code{@@footnotestyle}; and then by an end-of-header line (@pxref{End of Header}). The start- and end-of-header lines allow you to format only part of a Texinfo file for Info or printing. @xref{texinfo-format commands}. The odd string of characters, @samp{%**}, is to ensure that no other comment is accidentally taken for a start-of-header line. You can change it if you wish by setting the @code{tex-start-of-header} and/or @code{tex-end-of-header} Emacs variables. @xref{Texinfo Mode Printing}. @node setfilename @subsection @code{@@setfilename}: Set the output file name @findex setfilename @cindex Texinfo requires @code{@@setfilename} In order to serve as the primary input file for either @code{makeinfo} or @TeX{}, a Texinfo file must contain a line that looks like this: @example @@setfilename @var{info-file-name} @end example Write the @code{@@setfilename} command at the beginning of a line and follow it on the same line by the Info file name. Do not write anything else on the line; anything on the line after the command is considered part of the file name, including what would otherwise be a comment. @cindex Ignored before @code{@@setfilename} @cindex @samp{\input} source line ignored The Info formatting commands ignore everything written before the @code{@@setfilename} line, which is why the very first line of the file (the @code{\input} line) does not show up in the output. The @code{@@setfilename} line specifies the name of the output file to be generated. This name must be different from the name of the Texinfo file. There are two conventions for choosing the name: you can either remove the extension (such as @samp{.texi}) entirely from the input file name, or, preferably, replace it with the @samp{.info} extension. @cindex Length of file names @cindex File name collision @cindex Info file name, choosing Although an explicit @samp{.info} extension is preferable, some operating systems cannot handle long file names. You can run into a problem even when the file name you specify is itself short enough. This occurs because the Info formatters split a long Info file into short indirect subfiles, and name them by appending @samp{-1}, @samp{-2}, @dots{}, @samp{-10}, @samp{-11}, and so on, to the original file name. (@xref{Tag and Split Files}.) The subfile name @file{texinfo.info-10}, for example, is too long for old systems with a 14-character limit on filenames; so the Info file name for this document is @file{texinfo} rather than @file{texinfo.info}. When @code{makeinfo} is running on operating systems such as MS-DOS which impose severe limits on file names, it may remove some characters from the original file name to leave enough space for the subfile suffix, thus producing files named @file{texin-10}, @file{gcc.i12}, etc. When producing HTML output, @code{makeinfo} will replace any extension with @samp{html}, or add @samp{.html} if the given name has no extension. @pindex texinfo.cnf The @code{@@setfilename} line produces no output when you typeset a manual with @TeX{}, but it is nevertheless essential: it opens the index, cross-reference, and other auxiliary files used by Texinfo, and also reads @file{texinfo.cnf} if that file is present on your system (@pxref{Preparing for TeX,, Preparing for @TeX{}}). @node settitle @subsection @code{@@settitle}: Set the document title @findex settitle In order to be made into a printed manual, a Texinfo file must contain a line that looks like this: @example @@settitle @var{title} @end example Write the @code{@@settitle} command at the beginning of a line and follow it on the same line by the title. This tells @TeX{} the title to use in a header or footer. Do not write anything else on the line; anything on the line after the command is considered part of the title, including what would otherwise be a comment. The @code{@@settitle} command should precede everything that generates actual output. The best place for it is right after the @code{@@setfilename} command (see the previous section). @cindexHTML tag @noindent then the Docbook output uses corresponding special tags (@code{}, etc.) instead of the default @code{ }. HTML output always uses @code{}. @node example @section @code{@@example}: Example Text @cindex Examples, formatting them @cindex Formatting examples @findex example The @code{@@example} environment is used to indicate an example that is not part of the running text, such as computer input or output. Write an @code{@@example} command at the beginning of a line by itself. Mark the end of the example with an @code{@@end example} command, also written at the beginning of a line by itself. An @code{@@example} environment has the following characteristics: @itemize @item Each line in the input file is a line in the output; that is, the source text is not filled as it normally is. @item Extra spaces and blank lines are significant. @item The output is indented. @item The output uses a fixed-width font. @item Texinfo commands @emph{are} expanded; if you want the output to be the input verbatim, use the @code{@@verbatim} environment instead (@pxref{verbatim,,@code{@@verbatim}}). @end itemize For example, @example @@example cp foo @@var@{dest1@}; \ cp foo @@var@{dest2@} @@end example @end example @noindent produces @example cp foo @var{dest1}; \ cp foo @var{dest2} @end example The lines containing @code{@@example} and @code{@@end example} will disappear from the output. To make the output look good, you should put a blank line before the @code{@@example} and another blank line after the @code{@@end example}. Blank lines inside the beginning @code{@@example} and the ending @code{@@end example}, on the other hand, do appear in the output. @quotation Caution Do not use tabs in the lines of an example! (Or anywhere else in Texinfo, except in verbatim environments.) @TeX{} treats tabs as single spaces, and that is not what they look like. In Emacs, you can use @kbd{M-x untabify} to convert tabs in a region to multiple spaces. @end quotation Examples are often, logically speaking, ``in the middle'' of a paragraph, and the text that continues afterwards should not be indented, as in the example above. The @code{@@noindent} command prevents a piece of text from being indented as if it were a new paragraph (@pxref{noindent,,@code{@@noindent}}. If you want to embed code fragments within sentences, instead of displaying them, use the @code{@@code} command or its relatives (@pxref{code,,@code{@@code}}). If you wish to write a ``comment'' on a line of an example in the normal roman font, you can use the @code{@@r} command (@pxref{Fonts}). @node verbatim @section @code{@@verbatim}: Literal Text @findex verbatim @cindex Verbatim environment Use the @code{@@verbatim} environment for printing of text that may contain special characters or commands that should not be interpreted, such as computer input or output (@code{@@example} interprets its text as regular Texinfo commands). This is especially useful for including automatically generated output in a Texinfo manual. Here is an example; the output you see is just the same as the input, with a line @code{@@verbatim} before and a line @code{@@end verbatim} after. @verbatim This is an example of text written in a @verbatim block. No character substitutions are made. All commands are ignored, until `end verbatim'. In the printed manual, the text is typeset in a fixed-width font, and not indented or filled. All spaces and blank lines are significant, including tabs. @end verbatim Write a @code{@@verbatim} command at the beginning of a line by itself. This line will disappear from the output. Mark the end of the verbatim block with a @code{@@end verbatim} command, also written at the beginning of a line by itself. The @code{@@end verbatim} will also disappear from the output. For example: @c oops, got to trick this a bit: can't use @end verbatim inside @verbatim @example @exdent @t{@@verbatim} @exdent @t{@{} @exdent @key{TAB}@t{@@command with strange characters: @@'e} @exdent @t{expand@key{TAB}me} @exdent @t{@}} @exdent @t{@@end verbatim} @end example @noindent produces @verbatim { @command with strange characters: @'e expand me } @end verbatim Since the lines containing @code{@@verbatim} and @code{@@end verbatim} produce no output, typically you should put a blank line before the @code{@@verbatim} and another blank line after the @code{@@end verbatim}. Blank lines between the beginning @code{@@verbatim} and the ending @code{@@end verbatim} will appear in the output. It is not reliable to use @code{@@verbatim} inside other Texinfo constructs. @node verbatiminclude @section @code{@@verbatiminclude} @var{file}: Include a File Verbatim @cindex Verbatim, include file @cindex Including a file verbatim @findex verbatiminclude You can include the exact contents of a file in the document with the @code{@@verbatiminclude} command: @example @@verbatiminclude @var{filename} @end example The contents of @var{filename} is printed in a verbatim environment (@pxref{verbatim,,@code{@@verbatim}}). Generally, the file is printed exactly as it is, with all special characters and white space retained. No indentation is added; if you want indentation, enclose the @code{@@verbatiminclude} within @code{@@example} (@pxref{example,,@code{@@example}}). The name of the file is taken literally, with a single exception: @code{@@value@{@var{var}@}} references are expanded. This makes it possible to reliably include files in other directories in a distribution, for instance: @example @@include @@value@{top_srcdir@}/NEWS @end example @noindent (You still have to get @code{top_srcdir} defined in the first place.) @node lisp @section @code{@@lisp}: Marking a Lisp Example @findex lisp @cindex Lisp example The @code{@@lisp} command is used for Lisp code. It is synonymous with the @code{@@example} command. @lisp This is an example of text written between an @code{@@lisp} command and an @code{@@end lisp} command. @end lisp Use @code{@@lisp} instead of @code{@@example} to preserve information regarding the nature of the example. This is useful, for example, if you write a function that evaluates only and all the Lisp code in a Texinfo file. Then you can use the Texinfo file as a Lisp library.@footnote{It would be straightforward to extend Texinfo to work in a similar fashion for C, Fortran, or other languages.} Mark the end of @code{@@lisp} with @code{@@end lisp} on a line by itself. @node small @section @code{@@small@dots{}} Block Commands @cindex Small examples @cindex Examples in smaller fonts @cindex Lisp examples in smaller fonts @findex smalldisplay @findex smallexample @findex smallformat @findex smalllisp In addition to the regular @code{@@example} and @code{@@lisp} commands, Texinfo has ``small'' example-style commands. These are @code{@@smalldisplay}, @code{@@smallexample}, @code{@@smallformat}, and @code{@@smalllisp}. In Info, the @code{@@small@dots{}} commands are equivalent to their non-small companion commands. In @TeX{}, however, the @code{@@small@dots{}} commands typeset text in a smaller font than the non-small example commands. Consequently, many examples containing long lines fit on a page without needing to be shortened. Mark the end of an @code{@@small@dots{}} block with a corresponding @code{@@end small@dots{}}. For example, pair @code{@@smallexample} with @code{@@end smallexample}. Here is an example of the font used by the @code{@@small@dots{}} commands (in Info, the output will be the same as usual): @smallexample @dots{} to make sure that you have the freedom to distribute copies of free software (and charge for this service if you wish), that you receive source code or can get it if you want it, that you can change the software or use pieces of it in new free programs; and that you know you can do these things. @end smallexample The @code{@@small@dots{}} commands make it easier to prepare manuals without forcing you to edit examples by hand to fit them onto narrower pages. As a general rule, a printed document looks much better if you use only one of (for instance) @code{@@example} or @code{@@smallexample} consistently within a chapter. @node display @section @code{@@display} and @code{@@smalldisplay} @cindex Display formatting @findex display The @code{@@display} command begins a kind of example, where each line of input produces a line of output, and the output is indented. It is thus like the @code{@@example} command except that, in a printed manual, @code{@@display} does not select the fixed-width font. In fact, it does not specify the font at all, so that the text appears in the same font it would have appeared in without the @code{@@display} command. @display This is an example of text written between an @code{@@display} command and an @code{@@end display} command. The @code{@@display} command indents the text, but does not fill it. @end display @findex smalldisplay Texinfo also provides a command @code{@@smalldisplay}, which is like @code{@@display} but uses a smaller font in @code{@@smallbook} format. @xref{small}. The @code{@@table} command (@pxref{table}) does not work inside @code{@@display}. Since @code{@@display} is line-oriented, it doesn't make sense to use them together. If you want to indent a table, try @code{@@quotation} (@pxref{quotation}). @node format @section @code{@@format} and @code{@@smallformat} @findex format The @code{@@format} command is similar to @code{@@example} except that, in the printed manual, @code{@@format} does not select the fixed-width font and does not narrow the margins.@refill @format This is an example of text written between an @code{@@format} command and an @code{@@end format} command. As you can see from this example, the @code{@@format} command does not fill the text. @end format @findex smallformat Texinfo also provides a command @code{@@smallformat}, which is like @code{@@format} but uses a smaller font in @code{@@smallbook} format. @xref{small}. @node exdent @section @code{@@exdent}: Undoing a Line's Indentation @cindex Indentation undoing @findex exdent The @code{@@exdent} command removes any indentation a line might have. The command is written at the beginning of a line and applies only to the text that follows the command that is on the same line. Do not use braces around the text. In a printed manual, the text on an @code{@@exdent} line is printed in the roman font.@refill @code{@@exdent} is usually used within examples. Thus,@refill @example @group @@example This line follows an @@@@example command. @@exdent This line is exdented. This line follows the exdented line. The @@@@end example comes on the next line. @@end group @end group @end example @noindent produces @example @group This line follows an @@example command. @exdent This line is exdented. This line follows the exdented line. The @@end example comes on the next line. @end group @end example In practice, the @code{@@exdent} command is rarely used. Usually, you un-indent text by ending the example and returning the page to its normal width.@refill @node flushleft & flushright @section @code{@@flushleft} and @code{@@flushright} @findex flushleft @findex flushright @cindex Ragged right @cindex Ragged left The @code{@@flushleft} and @code{@@flushright} commands line up the ends of lines on the left and right margins of a page, but do not fill the text. The commands are written on lines of their own, without braces. The @code{@@flushleft} and @code{@@flushright} commands are ended by @code{@@end flushleft} and @code{@@end flushright} commands on lines of their own.@refill @need 1500 For example, @example @group @@flushleft This text is written flushleft. @@end flushleft @end group @end example @noindent produces @quotation @flushleft This text is written flushleft. @end flushleft @end quotation @code{@@flushright} produces the type of indentation often used in the return address of letters. For example, @example @group @@flushright Here is an example of text written flushright. The @@code@{@@flushright@} command right justifies every line but leaves the left end ragged. @@end flushright @end group @end example @noindent produces @flushright Here is an example of text written flushright. The @code{@@flushright} command right justifies every line but leaves the left end ragged. @end flushright @node noindent @section @code{@@noindent}: Omitting Indentation @cindex Omitting indentation @cindex Suppressing indentation @cindex Indentation, omitting @findex noindent An example or other inclusion can break a paragraph into segments. Ordinarily, the formatters indent text that follows an example as a new paragraph. You can prevent this on a case-by-case basis by writing @code{@@noindent} at the beginning of a line, preceding the continuation text. You can also disable indentation for all paragraphs globally with @code{@@paragraphindent} (@pxref{paragraphindent, Paragraph Indenting}). It is best to write @code{@@noindent} on a line by itself, since in most environments, spaces following the command will not be ignored. It's ok to use it at the beginning of a line, with text following, outside of any environment. @need 1500 For example: @example @group @@example This is an example @@end example @@noindent This line is not indented. As you can see, the beginning of the line is fully flush left with the line that follows after it. (This whole example is between @@code@{@@@@display@} and @@code@{@@@@end display@}.) @end group @end example @noindent produces: @display @example This is an example @end example @noindent This line is not indented. As you can see, the beginning of the line is fully flush left with the line that follows after it. (This whole example is between @code{@@display} and @code{@@end display}.) @end display To adjust the number of blank lines properly in the Info file output, remember that the line containing @code{@@noindent} does not generate a blank line, and neither does the @code{@@end example} line. In the Texinfo source file for this manual, each line that says `produces' is preceded by @code{@@noindent}. Do not put braces after an @code{@@noindent} command; they are not necessary, since @code{@@noindent} is a command used outside of paragraphs (@pxref{Command Syntax}). @node indent @section @code{@@indent}: Forcing Indentation @cindex Forcing indentation @cindex Inserting indentation @cindex Indentation, forcing @findex indent @indent To complement the @code{@@noindent} command (see the previous section), Texinfo provides the @code{@@indent} command that forces a paragraph to be indented. This paragraph, for instance, is indented using an @code{@@indent} command. The first paragraph of a section is the most likely place to use @code{@@indent}, to override the normal behavior of no indentation there (@pxref{paragraphindent}). It is best to write @code{@@indent} on a line by itself, since in most environments, spaces following the command will not be ignored. The @code{@@indent} line will not generate a blank line in the Info output within an environment. However, it is ok to use it at the beginning of a line, with text following, outside of any environment. Do not put braces after an @code{@@indent} command; they are not necessary, since @code{@@indent} is a command used outside of paragraphs (@pxref{Command Syntax}). @node cartouche @section @code{@@cartouche}: Rounded Rectangles Around Examples @findex cartouche @cindex Box with rounded corners @cindex Rounded rectangles, around examples In a printed manual, the @code{@@cartouche} command draws a box with rounded corners around its contents. In HTML, a normal rectangle is drawn (that's the best HTML can do). @code{@@cartouche} has no effect in Info output. You can use this command to further highlight an example or quotation. For instance, you could write a manual in which one type of example is surrounded by a cartouche for emphasis. For example, @example @@cartouche @@example % pwd /usr/local/share/emacs @@end example @@end cartouche @end example @noindent surrounds the two-line example with a box with rounded corners, in the printed manual. The output from the example looks like this (if you're reading this in Info, you'll see the @code{@@cartouche} had no effect): @cartouche @example % pwd /usr/local/info @end example @end cartouche For proper output in HTML, it's necessary to put the @code{@@cartouche} around the @code{@@example}, and not the other way around. This limitation of @command{makeinfo} may be removed one day. @code{@@cartouche} also implies @code{@@group} (@pxref{group}). @node Lists and Tables @chapter Lists and Tables @cindex Making lists and tables @cindex Lists and tables, making @cindex Tables and lists, making Texinfo has several ways of making lists and tables. Lists can be bulleted or numbered; two-column tables can highlight the items in the first column; multi-column tables are also supported. @menu * Introducing Lists:: Texinfo formats lists for you. * itemize:: How to construct a simple list. * enumerate:: How to construct a numbered list. * Two-column Tables:: How to construct a two-column table. * Multi-column Tables:: How to construct generalized tables. @end menu @node Introducing Lists @section Introducing Lists Texinfo automatically indents the text in lists or tables, and numbers an enumerated list. This last feature is useful if you modify the list, since you do not need to renumber it yourself.@refill Numbered lists and tables begin with the appropriate @@-command at the beginning of a line, and end with the corresponding @code{@@end} command on a line by itself. The table and itemized-list commands also require that you write formatting information on the same line as the beginning @@-command.@refill Begin an enumerated list, for example, with an @code{@@enumerate} command and end the list with an @code{@@end enumerate} command. Begin an itemized list with an @code{@@itemize} command, followed on the same line by a formatting command such as @code{@@bullet}, and end the list with an @code{@@end itemize} command.@refill @findex end Precede each element of a list with an @code{@@item} or @code{@@itemx} command.@refill @sp 1 @noindent Here is an itemized list of the different kinds of table and lists:@refill @itemize @bullet @item Itemized lists with and without bullets. @item Enumerated lists, using numbers or letters. @item Two-column tables with highlighting. @end itemize @sp 1 @noindent Here is an enumerated list with the same items:@refill @enumerate @item Itemized lists with and without bullets. @item Enumerated lists, using numbers or letters. @item Two-column tables with highlighting. @end enumerate @sp 1 @noindent And here is a two-column table with the same items and their @w{@@-commands}:@refill @table @code @item @@itemize Itemized lists with and without bullets. @item @@enumerate Enumerated lists, using numbers or letters. @item @@table @itemx @@ftable @itemx @@vtable Two-column tables, optionally with indexing. @end table @node itemize @section @code{@@itemize}: Making an Itemized List @cindex Itemization @findex itemize The @code{@@itemize} command produces sequences of indented paragraphs, with a bullet or other mark inside the left margin at the beginning of each paragraph for which such a mark is desired.@refill @cindex @code{@@w}, for blank items Begin an itemized list by writing @code{@@itemize} at the beginning of a line. Follow the command, on the same line, with a character or a Texinfo command that generates a mark. Usually, you will write @code{@@bullet} after @code{@@itemize}, but you can use @code{@@minus}, or any command or character that results in a single character in the Info file. If you don't want any mark at all, use @code{@@w}. (When you write the mark command such as @code{@@bullet} after an @code{@@itemize} command, you may omit the @samp{@{@}}.) If you don't specify a mark command, the default is @code{@@bullet}. Write the text of the indented paragraphs themselves after the @code{@@itemize}, up to another line that says @code{@@end itemize}.@refill @findex item At the beginning of each paragraph for which a mark in the margin is desired, write a line that starts with @code{@@item}. It is ok to have text following the @code{@@item}. Usually, you should put a blank line before an @code{@@item}. This puts a blank line in the Info file. (@TeX{} inserts the proper interline whitespace in either case.) Except when the entries are very brief, these blank lines make the list look better.@refill Here is an example of the use of @code{@@itemize}, followed by the output it produces. @code{@@bullet} produces an @samp{*} in Info and a round dot in @TeX{}. @example @group @@itemize @@bullet @@item Some text for foo. @@item Some text for bar. @@end itemize @end group @end example @noindent This produces: @quotation @itemize @bullet @item Some text for foo. @item Some text for bar. @end itemize @end quotation Itemized lists may be embedded within other itemized lists. Here is a list marked with dashes embedded in a list marked with bullets:@refill @example @group @@itemize @@bullet @@item First item. @@itemize @@minus @@item Inner item. @@item Second inner item. @@end itemize @@item Second outer item. @@end itemize @end group @end example @noindent This produces: @quotation @itemize @bullet @item First item. @itemize @minus @item Inner item. @item Second inner item. @end itemize @item Second outer item. @end itemize @end quotation @node enumerate @section @code{@@enumerate}: Making a Numbered or Lettered List @cindex Enumeration @findex enumerate @code{@@enumerate} is like @code{@@itemize} (@pxref{itemize,, @code{@@itemize}}), except that the labels on the items are successive integers or letters instead of bullets. Write the @code{@@enumerate} command at the beginning of a line. The command does not require an argument, but accepts either a number or a letter as an option. Without an argument, @code{@@enumerate} starts the list with the number @samp{1}. With a numeric argument, such as @samp{3}, the command starts the list with that number. With an upper or lower case letter, such as @samp{a} or @samp{A}, the command starts the list with that letter. Write the text of the enumerated list in the same way as an itemized list: write a line starting with @code{@@item} at the beginning of each paragraph that you want enumerated. It is ok to have text following the @code{@@item}. You should put a blank line between entries in the list. This generally makes it easier to read the Info file. @need 1500 Here is an example of @code{@@enumerate} without an argument: @example @group @@enumerate @@item Underlying causes. @@item Proximate causes. @@end enumerate @end group @end example @noindent This produces: @enumerate @item Underlying causes. @item Proximate causes. @end enumerate @sp 1 Here is an example with an argument of @kbd{3}:@refill @sp 1 @example @group @@enumerate 3 @@item Predisposing causes. @@item Precipitating causes. @@item Perpetuating causes. @@end enumerate @end group @end example @noindent This produces: @enumerate 3 @item Predisposing causes. @item Precipitating causes. @item Perpetuating causes. @end enumerate @sp 1 Here is a brief summary of the alternatives. The summary is constructed using @code{@@enumerate} with an argument of @kbd{a}.@refill @sp 1 @enumerate a @item @code{@@enumerate} Without an argument, produce a numbered list, starting with the number 1.@refill @item @code{@@enumerate @var{positive-integer}} With a (positive) numeric argument, start a numbered list with that number. You can use this to continue a list that you interrupted with other text.@refill @item @code{@@enumerate @var{upper-case-letter}} With an upper case letter as argument, start a list in which each item is marked by a letter, beginning with that upper case letter.@refill @item @code{@@enumerate @var{lower-case-letter}} With a lower case letter as argument, start a list in which each item is marked by a letter, beginning with that lower case letter.@refill @end enumerate You can also nest enumerated lists, as in an outline.@refill @node Two-column Tables @section Making a Two-column Table @cindex Tables, making two-column @findex table @code{@@table} is similar to @code{@@itemize} (@pxref{itemize,, @code{@@itemize}}), but allows you to specify a name or heading line for each item. The @code{@@table} command is used to produce two-column tables, and is especially useful for glossaries, explanatory exhibits, and command-line option summaries. @menu * table:: How to construct a two-column table. * ftable vtable:: Automatic indexing for two-column tables. * itemx:: How to put more entries in the first column. @end menu @node table @subsection Using the @code{@@table} Command @cindex Definition lists, typesetting Use the @code{@@table} command to produce two-column tables. It is usually listed for ``definition lists'' of various sorts, where you have a list of terms and a brief text with each one. Write the @code{@@table} command at the beginning of a line, after a blank line, and follow it on the same line with an argument that is a Texinfo ``indicating'' command such as @code{@@code}, @code{@@samp}, @code{@@var}, @code{@@option}, or @code{@@kbd} (@pxref{Indicating}). This command will be applied to the text that goes into the first column of each item and thus determines how it will be highlighted. For example, @code{@@table @@code} will cause the text in the first column to be output as if it @code{@@code} command. @findex asis You may also use the @code{@@asis} command as an argument to @code{@@table}. @code{@@asis} is a command that does nothing; if you use this command after @code{@@table}, the first column entries are output without added highlighting (``as is''). The @code{@@table} command works with other commands besides those explicitly mentioned here. However, you can only use commands that normally take arguments in braces. (In this case, however, you use the command name without an argument, because the subsequent @code{@@item}'s will supply the argument.) @findex item Begin each table entry with an @code{@@item} command at the beginning of a line. Write the first column text on the same line as the @code{@@item} command. Write the second column text on the line following the @code{@@item} line and on subsequent lines. (You do not need to type anything for an empty second column entry.) You may write as many lines of supporting text as you wish, even several paragraphs. But only the text on the same line as the @code{@@item} will be placed in the first column (including any footnotes). Normally, you should put a blank line before an @code{@@item} line. This puts a blank line in the Info file. Except when the entries are very brief, a blank line looks better. End the table with a line consisting of @code{@@end table}, followed by a blank line. @TeX{} will always start a new paragraph after the table, so the blank line is needed for the Info output to be analogous. @need 1500 The following table, for example, highlights the text in the first column with an @code{@@samp} command: @example @group @@table @@samp @@item foo This is the text for @@samp@{foo@}. @@item bar Text for @@samp@{bar@}. @@end table @end group @end example @noindent This produces: @table @samp @item foo This is the text for @samp{foo}. @item bar Text for @samp{bar}. @end table If you want to list two or more named items with a single block of text, use the @code{@@itemx} command. (@xref{itemx,,@code{@@itemx}}.) @node ftable vtable @subsection @code{@@ftable} and @code{@@vtable} @cindex Tables with indexes @cindex Indexing table entries automatically @findex ftable @findex vtable The @code{@@ftable} and @code{@@vtable} commands are the same as the @code{@@table} command except that @code{@@ftable} automatically enters each of the items in the first column of the table into the index of functions and @code{@@vtable} automatically enters each of the items in the first column of the table into the index of variables. This simplifies the task of creating indices. Only the items on the same line as the @code{@@item} commands are indexed, and they are indexed in exactly the form that they appear on that line. @xref{Indices}, for more information about indices.@refill Begin a two-column table using @code{@@ftable} or @code{@@vtable} by writing the @@-command at the beginning of a line, followed on the same line by an argument that is a Texinfo command such as @code{@@code}, exactly as you would for an @code{@@table} command; and end the table with an @code{@@end ftable} or @code{@@end vtable} command on a line by itself. See the example for @code{@@table} in the previous section. @node itemx @subsection @code{@@itemx} @cindex Two named items for @code{@@table} @findex itemx Use the @code{@@itemx} command inside a table when you have two or more first column entries for the same item, each of which should appear on a line of its own. Use @code{@@item} for the first entry, and @code{@@itemx} for all subsequent entries; @code{@@itemx} must always follow an @code{@@item} command, with no blank line intervening. The @code{@@itemx} command works exactly like @code{@@item} except that it does not generate extra vertical space above the first column text. If you have multiple consecutive @code{@@itemx} commands, do not insert any blank lines between them. For example, @example @group @@table @@code @@item upcase @@itemx downcase These two functions accept a character or a string as argument, and return the corresponding upper case (lower case) character or string. @@end table @end group @end example @noindent This produces: @table @code @item upcase @itemx downcase These two functions accept a character or a string as argument, and return the corresponding upper case (lower case) character or string.@refill @end table @noindent (Note also that this example illustrates multi-line supporting text in a two-column table.)@refill @node Multi-column Tables @section @code{@@multitable}: Multi-column Tables @cindex Tables, making multi-column @findex multitable @code{@@multitable} allows you to construct tables with any number of columns, with each column having any width you like. You define the column widths on the @code{@@multitable} line itself, and write each row of the actual table following an @code{@@item} command, with columns separated by an @code{@@tab} command. Finally, @code{@@end multitable} completes the table. Details in the sections below. @menu * Multitable Column Widths:: Defining multitable column widths. * Multitable Rows:: Defining multitable rows, with examples. @end menu @node Multitable Column Widths @subsection Multitable Column Widths @cindex Multitable column widths @cindex Column widths, defining for multitables @cindex Widths, defining multitable column You can define the column widths for a multitable in two ways: as fractions of the line length; or with a prototype row. Mixing the two methods is not supported. In either case, the widths are defined entirely on the same line as the @code{@@multitable} command. @enumerate @item @findex columnfractions @cindex Line length, column widths as fraction of To specify column widths as fractions of the line length, write @code{@@columnfractions} and the decimal numbers (presumably less than 1; a leading zero is allowed and ignored) after the @code{@@multitable} command, as in: @example @@multitable @@columnfractions .33 .33 .33 @end example The fractions need not add up exactly to 1.0, as these do not. This allows you to produce tables that do not need the full line length. @item @cindex Prototype row, column widths defined by To specify a prototype row, write the longest entry for each column enclosed in braces after the @code{@@multitable} command. For example: @example @@multitable @{some text for column one@} @{for column two@} @end example @noindent The first column will then have the width of the typeset `some text for column one', and the second column the width of `for column two'. The prototype entries need not appear in the table itself. Although we used simple text in this example, the prototype entries can contain Texinfo commands; markup commands such as @code{@@code} are particularly likely to be useful. @end enumerate @node Multitable Rows @subsection Multitable Rows @cindex Multitable rows @cindex Rows, of a multitable @findex item @findex tab After the @code{@@multitable} command defining the column widths (see the previous section), you begin each row in the body of a multitable with @code{@@item}, and separate the column entries with @code{@@tab}. Line breaks are not special within the table body, and you may break input lines in your source file as necessary. @findex headitem @cindex Heading row, in table @cindex HTML tag You can also use @code{@@headitem} instead of @code{@@item} to produce a @dfn{heading row}. The @TeX{} output for such a row is in bold, and the HTML, XML, and Docbook output uses the @code{} tag. Here is a complete example of a multi-column table (the text is from @cite{The GNU Emacs Manual}, @pxref{Split Window,, Splitting Windows, emacs, The GNU Emacs Manual}): @example @@multitable @@columnfractions .15 .45 .4 @@headitem Key @@tab Command @@tab Description @@item C-x 2 @@tab @@code@{split-window-vertically@} @@tab Split the selected window into two windows, with one above the other. @@item C-x 3 @@tab @@code@{split-window-horizontally@} @@tab Split the selected window into two windows positioned side by side. @@item C-Mouse-2 @@tab @@tab In the mode line or scroll bar of a window, split that window. @@end multitable @end example @noindent produces: @multitable @columnfractions .15 .45 .4 @headitem Key @tab Command @tab Description @item C-x 2 @tab @code{split-window-vertically} @tab Split the selected window into two windows, with one above the other. @item C-x 3 @tab @code{split-window-horizontally} @tab Split the selected window into two windows positioned side by side. @item C-Mouse-2 @tab @tab In the mode line or scroll bar of a window, split that window. @end multitable @node Special Displays @chapter Special Displays @cindex Special displays The commands in this chapter allow you to write text that is specially displayed (output format permitting), outside of the normal document flow. One set of such commands is for creating ``floats'', that is, figures, tables, and the like, set off from the main text, possibly numbered, captioned, and/or referred to from elsewhere in the document. Images are often included in these displays. Another group of commands is for creating footnotes in Texinfo. @menu * Floats:: Figures, tables, and the like. * Images:: Including graphics and images. * Footnotes:: Writing footnotes. @end menu @node Floats @section Floats @cindex Floats, in general A @dfn{float} is a display which is set off from the main text. It is typically labelled as being a ``Figure'', ``Table'', ``Example'', or some similar type. @cindex Floating, not yet implemented A float is so-named because, in principle, it can be moved to the bottom or top of the current page, or to a following page, in the printed output. (Floating does not make sense in other output formats.) In the present version of Texinfo, however, this floating is unfortunately not yet implemented. Instead, the floating material is simply output at the current location, more or less as if it were an @code{@@group} (@pxref{group,,@code{@@group}}). @menu * float:: Producing floating material. * caption shortcaption:: Specifying descriptions for floats. * listoffloats:: A table of contents for floats. @end menu @node float @subsection @code{@@float} [@var{type}][,@var{label}]: Floating material @findex float @cindex Float environment To produce floating material, enclose the material you want to be displayed separate between @code{@@float} and @code{@@end float} commands, on lines by themselves. Floating material uses @code{@@image} to display an already-existing graphic (@pxref{Images}), or @code{@@multitable} to display a table (@pxref{Multi-column Tables}). However, the contents of the float can be anything. Here's an example with simple text: @example @@float Figure,fig:ex1 This is an example float. @@end float @end example @noindent And the output: @float Figure,fig:ex1 This is an example float. @end float As shown in the example, @code{@@float} takes two arguments (separated by a comma), @var{type} and @var{label}. Both are optional. @table @var @item type Specifies the sort of float this is; typically a word such as ``Figure'', ``Table'', etc. If not given, and @var{label} is, any cross-referencing will simply use a bare number. @item label Specifies a cross-reference label for this float. If given, this float is automatically given a number, and will appear in any @code{@@listofloats} output (@pxref{listoffloats}). Cross-references to @var{label} are allowed. @cindex Floats, making unnumbered @cindex Unnumbered float, creating On the other hand, if @var{label} is not given, then the float will not be numbered and consequently will not appear in the @code{@@listoffloats} output or be cross-referenceable. @end table @noindent Normally, you specify both @var{type} and @var{label}, to get a labeled and numbered float. @cindex Floats, numbering of @cindex Numbering of floats In Texinfo, all floats are numbered the same way: with the chapter number (or appendix letter), a period, and the float number, which simply counts 1, 2, 3, @dots{}, and is reset at each chapter. Each float type is counted independently. Floats within an @code{@@unnumbered} are numbered, or outside of any chapter, are simply numbered consecutively from 1. These numbering conventions are not, at present, changeable. @node caption shortcaption @subsection @code{@@caption} & @code{@@shortcaption} @findex caption @findex shortcaption @cindex Captions, for floats @cindex Short captions, for lists of floats You may write an @code{@@caption} anywhere within a @code{@@float} environment, to define a caption for the float. It is not allowed in any other context. @code{@@caption} takes a single argument, enclosed in braces. Here's an example: @example @@float An example float, with caption. @@caption@{Caption for example float.@} @@end float @end example @noindent The output is: @float An example float, with caption. @caption{Caption for example float.} @end float @code{@@caption} can appear anywhere within the float; it is not processed until the @code{@@end float}. The caption text is usually a sentence or two, but may consist of several paragraphs if necessary. In the output, the caption always appears below the float; this is not currently changeable. It is preceded by the float type and/or number, as specified to the @code{@@float} command (see the previous section). The @code{@@shortcaption} command likewise may be used only within @code{@@float}, and takes a single argument in braces. The short caption text is used instead of the caption text in a list of floats (see the next section). Thus, you can write a long caption for the main document, and a short title to appear in the list of floats. For example: @example @@float ... as above ... @@shortcaption@{Text for list of floats.@} @@end float @end example The text for @code{@@caption} and @code{@@shortcaption} may not contain comments (@code{@@c}), verbatim text (@code{@@verb}), environments such as @code{@@example}, or other complex constructs. @node listoffloats @subsection @code{@@listoffloats}: Tables of contents for floats @findex listoffloats @cindex List of floats @cindex Floats, list of @cindex Table of contents, for floats You can write a @code{@@listoffloats} command to generate a list of floats for a given float type (@pxref{float}), analogous to the document's overall table of contents. Typically, it is written in its own @code{@@unnumbered} node to provide a heading and structure, rather like @code{@@printindex} (@pxref{Printing Indices & Menus}). @code{@@listoffloats} takes one optional argument, the float type. Here's an example: @example @@node List of Figures @@unnumbered List of Figures @@listoffloats Figure @end example @noindent And the output from @code{@@listoffloats}: @display @listoffloats Figure @end display Without any argument, @code{@@listoffloats} generates a list of floats for which no float type was specified, i.e., no first argument to the @code{@@float} command (@pxref{float}). Each line in the list of floats contains the float type (if any), the float number, and the caption, if any---the @code{@@shortcaption} argument, if it was specified, else the @code{@@caption} argument. In Info, the result is a menu where each float can be selected. In HTML, each line is a link to the float. In printed output, the page number is included. Unnumbered floats (those without cross-reference labels) are omitted from the list of floats. @node Images @section Inserting Images @cindex Images, inserting @cindex Pictures, inserting @findex image You can insert an image given in an external file with the @code{@@image} command. Although images can be used anywhere, including the middle of a paragraph, we describe them in this chapter since they are most often part of a displayed figure or example. @menu * Image Syntax:: * Image Scaling:: @end menu @node Image Syntax @subsection Image Syntax Here is the basic synopsis of the @code{@@image} command: @example @@image@{@var{filename}@r{[,} @var{width}@r{[,} @var{height}@r{[,} @var{alttext}@r{[, }@var{extension}@r{]]]]}@} @end example @cindex Formats for images @cindex Image formats The @var{filename} argument is mandatory, and must not have an extension, because the different processors support different formats: @itemize @bullet @item @TeX{} reads the file @file{@var{filename}.eps} (Encapsulated PostScript format). @item @pindex pdftex@r{, and images} PDF@TeX{} reads @file{@var{filename}.pdf} (Adobe's Portable Document Format). @item @code{makeinfo} includes @file{@var{filename}.txt} verbatim for Info output (more or less as if it was an @code{@@example}). @item @code{makeinfo} uses the optional fifth argument @var{extension} to @code{@@image} for the filename extension, if it is specified. For example: @pindex XPM image format @example @@image@{foo,,,,.xpm@} @end example @noindent will cause @code{makeinfo} to look for @file{foo.xpm} before any others. @end itemize The @var{width} and @var{height} arguments are described in the next section. For @TeX{} output, if an image is the first thing in a paragraph, for example if you want two images side-by-side, you must precede it with @code{@@noindent} (@pxref{noindent,,@code{@@noindent}}). Otherwise it will be displayed on a line by itself. If you want it centered, use @code{@@center} (@pxref{titlefont center sp,,@code{@@titlefont @@center @@sp}}). @cindex Alt attribute for images @cindex Images, alternate text for When producing html, @code{makeinfo} sets the @dfn{alt attribute} for inline images to the optional @var{alttext} (fourth) argument to @code{@@image}, if supplied. If not supplied, @code{makeinfo} uses the full file name of the image being displayed. If you want an empty @code{alt} string, use @code{@@-}. The @var{alttext} is taken as Texinfo text, so special characters such as @samp{"} and @samp{<} and @samp{&} are escaped in the HTML and XML output. @cindex GIF images, unsupported due to patents @cindex PNG image format @cindex JPG image format If you do not supply the optional @var{extension} (fifth) argument, @code{makeinfo} first tries @file{@var{filename}.png}; if that does not exist, it tries @file{@var{filename}.jpg}. If that does not exist either, it complains. (We cannot support GIF format directly due to software patents.) In Info output, @code{makeinfo} writes a reference to the binary image file (trying @var{filename} suffixed with @file{@var{extension}}, @file{@var{.extension}}, @file{.png}, or @file{.jpg}, in that order) if one exists. It also literally includes the @file{.txt} file if one exists. This way, Info readers which can display images (such as the Emacs Info browser, running under X) can do so, whereas Info readers which can only use text (such as the standalone Info reader) can display the textual version. The implementation of this is to put the following construct into the Info output: @example ^@@^H[image src="@var{binaryfile}" text="@var{txtfile}" alt="@var{alttext} ... ^@@^H] @end example @noindent where @samp{^@@} and @samp{^H} stand for the actual null and backspace control characters. If one of the files is not present, the corresponding argument is omitted. The reason for mentioning this here is that older Info browsers (this feature was introduced in Texinfo version 4.6) will display the above literally, which, although not pretty, should not be harmful. @node Image Scaling @subsection Image Scaling @cindex Images, scaling @cindex Scaling images @cindex Width of images @cindex Height of images @cindex Aspect ratio of images @cindex Distorting images The optional @var{width} and @var{height} arguments to the @code{@@image} command (see the previous section) specify the size to scale the image to. They are ignored for Info output. If neither is specified, the image is presented in its natural size (given in the file); if only one is specified, the other is scaled proportionately; and if both are specified, both are respected, thus possibly distorting the original image by changing its aspect ratio. @cindex Dimensions and image sizes The @var{width} and @var{height} may be specified using any valid @TeX{} dimension, namely: @table @asis @item pt @cindex Points (dimension) point (72.27pt = 1in) @item pc @cindex Picas pica (1pc = 12pt) @item bp @cindex Big points big point (72bp = 1in) @item in @cindex Inches inch @item cm @cindex Centimeters centimeter (2.54cm = 1in) @item mm @cindex Millimeters millimeter (10mm = 1cm) @item dd @cindex Did@^ot points did@^ot point (1157dd = 1238pt) @item cc @cindex Ciceros cicero (1cc = 12dd) @item sp @cindex Scaled points scaled point (65536sp = 1pt) @end table @pindex ridt.eps For example, the following will scale a file @file{ridt.eps} to one inch vertically, with the width scaled proportionately: @example @@image@{ridt,,1in@} @end example @pindex epsf.tex For @code{@@image} to work with @TeX{}, the file @file{epsf.tex} must be installed somewhere that @TeX{} can find it. (The standard location is @file{@var{texmf}/tex/generic/dvips/epsf.tex}, where @var{texmf} is a root of your @TeX{} directory tree.) This file is included in the Texinfo distribution and is also available from @uref{ftp://tug.org/tex/epsf.tex}, among other places. @code{@@image} can be used within a line as well as for displayed figures. Therefore, if you intend it to be displayed, be sure to leave a blank line before the command, or the output will run into the preceding text. Image scaling is presently implemented only in @TeX{}, not in HTML or any other sort of output. @node Footnotes @section Footnotes @cindex Footnotes @findex footnote A @dfn{footnote} is for a reference that documents or elucidates the primary text.@footnote{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 @cite{The Chicago Manual of Style}, which is published by the University of Chicago Press.} Footnotes are distracting; use them sparingly, if at all. Standard bibliographical references are better placed in a bibliography at the end of a document than in footnotes throughout. @menu * Footnote Commands:: How to write a footnote in Texinfo. * Footnote Styles:: Controlling how footnotes appear in Info. @end menu @node Footnote Commands @subsection Footnote Commands In Texinfo, footnotes are created with the @code{@@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. Footnotes may be of any length (they will be broken across pages if necessary), but are usually short. The template is: @example ordinary text@@footnote@{@var{text of footnote}@} @end example As shown here, the @code{@@footnote} command should come right after the text being footnoted, with no intervening space; otherwise, the footnote marker might end up starting a line. For example, this clause is followed by a sample footnote@footnote{Here is the sample footnote.}; in the Texinfo source, it looks like this: @example @dots{}a sample footnote@@footnote@{Here is the sample footnote.@}; in the Texinfo source@dots{} @end example As you can see, the source includes two punctuation marks next to each other; in this case, @samp{.@};} is the sequence. This is normal (the first ends the footnote and the second belongs to the sentence being footnoted), so don't worry that it looks odd. 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: @samp{(1)}. The reference mark is followed by a cross-reference link to the footnote's text. In the HTML output, footnote references are marked with a small, superscripted number which is rendered as a hypertext link to the footnote text. By the way, footnotes in the argument of an @code{@@item} command for a @code{@@table} must be on the same line as the @code{@@item} (as usual). @xref{Two-column Tables}. @node Footnote Styles @subsection Footnote Styles Info has two footnote styles, which determine where the text of the footnote is located: @itemize @bullet @cindex @samp{@r{End}} node footnote style @item 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 @samp{Footnotes} within it. Each footnote begins with an @samp{(@var{n})} reference mark. @need 700 @noindent Here is an example of a single footnote in the end of node style:@refill @example @group --------- Footnotes --------- (1) Here is a sample footnote. @end group @end example @cindex @samp{@r{Separate}} footnote style @item 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 @samp{(@var{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 with the footnotes is constructed by appending @w{@samp{-Footnotes}} to the name of the node that contains the footnotes. (Consequently, the footnotes' node for the @file{Footnotes} node is @w{@file{Footnotes-Footnotes}}!) The footnotes' node has an `Up' node pointer that leads back to its parent node. @noindent Here is how the first footnote in this manual looks after being formatted for Info in the separate node style: @smallexample @group File: texinfo.info Node: Overview-Footnotes, Up: Overview (1) The first syllable of "Texinfo" is pronounced like "speck", not "hex". @dots{} @end group @end smallexample @end itemize Unless your document has long and important footnotes (as in, say, Gibbon's @cite{Decline and Fall @dots{}}), we recommend the @samp{end} style, as it is simpler for readers to follow. @findex footnotestyle Use the @code{@@footnotestyle} command to specify an Info file's footnote style. Write this command at the beginning of a line followed by an argument, either @samp{end} for the end node style or @samp{separate} for the separate node style. @need 700 For example, @example @@footnotestyle end @end example @noindent or @example @@footnotestyle separate @end example Write an @code{@@footnotestyle} command before or shortly after the end-of-header line at the beginning of a Texinfo file. (If you include the @code{@@footnotestyle} command between the start-of-header and end-of-header lines, the region formatting commands will format footnotes as specified.)@refill If you do not specify a footnote style, the formatting commands use their default style. Currently, @code{texinfo-format-buffer} and @code{texinfo-format-region} use the `separate' style and @code{makeinfo} uses the `end' style. @node Indices @chapter Indices @cindex Indices Using Texinfo, you can generate indices without having to sort and collate entries manually. In an index, the entries are listed in alphabetical order, together with information on how to find the discussion of each entry. In a printed manual, this information consists of page numbers. In an Info file, this information is a menu entry leading to the first node referenced. Texinfo provides several predefined kinds of index: an index for functions, an index for variables, an index for concepts, and so on. You can combine indices or use them for other than their canonical purpose. Lastly, you can define your own new indices. @xref{Printing Indices & Menus}, for information on how to print indices. @menu * Index Entries:: Choose different words for index entries. * Predefined Indices:: Use different indices for different kinds of entries. * Indexing Commands:: How to make an index entry. * Combining Indices:: How to combine indices. * New Indices:: How to define your own indices. @end menu @node Index Entries @section Making Index Entries @cindex Index entries, making @cindex Entries, making index When you are making index entries, it is good practice to think of the different ways people may look for something. Different people @emph{do not} think of the same words when they look something up. A helpful index will have items indexed under all the different words that people may use. For example, one reader may think it obvious that the two-letter names for indices should be listed under ``Indices, two-letter names'', since the word ``Index'' is the general concept. But another reader may remember the specific concept of two-letter names and search for the entry listed as ``Two letter names for indices''. A good index will have both entries and will help both readers.@refill Like typesetting, the construction of an index is a highly skilled, professional art, the subtleties of which are not appreciated until you need to do it yourself.@refill @xref{Printing Indices & Menus}, for information about printing an index at the end of a book or creating an index menu in an Info file.@refill @node Predefined Indices @section Predefined Indices Texinfo provides six predefined indices. Here are their nominal meanings, abbreviations, and the corresponding index entry commands: @table @samp @item cp @cindex @code{cp} (concept) index (@code{@@cindex}) concept index, for general concepts. @item fn @cindex @code{fn} (function) index (@code{@@findex}) function index, for function and function-like names (such as entry points of libraries). @item ky @cindex @code{ky} (keystroke) index (@code{@@kindex}) keystroke index, for keyboard commands. @item pg @cindex @code{pg} (program) index (@code{@@pindex}) program index, for names of programs. @item tp @cindex @code{tp} (data type) index (@code{@@tindex}) data type index, for type names (such as structures defined in header files). @item vr @cindex @code{vr} (variable) index (@code{@@vindex}) variable index, for variable names (such as global variables of libraries). @end table @noindent Not every manual needs all of these, and most manuals use only two or three at most. The present manual, for example, has two indices: a concept index and an @@-command index (that is actually the function index but is called a command index in the chapter heading). You are not required to use the predefined indices strictly for their canonical purposes. For example, suppose you wish to index some C preprocessor macros. You could put them in the function index along with actual functions, just by writing @code{@@findex} commands for them; then, when you print the ``Function Index'' as an unnumbered chapter, you could give it the title `Function and Macro Index' and all will be consistent for the reader. On the other hand, it is best not to stray too far from the meaning of the predefined indices. Otherwise, in the event that your text is combined with other text from other manuals, the index entries will not match up. Instead, define your own new index (@pxref{New Indices}). We recommend having a single index in the final document whenever possible, however many source indices you use, since then readers have only one place to look. Two or more source indices can be combined into one output index using the @code{@@synindex} or @code{@@syncodeindex} commands (@pxref{Combining Indices}). @node Indexing Commands @section Defining the Entries of an Index @cindex Defining indexing entries @cindex Index entries @cindex Entries for an index @cindex Specifying index entries @cindex Creating index entries The data to make an index come from many individual indexing commands scattered throughout the Texinfo source file. Each command says to add one entry to a particular index; after formatting, the index will give the current page number or node name as the reference.@refill An index entry consists of an indexing command at the beginning of a line followed, on the rest of the line, by the entry.@refill For example, this section begins with the following five entries for the concept index:@refill @example @@cindex Defining indexing entries @@cindex Index entries, defining @@cindex Entries for an index @@cindex Specifying index entries @@cindex Creating index entries @end example Each predefined index has its own indexing command---@code{@@cindex} for the concept index, @code{@@findex} for the function index, and so on, as listed in the previous section. @cindex Writing index entries @cindex Index entry writing Concept index entries consist of text. The best way to write an index is to choose entries that are terse yet clear. If you can do this, the index often looks better if the entries are not capitalized, but written just as they would appear in the middle of a sentence. (Capitalize proper names and acronyms that always call for upper case letters.) This is the case convention we use in most GNU manuals' indices. If you don't see how to make an entry terse yet clear, make it longer and clear---not terse and confusing. If many of the entries are several words long, the index may look better if you use a different convention: to capitalize the first word of each entry. But do not capitalize a case-sensitive name such as a C or Lisp function name or a shell command; that would be a spelling error. Whichever case convention you use, please use it consistently! Entries in indices other than the concept index are symbol names in programming languages, or program names; these names are usually case-sensitive, so use upper and lower case as required for them. @cindex Index font types By default, entries for a concept index are printed in a small roman font and entries for the other indices are printed in a small @code{@@code} font. You may change the way part of an entry is printed with the usual Texinfo commands, such as @code{@@file} for file names (@pxref{Marking Text}), and @code{@@r} for the normal roman font (@pxref{Fonts}). @quotation Caution Do not use a colon in an index entry. In Info, a colon separates the menu entry name from the node name, so a colon in the entry itself confuses Info. @xref{Menu Parts}, for more information about the structure of a menu entry. @end quotation @node Combining Indices @section Combining Indices @cindex Combining indices @cindex Indices, combining them Sometimes you will want to combine two disparate indices such as functions and concepts, perhaps because you have few enough entries that a separate index would look silly. You could put functions into the concept index by writing @code{@@cindex} commands for them instead of @code{@@findex} commands, and produce a consistent manual by printing the concept index with the title `Function and Concept Index' and not printing the `Function Index' at all; but this is not a robust procedure. It works only if your document is never included as part of another document that is designed to have a separate function index; if your document were to be included with such a document, the functions from your document and those from the other would not end up together. Also, to make your function names appear in the right font in the concept index, you would need to enclose every one of them between the braces of @code{@@code}. @menu * syncodeindex:: How to merge two indices, using @code{@@code} font for the merged-from index. * synindex:: How to merge two indices, using the default font of the merged-to index. @end menu @node syncodeindex @subsection @code{@@syncodeindex} @findex syncodeindex When you want to combine functions and concepts into one index, you should index the functions with @code{@@findex} and index the concepts with @code{@@cindex}, and use the @code{@@syncodeindex} command to redirect the function index entries into the concept index.@refill The @code{@@syncodeindex} command takes two arguments; they are the name of the index to redirect, and the name of the index to redirect it to. The template looks like this:@refill @example @@syncodeindex @var{from} @var{to} @end example @cindex Predefined names for indices @cindex Two letter names for indices @cindex Indices, two letter names @cindex Names for indices For this purpose, the indices are given two-letter names:@refill @table @samp @item cp concept index @item fn function index @item vr variable index @item ky key index @item pg program index @item tp data type index @end table Write an @code{@@syncodeindex} command before or shortly after the end-of-header line at the beginning of a Texinfo file. For example, to merge a function index with a concept index, write the following:@refill @example @@syncodeindex fn cp @end example @noindent This will cause all entries designated for the function index to merge in with the concept index instead.@refill To merge both a variables index and a function index into a concept index, write the following:@refill @example @group @@syncodeindex vr cp @@syncodeindex fn cp @end group @end example @cindex Fonts for indices The @code{@@syncodeindex} command puts all the entries from the `from' index (the redirected index) into the @code{@@code} font, overriding whatever default font is used by the index to which the entries are now directed. This way, if you direct function names from a function index into a concept index, all the function names are printed in the @code{@@code} font as you would expect.@refill @node synindex @subsection @code{@@synindex} @findex synindex The @code{@@synindex} command is nearly the same as the @code{@@syncodeindex} command, except that it does not put the `from' index entries into the @code{@@code} font; rather it puts them in the roman font. Thus, you use @code{@@synindex} when you merge a concept index into a function index.@refill @xref{Printing Indices & Menus}, for information about printing an index at the end of a book or creating an index menu in an Info file.@refill @node New Indices @section Defining New Indices @cindex Defining new indices @cindex Indices, defining new @cindex New index defining @findex defindex @findex defcodeindex In addition to the predefined indices, you may use the @code{@@defindex} and @code{@@defcodeindex} commands to define new indices. These commands create new indexing @@-commands with which you mark index entries. The @code{@@defindex} command is used like this: @example @@defindex @var{name} @end example The name of an index should be a two letter word, such as @samp{au}. For example: @example @@defindex au @end example This defines a new index, called the @samp{au} index. At the same time, it creates a new indexing command, @code{@@auindex}, that you can use to make index entries. Use this new indexing command just as you would use a predefined indexing command. For example, here is a section heading followed by a concept index entry and two @samp{au} index entries. @example @@section Cognitive Semantics @@cindex kinesthetic image schemas @@auindex Johnson, Mark @@auindex Lakoff, George @end example @noindent (Evidently, @samp{au} serves here as an abbreviation for ``author''.) In general, Texinfo constructs the new indexing command by concatenating the name of the index with @samp{index}; thus, defining an @samp{xy} index leads to the automatic creation of an @code{@@xyindex} command. Use the @code{@@printindex} command to print the index, as you do with the predefined indices. For example: @example @group @@node Author Index @@unnumbered Author Index @@printindex au @end group @end example The @code{@@defcodeindex} is like the @code{@@defindex} command, except that, in the printed output, it prints entries in an @code{@@code} font by default instead of a roman font. You should define new indices before the end-of-header line of a Texinfo file, and (of course) before any @code{@@synindex} or @code{@@syncodeindex} commands (@pxref{Texinfo File Header}). @node Insertions @chapter Special Insertions @cindex Inserting special characters and symbols @cindex Special insertions Texinfo provides several commands for inserting characters that have special meaning in Texinfo, such as braces, and for other graphic elements that do not correspond to simple characters you can type. @iftex These are: @itemize @bullet @item @samp{@@} and braces and commas. @item Whitespace within and around a sentence. @item Accents. @item Dots and bullets. @item The @TeX{} logo and the copyright symbol. @item The pounds currency symbol. @item The minus sign. @item Mathematical expressions. @item Glyphs for evaluation, macros, errors, etc. @item Footnotes. @item Images. @end itemize @end iftex @menu * Atsign Braces Comma:: Inserting @@ and @{@} and ,. * Inserting Space:: How to insert the right amount of space within a sentence. * Inserting Accents:: How to insert accents and special characters. * Dots Bullets:: How to insert dots and bullets. * TeX and copyright:: How to insert the @TeX{} logo and the copyright symbol. * euro:: How to insert the Euro currency symbol. * pounds:: How to insert the pounds currency symbol. * minus:: How to insert a minus sign. * math:: How to format a mathematical expression. * Glyphs:: How to indicate results of evaluation, expansion of macros, errors, etc. @end menu @node Atsign Braces Comma @section Inserting @@ and @{@} and @comma{} @cindex Special characters, inserting @cindex Commands to insert special characters @samp{@@} and curly braces are special characters in Texinfo. To insert these characters so they appear in text, you must put an @samp{@@} in front of these characters to prevent Texinfo from misinterpreting them. The comma `,' is a special character only in one uncommon context: it separates arguments to commands that take multiple arguments. @menu * Inserting an Atsign:: * Inserting Braces:: * Inserting a Comma:: @end menu @node Inserting an Atsign @subsection Inserting `@@' with @code{@@@@} @findex @@ @r{(literal @samp{@@})} @cindex Inserting @@ @r{(literal @samp{@@})} @code{@@@@} stands for a single @samp{@@} in either printed or Info output. Do not put braces after an @code{@@@@} command. @node Inserting Braces @subsection Inserting `@{' and `@}' with @code{@@@{} and @code{@@@}} @cindex Braces, inserting @findex @{ @r{(literal @samp{@{})} @findex @} @r{(literal @samp{@}})} @code{@@@{} stands for a single @samp{@{} in either printed or Info output. @code{@@@}} stands for a single @samp{@}} in either printed or Info output. Do not put braces after either an @code{@@@{} or an @code{@@@}} command.ppp @node Inserting a Comma @subsection Inserting `,' with @code{@@comma@{@}} @cindex Commas, inserting @findex comma Ordinarily, a comma `,' is a normal character that can be simply typed in your input where you need it. However, Texinfo uses the comma as a special character in one uncommon context: some commands, such as @code{@@acronym} (@pxref{acronym}) and @code{@@xref} (@pxref{Cross References}), as well as user-defined macros (@pxref{Defining Macros}), can take more than one argument. In these cases, the comma character is used to separate arguments. Since a comma chacter would confuse Texinfo's parsing for these commands, you must use the command @samp{@comma{}} instead if you want to have an actual comma in the output. Here are some examples: @example @@acronym@{ABC, A Bizarre @@comma@{@}@} @@xref@{Comma,, The @@comma@{@} symbol@} @@mymac@{One argument@@comma@{@} containing a comma@} @end example Although @comma{} can be used anywhere, there is no need for it anywhere except in this unusual case. @node Inserting Space @section Inserting Space @cindex Inserting space @cindex Spacing, inserting The following sections describe commands that control spacing of various kinds within and after sentences. @menu * Not Ending a Sentence:: Sometimes a . doesn't end a sentence. * Ending a Sentence:: Sometimes it does. * Multiple Spaces:: Inserting multiple spaces. * dmn:: How to format a dimension. @end menu @node Not Ending a Sentence @subsection Not Ending a Sentence @cindex Not ending a sentence @cindex Sentence non-ending punctuation @cindex Periods, inserting Depending on whether a period or exclamation point or question mark is inside or at the end of a sentence, less or more space is inserted after a period in a typeset manual. Since it is not always possible to determine when a period ends a sentence and when it is used in an abbreviation, special commands are needed in some circumstances. Usually, Texinfo can guess how to handle periods, so you do not need to use the special commands; you just enter a period as you would if you were using a typewriter, which means you put two spaces after the period, question mark, or exclamation mark that ends a sentence. @findex @r{(suppress end-of-sentence space)} Use the @code{@@:}@: command after a period, question mark, exclamation mark, or colon that should not be followed by extra space. For example, use @code{@@:}@: after periods that end abbreviations which are not at the ends of sentences. For example, @example The s.o.p.@@: has three parts @dots{} The s.o.p. has three parts @dots{} @end example @noindent @ifnottex produces @end ifnottex @iftex produces the following. If you look carefully at this printed output, you will see a little extraneous space after @samp{s.o.p.} in the second line. @end iftex @quotation The s.o.p.@: has three parts @dots{}@* The s.o.p. has three parts @dots{} @end quotation @noindent (Incidentally, @samp{s.o.p.} is an abbreviation for ``Standard Operating Procedure''.) @code{@@:} has no effect on the Info and HTML output. In Docbook and XML, the previous punctuation character (.?!:) is output as an entity instead of as the normal character: @samp{. ? ! :}. This gives further processors a chance to notice and not add the usual extra space. Do not put braces after @code{@@:} (or any non-alphabetic command). @node Ending a Sentence @subsection Ending a Sentence @cindex Ending a Sentence @cindex Sentence ending punctuation @findex . @r{(end of sentence)} @findex ! @r{(end of sentence)} @findex ? @r{(end of sentence)} Use @code{@@.}@: instead of a period, @code{@@!}@: instead of an exclamation point, and @code{@@?}@: instead of a question mark at the end of a sentence that ends with a capital letter. Otherwise, @TeX{} will think the letter is an abbreviation and will not insert the correct end-of-sentence spacing. Here is an example: @example Give it to M.I.B. and to M.E.W@@. Also, give it to R.J.C@@. Give it to M.I.B. and to M.E.W. Also, give it to R.J.C. @end example @noindent @ifnottex produces @end ifnottex @iftex produces the following. If you look carefully at this printed output, you will see a little more whitespace after the @samp{W} in the first line. @end iftex @quotation Give it to M.I.B. and to M.E.W@. Also, give it to R.J.C@.@* Give it to M.I.B. and to M.E.W. Also, give it to R.J.C. @end quotation In the Info file output, @code{@@.}@: is equivalent to a simple @samp{.}; likewise for @code{@@!}@: and @code{@@?}@:. The meanings of @code{@@:} and @code{@@.}@: in Texinfo are designed to work well with the Emacs sentence motion commands (@pxref{Sentences,,, emacs, The GNU Emacs Manual}). Do not put braces after any of these commands. @node Multiple Spaces @subsection Multiple Spaces @cindex Multiple spaces @cindex Whitespace, inserting @cindex Space, inserting horizontal @findex @findex @findex Ordinarily, @TeX{} collapses multiple whitespace characters (space, tab, and newline) into a single space. Info output, on the other hand, preserves whitespace as you type it, except for changing a newline into a space; this is why it is important to put two spaces at the end of sentences in Texinfo documents. Occasionally, you may want to actually insert several consecutive spaces, either for purposes of example (what your program does with multiple spaces as input), or merely for purposes of appearance in headings or lists. Texinfo supports three commands: @code{@@@kbd{SPACE}}, @code{@@@kbd{TAB}}, and @code{@@@kbd{NL}}, all of which insert a single space into the output. (Here, @code{@@@kbd{SPACE}} represents an @samp{@@} character followed by a space, i.e., @samp{@@ }, and @kbd{TAB} and @kbd{NL} represent the tab character and end-of-line, i.e., when @samp{@@} is the last character on a line.) For example, @example Spacey@@ @@ @@ @@ example. @end example @noindent produces @example Spacey@ @ @ @ example. @end example Other possible uses of @code{@@@kbd{SPACE}} have been subsumed by @code{@@multitable} (@pxref{Multi-column Tables}). Do not follow any of these commands with braces. To produce a non-breakable space, see @ref{tie, @code{@@tie}}. @node dmn @subsection @code{@@dmn}@{@var{dimension}@}: Format a Dimension @cindex Thin space between number, dimension @cindex Dimension formatting @cindex Format a dimension @findex dmn At times, you may want to write @samp{12@dmn{pt}} or @samp{8.5@dmn{in}} with little or no space between the number and the abbreviation for the dimension. You can use the @code{@@dmn} command to do this. On seeing the command, @TeX{} inserts just enough space for proper typesetting; the Info formatting commands insert no space at all, since the Info file does not require it. To use the @code{@@dmn} command, write the number and then follow it immediately, with no intervening space, by @code{@@dmn}, and then by the dimension within braces. For example, @example A4 paper is 8.27@@dmn@{in@} wide. @end example @noindent produces @quotation A4 paper is 8.27@dmn{in} wide. @end quotation Not everyone uses this style. Some people prefer @w{@samp{8.27 in.@@:}} or @w{@samp{8.27 inches}} to @samp{8.27@@dmn@{in@}} in the Texinfo file. In these cases, however, the formatters may insert a line break between the number and the dimension, so use @code{@@w} (@pxref{w}). Also, if you write a period after an abbreviation within a sentence, you should write @samp{@@:} after the period to prevent @TeX{} from inserting extra whitespace, as shown here. @xref{Not Ending a Sentence}. @node Inserting Accents @section Inserting Accents @cindex Inserting accents @cindex Accents, inserting @cindex Floating accents, inserting Here is a table with the commands Texinfo provides for inserting floating accents. The commands with non-alphabetic names do not take braces around their argument (which is taken to be the next character). (Exception: @code{@@,} @emph{does} take braces around its argument.) This is so as to make the source as convenient to type and read as possible, since accented characters are very common in some languages. To get the true accented characters output in Info, and not just the ASCII transliterations, you can use the @option{--enable-encoding} option to @command{makeinfo} (@pxref{makeinfo options}). @findex " @r{(umlaut accent)} @cindex Umlaut accent @findex ' @r{(umlaut accent)} @cindex Acute accent @findex = @r{(macron accent)} @cindex Macron accent @findex ^ @r{(circumflex accent)} @cindex Circumflex accent @findex ` @r{(grave accent)} @cindex Grave accent @findex ~ @r{(tilde accent)} @cindex Tilde accent @findex , @r{(cedilla accent)} @cindex Cedilla accent @findex dotaccent @cindex Dot accent @findex H @r{(Hungarian umlaut accent)} @cindex Hungarian umlaut accent @findex ringaccent @cindex Ring accent @findex tieaccent @cindex Tie-after accent @findex u @r{(breve accent)} @cindex Breve accent @findex ubaraccent @cindex Underbar accent @findex udotaccent @cindex Underdot accent @findex v @r{(check accent)} @cindex Hacek accent @cindex Check accent @cindex Caron accent @multitable {@@questiondown@{@}} {Output} {hacek/check/caron accent} @item Command @tab Output @tab What @item @t{@@"o} @tab @"o @tab umlaut accent @item @t{@@'o} @tab @'o @tab acute accent @item @t{@@,@{c@}} @tab @,{c} @tab cedilla accent @item @t{@@=o} @tab @=o @tab macron/overbar accent @item @t{@@^o} @tab @^o @tab circumflex accent @item @t{@@`o} @tab @`o @tab grave accent @item @t{@@~o} @tab @~o @tab tilde accent @item @t{@@dotaccent@{o@}} @tab @dotaccent{o} @tab overdot accent @item @t{@@H@{o@}} @tab @H{o} @tab long Hungarian umlaut @item @t{@@ringaccent@{o@}} @tab @ringaccent{o} @tab ring accent @item @t{@@tieaccent@{oo@}} @tab @tieaccent{oo} @tab tie-after accent @item @t{@@u@{o@}} @tab @u{o} @tab breve accent @item @t{@@ubaraccent@{o@}} @tab @ubaraccent{o} @tab underbar accent @item @t{@@udotaccent@{o@}} @tab @udotaccent{o} @tab underdot accent @item @t{@@v@{o@}} @tab @v{o} @tab hacek/check/caron accent @end multitable This table lists the Texinfo commands for inserting other characters commonly used in languages other than English. @findex questiondown @cindex @questiondown{} @findex exclamdown @cindex @exclamdown{} @findex aa @cindex @aa{} @findex AA @cindex @AA{} @findex ae @cindex @ae{} @findex AE @cindex @AE{} @findex dotless @cindex @dotless{i} (dotless i) @cindex @dotless{j} (dotless j) @cindex Dotless i, j @findex l @cindex @l{} @findex L @cindex @L{} @findex o @cindex @o{} @findex O @cindex @O{} @findex oe @cindex @oe{} @findex OE @cindex @OE{} @cindex Romance ordinals @cindex Ordinals, Romance @cindex Feminine ordinal @findex ordf @cindex @ordf{} @cindex Masculine ordinal @findex ordm @cindex @ordm{} @findex ss @cindex @ss{} @cindex Es-zet @cindex Sharp S @cindex German S @multitable {x@@questiondown@{@}} {oe OE} {es-zet or sharp S} @item @t{@@exclamdown@{@}} @tab @exclamdown{} @tab upside-down ! @item @t{@@questiondown@{@}} @tab @questiondown{} @tab upside-down ? @item @t{@@aa@{@} @@AA@{@}} @tab @aa{} @AA{} @tab a,A with circle @item @t{@@ae@{@} @@AE@{@}} @tab @ae{} @AE{} @tab ae,AE ligatures @item @t{@@dotless@{i@}} @tab @dotless{i} @tab dotless i @item @t{@@dotless@{j@}} @tab @dotless{j} @tab dotless j @item @t{@@l@{@} @@L@{@}} @tab @l{} @L{} @tab suppressed-L,l @item @t{@@o@{@} @@O@{@}} @tab @o{} @O{} @tab O,o with slash @item @t{@@oe@{@} @@OE@{@}} @tab @oe{} @OE{} @tab oe,OE ligatures @item @t{@@ordf@{@} @@ordm@{@}} @tab @ordf{} @ordm{} @tab Spanish ordinals @item @t{@@ss@{@}} @tab @ss{} @tab es-zet or sharp S @end multitable @node Dots Bullets @section Inserting Ellipsis and Bullets @cindex Dots, inserting @cindex Bullets, inserting @cindex Ellipsis, inserting @cindex Inserting ellipsis @cindex Inserting dots @cindex Special typesetting commands @cindex Typesetting commands for dots, etc. An @dfn{ellipsis} (a line of dots) is not typeset as a string of periods, so a special command is used for ellipsis in Texinfo. The @code{@@bullet} command is special, too. Each of these commands is followed by a pair of braces, @samp{@{@}}, without any whitespace between the name of the command and the braces. (You need to use braces with these commands because you can use them next to other text; without the braces, the formatters would be confused. @xref{Command Syntax, , @@-Command Syntax}, for further information.)@refill @menu * dots:: How to insert dots @dots{} * bullet:: How to insert a bullet. @end menu @node dots @subsection @code{@@dots}@{@} (@dots{}) and @code{@@enddots}@{@} (@enddots{}) @findex dots @findex enddots @cindex Inserting dots @cindex Dots, inserting Use the @code{@@dots@{@}} command to generate an ellipsis, which is three dots in a row, appropriately spaced @dots{} like so. Do not simply write three periods in the input file; that would work for the Info file output, but would produce the wrong amount of space between the periods in the printed manual. Similarly, the @code{@@enddots@{@}} command generates an end-of-sentence ellipsis, which has different spacing afterwards, @enddots{} Look closely to see the difference. @iftex Here is an ellipsis: @dots{} Here are three periods in a row: ... In printed output, the three periods in a row are closer together than the dots in the ellipsis. @end iftex @node bullet @subsection @code{@@bullet}@{@} (@bullet{}) @findex bullet Use the @code{@@bullet@{@}} command to generate a large round dot, or the closest possible thing to one. In Info, an asterisk is used.@refill Here is a bullet: @bullet{} When you use @code{@@bullet} in @code{@@itemize}, you do not need to type the braces, because @code{@@itemize} supplies them. (@xref{itemize, , @code{@@itemize}}.)@refill @node TeX and copyright @section Inserting @TeX{} and Legal Symbols: @copyright{}, @registeredsymbol{} The logo `@TeX{}' is typeset in a special fashion and it needs an @@-command. The copyright and registered symbols, `@copyright{}' and `@registeredsymbol{}', is also special. Each of these commands is followed by a pair of braces, @samp{@{@}}, without any whitespace between the name of the command and the braces. @menu * tex:: The @TeX{} logos. * copyright symbol:: The copyright symbol (c in a circle). * registered symbol:: The registered symbol (R in a circle). @end menu @node tex @subsection @code{@@TeX}@{@} (@TeX{}) and @code{@@LaTeX}@{@} (@LaTeX{}) @findex TeX @findex LaTeX Use the @code{@@TeX@{@}} command to generate `@TeX{}'. In a printed manual, this is a special logo that is different from three ordinary letters. In Info, it just looks like @samp{TeX}. Similarly, use the @code{@@LaTeX@{@}} command to generate `@LaTeX{}', which is even more special in printed manuals (and different from the incorrect @code{La@@TeX@{@}}. In Info, the result is just @samp{LaTeX}. (@LaTeX{} is another macro package built on top of @TeX{}, very loosely analogous to Texinfo in that it emphasizes logical structure, but much (much) larger.) The spelling of these commands are unusual among Texinfo commands in that they use both uppercase and lowercase letters. @node copyright symbol @subsection @code{@@copyright@{@}} (@copyright{}) @findex copyright Use the @code{@@copyright@{@}} command to generate the copyright symbol, `@copyright{}'. Where possible, this is a @samp{c} inside a circle; in Info, this is @samp{(C)}. @node registered symbol @subsection @code{@@registeredsymbol@{@}} (@registeredsymbol{}) @findex registeredsymbol Use the @code{@@registeredsymbol@{@}} command to generate the registered symbol, `@registeredsymbol{}'. Where possible, this is an @samp{R} inside a circle; in Info, this is @samp{(R)}. @node euro @section @code{@@euro}@{@} (@euro{}): Euro currency symbol @findex euro Use the @code{@@euro@{@}} command to generate `@euro{}'. Where possible, this is the symbol for the Euro currency, invented as part of the European economic unification relatively recently. In plain Info, it is the word @samp{Euro }. (The space is included in the text transliteration since typically there would be no space after the symbol, so it would be inappropriate to have a space in the source document.) Texinfo cannot magically synthesize support for the Euro symbol where the underlying system (fonts, software, whatever) does not support it. Therefore, in many cases it is preferable to use the word ``Euro''. (In banking circles, the abbreviation for the Euro is EUR.) @cindex ISO 8859-15 @cindex Latin 9 In order to get the Euro symbol in encoded Info output, for example, it is necessary to specify @code{@@documentencoding ISO-8859-15}. (@xref{documentencoding,,@code{@@documentencoding}}.) The Euro symbol is in ISO 8859-15 (aka Latin@tie{}9), and is @emph{not} in the more widely-used and supported ISO 8859-1 (Latin@tie{}1). @node pounds @section @code{@@pounds}@{@} (@pounds{}): Pounds Sterling @findex pounds Use the @code{@@pounds@{@}} command to generate `@pounds{}'. Where possible, this is the symbol for the currency pounds sterling. In Info, it is a @samp{#}. @node minus @section @code{@@minus}@{@} (@minus{}): Inserting a Minus Sign @findex minus @cindex Em dash, compared to minus sign @cindex Hyphen, compared to minus Use the @code{@@minus@{@}} command to generate a minus sign. In a fixed-width font, this is a single hyphen, but in a proportional font, the symbol is the customary length for a minus sign---a little longer than a hyphen, shorter than an em-dash: @display @samp{@minus{}} is a minus sign generated with @samp{@@minus@{@}}, `-' is a hyphen generated with the character @samp{-}, `---' is an em-dash for text. @end display @noindent In the fixed-width font used by Info, @code{@@minus@{@}} is the same as a hyphen. You should not use @code{@@minus@{@}} inside @code{@@code} or @code{@@example} because the width distinction is not made in the fixed-width font they use. When you use @code{@@minus} to specify the mark beginning each entry in an itemized list, you do not need to type the braces (@pxref{itemize, , @code{@@itemize}}). @node math @section @code{@@math}: Inserting Mathematical Expressions @findex math @cindex Mathematical expressions @cindex Formulas, mathematical You can write a short mathematical expression with the @code{@@math} command. Write the mathematical expression between braces, like this: @example @@math@{(a + b)(a + b) = a^2 + 2ab + b^2@} @end example @iftex @noindent This produces the following in @TeX{}: @display @math{(a + b)(a + b) = a^2 + 2ab + b^2} @end display @noindent and the following in other formats: @end iftex @ifnottex @noindent This produces the following in Info and HTML: @end ifnottex @example (a + b)(a + b) = a^2 + 2ab + b^2 @end example Thus, the @code{@@math} command has no effect on the Info and HTML output; @command{makeinfo} just reproduces the input, it does not try to interpret the mathematics in any way. @code{@@math} implies @code{@@tex}. This not only makes it possible to write superscripts and subscripts (as in the above example), but also allows you to use any of the plain @TeX{} math control sequences. It's conventional to use @samp{\} instead of @samp{@@} for these commands. As in: @example @@math@{\sin 2\pi \equiv \cos 3\pi@} @end example @iftex @noindent which looks like this in @TeX{}: @display @math{\sin 2\pi \equiv \cos 3\pi} @end display @noindent and @end iftex @noindent which looks like the input in Info and HTML: @example \sin 2\pi \equiv \cos 3\pi @end example @findex \ @r{(literal \ in @code{@@math})} Since @samp{\} is an escape character inside @code{@@math}, you can use @code{@@\} to get a literal backslash (@code{\\} will work in @TeX{}, but you'll get the literal @samp{\\} in Info). @code{@@\} is not defined outside of @code{@@math}, since a @samp{\} ordinarily produces a literal @samp{\}. @cindex Displayed equations @cindex Equations, displayed For displayed equations, you must at present use @TeX{} directly (@pxref{Raw Formatter Commands}). @node Glyphs @section Glyphs for Examples @cindex Glyphs @cindex Examples, glyphs for In Texinfo, code is often illustrated in examples that are delimited by @code{@@example} and @code{@@end example}, or by @code{@@lisp} and @code{@@end lisp}. In such examples, you can indicate the results of evaluation or an expansion using @samp{@result{}} or @samp{@expansion{}}. Likewise, there are commands to insert glyphs to indicate printed output, error messages, equivalence of expressions, and the location of point.@refill The glyph-insertion commands do not need to be used within an example, but most often they are. Every glyph-insertion command is followed by a pair of left- and right-hand braces.@refill @menu * Glyphs Summary:: * result:: How to show the result of expression. * expansion:: How to indicate an expansion. * Print Glyph:: How to indicate printed output. * Error Glyph:: How to indicate an error message. * Equivalence:: How to indicate equivalence. * Point Glyph:: How to indicate the location of point. @end menu @node Glyphs Summary @subsection Glyphs Summary Here are the different glyph commands:@refill @table @asis @item @result{} @code{@@result@{@}} points to the result of an expression.@refill @item @expansion{} @code{@@expansion@{@}} shows the results of a macro expansion.@refill @item @print{} @code{@@print@{@}} indicates printed output.@refill @item @error{} @code{@@error@{@}} indicates that the following text is an error message.@refill @item @equiv{} @code{@@equiv@{@}} indicates the exact equivalence of two forms.@refill @item @point{} @code{@@point@{@}} shows the location of point.@refill @end table @menu * result:: * expansion:: * Print Glyph:: * Error Glyph:: * Equivalence:: * Point Glyph:: @end menu @node result @subsection @code{@@result@{@}} (@result{}): Indicating Evaluation @cindex Result of an expression @cindex Indicating evaluation @cindex Evaluation glyph @cindex Value of an expression, indicating @findex result Use the @code{@@result@{@}} command to indicate the result of evaluating an expression.@refill @iftex The @code{@@result@{@}} command is displayed as @samp{@result{}} in the printed output and as @samp{=>} in other formats. @end iftex @ifnottex The @code{@@result@{@}} command is displayed as @samp{@result{}} in Info and HTML and as a true double stemmed arrow in the printed output. @end ifnottex Thus, the following, @lisp (cdr '(1 2 3)) @result{} (2 3) @end lisp @noindent may be read as ``@code{(cdr '(1 2 3))} evaluates to @code{(2 3)}''. @node expansion @subsection @code{@@expansion@{@}} (@expansion{}): Indicating an Expansion @cindex Expansion, indicating @cindex Macro expansion, indicating @findex expansion When an expression is a macro call, it expands into a new expression. You can indicate the result of the expansion with the @code{@@expansion@{@}} command.@refill @iftex The @code{@@expansion@{@}} command is displayed as @samp{@expansion{}} in the printed output. and as @samp{==>} in other formats. @end iftex @ifnottex The @code{@@expansion@{@}} command is displayed as @samp{@expansion{}} in Info and HTML, and as a long arrow with a flat base in the printed output. @end ifnottex @need 700 For example, the following @example @group @@lisp (third '(a b c)) @@expansion@{@} (car (cdr (cdr '(a b c)))) @@result@{@} c @@end lisp @end group @end example @noindent produces @lisp @group (third '(a b c)) @expansion{} (car (cdr (cdr '(a b c)))) @result{} c @end group @end lisp @noindent which may be read as: @quotation @code{(third '(a b c))} expands to @code{(car (cdr (cdr '(a b c))))}; the result of evaluating the expression is @code{c}. @end quotation @noindent Often, as in this case, an example looks better if the @code{@@expansion@{@}} and @code{@@result@{@}} commands are indented. @node Print Glyph @subsection @code{@@print@{@}} (@print{}): Indicating Printed Output @cindex Printed output, indicating @findex print Sometimes an expression will print output during its execution. You can indicate the printed output with the @code{@@print@{@}} command.@refill @iftex The @code{@@print@{@}} command is displayed as @samp{-|} in Info and HTML and as @samp{@print{}} in the printed output. @end iftex @ifnottex The @code{@@print@{@}} command is displayed as @samp{@print{}} in Info and HTML and (similarly) as a horizontal dash butting against a vertical bar in the printed output. @end ifnottex In the following example, the printed text is indicated with @samp{@print{}}, and the value of the expression follows on the last line. @lisp @group (progn (print 'foo) (print 'bar)) @print{} foo @print{} bar @result{} bar @end group @end lisp @noindent In a Texinfo source file, this example is written as follows: @lisp @group @@lisp (progn (print 'foo) (print 'bar)) @@print@{@} foo @@print@{@} bar @@result@{@} bar @@end lisp @end group @end lisp @node Error Glyph @subsection @code{@@error@{@}} (@error{}): Indicating an Error Message @cindex Error message, indicating @findex error A piece of code may cause an error when you evaluate it. You can designate the error message with the @code{@@error@{@}} command.@refill @iftex The @code{@@error@{@}} command is displayed as @samp{error-->} in Info and HTML and as @samp{@error{}} in the printed output. @end iftex @ifnottex The @code{@@error@{@}} command is displayed as @samp{@error{}} in Info and HTML and as the word `error' in a box in the printed output. @end ifnottex @need 700 Thus, @example @@lisp (+ 23 'x) @@error@{@} Wrong type argument: integer-or-marker-p, x @@end lisp @end example @noindent produces @lisp (+ 23 'x) @error{} Wrong type argument: integer-or-marker-p, x @end lisp @noindent This indicates that the following error message is printed when you evaluate the expression: @lisp Wrong type argument: integer-or-marker-p, x @end lisp @samp{@error{}} itself is not part of the error message. @node Equivalence @subsection @code{@@equiv@{@}} (@equiv{}): Indicating Equivalence @cindex Equivalence, indicating @findex equiv Sometimes two expressions produce identical results. You can indicate the exact equivalence of two forms with the @code{@@equiv@{@}} command.@refill @iftex The @code{@@equiv@{@}} command is displayed as @samp{==} in Info and HTML and as @samp{@equiv{}} in the printed output. @end iftex @ifnottex The @code{@@equiv@{@}} command is displayed as @samp{@equiv{}} in Info and HTML and as a standard mathematical equivalence sign (three parallel horizontal lines) in the printed output. @end ifnottex Thus, @example @@lisp (make-sparse-keymap) @@equiv@{@} (list 'keymap) @@end lisp @end example @noindent produces @lisp (make-sparse-keymap) @equiv{} (list 'keymap) @end lisp @noindent This indicates that evaluating @code{(make-sparse-keymap)} produces identical results to evaluating @code{(list 'keymap)}. @node Point Glyph @subsection @code{@@point@{@}} (@point{}): Indicating Point in a Buffer @cindex Point, indicating in a buffer @findex point Sometimes you need to show an example of text in an Emacs buffer. In such examples, the convention is to include the entire contents of the buffer in question between two lines of dashes containing the buffer name.@refill You can use the @samp{@@point@{@}} command to show the location of point in the text in the buffer. (The symbol for point, of course, is not part of the text in the buffer; it indicates the place @emph{between} two characters where point is located.)@refill @iftex The @code{@@point@{@}} command is displayed as @samp{-!-} in Info and HTML and as @samp{@point{}} in the printed output. @end iftex @ifnottex The @code{@@point@{@}} command is displayed as @samp{@point{}} in Info and HTML and as a small five pointed star in the printed output. @end ifnottex The following example shows the contents of buffer @file{foo} before and after evaluating a Lisp command to insert the word @code{changed}.@refill @example @group ---------- Buffer: foo ---------- This is the @point{}contents of foo. ---------- Buffer: foo ---------- @end group @end example @example @group (insert "changed ") @result{} nil ---------- Buffer: foo ---------- This is the changed @point{}contents of foo. ---------- Buffer: foo ---------- @end group @end example In a Texinfo source file, the example is written like this:@refill @example @@example ---------- Buffer: foo ---------- This is the @@point@{@}contents of foo. ---------- Buffer: foo ---------- (insert "changed ") @@result@{@} nil ---------- Buffer: foo ---------- This is the changed @@point@{@}contents of foo. ---------- Buffer: foo ---------- @@end example @end example @node Breaks @chapter Forcing and Preventing Breaks @cindex Forcing line and page breaks @cindex Making line and page breaks @cindex Preventing line and page breaks @cindex Line breaks Usually, a Texinfo file is processed both by @TeX{} and by one of the Info formatting commands. Line, paragraph, or page breaks sometimes occur in the `wrong' place in one or other form of output. You must ensure that text looks right both in the printed manual and in the Info file. @cindex White space, excessive @cindex Page breaks For example, in a printed manual, page breaks may occur awkwardly in the middle of an example; to prevent this, you can hold text together using a grouping command that keeps the text from being split across two pages. Conversely, you may want to force a page break where none would occur normally. Fortunately, problems like these do not often arise. When they do, use the break, break prevention, or pagination commands. @menu * Break Commands:: Summary of break-related commands. * Line Breaks:: Forcing line breaks. * - and hyphenation:: Helping @TeX{} with hyphenation points. * w:: Preventing unwanted line breaks in text. * tie:: Inserting an unbreakable but varying space. * sp:: Inserting blank lines. * page:: Forcing the start of a new page. * group:: Preventing unwanted page breaks. * need:: Another way to prevent unwanted page breaks. @end menu @node Break Commands @section Break Commands The break commands create or allow line and paragraph breaks: @table @code @item @@* Force a line break. @item @@sp @var{n} Skip @var{n} blank lines. @item @@- Insert a discretionary hyphen. @item @@hyphenation@{@var{hy-phen-a-ted words}@} Define hyphen points in @var{hy-phen-a-ted words}. @end table These commands hold text together on a single line: @table @code @item @@w@{@var{text}@} Prevent @var{text} from being split and hyphenated across two lines. @item @@tie@{@} Insert a normal interword space at which a line break may not occur. @end table @iftex @sp 1 @end iftex The pagination commands apply only to printed output, since Info files do not have pages. @table @code @item @@page Start a new page in the printed manual. @item @@group Hold text together that must appear on one printed page. @item @@need @var{mils} Start a new printed page if not enough space on this one. @end table @node Line Breaks @section @code{@@*} and @code{@@/}: Generate and Allow Line Breaks @findex * @r{(force line break)} @findex / @r{(allow line break)} @cindex Line breaks @cindex Breaks in a line @cindex Force line break @cindex Allow line break The @code{@@*} command forces a line break in both the printed manual and in Info. The @code{@@/} command allows a line break (printed manual only). Here is an example with @code{@@*}: @example This line @@* is broken @@*in two places. @end example @noindent produces @example @group This line is broken in two places. @end group @end example The @code{@@/} command can be useful within a url (@pxref{uref,,@code{@@uref}}), which tend to be long and are otherwise unbreakable. For example: @example The official Texinfo home page is on the GNU web site: @@uref@{http://www.gnu.org/@@/software/@@/gnu/@@/texinfo@}. @end example @noindent produces @display The official Texinfo home page is on the GNU web site: @uref{http://www.gnu.org/@/software/@/gnu/@/texinfo}. @end display @noindent Without the @code{@@/} commands, @TeX{} would have nowhere to break the line. @code{@@/} has no effect in the online output. @node - and hyphenation @section @code{@@-} and @code{@@hyphenation}: Helping @TeX{} Hyphenate @findex - @r{(discretionary hyphen)} @findex hyphenation @cindex Hyphenation, helping @TeX{} do @cindex Fine-tuning, and hyphenation Although @TeX{}'s hyphenation algorithm is generally pretty good, it does miss useful hyphenation points from time to time. (Or, far more rarely, insert an incorrect hyphenation.) So, for documents with an unusual vocabulary or when fine-tuning for a printed edition, you may wish to help @TeX{} out. Texinfo supports two commands for this: @table @code @item @@- Insert a discretionary hyphen, i.e., a place where @TeX{} can (but does not have to) hyphenate. This is especially useful when you notice an overfull hbox is due to @TeX{} missing a hyphenation (@pxref{Overfull hboxes}). @TeX{} will not insert any hyphenation points itself into a word containing @code{@@-}. @item @@hyphenation@{@var{hy-phen-a-ted words}@} Tell @TeX{} how to hyphenate @var{hy-phen-a-ted words}. As shown, you put a @samp{-} at each hyphenation point. For example: @example @@hyphenation@{man-u-script man-u-scripts@} @end example @noindent @TeX{} only uses the specified hyphenation points when the words match exactly, so give all necessary variants. @end table Info output is not hyphenated, so these commands have no effect there. @node w @section @code{@@w}@{@var{text}@}: Prevent Line Breaks @findex w @r{(prevent line break)} @cindex Line breaks, preventing @code{@@w@{@var{text}@}} outputs @var{text} and prohibits line breaks within @var{text}, for both @TeX{} and @command{makeinfo}. @cindex Non-breakable space, fixed @cindex Unbreakable space, fixed Thus, you can use @code{@@w} to produce a non-breakable space, fixed at the width of a normal interword space: @example @@w@{ @} @@w@{ @} @@w@{ @} indentation. @end example @noindent produces: @display @w{ } @w{ } @w{ } indentation. @end display The space from @code{@@w@{@w{ }@}}, as well as being non-breakable, also will not stretch or shrink. Sometimes that is what you want, for instance if you're doing indenting manual. However, usually you want a normal interword space that does stretch and shrink (in the printed output); see the @code{@@tie} command in the next section. @cindex Hyphenation, preventing You can also use the @code{@@w} command to prevent @TeX{} from automatically hyphenating a long name or phrase that happens to fall near the end of a line. @command{makeinfo} does not ever hyphenate words. @cindex Keyword expansion, preventing @cindex Version control keywords, preventing expansion of @cindex $Id expansion, preventing You can also use @code{@@w} to avoid unwanted keyword expansion in source control systems. For example, to literally write @t{@w{$}Id$} in your document, use @code{@@w@{$@}Id$}. @node tie @section @code{@@tie@{@}}: Inserting an Unbreakable Space @findex tie @r{(unbreakable interword space)} @cindex Tied space @cindex Non-breakable space, variable @cindex Unbreakable space, variable The @code{@@tie@{@}} command produces a normal interword space at which a line break may not occur. Always write it with following (empty) braces, as usual for commands used within a paragraph. Here's an example: @example @@TeX@{@} was written by Donald E.@@tie@{@}Knuth. @end example @noindent produces: @display @TeX{} was written by Donald E.@tie{}Knuth. @end display There are two important differences between @code{@@tie@{@}} and @code{@@w@{@w{ }@}}: @itemize @item The space produced by @code{@@tie@{@}} will stretch and shrink slightly along with the normal interword spaces in the paragraph; the space produced by @code{@@w@{@w{ }@}} will not vary. @item @code{@@tie@{@}} allows hyphenation of the surrounding words, while @code{@@w@{@w{ }@}} inhibits hyphenation of those words (for @TeX{}nical reasons, namely that it produces an @samp{\hbox}). @end itemize @node sp @section @code{@@sp} @var{n}: Insert Blank Lines @findex sp @r{(line spacing)} @cindex Space, inserting vertical @cindex Blank lines @cindex Line spacing A line beginning with and containing only @code{@@sp @var{n}} generates @var{n} blank lines of space in both the printed manual and the Info file. @code{@@sp} also forces a paragraph break. For example, @example @@sp 2 @end example @noindent generates two blank lines. The @code{@@sp} command is most often used in the title page.@refill @ignore @c node br, page, sp, Breaks @comment node-name, next, previous, up @c section @code{@@br}: Generate Paragraph Breaks @findex br @r{(paragraph breaks)} @cindex Paragraph breaks @cindex Breaks in a paragraph The @code{@@br} command forces a paragraph break. It inserts a blank line. You can use the command within or at the end of a line. If used within a line, the @code{@@br@{@}} command must be followed by left and right braces (as shown here) to mark the end of the command.@refill @need 700 For example, @example @group This line @@br@{@}contains and is ended by paragraph breaks@@br and is followed by another line. @end group @end example @noindent produces @example @group This line contains and is ended by paragraph breaks and is followed by another line. @end group @end example The @code{@@br} command is seldom used. @end ignore @node page @section @code{@@page}: Start a New Page @cindex Page breaks @findex page A line containing only @code{@@page} starts a new page in a printed manual. The command has no effect on Info files since they are not paginated. An @code{@@page} command is often used in the @code{@@titlepage} section of a Texinfo file to start the copyright page. @node group @comment node-name, next, previous, up @section @code{@@group}: Prevent Page Breaks @cindex Group (hold text together vertically) @cindex Holding text together vertically @cindex Vertically holding text together @findex group The @code{@@group} command (on a line by itself) is used inside an @code{@@example} or similar construct to begin an unsplittable vertical group, which will appear entirely on one page in the printed output. The group is terminated by a line containing only @code{@@end group}. These two lines produce no output of their own, and in the Info file output they have no effect at all.@refill @c Once said that these environments @c turn off vertical spacing between ``paragraphs''. @c Also, quotation used to work, but doesn't in texinfo-2.72 Although @code{@@group} would make sense conceptually in a wide variety of contexts, its current implementation works reliably only within @code{@@example} and variants, and within @code{@@display}, @code{@@format}, @code{@@flushleft} and @code{@@flushright}. @xref{Quotations and Examples}. (What all these commands have in common is that each line of input produces a line of output.) In other contexts, @code{@@group} can cause anomalous vertical spacing.@refill @need 750 This formatting requirement means that you should write: @example @group @@example @@group @dots{} @@end group @@end example @end group @end example @noindent with the @code{@@group} and @code{@@end group} commands inside the @code{@@example} and @code{@@end example} commands. The @code{@@group} command is most often used to hold an example together on one page. In this Texinfo manual, more than 100 examples contain text that is enclosed between @code{@@group} and @code{@@end group}. If you forget to end a group, you may get strange and unfathomable error messages when you run @TeX{}. This is because @TeX{} keeps trying to put the rest of the Texinfo file onto the one page and does not start to generate error messages until it has processed considerable text. It is a good rule of thumb to look for a missing @code{@@end group} if you get incomprehensible error messages in @TeX{}.@refill @node need @comment node-name, next, previous, up @section @code{@@need @var{mils}}: Prevent Page Breaks @cindex Need space at page bottom @findex need A line containing only @code{@@need @var{n}} starts a new page in a printed manual if fewer than @var{n} mils (thousandths of an inch) remain on the current page. Do not use braces around the argument @var{n}. The @code{@@need} command has no effect on Info files since they are not paginated.@refill @need 800 This paragraph is preceded by an @code{@@need} command that tells @TeX{} to start a new page if fewer than 800 mils (eight-tenths inch) remain on the page. It looks like this:@refill @example @group @@need 800 This paragraph is preceded by @dots{} @end group @end example The @code{@@need} command is useful for preventing orphans (single lines at the bottoms of printed pages).@refill @node Definition Commands @chapter Definition Commands @cindex Definition commands The @code{@@deffn} command and the other @dfn{definition commands} enable you to describe functions, variables, macros, commands, user options, special forms and other such artifacts in a uniform format.@refill In the Info file, a definition causes the entity category---`Function', `Variable', or whatever---to appear at the beginning of the first line of the definition, followed by the entity's name and arguments. In the printed manual, the command causes @TeX{} to print the entity's name and its arguments on the left margin and print the category next to the right margin. In both output formats, the body of the definition is indented. Also, the name of the entity is entered into the appropriate index: @code{@@deffn} enters the name into the index of functions, @code{@@defvr} enters it into the index of variables, and so on (@pxref{Predefined Indices}). A manual need not and should not contain more than one definition for a given name. An appendix containing a summary should use @code{@@table} rather than the definition commands.@refill @menu * Def Cmd Template:: Writing descriptions using definition commands. * Def Cmd Continuation Lines:: Continuing the heading over source lines. * Optional Arguments:: Handling optional and repeated arguments. * deffnx:: Group two or more `first' lines. * Def Cmds in Detail:: Reference for all the definition commands. * Def Cmd Conventions:: Conventions for writing definitions. * Sample Function Definition:: An example. @end menu @node Def Cmd Template @section The Template for a Definition @cindex Definition template @cindex Template for a definition The @code{@@deffn} command is used for definitions of entities that resemble functions. To write a definition using the @code{@@deffn} command, write the @code{@@deffn} command at the beginning of a line and follow it on the same line by the category of the entity, the name of the entity itself, and its arguments (if any). Then write the body of the definition on succeeding lines. (You may embed examples in the body.) Finally, end the definition with an @code{@@end deffn} command written on a line of its own. The other definition commands follow the same format: a line with the @code{@@def@dots{}} command and whatever arguments are appropriate for that command; the body of the definition; and a corresponding @code{@@end} line. The template for a definition looks like this: @example @group @@deffn @var{category} @var{name} @var{arguments}@dots{} @var{body-of-definition} @@end deffn @end group @end example @need 700 @noindent For example, @example @group @@deffn Command forward-word count This command moves point forward @@var@{count@} words (or backward if @@var@{count@} is negative). @dots{} @@end deffn @end group @end example @noindent produces @quotation @deffn Command forward-word count This function moves point forward @var{count} words (or backward if @var{count} is negative). @dots{} @end deffn @end quotation Capitalize the category name like a title. If the name of the category contains spaces, as in the phrase `Interactive Command', enclose it in braces. For example: @example @group @@deffn @{Interactive Command@} isearch-forward @dots{} @@end deffn @end group @end example @noindent Otherwise, the second word will be mistaken for the name of the entity. As a general rule, when any of the arguments in the heading line @emph{except} the last one are more than one word, you need to enclose them in braces. Some of the definition commands are more general than others. The @code{@@deffn} command, for example, is the general definition command for functions and the like---for entities that may take arguments. When you use this command, you specify the category to which the entity belongs. Three predefined, specialized variations (@code{@@defun}, @code{@@defmac}, and @code{@@defspec}) specify the category for you: ``Function'', ``Macro'', and ``Special Form'' respectively. (In Lisp, a special form is an entity much like a function.) Similarly, the general @code{@@defvr} command is accompanied by several specialized variations for describing particular kinds of variables. @xref{Sample Function Definition}, for a detailed example of a function definition, including the use of @code{@@example} inside the definition. @cindex Macros in definition commands Unfortunately, due to implementation difficulties, macros are not expanded in @code{@@deffn} and all the other definition commands. @node Def Cmd Continuation Lines @section Definition Command Continuation Lines @cindex Continuation lines in definition commands @cindex Definition command headings, continuing @cindex @samp{@@} as continuation in definition commands The heading line of a definition command can get very long. Therefore, Texinfo has a special syntax allowing them to be continued over multiple lines of the source file: a lone @samp{@@} at the end of each line to be continued. Here's an example: @example @@defun fn-name @@ arg1 arg2 arg3 This is the basic continued defun. @@end defun @end example @noindent produces: @defun fn-name @ arg1 arg2 arg3 This is the basic continued defun. @end defun @noindent As you can see, the continued lines are combined, as if they had been typed on one source line. Although this example only shows a one-line continuation, continuations may extend over any number of lines; simply put an @code{@@} at the end of each line to be continued. The @code{@@} character does not have to be the last character on the physical line: whitespace is allowed (and ignored) afterwards. @cindex Whitespace, collapsed around continuations @cindex Collapsing whitespace around continuations In general, any number of spaces or tabs around the @code{@@} continuation character, both on the line with the @code{@@} and on the continued line, are collapsed into a single space. There is one exception: the Texinfo processors will not fully collapse whitespace around a continuation inside braces. For example: @example @@deffn @{Category @@ Name@} @dots{} @end example @noindent The output (not shown) has excess space between `Category' and `Name'. In this case, simply elide any unwanted whitespace in your input, or put the continuation @code{@@} outside braces. @code{@@} does not (currently) function as a continuation character in @emph{any} other context. Ordinarily, @samp{@@} followed by a whitespace character (space, tab, newline) produces a normal interword space (@pxref{Multiple Spaces}). @node Optional Arguments @section Optional and Repeated Arguments @cindex Optional and repeated arguments @cindex Repeated and optional arguments @cindex Arguments, repeated and optional @cindex Syntax, optional & repeated arguments @cindex Meta-syntactic chars for arguments Some entities take optional or repeated arguments, which may be specified by a distinctive glyph that uses square brackets and ellipses. For @w{example}, a special form often breaks its argument list into separate arguments in more complicated ways than a straightforward function. @c This is consistent with Emacs Lisp Reference manual An argument enclosed within square brackets is optional. Thus, [@var{optional-arg}] means that @var{optional-arg} is optional. An argument followed by an ellipsis is optional and may be repeated more than once. @c This is consistent with Emacs Lisp Reference manual Thus, @var{repeated-args}@samp{@dots{}} stands for zero or more arguments. Parentheses are used when several arguments are grouped into additional levels of list structure in Lisp. Here is the @code{@@defspec} line of an example of an imaginary special form: @quotation @defspec foobar (@var{var} [@var{from} @var{to} [@var{inc}]]) @var{body}@dots{} @end defspec @tex \vskip \parskip @end tex @end quotation @noindent In this example, the arguments @var{from} and @var{to} are optional, but must both be present or both absent. If they are present, @var{inc} may optionally be specified as well. These arguments are grouped with the argument @var{var} into a list, to distinguish them from @var{body}, which includes all remaining elements of the form.@refill In a Texinfo source file, this @code{@@defspec} line is written like this (except it would not be split over two lines, as it is in this example).@refill @example @group @@defspec foobar (@@var@{var@} [@@var@{from@} @@var@{to@} [@@var@{inc@}]]) @@var@{body@}@@dots@{@} @end group @end example @noindent The function is listed in the Command and Variable Index under @samp{foobar}.@refill @node deffnx @section Two or More `First' Lines @cindex Two `First' Lines for @code{@@deffn} @cindex Grouping two definitions together @cindex Definitions grouped together @findex deffnx To create two or more `first' or header lines for a definition, follow the first @code{@@deffn} line by a line beginning with @code{@@deffnx}. The @code{@@deffnx} command works exactly like @code{@@deffn} except that it does not generate extra vertical white space between it and the preceding line.@refill @need 1000 For example, @example @group @@deffn @{Interactive Command@} isearch-forward @@deffnx @{Interactive Command@} isearch-backward These two search commands are similar except @dots{} @@end deffn @end group @end example @noindent produces @deffn {Interactive Command} isearch-forward @deffnx {Interactive Command} isearch-backward These two search commands are similar except @dots{} @end deffn Each definition command has an `x' form: @code{@@defunx}, @code{@@defvrx}, @code{@@deftypefunx}, etc. The `x' forms work similarly to @code{@@itemx} (@pxref{itemx}). @node Def Cmds in Detail @section The Definition Commands Texinfo provides more than a dozen definition commands, all of which are described in this section.@refill The definition commands automatically enter the name of the entity in the appropriate index: for example, @code{@@deffn}, @code{@@defun}, and @code{@@defmac} enter function names in the index of functions; @code{@@defvr} and @code{@@defvar} enter variable names in the index of variables.@refill Although the examples that follow mostly illustrate Lisp, the commands can be used for other programming languages.@refill @menu * Functions Commands:: Commands for functions and similar entities. * Variables Commands:: Commands for variables and similar entities. * Typed Functions:: Commands for functions in typed languages. * Typed Variables:: Commands for variables in typed languages. * Data Types:: The definition command for data types. * Abstract Objects:: Commands for object-oriented programming. @end menu @node Functions Commands @subsection Functions and Similar Entities This section describes the commands for describing functions and similar entities:@refill @table @code @findex deffn @item @@deffn @var{category} @var{name} @var{arguments}@dots{} The @code{@@deffn} command is the general definition command for functions, interactive commands, and similar entities that may take arguments. You must choose a term to describe the category of entity being defined; for example, ``Function'' could be used if the entity is a function. The @code{@@deffn} command is written at the beginning of a line and is followed on the same line by the category of entity being described, the name of this particular entity, and its arguments, if any. Terminate the definition with @code{@@end deffn} on a line of its own.@refill @need 750 For example, here is a definition: @example @group @@deffn Command forward-char nchars Move point forward @@var@{nchars@} characters. @@end deffn @end group @end example @noindent This shows a rather terse definition for a ``command'' named @code{forward-char} with one argument, @var{nchars}. @code{@@deffn} and prints argument names such as @var{nchars} in slanted type in the printed output, because we think of these names as metasyntactic variables---they stand for the actual argument values. Within the text of the description, however, write an argument name explicitly with @code{@@var} to refer to the value of the argument. In the example above, we used @samp{@@var@{nchars@}} in this way. In the unusual case when an argument name contains @samp{--}, or another character sequence which is treated specially (@pxref{Conventions}), use @code{@@var} around the argument. This causes the name to be printed in slanted typewriter, instead of the regular slanted font, exactly as input. @c except for ?` and !`, but we won't explain that. The template for @code{@@deffn} is: @example @group @@deffn @var{category} @var{name} @var{arguments}@dots{} @var{body-of-definition} @@end deffn @end group @end example @findex defun @item @@defun @var{name} @var{arguments}@dots{} The @code{@@defun} command is the definition command for functions. @code{@@defun} is equivalent to @samp{@@deffn Function @dots{}}. Terminate the definition with @code{@@end defun} on a line of its own. Thus, the template is: @example @group @@defun @var{function-name} @var{arguments}@dots{} @var{body-of-definition} @@end defun @end group @end example @findex defmac @item @@defmac @var{name} @var{arguments}@dots{} The @code{@@defmac} command is the definition command for macros. @code{@@defmac} is equivalent to @samp{@@deffn Macro @dots{}} and works like @code{@@defun}. @findex defspec @item @@defspec @var{name} @var{arguments}@dots{} The @code{@@defspec} command is the definition command for special forms. (In Lisp, a special form is an entity much like a function, @pxref{Special Forms,,, elisp, GNU Emacs Lisp Reference Manual}.) @code{@@defspec} is equivalent to @samp{@@deffn @{Special Form@} @dots{}} and works like @code{@@defun}. @end table All these commands create entries in the index of functions. @node Variables Commands @subsection Variables and Similar Entities Here are the commands for defining variables and similar entities:@refill @table @code @findex defvr @item @@defvr @var{category} @var{name} The @code{@@defvr} command is a general definition command for something like a variable---an entity that records a value. You must choose a term to describe the category of entity being defined; for example, ``Variable'' could be used if the entity is a variable. Write the @code{@@defvr} command at the beginning of a line and follow it on the same line by the category of the entity and the name of the entity. Capitalize the category name like a title. If the name of the category contains spaces, as in the name ``User Option'', enclose it in braces. Otherwise, the second word will be mistaken for the name of the entity. For example, @example @group @@defvr @{User Option@} fill-column This buffer-local variable specifies the maximum width of filled lines. @dots{} @@end defvr @end group @end example Terminate the definition with @code{@@end defvr} on a line of its own.@refill The template is: @example @group @@defvr @var{category} @var{name} @var{body-of-definition} @@end defvr @end group @end example @code{@@defvr} creates an entry in the index of variables for @var{name}. @findex defvar @item @@defvar @var{name} The @code{@@defvar} command is the definition command for variables. @code{@@defvar} is equivalent to @samp{@@defvr Variable @dots{}}.@refill @need 750 For example: @example @group @@defvar kill-ring @dots{} @@end defvar @end group @end example The template is: @example @group @@defvar @var{name} @var{body-of-definition} @@end defvar @end group @end example @code{@@defvar} creates an entry in the index of variables for @var{name}.@refill @findex defopt @item @@defopt @var{name} @cindex User options, marking The @code{@@defopt} command is the definition command for @dfn{user options}, i.e., variables intended for users to change according to taste; Emacs has many such (@pxref{Variables,,, emacs, The GNU Emacs Manual}). @code{@@defopt} is equivalent to @samp{@@defvr @{User Option@} @dots{}} and works like @code{@@defvar}. It creates an entry in the index of variables. @end table @node Typed Functions @subsection Functions in Typed Languages The @code{@@deftypefn} command and its variations are for describing functions in languages in which you must declare types of variables and functions, such as C and C++. @table @code @findex deftypefn @item @@deftypefn @var{category} @var{data-type} @var{name} @var{arguments}@dots{} The @code{@@deftypefn} command is the general definition command for functions and similar entities that may take arguments and that are typed. The @code{@@deftypefn} command is written at the beginning of a line and is followed on the same line by the category of entity being described, the type of the returned value, the name of this particular entity, and its arguments, if any.@refill @need 800 @noindent For example, @example @group @@deftypefn @{Library Function@} int foobar (int @@var@{foo@}, float @@var@{bar@}) @dots{} @@end deftypefn @end group @end example @need 1000 @noindent (where the text before the ``@dots{}'', shown above as two lines, would actually be a single line in a real Texinfo file) produces the following in Info: @smallexample @group -- Library Function: int foobar (int FOO, float BAR) @dots{} @end group @end smallexample @iftex In a printed manual, it produces: @quotation @deftypefn {Library Function} int foobar (int @var{foo}, float @var{bar}) @dots{} @end deftypefn @end quotation @end iftex This means that @code{foobar} is a ``library function'' that returns an @code{int}, and its arguments are @var{foo} (an @code{int}) and @var{bar} (a @code{float}).@refill Since in typed languages, the actual names of the arguments are typically scattered among data type names and keywords, Texinfo cannot find them without help. You can either (a)@tie{}write everything as straight text, and it will be printed in slanted type; (b)@tie{}use @code{@@var} for the variable names, which will uppercase the variable names in Info and use the slanted typewriter font in printed output; (c)@tie{}use @code{@@var} for the variable names and @code{@@code} for the type names and keywords, which will be dutifully obeyed. The template for @code{@@deftypefn} is:@refill @example @group @@deftypefn @var{category} @var{data-type} @var{name} @var{arguments} @dots{} @var{body-of-description} @@end deftypefn @end group @end example @noindent Note that if the @var{category} or @var{data type} is more than one word then it must be enclosed in braces to make it a single argument.@refill If you are describing a procedure in a language that has packages, such as Ada, you might consider using @code{@@deftypefn} in a manner somewhat contrary to the convention described in the preceding paragraphs. For example: @example @group @@deftypefn stacks private push @@ (@@var@{s@}:in out stack; @@ @@var@{n@}:in integer) @dots{} @@end deftypefn @end group @end example @noindent (The @code{@@deftypefn} arguments are shown using continuations (@pxref{Def Cmd Continuation Lines}), but could be on a single line in a real Texinfo file.) In this instance, the procedure is classified as belonging to the package @code{stacks} rather than classified as a `procedure' and its data type is described as @code{private}. (The name of the procedure is @code{push}, and its arguments are @var{s} and @var{n}.)@refill @code{@@deftypefn} creates an entry in the index of functions for @var{name}. @item @@deftypefun @var{data-type} @var{name} @var{arguments}@dots{} @findex deftypefun The @code{@@deftypefun} command is the specialized definition command for functions in typed languages. The command is equivalent to @samp{@@deftypefn Function @dots{}}. The template is: @example @group @@deftypefun @var{type} @var{name} @var{arguments}@dots{} @var{body-of-description} @@end deftypefun @end group @end example @code{@@deftypefun} creates an entry in the index of functions for @var{name}. @end table @node Typed Variables @subsection Variables in Typed Languages Variables in typed languages are handled in a manner similar to functions in typed languages. @xref{Typed Functions}. The general definition command @code{@@deftypevr} corresponds to @code{@@deftypefn} and the specialized definition command @code{@@deftypevar} corresponds to @code{@@deftypefun}.@refill @table @code @findex deftypevr @item @@deftypevr @var{category} @var{data-type} @var{name} The @code{@@deftypevr} command is the general definition command for something like a variable in a typed language---an entity that records a value. You must choose a term to describe the category of the entity being defined; for example, ``Variable'' could be used if the entity is a variable.@refill The @code{@@deftypevr} command is written at the beginning of a line and is followed on the same line by the category of the entity being described, the data type, and the name of this particular entity.@refill @need 800 @noindent For example: @example @group @@deftypevr @{Global Flag@} int enable @dots{} @@end deftypevr @end group @end example @noindent produces the following in Info: @example @group -- Global Flag: int enable @dots{} @end group @end example @iftex @noindent and the following in a printed manual: @quotation @deftypevr {Global Flag} int enable @dots{} @end deftypevr @end quotation @end iftex @need 800 The template is: @example @@deftypevr @var{category} @var{data-type} @var{name} @var{body-of-description} @@end deftypevr @end example @findex deftypevar @item @@deftypevar @var{data-type} @var{name} The @code{@@deftypevar} command is the specialized definition command for variables in typed languages. @code{@@deftypevar} is equivalent to @samp{@@deftypevr Variable @dots{}}. The template is: @example @group @@deftypevar @var{data-type} @var{name} @var{body-of-description} @@end deftypevar @end group @end example @end table These commands create entries in the index of variables. @node Data Types @subsection Data Types Here is the command for data types:@refill @table @code @findex deftp @item @@deftp @var{category} @var{name} @var{attributes}@dots{} The @code{@@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 @code{int} or @code{float}), and then by names of attributes of objects of that type. Thus, you could use this command for describing @code{int} or @code{float}, in which case you could use @code{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.)@refill In Lisp, for example, @dfn{pair} names a particular data type, and an object of that type has two slots called the @sc{car} and the @sc{cdr}. Here is how you would write the first line of a definition of @code{pair}.@refill @example @group @@deftp @{Data type@} pair car cdr @dots{} @@end deftp @end group @end example @need 950 The template is: @example @group @@deftp @var{category} @var{name-of-type} @var{attributes}@dots{} @var{body-of-definition} @@end deftp @end group @end example @code{@@deftp} creates an entry in the index of data types. @end table @node Abstract Objects @subsection Object-Oriented Programming @cindex 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. @menu * Variables: Object-Oriented Variables. * Methods: Object-Oriented Methods. @end menu @node Object-Oriented Variables @subsubsection Object-Oriented Variables @cindex Variables, object-oriented These commands allow you to define different sorts of variables in object-oriented programming languages. @table @code @item @@defcv @var{category} @var{class} @var{name} @findex defcv The @code{@@defcv} command is the general definition command for variables associated with classes in object-oriented programming. The @code{@@defcv} command is followed by three arguments: the category of thing being defined, the class to which it belongs, and its name. For instance: @example @group @@defcv @{Class Option@} Window border-pattern @dots{} @@end defcv @end group @end example @noindent produces: @defcv {Class Option} Window border-pattern @dots{} @end defcv @code{@@defcv} creates an entry in the index of variables. @item @@deftypecv @var{category} @var{class} @var{data-type} @var{name} @findex deftypecv The @code{@@deftypecv} command is the definition command for typed class variables in object-oriented programming. It is analogous to @code{@@defcv} with the addition of the @var{data-type} parameter to specify the type of the instance variable. Ordinarily, the data type is a programming language construct that should be marked with @code{@@code}. For instance: @example @group @@deftypecv @{Class Option@} Window @@code@{int@} border-pattern @dots{} @@end deftypecv @end group @end example @noindent produces: @deftypecv {Class Option} Window @code{int} border-pattern @dots{} @end deftypecv @code{@@deftypecv} creates an entry in the index of variables. @item @@defivar @var{class} @var{name} @findex defivar The @code{@@defivar} command is the definition command for instance variables in object-oriented programming. @code{@@defivar} is equivalent to @samp{@@defcv @{Instance Variable@} @dots{}}. For instance: @example @group @@defivar Window border-pattern @dots{} @@end defivar @end group @end example @noindent produces: @defivar Window border-pattern @dots{} @end defivar @code{@@defivar} creates an entry in the index of variables. @item @@deftypeivar @var{class} @var{data-type} @var{name} @findex deftypeivar The @code{@@deftypeivar} command is the definition command for typed instance variables in object-oriented programming. It is analogous to @code{@@defivar} with the addition of the @var{data-type} parameter to specify the type of the instance variable. Ordinarily, the data type is a programming language construct that should be marked with @code{@@code}. For instance: @example @group @@deftypeivar Window @@code@{int@} border-pattern @dots{} @@end deftypeivar @end group @end example @noindent produces: @deftypeivar Window @code{int} border-pattern @dots{} @end deftypeivar @code{@@deftypeivar} creates an entry in the index of variables. @end table @node Object-Oriented Methods @subsubsection Object-Oriented Methods @cindex Methods, object-oriented These commands allow you to define different sorts of function-like entities resembling methods in object-oriented programming languages. These entities take arguments, as functions do, but are associated with particular classes of objects. @table @code @findex defop @item @@defop @var{category} @var{class} @var{name} @var{arguments}@dots{} The @code{@@defop} command is the general definition command for these method-like entities. For example, some systems have constructs called @dfn{wrappers} that are associated with classes as methods are, but that act more like macros than like functions. You could use @code{@@defop Wrapper} to describe one of these.@refill Sometimes it is useful to distinguish methods and @dfn{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 @code{expose}; we would say that this window system defines an @code{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.@refill Often it makes more sense to document operations than methods. For example, window application developers need to know about the @code{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:@refill @example @@defop Operation windows expose @end example The @code{@@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.@refill The template is: @example @group @@defop @var{category} @var{class} @var{name} @var{arguments}@dots{} @var{body-of-definition} @@end defop @end group @end example @code{@@defop} creates an entry, such as `@code{expose} on @code{windows}', in the index of functions.@refill @findex deftypeop @item @@deftypeop @var{category} @var{class} @var{data-type} @var{name} @var{arguments}@dots{} The @code{@@deftypeop} command is the definition command for typed operations in object-oriented programming. It is similar to @code{@@defop} with the addition of the @var{data-type} parameter to specify the return type of the method. @code{@@deftypeop} creates an entry in the index of functions. @item @@defmethod @var{class} @var{name} @var{arguments}@dots{} @findex defmethod The @code{@@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. @ignore @c ADR: Who cares?!? @c KB: Oh, I don't know, I think this info is crucial! In the Lisp Machine, methods actually were functions, but they were usually defined with @code{defmethod}. @end ignore @code{@@defmethod} is equivalent to @samp{@@defop Method @dots{}}. 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.@refill @noindent For example: @example @group @@defmethod @code{bar-class} bar-method argument @dots{} @@end defmethod @end group @end example @noindent illustrates the definition for a method called @code{bar-method} of the class @code{bar-class}. The method takes an argument. @code{@@defmethod} creates an entry in the index of functions. @item @@deftypemethod @var{class} @var{data-type} @var{name} @var{arguments}@dots{} @findex defmethod The @code{@@deftypemethod} command is the definition command for methods in object-oriented typed languages, such as C++ and Java. It is similar to the @code{@@defmethod} command with the addition of the @var{data-type} parameter to specify the return type of the method. @code{@@deftypemethod} creates an entry in the index of functions. @end table @node Def Cmd Conventions @section Conventions for Writing Definitions @cindex Definition conventions @cindex Conventions for writing definitions When you write a definition using @code{@@deffn}, @code{@@defun}, or one of the other definition commands, please take care to use arguments that indicate the meaning, as with the @var{count} argument to the @code{forward-word} function. Also, if the name of an argument contains the name of a type, such as @var{integer}, take care that the argument actually is of that type.@refill @node Sample Function Definition @section A Sample Function Definition @cindex Function definitions @cindex Command definitions @cindex Macro definitions @cindex Sample function definition A function definition uses the @code{@@defun} and @code{@@end defun} commands. The name of the function follows immediately after the @code{@@defun} command and it is followed, on the same line, by the parameter list.@refill Here is a definition from @ref{Calling Functions,,, elisp, The GNU Emacs Lisp Reference Manual}. @quotation @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 @end quotation @need 1200 In the Texinfo source file, this example looks like this: @example @group @@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. @end group @group @@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@}. @end group @group @@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 @end group @group An interesting example of using @@code@{apply@} is found in the description of @@code@{mapcar@}. @@end defun @end group @end example @noindent In this manual, this function is listed in the Command and Variable Index under @code{apply}.@refill Ordinary variables and user options are described using a format like that for functions except that variables do not take arguments. @node Conditionals @chapter Conditionally Visible Text @cindex Conditionally visible text @cindex Text, conditionally visible @cindex Visibility of conditional text @cindex If text conditionally visible The @dfn{conditional commands} allow you to use different text for different output formats, or for general conditions that you define. For example, you can use them to specify different text for the printed manual and the Info output. The conditional commands comprise the following categories. @itemize @bullet @item Commands specific to an output format (Info, @TeX{}, HTML, @dots{}). @item Commands specific to any output format @emph{other} than a given one (not Info, not @TeX{}, @dots{}). @item `Raw' formatter text for any output format, passed straight through with no interpretation of @@-commands. @item Format-independent variable substitutions, and testing if a variable is set or clear. @end itemize @menu * Conditional Commands:: Text for a given format. * Conditional Not Commands:: Text for any format other than a given one. * Raw Formatter Commands:: Using raw formatter commands. * set clear value:: Variable tests and substitutions. * Conditional Nesting:: Using conditionals inside conditionals. @end menu @node Conditional Commands @section Conditional Commands Texinfo has an @code{@@if@var{format}} environment for each output format, to allow conditional inclusion of text for a particular output format. @findex ifinfo @code{@@ifinfo} begins segments of text that should be ignored by @TeX{} when it typesets the printed manual, and by @command{makeinfo} when not producing Info output. The segment of text appears only in the Info file and, for historical compatibility, the plain text output. @findex ifdocbook @findex ifhtml @findex ifplaintext @findex iftex @findex ifxml The environments for the other formats are analogous: @table @code @item @@ifdocbook @dots{} @@end ifdocbook Text to appear only in the Docbook output. @item @@ifhtml @dots{} @@end ifhtml Text to appear only in the HTML output. @item @@ifplaintext @dots{} @@end ifplaintext Text to appear only in the plain text output. @item @@iftex @dots{} @@end iftex Text to appear only in the printed manual. @item @@ifxml @dots{} @@end ifxml Text to appear only in the XML output. @end table The @code{@@if@dots{}} and @code{@@end if@dots{}} commands must appear on lines by themselves in your source file. Here is an example showing all these conditionals: @example @@iftex This text will appear only in the printed manual. @@end iftex @@ifinfo However, this text will appear only in Info and plain text. @@end ifinfo @@ifhtml And this text will only appear in HTML. @@end ifhtml @@ifplaintext Whereas this text will only appear in plain text. @@end ifplaintext @@ifxml Notwithstanding that this will only appear in XML. @@end ifxml @@ifdocbook Nevertheless, this will only appear in Docbook. @@end ifdocbook @end example @noindent The preceding example produces the following line: @iftex This text will appear only in the printed manual. @end iftex @ifinfo However, this text will appear only in Info and plain text. @end ifinfo @ifhtml And this text will only appear in HTML. @end ifhtml @ifplaintext Whereas this text will only appear in plain text. @end ifplaintext @ifxml Notwithstanding that this will only appear in XML. @end ifxml @ifdocbook Nevertheless, this will only appear in Docbook. @end ifdocbook @noindent Notice that you only see one of the input lines, depending on which version of the manual you are reading. @node Conditional Not Commands @section Conditional Not Commands @findex ifnotdocbook @findex ifnothtml @findex ifnotinfo @findex ifnotplaintext @findex ifnottex @findex ifnotxml You can specify text to be included in any output format @emph{other} than a given one with the @code{@@ifnot@dots{}} environments: @example @@ifnotdocbook @dots{} @@end ifnotdocbook @@ifnothtml @dots{} @@end ifnothtml @@ifnotinfo @dots{} @@end ifnotinfo @@ifnotplaintext @dots{} @@end ifnotplaintext @@ifnottex @dots{} @@end ifnottex @@ifnotxml @dots{} @@end ifnotxml @end example @noindent The @code{@@ifnot@dots{}} command and the @code{@@end} command must appear on lines by themselves in your actual source file. If the output file is being made in the given format, the region is @emph{ignored}. Otherwise, it is included. There is one exception (for historical compatibility): @code{@@ifnotinfo} text is omitted for both Info and plain text output, not just Info. To specify text which appears only in Info and not in plain text, use @code{@@ifnotplaintext}, like this: @example @@ifinfo @@ifnotplaintext This will be in Info, but not plain text. @@end ifnotplaintext @@end ifinfo @end example The regions delimited by these commands are ordinary Texinfo source as with @code{@@iftex}, not raw formatter source as with @code{@@tex} (@pxref{Raw Formatter Commands}). @node Raw Formatter Commands @section Raw Formatter Commands @cindex Raw formatter commands @cindex @TeX{} commands, using ordinary @cindex Ordinary @TeX{} commands, using @cindex Commands using raw @TeX{} @cindex Docbook, including raw @cindex HTML, including raw @cindex XML, including raw @cindex Plain @TeX{} Inside a region delineated by @code{@@iftex} and @code{@@end iftex}, you can embed some raw @TeX{} commands. The Texinfo processors will ignore such a region unless @TeX{} output is being produced. You can write the @TeX{} commands as you would write them in a normal @TeX{} file, except that you must replace the @samp{\} used by @TeX{} with an @samp{@@}. For example, in the @code{@@titlepage} section of a Texinfo file, you can use the @TeX{} command @code{@@vskip} to format the copyright page. (The @code{@@titlepage} command causes Info to ignore the region automatically, as it does with the @code{@@iftex} command.) However, most features of plain @TeX{} will not work within @code{@@iftex}, as they are overridden by Texinfo features. The purpose of @code{@@iftex} is to provide conditional processing for the Texinfo source, not provide access to underlying formatting features. @findex tex You can enter plain @TeX{} completely, and use @samp{\} in the @TeX{} commands, by delineating a region with the @code{@@tex} and @code{@@end tex} commands. All plain @TeX{} commands and category codes are restored within an @code{@@tex} region. The sole exception is that the @code{@@} character still introduces a command, so that @code{@@end tex} can be recognized properly. As with @code{@@iftex}, Texinfo processors will ignore such a region unless @TeX{} output is being produced. @findex \gdef @r{within @code{@@tex}} In complex cases, you may wish to define new @TeX{} macros within @code{@@tex}. You must use @code{\gdef} to do this, not @code{\def}, because @code{@@tex} regions are processed in a @TeX{} group. @cindex Mathematical expressions As an example, here is a mathematical expression written in plain @TeX{}: @example @@tex $$ \chi^2 = \sum_@{i=1@}^N \left (y_i - (a + b x_i) \over \sigma_i\right)^2 $$ @@end tex @end example @noindent The output of this example will appear only in a printed manual. If you are reading this in Info, you will not see the equation that appears in the printed manual. @iftex In a printed manual, the above expression looks like this: @end iftex @tex $$ \chi^2 = \sum_{i=1}^N \left(y_i - (a + b x_i) \over \sigma_i\right)^2 $$ @end tex @findex ifhtml @findex html Analogously, you can use @code{@@ifhtml @dots{} @@end ifhtml} to delimit a region to be included in HTML output only, and @code{@@html @dots{} @@end html} for a region of raw HTML. @findex ifxml @findex xml Likewise, you can use @code{@@ifxml @dots{} @@end ifxml} to delimit a region to be included in XML output only, and @code{@@xml @dots{} @@end xml} for a region of raw XML. @findex ifdocbook @findex docbook Again likewise, you can use @code{@@ifdocbook @dots{} @@end ifdocbook} to delimit a region to be included in Docbook output only, and @code{@@docbook @dots{} @@end docbook} for a region of raw Docbook. In all cases, the exception to the raw processing is that @code{@@} is still an escape character, so the @code{@@end} command can be recognized. @node set clear value @section @code{@@set}, @code{@@clear}, and @code{@@value} You can direct the Texinfo formatting commands to format or ignore parts of a Texinfo file with the @code{@@set}, @code{@@clear}, @code{@@ifset}, and @code{@@ifclear} commands. Here are brief descriptions of these commands, see the following sections for more details: @table @code @item @@set @var{flag} [@var{value}] Set the variable @var{flag}, to the optional @var{value} if specified. @item @@clear @var{flag} Undefine the variable @var{flag}, whether or not it was previously defined. @item @@ifset @var{flag} If @var{flag} is set, text through the next @code{@@end ifset} command is formatted. If @var{flag} is clear, text through the following @code{@@end ifset} command is ignored. @item @@ifclear @var{flag} If @var{flag} is set, text through the next @code{@@end ifclear} command is ignored. If @var{flag} is clear, text through the following @code{@@end ifclear} command is formatted. @end table @menu * set value:: Expand a flag variable to a string. * ifset ifclear:: Format a region if a flag is set. * value Example:: An easy way to update edition information. @end menu @node set value @subsection @code{@@set} and @code{@@value} @findex value You use the @code{@@set} command to specify a value for a flag, which is later expanded by the @code{@@value} command. A @dfn{flag} (aka @dfn{variable}) is an identifier. It is best to use only letters and numerals in a flag name, not @samp{-} or @samp{_}---they will work in some contexts, but not all, due to limitations in @TeX{}. The value is the remainder of the input line, and can contain anything. Write the @code{@@set} command like this: @example @@set foo This is a string. @end example @noindent This sets the value of the flag @code{foo} to ``This is a string.''. The Texinfo formatters then replace an @code{@@value@{@var{flag}@}} command with the string to which @var{flag} is set. Thus, when @code{foo} is set as shown above, the Texinfo formatters convert this: @example @group @@value@{foo@} @exdent @r{to this:} This is a string. @end group @end example You can write an @code{@@value} command within a paragraph; but you must write an @code{@@set} command on a line of its own. If you write the @code{@@set} command like this: @example @@set foo @end example @noindent without specifying a string, the value of @code{foo} is the empty string. If you clear a previously set flag with @code{@@clear @var{flag}}, a subsequent @code{@@value@{flag@}} command will report an error. For example, if you set @code{foo} as follows: @example @@set howmuch very, very, very @end example @noindent then the formatters transform @example @group It is a @@value@{howmuch@} wet day. @exdent @r{into} It is a very, very, very wet day. @end group @end example If you write @example @@clear howmuch @end example @noindent then the formatters transform @example @group It is a @@value@{howmuch@} wet day. @exdent @r{into} It is a @{No value for "howmuch"@} wet day. @end group @end example @node ifset ifclear @subsection @code{@@ifset} and @code{@@ifclear} @findex ifset When a @var{flag} is set, the Texinfo formatting commands format text between subsequent pairs of @code{@@ifset @var{flag}} and @code{@@end ifset} commands. When the @var{flag} is cleared, the Texinfo formatting commands do @emph{not} format the text. @code{@@ifclear} operates analogously. Write the conditionally formatted text between @code{@@ifset @var{flag}} and @code{@@end ifset} commands, like this: @example @group @@ifset @var{flag} @var{conditional-text} @@end ifset @end group @end example For example, you can create one document that has two variants, such as a manual for a `large' and `small' model: @cindex Shrubbery @example 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 @dots{} @end example @noindent In the example, the formatting commands will format the text between @code{@@ifset large} and @code{@@end ifset} because the @code{large} flag is set. When @var{flag} is cleared, the Texinfo formatting commands do @emph{not} format the text between @code{@@ifset @var{flag}} and @code{@@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 @code{@@clear large} command after the @code{@@set large} command (but before the conditional text), then the Texinfo formatting commands ignore the text between the @code{@@ifset large} and @code{@@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 @dots{}''. @findex ifclear If a flag is cleared with an @code{@@clear @var{flag}} command, then the formatting commands format text between subsequent pairs of @code{@@ifclear} and @code{@@end ifclear} commands. But if the flag is set with @code{@@set @var{flag}}, then the formatting commands do @emph{not} format text between an @code{@@ifclear} and an @code{@@end ifclear} command; rather, they ignore that text. An @code{@@ifclear} command looks like this: @example @@ifclear @var{flag} @end example @node value Example @subsection @code{@@value} Example You can use the @code{@@value} command to minimize the number of places you need to change when you record an update to a manual. @xref{GNU Sample Texts}, for the full text of an example of using this to work with Automake distributions. This example is adapted from @ref{Top,, Overview, make, The GNU Make Manual}. @enumerate @item Set the flags: @example @group @@set EDITION 0.35 Beta @@set VERSION 3.63 Beta @@set UPDATED 14 August 1992 @@set UPDATE-MONTH August 1992 @end group @end example @item Write text for the @code{@@copying} section (@pxref{copying}): @example @group @@copying This is Edition @@value@{EDITION@}, last updated @@value@{UPDATED@}, of @@cite@{The GNU Make Manual@}, for @@code@{make@}, version @@value@{VERSION@}. Copyright @dots{} Permission is granted @dots{} @@end copying @end group @end example @item Write text for the title page, for people reading the printed manual: @example @group @@titlepage @@title GNU Make @@subtitle A Program for Directing Recompilation @@subtitle Edition @@value@{EDITION@}, @dots{} @@subtitle @@value@{UPDATE-MONTH@} @@page @@insertcopying @dots{} @@end titlepage @end group @end example @noindent (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.) @item Write text for the Top node, for people reading the Info file: @example @group @@ifnottex @@node Top @@top Make @@insertcopying @dots{} @@end ifnottex @end group @end example After you format the manual, the @code{@@value} constructs have been expanded, so the output contains text like this: @example @group This is Edition 0.35 Beta, last updated 14 August 1992, of `The GNU Make Manual', for `make', Version 3.63 Beta. @end group @end example @end enumerate When you update the manual, you change only the values of the flags; you do not need to edit the three sections. @node Conditional Nesting @section Conditional Nesting @cindex Conditionals, nested @cindex Nesting conditionals Conditionals can be nested; however, the details are a little tricky. The difficulty comes with failing conditionals, such as @code{@@ifhtml} when HTML is not being produced, where the included text is to be ignored. However, it is not to be @emph{completely} ignored, since it is useful to have one @code{@@ifset} inside another, for example---that is a way to include text only if two conditions are met. Here's an example: @example @@ifset somevar @@ifset anothervar Both somevar and anothervar are set. @@end ifset @@ifclear anothervar Somevar is set, anothervar is not. @@end ifclear @@end ifset @end example Technically, Texinfo requires that for a failing conditional, the ignored text must be properly nested with respect to that failing conditional. Unfortunately, it's not always feasible to check that @emph{all} conditionals are properly nested, because then the processors could have to fully interpret the ignored text, which defeats the purpose of the command. Here's an example illustrating these rules: @example @@ifset a @@ifset b @@ifclear ok - ok, ignored @@end junky - ok, ignored @@end ifset @@c WRONG - missing @@end ifset. @end example Finally, as mentioned above, all conditional commands must be on lines by themselves, with no text (even spaces) before or after. Otherwise, the processors cannot reliably determine which commands to consider for nesting purposes. @node Internationalization @chapter Internationalization @cindex Internationalization Texinfo has some support for writing in languages other than English, although this area still needs considerable work. For a list of the various accented and special characters Texinfo supports, see @ref{Inserting Accents}. @menu * documentlanguage:: Declaring the current language. * documentencoding:: Declaring the input encoding. @end menu @node documentlanguage @section @code{@@documentlanguage @var{cc}}: Set the Document Language @findex documentlanguage @cindex Language, declaring @cindex Document language, declaring The @code{@@documentlanguage} command declares the current document language. Write it on a line by itself, with a two-letter ISO-639 language code following (list is included below). If you have a multilingual document, the intent is to be able to use this command multiple times, to declare each language change. If the command is not used at all, the default is @code{en} for English. @cindex @file{txi-@var{cc}.tex} At present, this command is ignored in Info and HTML output. For @TeX{}, it causes the file @file{txi-@var{cc}.tex} to be read (if it exists). Such a file appropriately redefines the various English words used in @TeX{} output, such as `Chapter', `See', and so on. @cindex Hyphenation patterns, language-dependent It would be good if this command also changed @TeX{}'s ideas of the current hyphenation patterns (via the @TeX{} primitive @code{\language}), but this is unfortunately not currently implemented. @cindex ISO 639 codes @cindex Language codes Hereare the valid language codes, from ISO-639. @multitable @columnfractions .07 .26 .07 .26 .07 .26 @item @code{aa} @tab Afar @tab @code{ab} @tab Abkhazian @tab @code{af} @tab Afrikaans @item @code{am} @tab Amharic @tab @code{ar} @tab Arabic @tab @code{as} @tab Assamese @item @code{ay} @tab Aymara @tab @code{az} @tab Azerbaijani @tab @code{ba} @tab Bashkir @item @code{be} @tab Byelorussian @tab @code{bg} @tab Bulgarian @tab @code{bh} @tab Bihari @item @code{bi} @tab Bislama @tab @code{bn} @tab Bengali; Bangla @tab @code{bo} @tab Tibetan @item @code{br} @tab Breton @tab @code{ca} @tab Catalan @tab @code{co} @tab Corsican @item @code{cs} @tab Czech @tab @code{cy} @tab Welsh @tab @code{da} @tab Danish @item @code{de} @tab German @tab @code{dz} @tab Bhutani @tab @code{el} @tab Greek @item @code{en} @tab English @tab @code{eo} @tab Esperanto @tab @code{es} @tab Spanish @item @code{et} @tab Estonian @tab @code{eu} @tab Basque @tab @code{fa} @tab Persian @item @code{fi} @tab Finnish @tab @code{fj} @tab Fiji @tab @code{fo} @tab Faroese @item @code{fr} @tab French @tab @code{fy} @tab Frisian @tab @code{ga} @tab Irish @item @code{gd} @tab Scots Gaelic @tab @code{gl} @tab Galician @tab @code{gn} @tab Guarani @item @code{gu} @tab Gujarati @tab @code{ha} @tab Hausa @tab @code{he} @tab Hebrew @item @code{hi} @tab Hindi @tab @code{hr} @tab Croatian @tab @code{hu} @tab Hungarian @item @code{hy} @tab Armenian @tab @code{ia} @tab Interlingua @tab @code{id} @tab Indonesian @item @code{ie} @tab Interlingue @tab @code{ik} @tab Inupiak @tab @code{is} @tab Icelandic @item @code{it} @tab Italian @tab @code{iu} @tab Inuktitut @tab @code{ja} @tab Japanese @item @code{jw} @tab Javanese @tab @code{ka} @tab Georgian @tab @code{kk} @tab Kazakh @item @code{kl} @tab Greenlandic @tab @code{km} @tab Cambodian @tab @code{kn} @tab Kannada @item @code{ks} @tab Kashmiri @tab @code{ko} @tab Korean @tab @code{ku} @tab Kurdish @item @code{ky} @tab Kirghiz @tab @code{la} @tab Latin @tab @code{ln} @tab Lingala @item @code{lt} @tab Lithuanian @tab @code{lo} @tab Laothian @tab @code{lv} @tab Latvian, Lettish @item @code{mg} @tab Malagasy @tab @code{mi} @tab Maori @tab @code{mk} @tab Macedonian @item @code{ml} @tab Malayalam @tab @code{mn} @tab Mongolian @tab @code{mo} @tab Moldavian @item @code{mr} @tab Marathi @tab @code{ms} @tab Malay @tab @code{mt} @tab Maltese @item @code{my} @tab Burmese @tab @code{na} @tab Nauru @tab @code{ne} @tab Nepali @item @code{nl} @tab Dutch @tab @code{no} @tab Norwegian @tab @code{oc} @tab Occitan @item @code{om} @tab (Afan) Oromo @tab @code{or} @tab Oriya @tab @code{pa} @tab Punjabi @item @code{pl} @tab Polish @tab @code{ps} @tab Pashto, Pushto @tab @code{pt} @tab Portuguese @item @code{qu} @tab Quechua @tab @code{rm} @tab Rhaeto-Romance @tab @code{rn} @tab Kirundi @item @code{ro} @tab Romanian @tab @code{ru} @tab Russian @tab @code{rw} @tab Kinyarwanda @item @code{sa} @tab Sanskrit @tab @code{sd} @tab Sindhi @tab @code{sg} @tab Sangro @item @code{sh} @tab Serbo-Croatian @tab @code{si} @tab Sinhalese @tab @code{sk} @tab Slovak @item @code{sl} @tab Slovenian @tab @code{sm} @tab Samoan @tab @code{sn} @tab Shona @item @code{so} @tab Somali @tab @code{sq} @tab Albanian @tab @code{sr} @tab Serbian @item @code{ss} @tab Siswati @tab @code{st} @tab Sesotho @tab @code{su} @tab Sundanese @item @code{sv} @tab Swedish @tab @code{sw} @tab Swahili @tab @code{ta} @tab Tamil @item @code{te} @tab Telugu @tab @code{tg} @tab Tajik @tab @code{th} @tab Thai @item @code{ti} @tab Tigrinya @tab @code{tk} @tab Turkmen @tab @code{tl} @tab Tagalog @item @code{tn} @tab Setswana @tab @code{to} @tab Tonga @tab @code{tr} @tab Turkish @item @code{ts} @tab Tsonga @tab @code{tt} @tab Tatar @tab @code{tw} @tab Twi @item @code{ug} @tab Uighur @tab @code{uk} @tab Ukrainian @tab @code{ur} @tab Urdu @item @code{uz} @tab Uzbek @tab @code{vi} @tab Vietnamese @tab @code{vo} @tab Volapuk @item @code{wo} @tab Wolof @tab @code{xh} @tab Xhosa @tab @code{yi} @tab Yiddish @item @code{yo} @tab Yoruba @tab @code{za} @tab Zhuang @tab @code{zh} @tab Chinese @item @code{zu} @tab Zulu @end multitable @node documentencoding @section @code{@@documentencoding @var{enc}}: Set Input Encoding @findex documentencoding @cindex Encoding, declaring @cindex Input encoding, declaring @cindex Character set, declaring @cindex Document input encoding The @code{@@documentencoding} command declares the input document encoding. Write it on a line by itself, with a valid encoding specification following. At present, Texinfo supports only these encodings: @table @code @item US-ASCII This has no particular effect, but it's included for completeness. @itemx ISO-8859-1 @itemx ISO-8859-15 @item ISO-8859-2 These specify the standard encodings for Western European (the first two) and Eastern European languages (the third), respectively. ISO 8859-15 replaces some little-used characters from 8859-1 (e.g., precomposed fractions) with more commonly needed ones, such as the Euro symbol. A full description of the encodings is beyond our scope here; one useful reference is @uref{http://czyborra.com/charsets/iso8859.html}. @end table Specifying an encoding @var{enc} has the following effects: @opindex --enable-encoding @cindex Local Variables: section, for encoding @cindex Info output, and encoding In Info output, if the option @option{--enable-encoding} is given to @command{makeinfo}, a so-called `Local Variables' section (@pxref{File Variables,,,emacs,The GNU Emacs Manual}) is output including @var{enc}. This allows Info readers to set the encoding appropriately. @example Local Variables: coding: @var{enc} End: @end example @cindex HTML output, and encodings @cindex @code{http-equiv}, and charset specification @cindex @code{} HTML tag, and charset specification In HTML output, a @samp{} tag is output, in the @samp{} section of the HTML, that specifies @var{enc}. Web servers and browsers cooperate to use this information so the correct encoding is used to display the page, if supported by the system. @example @end example In all other cases, it is recognized but ignored. @node Defining New Texinfo Commands @chapter Defining New Texinfo Commands @cindex Macros @cindex Defining new Texinfo commands @cindex New Texinfo commands, defining @cindex Texinfo commands, defining new @cindex User-defined Texinfo commands Texinfo provides several ways to define new commands: @itemize @bullet @item A Texinfo @dfn{macro} allows you to define a new Texinfo command as any sequence of text and/or existing commands (including other macros). The macro can have any number of @dfn{parameters}---text you supply each time you use the macro. Incidentally, these macros have nothing to do with the @code{@@defmac} command, which is for documenting macros in the subject of the manual (@pxref{Def Cmd Template}). @item @samp{@@alias} is a convenient way to define a new name for an existing command. @item @samp{@@definfoenclose} allows you to define new commands with customized output in the Info file. @end itemize @menu * Defining Macros:: Defining and undefining new commands. * Invoking Macros:: Using a macro, once you've defined it. * Macro Details:: Limitations of Texinfo macros. * alias:: Command aliases. * definfoenclose:: Customized highlighting. @end menu @node Defining Macros @section Defining Macros @cindex Defining macros @cindex Macro definitions @findex macro You use the Texinfo @code{@@macro} command to define a macro, like this: @example @@macro @var{macroname}@{@var{param1}, @var{param2}, @dots{}@} @var{text} @dots{} \@var{param1}\ @dots{} @@end macro @end example The @dfn{parameters} @var{param1}, @var{param2}, @dots{} correspond to arguments supplied when the macro is subsequently used in the document (described in the next section). @cindex Macro names, valid characters in @cindex Names of macros, valid characters of For a macro to work consistently with @TeX{}, @var{macroname} must consist entirely of letters: no digits, hyphens, underscores, or other special characters. So, we recommend using only letters. However, @command{makeinfo} will accept anything except @samp{@{@}_^=}; @samp{_} and @samp{^} are excluded so that macros can be called in @code{@@math} mode without a following space (@pxref{math,,@code{@@math}}). If a macro needs no parameters, you can define it either with an empty list (@samp{@@macro foo @{@}}) or with no braces at all (@samp{@@macro foo}). @cindex Body of a macro @cindex Mutually recursive macros @cindex Recursion, mutual The definition or @dfn{body} of the macro can contain most Texinfo commands, including previously-defined macros. Not-yet-defined macro invocations are not allowed; thus, it is not possible to have mutually recursive Texinfo macros. Also, a macro definition that defines another macro does not work in @TeX{} due to limitations in the design of @code{@@macro}. @cindex Parameters to macros In the macro body, instances of a parameter name surrounded by backslashes, as in @samp{\@var{param1}\} in the example above, are replaced by the corresponding argument from the macro invocation. You can use parameter names any number of times in the body, including zero. @cindex Backslash in macros To get a single @samp{\} in the macro expansion, use @samp{\\}. Any other use of @samp{\} in the body yields a warning. @cindex Spaces in macros @cindex Whitespace in macros The newlines after the @code{@@macro} line and before the @code{@@end macro} line are ignored, that is, not included in the macro body. All other whitespace is treated according to the usual Texinfo rules. @cindex Recursive macro invocations @findex rmacro To allow a macro to be used recursively, that is, in an argument to a call to itself, you must define it with @samp{@@rmacro}, like this: @example @@rmacro rmac @{arg@} a\arg\b @@end rmacro @dots{} @@rmac@{1@@rmac@{text@}2@} @end example This produces the output `a1atextb2b'. With @samp{@@macro} instead of @samp{@@rmacro}, an error message is given. @findex unmacro @cindex Macros, undefining @cindex Undefining macros You can undefine a macro @var{foo} with @code{@@unmacro @var{foo}}. It is not an error to undefine a macro that is already undefined. For example: @example @@unmacro foo @end example @node Invoking Macros @section Invoking Macros @cindex Invoking macros @cindex Expanding macros @cindex Running macros @cindex Macro invocation After a macro is defined (see the previous section), you can use (@dfn{invoke}) it in your document like this: @example @@@var{macroname} @{@var{arg1}, @var{arg2}, @dots{}@} @end example @noindent and the result will be just as if you typed the body of @var{macroname} at that spot. For example: @example @@macro foo @{p, q@} Together: \p\ & \q\. @@end macro @@foo@{a, b@} @end example @noindent produces: @display Together: a & b. @end display @cindex Backslash, and macros Thus, the arguments and parameters are separated by commas and delimited by braces; any whitespace after (but not before) a comma is ignored. The braces are required in the invocation (but not the definition), even when the macro takes no arguments, consistent with all other Texinfo commands. For example: @example @@macro argless @{@} No arguments here. @@end macro @@argless@{@} @end example @noindent produces: @display No arguments here. @end display @cindex Comma, in macro arguments @cindex Braces, in macro arguments To insert a comma, brace, or backslash in an argument, prepend a backslash, as in @example @@@var{macname} @{\\\@{\@}\,@} @end example @noindent which will pass the (almost certainly error-producing) argument @samp{\@{@},} to @var{macname}. However, commas in parameters, even if escaped by a backslash, might cause trouble in @TeX{}. If the macro is defined to take a single argument, and is invoked without any braces, the entire rest of the line after the macro name is supplied as the argument. For example: @example @@macro bar @{p@} Twice: \p\ & \p\. @@end macro @@bar aah @end example @noindent produces: @c Sorry for cheating, but let's not require macros to process the manual. @display Twice: aah & aah. @end display If the macro is defined to take a single argument, and is invoked with braces, the braced text is passed as the argument, regardless of commas. For example: @example @@macro bar @{p@} Twice: \p\ & \p\. @@end macro @@bar@{a,b@} @end example @noindent produces: @display Twice: a,b & a,b. @end display @node Macro Details @section Macro Details and Caveats @cindex Macro details @cindex Details of macro usage @cindex Caveats for macro usage Due to unavoidable limitations, certain macro-related constructs cause problems with @TeX{}. If you get macro-related errors when producing the printed version of a manual, try expanding the macros with @command{makeinfo} by invoking @command{texi2dvi} with the @samp{-E} option (@pxref{Format with texi2dvi}). @itemize @bullet @item As mentioned earlier, macro names must consist entirely of letters. @item It is not advisable to redefine any @TeX{} primitive, plain, or Texinfo command name as a macro. Unfortunately this is a very large set of names, and the possible resulting errors are unpredictable. @item All macros are expanded inside at least one @TeX{} group. This means that @code{@@set} and other such commands have no effect inside a macro. @item Commas in macro arguments, even if escaped by a backslash, don't always work. @item Macro arguments cannot cross lines. @item It is (usually) best to avoid comments inside macro definitions, but see the next item. @item Macros containing a command which must be on a line by itself, such as a conditional, cannot be invoked in the middle of a line. In general, the interaction of newlines in the macro definitions and invocations depends on the precise commands and context. You may be able to work around some problems with judicious use of @code{@@c}. Suppose you define a macro that is always intended to be used on a line by itself: @example @@macro linemac @@cindex whatever @@c @@end macro ... foo @@linemac bar @end example Without the @code{@@c}, there will be an unwanted blank line between the @samp{@@cindex whatever} and the @samp{bar} (one newline comes from the macro definition, one from after the invocation), causing a paragraph break. On the other hand, you wouldn't want the @code{@@c} if the macro was sometimes invoked in the middle of a line (the text after the invocation would be treated as a comment). @item In general, you can't arbitrarily substitute a macro call for Texinfo command arguments, even when the text is the same. It might work with some commands, it fails with others. Best not to do it at all. For instance, this fails: @example @@macro offmacro off @@end macro @@headings @@offmacro @end example @noindent You would expect this to be equivalent to @code{@@headings off}, but for @TeX{}nical reasons, it fails with a mysterious error message (@code{Paragraph ended before @@headings was complete}). @item Macros cannot define macros in the natural way. To do this, you must use conditionals and raw @TeX{}. For example: @example @@ifnottex @@macro ctor @{name, arg@} @@macro \name\ something involving \arg\ somehow @@end macro @@end macro @@end ifnottex @@tex \gdef\ctor#1@{\ctorx#1,@} \gdef\ctorx#1,#2,@{\def#1@{something involving #2 somehow@}@} @@end tex @end example @end itemize The @command{makeinfo} implementation also has limitations: @itemize @item @code{@@verbatim} and macros do not mix; for instance, you can't start a verbatim block inside a macro and end it outside. (@xref{verbatim}.) Starting any environment inside a macro and ending it outside may or may not work, for that matter. @item Macros that completely define macros are ok, but it's not possible to have incorrectly nested macro definitions. That is, @code{@@macro} and @code{@@end macro} (likewise for @code{@@rmacro}) must be correctly paired. For example, you cannot start a macro definition within a macro, and then end the nested definition outside the macro. @item @code{@@rmacro} is a kludge. @end itemize One more limitation is common to both implementations: white space is ignored at the beginnings of lines. Future major revisions of Texinfo may ease some of these limitations (by introducing a new macro syntax). @node alias @section @samp{@@alias @var{new}=@var{existing}} @cindex Aliases, command @cindex Command aliases @findex alias The @samp{@@alias} command defines a new command to be just like an existing one. This is useful for defining additional markup names, thus preserving semantic information in the input even though the output result may be the same. Write the @samp{@@alias} command on a line by itself, followed by the new command name, an equals sign, and the existing command name. Whitespace around the equals sign is ignored. Thus: @example @@alias @var{new} = @var{existing} @end example For example, if your document contains citations for both books and some other media (movies, for example), you might like to define a macro @code{@@moviecite@{@}} that does the same thing as an ordinary @code{@@cite@{@}} but conveys the extra semantic information as well. You'd do this as follows: @example @@alias moviecite = cite @end example Macros do not always have the same effect as aliases, due to vagaries of argument parsing. Also, aliases are much simpler to define than macros. So the command is not redundant. (It was also heavily used in the Jargon File!) Aliases must not be recursive, directly or indirectly. It is not advisable to redefine any @TeX{} primitive, plain, or Texinfo command name as an alias. Unfortunately this is a very large set of names, and the possible resulting errors are completely random. @node definfoenclose @section @samp{definfoenclose}: Customized Highlighting @cindex Highlighting, customized @cindex Customized highlighting @findex definfoenclose A @code{@@definfoenclose} command may be used to define a highlighting command for Info, but not for @TeX{}. A command defined using @code{@@definfoenclose} marks text by enclosing it in strings that precede and follow the text. You can use this to get closer control of your Info output. Presumably, if you define a command with @code{@@definfoenclose} for Info, you will create a corresponding command for @TeX{}, either in @file{texinfo.tex}, @file{texinfo.cnf}, or within an @samp{@@iftex} in your document. Write a @code{@@definfoenclose} command on a line and follow it with three arguments separated by commas. The first argument to @code{@@definfoenclose} is the @@-command name (without the @code{@@}); the second argument is the Info start delimiter string; and the third argument is the Info end delimiter string. The latter two arguments enclose the highlighted text in the Info file. A delimiter string may contain spaces. Neither the start nor end delimiter is required. If you do not want a start delimiter but do want an end delimiter, you must follow the command name with two commas in a row; otherwise, the Info formatting commands will naturally misinterpret the end delimiter string you intended as the start delimiter string. If you do a @code{@@definfoenclose} on the name of a pre-defined macro (such as @code{@@emph}, @code{@@strong}, @code{@@t}, or @code{@@i}), the enclosure definition will override the built-in definition. An enclosure command defined this way takes one argument in braces; this is intended for new markup commands (@pxref{Marking Text}). @findex phoo For example, you can write: @example @@definfoenclose phoo,//,\\ @end example @noindent near the beginning of a Texinfo file to define @code{@@phoo} as an Info formatting command that inserts `//' before and `\\' after the argument to @code{@@phoo}. You can then write @code{@@phoo@{bar@}} wherever you want `//bar\\' highlighted in Info. Also, for @TeX{} formatting, you could write @example @@iftex @@global@@let@@phoo=@@i @@end iftex @end example @noindent to define @code{@@phoo} as a command that causes @TeX{} to typeset the argument to @code{@@phoo} in italics. Each definition applies to its own formatter: one for @TeX{}, the other for @code{texinfo-format-buffer} or @code{texinfo-format-region}. The @code{@@definfoenclose} command need not be within @samp{@@ifinfo}, but the raw @TeX{} commands do need to be in @samp{@@iftex}. @findex headword Here is another example: write @example @@definfoenclose headword, , : @end example @noindent near the beginning of the file, to define @code{@@headword} as an Info formatting command that inserts nothing before and a colon after the argument to @code{@@headword}. @samp{@@definfoenclose} definitions must not be recursive, directly or indirectly. @node Hardcopy @chapter Formatting and Printing Hardcopy @cindex Format and print hardcopy @cindex Printing hardcopy @cindex Hardcopy, printing it @cindex Making a printed manual @cindex Sorting indices @cindex Indices, sorting @cindex @TeX{} index sorting @pindex texindex 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 with explicit shell commands. * Format with texi2dvi:: A simpler way to format. * 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 to do before you 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 A4 or A5 paper. * pagesizes:: How to print with customized page sizes. * Cropmarks and Magnification:: How to print marks to indicate the size of pages and how to print scaled up output. * PDF Output:: Portable Document Format output. * Obtaining TeX:: How to Obtain @TeX{}. @end menu @node Use TeX @section Use @TeX{} The typesetting program called @TeX{} is used for formatting a Texinfo file. @TeX{} is a very powerful typesetting program and, if used correctly, does an exceptionally good job. (@xref{Obtaining TeX, , How to Obtain @TeX{}}, for information on how to obtain @TeX{}.) The standalone @code{makeinfo} program and Emacs functions @code{texinfo-format-region} and @code{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 (@pxref{Creating an Info File}). @node Format with tex/texindex @section Format with @code{tex} and @code{texindex} @cindex Shell formatting with @code{tex} and @code{texindex} @cindex Formatting with @code{tex} and @code{texindex} @cindex DVI file You can format the Texinfo file with the shell command @code{tex} followed by the name of the Texinfo file. For example: @example tex foo.texi @end example @noindent @TeX{} will produce a @dfn{DVI file} as well as several auxiliary files containing information for indices, cross references, etc. The DVI file (for @dfn{DeVice Independent} file) can be printed on virtually any device (see the following sections). @pindex texindex The @code{tex} formatting command itself does not sort the indices; it writes an output file of unsorted index data. To generate a printed index after running the @command{tex} command, you first need a sorted index to work from. The @command{texindex} command sorts indices. (The source file @file{texindex.c} comes as part of the standard Texinfo distribution, among other places.) (@command{texi2dvi} runs @command{tex} and @command{texindex} as necessary.) @cindex Names of index files @cindex Index file names The @code{tex} formatting command outputs unsorted index files under names that obey a standard convention: the name of your main input file with any @samp{.tex} (or similar, @pxref{tex invocation,,, web2c, Web2c}) extension removed, followed by the two letter names of indices. For example, the raw index output files for the input file @file{foo.texinfo} would be @file{foo.cp}, @file{foo.vr}, @file{foo.fn}, @file{foo.tp}, @file{foo.pg} and @file{foo.ky}. Those are exactly the arguments to give to @code{texindex}. @need 1000 @cindex Wildcards @cindex Globbing Instead of specifying all the unsorted index file names explicitly, you can use @samp{??} as shell wildcards and give the command in this form: @example texindex foo.?? @end example @noindent This command will run @code{texindex} on all the unsorted index files, including any that you have defined yourself using @code{@@defindex} or @code{@@defcodeindex}. (You may execute @samp{texindex foo.??} even if there are similarly named files with two letter extensions that are not index files, such as @samp{foo.el}. The @code{texindex} command reports but otherwise ignores such files.) For each file specified, @code{texindex} generates a sorted index file whose name is made by appending @samp{s} to the input file name. The @code{@@printindex} command looks for a file with that name (@pxref{Printing Indices & Menus}). @code{texindex} does not alter the raw index output file. After you have sorted the indices, you need to rerun @code{tex} on the Texinfo file. This regenerates the DVI file, this time with up-to-date index entries. Finally, you may need to run @code{tex} one more time, to get the page numbers in the cross-references correct. To summarize, this is a five step process: @enumerate @item Run @code{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). @item Run @code{texindex} on the raw index files. This creates the corresponding sorted index files (with three letter extensions). @item Run @code{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. @item Sort the indices again, with @code{texindex}. @item Run @code{tex} one last time. This time the correct page numbers are written for the cross-references. @end enumerate @pindex texi2dvi Alternatively, it's a one-step process: run @code{texi2dvi} (@pxref{Format with texi2dvi}). You need not run @code{texindex} each time after you run @code{tex}. If you do not, on the next run, the @code{tex} formatting command will use whatever sorted index files happen to exist from the previous use of @code{texindex}. This is usually ok while you are debugging. @cindex Auxiliary files, avoiding @findex novalidate @cindex Pointer validation, suppressing @cindex Chapters, formatting one at a time Sometimes you may wish to print a document while you know it is incomplete, or to print just one chapter of a document. In that case, the usual auxiliary files that @TeX{} creates and warnings @TeX{} gives when cross-references are not satisfied are just nuisances. You can avoid them with the @code{@@novalidate} command, which you must give @emph{before} the @code{@@setfilename} command (@pxref{setfilename,,@code{@@setfilename}}). Thus, the beginning of your file would look approximately like this: @example \input texinfo @@novalidate @@setfilename myfile.info @dots{} @end example @noindent @code{@@novalidate} also turns off validation in @code{makeinfo}, just like its @code{--no-validate} option (@pxref{Pointer Validation}). @node Format with texi2dvi @section Format with @code{texi2dvi} @pindex texi2dvi @r{(shell script)} The @code{texi2dvi} command automatically runs both @TeX{} and @command{texindex} as many times as necessary to produce a DVI file with sorted indices and all cross-references resolved. It is therefore simpler than manually executing the @code{tex}---@code{texindex}---@code{tex}---@code{tex} sequence described in the previous section. To run @code{texi2dvi} on an input file @file{foo.texi}, do this (where @samp{prompt$ } is your shell prompt): @example prompt$ @kbd{texi2dvi foo.texi} @end example As shown in this example, the input filenames to @code{texi2dvi} must include any extension (@samp{.texi}, @samp{.texinfo}, etc.). Under MS-DOS and perhaps in other circumstances, you may need to run @samp{sh texi2dvi foo.texi} instead of relying on the operating system to invoke the shell on the @samp{texi2dvi} script. Perhaps the most useful option to @code{texi2dvi} is @samp{--command=@var{cmd}}. This inserts @var{cmd} on a line by itself after the @code{@@setfilename} in a temporary copy of the input file before running @TeX{}. With this, you can specify different printing formats, such as @code{@@smallbook} (@pxref{smallbook}), @code{@@afourpaper} (@pxref{A4 Paper}), or @code{@@pagesizes} (@pxref{pagesizes}), without actually changing the document source. (You can also do this on a site-wide basis with @file{texinfo.cnf}; @pxref{Preparing for TeX,,Preparing for @TeX{}}). With the @option{--pdf} option, @command{texi2dvi} produces PDF output instead of DVI (@pxref{PDF Output}), by running @command{pdftex} instead of @command{tex}. Alternatively, the command @command{texi2pdf} is an abbreviation for running @samp{texi2dvi --pdf}. @cindex @LaTeX{}, processing with @command{texi2dvi} @command{texi2dvi} can also be used to process @LaTeX{} files; simply run @samp{texi2dvi filename.ext}. @command{texi2dvi} will use @command{etex} (or @command{pdfetex}) if they are available; these extended versions of @TeX{} are not required, and the DVI (or PDF) output is identical, but they simplify the @TeX{} programming in some cases, and provide additional tracing information when debugging @file{texinfo.tex}. For a list of other options, run @samp{texi2dvi --help}. @node Print with lpr @section Shell Print Using @code{lpr -d} @pindex lpr @r{(DVI print command)} The precise command to print a DVI file depends on your system installation. Two common ones are @samp{dvips foo.dvi -o} and @samp{lpr -d foo.dvi}. For example, the following commands will (perhaps) suffice to sort the indices, format, and print the @cite{Bison Manual}: @example @group tex bison.texinfo texindex bison.?? tex bison.texinfo lpr -d bison.dvi @end group @end example @noindent (Remember that the shell commands may be different at your site; but these are commonly used versions.) Using the @code{texi2dvi} shell script (see the previous section): @example @group texi2dvi bison.texinfo lpr -d bison.dvi # or perhaps dvips bison.dvi -o @end group @end example @cindex Shell printing, on MS-DOS/MS-Windows @cindex Printing DVI files, on MS-DOS/MS-Windows @pindex lpr@r{-d, replacements on MS-DOS/MS-Windows} @code{lpr} is a standard program on Unix systems, but it is usually absent on MS-DOS/MS-Windows. Some network packages come with a program named @code{lpr}, but these are usually limited to sending files to a print server over the network, and generally don't support the @samp{-d} option. If you are unfortunate enough to work on one of these systems, you have several alternative ways of printing DVI files: @itemize @bullet{} @item Find and install a Unix-like @code{lpr} program, or its clone. If you can do that, you will be able to print DVI files just like described above. @item Send the DVI files to a network printer queue for DVI files. Some network printers have special queues for printing DVI files. You should be able to set up your network software to send files to that queue. In some cases, the version of @code{lpr} which comes with your network software will have a special option to send a file to specific queues, like this: @example lpr -Qdvi -hprint.server.domain bison.dvi @end example @item Convert the DVI file to a Postscript or PCL file and send it to your local printer. @xref{Invoking Dvips,,, dvips, Dvips}, and the man pages for @code{dvilj}, for detailed description of these tools. Once the DVI file is converted to the format your local printer understands directly, just send it to the appropriate port, usually @samp{PRN}. @end itemize @node Within Emacs @section From an Emacs Shell @cindex Print, format from Emacs shell @cindex Format, print from Emacs shell @cindex Shell, format, print from @cindex Emacs shell, format, print from @cindex GNU Emacs shell, format, print from You can give formatting and printing commands from a shell within GNU Emacs. To create a shell within Emacs, type @kbd{M-x shell}. In this shell, you can format and print the document. @xref{Hardcopy, , Format and Print Hardcopy}, for details. You can switch to and from the shell buffer while @code{tex} is running and do other editing. If you are formatting a long document on a slow machine, this can be very convenient.@refill You can also use @code{texi2dvi} from an Emacs shell. For example, here is how to use @code{texi2dvi} to format and print @cite{Using and Porting GNU CC} from a shell within Emacs: @example @group texi2dvi gcc.texinfo lpr -d gcc.dvi @end group @end example See the next section for more information about formatting and printing in Texinfo mode. @node Texinfo Mode Printing @section Formatting and Printing in Texinfo Mode @cindex Region printing in Texinfo mode @cindex Format and print in Texinfo mode @cindex Print and format 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.@refill @table @kbd @item C-c C-t C-b @itemx M-x texinfo-tex-buffer Run @code{texi2dvi} on the current buffer.@refill @item C-c C-t C-r @itemx M-x texinfo-tex-region Run @TeX{} on the current region.@refill @item C-c C-t C-i @itemx M-x texinfo-texindex Sort the indices of a Texinfo file formatted with @code{texinfo-tex-region}.@refill @item C-c C-t C-p @itemx M-x texinfo-tex-print Print a DVI file that was made with @code{texinfo-tex-region} or @code{texinfo-tex-buffer}.@refill @item C-c C-t C-q @itemx M-x tex-show-print-queue Show the print queue.@refill @item C-c C-t C-d @itemx 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 @kbd{C-c C-t C-q} command (@code{texinfo-show-tex-print-queue}).@refill @item C-c C-t C-k @itemx M-x tex-kill-job Kill the currently running @TeX{} job started by either @code{texinfo-tex-region} or @code{texinfo-tex-buffer}, or any other process running in the Texinfo shell buffer.@refill @item C-c C-t C-x @itemx M-x texinfo-quit-job Quit a @TeX{} formatting job that has stopped because of an error by sending an @key{x} to it. When you do this, @TeX{} preserves a record of what it did in a @file{.log} file.@refill @item C-c C-t C-l @itemx 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.@refill @end table @need 1000 Thus, the usual sequence of commands for formatting a buffer is as follows (with comments to the right):@refill @example @group C-c C-t C-b @r{Run @code{texi2dvi} on the buffer.} C-c C-t C-p @r{Print the DVI file.} C-c C-t C-q @r{Display the printer queue.} @end group @end example The Texinfo mode @TeX{} formatting commands start a subshell in Emacs called the @file{*tex-shell*}. The @code{texinfo-tex-command}, @code{texinfo-texindex-command}, and @code{tex-dvi-print-command} commands are all run in this shell. You can watch the commands operate in the @samp{*tex-shell*} buffer, and you can switch to and from and use the @samp{*tex-shell*} buffer as you would any other shell buffer.@refill @need 1500 The formatting and print commands depend on the values of several variables. The default values are:@refill @example @group @r{Variable} @r{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" @end group @end example You can change the values of these variables with the @kbd{M-x set-variable} command (@pxref{Examining, , Examining and Setting Variables, emacs, The GNU Emacs Manual}), or with your @file{.emacs} initialization file (@pxref{Init File, , , emacs, The GNU Emacs Manual}). @cindex Customize Emacs package (@t{Development/Docs/Texinfo}) Beginning with version 20, GNU Emacs offers a user-friendly interface, called @dfn{Customize}, for changing values of user-definable variables. @xref{Easy Customization, , Easy Customization Interface, emacs, The GNU Emacs Manual}, for more details about this. The Texinfo variables can be found in the @samp{Development/Docs/Texinfo} group, once you invoke the @kbd{M-x customize} command. @node Compile-Command @section Using the Local Variables List @cindex Local variables @cindex Compile command for formatting @cindex Format with the compile command Yet another way to apply the @TeX{} formatting command to a Texinfo file is to put that command in a @dfn{local variables list} at the end of the Texinfo file. You can then specify the @code{tex} or @code{texi2dvi} commands as a @code{compile-command} and have Emacs run it by typing @kbd{M-x compile}. This creates a special shell called the @file{*compilation*} buffer in which Emacs runs the compile command. For example, at the end of the @file{gdb.texinfo} file, after the @code{@@bye}, you could put the following:@refill @example @group Local Variables: compile-command: "texi2dvi gdb.texinfo" End: @end group @end example @noindent This technique is most often used by programmers who also compile programs this way; see @ref{Compilation, , , emacs, The GNU Emacs Manual}.@refill @node Requirements Summary @section @TeX{} Formatting Requirements Summary @cindex Requirements for formatting @cindex Minimal requirements for formatting @cindex Formatting requirements Every Texinfo file that is to be input to @TeX{} must begin with a @code{\input} command and must contain an @code{@@setfilename} command: @example \input texinfo @@setfilename @var{arg-not-used-by-@TeX{}} @end example @noindent 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: @example @@bye @end example Strictly speaking, these lines are all a Texinfo file needs to be processed successfully by @TeX{}. Usually, however, the beginning includes an @code{@@settitle} command to define the title of the printed manual, an @code{@@setchapternewpage} command, a title page, a copyright page, and permissions. Besides an @code{@@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: @itemize @bullet @item @ref{settitle, , @code{@@settitle}}. @item @ref{setchapternewpage, , @code{@@setchapternewpage}}. @item @ref{Headings, ,Page Headings}. @item @ref{Titlepage & Copyright Page}. @item @ref{Printing Indices & Menus}. @item @ref{Contents}. @end itemize @node Preparing for TeX @section Preparing for @TeX{} @cindex Preparing for @TeX{} @cindex @TeX{} input initialization @cindex @b{.profile} initialization file @cindex @b{.cshrc} initialization file @cindex Initialization file for @TeX{} input @TeX{} needs to know where to find the @file{texinfo.tex} file that the @samp{\input texinfo} command on the first line reads. The @file{texinfo.tex} file tells @TeX{} how to handle @@-commands; it is included in all standard GNU distributions. The latest version is always available from the Texinfo source repository: @smalldisplay @uref{http://savannah.gnu.org/cgi-bin/viewcvs/texinfo/texinfo/doc/texinfo.tex?rev=HEAD} @end smalldisplay @pindex texinfo.tex@r{, installing} Usually, the installer has put the @file{texinfo.tex} file in the default directory that contains @TeX{} macros when GNU Texinfo, Emacs or other GNU software is installed. In this case, @TeX{} will find the file and you do not need to do anything special. If this has not been done, you can put @file{texinfo.tex} in the current directory when you run @TeX{}, and @TeX{} will find it there. @pindex epsf.tex@r{, installing} Also, you should install @file{epsf.tex}, if it is not already installed from another distribution. More details are at the end of the description of the @code{@@image} command (@pxref{Images}). @pindex pdfcolor.tex@r{, installing} Likewise for @file{pdfcolor.tex}, if it is not already installed and you use pdftex. @pindex texinfo.cnf @r{installation} @cindex Customizing of @TeX{} for Texinfo @cindex Site-wide Texinfo configuration file Optionally, you may create an additional @file{texinfo.cnf}, and install it as well. This file is read by @TeX{} when the @code{@@setfilename} command is executed (@pxref{setfilename,, @code{@@setfilename}}). You can put any commands you like there, according to local site-wide conventions. They will be read by @TeX{} when processing any Texinfo document. For example, if @file{texinfo.cnf} contains the line @samp{@@afourpaper} (@pxref{A4 Paper}), then all Texinfo documents will be processed with that page size in effect. If you have nothing to put in @file{texinfo.cnf}, you do not need to create it. @cindex Environment variable @code{TEXINPUTS} @vindex TEXINPUTS If neither of the above locations for these system files suffice for you, you can specify the directories explicitly. For @file{texinfo.tex}, you can do this by writing the complete path for the file after the @code{\input} command. Another way, that works for both @file{texinfo.tex} and @file{texinfo.cnf} (and any other file @TeX{} might read), is to set the @code{TEXINPUTS} environment variable in your @file{.cshrc} or @file{.profile} file. Which you use of @file{.cshrc} or @file{.profile} depends on whether you use a Bourne shell-compatible (@code{sh}, @code{bash}, @code{ksh}, @dots{}) or C shell-compatible (@code{csh}, @code{tcsh}) command interpreter. The latter read the @file{.cshrc} file for initialization information, and the former read @file{.profile}. In a @file{.cshrc} file, you could use the following @code{csh} command sequence: @example setenv TEXINPUTS .:/home/me/mylib: @end example @need 1000 In a @file{.profile} file, you could use the following @code{sh} command sequence: @example @group TEXINPUTS=.:/home/me/mylib: export TEXINPUTS @end group @end example On MS-DOS/MS-Windows, you would say it like this@footnote{Note the use of the @samp{;} character, instead of @samp{:}, as directory separator on these systems.}: @example @group set TEXINPUTS=.;d:/home/me/mylib;c: @end group @end example @noindent It is customary for DOS/Windows users to put such commands in the @file{autoexec.bat} file, or in the Windows Registry. @noindent These settings would cause @TeX{} to look for @file{\input} file first in the current directory, indicated by the @samp{.}, then in a hypothetical user @samp{me}'s @file{mylib} directory, and finally in the system directories. (A leading, trailing, or doubled @samp{:} indicates searching the system directories at that point.) @cindex Dumping a .fmt file @cindex Format file, dumping Finally, you may wish to dump a @file{.fmt} file (@pxref{Memory dumps,,, web2c, Web2c}) so that @TeX{} can load Texinfo faster. (The disadvantage is that then updating @file{texinfo.tex} requires redumping.) You can do this by running this command, assuming @file{epsf.tex} is findable by @TeX{}: @example initex texinfo @@dump @end example (@code{dump} is a @TeX{} primitive.) Then, move @file{texinfo.fmt} to wherever your @code{.fmt} files are found; typically, this will be in the subdirectory @file{web2c} of your @TeX{} installation. @node Overfull hboxes @section Overfull ``hboxes'' @cindex Overfull @samp{hboxes} @cindex @samp{hboxes}, overfull @cindex Final output @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: @example Overfull @@hbox (20.76302pt too wide) @end example @findex hbox @noindent (In @TeX{}, lines are in ``horizontal boxes'', hence the term, ``hbox''. @samp{@@hbox} is a @TeX{} primitive not needed in the Texinfo language.) @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{} considered hyphenation. @xref{Debugging with TeX, , 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. If you have many overfull boxes and/or an antipathy to rewriting, you can coerce @TeX{} into greatly increasing the allowable interword spacing, thus (if you're lucky) avoiding many of the bad line breaks, like this: @findex \emergencystretch @example @@tex \global\emergencystretch = .9\hsize @@end tex @end example @noindent (You should adjust the fraction as needed.) This huge value for @code{\emergencystretch} cannot be the default, since then the typeset output would generally be of noticeably lower quality; the default is @samp{.15\hsize}. @code{\hsize} is the @TeX{} dimension containing the current line width. @cindex Black rectangle in hardcopy @cindex Rectangle, black in hardcopy @cindex Box, ugly black in hardcopy @cindex Ugly black rectangles in hardcopy For what overfull boxes you have, however, @TeX{} will print a large, ugly, black rectangle beside the line that contains the overfull hbox unless told otherwise. This is so you will notice the location of the problem if you are correcting a draft. @findex finalout 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 @code{@@titlepage} command: @example @@finalout @end example @node smallbook @section Printing ``Small'' Books @findex smallbook @cindex Small book size @cindex Book, printing small @cindex Page sizes for books @cindex Size of printed book 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:@refill @example @@smallbook @end example @noindent (Since many books are about 7 by 9.25 inches, this command might better have been called the @code{@@regularbooksize} command, but it came to be called the @code{@@smallbook} command by comparison to the 8.5 by 11 inch format.) If you write the @code{@@smallbook} command between the start-of-header and end-of-header lines, the Texinfo mode @TeX{} region formatting command, @code{texinfo-tex-region}, will format the region in ``small'' book size (@pxref{Start of Header}).@refill @xref{small}, for information about commands that make it easier to produce examples for a smaller manual. @xref{Format with texi2dvi}, and @ref{Preparing for TeX,,Preparing for @TeX{}}, for other ways to format with @code{@@smallbook} that do not require changing the source file. @node A4 Paper @section Printing on A4 Paper @cindex A4 paper, printing on @cindex A5 paper, printing on @cindex Paper size, A4 @cindex European A4 paper @findex afourpaper You can tell @TeX{} to format a document for printing on European size A4 paper (or A5) with the @code{@@afourpaper} (or @code{@@afivepaper}) command. Write the command on a line by itself near the beginning of the Texinfo file, before the title page. For example, this is how you would write the header for this manual: @example @group \input texinfo @@c -*-texinfo-*- @@c %**start of header @@setfilename texinfo @@settitle Texinfo @@afourpaper @@c %**end of header @end group @end example @xref{Format with texi2dvi}, and @ref{Preparing for TeX,,Preparing for @TeX{}}, for other ways to format for different paper sizes that do not require changing the source file. @findex afourlatex @findex afourwide You may or may not prefer the formatting that results from the command @code{@@afourlatex}. There's also @code{@@afourwide} for A4 paper in wide format. @node pagesizes @section @code{@@pagesizes} [@var{width}][, @var{height}]: Custom Page Sizes @findex pagesizes @cindex Custom page sizes @cindex Page sizes, customized @cindex Text width and height @cindex Width of text area @cindex Height of text area @cindex Depth of text area You can explicitly specify the height and (optionally) width of the main text area on the page with the @code{@@pagesizes} command. Write this on a line by itself near the beginning of the Texinfo file, before the title page. The height comes first, then the width if desired, separated by a comma. Examples: @example @@pagesizes 200mm,150mm @c for b5 paper @end example @noindent and @example @@pagesizes 11.5in @c for legal paper @end example @cindex B5 paper, printing on @cindex Legal paper, printing on This would be reasonable for printing on B5-size paper. To emphasize, this command specifies the size of the @emph{text area}, not the size of the paper (which is 250@dmn{mm} by 177@dmn{mm} for B5, 14@dmn{in} by 8.5@dmn{in} for legal). @cindex Margins on page, not controllable To make more elaborate changes, such as changing any of the page margins, you must define a new command in @file{texinfo.tex} (or @file{texinfo.cnf}, @pxref{Preparing for TeX,,Preparing for @TeX{}}). @xref{Format with texi2dvi}, and @ref{Preparing for TeX,,Preparing for @TeX{}}, for other ways to specify @code{@@pagesizes} that do not require changing the source file. @code{@@pagesizes} is ignored by @code{makeinfo}. @node Cropmarks and Magnification @section Cropmarks and Magnification @findex cropmarks @cindex Cropmarks for printing @cindex Printing cropmarks You can (attempt to) direct @TeX{} to print cropmarks at the corners of pages with the @code{@@cropmarks} command. Write the @code{@@cropmarks} command on a line by itself between @code{@@iftex} and @code{@@end iftex} lines near the beginning of the Texinfo file, before the title page, like this:@refill @example @group @@iftex @@cropmarks @@end iftex @end group @end example 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 @code{@@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 @file{texinfo.tex}. @findex \mag @r{(raw @TeX{} magnification)} @cindex Magnified printing @cindex Larger or smaller pages You can attempt to direct @TeX{} to typeset pages larger or smaller than usual with the @code{\mag} @TeX{} command. Everything that is typeset is scaled proportionally larger or smaller. (@code{\mag} stands for ``magnification''.) This is @emph{not} a Texinfo @@-command, but is a plain @TeX{} command that is prefixed with a backslash. You have to write this command between @code{@@tex} and @code{@@end tex} (@pxref{Raw Formatter Commands}). Follow the @code{\mag} command with an @samp{=} 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: @example @group @@tex \mag=1200 @@end tex @end group @end example With some printing technologies, you can print normal-sized copies that look better than usual by giving a larger-than-normal master to your print shop. They do the reduction, thus effectively increasing the resolution. Depending on your system, DVI files prepared with a nonstandard-@code{\mag} may not print or may print only with certain magnifications. Be prepared to experiment. @node PDF Output @section PDF Output @cindex PDF output @pindex pdftex The simplest way to generate PDF output from Texinfo source is to run the convenience script @command{texi2pdf}; this simply executes the @command{texi2dvi} script with the @option{--pdf} option (@pxref{Format with texi2dvi}). If for some reason you want to process by hand, simply run the @command{pdftex} program instead of plain @command{tex}. That is, run @samp{pdftex foo.texi} instead of @samp{tex foo.texi}. @dfn{PDF} stands for `Portable Document Format'. It was invented by Adobe Systems some years ago for document interchange, based on their PostScript language. Related links: @itemize @item GNU GV, a @uref{http://www.foolabs.com/xpdf/, Ghostscript-based PDF reader}. (It can also preview PostScript documents.) @item A freely available standalone @uref{http://www.foolabs.com/xpdf/, PDF reader} for the X window system. @item @uref{http://partners.adobe.com/asn/acrobat/sdk/public/docs/, PDF definition}. @end itemize At present, Texinfo does not provide @samp{@@ifpdf} or @samp{@@pdf} commands as for the other output formats, since PDF documents contain many internal links that would be hard or impossible to get right at the Texinfo source level. PDF files require special software to be displayed, unlike the plain ASCII formats (Info, HTML) that Texinfo supports. They also tend to be much larger than the DVI files output by @TeX{} by default. Nevertheless, a PDF file does define an actual typeset document in a self-contained file, so it has its place. @node Obtaining TeX @section How to Obtain @TeX{} @cindex Obtaining @TeX{} @cindex @TeX{}, how to obtain @c !!! Here is information about obtaining TeX. Update it whenever. @c !!! Also consider updating TeX.README on ftp.gnu.org. @c Updated by RJC on 1 March 1995, conversation with MacKay. @c Updated by kb@cs.umb.edu on 29 July 1996. @c Updated by kb@cs.umb.edu on 25 April 1997. @c Updated by kb@cs.umb.edu on 27 February 1998. @TeX{} is freely redistributable. You can obtain @TeX{} for Unix systems via anonymous ftp or on physical media. The core material consists of the Web2c @TeX{} distribution (@uref{http://tug.org/web2c}). Instructions for retrieval by anonymous ftp and information on other available distributions: @uref{http://tug.org/unixtex.ftp}. The Free Software Foundation provides a core distribution on its Source Code CD-ROM suitable for printing Texinfo manuals. To order it, contact: @display @group Free Software Foundation, Inc. 59 Temple Place Suite 330 Boston, MA @ @ 02111-1307 USA Telephone: @w{+1-617-542-5942} Fax: (including Japan) @w{+1-617-542-2652} Free Dial Fax (in Japan): @w{ } @w{ } @w{ } 0031-13-2473 (KDD) @w{ } @w{ } @w{ } 0066-3382-0158 (IDC) Electronic mail: @code{gnu@@gnu.org} @end group @end display Many other @TeX{} distributions are available; see @uref{http://tug.org/}. @node Creating and Installing Info Files @chapter Creating and Installing Info Files This chapter describes how to create and install Info files. @xref{Info Files}, for general information about the file format itself. @menu * Creating an Info File:: * Installing an Info File:: @end menu @node Creating an Info File @section Creating an Info File @cindex Creating an Info file @cindex Info, creating an online file @cindex Formatting a file for Info @code{makeinfo} is a program that converts a Texinfo file into an Info file, HTML file, or plain text. @code{texinfo-format-region} and @code{texinfo-format-buffer} are GNU Emacs functions that convert Texinfo to Info. For information on installing the Info file in the Info system, @pxref{Installing an Info File}. @menu * makeinfo advantages:: @code{makeinfo} provides better error checking. * Invoking makeinfo:: How to run @code{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 @code{makeinfo} from Emacs. * texinfo-format commands:: Two Info formatting commands written in Emacs Lisp are an alternative to @code{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. @end menu @node makeinfo advantages @subsection @code{makeinfo} Preferred The @code{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. @code{makeinfo} is a C program that is independent of Emacs. You do not need to run Emacs to use @code{makeinfo}, which means you can use @code{makeinfo} on machines that are too small to run Emacs. You can run @code{makeinfo} in any one of three ways: from an operating system shell, from a shell inside Emacs, or by typing the @kbd{C-c C-m C-r} or the @kbd{C-c C-m C-b} command in Texinfo mode in Emacs. The @code{texinfo-format-region} and the @code{texinfo-format-buffer} commands are useful if you cannot run @code{makeinfo}. Also, in some circumstances, they format short regions or buffers more quickly than @code{makeinfo}. @node Invoking makeinfo @subsection Running @code{makeinfo} from a Shell @pindex makeinfo To create an Info file from a Texinfo file, invoke @command{makeinfo} followed by the name of the Texinfo file. Thus, to create the Info file for Bison, type the following to the shell: @example makeinfo bison.texinfo @end example (You can run a shell inside Emacs by typing @kbd{M-x shell}.) @command{makeinfo} has many options to control its actions and output; see the next section. @node makeinfo options @subsection Options for @code{makeinfo} @cindex @code{makeinfo} options @cindex Options for @code{makeinfo} The @command{makeinfo} program accepts many options. Perhaps the most commonly needed are those that change the output format. By default, @command{makeinfo} outputs Info files. Each command line option is a word preceded by @samp{--} or a letter preceded by @samp{-}. You can use abbreviations for the long option names as long as they are unique. For example, you could use the following shell command to create an Info file for @file{bison.texinfo} in which each line is filled to only 68 columns: @example makeinfo --fill-column=68 bison.texinfo @end example You can write two or more options in sequence, like this:@refill @example makeinfo --no-split --fill-column=70 @dots{} @end example @noindent This would keep the Info file together as one possibly very long file and would also set the fill column to 70. The options are: @table @code @item -D @var{var} @opindex -D @var{var} Cause the variable @var{var} to be defined. This is equivalent to @code{@@set @var{var}} in the Texinfo file (@pxref{set clear value}). @item --commands-in-node-names @opindex --commands-in-node-names Allow @code{@@}-commands in node names. This is not recommended, as it can probably never be implemented in @TeX{}. It also makes @code{makeinfo} much slower. Also, this option is ignored when @samp{--no-validate} is used. @xref{Pointer Validation}, for more details. @item --css-include=@var{file} @opindex --css-include Include the contents of @var{file}, which should contain cascading style sheets specifications, in the @samp{