
                       THE LINUX MAN-PAGE-HOWTO

        Copyright 1995,96 by Jens Schweikhardt <schweikh@noc.dfn.de>
            See further information on copying conditions below.

                         Last update: April 1996
                   Corrections and suggestions welcome!

   This HOWTO explains what you should bear in mind when you are going
   to write on-line documentation -- a so called man page -- that you
   want to make accessible via the man(1) command.

   Throughout this HOWTO, a manual entry is simply referred to as a
   man page, regardless of actual length and without sexist intention.

   Table of contents:
   ------------------

   0)  A few thoughts on documentation
   1)  How are man pages accessed?
   2)  How should a formatted man page look like?
   3)  How do I document several programs/functions in a single man page?
   4)  Which macro package should I use?
   5)  What preprocessors may I use?
   6)  Should I distribute source and/or already formatted documentation?
   7)  What are the font conventions?
   8)  How do I polish my man page?
   9)  How do I get a plain text man page without all that ^H^_ stuff?
  10)  How do I get a high quality PostScript man page?
  11)  How do I get apropos and whatis to work?

   A)  Copying conditions



 0)   A few thoughts on documentation
 ====================================

 Why do we write documentation? Silly question. Because we want others to
 be able to use our program, library function or whatever we have written
 and made available. But writing documentation is not all there is to it:

 + documentation must be accessible.
   If it's hidden in some non-standard place where the documentation
   related tools won't find it -- how can it serve its purpose?

 + documentation must be reliable and accurate.
   There's nothing more annoying than having program behaviour and
   documentation disagree. Users will curse you, send you hate mail and
   throw your work into the bit bucket, with the firm intent to never
   install anything written by that jerk again.

 The historical and well known way documentation is accessed on UNIX
 is via the man(1) command. This HOWTO describes what you have to do to
 write a man page that will be correctly processed by the documentation
 related tools. The most important of these tools are man(1), xman(1x),
 apropos(1), makewhatis(8) and catman(8).

 Reliability and accuracy of the information are, of course, up to you.
 But even in this respect you will find some ideas below that help you
 avoid some common glitches.

 1)   How are man pages accessed?
 ================================

 You need to know the precise mechanism how man pages are accessed
 in order to give your man page the right name and install it in the
 right place.  Any man page belongs to a specific section, which is
 denoted by a single character. The most common sections under Linux
 and their human readable names are

 Section   The human readable name

    1      User commands that may be started by everyone.
    2      System calls, that is, functions provided by the kernel.
    3      Subroutines, that is, library functions.
    4      Devices, that is, special files in the /dev directory.
    5      File format descriptions, e.g. /etc/passwd.
    6      Games, self-explanatory.
    7      Miscellaneous, e.g. macro packages, conventions.
    8      System administration tools that only root can execute.
    9      Another (Linux specific) place for kernel routine documentation.
    n      New documentation, that may be moved to a more appropriate section.
    o      Old documentation, that may be kept for a grace period.
    l      Local documentation referring to this particular system.

 The name of the source file for a man page (the input to the formatting
 system) is the name of the command, function or file name, followed by
 a dot, followed by the section. If you write the documentation on the
 format of the `passwd' file you have to name the source file `passwd.5'.
 Here we also have an example of a file name that is the same as a
 command name. There might be even a library subroutine named passwd.
 Sectioning is the usual way to resolve these ambiguities: The command
 description is found in the file `passwd.1' and the hypothetical
 library subroutine in `passwd.3'.

   Sometimes additional characters are appended and the file name looks
   for example like `xterm.1x' or `wish.1tk'. The intent is to indicate
   that this is documentation for an X Window program or a Tk application,
   respectively. Some manual browsers can make use of this additional
   information. For example xman will use `xterm(x)' and `wish(tk)' in
   the list of available documentation.

   Please don't use the n, o and l sections; according to the File System
   Standard these sections are deprecated. Stick to the numeric sections.

 Beware of name clashes with existing programs, functions or file names.
 It is certainly a bad idea to write yet another editor and call it
 ed, sed (for smart ed) or red (for Rocky's ed). By making sure your
 program's name is unique you avoid that someone executes your program
 and reads someone else's man page or vice versa. Checking out the lsm
 database on a program name is a place to start doing so.

 Now we know the name to give our file. The next decision is which
 directory it will finally get installed (say, when the user runs
 `make install' for your package.)  On Linux, all man pages are
 below directories mentioned in the environment variable MANPATH. The
 doc related tools use it quite similar like the shell uses PATH to
 locate executables. In fact, MANPATH has the same format as PATH.
 Both hold a colon separated list of directories (with the exception
 that MANPATH does not allow empty fields and relative pathnames but
 has absolute names only.) If MANPATH is not set or not exported, a
 default will be used that contains at least the /usr/man directory.
 To speed up the search and to keep directories small, the directories
 specified by MANPATH (the so called base directories) contain a bunch
 of subdirectories named `man<s>' where <s> stands for the one character
 section introduced in the table above. Not all of the sections may
 be represented by a subdirectory because there simply is no reason to
 keep an empty `mano' subdirectory. However, there may be directories
 named `cat<s>', `dvi<s>' and `ps<s>' which hold documentation that is
 ready to display or print. More on this later.  The only other file
 in any base directory should be a file named `whatis'. The purpose
 and creation of this file will also be described under paragraph 11).
 The safest way to have a man page for section <s> installed in
 the right place is to put it in the directory /usr/man/man<s>. A good
 Makefile, however, will allow the user to chose a base directory, by
 means of a make variable, MANDIR, say. Most of the GNU packages can be
 configured with the --prefix=/what/ever option. The manuals will then
 be installed under the base directory /what/ever/man. I suggest you
 also provide a way to do something similar.

   With the advent of the Linux File System Standard (FS-Stnd), things
   became more complicated. The FS-Stnd 1.2 states that "Provisions must
   be made in the structure of /usr/man to support manual pages which
   are written in different (or multiple) languages." This is achieved
   by introducing another directory level that distinguishes between
   different languages. Quoting again from FS-Stnd 1.2:

   "This naming of language subdirectories of /usr/man is based on
   Appendix E of the POSIX 1003.1 standard which describes the locale
   identification string -- the most well accepted method to describe
   a cultural environment. The <locale> string is:

       <language>[_<territory>][.<character-set>][,<version>]"
 
   (See the FS-Stnd for a few common <locale> strings.)
   According to these guidelines, we have our man pages in
   /usr/man/<locale>/man[1-9lno]. The formatted versions should then be
   in /usr/man/<locale>/cat[1-9lno] of course, otherwise we could only
   provide them for a single locale.

   HOWEVER, I can not recommend switching to that structure at this time.
   The FS-Stnd 1.2 also allows that "Systems which use a unique language
   and code set for all manual pages may omit the <locale> substring and
   store all manual pages in <mandir>. For example, systems which only
   have English manual pages coded with ASCII, may store manual pages
   (the man[1-9] directories) directly in /usr/man. (That is the traditional
   circumstance and arrangement in fact.)"

   I would not switch until all tools (like xman, tkman, info and many
   others that read man pages) can cope with the new structure.


 2)   How should a formatted man page look like?
 ===============================================

 Let me present you an example. Below I will explain it in detail.
 Due to the nature of this document, it can't show the different typefaces
 (bold and italics). Please refer to the paragraph "What are the font
 conventions?" for further explanations.

 Here comes the man page for the (hypothetical) foo program. 



FOO(1)                     User Manuals                    FOO(1)


NAME
       foo - frobnicate the bar library

SYNOPSIS
       foo [-bar] [-c config-file ] file ...

DESCRIPTION
       foo  frobnicates the bar library by tweaking internal sym-
       bol tables. By default it  parses  all  baz  segments  and
       rearranges  them in reverse order by time for the xyzzy(1)
       linker to find them. The symdef entry is  then  compressed
       using  the WBG (Whiz-Bang-Gizmo) algorithm.  All files are
       processed in the order specified.

OPTIONS
       -b     Do not write `busy' to stdout while processing.

       -c config-file
              Use the alternate system wide  config-file  instead
              of /etc/foo.conf.  This overrides any FOOCONF envi-
              ronment variable.

       -a     In addition to the baz  segments,  also  parse  the
              blurfl headers.

       -r     Recursive  mode.  Operates  as fast as lightning at
              the expense of a megabyte of virtual memory.

FILES
       /etc/foo.conf
              The system wide configuration file. See foo(5)  for
              further details.
       ~/.foorc
              Per user configuration file. See foo(5) for further
              details.

ENVIRONMENT
       FOOCONF
              If non-null the full pathname for an alternate sys-
              tem wide foo.conf.  Overridden by the -c option.

DIAGNOSTICS
       The following diagnostics may be issued on stderr:

       Bad magic number.
              The  input file does not look like an archive file.
       Old style baz segments.
              foo can only handle new style baz  segments.  COBOL
              object libraries are not supported in this version.

BUGS
       The command name should have been chosen more carefully to
       reflect its purpose.

AUTHOR
       Jens Schweikhardt <jens@kssun3.rus.uni-stuttgart.de>

SEE ALSO
       bar(1), foo(5), xyzzy(1)


Linux                       MARCH 1995                          1



 Here's the explanation as I promised.


      The NAME section

 ...is the only required section. Man pages without a name section are
 as useful as refrigerators at the north pole. This section also has
 a standardized format consisting of a comma separated list of program
 or function names followed by a dash followed by a short (usually one
 line) description what functionality the program (function, file) is
 supposed to provide. By means of makewhatis(8) the name sections make
 it into the whatis database files. Makewhatis is the reason why the name
 section must exist and why it must adhere to the format I described. In
 the groff source it must look like

     .SH NAME
     foo \- frobnicate the bar library

 The \- is of importance here. The backslash is needed to make the dash
 distinct from a hyphenation dash that may appear in either the command
 name or the one line description.


      The SYNOPSIS section

 ...is intended to give a short overview on available program options.
 For functions this sections lists corresponding include files and the
 prototype so the programmer knows the type and number of arguments as
 well as the return type.


      The DESCRIPTION section

 ...gives an eloquent explanation why your sequence of 0s and 1s is worth
 anything at all. Here's where you write down all your knowledge. This is
 the Hall Of Fame. Win other programmer's and user's admiration by making
 this section the source of reliable and detailed information. Explain
 what the arguments are for, the file format, what algorithms do the
 dirty jobs.


      The OPTIONS section

 ...gives a description for any option how it affects program behaviour.
 You knew that, didn't you?

 
      The FILES section

 ...lists files the program or function uses. For example, configuration
 files, startup files, files the program directly operates on. It is
 a good idea to give the full pathname of these files and to make the
 install process modify the directory part to match user preferences: the
 groff manuals have a default prefix of /usr/local, so they reference
 /usr/local/lib/groff/* by default. However, if you install using
 'make prefix=/opt/gnu' the references in the man page change to
 /opt/gnu/lib/groff/*


      The ENVIRONMENT section

 ...lists all environment variables that affect your program or
 function and tells how, of course. Most commonly the variables will
 hold pathnames, filenames or default options.


      The DIAGNOSTICS section

 ...should give an overview of the most common error messages from your
 program and how to cope with them. There's no need to explain system
 error error messages (from perror(3)) or fatal signals (from psignal(3))
 as they can appear during execution of any program.


      The BUGS section

 ...should ideally be non-existent. If you're brave, you can describe
 here limitations, known inconveniences, features that others may regard
 as misfeatures. If you're not so brave, rename it the TO DO section ;-)


      The AUTHOR section

 ...is nice to have in case there are gross errors in the documentation
 or program behaviour (Bzzt!) and you want to mail a bug report.


      The SEE ALSO section

 ...is a list of related man pages in alphabetical order.
 Conventionally, it is the last section.


 You are free to invent other sections if they really don't fit in one
 of those described so far.

  So how exactly did you generate that man page?
  I expected that question, here's the source, Luke:


.\" Process this file with
.\" groff -man -Tascii foo.1
.\"
.TH FOO 1 "MARCH 1995" Linux "User Manuals"
.SH NAME
foo \- frobnicate the bar library
.SH SYNOPSIS
.B foo [-bar] [-c
.I config-file
.B ]
.I file
.B ...
.SH DESCRIPTION
.B foo
frobnicates the bar library by tweaking internal
symbol tables. By default it parses all baz segments
and rearranges them in reverse order by time for the
.BR xyzzy (1)
linker to find them. The symdef entry is then compressed
using the WBG (Whiz-Bang-Gizmo) algorithm.
All files are processed in the order specified.
.SH OPTIONS
.IP -b
Do not write `busy' to stdout while processing.
.IP "-c config-file"
Use the alternate system wide
.I config-file
instead of
.IR /etc/foo.conf .
This overrides any
.B FOOCONF
environment variable.
.IP -a
In addition to the baz segments, also parse the
blurfl headers.
.IP -r
Recursive mode. Operates as fast as lightning
at the expense of a megabyte of virtual memory.
.SH FILES
.I /etc/foo.conf
.RS
The system wide configuration file. See
.BR foo (5)
for further details.
.RE
.I ~/.foorc
.RS
Per user configuration file. See
.BR foo (5)
for further details.
.SH ENVIRONMENT
.IP FOOCONF
If non-null the full pathname for an alternate system wide
.IR foo.conf .
Overridden by the
.B -c
option.
.SH DIAGNOSTICS
The following diagnostics may be issued on stderr:

Bad magic number.
.RS
The input file does not look like an archive file.
.RE
Old style baz segments.
.RS
.B foo
can only handle new style baz segments. COBOL
object libraries are not supported in this version.
.SH BUGS
The command name should have been chosen more carefully
to reflect its purpose.
.SH AUTHOR
Jens Schweikhardt <jens@kssun3.rus.uni-stuttgart.de>
.SH "SEE ALSO"
.BR bar (1),
.BR foo (5),
.BR xyzzy (1)





  3) How do I document several programs/functions in a single man page?
     ==================================================================

  Many programs (grep, egrep) and functions (printf, fprintf, ...) are
  documented in a single man page. However, these man pages would be
  quite useless if they were only accessible under one name. We can not
  expect a user to remember that the egrep man page is actually the grep
  man page. It is therefore necessary to have the man page available
  under different names. You have several possibilities to achieve this:

  1) have identical copies for each name.
  2) connect all man pages using hard links.
  3) symbolic links pointing to the actual man page.
  4) use groff's `source' mechanism provided by the `.so' macro.

  The first way is obviously a waste of disk space. The second is not
  recommended because intelligent versions of the catman program can save
  a lot of work by looking at the the file type or contents.  Hard links
  will prevent catman from being clever. (catman's purpose is to format
  all man pages so that they can be displayed more quickly.) The third
  alternative has a slight drawback: if flexibility is a concern, you
  have to be aware that there are file systems that do not support
  symbolic links. The upshot of this is that the Best Thing (TM) is
  using groff's source mechanism.

  Here's how to do it:
  If you want to have your man page available under the names `foo' and
  `bar' in section 1, then put the man page in foo.1 and have bar.1 look
  like this:

         .so man1/foo.1

  It is important to specify the `man1/' directory part as well as the
  file name `foo.1' because when groff is run by the browser it will
  have the manual base directory as its current working directory (cwd)
  and groff interprets .so arguments relative to the cwd.

  4)   Which macro package should I use?
  ======================================

  There are a number of macro packages especially designed for use in
  writing man pages. Usually they are in the groff macro directory
  /usr/lib/groff/tmac.  The file names are tmac.<something>, where
  <something> is the argument to groff's -m option. Groff will use
  tmac.<something> when it is given the `-m <something>' option. Often
  the blank between `-m' and `<something>' is omitted so we may say
  `groff -man' when we are formatting man pages using the tmac.an
  macro package. That's the reason for the strange name `tmac.an'.
  Besides tmac.an there is another popular macro package, tmac.doc,
  which originated at the University of California at Berkeley. Many
  BSD man pages use it and it seems that UCB has made it its standard
  for documentation.  The tmac.doc macros are much more flexible but
  alas, there are manual browsers that will not use them but always call
  groff -man. For example, all xman programs I have seen will screw up
  on man pages requiring tmac.doc.  So do yourself a favor: use tmac.an
  -- use of any other macro package is considered harmful. Tmac.andoc is
  a pseudo macro package that takes a look at the source and then loads
  either tmac.an or tmac.doc. Actually any man page browser should use
  it but until now not all of them do, so it is best we cling to ye olde
  tmac.an. Anything I tell you from now on and concerning macros only
  holds true for tmac.an.

    If you want to use the tmac.doc macros anyway, here is a pointer to
    detailed information on how to use them:

                   http://www.bsdi.com/bsdi-man

    There is a searchable index form on the page. Enter mdoc and it will
    find you mdoc(7) and mdoc.samples(7), a tutorial sampler for
    writing BSD man pages.

  5)   What preprocessors may I use?
  ==================================

  Groff comes with at least three preprocessors, tbl, eqn, and pic (on
  some systems they are named gtbl, geqn and gpic.) Their purpose is to
  translate preprocessor macros and their data to regular troff input.
  Tbl is a table preprocessor, eqn is an equations/maths preprocessor
  and pic is a picture preprocessor. Please refer to the man pages for
  more information on what functionality they provide.

  To put it in a nutshell: don't write man pages requiring ANY preprocessor.

  Eqn will generally produce terrible output for typewriter-like devices,
  unfortunately the type of device 99% of all man pages are viewed on.
  For example, XAllocColor.3x uses a few formulas with exponentiation.
  Due to the nature of typewriter-like devices the exponent will be on
  the same line as the base. N to the power of two appears as `N2'.

  Tbl should be avoided because all xman programs I have seen fail
  on them.  Xman 3.1.6 uses the following command to format man pages,
  e.g. signal(7):

    gtbl /usr/man/man7/signal.7 | geqn | gtbl | groff -Tascii -man \
    > /tmp/xmana01760 2> /dev/null

  which screws up for sources using gtbl, because gtbl output is
  fed again into gtbl. The effect is a man page without your table.
  I don't know if it's a bug or a feature that gtbl chokes on its own
  output or if xman could be a little smarter not using gtbl twice...
  Anyway, if you want a table, format it yourself and put it between
  .nf .fi lines so that it will be left unformatted. You won't have bold
  and italics this way but this beats having your table swallowed any day.

  I have yet to see a man page requiring pic preprocessing. But I would
  not like it. As you can see above, xman will not use it and groff will
  certainly do the funky wadakiki on the input.



  6)   Should I distribute source and/or already formatted documentation?
  =======================================================================

  Let me give the pros (+) and cons (-) of a few selected possibilities:
  1) Source only:
     + smaller distribution package.
     - inaccessible on systems without groff.
  2) Uncompressed formatted only: 
     + accessible even on systems without groff.
     - the user can't generate a dvi or postscript file.
     - waste of disk space on systems that also handle compressed pages.
  3) Compressed formatted only:
     + accessible even on systems without groff.
     - the user can't generate a dvi or postscript file.
     - which compression format would you use? .Z? .z? .gz? All of them?
  4) Source and uncompressed formatted:
     + accessible even on systems without groff.
     - larger distribution package
     - some systems may expect compressed formatted man pages.
     - redundant information on systems equipped with groff.

  IMHO it is best to distribute source only. The argument that it's
  inaccessible on systems without groff does not matter. The 500+ man
  pages of the Linux Documentation Project are source only. The man
  pages of XFree86 are source only. The man pages from the FSF are source
  only. In fact, I have rarely seen software distributed with formatted
  man pages. If any sysadmin is really concerned about having man pages
  accessible then he also has groff installed.



  7)   What are the font conventions?
  ===================================

  First of all: don't use direct font operators like \fB \fP etc. Use
  macros which take arguments. This way you avoid a common glitch:
  forgetting the font change at the end of the word and having the bold
  or italic extend up to the next font change. Believe me, it happens
  more often than you think.

  The tmac.an macros provide the following type faces:

       .B      Bold
       .BI     Bold alternating with italics
       .BR     Bold alternating with Roman
       .I      Italics
       .IB     Italics alternating with bold
       .IR     Italics alternating with Roman
       .RB     Roman alternating with bold
       .RI     Roman alternating with italics
       .SM     Small (scaled 9/10 of the regular size)
       .SB     Small bold (NOT small alternating with bold)

  X alternating with Y means that the odd arguments are typeset in X
  while the even arguments are typeset in Y. For example
  .BI "Arg 1 is Bold, " "Arg 2 is Italics, " "and Bold, " "and Italics."
  The double quotes are needed to include white space into an argument.

  So much for what's available. Here's how you should make use of the
  different typefaces: (portions shamelessly stolen from man(7))

  Although there are many arbitrary conventions for man pages in the
  UNIX world, the existence of several hundred Linux-specific man pages
  defines our standards:

  For functions, the arguments are always specified using italics, even
  in the SYNOPSIS section, where the rest of the function is specified
  in bold:

      .BI "myfunction(int " argc ", char **" argv );

  Filenames are always in italics, except in the SYNOPSIS section, where
  included files are in bold. So you should use

      .I /usr/include/stdio.h and
      .B #include <stdio.h>

  Special macros, which are usually in upper case, are in bold:

      .B MAXINT

  When enumerating a list of error codes, the codes are in bold. This
  list usually uses the .TP (paragraph with hanging tag) macro as follows:

      .TP
      .B EBADF
      .I fd
      is not a valid file descriptor.
      .TP
      .B EINVAL
      .I fd
      is unsuitable for reading

  Any reference to another man page (or to the subject of the current
  man page) is in bold. If the manual section number is given, it is
  given in roman, without any spaces:

      .BR man (7)

  Acronyms look best when typeset in small type face. So I recommend
      .SM UNIX     .SM ASCII     .SM TAB      .SM NFS      .SM LALR(1)

  8)   Polishing your man page
  ============================

  Following are some guidelines that increase reliability, readability
  and 'formatability' of your documentation.

  + Test examples if they work (use cut and paste to give your shell the
    exact wording from the man page) read output of your command into
    your man page, don't type what you THINK your program will print.

  + Proof read, ispell, have someone else read it, especially if you are
    not a native English speaker. The HOWTO you are reading by now has
    not yet passed the latter test. Do you want to volunteer?

  + Test your man page: Does groff complain when you format your man page?
    It's nice to have the groff command line in a comment.  Does the
    man(1) command complain when you call `man yourprog'?  Does the way
    how man(1) uses the formatting system produce the expected result?
    Will xman(1x) and tkman(1tk) cope with your manual?  XFree86 3.1
    has xman 3.1.6 - X11R6, it will try to uncompress using

        gzip -c -d < %s > %s
        zcat < %s > %s

  + Will makewhatis(8) be able to extract the one-line description
    from the NAME section?



  9)  How do I get a plain text man page without all that ^H^_ stuff?
      ===============================================================

  Have a look at col(1), col can filter out backspace sequences. Just in
  case you can't wait that long: 

  funnyprompt% groff -t -e -mandoc -Tascii manpage.1 | col -bx > manpage.txt

  The -t and -e switches tell groff to preprocess using tbl and eqn.
  This is overkill for man pages that don't require preprocessing but it
  doesn't harm apart from a few CPU cycles wasted. On the other hand,
  not using -t when it is actually required does harm: the table is
  terribly formatted.  You can even find out (well, "guess" is a better
  word) what command is needed to format a certain groff document (not
  just man pages) by issuing

  funnyprompt% grog /usr/man/man7/signal.7
  groff -t -man /usr/man/man7/signal.7

  "Grog" stands for "GROff Guess", and it does what it says--guess, if
  it were perfect we wouldn't need options any more. I've seen it guess
  wrong on macro packages, but never on preprocessors.

  Here is a little perl script I wrote that can delete the page headers
  and footers, therefore saving you a few pages when printing long and
  elaborate man pages. Save it in a file named strip-header & chmod 755.

	#!/usr/bin/perl -n
	#  make it slurp the whole file at once:
	undef $/; 
	#  delete page breaks:
	s/\n{4}\S.{50,}\n{6}\S.{50,}\n{3}/\n/g;            
	#  delete first header & last footer:
	s/\n\S.{50,}\n//g;
	#  collapse two or more blank lines into a single one:
	s/\n{3,}/\n\n/g;
	#  see what's left...
	print;

 You have to use it as the first filter after the 'man' command as it relies
 on the number of newlines being output by groff. For example:

    funnyprompt% man bash | strip-headers | col -bx > bash.txt

 

 10)  How do I get a high quality PostScript man page?
      ===================================================

  funnyprompt% groff -t -e -mandoc -Tps manpage.1 > manpage.ps

  Print that using your favorite PostScript printer/interpreter.
  See question 9) for explanation of options.



 11)  How do I get `apropos' and `whatis' to work?
      ============================================

  Suppose you wonder what compilers are installed on your system and how
  these can be invoked. To answer this (frequently asked) question you say

  funnyprompt% apropos compiler
  f77 (1) - Fortran 77 compiler
  gcc (1) - GNU C and C++ compiler
  pc (1) - Pascal compiler
  
  Apropos and whatis are used to give a quick response which man page
  has information on a certain topic. Both programs search a number
  of files named `whatis' that may be found in each of the manual base
  directories.  Like I said before, the whatis data base files contain
  a one line entry for any man page in the respective directory tree. In
  fact, that line is exactly the NAME section (to be precise: joined on
  one line and with hyphenation removed, also note that the section is
  mentioned within parentheses). The whatis data base files are created
  with the makewhatis(8) program. There are several versions around,
  so please refer to the man page what options are available. In order
  for makewhatis to be able to extract the NAME sections correctly it
  is important that you, the manual writer, adhere to the NAME section
  format described under paragraph 2).  The difference between apropos
  and whatis is where in the line and what they are looking for. Apropos
  (which is equivalent to man -k) searches the argument string anywhere on
  the line whereas whatis (equivalent to man -f) tries to match a complete
  command name only on the part before the dash. Consequently, `whatis
  cc' will report if there is a cc manual and remain quiet for gcc.


                 Corrections and suggestions welcome!





 A)  Copying conditions
     ==================

 Copyright 1995,96 by Jens Schweikhardt
 <schweikh@noc.dfn.de>
 Voice: ++49 7151 909516

Unless otherwise stated, Linux HOWTO documents are copyrighted by
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