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This is standards.info, produced by makeinfo version 6.3 from
standards.texi.

START-INFO-DIR-ENTRY
* Standards: (standards).        GNU coding standards.
END-INFO-DIR-ENTRY

   GNU Coding Standards Copyright (C) 1992, 1993, 1994, 1995, 1996,
1997, 1998, 1999, 2000, 2001 Free Software Foundation, Inc.

   Permission is granted to make and distribute verbatim copies of this
manual provided the copyright notice and this permission notice are
preserved on all copies.

   Permission is granted to copy and distribute modified versions of
this manual under the conditions for verbatim copying, provided that the
entire resulting derived work is distributed under the terms of a
permission notice identical to this one.

   Permission is granted to copy and distribute translations of this
manual into another language, under the above conditions for modified
versions, except that this permission notice may be stated in a
translation approved by the Free Software Foundation.


File: standards.info,  Node: Top,  Next: Preface,  Prev: (dir),  Up: (dir)

Version
*******

Last updated March 23, 2001.

* Menu:

* Preface::                 About the GNU Coding Standards
* Legal Issues::            Keeping Free Software Free
* Design Advice::           General Program Design
* Program Behavior::        Program Behavior for All Programs
* Writing C::               Making The Best Use of C
* Documentation::           Documenting Programs
* Managing Releases::       The Release Process
* References::              References to Non-Free Software or Documentation
* Index::


File: standards.info,  Node: Preface,  Next: Legal Issues,  Up: Top

1 About the GNU Coding Standards
********************************

The GNU Coding Standards were written by Richard Stallman and other GNU
Project volunteers.  Their purpose is to make the GNU system clean,
consistent, and easy to install.  This document can also be read as a
guide to writing portable, robust and reliable programs.  It focuses on
programs written in C, but many of the rules and principles are useful
even if you write in another programming language.  The rules often
state reasons for writing in a certain way.

   This release of the GNU Coding Standards was last updated March 23,
2001.

   If you did not obtain this file directly from the GNU project and
recently, please check for a newer version.  You can ftp the GNU Coding
Standards from any GNU FTP host in the directory '/pub/gnu/standards/'.
The GNU Coding Standards are available there in several different
formats: 'standards.text', 'standards.info', and 'standards.dvi', as
well as the Texinfo "source" which is divided in two files:
'standards.texi' and 'make-stds.texi'.  The GNU Coding Standards are
also available on the GNU World Wide Web server:
<http://www.gnu.org/prep/standards_toc.html>.

   Corrections or suggestions for this document should be sent to
<bug-standards@gnu.org>.  If you make a suggestion, please include a
suggested new wording for it; our time is limited.  We prefer a context
diff to the 'standards.texi' or 'make-stds.texi' files, but if you don't
have those files, please mail your suggestion anyway.


File: standards.info,  Node: Legal Issues,  Next: Design Advice,  Prev: Preface,  Up: Top

2 Keeping Free Software Free
****************************

This node discusses how you can make sure that GNU software avoids legal
difficulties, and other related issues.

* Menu:

* Reading Non-Free Code::       Referring to Proprietary Programs
* Contributions::               Accepting Contributions
* Trademarks::                  How We Deal with Trademark Issues


File: standards.info,  Node: Reading Non-Free Code,  Next: Contributions,  Up: Legal Issues

2.1 Referring to Proprietary Programs
=====================================

Don't in any circumstances refer to Unix source code for or during your
work on GNU! (Or to any other proprietary programs.)

   If you have a vague recollection of the internals of a Unix program,
this does not absolutely mean you can't write an imitation of it, but do
try to organize the imitation internally along different lines, because
this is likely to make the details of the Unix version irrelevant and
dissimilar to your results.

   For example, Unix utilities were generally optimized to minimize
memory use; if you go for speed instead, your program will be very
different.  You could keep the entire input file in core and scan it
there instead of using stdio.  Use a smarter algorithm discovered more
recently than the Unix program.  Eliminate use of temporary files.  Do
it in one pass instead of two (we did this in the assembler).

   Or, on the contrary, emphasize simplicity instead of speed.  For some
applications, the speed of today's computers makes simpler algorithms
adequate.

   Or go for generality.  For example, Unix programs often have static
tables or fixed-size strings, which make for arbitrary limits; use
dynamic allocation instead.  Make sure your program handles NULs and
other funny characters in the input files.  Add a programming language
for extensibility and write part of the program in that language.

   Or turn some parts of the program into independently usable
libraries.  Or use a simple garbage collector instead of tracking
precisely when to free memory, or use a new GNU facility such as
obstacks.


File: standards.info,  Node: Contributions,  Next: Trademarks,  Prev: Reading Non-Free Code,  Up: Legal Issues

2.2 Accepting Contributions
===========================

If the program you are working on is copyrighted by the Free Software
Foundation, then when someone else sends you a piece of code to add to
the program, we need legal papers to use it--just as we asked you to
sign papers initially.  _Each_ person who makes a nontrivial
contribution to a program must sign some sort of legal papers in order
for us to have clear title to the program; the main author alone is not
enough.

   So, before adding in any contributions from other people, please tell
us, so we can arrange to get the papers.  Then wait until we tell you
that we have received the signed papers, before you actually use the
contribution.

   This applies both before you release the program and afterward.  If
you receive diffs to fix a bug, and they make significant changes, we
need legal papers for that change.

   This also applies to comments and documentation files.  For copyright
law, comments and code are just text.  Copyright applies to all kinds of
text, so we need legal papers for all kinds.

   We know it is frustrating to ask for legal papers; it's frustrating
for us as well.  But if you don't wait, you are going out on a limb--for
example, what if the contributor's employer won't sign a disclaimer?
You might have to take that code out again!

   You don't need papers for changes of a few lines here or there, since
they are not significant for copyright purposes.  Also, you don't need
papers if all you get from the suggestion is some ideas, not actual code
which you use.  For example, if someone send you one implementation, but
you write a different implementation of the same idea, you don't need to
get papers.

   The very worst thing is if you forget to tell us about the other
contributor.  We could be very embarrassed in court some day as a
result.

   We have more detailed advice for maintainers of programs; if you have
reached the stage of actually maintaining a program for GNU (whether
released or not), please ask us for a copy.


File: standards.info,  Node: Trademarks,  Prev: Contributions,  Up: Legal Issues

2.3 Trademarks
==============

Please do not include any trademark acknowledgements in GNU software
packages or documentation.

   Trademark acknowledgements are the statements that such-and-such is a
trademark of so-and-so.  The GNU Project has no objection to the basic
idea of trademarks, but these acknowledgements feel like kowtowing, so
we don't use them.  There is no legal requirement for them.

   What is legally required, as regards other people's trademarks, is to
avoid using them in ways which a reader might read as naming or labeling
our own programs or activities.  For example, since "Objective C" is (or
at least was) a trademark, we made sure to say that we provide a
"compiler for the Objective C language" rather than an "Objective C
compiler".  The latter is meant to be short for the former, but it does
not explicitly state the relationship, so it could be misinterpreted as
using "Objective C" as a label for the compiler rather than for the
language.


File: standards.info,  Node: Design Advice,  Next: Program Behavior,  Prev: Legal Issues,  Up: Top

3 General Program Design
************************

This node discusses some of the issues you should take into account when
designing your program.

* Menu:

* Source Language::             Which languages to use.
* Compatibility::               Compatibility with other implementations
* Using Extensions::            Using non-standard features
* Standard C::                  Using Standard C features


File: standards.info,  Node: Source Language,  Next: Compatibility,  Up: Design Advice

3.1 Which Languages to Use
==========================

When you want to use a language that gets compiled and runs at high
speed, the best language to use is C. Using another language is like
using a non-standard feature: it will cause trouble for users.  Even if
GCC supports the other language, users may find it inconvenient to have
to install the compiler for that other language in order to build your
program.  For example, if you write your program in C++, people will
have to install the GNU C++ compiler in order to compile your program.

   C has one other advantage over C++ and other compiled languages: more
people know C, so more people will find it easy to read and modify the
program if it is written in C.

   So in general it is much better to use C, rather than the comparable
alternatives.

   But there are two exceptions to that conclusion:

   * It is no problem to use another language to write a tool
     specifically intended for use with that language.  That is because
     the only people who want to build the tool will be those who have
     installed the other language anyway.

   * If an application is of interest only to a narrow part of the
     community, then the question of which language it is written in has
     less effect on other people, so you may as well please yourself.

   Many programs are designed to be extensible: they include an
interpreter for a language that is higher level than C. Often much of
the program is written in that language, too.  The Emacs editor
pioneered this technique.

   The standard extensibility interpreter for GNU software is GUILE,
which implements the language Scheme (an especially clean and simple
dialect of Lisp).  <http://www.gnu.org/software/guile/>.  We don't
reject programs written in other "scripting languages" such as Perl and
Python, but using GUILE is very important for the overall consistency of
the GNU system.


File: standards.info,  Node: Compatibility,  Next: Using Extensions,  Prev: Source Language,  Up: Design Advice

3.2 Compatibility with Other Implementations
============================================

With occasional exceptions, utility programs and libraries for GNU
should be upward compatible with those in Berkeley Unix, and upward
compatible with Standard C if Standard C specifies their behavior, and
upward compatible with POSIX if POSIX specifies their behavior.

   When these standards conflict, it is useful to offer compatibility
modes for each of them.

   Standard C and POSIX prohibit many kinds of extensions.  Feel free to
make the extensions anyway, and include a '--ansi', '--posix', or
'--compatible' option to turn them off.  However, if the extension has a
significant chance of breaking any real programs or scripts, then it is
not really upward compatible.  So you should try to redesign its
interface to make it upward compatible.

   Many GNU programs suppress extensions that conflict with POSIX if the
environment variable 'POSIXLY_CORRECT' is defined (even if it is defined
with a null value).  Please make your program recognize this variable if
appropriate.

   When a feature is used only by users (not by programs or command
files), and it is done poorly in Unix, feel free to replace it
completely with something totally different and better.  (For example,
'vi' is replaced with Emacs.)  But it is nice to offer a compatible
feature as well.  (There is a free 'vi' clone, so we offer it.)

   Additional useful features are welcome regardless of whether there is
any precedent for them.


File: standards.info,  Node: Using Extensions,  Next: Standard C,  Prev: Compatibility,  Up: Design Advice

3.3 Using Non-standard Features
===============================

Many GNU facilities that already exist support a number of convenient
extensions over the comparable Unix facilities.  Whether to use these
extensions in implementing your program is a difficult question.

   On the one hand, using the extensions can make a cleaner program.  On
the other hand, people will not be able to build the program unless the
other GNU tools are available.  This might cause the program to work on
fewer kinds of machines.

   With some extensions, it might be easy to provide both alternatives.
For example, you can define functions with a "keyword" 'INLINE' and
define that as a macro to expand into either 'inline' or nothing,
depending on the compiler.

   In general, perhaps it is best not to use the extensions if you can
straightforwardly do without them, but to use the extensions if they are
a big improvement.

   An exception to this rule are the large, established programs (such
as Emacs) which run on a great variety of systems.  Using GNU extensions
in such programs would make many users unhappy, so we don't do that.

   Another exception is for programs that are used as part of
compilation: anything that must be compiled with other compilers in
order to bootstrap the GNU compilation facilities.  If these require the
GNU compiler, then no one can compile them without having them installed
already.  That would be extremely troublesome in certain cases.


File: standards.info,  Node: Standard C,  Prev: Using Extensions,  Up: Design Advice

3.4 Standard C and Pre-Standard C
=================================

1989 Standard C is widespread enough now that it is ok to use its
features in new programs.  There is one exception: do not ever use the
"trigraph" feature of Standard C.

   1999 Standard C is not widespread yet, so please do not require its
features in programs.  It is ok to use its features if they are present.

   However, it is easy to support pre-standard compilers in most
programs, so if you know how to do that, feel free.  If a program you
are maintaining has such support, you should try to keep it working.

   To support pre-standard C, instead of writing function definitions in
standard prototype form,

     int
     foo (int x, int y)
     ...

write the definition in pre-standard style like this,

     int
     foo (x, y)
          int x, y;
     ...

and use a separate declaration to specify the argument prototype:

     int foo (int, int);

   You need such a declaration anyway, in a header file, to get the
benefit of prototypes in all the files where the function is called.
And once you have the declaration, you normally lose nothing by writing
the function definition in the pre-standard style.

   This technique does not work for integer types narrower than 'int'.
If you think of an argument as being of a type narrower than 'int',
declare it as 'int' instead.

   There are a few special cases where this technique is hard to use.
For example, if a function argument needs to hold the system type
'dev_t', you run into trouble, because 'dev_t' is shorter than 'int' on
some machines; but you cannot use 'int' instead, because 'dev_t' is
wider than 'int' on some machines.  There is no type you can safely use
on all machines in a non-standard definition.  The only way to support
non-standard C and pass such an argument is to check the width of
'dev_t' using Autoconf and choose the argument type accordingly.  This
may not be worth the trouble.

   In order to support pre-standard compilers that do not recognize
prototypes, you may want to use a preprocessor macro like this:

     /* Declare the prototype for a general external function.  */
     #if defined (__STDC__) || defined (WINDOWSNT)
     #define P_(proto) proto
     #else
     #define P_(proto) ()
     #endif


File: standards.info,  Node: Program Behavior,  Next: Writing C,  Prev: Design Advice,  Up: Top

4 Program Behavior for All Programs
***********************************

This node describes conventions for writing robust software.  It also
describes general standards for error messages, the command line
interface, and how libraries should behave.

* Menu:

* Semantics::                   Writing robust programs
* Libraries::                   Library behavior
* Errors::                      Formatting error messages
* User Interfaces::             Standards about interfaces generally
* Graphical Interfaces::        Standards for graphical interfaces
* Command-Line Interfaces::     Standards for command line interfaces
* Option Table::                Table of long options
* Memory Usage::                When and how to care about memory needs
* File Usage::                  Which files to use, and where


File: standards.info,  Node: Semantics,  Next: Libraries,  Up: Program Behavior

4.1 Writing Robust Programs
===========================

Avoid arbitrary limits on the length or number of _any_ data structure,
including file names, lines, files, and symbols, by allocating all data
structures dynamically.  In most Unix utilities, "long lines are
silently truncated".  This is not acceptable in a GNU utility.

   Utilities reading files should not drop NUL characters, or any other
nonprinting characters _including those with codes above 0177_.  The
only sensible exceptions would be utilities specifically intended for
interface to certain types of terminals or printers that can't handle
those characters.  Whenever possible, try to make programs work properly
with sequences of bytes that represent multibyte characters, using
encodings such as UTF-8 and others.

   Check every system call for an error return, unless you know you wish
to ignore errors.  Include the system error text (from 'perror' or
equivalent) in _every_ error message resulting from a failing system
call, as well as the name of the file if any and the name of the
utility.  Just "cannot open foo.c" or "stat failed" is not sufficient.

   Check every call to 'malloc' or 'realloc' to see if it returned zero.
Check 'realloc' even if you are making the block smaller; in a system
that rounds block sizes to a power of 2, 'realloc' may get a different
block if you ask for less space.

   In Unix, 'realloc' can destroy the storage block if it returns zero.
GNU 'realloc' does not have this bug: if it fails, the original block is
unchanged.  Feel free to assume the bug is fixed.  If you wish to run
your program on Unix, and wish to avoid lossage in this case, you can
use the GNU 'malloc'.

   You must expect 'free' to alter the contents of the block that was
freed.  Anything you want to fetch from the block, you must fetch before
calling 'free'.

   If 'malloc' fails in a noninteractive program, make that a fatal
error.  In an interactive program (one that reads commands from the
user), it is better to abort the command and return to the command
reader loop.  This allows the user to kill other processes to free up
virtual memory, and then try the command again.

   Use 'getopt_long' to decode arguments, unless the argument syntax
makes this unreasonable.

   When static storage is to be written in during program execution, use
explicit C code to initialize it.  Reserve C initialized declarations
for data that will not be changed.

   Try to avoid low-level interfaces to obscure Unix data structures
(such as file directories, utmp, or the layout of kernel memory), since
these are less likely to work compatibly.  If you need to find all the
files in a directory, use 'readdir' or some other high-level interface.
These are supported compatibly by GNU.

   The preferred signal handling facilities are the BSD variant of
'signal', and the POSIX 'sigaction' function; the alternative USG
'signal' interface is an inferior design.

   Nowadays, using the POSIX signal functions may be the easiest way to
make a program portable.  If you use 'signal', then on GNU/Linux systems
running GNU libc version 1, you should include 'bsd/signal.h' instead of
'signal.h', so as to get BSD behavior.  It is up to you whether to
support systems where 'signal' has only the USG behavior, or give up on
them.

   In error checks that detect "impossible" conditions, just abort.
There is usually no point in printing any message.  These checks
indicate the existence of bugs.  Whoever wants to fix the bugs will have
to read the source code and run a debugger.  So explain the problem with
comments in the source.  The relevant data will be in variables, which
are easy to examine with the debugger, so there is no point moving them
elsewhere.

   Do not use a count of errors as the exit status for a program.  _That
does not work_, because exit status values are limited to 8 bits (0
through 255).  A single run of the program might have 256 errors; if you
try to return 256 as the exit status, the parent process will see 0 as
the status, and it will appear that the program succeeded.

   If you make temporary files, check the 'TMPDIR' environment variable;
if that variable is defined, use the specified directory instead of
'/tmp'.

   In addition, be aware that there is a possible security problem when
creating temporary files in world-writable directories.  In C, you can
avoid this problem by creating temporary files in this manner:

     fd = open(filename, O_WRONLY | O_CREAT | O_EXCL, 0600);

or by using the 'mkstemps' function from libiberty.

   In bash, use 'set -C' to avoid this problem.


File: standards.info,  Node: Libraries,  Next: Errors,  Prev: Semantics,  Up: Program Behavior

4.2 Library Behavior
====================

Try to make library functions reentrant.  If they need to do dynamic
storage allocation, at least try to avoid any nonreentrancy aside from
that of 'malloc' itself.

   Here are certain name conventions for libraries, to avoid name
conflicts.

   Choose a name prefix for the library, more than two characters long.
All external function and variable names should start with this prefix.
In addition, there should only be one of these in any given library
member.  This usually means putting each one in a separate source file.

   An exception can be made when two external symbols are always used
together, so that no reasonable program could use one without the other;
then they can both go in the same file.

   External symbols that are not documented entry points for the user
should have names beginning with '_'.  The '_' should be followed by the
chosen name prefix for the library, to prevent collisions with other
libraries.  These can go in the same files with user entry points if you
like.

   Static functions and variables can be used as you like and need not
fit any naming convention.


File: standards.info,  Node: Errors,  Next: User Interfaces,  Prev: Libraries,  Up: Program Behavior

4.3 Formatting Error Messages
=============================

Error messages from compilers should look like this:

     SOURCE-FILE-NAME:LINENO: MESSAGE

If you want to mention the column number, use this format:

     SOURCE-FILE-NAME:LINENO:COLUMN: MESSAGE

Line numbers should start from 1 at the beginning of the file, and
column numbers should start from 1 at the beginning of the line.  (Both
of these conventions are chosen for compatibility.)  Calculate column
numbers assuming that space and all ASCII printing characters have equal
width, and assuming tab stops every 8 columns.

   Error messages from other noninteractive programs should look like
this:

     PROGRAM:SOURCE-FILE-NAME:LINENO: MESSAGE

when there is an appropriate source file, or like this:

     PROGRAM: MESSAGE

when there is no relevant source file.

   If you want to mention the column number, use this format:

     PROGRAM:SOURCE-FILE-NAME:LINENO:COLUMN: MESSAGE

   In an interactive program (one that is reading commands from a
terminal), it is better not to include the program name in an error
message.  The place to indicate which program is running is in the
prompt or with the screen layout.  (When the same program runs with
input from a source other than a terminal, it is not interactive and
would do best to print error messages using the noninteractive style.)

   The string MESSAGE should not begin with a capital letter when it
follows a program name and/or file name.  Also, it should not end with a
period.

   Error messages from interactive programs, and other messages such as
usage messages, should start with a capital letter.  But they should not
end with a period.


File: standards.info,  Node: User Interfaces,  Next: Graphical Interfaces,  Prev: Errors,  Up: Program Behavior

4.4 Standards for Interfaces Generally
======================================

Please don't make the behavior of a utility depend on the name used to
invoke it.  It is useful sometimes to make a link to a utility with a
different name, and that should not change what it does.

   Instead, use a run time option or a compilation switch or both to
select among the alternate behaviors.

   Likewise, please don't make the behavior of the program depend on the
type of output device it is used with.  Device independence is an
important principle of the system's design; do not compromise it merely
to save someone from typing an option now and then.  (Variation in error
message syntax when using a terminal is ok, because that is a side issue
that people do not depend on.)

   If you think one behavior is most useful when the output is to a
terminal, and another is most useful when the output is a file or a
pipe, then it is usually best to make the default behavior the one that
is useful with output to a terminal, and have an option for the other
behavior.

   Compatibility requires certain programs to depend on the type of
output device.  It would be disastrous if 'ls' or 'sh' did not do so in
the way all users expect.  In some of these cases, we supplement the
program with a preferred alternate version that does not depend on the
output device type.  For example, we provide a 'dir' program much like
'ls' except that its default output format is always multi-column
format.


File: standards.info,  Node: Graphical Interfaces,  Next: Command-Line Interfaces,  Prev: User Interfaces,  Up: Program Behavior

4.5 Standards for Graphical Interfaces
======================================

When you write a program that provides a graphical user interface,
please make it work with X Windows and the GTK toolkit unless the
functionality specifically requires some alternative (for example,
"displaying jpeg images while in console mode").

   In addition, please provide a command-line interface to control the
functionality.  (In many cases, the graphical user interface can be a
separate program which invokes the command-line program.)  This is so
that the same jobs can be done from scripts.

   Please also consider providing a CORBA interface (for use from
GNOME), a library interface (for use from C), and perhaps a
keyboard-driven console interface (for use by users from console mode).
Once you are doing the work to provide the functionality and the
graphical interface, these won't be much extra work.


File: standards.info,  Node: Command-Line Interfaces,  Next: Option Table,  Prev: Graphical Interfaces,  Up: Program Behavior

4.6 Standards for Command Line Interfaces
=========================================

It is a good idea to follow the POSIX guidelines for the command-line
options of a program.  The easiest way to do this is to use 'getopt' to
parse them.  Note that the GNU version of 'getopt' will normally permit
options anywhere among the arguments unless the special argument '--' is
used.  This is not what POSIX specifies; it is a GNU extension.

   Please define long-named options that are equivalent to the
single-letter Unix-style options.  We hope to make GNU more user
friendly this way.  This is easy to do with the GNU function
'getopt_long'.

   One of the advantages of long-named options is that they can be
consistent from program to program.  For example, users should be able
to expect the "verbose" option of any GNU program which has one, to be
spelled precisely '--verbose'.  To achieve this uniformity, look at the
table of common long-option names when you choose the option names for
your program (*note Option Table::).

   It is usually a good idea for file names given as ordinary arguments
to be input files only; any output files would be specified using
options (preferably '-o' or '--output').  Even if you allow an output
file name as an ordinary argument for compatibility, try to provide an
option as another way to specify it.  This will lead to more consistency
among GNU utilities, and fewer idiosyncrasies for users to remember.

   All programs should support two standard options: '--version' and
'--help'.

'--version'
     This option should direct the program to print information about
     its name, version, origin and legal status, all on standard output,
     and then exit successfully.  Other options and arguments should be
     ignored once this is seen, and the program should not perform its
     normal function.

     The first line is meant to be easy for a program to parse; the
     version number proper starts after the last space.  In addition, it
     contains the canonical name for this program, in this format:

          GNU Emacs 19.30

     The program's name should be a constant string; _don't_ compute it
     from 'argv[0]'.  The idea is to state the standard or canonical
     name for the program, not its file name.  There are other ways to
     find out the precise file name where a command is found in 'PATH'.

     If the program is a subsidiary part of a larger package, mention
     the package name in parentheses, like this:

          emacsserver (GNU Emacs) 19.30

     If the package has a version number which is different from this
     program's version number, you can mention the package version
     number just before the close-parenthesis.

     If you *need* to mention the version numbers of libraries which are
     distributed separately from the package which contains this
     program, you can do so by printing an additional line of version
     info for each library you want to mention.  Use the same format for
     these lines as for the first line.

     Please do not mention all of the libraries that the program uses
     "just for completeness"--that would produce a lot of unhelpful
     clutter.  Please mention library version numbers only if you find
     in practice that they are very important to you in debugging.

     The following line, after the version number line or lines, should
     be a copyright notice.  If more than one copyright notice is called
     for, put each on a separate line.

     Next should follow a brief statement that the program is free
     software, and that users are free to copy and change it on certain
     conditions.  If the program is covered by the GNU GPL, say so here.
     Also mention that there is no warranty, to the extent permitted by
     law.

     It is ok to finish the output with a list of the major authors of
     the program, as a way of giving credit.

     Here's an example of output that follows these rules:

          GNU Emacs 19.34.5
          Copyright (C) 1996 Free Software Foundation, Inc.
          GNU Emacs comes with NO WARRANTY,
          to the extent permitted by law.
          You may redistribute copies of GNU Emacs
          under the terms of the GNU General Public License.
          For more information about these matters,
          see the files named COPYING.

     You should adapt this to your program, of course, filling in the
     proper year, copyright holder, name of program, and the references
     to distribution terms, and changing the rest of the wording as
     necessary.

     This copyright notice only needs to mention the most recent year in
     which changes were made--there's no need to list the years for
     previous versions' changes.  You don't have to mention the name of
     the program in these notices, if that is inconvenient, since it
     appeared in the first line.

'--help'
     This option should output brief documentation for how to invoke the
     program, on standard output, then exit successfully.  Other options
     and arguments should be ignored once this is seen, and the program
     should not perform its normal function.

     Near the end of the '--help' option's output there should be a line
     that says where to mail bug reports.  It should have this format:

          Report bugs to MAILING-ADDRESS.


File: standards.info,  Node: Option Table,  Next: Memory Usage,  Prev: Command-Line Interfaces,  Up: Program Behavior

4.7 Table of Long Options
=========================

Here is a table of long options used by GNU programs.  It is surely
incomplete, but we aim to list all the options that a new program might
want to be compatible with.  If you use names not already in the table,
please send <bug-standards@gnu.org> a list of them, with their meanings,
so we can update the table.

'after-date'
     '-N' in 'tar'.

'all'
     '-a' in 'du', 'ls', 'nm', 'stty', 'uname', and 'unexpand'.

'all-text'
     '-a' in 'diff'.

'almost-all'
     '-A' in 'ls'.

'append'
     '-a' in 'etags', 'tee', 'time'; '-r' in 'tar'.

'archive'
     '-a' in 'cp'.

'archive-name'
     '-n' in 'shar'.

'arglength'
     '-l' in 'm4'.

'ascii'
     '-a' in 'diff'.

'assign'
     '-v' in 'gawk'.

'assume-new'
     '-W' in Make.

'assume-old'
     '-o' in Make.

'auto-check'
     '-a' in 'recode'.

'auto-pager'
     '-a' in 'wdiff'.

'auto-reference'
     '-A' in 'ptx'.

'avoid-wraps'
     '-n' in 'wdiff'.

'background'
     For server programs, run in the background.

'backward-search'
     '-B' in 'ctags'.

'basename'
     '-f' in 'shar'.

'batch'
     Used in GDB.

'baud'
     Used in GDB.

'before'
     '-b' in 'tac'.

'binary'
     '-b' in 'cpio' and 'diff'.

'bits-per-code'
     '-b' in 'shar'.

'block-size'
     Used in 'cpio' and 'tar'.

'blocks'
     '-b' in 'head' and 'tail'.

'break-file'
     '-b' in 'ptx'.

'brief'
     Used in various programs to make output shorter.

'bytes'
     '-c' in 'head', 'split', and 'tail'.

'c++'
     '-C' in 'etags'.

'catenate'
     '-A' in 'tar'.

'cd'
     Used in various programs to specify the directory to use.

'changes'
     '-c' in 'chgrp' and 'chown'.

'classify'
     '-F' in 'ls'.

'colons'
     '-c' in 'recode'.

'command'
     '-c' in 'su'; '-x' in GDB.

'compare'
     '-d' in 'tar'.

'compat'
     Used in 'gawk'.

'compress'
     '-Z' in 'tar' and 'shar'.

'concatenate'
     '-A' in 'tar'.

'confirmation'
     '-w' in 'tar'.

'context'
     Used in 'diff'.

'copyleft'
     '-W copyleft' in 'gawk'.

'copyright'
     '-C' in 'ptx', 'recode', and 'wdiff'; '-W copyright' in 'gawk'.

'core'
     Used in GDB.

'count'
     '-q' in 'who'.

'count-links'
     '-l' in 'du'.

'create'
     Used in 'tar' and 'cpio'.

'cut-mark'
     '-c' in 'shar'.

'cxref'
     '-x' in 'ctags'.

'date'
     '-d' in 'touch'.

'debug'
     '-d' in Make and 'm4'; '-t' in Bison.

'define'
     '-D' in 'm4'.

'defines'
     '-d' in Bison and 'ctags'.

'delete'
     '-D' in 'tar'.

'dereference'
     '-L' in 'chgrp', 'chown', 'cpio', 'du', 'ls', and 'tar'.

'dereference-args'
     '-D' in 'du'.

'device'
     Specify an I/O device (special file name).

'diacritics'
     '-d' in 'recode'.

'dictionary-order'
     '-d' in 'look'.

'diff'
     '-d' in 'tar'.

'digits'
     '-n' in 'csplit'.

'directory'
     Specify the directory to use, in various programs.  In 'ls', it
     means to show directories themselves rather than their contents.
     In 'rm' and 'ln', it means to not treat links to directories
     specially.

'discard-all'
     '-x' in 'strip'.

'discard-locals'
     '-X' in 'strip'.

'dry-run'
     '-n' in Make.

'ed'
     '-e' in 'diff'.

'elide-empty-files'
     '-z' in 'csplit'.

'end-delete'
     '-x' in 'wdiff'.

'end-insert'
     '-z' in 'wdiff'.

'entire-new-file'
     '-N' in 'diff'.

'environment-overrides'
     '-e' in Make.

'eof'
     '-e' in 'xargs'.

'epoch'
     Used in GDB.

'error-limit'
     Used in 'makeinfo'.

'error-output'
     '-o' in 'm4'.

'escape'
     '-b' in 'ls'.

'exclude-from'
     '-X' in 'tar'.

'exec'
     Used in GDB.

'exit'
     '-x' in 'xargs'.

'exit-0'
     '-e' in 'unshar'.

'expand-tabs'
     '-t' in 'diff'.

'expression'
     '-e' in 'sed'.

'extern-only'
     '-g' in 'nm'.

'extract'
     '-i' in 'cpio'; '-x' in 'tar'.

'faces'
     '-f' in 'finger'.

'fast'
     '-f' in 'su'.

'fatal-warnings'
     '-E' in 'm4'.

'file'
     '-f' in 'info', 'gawk', Make, 'mt', and 'tar'; '-n' in 'sed'; '-r'
     in 'touch'.

'field-separator'
     '-F' in 'gawk'.

'file-prefix'
     '-b' in Bison.

'file-type'
     '-F' in 'ls'.

'files-from'
     '-T' in 'tar'.

'fill-column'
     Used in 'makeinfo'.

'flag-truncation'
     '-F' in 'ptx'.

'fixed-output-files'
     '-y' in Bison.

'follow'
     '-f' in 'tail'.

'footnote-style'
     Used in 'makeinfo'.

'force'
     '-f' in 'cp', 'ln', 'mv', and 'rm'.

'force-prefix'
     '-F' in 'shar'.

'foreground'
     For server programs, run in the foreground; in other words, don't
     do anything special to run the server in the background.

'format'
     Used in 'ls', 'time', and 'ptx'.

'freeze-state'
     '-F' in 'm4'.

'fullname'
     Used in GDB.

'gap-size'
     '-g' in 'ptx'.

'get'
     '-x' in 'tar'.

'graphic'
     '-i' in 'ul'.

'graphics'
     '-g' in 'recode'.

'group'
     '-g' in 'install'.

'gzip'
     '-z' in 'tar' and 'shar'.

'hashsize'
     '-H' in 'm4'.

'header'
     '-h' in 'objdump' and 'recode'

'heading'
     '-H' in 'who'.

'help'
     Used to ask for brief usage information.

'here-delimiter'
     '-d' in 'shar'.

'hide-control-chars'
     '-q' in 'ls'.

'html'
     In 'makeinfo', output HTML.

'idle'
     '-u' in 'who'.

'ifdef'
     '-D' in 'diff'.

'ignore'
     '-I' in 'ls'; '-x' in 'recode'.

'ignore-all-space'
     '-w' in 'diff'.

'ignore-backups'
     '-B' in 'ls'.

'ignore-blank-lines'
     '-B' in 'diff'.

'ignore-case'
     '-f' in 'look' and 'ptx'; '-i' in 'diff' and 'wdiff'.

'ignore-errors'
     '-i' in Make.

'ignore-file'
     '-i' in 'ptx'.

'ignore-indentation'
     '-I' in 'etags'.

'ignore-init-file'
     '-f' in Oleo.

'ignore-interrupts'
     '-i' in 'tee'.

'ignore-matching-lines'
     '-I' in 'diff'.

'ignore-space-change'
     '-b' in 'diff'.

'ignore-zeros'
     '-i' in 'tar'.

'include'
     '-i' in 'etags'; '-I' in 'm4'.

'include-dir'
     '-I' in Make.

'incremental'
     '-G' in 'tar'.

'info'
     '-i', '-l', and '-m' in Finger.

'init-file'
     In some programs, specify the name of the file to read as the
     user's init file.

'initial'
     '-i' in 'expand'.

'initial-tab'
     '-T' in 'diff'.

'inode'
     '-i' in 'ls'.

'interactive'
     '-i' in 'cp', 'ln', 'mv', 'rm'; '-e' in 'm4'; '-p' in 'xargs'; '-w'
     in 'tar'.

'intermix-type'
     '-p' in 'shar'.

'iso-8601'
     Used in 'date'

'jobs'
     '-j' in Make.

'just-print'
     '-n' in Make.

'keep-going'
     '-k' in Make.

'keep-files'
     '-k' in 'csplit'.

'kilobytes'
     '-k' in 'du' and 'ls'.

'language'
     '-l' in 'etags'.

'less-mode'
     '-l' in 'wdiff'.

'level-for-gzip'
     '-g' in 'shar'.

'line-bytes'
     '-C' in 'split'.

'lines'
     Used in 'split', 'head', and 'tail'.

'link'
     '-l' in 'cpio'.

'lint'
'lint-old'
     Used in 'gawk'.

'list'
     '-t' in 'cpio'; '-l' in 'recode'.

'list'
     '-t' in 'tar'.

'literal'
     '-N' in 'ls'.

'load-average'
     '-l' in Make.

'login'
     Used in 'su'.

'machine'
     No listing of which programs already use this; someone should check
     to see if any actually do, and tell <gnu@gnu.org>.

'macro-name'
     '-M' in 'ptx'.

'mail'
     '-m' in 'hello' and 'uname'.

'make-directories'
     '-d' in 'cpio'.

'makefile'
     '-f' in Make.

'mapped'
     Used in GDB.

'max-args'
     '-n' in 'xargs'.

'max-chars'
     '-n' in 'xargs'.

'max-lines'
     '-l' in 'xargs'.

'max-load'
     '-l' in Make.

'max-procs'
     '-P' in 'xargs'.

'mesg'
     '-T' in 'who'.

'message'
     '-T' in 'who'.

'minimal'
     '-d' in 'diff'.

'mixed-uuencode'
     '-M' in 'shar'.

'mode'
     '-m' in 'install', 'mkdir', and 'mkfifo'.

'modification-time'
     '-m' in 'tar'.

'multi-volume'
     '-M' in 'tar'.

'name-prefix'
     '-a' in Bison.

'nesting-limit'
     '-L' in 'm4'.

'net-headers'
     '-a' in 'shar'.

'new-file'
     '-W' in Make.

'no-builtin-rules'
     '-r' in Make.

'no-character-count'
     '-w' in 'shar'.

'no-check-existing'
     '-x' in 'shar'.

'no-common'
     '-3' in 'wdiff'.

'no-create'
     '-c' in 'touch'.

'no-defines'
     '-D' in 'etags'.

'no-deleted'
     '-1' in 'wdiff'.

'no-dereference'
     '-d' in 'cp'.

'no-inserted'
     '-2' in 'wdiff'.

'no-keep-going'
     '-S' in Make.

'no-lines'
     '-l' in Bison.

'no-piping'
     '-P' in 'shar'.

'no-prof'
     '-e' in 'gprof'.

'no-regex'
     '-R' in 'etags'.

'no-sort'
     '-p' in 'nm'.

'no-split'
     Used in 'makeinfo'.

'no-static'
     '-a' in 'gprof'.

'no-time'
     '-E' in 'gprof'.

'no-timestamp'
     '-m' in 'shar'.

'no-validate'
     Used in 'makeinfo'.

'no-wait'
     Used in 'emacsclient'.

'no-warn'
     Used in various programs to inhibit warnings.

'node'
     '-n' in 'info'.

'nodename'
     '-n' in 'uname'.

'nonmatching'
     '-f' in 'cpio'.

'nstuff'
     '-n' in 'objdump'.

'null'
     '-0' in 'xargs'.

'number'
     '-n' in 'cat'.

'number-nonblank'
     '-b' in 'cat'.

'numeric-sort'
     '-n' in 'nm'.

'numeric-uid-gid'
     '-n' in 'cpio' and 'ls'.

'nx'
     Used in GDB.

'old-archive'
     '-o' in 'tar'.

'old-file'
     '-o' in Make.

'one-file-system'
     '-l' in 'tar', 'cp', and 'du'.

'only-file'
     '-o' in 'ptx'.

'only-prof'
     '-f' in 'gprof'.

'only-time'
     '-F' in 'gprof'.

'options'
     '-o' in 'getopt', 'fdlist', 'fdmount', 'fdmountd', and 'fdumount'.

'output'
     In various programs, specify the output file name.

'output-prefix'
     '-o' in 'shar'.

'override'
     '-o' in 'rm'.

'overwrite'
     '-c' in 'unshar'.

'owner'
     '-o' in 'install'.

'paginate'
     '-l' in 'diff'.

'paragraph-indent'
     Used in 'makeinfo'.

'parents'
     '-p' in 'mkdir' and 'rmdir'.

'pass-all'
     '-p' in 'ul'.

'pass-through'
     '-p' in 'cpio'.

'port'
     '-P' in 'finger'.

'portability'
     '-c' in 'cpio' and 'tar'.

'posix'
     Used in 'gawk'.

'prefix-builtins'
     '-P' in 'm4'.

'prefix'
     '-f' in 'csplit'.

'preserve'
     Used in 'tar' and 'cp'.

'preserve-environment'
     '-p' in 'su'.

'preserve-modification-time'
     '-m' in 'cpio'.

'preserve-order'
     '-s' in 'tar'.

'preserve-permissions'
     '-p' in 'tar'.

'print'
     '-l' in 'diff'.

'print-chars'
     '-L' in 'cmp'.

'print-data-base'
     '-p' in Make.

'print-directory'
     '-w' in Make.

'print-file-name'
     '-o' in 'nm'.

'print-symdefs'
     '-s' in 'nm'.

'printer'
     '-p' in 'wdiff'.

'prompt'
     '-p' in 'ed'.

'proxy'
     Specify an HTTP proxy.

'query-user'
     '-X' in 'shar'.

'question'
     '-q' in Make.

'quiet'
     Used in many programs to inhibit the usual output.  *Note:* every
     program accepting '--quiet' should accept '--silent' as a synonym.

'quiet-unshar'
     '-Q' in 'shar'

'quote-name'
     '-Q' in 'ls'.

'rcs'
     '-n' in 'diff'.

're-interval'
     Used in 'gawk'.

'read-full-blocks'
     '-B' in 'tar'.

'readnow'
     Used in GDB.

'recon'
     '-n' in Make.

'record-number'
     '-R' in 'tar'.

'recursive'
     Used in 'chgrp', 'chown', 'cp', 'ls', 'diff', and 'rm'.

'reference-limit'
     Used in 'makeinfo'.

'references'
     '-r' in 'ptx'.

'regex'
     '-r' in 'tac' and 'etags'.

'release'
     '-r' in 'uname'.

'reload-state'
     '-R' in 'm4'.

'relocation'
     '-r' in 'objdump'.

'rename'
     '-r' in 'cpio'.

'replace'
     '-i' in 'xargs'.

'report-identical-files'
     '-s' in 'diff'.

'reset-access-time'
     '-a' in 'cpio'.

'reverse'
     '-r' in 'ls' and 'nm'.

'reversed-ed'
     '-f' in 'diff'.

'right-side-defs'
     '-R' in 'ptx'.

'same-order'
     '-s' in 'tar'.

'same-permissions'
     '-p' in 'tar'.

'save'
     '-g' in 'stty'.

'se'
     Used in GDB.

'sentence-regexp'
     '-S' in 'ptx'.

'separate-dirs'
     '-S' in 'du'.

'separator'
     '-s' in 'tac'.

'sequence'
     Used by 'recode' to chose files or pipes for sequencing passes.

'shell'
     '-s' in 'su'.

'show-all'
     '-A' in 'cat'.

'show-c-function'
     '-p' in 'diff'.

'show-ends'
     '-E' in 'cat'.

'show-function-line'
     '-F' in 'diff'.

'show-tabs'
     '-T' in 'cat'.

'silent'
     Used in many programs to inhibit the usual output.  *Note:* every
     program accepting '--silent' should accept '--quiet' as a synonym.

'size'
     '-s' in 'ls'.

'socket'
     Specify a file descriptor for a network server to use for its
     socket, instead of opening and binding a new socket.  This provides
     a way to run, in a nonpriveledged process, a server that normally
     needs a reserved port number.

'sort'
     Used in 'ls'.

'source'
     '-W source' in 'gawk'.

'sparse'
     '-S' in 'tar'.

'speed-large-files'
     '-H' in 'diff'.

'split-at'
     '-E' in 'unshar'.

'split-size-limit'
     '-L' in 'shar'.

'squeeze-blank'
     '-s' in 'cat'.

'start-delete'
     '-w' in 'wdiff'.

'start-insert'
     '-y' in 'wdiff'.

'starting-file'
     Used in 'tar' and 'diff' to specify which file within a directory
     to start processing with.

'statistics'
     '-s' in 'wdiff'.

'stdin-file-list'
     '-S' in 'shar'.

'stop'
     '-S' in Make.

'strict'
     '-s' in 'recode'.

'strip'
     '-s' in 'install'.

'strip-all'
     '-s' in 'strip'.

'strip-debug'
     '-S' in 'strip'.

'submitter'
     '-s' in 'shar'.

'suffix'
     '-S' in 'cp', 'ln', 'mv'.

'suffix-format'
     '-b' in 'csplit'.

'sum'
     '-s' in 'gprof'.

'summarize'
     '-s' in 'du'.

'symbolic'
     '-s' in 'ln'.

'symbols'
     Used in GDB and 'objdump'.

'synclines'
     '-s' in 'm4'.

'sysname'
     '-s' in 'uname'.

'tabs'
     '-t' in 'expand' and 'unexpand'.

'tabsize'
     '-T' in 'ls'.

'terminal'
     '-T' in 'tput' and 'ul'.  '-t' in 'wdiff'.

'text'
     '-a' in 'diff'.

'text-files'
     '-T' in 'shar'.

'time'
     Used in 'ls' and 'touch'.

'timeout'
     Specify how long to wait before giving up on some operation.

'to-stdout'
     '-O' in 'tar'.

'total'
     '-c' in 'du'.

'touch'
     '-t' in Make, 'ranlib', and 'recode'.

'trace'
     '-t' in 'm4'.

'traditional'
     '-t' in 'hello'; '-W traditional' in 'gawk'; '-G' in 'ed', 'm4',
     and 'ptx'.

'tty'
     Used in GDB.

'typedefs'
     '-t' in 'ctags'.

'typedefs-and-c++'
     '-T' in 'ctags'.

'typeset-mode'
     '-t' in 'ptx'.

'uncompress'
     '-z' in 'tar'.

'unconditional'
     '-u' in 'cpio'.

'undefine'
     '-U' in 'm4'.

'undefined-only'
     '-u' in 'nm'.

'update'
     '-u' in 'cp', 'ctags', 'mv', 'tar'.

'usage'
     Used in 'gawk'; same as '--help'.

'uuencode'
     '-B' in 'shar'.

'vanilla-operation'
     '-V' in 'shar'.

'verbose'
     Print more information about progress.  Many programs support this.

'verify'
     '-W' in 'tar'.

'version'
     Print the version number.

'version-control'
     '-V' in 'cp', 'ln', 'mv'.

'vgrind'
     '-v' in 'ctags'.

'volume'
     '-V' in 'tar'.

'what-if'
     '-W' in Make.

'whole-size-limit'
     '-l' in 'shar'.

'width'
     '-w' in 'ls' and 'ptx'.

'word-regexp'
     '-W' in 'ptx'.

'writable'
     '-T' in 'who'.

'zeros'
     '-z' in 'gprof'.


File: standards.info,  Node: Memory Usage,  Next: File Usage,  Prev: Option Table,  Up: Program Behavior

4.8 Memory Usage
================

If a program typically uses just a few meg of memory, don't bother
making any effort to reduce memory usage.  For example, if it is
impractical for other reasons to operate on files more than a few meg
long, it is reasonable to read entire input files into core to operate
on them.

   However, for programs such as 'cat' or 'tail', that can usefully
operate on very large files, it is important to avoid using a technique
that would artificially limit the size of files it can handle.  If a
program works by lines and could be applied to arbitrary user-supplied
input files, it should keep only a line in memory, because this is not
very hard and users will want to be able to operate on input files that
are bigger than will fit in core all at once.

   If your program creates complicated data structures, just make them
in core and give a fatal error if 'malloc' returns zero.


File: standards.info,  Node: File Usage,  Prev: Memory Usage,  Up: Program Behavior

4.9 File Usage
==============

Programs should be prepared to operate when '/usr' and '/etc' are
read-only file systems.  Thus, if the program manages log files, lock
files, backup files, score files, or any other files which are modified
for internal purposes, these files should not be stored in '/usr' or
'/etc'.

   There are two exceptions.  '/etc' is used to store system
configuration information; it is reasonable for a program to modify
files in '/etc' when its job is to update the system configuration.
Also, if the user explicitly asks to modify one file in a directory, it
is reasonable for the program to store other files in the same
directory.


File: standards.info,  Node: Writing C,  Next: Documentation,  Prev: Program Behavior,  Up: Top

5 Making The Best Use of C
**************************

This node provides advice on how best to use the C language when writing
GNU software.

* Menu:

* Formatting::                  Formatting Your Source Code
* Comments::                    Commenting Your Work
* Syntactic Conventions::       Clean Use of C Constructs
* Names::                       Naming Variables and Functions
* System Portability::          Portability between different operating systems
* CPU Portability::             Supporting the range of CPU types
* System Functions::            Portability and "standard" library functions
* Internationalization::        Techniques for internationalization
* Mmap::                        How you can safely use 'mmap'.


File: standards.info,  Node: Formatting,  Next: Comments,  Up: Writing C

5.1 Formatting Your Source Code
===============================

It is important to put the open-brace that starts the body of a C
function in column zero, and avoid putting any other open-brace or
open-parenthesis or open-bracket in column zero.  Several tools look for
open-braces in column zero to find the beginnings of C functions.  These
tools will not work on code not formatted that way.

   It is also important for function definitions to start the name of
the function in column zero.  This helps people to search for function
definitions, and may also help certain tools recognize them.  Thus, the
proper format is this:

     static char *
     concat (s1, s2)        /* Name starts in column zero here */
          char *s1, *s2;
     {                     /* Open brace in column zero here */
       ...
     }

or, if you want to use Standard C syntax, format the definition like
this:

     static char *
     concat (char *s1, char *s2)
     {
       ...
     }

   In Standard C, if the arguments don't fit nicely on one line, split
it like this:

     int
     lots_of_args (int an_integer, long a_long, short a_short,
                   double a_double, float a_float)
     ...

   The rest of this section gives our recommendations for other aspects
of C formatting style, which is also the default style of the 'indent'
program in version 1.2 and newer.  It corresponds to the options

     -nbad -bap -nbc -bbo -bl -bli2 -bls -ncdb -nce -cp1 -cs -di2
     -ndj -nfc1 -nfca -hnl -i2 -ip5 -lp -pcs -psl -nsc -nsob

   We don't think of these recommendations as requirements, because it
causes no problems for users if two different programs have different
formatting styles.

   But whatever style you use, please use it consistently, since a
mixture of styles within one program tends to look ugly.  If you are
contributing changes to an existing program, please follow the style of
that program.

   For the body of the function, our recommended style looks like this:

     if (x < foo (y, z))
       haha = bar[4] + 5;
     else
       {
         while (z)
           {
             haha += foo (z, z);
             z--;
           }
         return ++x + bar ();
       }

   We find it easier to read a program when it has spaces before the
open-parentheses and after the commas.  Especially after the commas.

   When you split an expression into multiple lines, split it before an
operator, not after one.  Here is the right way:

     if (foo_this_is_long && bar > win (x, y, z)
         && remaining_condition)

   Try to avoid having two operators of different precedence at the same
level of indentation.  For example, don't write this:

     mode = (inmode[j] == VOIDmode
             || GET_MODE_SIZE (outmode[j]) > GET_MODE_SIZE (inmode[j])
             ? outmode[j] : inmode[j]);

   Instead, use extra parentheses so that the indentation shows the
nesting:

     mode = ((inmode[j] == VOIDmode
              || (GET_MODE_SIZE (outmode[j]) > GET_MODE_SIZE (inmode[j])))
             ? outmode[j] : inmode[j]);

   Insert extra parentheses so that Emacs will indent the code properly.
For example, the following indentation looks nice if you do it by hand,

     v = rup->ru_utime.tv_sec*1000 + rup->ru_utime.tv_usec/1000
         + rup->ru_stime.tv_sec*1000 + rup->ru_stime.tv_usec/1000;

but Emacs would alter it.  Adding a set of parentheses produces
something that looks equally nice, and which Emacs will preserve:

     v = (rup->ru_utime.tv_sec*1000 + rup->ru_utime.tv_usec/1000
          + rup->ru_stime.tv_sec*1000 + rup->ru_stime.tv_usec/1000);

   Format do-while statements like this:

     do
       {
         a = foo (a);
       }
     while (a > 0);

   Please use formfeed characters (control-L) to divide the program into
pages at logical places (but not within a function).  It does not matter
just how long the pages are, since they do not have to fit on a printed
page.  The formfeeds should appear alone on lines by themselves.


File: standards.info,  Node: Comments,  Next: Syntactic Conventions,  Prev: Formatting,  Up: Writing C

5.2 Commenting Your Work
========================

Every program should start with a comment saying briefly what it is for.
Example: 'fmt - filter for simple filling of text'.

   Please write the comments in a GNU program in English, because
English is the one language that nearly all programmers in all countries
can read.  If you do not write English well, please write comments in
English as well as you can, then ask other people to help rewrite them.
If you can't write comments in English, please find someone to work with
you and translate your comments into English.

   Please put a comment on each function saying what the function does,
what sorts of arguments it gets, and what the possible values of
arguments mean and are used for.  It is not necessary to duplicate in
words the meaning of the C argument declarations, if a C type is being
used in its customary fashion.  If there is anything nonstandard about
its use (such as an argument of type 'char *' which is really the
address of the second character of a string, not the first), or any
possible values that would not work the way one would expect (such as,
that strings containing newlines are not guaranteed to work), be sure to
say so.

   Also explain the significance of the return value, if there is one.

   Please put two spaces after the end of a sentence in your comments,
so that the Emacs sentence commands will work.  Also, please write
complete sentences and capitalize the first word.  If a lower-case
identifier comes at the beginning of a sentence, don't capitalize it!
Changing the spelling makes it a different identifier.  If you don't
like starting a sentence with a lower case letter, write the sentence
differently (e.g., "The identifier lower-case is ...").

   The comment on a function is much clearer if you use the argument
names to speak about the argument values.  The variable name itself
should be lower case, but write it in upper case when you are speaking
about the value rather than the variable itself.  Thus, "the inode
number NODE_NUM" rather than "an inode".

   There is usually no purpose in restating the name of the function in
the comment before it, because the reader can see that for himself.
There might be an exception when the comment is so long that the
function itself would be off the bottom of the screen.

   There should be a comment on each static variable as well, like this:

     /* Nonzero means truncate lines in the display;
        zero means continue them.  */
     int truncate_lines;

   Every '#endif' should have a comment, except in the case of short
conditionals (just a few lines) that are not nested.  The comment should
state the condition of the conditional that is ending, _including its
sense_.  '#else' should have a comment describing the condition _and
sense_ of the code that follows.  For example:

     #ifdef foo
       ...
     #else /* not foo */
       ...
     #endif /* not foo */
     #ifdef foo
       ...
     #endif /* foo */

but, by contrast, write the comments this way for a '#ifndef':

     #ifndef foo
       ...
     #else /* foo */
       ...
     #endif /* foo */
     #ifndef foo
       ...
     #endif /* not foo */


File: standards.info,  Node: Syntactic Conventions,  Next: Names,  Prev: Comments,  Up: Writing C

5.3 Clean Use of C Constructs
=============================

Please explicitly declare the types of all objects.  For example, you
should explicitly declare all arguments to functions, and you should
declare functions to return 'int' rather than omitting the 'int'.

   Some programmers like to use the GCC '-Wall' option, and change the
code whenever it issues a warning.  If you want to do this, then do.
Other programmers prefer not to use '-Wall', because it gives warnings
for valid and legitimate code which they do not want to change.  If you
want to do this, then do.  The compiler should be your servant, not your
master.

   Declarations of external functions and functions to appear later in
the source file should all go in one place near the beginning of the
file (somewhere before the first function definition in the file), or
else should go in a header file.  Don't put 'extern' declarations inside
functions.

   It used to be common practice to use the same local variables (with
names like 'tem') over and over for different values within one
function.  Instead of doing this, it is better declare a separate local
variable for each distinct purpose, and give it a name which is
meaningful.  This not only makes programs easier to understand, it also
facilitates optimization by good compilers.  You can also move the
declaration of each local variable into the smallest scope that includes
all its uses.  This makes the program even cleaner.

   Don't use local variables or parameters that shadow global
identifiers.

   Don't declare multiple variables in one declaration that spans lines.
Start a new declaration on each line, instead.  For example, instead of
this:

     int    foo,
            bar;

write either this:

     int foo, bar;

or this:

     int foo;
     int bar;

(If they are global variables, each should have a comment preceding it
anyway.)

   When you have an 'if'-'else' statement nested in another 'if'
statement, always put braces around the 'if'-'else'.  Thus, never write
like this:

     if (foo)
       if (bar)
         win ();
       else
         lose ();

always like this:

     if (foo)
       {
         if (bar)
           win ();
         else
           lose ();
       }

   If you have an 'if' statement nested inside of an 'else' statement,
either write 'else if' on one line, like this,

     if (foo)
       ...
     else if (bar)
       ...

with its 'then'-part indented like the preceding 'then'-part, or write
the nested 'if' within braces like this:

     if (foo)
       ...
     else
       {
         if (bar)
           ...
       }

   Don't declare both a structure tag and variables or typedefs in the
same declaration.  Instead, declare the structure tag separately and
then use it to declare the variables or typedefs.

   Try to avoid assignments inside 'if'-conditions.  For example, don't
write this:

     if ((foo = (char *) malloc (sizeof *foo)) == 0)
       fatal ("virtual memory exhausted");

instead, write this:

     foo = (char *) malloc (sizeof *foo);
     if (foo == 0)
       fatal ("virtual memory exhausted");

   Don't make the program ugly to placate 'lint'.  Please don't insert
any casts to 'void'.  Zero without a cast is perfectly fine as a null
pointer constant, except when calling a varargs function.


File: standards.info,  Node: Names,  Next: System Portability,  Prev: Syntactic Conventions,  Up: Writing C

5.4 Naming Variables and Functions
==================================

The names of global variables and functions in a program serve as
comments of a sort.  So don't choose terse names--instead, look for
names that give useful information about the meaning of the variable or
function.  In a GNU program, names should be English, like other
comments.

   Local variable names can be shorter, because they are used only
within one context, where (presumably) comments explain their purpose.

   Try to limit your use of abbreviations in symbol names.  It is ok to
make a few abbreviations, explain what they mean, and then use them
frequently, but don't use lots of obscure abbreviations.

   Please use underscores to separate words in a name, so that the Emacs
word commands can be useful within them.  Stick to lower case; reserve
upper case for macros and 'enum' constants, and for name-prefixes that
follow a uniform convention.

   For example, you should use names like 'ignore_space_change_flag';
don't use names like 'iCantReadThis'.

   Variables that indicate whether command-line options have been
specified should be named after the meaning of the option, not after the
option-letter.  A comment should state both the exact meaning of the
option and its letter.  For example,

     /* Ignore changes in horizontal whitespace (-b).  */
     int ignore_space_change_flag;

   When you want to define names with constant integer values, use
'enum' rather than '#define'.  GDB knows about enumeration constants.

   You might want to make sure that none of the file names would
conflict the files were loaded onto an MS-DOS file system which shortens
the names.  You can use the program 'doschk' to test for this.

   Some GNU programs were designed to limit themselves to file names of
14 characters or less, to avoid file name conflicts if they are read
into older System V systems.  Please preserve this feature in the
existing GNU programs that have it, but there is no need to do this in
new GNU programs.  'doschk' also reports file names longer than 14
characters.


File: standards.info,  Node: System Portability,  Next: CPU Portability,  Prev: Names,  Up: Writing C

5.5 Portability between System Types
====================================

In the Unix world, "portability" refers to porting to different Unix
versions.  For a GNU program, this kind of portability is desirable, but
not paramount.

   The primary purpose of GNU software is to run on top of the GNU
kernel, compiled with the GNU C compiler, on various types of CPU.  So
the kinds of portability that are absolutely necessary are quite
limited.  But it is important to support Linux-based GNU systems, since
they are the form of GNU that is popular.

   Beyond that, it is good to support the other free operating systems
(*BSD), and it is nice to support other Unix-like systems if you want
to.  Supporting a variety of Unix-like systems is desirable, although
not paramount.  It is usually not too hard, so you may as well do it.
But you don't have to consider it an obligation, if it does turn out to
be hard.

   The easiest way to achieve portability to most Unix-like systems is
to use Autoconf.  It's unlikely that your program needs to know more
information about the host platform than Autoconf can provide, simply
because most of the programs that need such knowledge have already been
written.

   Avoid using the format of semi-internal data bases (e.g.,
directories) when there is a higher-level alternative ('readdir').

   As for systems that are not like Unix, such as MSDOS, Windows, the
Macintosh, VMS, and MVS, supporting them is often a lot of work.  When
that is the case, it is better to spend your time adding features that
will be useful on GNU and GNU/Linux, rather than on supporting other
incompatible systems.

   It is a good idea to define the "feature test macro" '_GNU_SOURCE'
when compiling your C files.  When you compile on GNU or GNU/Linux, this
will enable the declarations of GNU library extension functions, and
that will usually give you a compiler error message if you define the
same function names in some other way in your program.  (You don't have
to actually _use_ these functions, if you prefer to make the program
more portable to other systems.)

   But whether or not you use these GNU extensions, you should avoid
using their names for any other meanings.  Doing so would make it hard
to move your code into other GNU programs.


File: standards.info,  Node: CPU Portability,  Next: System Functions,  Prev: System Portability,  Up: Writing C

5.6 Portability between CPUs
============================

Even GNU systems will differ because of differences among CPU types--for
example, difference in byte ordering and alignment requirements.  It is
absolutely essential to handle these differences.  However, don't make
any effort to cater to the possibility that an 'int' will be less than
32 bits.  We don't support 16-bit machines in GNU.

   Similarly, don't make any effort to cater to the possibility that
'long' will be smaller than predefined types like 'size_t'.  For
example, the following code is ok:

     printf ("size = %lu\n", (unsigned long) sizeof array);
     printf ("diff = %ld\n", (long) (pointer2 - pointer1));

   1989 Standard C requires this to work, and we know of only one
counterexample: 64-bit programs on Microsoft Windows IA-64.  We will
leave it to those who want to port GNU programs to that environment to
figure out how to do it.

   Predefined file-size types like 'off_t' are an exception: they are
longer than 'long' on many platforms, so code like the above won't work
with them.  One way to print an 'off_t' value portably is to print its
digits yourself, one by one.

   Don't assume that the address of an 'int' object is also the address
of its least-significant byte.  This is false on big-endian machines.
Thus, don't make the following mistake:

     int c;
     ...
     while ((c = getchar()) != EOF)
       write(file_descriptor, &c, 1);

   When calling functions, you need not worry about the difference
between pointers of various types, or between pointers and integers.  On
most machines, there's no difference anyway.  As for the few machines
where there is a difference, all of them support Standard C prototypes,
so you can use prototypes (perhaps conditionalized to be active only in
Standard C) to make the code work on those systems.

   In certain cases, it is ok to pass integer and pointer arguments
indiscriminately to the same function, and use no prototype on any
system.  For example, many GNU programs have error-reporting functions
that pass their arguments along to 'printf' and friends:

     error (s, a1, a2, a3)
          char *s;
          char *a1, *a2, *a3;
     {
       fprintf (stderr, "error: ");
       fprintf (stderr, s, a1, a2, a3);
     }

In practice, this works on all machines, since a pointer is generally
the widest possible kind of argument; it is much simpler than any
"correct" alternative.  Be sure _not_ to use a prototype for such
functions.

   If you have decided to use Standard C, then you can instead define
'error' using 'stdarg.h', and pass the arguments along to 'vfprintf'.

   Avoid casting pointers to integers if you can.  Such casts greatly
reduce portability, and in most programs they are easy to avoid.  In the
cases where casting pointers to integers is essential--such as, a Lisp
interpreter which stores type information as well as an address in one
word--you'll have to make explicit provisions to handle different word
sizes.  You will also need to make provision for systems in which the
normal range of addresses you can get from 'malloc' starts far away from
zero.


File: standards.info,  Node: System Functions,  Next: Internationalization,  Prev: CPU Portability,  Up: Writing C

5.7 Calling System Functions
============================

C implementations differ substantially.  Standard C reduces but does not
eliminate the incompatibilities; meanwhile, many GNU packages still
support pre-standard compilers because this is not hard to do.  This
chapter gives recommendations for how to use the more-or-less standard C
library functions to avoid unnecessary loss of portability.

   * Don't use the return value of 'sprintf'.  It returns the number of
     characters written on some systems, but not on all systems.

   * Be aware that 'vfprintf' is not always available.

   * 'main' should be declared to return type 'int'.  It should
     terminate either by calling 'exit' or by returning the integer
     status code; make sure it cannot ever return an undefined value.

   * Don't declare system functions explicitly.

     Almost any declaration for a system function is wrong on some
     system.  To minimize conflicts, leave it to the system header files
     to declare system functions.  If the headers don't declare a
     function, let it remain undeclared.

     While it may seem unclean to use a function without declaring it,
     in practice this works fine for most system library functions on
     the systems where this really happens; thus, the disadvantage is
     only theoretical.  By contrast, actual declarations have frequently
     caused actual conflicts.

   * If you must declare a system function, don't specify the argument
     types.  Use an old-style declaration, not a Standard C prototype.
     The more you specify about the function, the more likely a
     conflict.

   * In particular, don't unconditionally declare 'malloc' or 'realloc'.

     Most GNU programs use those functions just once, in functions
     conventionally named 'xmalloc' and 'xrealloc'.  These functions
     call 'malloc' and 'realloc', respectively, and check the results.

     Because 'xmalloc' and 'xrealloc' are defined in your program, you
     can declare them in other files without any risk of type conflict.

     On most systems, 'int' is the same length as a pointer; thus, the
     calls to 'malloc' and 'realloc' work fine.  For the few exceptional
     systems (mostly 64-bit machines), you can use *conditionalized*
     declarations of 'malloc' and 'realloc'--or put these declarations
     in configuration files specific to those systems.

   * The string functions require special treatment.  Some Unix systems
     have a header file 'string.h'; others have 'strings.h'.  Neither
     file name is portable.  There are two things you can do: use
     Autoconf to figure out which file to include, or don't include
     either file.

   * If you don't include either strings file, you can't get
     declarations for the string functions from the header file in the
     usual way.

     That causes less of a problem than you might think.  The newer
     standard string functions should be avoided anyway because many
     systems still don't support them.  The string functions you can use
     are these:

          strcpy   strncpy   strcat   strncat
          strlen   strcmp    strncmp
          strchr   strrchr

     The copy and concatenate functions work fine without a declaration
     as long as you don't use their values.  Using their values without
     a declaration fails on systems where the width of a pointer differs
     from the width of 'int', and perhaps in other cases.  It is trivial
     to avoid using their values, so do that.

     The compare functions and 'strlen' work fine without a declaration
     on most systems, possibly all the ones that GNU software runs on.
     You may find it necessary to declare them *conditionally* on a few
     systems.

     The search functions must be declared to return 'char *'.  Luckily,
     there is no variation in the data type they return.  But there is
     variation in their names.  Some systems give these functions the
     names 'index' and 'rindex'; other systems use the names 'strchr'
     and 'strrchr'.  Some systems support both pairs of names, but
     neither pair works on all systems.

     You should pick a single pair of names and use it throughout your
     program.  (Nowadays, it is better to choose 'strchr' and 'strrchr'
     for new programs, since those are the standard names.)  Declare
     both of those names as functions returning 'char *'.  On systems
     which don't support those names, define them as macros in terms of
     the other pair.  For example, here is what to put at the beginning
     of your file (or in a header) if you want to use the names 'strchr'
     and 'strrchr' throughout:

          #ifndef HAVE_STRCHR
          #define strchr index
          #endif
          #ifndef HAVE_STRRCHR
          #define strrchr rindex
          #endif

          char *strchr ();
          char *strrchr ();

   Here we assume that 'HAVE_STRCHR' and 'HAVE_STRRCHR' are macros
defined in systems where the corresponding functions exist.  One way to
get them properly defined is to use Autoconf.


File: standards.info,  Node: Internationalization,  Next: Mmap,  Prev: System Functions,  Up: Writing C

5.8 Internationalization
========================

GNU has a library called GNU gettext that makes it easy to translate the
messages in a program into various languages.  You should use this
library in every program.  Use English for the messages as they appear
in the program, and let gettext provide the way to translate them into
other languages.

   Using GNU gettext involves putting a call to the 'gettext' macro
around each string that might need translation--like this:

     printf (gettext ("Processing file `%s'..."));

This permits GNU gettext to replace the string '"Processing file
`%s'..."' with a translated version.

   Once a program uses gettext, please make a point of writing calls to
'gettext' when you add new strings that call for translation.

   Using GNU gettext in a package involves specifying a "text domain
name" for the package.  The text domain name is used to separate the
translations for this package from the translations for other packages.
Normally, the text domain name should be the same as the name of the
package--for example, 'fileutils' for the GNU file utilities.

   To enable gettext to work well, avoid writing code that makes
assumptions about the structure of words or sentences.  When you want
the precise text of a sentence to vary depending on the data, use two or
more alternative string constants each containing a complete sentences,
rather than inserting conditionalized words or phrases into a single
sentence framework.

   Here is an example of what not to do:

     printf ("%d file%s processed", nfiles,
             nfiles != 1 ? "s" : "");

The problem with that example is that it assumes that plurals are made
by adding 's'.  If you apply gettext to the format string, like this,

     printf (gettext ("%d file%s processed"), nfiles,
             nfiles != 1 ? "s" : "");

the message can use different words, but it will still be forced to use
's' for the plural.  Here is a better way:

     printf ((nfiles != 1 ? "%d files processed"
              : "%d file processed"),
             nfiles);

This way, you can apply gettext to each of the two strings
independently:

     printf ((nfiles != 1 ? gettext ("%d files processed")
              : gettext ("%d file processed")),
             nfiles);

This can be any method of forming the plural of the word for "file", and
also handles languages that require agreement in the word for
"processed".

   A similar problem appears at the level of sentence structure with
this code:

     printf ("#  Implicit rule search has%s been done.\n",
             f->tried_implicit ? "" : " not");

Adding 'gettext' calls to this code cannot give correct results for all
languages, because negation in some languages requires adding words at
more than one place in the sentence.  By contrast, adding 'gettext'
calls does the job straightfowardly if the code starts out like this:

     printf (f->tried_implicit
             ? "#  Implicit rule search has been done.\n",
             : "#  Implicit rule search has not been done.\n");


File: standards.info,  Node: Mmap,  Prev: Internationalization,  Up: Writing C

5.9 Mmap
========

Don't assume that 'mmap' either works on all files or fails for all
files.  It may work on some files and fail on others.

   The proper way to use 'mmap' is to try it on the specific file for
which you want to use it--and if 'mmap' doesn't work, fall back on doing
the job in another way using 'read' and 'write'.

   The reason this precaution is needed is that the GNU kernel (the
HURD) provides a user-extensible file system, in which there can be many
different kinds of "ordinary files."  Many of them support 'mmap', but
some do not.  It is important to make programs handle all these kinds of
files.


File: standards.info,  Node: Documentation,  Next: Managing Releases,  Prev: Writing C,  Up: Top

6 Documenting Programs
**********************

A GNU program should ideally come with full free documentation, adequate
for both reference and tutorial purposes.  If the package can be
programmed or extended, the documentation should cover programming or
extending it, as well as just using it.

* Menu:

* GNU Manuals::                 Writing proper manuals.
* Doc Strings and Manuals::     Compiling doc strings doesn't make a manual.
* Manual Structure Details::    Specific structure conventions.
* License for Manuals::         Writing the distribution terms for a manual.
* Manual Credits::              Giving credit to documentation contributors.
* Printed Manuals::             Mentioning the printed manual.
* NEWS File::                   NEWS files supplement manuals.
* Change Logs::                 Recording Changes
* Man Pages::                   Man pages are secondary.
* Reading other Manuals::       How far you can go in learning
                                from other manuals.


File: standards.info,  Node: GNU Manuals,  Next: Doc Strings and Manuals,  Up: Documentation

6.1 GNU Manuals
===============

The preferred document format for the GNU system is the Texinfo
formatting language.  Every GNU package should (ideally) have
documentation in Texinfo both for reference and for learners.  Texinfo
makes it possible to produce a good quality formatted book, using TeX,
and to generate an Info file.  It is also possible to generate HTML
output from Texinfo source.  See the Texinfo manual, either the
hardcopy, or the on-line version available through 'info' or the Emacs
Info subsystem ('C-h i').

   Nowadays some other formats such as Docbook and Sgmltexi can be
converted automatically into Texinfo.  It is ok to produce the Texinfo
documentation by conversion this way, as long as it gives good results.

   Programmers often find it most natural to structure the documentation
following the structure of the implementation, which they know.  But
this structure is not necessarily good for explaining how to use the
program; it may be irrelevant and confusing for a user.

   At every level, from the sentences in a paragraph to the grouping of
topics into separate manuals, the right way to structure documentation
is according to the concepts and questions that a user will have in mind
when reading it.  Sometimes this structure of ideas matches the
structure of the implementation of the software being documented--but
often they are different.  Often the most important part of learning to
write good documentation is learning to notice when you are structuring
the documentation like the implementation, and think about better
alternatives.

   For example, each program in the GNU system probably ought to be
documented in one manual; but this does not mean each program should
have its own manual.  That would be following the structure of the
implementation, rather than the structure that helps the user
understand.

   Instead, each manual should cover a coherent _topic_.  For example,
instead of a manual for 'diff' and a manual for 'diff3', we have one
manual for "comparison of files" which covers both of those programs, as
well as 'cmp'.  By documenting these programs together, we can make the
whole subject clearer.

   The manual which discusses a program should certainly document all of
the program's command-line options and all of its commands.  It should
give examples of their use.  But don't organize the manual as a list of
features.  Instead, organize it logically, by subtopics.  Address the
questions that a user will ask when thinking about the job that the
program does.

   In general, a GNU manual should serve both as tutorial and reference.
It should be set up for convenient access to each topic through Info,
and for reading straight through (appendixes aside).  A GNU manual
should give a good introduction to a beginner reading through from the
start, and should also provide all the details that hackers want.  The
Bison manual is a good example of this--please take a look at it to see
what we mean.

   That is not as hard as it first sounds.  Arrange each chapter as a
logical breakdown of its topic, but order the sections, and write their
text, so that reading the chapter straight through makes sense.  Do
likewise when structuring the book into chapters, and when structuring a
section into paragraphs.  The watchword is, _at each point, address the
most fundamental and important issue raised by the preceding text._

   If necessary, add extra chapters at the beginning of the manual which
are purely tutorial and cover the basics of the subject.  These provide
the framework for a beginner to understand the rest of the manual.  The
Bison manual provides a good example of how to do this.

   To serve as a reference, a manual should have an Index that list all
the functions, variables, options, and important concepts that are part
of the program.  One combined Index should do for a short manual, but
sometimes for a complex package it is better to use multiple indices.
The Texinfo manual includes advice on preparing good index entries, see
*note Making Index Entries: (texinfo)Index Entries, and see *note
Defining the Entries of an Index: (texinfo)Indexing Commands.

   Don't use Unix man pages as a model for how to write GNU
documentation; most of them are terse, badly structured, and give
inadequate explanation of the underlying concepts.  (There are, of
course, some exceptions.)  Also, Unix man pages use a particular format
which is different from what we use in GNU manuals.

   Please include an email address in the manual for where to report
bugs _in the manual_.

   Please do not use the term "pathname" that is used in Unix
documentation; use "file name" (two words) instead.  We use the term
"path" only for search paths, which are lists of directory names.

   Please do not use the term "illegal" to refer to erroneous input to a
computer program.  Please use "invalid" for this, and reserve the term
"illegal" for activities punishable by law.


File: standards.info,  Node: Doc Strings and Manuals,  Next: Manual Structure Details,  Prev: GNU Manuals,  Up: Documentation

6.2 Doc Strings and Manuals
===========================

Some programming systems, such as Emacs, provide a documentation string
for each function, command or variable.  You may be tempted to write a
reference manual by compiling the documentation strings and writing a
little additional text to go around them--but you must not do it.  That
approach is a fundamental mistake.  The text of well-written
documentation strings will be entirely wrong for a manual.

   A documentation string needs to stand alone--when it appears on the
screen, there will be no other text to introduce or explain it.
Meanwhile, it can be rather informal in style.

   The text describing a function or variable in a manual must not stand
alone; it appears in the context of a section or subsection.  Other text
at the beginning of the section should explain some of the concepts, and
should often make some general points that apply to several functions or
variables.  The previous descriptions of functions and variables in the
section will also have given information about the topic.  A description
written to stand alone would repeat some of that information; this
redundance looks bad.  Meanwhile, the informality that is acceptable in
a documentation string is totally unacceptable in a manual.

   The only good way to use documentation strings in writing a good
manual is to use them as a source of information for writing good text.


File: standards.info,  Node: Manual Structure Details,  Next: License for Manuals,  Prev: Doc Strings and Manuals,  Up: Documentation

6.3 Manual Structure Details
============================

The title page of the manual should state the version of the programs or
packages documented in the manual.  The Top node of the manual should
also contain this information.  If the manual is changing more
frequently than or independent of the program, also state a version
number for the manual in both of these places.

   Each program documented in the manual should have a node named
'PROGRAM Invocation' or 'Invoking PROGRAM'.  This node (together with
its subnodes, if any) should describe the program's command line
arguments and how to run it (the sort of information people would look
in a man page for).  Start with an '@example' containing a template for
all the options and arguments that the program uses.

   Alternatively, put a menu item in some menu whose item name fits one
of the above patterns.  This identifies the node which that item points
to as the node for this purpose, regardless of the node's actual name.

   The '--usage' feature of the Info reader looks for such a node or
menu item in order to find the relevant text, so it is essential for
every Texinfo file to have one.

   If one manual describes several programs, it should have such a node
for each program described in the manual.


File: standards.info,  Node: License for Manuals,  Next: Manual Credits,  Prev: Manual Structure Details,  Up: Documentation

6.4 License for Manuals
=======================

Please use the GNU Free Documentation License for all GNU manuals that
are more than a few pages long.  Likewise for a collection of short
documents--you only need one copy of the GNU FDL for the whole
collection.  For a single short document, you can use a very permissive
non-copyleft license, to avoid taking up space with a long license.

   See <http://www.gnu.org/copyleft/fdl-howto.html> for more explanation
of how to employ the GFDL.

   Note that it is not obligatory to include a copy of the GNU GPL or
GNU LGPL in a manual whose license is neither the GPL nor the LGPL. It
can be a good idea to include the program's license in a large manual;
in a short manual, whose size would be increased considerably by
including the program's license, it is probably better not to include
it.


File: standards.info,  Node: Manual Credits,  Next: Printed Manuals,  Prev: License for Manuals,  Up: Documentation

6.5 Manual Credits
==================

Please credit the principal human writers of the manual as the authors,
on the title page of the manual.  If a company sponsored the work, thank
the company in a suitable place in the manual, but do not cite the
company as an author.


File: standards.info,  Node: Printed Manuals,  Next: NEWS File,  Prev: Manual Credits,  Up: Documentation

6.6 Printed Manuals
===================

The FSF publishes some GNU manuals in printed form.  To encourage sales
of these manuals, the on-line versions of the manual should mention at
the very start that the printed manual is available and should point at
information for getting it--for instance, with a link to the page
<http://www.gnu.org/order/order.html>.  This should not be included in
the printed manual, though, because there it is redundant.

   It is also useful to explain in the on-line forms of the manual how
the user can print out the manual from the sources.


File: standards.info,  Node: NEWS File,  Next: Change Logs,  Prev: Printed Manuals,  Up: Documentation

6.7 The NEWS File
=================

In addition to its manual, the package should have a file named 'NEWS'
which contains a list of user-visible changes worth mentioning.  In each
new release, add items to the front of the file and identify the version
they pertain to.  Don't discard old items; leave them in the file after
the newer items.  This way, a user upgrading from any previous version
can see what is new.

   If the 'NEWS' file gets very long, move some of the older items into
a file named 'ONEWS' and put a note at the end referring the user to
that file.


File: standards.info,  Node: Change Logs,  Next: Man Pages,  Prev: NEWS File,  Up: Documentation

6.8 Change Logs
===============

Keep a change log to describe all the changes made to program source
files.  The purpose of this is so that people investigating bugs in the
future will know about the changes that might have introduced the bug.
Often a new bug can be found by looking at what was recently changed.
More importantly, change logs can help you eliminate conceptual
inconsistencies between different parts of a program, by giving you a
history of how the conflicting concepts arose and who they came from.

* Menu:

* Change Log Concepts::         
* Style of Change Logs::        
* Simple Changes::              
* Conditional Changes::         
* Indicating the Part Changed::


File: standards.info,  Node: Change Log Concepts,  Next: Style of Change Logs,  Up: Change Logs

6.8.1 Change Log Concepts
-------------------------

You can think of the change log as a conceptual "undo list" which
explains how earlier versions were different from the current version.
People can see the current version; they don't need the change log to
tell them what is in it.  What they want from a change log is a clear
explanation of how the earlier version differed.

   The change log file is normally called 'ChangeLog' and covers an
entire directory.  Each directory can have its own change log, or a
directory can use the change log of its parent directory-it's up to you.

   Another alternative is to record change log information with a
version control system such as RCS or CVS. This can be converted
automatically to a 'ChangeLog' file using 'rcs2log'; in Emacs, the
command 'C-x v a' ('vc-update-change-log') does the job.

   There's no need to describe the full purpose of the changes or how
they work together.  If you think that a change calls for explanation,
you're probably right.  Please do explain it--but please put the
explanation in comments in the code, where people will see it whenever
they see the code.  For example, "New function" is enough for the change
log when you add a function, because there should be a comment before
the function definition to explain what it does.

   However, sometimes it is useful to write one line to describe the
overall purpose of a batch of changes.

   The easiest way to add an entry to 'ChangeLog' is with the Emacs
command 'M-x add-change-log-entry'.  An entry should have an asterisk,
the name of the changed file, and then in parentheses the name of the
changed functions, variables or whatever, followed by a colon.  Then
describe the changes you made to that function or variable.


File: standards.info,  Node: Style of Change Logs,  Next: Simple Changes,  Prev: Change Log Concepts,  Up: Change Logs

6.8.2 Style of Change Logs
--------------------------

Here are some simple examples of change log entries, starting with the
header line that says who made the change and when, followed by
descriptions of specific changes.  (These examples are drawn from Emacs
and GCC.)

     1998-08-17  Richard Stallman  <rms@gnu.org>

     * register.el (insert-register): Return nil.
     (jump-to-register): Likewise.

     * sort.el (sort-subr): Return nil.

     * tex-mode.el (tex-bibtex-file, tex-file, tex-region):
     Restart the tex shell if process is gone or stopped.
     (tex-shell-running): New function.

     * expr.c (store_one_arg): Round size up for move_block_to_reg.
     (expand_call): Round up when emitting USE insns.
     * stmt.c (assign_parms): Round size up for move_block_from_reg.

   It's important to name the changed function or variable in full.
Don't abbreviate function or variable names, and don't combine them.
Subsequent maintainers will often search for a function name to find all
the change log entries that pertain to it; if you abbreviate the name,
they won't find it when they search.

   For example, some people are tempted to abbreviate groups of function
names by writing '* register.el ({insert,jump-to}-register)'; this is
not a good idea, since searching for 'jump-to-register' or
'insert-register' would not find that entry.

   Separate unrelated change log entries with blank lines.  When two
entries represent parts of the same change, so that they work together,
then don't put blank lines between them.  Then you can omit the file
name and the asterisk when successive entries are in the same file.

   Break long lists of function names by closing continued lines with
')', rather than ',', and opening the continuation with '(' as in this
example:

     * keyboard.c (menu_bar_items, tool_bar_items)
     (Fexecute_extended_command): Deal with `keymap' property.


File: standards.info,  Node: Simple Changes,  Next: Conditional Changes,  Prev: Style of Change Logs,  Up: Change Logs

6.8.3 Simple Changes
--------------------

Certain simple kinds of changes don't need much detail in the change
log.

   When you change the calling sequence of a function in a simple
fashion, and you change all the callers of the function to use the new
calling sequence, there is no need to make individual entries for all
the callers that you changed.  Just write in the entry for the function
being called, "All callers changed"--like this:

     * keyboard.c (Fcommand_execute): New arg SPECIAL.
     All callers changed.

   When you change just comments or doc strings, it is enough to write
an entry for the file, without mentioning the functions.  Just "Doc
fixes" is enough for the change log.

   There's no need to make change log entries for documentation files.
This is because documentation is not susceptible to bugs that are hard
to fix.  Documentation does not consist of parts that must interact in a
precisely engineered fashion.  To correct an error, you need not know
the history of the erroneous passage; it is enough to compare what the
documentation says with the way the program actually works.


File: standards.info,  Node: Conditional Changes,  Next: Indicating the Part Changed,  Prev: Simple Changes,  Up: Change Logs

6.8.4 Conditional Changes
-------------------------

C programs often contain compile-time '#if' conditionals.  Many changes
are conditional; sometimes you add a new definition which is entirely
contained in a conditional.  It is very useful to indicate in the change
log the conditions for which the change applies.

   Our convention for indicating conditional changes is to use square
brackets around the name of the condition.

   Here is a simple example, describing a change which is conditional
but does not have a function or entity name associated with it:

     * xterm.c [SOLARIS2]: Include string.h.

   Here is an entry describing a new definition which is entirely
conditional.  This new definition for the macro 'FRAME_WINDOW_P' is used
only when 'HAVE_X_WINDOWS' is defined:

     * frame.h [HAVE_X_WINDOWS] (FRAME_WINDOW_P): Macro defined.

   Here is an entry for a change within the function 'init_display',
whose definition as a whole is unconditional, but the changes themselves
are contained in a '#ifdef HAVE_LIBNCURSES' conditional:

     * dispnew.c (init_display) [HAVE_LIBNCURSES]: If X, call tgetent.

   Here is an entry for a change that takes affect only when a certain
macro is _not_ defined:

     (gethostname) [!HAVE_SOCKETS]: Replace with winsock version.


File: standards.info,  Node: Indicating the Part Changed,  Prev: Conditional Changes,  Up: Change Logs

6.8.5 Indicating the Part Changed
---------------------------------

Indicate the part of a function which changed by using angle brackets
enclosing an indication of what the changed part does.  Here is an entry
for a change in the part of the function 'sh-while-getopts' that deals
with 'sh' commands:

     * progmodes/sh-script.el (sh-while-getopts) <sh>: Handle case that
     user-specified option string is empty.


File: standards.info,  Node: Man Pages,  Next: Reading other Manuals,  Prev: Change Logs,  Up: Documentation

6.9 Man Pages
=============

In the GNU project, man pages are secondary.  It is not necessary or
expected for every GNU program to have a man page, but some of them do.
It's your choice whether to include a man page in your program.

   When you make this decision, consider that supporting a man page
requires continual effort each time the program is changed.  The time
you spend on the man page is time taken away from more useful work.

   For a simple program which changes little, updating the man page may
be a small job.  Then there is little reason not to include a man page,
if you have one.

   For a large program that changes a great deal, updating a man page
may be a substantial burden.  If a user offers to donate a man page, you
may find this gift costly to accept.  It may be better to refuse the man
page unless the same person agrees to take full responsibility for
maintaining it--so that you can wash your hands of it entirely.  If this
volunteer later ceases to do the job, then don't feel obliged to pick it
up yourself; it may be better to withdraw the man page from the
distribution until someone else agrees to update it.

   When a program changes only a little, you may feel that the
discrepancies are small enough that the man page remains useful without
updating.  If so, put a prominent note near the beginning of the man
page explaining that you don't maintain it and that the Texinfo manual
is more authoritative.  The note should say how to access the Texinfo
documentation.


File: standards.info,  Node: Reading other Manuals,  Prev: Man Pages,  Up: Documentation

6.10 Reading other Manuals
==========================

There may be non-free books or documentation files that describe the
program you are documenting.

   It is ok to use these documents for reference, just as the author of
a new algebra textbook can read other books on algebra.  A large portion
of any non-fiction book consists of facts, in this case facts about how
a certain program works, and these facts are necessarily the same for
everyone who writes about the subject.  But be careful not to copy your
outline structure, wording, tables or examples from preexisting non-free
documentation.  Copying from free documentation may be ok; please check
with the FSF about the individual case.


File: standards.info,  Node: Managing Releases,  Next: References,  Prev: Documentation,  Up: Top

7 The Release Process
*********************

Making a release is more than just bundling up your source files in a
tar file and putting it up for FTP. You should set up your software so
that it can be configured to run on a variety of systems.  Your Makefile
should conform to the GNU standards described below, and your directory
layout should also conform to the standards discussed below.  Doing so
makes it easy to include your package into the larger framework of all
GNU software.

* Menu:

* Configuration::               How Configuration Should Work
* Makefile Conventions::	Makefile Conventions
* Releases::                    Making Releases


File: standards.info,  Node: Configuration,  Next: Makefile Conventions,  Up: Managing Releases

7.1 How Configuration Should Work
=================================

Each GNU distribution should come with a shell script named 'configure'.
This script is given arguments which describe the kind of machine and
system you want to compile the program for.

   The 'configure' script must record the configuration options so that
they affect compilation.

   One way to do this is to make a link from a standard name such as
'config.h' to the proper configuration file for the chosen system.  If
you use this technique, the distribution should _not_ contain a file
named 'config.h'.  This is so that people won't be able to build the
program without configuring it first.

   Another thing that 'configure' can do is to edit the Makefile.  If
you do this, the distribution should _not_ contain a file named
'Makefile'.  Instead, it should include a file 'Makefile.in' which
contains the input used for editing.  Once again, this is so that people
won't be able to build the program without configuring it first.

   If 'configure' does write the 'Makefile', then 'Makefile' should have
a target named 'Makefile' which causes 'configure' to be rerun, setting
up the same configuration that was set up last time.  The files that
'configure' reads should be listed as dependencies of 'Makefile'.

   All the files which are output from the 'configure' script should
have comments at the beginning explaining that they were generated
automatically using 'configure'.  This is so that users won't think of
trying to edit them by hand.

   The 'configure' script should write a file named 'config.status'
which describes which configuration options were specified when the
program was last configured.  This file should be a shell script which,
if run, will recreate the same configuration.

   The 'configure' script should accept an option of the form
'--srcdir=DIRNAME' to specify the directory where sources are found (if
it is not the current directory).  This makes it possible to build the
program in a separate directory, so that the actual source directory is
not modified.

   If the user does not specify '--srcdir', then 'configure' should
check both '.' and '..' to see if it can find the sources.  If it finds
the sources in one of these places, it should use them from there.
Otherwise, it should report that it cannot find the sources, and should
exit with nonzero status.

   Usually the easy way to support '--srcdir' is by editing a definition
of 'VPATH' into the Makefile.  Some rules may need to refer explicitly
to the specified source directory.  To make this possible, 'configure'
can add to the Makefile a variable named 'srcdir' whose value is
precisely the specified directory.

   The 'configure' script should also take an argument which specifies
the type of system to build the program for.  This argument should look
like this:

     CPU-COMPANY-SYSTEM

   For example, a Sun 3 might be 'm68k-sun-sunos4.1'.

   The 'configure' script needs to be able to decode all plausible
alternatives for how to describe a machine.  Thus, 'sun3-sunos4.1' would
be a valid alias.  For many programs, 'vax-dec-ultrix' would be an alias
for 'vax-dec-bsd', simply because the differences between Ultrix and BSD
are rarely noticeable, but a few programs might need to distinguish
them.

   There is a shell script called 'config.sub' that you can use as a
subroutine to validate system types and canonicalize aliases.

   Other options are permitted to specify in more detail the software or
hardware present on the machine, and include or exclude optional parts
of the package:

'--enable-FEATURE[=PARAMETER]'
     Configure the package to build and install an optional user-level
     facility called FEATURE.  This allows users to choose which
     optional features to include.  Giving an optional PARAMETER of 'no'
     should omit FEATURE, if it is built by default.

     No '--enable' option should *ever* cause one feature to replace
     another.  No '--enable' option should ever substitute one useful
     behavior for another useful behavior.  The only proper use for
     '--enable' is for questions of whether to build part of the program
     or exclude it.

'--with-PACKAGE'
     The package PACKAGE will be installed, so configure this package to
     work with PACKAGE.

     Possible values of PACKAGE include 'gnu-as' (or 'gas'), 'gnu-ld',
     'gnu-libc', 'gdb', 'x', and 'x-toolkit'.

     Do not use a '--with' option to specify the file name to use to
     find certain files.  That is outside the scope of what '--with'
     options are for.

   All 'configure' scripts should accept all of these "detail" options,
whether or not they make any difference to the particular package at
hand.  In particular, they should accept any option that starts with
'--with-' or '--enable-'.  This is so users will be able to configure an
entire GNU source tree at once with a single set of options.

   You will note that the categories '--with-' and '--enable-' are
narrow: they *do not* provide a place for any sort of option you might
think of.  That is deliberate.  We want to limit the possible
configuration options in GNU software.  We do not want GNU programs to
have idiosyncratic configuration options.

   Packages that perform part of the compilation process may support
cross-compilation.  In such a case, the host and target machines for the
program may be different.

   The 'configure' script should normally treat the specified type of
system as both the host and the target, thus producing a program which
works for the same type of machine that it runs on.

   To configure a cross-compiler, cross-assembler, or what have you, you
should specify a target different from the host, using the configure
option '--target=TARGETTYPE'.  The syntax for TARGETTYPE is the same as
for the host type.  So the command would look like this:

     ./configure HOSTTYPE --target=TARGETTYPE

   Programs for which cross-operation is not meaningful need not accept
the '--target' option, because configuring an entire operating system
for cross-operation is not a meaningful operation.

   Bootstrapping a cross-compiler requires compiling it on a machine
other than the host it will run on.  Compilation packages accept a
configuration option '--build=BUILDTYPE' for specifying the
configuration on which you will compile them, but the configure script
should normally guess the build machine type (using 'config.guess'), so
this option is probably not necessary.  The host and target types
normally default from the build type, so in bootstrapping a
cross-compiler you must specify them both explicitly.

   Some programs have ways of configuring themselves automatically.  If
your program is set up to do this, your 'configure' script can simply
ignore most of its arguments.


File: standards.info,  Node: Makefile Conventions,  Next: Releases,  Prev: Configuration,  Up: Managing Releases

7.2 Makefile Conventions
========================

This node describes conventions for writing the Makefiles for GNU
programs.  Using Automake will help you write a Makefile that follows
these conventions.

* Menu:

* Makefile Basics::		General Conventions for Makefiles
* Utilities in Makefiles::	Utilities in Makefiles
* Command Variables::		Variables for Specifying Commands
* Directory Variables::		Variables for Installation Directories
* Standard Targets::		Standard Targets for Users
* Install Command Categories::  Three categories of commands in the 'install'
                                  rule: normal, pre-install and post-install.


File: standards.info,  Node: Makefile Basics,  Next: Utilities in Makefiles,  Up: Makefile Conventions

7.2.1 General Conventions for Makefiles
---------------------------------------

Every Makefile should contain this line:

     SHELL = /bin/sh

to avoid trouble on systems where the 'SHELL' variable might be
inherited from the environment.  (This is never a problem with GNU
'make'.)

   Different 'make' programs have incompatible suffix lists and implicit
rules, and this sometimes creates confusion or misbehavior.  So it is a
good idea to set the suffix list explicitly using only the suffixes you
need in the particular Makefile, like this:

     .SUFFIXES:
     .SUFFIXES: .c .o

The first line clears out the suffix list, the second introduces all
suffixes which may be subject to implicit rules in this Makefile.

   Don't assume that '.' is in the path for command execution.  When you
need to run programs that are a part of your package during the make,
please make sure that it uses './' if the program is built as part of
the make or '$(srcdir)/' if the file is an unchanging part of the source
code.  Without one of these prefixes, the current search path is used.

   The distinction between './' (the "build directory") and '$(srcdir)/'
(the "source directory") is important because users can build in a
separate directory using the '--srcdir' option to 'configure'.  A rule
of the form:

     foo.1 : foo.man sedscript
             sed -e sedscript foo.man > foo.1

will fail when the build directory is not the source directory, because
'foo.man' and 'sedscript' are in the source directory.

   When using GNU 'make', relying on 'VPATH' to find the source file
will work in the case where there is a single dependency file, since the
'make' automatic variable '$<' will represent the source file wherever
it is.  (Many versions of 'make' set '$<' only in implicit rules.)  A
Makefile target like

     foo.o : bar.c
             $(CC) -I. -I$(srcdir) $(CFLAGS) -c bar.c -o foo.o

should instead be written as

     foo.o : bar.c
             $(CC) -I. -I$(srcdir) $(CFLAGS) -c $< -o $@

in order to allow 'VPATH' to work correctly.  When the target has
multiple dependencies, using an explicit '$(srcdir)' is the easiest way
to make the rule work well.  For example, the target above for 'foo.1'
is best written as:

     foo.1 : foo.man sedscript
             sed -e $(srcdir)/sedscript $(srcdir)/foo.man > $@

   GNU distributions usually contain some files which are not source
files--for example, Info files, and the output from Autoconf, Automake,
Bison or Flex.  Since these files normally appear in the source
directory, they should always appear in the source directory, not in the
build directory.  So Makefile rules to update them should put the
updated files in the source directory.

   However, if a file does not appear in the distribution, then the
Makefile should not put it in the source directory, because building a
program in ordinary circumstances should not modify the source directory
in any way.

   Try to make the build and installation targets, at least (and all
their subtargets) work correctly with a parallel 'make'.


File: standards.info,  Node: Utilities in Makefiles,  Next: Command Variables,  Prev: Makefile Basics,  Up: Makefile Conventions

7.2.2 Utilities in Makefiles
----------------------------

Write the Makefile commands (and any shell scripts, such as 'configure')
to run in 'sh', not in 'csh'.  Don't use any special features of 'ksh'
or 'bash'.

   The 'configure' script and the Makefile rules for building and
installation should not use any utilities directly except these:

     cat cmp cp diff echo egrep expr false grep install-info
     ln ls mkdir mv pwd rm rmdir sed sleep sort tar test touch true

   The compression program 'gzip' can be used in the 'dist' rule.

   Stick to the generally supported options for these programs.  For
example, don't use 'mkdir -p', convenient as it may be, because most
systems don't support it.

   It is a good idea to avoid creating symbolic links in makefiles,
since a few systems don't support them.

   The Makefile rules for building and installation can also use
compilers and related programs, but should do so via 'make' variables so
that the user can substitute alternatives.  Here are some of the
programs we mean:

     ar bison cc flex install ld ldconfig lex
     make makeinfo ranlib texi2dvi yacc

   Use the following 'make' variables to run those programs:

     $(AR) $(BISON) $(CC) $(FLEX) $(INSTALL) $(LD) $(LDCONFIG) $(LEX)
     $(MAKE) $(MAKEINFO) $(RANLIB) $(TEXI2DVI) $(YACC)

   When you use 'ranlib' or 'ldconfig', you should make sure nothing bad
happens if the system does not have the program in question.  Arrange to
ignore an error from that command, and print a message before the
command to tell the user that failure of this command does not mean a
problem.  (The Autoconf 'AC_PROG_RANLIB' macro can help with this.)

   If you use symbolic links, you should implement a fallback for
systems that don't have symbolic links.

   Additional utilities that can be used via Make variables are:

     chgrp chmod chown mknod

   It is ok to use other utilities in Makefile portions (or scripts)
intended only for particular systems where you know those utilities
exist.


File: standards.info,  Node: Command Variables,  Next: Directory Variables,  Prev: Utilities in Makefiles,  Up: Makefile Conventions

7.2.3 Variables for Specifying Commands
---------------------------------------

Makefiles should provide variables for overriding certain commands,
options, and so on.

   In particular, you should run most utility programs via variables.
Thus, if you use Bison, have a variable named 'BISON' whose default
value is set with 'BISON = bison', and refer to it with '$(BISON)'
whenever you need to use Bison.

   File management utilities such as 'ln', 'rm', 'mv', and so on, need
not be referred to through variables in this way, since users don't need
to replace them with other programs.

   Each program-name variable should come with an options variable that
is used to supply options to the program.  Append 'FLAGS' to the
program-name variable name to get the options variable name--for
example, 'BISONFLAGS'.  (The names 'CFLAGS' for the C compiler, 'YFLAGS'
for yacc, and 'LFLAGS' for lex, are exceptions to this rule, but we keep
them because they are standard.)  Use 'CPPFLAGS' in any compilation
command that runs the preprocessor, and use 'LDFLAGS' in any compilation
command that does linking as well as in any direct use of 'ld'.

   If there are C compiler options that _must_ be used for proper
compilation of certain files, do not include them in 'CFLAGS'.  Users
expect to be able to specify 'CFLAGS' freely themselves.  Instead,
arrange to pass the necessary options to the C compiler independently of
'CFLAGS', by writing them explicitly in the compilation commands or by
defining an implicit rule, like this:

     CFLAGS = -g
     ALL_CFLAGS = -I. $(CFLAGS)
     .c.o:
             $(CC) -c $(CPPFLAGS) $(ALL_CFLAGS) $<

   Do include the '-g' option in 'CFLAGS', because that is not
_required_ for proper compilation.  You can consider it a default that
is only recommended.  If the package is set up so that it is compiled
with GCC by default, then you might as well include '-O' in the default
value of 'CFLAGS' as well.

   Put 'CFLAGS' last in the compilation command, after other variables
containing compiler options, so the user can use 'CFLAGS' to override
the others.

   'CFLAGS' should be used in every invocation of the C compiler, both
those which do compilation and those which do linking.

   Every Makefile should define the variable 'INSTALL', which is the
basic command for installing a file into the system.

   Every Makefile should also define the variables 'INSTALL_PROGRAM' and
'INSTALL_DATA'.  (The default for 'INSTALL_PROGRAM' should be
'$(INSTALL)'; the default for 'INSTALL_DATA' should be '${INSTALL} -m
644'.)  Then it should use those variables as the commands for actual
installation, for executables and nonexecutables respectively.  Use
these variables as follows:

     $(INSTALL_PROGRAM) foo $(bindir)/foo
     $(INSTALL_DATA) libfoo.a $(libdir)/libfoo.a

   Optionally, you may prepend the value of 'DESTDIR' to the target
filename.  Doing this allows the installer to create a snapshot of the
installation to be copied onto the real target filesystem later.  Do not
set the value of 'DESTDIR' in your Makefile, and do not include it in
any installed files.  With support for 'DESTDIR', the above examples
become:

     $(INSTALL_PROGRAM) foo $(DESTDIR)$(bindir)/foo
     $(INSTALL_DATA) libfoo.a $(DESTDIR)$(libdir)/libfoo.a

Always use a file name, not a directory name, as the second argument of
the installation commands.  Use a separate command for each file to be
installed.


File: standards.info,  Node: Directory Variables,  Next: Standard Targets,  Prev: Command Variables,  Up: Makefile Conventions

7.2.4 Variables for Installation Directories
--------------------------------------------

Installation directories should always be named by variables, so it is
easy to install in a nonstandard place.  The standard names for these
variables are described below.  They are based on a standard filesystem
layout; variants of it are used in SVR4, 4.4BSD, GNU/Linux, Ultrix v4,
and other modern operating systems.

   These two variables set the root for the installation.  All the other
installation directories should be subdirectories of one of these two,
and nothing should be directly installed into these two directories.

'prefix'
     A prefix used in constructing the default values of the variables
     listed below.  The default value of 'prefix' should be
     '/usr/local'.  When building the complete GNU system, the prefix
     will be empty and '/usr' will be a symbolic link to '/'.  (If you
     are using Autoconf, write it as '@prefix@'.)

     Running 'make install' with a different value of 'prefix' from the
     one used to build the program should _not_ recompile the program.

'exec_prefix'
     A prefix used in constructing the default values of some of the
     variables listed below.  The default value of 'exec_prefix' should
     be '$(prefix)'.  (If you are using Autoconf, write it as
     '@exec_prefix@'.)

     Generally, '$(exec_prefix)' is used for directories that contain
     machine-specific files (such as executables and subroutine
     libraries), while '$(prefix)' is used directly for other
     directories.

     Running 'make install' with a different value of 'exec_prefix' from
     the one used to build the program should _not_ recompile the
     program.

   Executable programs are installed in one of the following
directories.

'bindir'
     The directory for installing executable programs that users can
     run.  This should normally be '/usr/local/bin', but write it as
     '$(exec_prefix)/bin'.  (If you are using Autoconf, write it as
     '@bindir@'.)

'sbindir'
     The directory for installing executable programs that can be run
     from the shell, but are only generally useful to system
     administrators.  This should normally be '/usr/local/sbin', but
     write it as '$(exec_prefix)/sbin'.  (If you are using Autoconf,
     write it as '@sbindir@'.)

'libexecdir'
     The directory for installing executable programs to be run by other
     programs rather than by users.  This directory should normally be
     '/usr/local/libexec', but write it as '$(exec_prefix)/libexec'.
     (If you are using Autoconf, write it as '@libexecdir@'.)

   Data files used by the program during its execution are divided into
categories in two ways.

   * Some files are normally modified by programs; others are never
     normally modified (though users may edit some of these).

   * Some files are architecture-independent and can be shared by all
     machines at a site; some are architecture-dependent and can be
     shared only by machines of the same kind and operating system;
     others may never be shared between two machines.

   This makes for six different possibilities.  However, we want to
discourage the use of architecture-dependent files, aside from object
files and libraries.  It is much cleaner to make other data files
architecture-independent, and it is generally not hard.

   Therefore, here are the variables Makefiles should use to specify
directories:

'datadir'
     The directory for installing read-only architecture independent
     data files.  This should normally be '/usr/local/share', but write
     it as '$(prefix)/share'.  (If you are using Autoconf, write it as
     '@datadir@'.)  As a special exception, see '$(infodir)' and
     '$(includedir)' below.

'sysconfdir'
     The directory for installing read-only data files that pertain to a
     single machine-that is to say, files for configuring a host.
     Mailer and network configuration files, '/etc/passwd', and so forth
     belong here.  All the files in this directory should be ordinary
     ASCII text files.  This directory should normally be
     '/usr/local/etc', but write it as '$(prefix)/etc'.  (If you are
     using Autoconf, write it as '@sysconfdir@'.)

     Do not install executables here in this directory (they probably
     belong in '$(libexecdir)' or '$(sbindir)').  Also do not install
     files that are modified in the normal course of their use (programs
     whose purpose is to change the configuration of the system
     excluded).  Those probably belong in '$(localstatedir)'.

'sharedstatedir'
     The directory for installing architecture-independent data files
     which the programs modify while they run.  This should normally be
     '/usr/local/com', but write it as '$(prefix)/com'.  (If you are
     using Autoconf, write it as '@sharedstatedir@'.)

'localstatedir'
     The directory for installing data files which the programs modify
     while they run, and that pertain to one specific machine.  Users
     should never need to modify files in this directory to configure
     the package's operation; put such configuration information in
     separate files that go in '$(datadir)' or '$(sysconfdir)'.
     '$(localstatedir)' should normally be '/usr/local/var', but write
     it as '$(prefix)/var'.  (If you are using Autoconf, write it as
     '@localstatedir@'.)

'libdir'
     The directory for object files and libraries of object code.  Do
     not install executables here, they probably ought to go in
     '$(libexecdir)' instead.  The value of 'libdir' should normally be
     '/usr/local/lib', but write it as '$(exec_prefix)/lib'.  (If you
     are using Autoconf, write it as '@libdir@'.)

'infodir'
     The directory for installing the Info files for this package.  By
     default, it should be '/usr/local/info', but it should be written
     as '$(prefix)/info'.  (If you are using Autoconf, write it as
     '@infodir@'.)

'lispdir'
     The directory for installing any Emacs Lisp files in this package.
     By default, it should be '/usr/local/share/emacs/site-lisp', but it
     should be written as '$(prefix)/share/emacs/site-lisp'.

     If you are using Autoconf, write the default as '@lispdir@'.  In
     order to make '@lispdir@' work, you need the following lines in
     your 'configure.in' file:

          lispdir='${datadir}/emacs/site-lisp'
          AC_SUBST(lispdir)

'includedir'
     The directory for installing header files to be included by user
     programs with the C '#include' preprocessor directive.  This should
     normally be '/usr/local/include', but write it as
     '$(prefix)/include'.  (If you are using Autoconf, write it as
     '@includedir@'.)

     Most compilers other than GCC do not look for header files in
     directory '/usr/local/include'.  So installing the header files
     this way is only useful with GCC. Sometimes this is not a problem
     because some libraries are only really intended to work with GCC.
     But some libraries are intended to work with other compilers.  They
     should install their header files in two places, one specified by
     'includedir' and one specified by 'oldincludedir'.

'oldincludedir'
     The directory for installing '#include' header files for use with
     compilers other than GCC. This should normally be '/usr/include'.
     (If you are using Autoconf, you can write it as '@oldincludedir@'.)

     The Makefile commands should check whether the value of
     'oldincludedir' is empty.  If it is, they should not try to use it;
     they should cancel the second installation of the header files.

     A package should not replace an existing header in this directory
     unless the header came from the same package.  Thus, if your Foo
     package provides a header file 'foo.h', then it should install the
     header file in the 'oldincludedir' directory if either (1) there is
     no 'foo.h' there or (2) the 'foo.h' that exists came from the Foo
     package.

     To tell whether 'foo.h' came from the Foo package, put a magic
     string in the file--part of a comment--and 'grep' for that string.

   Unix-style man pages are installed in one of the following:

'mandir'
     The top-level directory for installing the man pages (if any) for
     this package.  It will normally be '/usr/local/man', but you should
     write it as '$(prefix)/man'.  (If you are using Autoconf, write it
     as '@mandir@'.)

'man1dir'
     The directory for installing section 1 man pages.  Write it as
     '$(mandir)/man1'.
'man2dir'
     The directory for installing section 2 man pages.  Write it as
     '$(mandir)/man2'
'...'

     *Don't make the primary documentation for any GNU software be a man
     page.  Write a manual in Texinfo instead.  Man pages are just for
     the sake of people running GNU software on Unix, which is a
     secondary application only.*

'manext'
     The file name extension for the installed man page.  This should
     contain a period followed by the appropriate digit; it should
     normally be '.1'.

'man1ext'
     The file name extension for installed section 1 man pages.
'man2ext'
     The file name extension for installed section 2 man pages.
'...'
     Use these names instead of 'manext' if the package needs to install
     man pages in more than one section of the manual.

   And finally, you should set the following variable:

'srcdir'
     The directory for the sources being compiled.  The value of this
     variable is normally inserted by the 'configure' shell script.  (If
     you are using Autconf, use 'srcdir = @srcdir@'.)

   For example:

     # Common prefix for installation directories.
     # NOTE: This directory must exist when you start the install.
     prefix = /usr/local
     exec_prefix = $(prefix)
     # Where to put the executable for the command `gcc'.
     bindir = $(exec_prefix)/bin
     # Where to put the directories used by the compiler.
     libexecdir = $(exec_prefix)/libexec
     # Where to put the Info files.
     infodir = $(prefix)/info

   If your program installs a large number of files into one of the
standard user-specified directories, it might be useful to group them
into a subdirectory particular to that program.  If you do this, you
should write the 'install' rule to create these subdirectories.

   Do not expect the user to include the subdirectory name in the value
of any of the variables listed above.  The idea of having a uniform set
of variable names for installation directories is to enable the user to
specify the exact same values for several different GNU packages.  In
order for this to be useful, all the packages must be designed so that
they will work sensibly when the user does so.


File: standards.info,  Node: Standard Targets,  Next: Install Command Categories,  Prev: Directory Variables,  Up: Makefile Conventions

7.2.5 Standard Targets for Users
--------------------------------

All GNU programs should have the following targets in their Makefiles:

'all'
     Compile the entire program.  This should be the default target.
     This target need not rebuild any documentation files; Info files
     should normally be included in the distribution, and DVI files
     should be made only when explicitly asked for.

     By default, the Make rules should compile and link with '-g', so
     that executable programs have debugging symbols.  Users who don't
     mind being helpless can strip the executables later if they wish.

'install'
     Compile the program and copy the executables, libraries, and so on
     to the file names where they should reside for actual use.  If
     there is a simple test to verify that a program is properly
     installed, this target should run that test.

     Do not strip executables when installing them.  Devil-may-care
     users can use the 'install-strip' target to do that.

     If possible, write the 'install' target rule so that it does not
     modify anything in the directory where the program was built,
     provided 'make all' has just been done.  This is convenient for
     building the program under one user name and installing it under
     another.

     The commands should create all the directories in which files are
     to be installed, if they don't already exist.  This includes the
     directories specified as the values of the variables 'prefix' and
     'exec_prefix', as well as all subdirectories that are needed.  One
     way to do this is by means of an 'installdirs' target as described
     below.

     Use '-' before any command for installing a man page, so that
     'make' will ignore any errors.  This is in case there are systems
     that don't have the Unix man page documentation system installed.

     The way to install Info files is to copy them into '$(infodir)'
     with '$(INSTALL_DATA)' (*note Command Variables::), and then run
     the 'install-info' program if it is present.  'install-info' is a
     program that edits the Info 'dir' file to add or update the menu
     entry for the given Info file; it is part of the Texinfo package.
     Here is a sample rule to install an Info file:

          $(DESTDIR)$(infodir)/foo.info: foo.info
                  $(POST_INSTALL)
          # There may be a newer info file in . than in srcdir.
                  -if test -f foo.info; then d=.; \
                   else d=$(srcdir); fi; \
                  $(INSTALL_DATA) $$d/foo.info $(DESTDIR)$@; \
          # Run install-info only if it exists.
          # Use `if' instead of just prepending `-' to the
          # line so we notice real errors from install-info.
          # We use `$(SHELL) -c' because some shells do not
          # fail gracefully when there is an unknown command.
                  if $(SHELL) -c 'install-info --version' \
                     >/dev/null 2>&1; then \
                    install-info --dir-file=$(DESTDIR)$(infodir)/dir \
                                 $(DESTDIR)$(infodir)/foo.info; \
                  else true; fi

     When writing the 'install' target, you must classify all the
     commands into three categories: normal ones, "pre-installation"
     commands and "post-installation" commands.  *Note Install Command
     Categories::.

'uninstall'
     Delete all the installed files--the copies that the 'install'
     target creates.

     This rule should not modify the directories where compilation is
     done, only the directories where files are installed.

     The uninstallation commands are divided into three categories, just
     like the installation commands.  *Note Install Command
     Categories::.

'install-strip'
     Like 'install', but strip the executable files while installing
     them.  In simple cases, this target can use the 'install' target in
     a simple way:

          install-strip:
                  $(MAKE) INSTALL_PROGRAM='$(INSTALL_PROGRAM) -s' \
                          install

     But if the package installs scripts as well as real executables,
     the 'install-strip' target can't just refer to the 'install'
     target; it has to strip the executables but not the scripts.

     'install-strip' should not strip the executables in the build
     directory which are being copied for installation.  It should only
     strip the copies that are installed.

     Normally we do not recommend stripping an executable unless you are
     sure the program has no bugs.  However, it can be reasonable to
     install a stripped executable for actual execution while saving the
     unstripped executable elsewhere in case there is a bug.

'clean'

     Delete all files from the current directory that are normally
     created by building the program.  Don't delete the files that
     record the configuration.  Also preserve files that could be made
     by building, but normally aren't because the distribution comes
     with them.

     Delete '.dvi' files here if they are not part of the distribution.

'distclean'
     Delete all files from the current directory that are created by
     configuring or building the program.  If you have unpacked the
     source and built the program without creating any other files,
     'make distclean' should leave only the files that were in the
     distribution.

'mostlyclean'
     Like 'clean', but may refrain from deleting a few files that people
     normally don't want to recompile.  For example, the 'mostlyclean'
     target for GCC does not delete 'libgcc.a', because recompiling it
     is rarely necessary and takes a lot of time.

'maintainer-clean'
     Delete almost everything from the current directory that can be
     reconstructed with this Makefile.  This typically includes
     everything deleted by 'distclean', plus more: C source files
     produced by Bison, tags tables, Info files, and so on.

     The reason we say "almost everything" is that running the command
     'make maintainer-clean' should not delete 'configure' even if
     'configure' can be remade using a rule in the Makefile.  More
     generally, 'make maintainer-clean' should not delete anything that
     needs to exist in order to run 'configure' and then begin to build
     the program.  This is the only exception; 'maintainer-clean' should
     delete everything else that can be rebuilt.

     The 'maintainer-clean' target is intended to be used by a
     maintainer of the package, not by ordinary users.  You may need
     special tools to reconstruct some of the files that 'make
     maintainer-clean' deletes.  Since these files are normally included
     in the distribution, we don't take care to make them easy to
     reconstruct.  If you find you need to unpack the full distribution
     again, don't blame us.

     To help make users aware of this, the commands for the special
     'maintainer-clean' target should start with these two:

          @echo 'This command is intended for maintainers to use; it'
          @echo 'deletes files that may need special tools to rebuild.'

'TAGS'
     Update a tags table for this program.

'info'
     Generate any Info files needed.  The best way to write the rules is
     as follows:

          info: foo.info

          foo.info: foo.texi chap1.texi chap2.texi
                  $(MAKEINFO) $(srcdir)/foo.texi

     You must define the variable 'MAKEINFO' in the Makefile.  It should
     run the 'makeinfo' program, which is part of the Texinfo
     distribution.

     Normally a GNU distribution comes with Info files, and that means
     the Info files are present in the source directory.  Therefore, the
     Make rule for an info file should update it in the source
     directory.  When users build the package, ordinarily Make will not
     update the Info files because they will already be up to date.

'dvi'
     Generate DVI files for all Texinfo documentation.  For example:

          dvi: foo.dvi

          foo.dvi: foo.texi chap1.texi chap2.texi
                  $(TEXI2DVI) $(srcdir)/foo.texi

     You must define the variable 'TEXI2DVI' in the Makefile.  It should
     run the program 'texi2dvi', which is part of the Texinfo
     distribution.(1)  Alternatively, write just the dependencies, and
     allow GNU 'make' to provide the command.

'dist'
     Create a distribution tar file for this program.  The tar file
     should be set up so that the file names in the tar file start with
     a subdirectory name which is the name of the package it is a
     distribution for.  This name can include the version number.

     For example, the distribution tar file of GCC version 1.40 unpacks
     into a subdirectory named 'gcc-1.40'.

     The easiest way to do this is to create a subdirectory
     appropriately named, use 'ln' or 'cp' to install the proper files
     in it, and then 'tar' that subdirectory.

     Compress the tar file with 'gzip'.  For example, the actual
     distribution file for GCC version 1.40 is called 'gcc-1.40.tar.gz'.

     The 'dist' target should explicitly depend on all non-source files
     that are in the distribution, to make sure they are up to date in
     the distribution.  *Note Making Releases: Releases.

'check'
     Perform self-tests (if any).  The user must build the program
     before running the tests, but need not install the program; you
     should write the self-tests so that they work when the program is
     built but not installed.

   The following targets are suggested as conventional names, for
programs in which they are useful.

'installcheck'
     Perform installation tests (if any).  The user must build and
     install the program before running the tests.  You should not
     assume that '$(bindir)' is in the search path.

'installdirs'
     It's useful to add a target named 'installdirs' to create the
     directories where files are installed, and their parent
     directories.  There is a script called 'mkinstalldirs' which is
     convenient for this; you can find it in the Texinfo package.  You
     can use a rule like this:

          # Make sure all installation directories (e.g. $(bindir))
          # actually exist by making them if necessary.
          installdirs: mkinstalldirs
                  $(srcdir)/mkinstalldirs $(bindir) $(datadir) \
                                          $(libdir) $(infodir) \
                                          $(mandir)

     or, if you wish to support 'DESTDIR',

          # Make sure all installation directories (e.g. $(bindir))
          # actually exist by making them if necessary.
          installdirs: mkinstalldirs
                  $(srcdir)/mkinstalldirs \
                      $(DESTDIR)$(bindir) $(DESTDIR)$(datadir) \
                      $(DESTDIR)$(libdir) $(DESTDIR)$(infodir) \
                      $(DESTDIR)$(mandir)

     This rule should not modify the directories where compilation is
     done.  It should do nothing but create installation directories.

   ---------- Footnotes ----------

   (1) 'texi2dvi' uses TeX to do the real work of formatting.  TeX is
not distributed with Texinfo.


File: standards.info,  Node: Install Command Categories,  Prev: Standard Targets,  Up: Makefile Conventions

7.2.6 Install Command Categories
--------------------------------

When writing the 'install' target, you must classify all the commands
into three categories: normal ones, "pre-installation" commands and
"post-installation" commands.

   Normal commands move files into their proper places, and set their
modes.  They may not alter any files except the ones that come entirely
from the package they belong to.

   Pre-installation and post-installation commands may alter other
files; in particular, they can edit global configuration files or data
bases.

   Pre-installation commands are typically executed before the normal
commands, and post-installation commands are typically run after the
normal commands.

   The most common use for a post-installation command is to run
'install-info'.  This cannot be done with a normal command, since it
alters a file (the Info directory) which does not come entirely and
solely from the package being installed.  It is a post-installation
command because it needs to be done after the normal command which
installs the package's Info files.

   Most programs don't need any pre-installation commands, but we have
the feature just in case it is needed.

   To classify the commands in the 'install' rule into these three
categories, insert "category lines" among them.  A category line
specifies the category for the commands that follow.

   A category line consists of a tab and a reference to a special Make
variable, plus an optional comment at the end.  There are three
variables you can use, one for each category; the variable name
specifies the category.  Category lines are no-ops in ordinary execution
because these three Make variables are normally undefined (and you
_should not_ define them in the makefile).

   Here are the three possible category lines, each with a comment that
explains what it means:

             $(PRE_INSTALL)     # Pre-install commands follow.
             $(POST_INSTALL)    # Post-install commands follow.
             $(NORMAL_INSTALL)  # Normal commands follow.

   If you don't use a category line at the beginning of the 'install'
rule, all the commands are classified as normal until the first category
line.  If you don't use any category lines, all the commands are
classified as normal.

   These are the category lines for 'uninstall':

             $(PRE_UNINSTALL)     # Pre-uninstall commands follow.
             $(POST_UNINSTALL)    # Post-uninstall commands follow.
             $(NORMAL_UNINSTALL)  # Normal commands follow.

   Typically, a pre-uninstall command would be used for deleting entries
from the Info directory.

   If the 'install' or 'uninstall' target has any dependencies which act
as subroutines of installation, then you should start _each_
dependency's commands with a category line, and start the main target's
commands with a category line also.  This way, you can ensure that each
command is placed in the right category regardless of which of the
dependencies actually run.

   Pre-installation and post-installation commands should not run any
programs except for these:

     [ basename bash cat chgrp chmod chown cmp cp dd diff echo
     egrep expand expr false fgrep find getopt grep gunzip gzip
     hostname install install-info kill ldconfig ln ls md5sum
     mkdir mkfifo mknod mv printenv pwd rm rmdir sed sort tee
     test touch true uname xargs yes

   The reason for distinguishing the commands in this way is for the
sake of making binary packages.  Typically a binary package contains all
the executables and other files that need to be installed, and has its
own method of installing them--so it does not need to run the normal
installation commands.  But installing the binary package does need to
execute the pre-installation and post-installation commands.

   Programs to build binary packages work by extracting the
pre-installation and post-installation commands.  Here is one way of
extracting the pre-installation commands:

     make -n install -o all \
           PRE_INSTALL=pre-install \
           POST_INSTALL=post-install \
           NORMAL_INSTALL=normal-install \
       | gawk -f pre-install.awk

where the file 'pre-install.awk' could contain this:

     $0 ~ /^\t[ \t]*(normal_install|post_install)[ \t]*$/ {on = 0}
     on {print $0}
     $0 ~ /^\t[ \t]*pre_install[ \t]*$/ {on = 1}

   The resulting file of pre-installation commands is executed as a
shell script as part of installing the binary package.


File: standards.info,  Node: Releases,  Prev: Makefile Conventions,  Up: Managing Releases

7.3 Making Releases
===================

Package the distribution of 'Foo version 69.96' up in a gzipped tar file
with the name 'foo-69.96.tar.gz'.  It should unpack into a subdirectory
named 'foo-69.96'.

   Building and installing the program should never modify any of the
files contained in the distribution.  This means that all the files that
form part of the program in any way must be classified into "source
files" and "non-source files".  Source files are written by humans and
never changed automatically; non-source files are produced from source
files by programs under the control of the Makefile.

   The distribution should contain a file named 'README' which gives the
name of the package, and a general description of what it does.  It is
also good to explain the purpose of each of the first-level
subdirectories in the package, if there are any.  The 'README' file
should either state the version number of the package, or refer to where
in the package it can be found.

   The 'README' file should refer to the file 'INSTALL', which should
contain an explanation of the installation procedure.

   The 'README' file should also refer to the file which contains the
copying conditions.  The GNU GPL, if used, should be in a file called
'COPYING'.  If the GNU LGPL is used, it should be in a file called
'COPYING.LIB'.

   Naturally, all the source files must be in the distribution.  It is
okay to include non-source files in the distribution, provided they are
up-to-date and machine-independent, so that building the distribution
normally will never modify them.  We commonly include non-source files
produced by Bison, 'lex', TeX, and 'makeinfo'; this helps avoid
unnecessary dependencies between our distributions, so that users can
install whichever packages they want to install.

   Non-source files that might actually be modified by building and
installing the program should *never* be included in the distribution.
So if you do distribute non-source files, always make sure they are up
to date when you make a new distribution.

   Make sure that the directory into which the distribution unpacks (as
well as any subdirectories) are all world-writable (octal mode 777).
This is so that old versions of 'tar' which preserve the ownership and
permissions of the files from the tar archive will be able to extract
all the files even if the user is unprivileged.

   Make sure that all the files in the distribution are world-readable.

   Make sure that no file name in the distribution is more than 14
characters long.  Likewise, no file created by building the program
should have a name longer than 14 characters.  The reason for this is
that some systems adhere to a foolish interpretation of the POSIX
standard, and refuse to open a longer name, rather than truncating as
they did in the past.

   Don't include any symbolic links in the distribution itself.  If the
tar file contains symbolic links, then people cannot even unpack it on
systems that don't support symbolic links.  Also, don't use multiple
names for one file in different directories, because certain file
systems cannot handle this and that prevents unpacking the distribution.

   Try to make sure that all the file names will be unique on MS-DOS. A
name on MS-DOS consists of up to 8 characters, optionally followed by a
period and up to three characters.  MS-DOS will truncate extra
characters both before and after the period.  Thus, 'foobarhacker.c' and
'foobarhacker.o' are not ambiguous; they are truncated to 'foobarha.c'
and 'foobarha.o', which are distinct.

   Include in your distribution a copy of the 'texinfo.tex' you used to
test print any '*.texinfo' or '*.texi' files.

   Likewise, if your program uses small GNU software packages like
regex, getopt, obstack, or termcap, include them in the distribution
file.  Leaving them out would make the distribution file a little
smaller at the expense of possible inconvenience to a user who doesn't
know what other files to get.


File: standards.info,  Node: References,  Next: Index,  Prev: Managing Releases,  Up: Top

8 References to Non-Free Software and Documentation
***************************************************

A GNU program should not recommend use of any non-free program.  We
can't stop some people from writing proprietary programs, or stop other
people from using them.  But we can and should avoid helping to
advertise them to new customers.

   Sometimes it is important to mention how to build your package on top
of some non-free operating system or other non-free base package.  In
such cases, please mention the name of the non-free package or system in
the briefest possible way.  Don't include any references for where to
find more information about the proprietary program.  The goal should be
that people already using the proprietary program will get the advice
they need about how to use your free program, while people who don't
already use the proprietary program will not see anything to encourage
them to take an interest in it.

   Likewise, a GNU package should not refer the user to any non-free
documentation for free software.  The need for free documentation to go
with free software is now a major focus of the GNU project; to show that
we are serious about the need for free documentation, we must not
undermine our position by recommending use of documentation that isn't
free.


File: standards.info,  Node: Index,  Prev: References,  Up: Top

Index
*****

[index]
* Menu:

* #endif, commenting:                    Comments.            (line  54)
* --help option:                         Command-Line Interfaces.
                                                              (line 107)
* --version option:                      Command-Line Interfaces.
                                                              (line  34)
* -Wall compiler option:                 Syntactic Conventions.
                                                              (line  10)
* accepting contributions:               Contributions.       (line   6)
* address for bug reports:               Command-Line Interfaces.
                                                              (line 113)
* ANSI C standard:                       Standard C.          (line   6)
* arbitrary limits on data:              Semantics.           (line   6)
* autoconf:                              System Portability.  (line  23)
* avoiding proprietary code:             Reading Non-Free Code.
                                                              (line   6)
* behavior, dependent on program's name: User Interfaces.     (line   6)
* binary packages:                       Install Command Categories.
                                                              (line  80)
* bindir:                                Directory Variables. (line  45)
* braces, in C source:                   Formatting.          (line   6)
* bug reports:                           Command-Line Interfaces.
                                                              (line 113)
* canonical name of a program:           Command-Line Interfaces.
                                                              (line  41)
* casting pointers to integers:          CPU Portability.     (line  66)
* change logs:                           Change Logs.         (line   6)
* change logs, conditional changes:      Conditional Changes. (line   6)
* change logs, style:                    Style of Change Logs.
                                                              (line   6)
* command-line arguments, decoding:      Semantics.           (line  46)
* command-line interface:                Command-Line Interfaces.
                                                              (line   6)
* commenting:                            Comments.            (line   6)
* compatibility with C and POSIX standards: Compatibility.    (line   6)
* compiler warnings:                     Syntactic Conventions.
                                                              (line  10)
* conditional changes, and change logs:  Conditional Changes. (line   6)
* conditionals, comments for:            Comments.            (line  54)
* configure:                             Configuration.       (line   6)
* control-L:                             Formatting.          (line 114)
* conventions for makefiles:             Makefile Conventions.
                                                              (line   6)
* corba:                                 Graphical Interfaces.
                                                              (line  16)
* credits for manuals:                   Manual Credits.      (line   6)
* data types, and portability:           CPU Portability.     (line   6)
* declaration for system functions:      System Functions.    (line  21)
* documentation:                         Documentation.       (line   6)
* doschk:                                Names.               (line  38)
* downloading this manual:               Preface.             (line  17)
* error messages:                        Semantics.           (line  19)
* error messages, formatting:            Errors.              (line   6)
* exec_prefix:                           Directory Variables. (line  27)
* expressions, splitting:                Formatting.          (line  77)
* file usage:                            File Usage.          (line   6)
* file-name limitations:                 Names.               (line  38)
* formatting error messages:             Errors.              (line   6)
* formatting source code:                Formatting.          (line   6)
* formfeed:                              Formatting.          (line 114)
* function argument, declaring:          Syntactic Conventions.
                                                              (line   6)
* function prototypes:                   Standard C.          (line  17)
* getopt:                                Command-Line Interfaces.
                                                              (line   6)
* gettext:                               Internationalization.
                                                              (line   6)
* gnome:                                 Graphical Interfaces.
                                                              (line  16)
* graphical user interface:              Graphical Interfaces.
                                                              (line   6)
* gtk:                                   Graphical Interfaces.
                                                              (line   6)
* GUILE:                                 Source Language.     (line  37)
* implicit int:                          Syntactic Conventions.
                                                              (line   6)
* impossible conditions:                 Semantics.           (line  70)
* internationalization:                  Internationalization.
                                                              (line   6)
* legal aspects:                         Legal Issues.        (line   6)
* legal papers:                          Contributions.       (line   6)
* libexecdir:                            Directory Variables. (line  58)
* libraries:                             Libraries.           (line   6)
* library functions, and portability:    System Functions.    (line   6)
* license for manuals:                   License for Manuals. (line   6)
* lint:                                  Syntactic Conventions.
                                                              (line 109)
* long option names:                     Option Table.        (line   6)
* long-named options:                    Command-Line Interfaces.
                                                              (line  12)
* makefile, conventions for:             Makefile Conventions.
                                                              (line   6)
* malloc return value:                   Semantics.           (line  25)
* man pages:                             Man Pages.           (line   6)
* manual structure:                      Manual Structure Details.
                                                              (line   6)
* memory allocation failure:             Semantics.           (line  25)
* memory usage:                          Memory Usage.        (line   6)
* message text, and internationalization: Internationalization.
                                                              (line  29)
* mmap:                                  Mmap.                (line   6)
* multiple variables in a line:          Syntactic Conventions.
                                                              (line  35)
* names of variables and functions:      Names.               (line   6)
* NEWS file:                             NEWS File.           (line   6)
* non-POSIX systems, and portability:    System Portability.  (line  32)
* non-standard extensions:               Using Extensions.    (line   6)
* NUL characters:                        Semantics.           (line  11)
* open brace:                            Formatting.          (line   6)
* optional features, configure-time:     Configuration.       (line  76)
* options for compatibility:             Compatibility.       (line  14)
* output device and program's behavior:  User Interfaces.     (line  13)
* packaging:                             Releases.            (line   6)
* portability, and data types:           CPU Portability.     (line   6)
* portability, and library functions:    System Functions.    (line   6)
* portability, between system types:     System Portability.  (line   6)
* POSIX compatibility:                   Compatibility.       (line   6)
* POSIXLY_CORRECT, environment variable: Compatibility.       (line  21)
* post-installation commands:            Install Command Categories.
                                                              (line   6)
* pre-installation commands:             Install Command Categories.
                                                              (line   6)
* prefix:                                Directory Variables. (line  17)
* program configuration:                 Configuration.       (line   6)
* program design:                        Design Advice.       (line   6)
* program name and its behavior:         User Interfaces.     (line   6)
* program's canonical name:              Command-Line Interfaces.
                                                              (line  41)
* programming languages:                 Source Language.     (line   6)
* proprietary programs:                  Reading Non-Free Code.
                                                              (line   6)
* README file:                           Releases.            (line  17)
* references to non-free material:       References.          (line   6)
* releasing:                             Managing Releases.   (line   6)
* sbindir:                               Directory Variables. (line  51)
* signal handling:                       Semantics.           (line  59)
* spaces before open-paren:              Formatting.          (line  71)
* standard command-line options:         Command-Line Interfaces.
                                                              (line  31)
* standards for makefiles:               Makefile Conventions.
                                                              (line   6)
* string library functions:              System Functions.    (line  54)
* syntactic conventions:                 Syntactic Conventions.
                                                              (line   6)
* table of long options:                 Option Table.        (line   6)
* temporary files:                       Semantics.           (line  84)
* temporary variables:                   Syntactic Conventions.
                                                              (line  23)
* texinfo.tex, in a distribution:        Releases.            (line  73)
* TMPDIR environment variable:           Semantics.           (line  84)
* trademarks:                            Trademarks.          (line   6)
* where to obtain standards.texi:        Preface.             (line  17)



Tag Table:
Node: Top978
Node: Preface1577
Node: Legal Issues3167
Node: Reading Non-Free Code3631
Node: Contributions5358
Node: Trademarks7512
Node: Design Advice8575
Node: Source Language9082
Node: Compatibility11087
Node: Using Extensions12715
Node: Standard C14292
Node: Program Behavior16663
Node: Semantics17582
Node: Libraries22275
Node: Errors23520
Node: User Interfaces25301
Node: Graphical Interfaces26906
Node: Command-Line Interfaces27941
Node: Option Table33430
Node: Memory Usage48439
Node: File Usage49464
Node: Writing C50212
Node: Formatting51052
Node: Comments55116
Node: Syntactic Conventions58417
Node: Names61829
Node: System Portability64022
Node: CPU Portability66407
Node: System Functions69665
Node: Internationalization74857
Node: Mmap78010
Node: Documentation78720
Node: GNU Manuals79825
Node: Doc Strings and Manuals84882
Node: Manual Structure Details86435
Node: License for Manuals87853
Node: Manual Credits88826
Node: Printed Manuals89219
Node: NEWS File89905
Node: Change Logs90583
Node: Change Log Concepts91377
Node: Style of Change Logs93240
Node: Simple Changes95275
Node: Conditional Changes96519
Node: Indicating the Part Changed97941
Node: Man Pages98468
Node: Reading other Manuals100092
Node: Managing Releases100883
Node: Configuration101638
Node: Makefile Conventions108542
Node: Makefile Basics109306
Node: Utilities in Makefiles112480
Node: Command Variables114626
Node: Directory Variables118203
Node: Standard Targets129094
Ref: Standard Targets-Footnote-1140335
Node: Install Command Categories140436
Node: Releases145018
Node: References149105
Node: Index150501

End Tag Table