manual/getopt.texi - nest-cam/v366/glibc - Git at Google

 @node Getopt, Argp, , Parsing Program Arguments
 @section Parsing program options using @code{getopt}

 The @code{getopt} and @code{getopt_long} functions automate some of the
 chore involved in parsing typical unix command line options.

 @menu
 * Using Getopt::                Using the @code{getopt} function.
 * Example of Getopt::           An example of parsing options with @code{getopt}.
 * Getopt Long Options::         GNU suggests utilities accept long-named
                                  options; here is one way to do.
 * Getopt Long Option Example::  An example of using @code{getopt_long}.
 @end menu

 @node Using Getopt, Example of Getopt, , Getopt
 @subsection Using the @code{getopt} function

 Here are the details about how to call the @code{getopt} function.  To
 use this facility, your program must include the header file
 @file{unistd.h}.
 @pindex unistd.h

 @comment unistd.h
 @comment POSIX.2
 @deftypevar int opterr
 If the value of this variable is nonzero, then @code{getopt} prints an
 error message to the standard error stream if it encounters an unknown
 option character or an option with a missing required argument.  This is
 the default behavior.  If you set this variable to zero, @code{getopt}
 does not print any messages, but it still returns the character @code{?}
 to indicate an error.
 @end deftypevar

 @comment unistd.h
 @comment POSIX.2
 @deftypevar int optopt
 When @code{getopt} encounters an unknown option character or an option
 with a missing required argument, it stores that option character in
 this variable.  You can use this for providing your own diagnostic
 messages.
 @end deftypevar

 @comment unistd.h
 @comment POSIX.2
 @deftypevar int optind
 This variable is set by @code{getopt} to the index of the next element
 of the @var{argv} array to be processed.  Once @code{getopt} has found
 all of the option arguments, you can use this variable to determine
 where the remaining non-option arguments begin.  The initial value of
 this variable is @code{1}.
 @end deftypevar

 @comment unistd.h
 @comment POSIX.2
 @deftypevar {char *} optarg
 This variable is set by @code{getopt} to point at the value of the
 option argument, for those options that accept arguments.
 @end deftypevar

 @comment unistd.h
 @comment POSIX.2
 @deftypefun int getopt (int @var{argc}, char **@var{argv}, const char *@var{options})
 The @code{getopt} function gets the next option argument from the
 argument list specified by the @var{argv} and @var{argc} arguments.
 Normally these values come directly from the arguments received by
 @code{main}.

 The @var{options} argument is a string that specifies the option
 characters that are valid for this program.  An option character in this
 string can be followed by a colon (@samp{:}) to indicate that it takes a
 required argument.  If an option character is followed by two colons
 (@samp{::}), its argument is optional; this is a GNU extension.

 @code{getopt} has three ways to deal with options that follow
 non-options @var{argv} elements.  The special argument @samp{--} forces
 in all cases the end of option scanning.

 @itemize @bullet
 @item
 The default is to permute the contents of @var{argv} while scanning it
 so that eventually all the non-options are at the end.  This allows
 options to be given in any order, even with programs that were not
 written to expect this.

 @item
 If the @var{options} argument string begins with a hyphen (@samp{-}), this
 is treated specially.  It permits arguments that are not options to be
 returned as if they were associated with option character @samp{\1}.

 @item
 POSIX demands the following behavior: The first non-option stops option
 processing.  This mode is selected by either setting the environment
 variable @code{POSIXLY_CORRECT} or beginning the @var{options} argument
 string with a plus sign (@samp{+}).
 @end itemize

 The @code{getopt} function returns the option character for the next
 command line option.  When no more option arguments are available, it
 returns @code{-1}.  There may still be more non-option arguments; you
 must compare the external variable @code{optind} against the @var{argc}
 parameter to check this.

 If the option has an argument, @code{getopt} returns the argument by
 storing it in the variable @var{optarg}.  You don't ordinarily need to
 copy the @code{optarg} string, since it is a pointer into the original
 @var{argv} array, not into a static area that might be overwritten.

 If @code{getopt} finds an option character in @var{argv} that was not
 included in @var{options}, or a missing option argument, it returns
 @samp{?} and sets the external variable @code{optopt} to the actual
 option character.  If the first character of @var{options} is a colon
 (@samp{:}), then @code{getopt} returns @samp{:} instead of @samp{?} to
 indicate a missing option argument.  In addition, if the external
 variable @code{opterr} is nonzero (which is the default), @code{getopt}
 prints an error message.
 @end deftypefun

 @node Example of Getopt
 @subsection Example of Parsing Arguments with @code{getopt}

 Here is an example showing how @code{getopt} is typically used.  The
 key points to notice are:

 @itemize @bullet
 @item
 Normally, @code{getopt} is called in a loop.  When @code{getopt} returns
 @code{-1}, indicating no more options are present, the loop terminates.

 @item
 A @code{switch} statement is used to dispatch on the return value from
 @code{getopt}.  In typical use, each case just sets a variable that
 is used later in the program.

 @item
 A second loop is used to process the remaining non-option arguments.
 @end itemize

 @smallexample
 @include testopt.c.texi
 @end smallexample

 Here are some examples showing what this program prints with different
 combinations of arguments:

 @smallexample
 % testopt
 aflag = 0, bflag = 0, cvalue = (null)

 % testopt -a -b
 aflag = 1, bflag = 1, cvalue = (null)

 % testopt -ab
 aflag = 1, bflag = 1, cvalue = (null)

 % testopt -c foo
 aflag = 0, bflag = 0, cvalue = foo

 % testopt -cfoo
 aflag = 0, bflag = 0, cvalue = foo

 % testopt arg1
 aflag = 0, bflag = 0, cvalue = (null)
 Non-option argument arg1

 % testopt -a arg1
 aflag = 1, bflag = 0, cvalue = (null)
 Non-option argument arg1

 % testopt -c foo arg1
 aflag = 0, bflag = 0, cvalue = foo
 Non-option argument arg1

 % testopt -a -- -b
 aflag = 1, bflag = 0, cvalue = (null)
 Non-option argument -b

 % testopt -a -
 aflag = 1, bflag = 0, cvalue = (null)
 Non-option argument -
 @end smallexample

 @node Getopt Long Options
 @subsection Parsing Long Options with @code{getopt_long}

 To accept GNU-style long options as well as single-character options,
 use @code{getopt_long} instead of @code{getopt}.  This function is
 declared in @file{getopt.h}, not @file{unistd.h}.  You should make every
 program accept long options if it uses any options, for this takes
 little extra work and helps beginners remember how to use the program.

 @comment getopt.h
 @comment GNU
 @deftp {Data Type} {struct option}
 This structure describes a single long option name for the sake of
 @code{getopt_long}.  The argument @var{longopts} must be an array of
 these structures, one for each long option.  Terminate the array with an
 element containing all zeros.

 The @code{struct option} structure has these fields:

 @table @code
 @item const char *name
 This field is the name of the option.  It is a string.

 @item int has_arg
 This field says whether the option takes an argument.  It is an integer,
 and there are three legitimate values: @w{@code{no_argument}},
 @code{required_argument} and @code{optional_argument}.

 @item int *flag
 @itemx int val
 These fields control how to report or act on the option when it occurs.

 If @code{flag} is a null pointer, then the @code{val} is a value which
 identifies this option.  Often these values are chosen to uniquely
 identify particular long options.

 If @code{flag} is not a null pointer, it should be the address of an
 @code{int} variable which is the flag for this option.  The value in
 @code{val} is the value to store in the flag to indicate that the option
 was seen.
 @end table
 @end deftp

 @comment getopt.h
 @comment GNU
 @deftypefun int getopt_long (int @var{argc}, char *const *@var{argv}, const char *@var{shortopts}, const struct option *@var{longopts}, int *@var{indexptr})
 Decode options from the vector @var{argv} (whose length is @var{argc}).
 The argument @var{shortopts} describes the short options to accept, just as
 it does in @code{getopt}.  The argument @var{longopts} describes the long
 options to accept (see above).

 When @code{getopt_long} encounters a short option, it does the same
 thing that @code{getopt} would do: it returns the character code for the
 option, and stores the options argument (if it has one) in @code{optarg}.

 When @code{getopt_long} encounters a long option, it takes actions based
 on the @code{flag} and @code{val} fields of the definition of that
 option.

 If @code{flag} is a null pointer, then @code{getopt_long} returns the
 contents of @code{val} to indicate which option it found.  You should
 arrange distinct values in the @code{val} field for options with
 different meanings, so you can decode these values after
 @code{getopt_long} returns.  If the long option is equivalent to a short
 option, you can use the short option's character code in @code{val}.

 If @code{flag} is not a null pointer, that means this option should just
 set a flag in the program.  The flag is a variable of type @code{int}
 that you define.  Put the address of the flag in the @code{flag} field.
 Put in the @code{val} field the value you would like this option to
 store in the flag.  In this case, @code{getopt_long} returns @code{0}.

 For any long option, @code{getopt_long} tells you the index in the array
 @var{longopts} of the options definition, by storing it into
 @code{*@var{indexptr}}.  You can get the name of the option with
 @code{@var{longopts}[*@var{indexptr}].name}.  So you can distinguish among
 long options either by the values in their @code{val} fields or by their
 indices.  You can also distinguish in this way among long options that
 set flags.

 When a long option has an argument, @code{getopt_long} puts the argument
 value in the variable @code{optarg} before returning.  When the option
 has no argument, the value in @code{optarg} is a null pointer.  This is
 how you can tell whether an optional argument was supplied.

 When @code{getopt_long} has no more options to handle, it returns
 @code{-1}, and leaves in the variable @code{optind} the index in
 @var{argv} of the next remaining argument.
 @end deftypefun

 Since long option names were used before the @code{getopt_long}
 options was invented there are program interfaces which require programs
 to recognize options like @w{@samp{-option value}} instead of
 @w{@samp{--option value}}.  To enable these programs to use the GNU
 getopt functionality there is one more function available.

 @comment getopt.h
 @comment GNU
 @deftypefun int getopt_long_only (int @var{argc}, char *const *@var{argv}, const char *@var{shortopts}, const struct option *@var{longopts}, int *@var{indexptr})

 The @code{getopt_long_only} function is equivalent to the
 @code{getopt_long} function but it allows to specify the user of the
 application to pass long options with only @samp{-} instead of
 @samp{--}.  The @samp{--} prefix is still recognized but instead of
 looking through the short options if a @samp{-} is seen it is first
 tried whether this parameter names a long option.  If not, it is parsed
 as a short option.

 Assuming @code{getopt_long_only} is used starting an application with

 @smallexample
   app -foo
 @end smallexample

 @noindent
 the @code{getopt_long_only} will first look for a long option named
 @samp{foo}.  If this is not found, the short options @samp{f}, @samp{o},
 and again @samp{o} are recognized.
 @end deftypefun

 @node Getopt Long Option Example
 @subsection Example of Parsing Long Options with @code{getopt_long}

 @smallexample
 @include longopt.c.texi
 @end smallexample
	@node Getopt, Argp, , Parsing Program Arguments
	@section Parsing program options using @code{getopt}

	The @code{getopt} and @code{getopt_long} functions automate some of the
	chore involved in parsing typical unix command line options.

	@menu
	* Using Getopt:: Using the @code{getopt} function.
	* Example of Getopt:: An example of parsing options with @code{getopt}.
	* Getopt Long Options:: GNU suggests utilities accept long-named
	options; here is one way to do.
	* Getopt Long Option Example:: An example of using @code{getopt_long}.
	@end menu

	@node Using Getopt, Example of Getopt, , Getopt
	@subsection Using the @code{getopt} function

	Here are the details about how to call the @code{getopt} function. To
	use this facility, your program must include the header file
	@file{unistd.h}.
	@pindex unistd.h

	@comment unistd.h
	@comment POSIX.2
	@deftypevar int opterr
	If the value of this variable is nonzero, then @code{getopt} prints an
	error message to the standard error stream if it encounters an unknown
	option character or an option with a missing required argument. This is
	the default behavior. If you set this variable to zero, @code{getopt}
	does not print any messages, but it still returns the character @code{?}
	to indicate an error.
	@end deftypevar

	@comment unistd.h
	@comment POSIX.2
	@deftypevar int optopt
	When @code{getopt} encounters an unknown option character or an option
	with a missing required argument, it stores that option character in
	this variable. You can use this for providing your own diagnostic
	messages.
	@end deftypevar

	@comment unistd.h
	@comment POSIX.2
	@deftypevar int optind
	This variable is set by @code{getopt} to the index of the next element
	of the @var{argv} array to be processed. Once @code{getopt} has found
	all of the option arguments, you can use this variable to determine
	where the remaining non-option arguments begin. The initial value of
	this variable is @code{1}.
	@end deftypevar

	@comment unistd.h
	@comment POSIX.2
	@deftypevar {char *} optarg
	This variable is set by @code{getopt} to point at the value of the
	option argument, for those options that accept arguments.
	@end deftypevar

	@comment unistd.h
	@comment POSIX.2
	@deftypefun int getopt (int @var{argc}, char *@var{argv}, const char @var{options})
	The @code{getopt} function gets the next option argument from the
	argument list specified by the @var{argv} and @var{argc} arguments.
	Normally these values come directly from the arguments received by
	@code{main}.

	The @var{options} argument is a string that specifies the option
	characters that are valid for this program. An option character in this
	string can be followed by a colon (@samp{:}) to indicate that it takes a
	required argument. If an option character is followed by two colons
	(@samp{::}), its argument is optional; this is a GNU extension.

	@code{getopt} has three ways to deal with options that follow
	non-options @var{argv} elements. The special argument @samp{--} forces
	in all cases the end of option scanning.

	@itemize @bullet
	@item
	The default is to permute the contents of @var{argv} while scanning it
	so that eventually all the non-options are at the end. This allows
	options to be given in any order, even with programs that were not
	written to expect this.

	@item
	If the @var{options} argument string begins with a hyphen (@samp{-}), this
	is treated specially. It permits arguments that are not options to be
	returned as if they were associated with option character @samp{\1}.

	@item
	POSIX demands the following behavior: The first non-option stops option
	processing. This mode is selected by either setting the environment
	variable @code{POSIXLY_CORRECT} or beginning the @var{options} argument
	string with a plus sign (@samp{+}).
	@end itemize

	The @code{getopt} function returns the option character for the next
	command line option. When no more option arguments are available, it
	returns @code{-1}. There may still be more non-option arguments; you
	must compare the external variable @code{optind} against the @var{argc}
	parameter to check this.

	If the option has an argument, @code{getopt} returns the argument by
	storing it in the variable @var{optarg}. You don't ordinarily need to
	copy the @code{optarg} string, since it is a pointer into the original
	@var{argv} array, not into a static area that might be overwritten.

	If @code{getopt} finds an option character in @var{argv} that was not
	included in @var{options}, or a missing option argument, it returns
	@samp{?} and sets the external variable @code{optopt} to the actual
	option character. If the first character of @var{options} is a colon
	(@samp{:}), then @code{getopt} returns @samp{:} instead of @samp{?} to
	indicate a missing option argument. In addition, if the external
	variable @code{opterr} is nonzero (which is the default), @code{getopt}
	prints an error message.
	@end deftypefun

	@node Example of Getopt
	@subsection Example of Parsing Arguments with @code{getopt}

	Here is an example showing how @code{getopt} is typically used. The
	key points to notice are:

	@itemize @bullet
	@item
	Normally, @code{getopt} is called in a loop. When @code{getopt} returns
	@code{-1}, indicating no more options are present, the loop terminates.

	@item
	A @code{switch} statement is used to dispatch on the return value from
	@code{getopt}. In typical use, each case just sets a variable that
	is used later in the program.

	@item
	A second loop is used to process the remaining non-option arguments.
	@end itemize

	@smallexample
	@include testopt.c.texi
	@end smallexample

	Here are some examples showing what this program prints with different
	combinations of arguments:

	@smallexample
	% testopt
	aflag = 0, bflag = 0, cvalue = (null)

	% testopt -a -b
	aflag = 1, bflag = 1, cvalue = (null)

	% testopt -ab
	aflag = 1, bflag = 1, cvalue = (null)

	% testopt -c foo
	aflag = 0, bflag = 0, cvalue = foo

	% testopt -cfoo
	aflag = 0, bflag = 0, cvalue = foo

	% testopt arg1
	aflag = 0, bflag = 0, cvalue = (null)
	Non-option argument arg1

	% testopt -a arg1
	aflag = 1, bflag = 0, cvalue = (null)
	Non-option argument arg1

	% testopt -c foo arg1
	aflag = 0, bflag = 0, cvalue = foo
	Non-option argument arg1

	% testopt -a -- -b
	aflag = 1, bflag = 0, cvalue = (null)
	Non-option argument -b

	% testopt -a -
	aflag = 1, bflag = 0, cvalue = (null)
	Non-option argument -
	@end smallexample

	@node Getopt Long Options
	@subsection Parsing Long Options with @code{getopt_long}

	To accept GNU-style long options as well as single-character options,
	use @code{getopt_long} instead of @code{getopt}. This function is
	declared in @file{getopt.h}, not @file{unistd.h}. You should make every
	program accept long options if it uses any options, for this takes
	little extra work and helps beginners remember how to use the program.

	@comment getopt.h
	@comment GNU
	@deftp {Data Type} {struct option}
	This structure describes a single long option name for the sake of
	@code{getopt_long}. The argument @var{longopts} must be an array of
	these structures, one for each long option. Terminate the array with an
	element containing all zeros.

	The @code{struct option} structure has these fields:

	@table @code
	@item const char *name
	This field is the name of the option. It is a string.

	@item int has_arg
	This field says whether the option takes an argument. It is an integer,
	and there are three legitimate values: @w{@code{no_argument}},
	@code{required_argument} and @code{optional_argument}.

	@item int *flag
	@itemx int val
	These fields control how to report or act on the option when it occurs.

	If @code{flag} is a null pointer, then the @code{val} is a value which
	identifies this option. Often these values are chosen to uniquely
	identify particular long options.

	If @code{flag} is not a null pointer, it should be the address of an
	@code{int} variable which is the flag for this option. The value in
	@code{val} is the value to store in the flag to indicate that the option
	was seen.
	@end table
	@end deftp

	@comment getopt.h
	@comment GNU
	@deftypefun int getopt_long (int @var{argc}, char const @var{argv}, const char @var{shortopts}, const struct option @var{longopts}, int *@var{indexptr})
	Decode options from the vector @var{argv} (whose length is @var{argc}).
	The argument @var{shortopts} describes the short options to accept, just as
	it does in @code{getopt}. The argument @var{longopts} describes the long
	options to accept (see above).

	When @code{getopt_long} encounters a short option, it does the same
	thing that @code{getopt} would do: it returns the character code for the
	option, and stores the options argument (if it has one) in @code{optarg}.

	When @code{getopt_long} encounters a long option, it takes actions based
	on the @code{flag} and @code{val} fields of the definition of that
	option.

	If @code{flag} is a null pointer, then @code{getopt_long} returns the
	contents of @code{val} to indicate which option it found. You should
	arrange distinct values in the @code{val} field for options with
	different meanings, so you can decode these values after
	@code{getopt_long} returns. If the long option is equivalent to a short
	option, you can use the short option's character code in @code{val}.

	If @code{flag} is not a null pointer, that means this option should just
	set a flag in the program. The flag is a variable of type @code{int}
	that you define. Put the address of the flag in the @code{flag} field.
	Put in the @code{val} field the value you would like this option to
	store in the flag. In this case, @code{getopt_long} returns @code{0}.

	For any long option, @code{getopt_long} tells you the index in the array
	@var{longopts} of the options definition, by storing it into
	@code{*@var{indexptr}}. You can get the name of the option with
	@code{@var{longopts}[*@var{indexptr}].name}. So you can distinguish among
	long options either by the values in their @code{val} fields or by their
	indices. You can also distinguish in this way among long options that
	set flags.

	When a long option has an argument, @code{getopt_long} puts the argument
	value in the variable @code{optarg} before returning. When the option
	has no argument, the value in @code{optarg} is a null pointer. This is
	how you can tell whether an optional argument was supplied.

	When @code{getopt_long} has no more options to handle, it returns
	@code{-1}, and leaves in the variable @code{optind} the index in
	@var{argv} of the next remaining argument.
	@end deftypefun

	Since long option names were used before the @code{getopt_long}
	options was invented there are program interfaces which require programs
	to recognize options like @w{@samp{-option value}} instead of
	@w{@samp{--option value}}. To enable these programs to use the GNU
	getopt functionality there is one more function available.

	@comment getopt.h
	@comment GNU
	@deftypefun int getopt_long_only (int @var{argc}, char const @var{argv}, const char @var{shortopts}, const struct option @var{longopts}, int *@var{indexptr})

	The @code{getopt_long_only} function is equivalent to the
	@code{getopt_long} function but it allows to specify the user of the
	application to pass long options with only @samp{-} instead of
	@samp{--}. The @samp{--} prefix is still recognized but instead of
	looking through the short options if a @samp{-} is seen it is first
	tried whether this parameter names a long option. If not, it is parsed
	as a short option.

	Assuming @code{getopt_long_only} is used starting an application with

	@smallexample
	app -foo
	@end smallexample

	@noindent
	the @code{getopt_long_only} will first look for a long option named
	@samp{foo}. If this is not found, the short options @samp{f}, @samp{o},
	and again @samp{o} are recognized.
	@end deftypefun

	@node Getopt Long Option Example
	@subsection Example of Parsing Long Options with @code{getopt_long}

	@smallexample
	@include longopt.c.texi
	@end smallexample