/usr/lib/getoptcvt [-b] filename
/usr/lib/getoptcvt reads the shell script in filename, converts it to use getopts instead of getopt, and writes the results on the standard output.
getopts is a built-in Bourne shell command used to parse positional parameters and to check for valid options. See sh(1). It supports all applicable rules of the command syntax standard (see Rules 3-10, Intro(1)). It should be used in place of the getopt command. (See the NOTES section below.) The syntax for the shell's built-in getopts command is:
getopts optstring name [ argument . . . ]
optstring must contain the option letters the command using getopts will recognize; if a letter is followed by a colon (:), the option is expected to have an argument, or group of arguments, which must be separated from it by white space.
Each time it is invoked, getopts places the next option in the shell variable name and the index of the next argument to be processed in the shell variable OPTIND . Whenever the shell or a shell script is invoked, OPTIND is initialized to 1.
When an option requires an option-argument, getopts places it in the shell variable OPTARG.
If an illegal option is encountered, ? will be placed in name.
When the end of options is encountered, getopts exits with a non-zero exit status. The special option −− may be used to delimit the end of the options.
By default, getopts parses the positional parameters. If extra arguments (argument . . .) are given on the getopts command line, getopts parses them instead.
So that all new commands will adhere to the command syntax standard described in Intro(1), they should use getopts or getopt to parse positional parameters and check for options that are valid for that command (see the NOTES section below).
The following option is supported:
Makes the converted script portable to earlier releases of the UNIX system. /usr/lib/getoptcvt modifies the shell script in filename so that when the resulting shell script is executed, it determines at run time whether to invoke getopts or getopt.
The following fragment of a shell program shows how one might process the arguments for a command that can take the options –a or –b, as well as the option –o, which requires an option-argument:
while getopts abo: c do case $c in a | b) FLAG=$c;; o) OARG=$OPTARG;; \?) echo $USAGE exit 2;; esac done shift `expr $OPTIND − 1`Example 2 Equivalent code expressions
This code accepts any of the following as equivalent:
cmd -a -b -o "xxx z yy" filename cmd -a -b -o "xxx z yy" -filename cmd -ab -o xxx,z,yy filename cmd -ab -o "xxx z yy" filename cmd -o xxx,z,yy b a filename
See environ(5) for descriptions of the following environment variables that affect the execution of getopts: LC_CTYPE, LC_MESSAGES, and NLSPATH.
This variable is used by getoptcvt as the index of the next argument to be processed.
This variable is used by getoptcvt to store the argument if an option is using arguments.
The following exit values are returned:
An option, specified or unspecified by optstring, was found.
The end of options was encountered or an error occurred.
See attributes(5) for descriptions of the following attributes:
getopts prints an error message on the standard error when it encounters an option letter not included in optstring.
Although the following command syntax rule (see Intro(1)) relaxations are permitted under the current implementation, they should not be used because they may not be supported in future releases of the system. As in the EXAMPLES section above, –a and – b are options, and the option –o requires an option-argument. The following example violates Rule 5: options with option-arguments must not be grouped with other options:
example% cmd -aboxxx filename
The following example violates Rule 6: there must be white space after an option that takes an option-argument:
example% cmd -ab oxxx filename
Changing the value of the shell variable OPTIND or parsing different sets of arguments may lead to unexpected results.