You want to let users change your program's behavior by giving options on the command line. For instance, you want to allow the user to control the level of output that your program produces with a -v (verbose) option.
Use the standard Getopt::Std module to permit single-character options:
use Getopt::Std; # -v ARG, -D ARG, -o ARG, sets $opt_v, $opt_D, $opt_o getopt("vDo"); # -v ARG, -D ARG, -o ARG, sets $args{v}, $args{D}, $args{o} getopt("vDo", \%args); getopts("vDo:"); # -v, -D, -o ARG, sets $opt_v, $opt_D, $opt_o getopts("vDo:", \%args); # -v, -D, -o ARG, sets $args{v}, $args{D}, $args{o}
Or, use the standard Getopt::Long module to permit named arguments:
use Getopt::Long; GetOptions( "verbose" => \$verbose, # --verbose "Debug" => \$debug, # --Debug "output=s" => \$output ); # --output=string or --output=string
Most traditional programs like ls and rm take single-character options (also known as flags or switches), such as -l and -r. In the case of ls -l and rm -r, the argument is Boolean: either it is present or it isn't. Contrast this with gcc -o compiledfile source.c, where compiledfile is a value associated with the option -o. We can combine Boolean options into a single option in any order. For example:
% rm -r -f /tmp/testdir
Another way of saying this is:
% rm -rf /tmp/testdir
The Getopt::Std module, part of the standard Perl distribution, parses these types of traditional options. Its getopt
function takes a single string of characters, each corresponding to an option that takes a value, parses the command-line arguments stored in @ARGV
, and sets a global variable for each option. For example, the value for the -D option will be stored in $opt_D
. All options parsed though getopt
are value options, not Boolean options.
Getopt::Std also provides the getopts
function, which lets you specify whether each option is Boolean or takes a value. Arguments that take a value, like the -o option to gcc, are indicated by a :
, as in this code:
use Getopt::Std; getopts("o:"); if ($opt_o) { print "Writing output to $opt_o"; }
Both getopt
and getopts
can take a second argument, a reference to a hash. If present, option values are stored in $hash{X}
instead of $opt_X
:
use Getopt::Std; %option = (); getopts("Do:", \%option); if ($option{D}) { print "Debugging mode enabled.\n"; } # if not set, set output to "-". opening "-" for writing # means STDOUT $option{o} = "-" unless defined $option{o}; print "Writing output to file $option{o}\n" unless $option{o} eq "-"; open(STDOUT, "> $option{o}") or die "Can't open $option{o} for output: $!\n";
You can specify some programs' options using full words instead of single characters. These options are (usually) indicated with two dashes instead of one:
% gnutar --extract --file latest.tar
The value for the - -file option could also be given with an equals sign:
% gnutar --extract --file=latest.tar
The Getopt::Long module's GetOptions
function parses this style of options. It takes a hash whose keys are options and values are references to scalar variables:
use Getopt::Long; GetOptions( "extract" => \$extract, "file=s" => \$file ); if ($extract) { print "I'm extracting.\n"; } die "I wish I had a file" unless defined $file; print "Working on the file $file\n";
If a key in the hash is just an option name, it's a Boolean option. The corresponding variable will be set to false if the option wasn't given, or to 1
if it was. Getopt::Long provides fancier options than just the Boolean and value of Getopt::Std. Here's what the option specifier can look like:
The documentation for the standard Getopt::Long and Getopt::Std modules; examples of argument parsing by hand can be found in Recipe 1.5, Recipe 1.17, Recipe 6.22, Recipe 7.7, Recipe 8.19, and Recipe 15.12
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