eaiovnaovbqoebvqoeavibavo Std.pm000064400000020260147633760450005653 0ustar00package Getopt::Std; require 5.000; require Exporter; =head1 NAME getopt, getopts - Process single-character switches with switch clustering =head1 SYNOPSIS use Getopt::Std; getopt('oDI'); # -o, -D & -I take arg. Sets $opt_* as a side effect. getopt('oDI', \%opts); # -o, -D & -I take arg. Values in %opts getopts('oif:'); # -o & -i are boolean flags, -f takes an argument # Sets $opt_* as a side effect. getopts('oif:', \%opts); # options as above. Values in %opts =head1 DESCRIPTION The getopt() function processes single-character switches with switch clustering. Pass one argument which is a string containing all switches that take an argument. For each switch found, sets $opt_x (where x is the switch name) to the value of the argument if an argument is expected, or 1 otherwise. Switches which take an argument don't care whether there is a space between the switch and the argument. The getopts() function is similar, but you should pass to it the list of all switches to be recognized. If unspecified switches are found on the command-line, the user will be warned that an unknown option was given. The getopts() function returns true unless an invalid option was found. Note that, if your code is running under the recommended C pragma, you will need to declare these package variables with "our": our($opt_x, $opt_y); For those of you who don't like additional global variables being created, getopt() and getopts() will also accept a hash reference as an optional second argument. Hash keys will be x (where x is the switch name) with key values the value of the argument or 1 if no argument is specified. To allow programs to process arguments that look like switches, but aren't, both functions will stop processing switches when they see the argument C<-->. The C<--> will be removed from @ARGV. =head1 C<--help> and C<--version> If C<-> is not a recognized switch letter, getopts() supports arguments C<--help> and C<--version>. If C and/or C are defined, they are called; the arguments are the output file handle, the name of option-processing package, its version, and the switches string. If the subroutines are not defined, an attempt is made to generate intelligent messages; for best results, define $main::VERSION. If embedded documentation (in pod format, see L) is detected in the script, C<--help> will also show how to access the documentation. Note that due to excessive paranoia, if $Getopt::Std::STANDARD_HELP_VERSION isn't true (the default is false), then the messages are printed on STDERR, and the processing continues after the messages are printed. This being the opposite of the standard-conforming behaviour, it is strongly recommended to set $Getopt::Std::STANDARD_HELP_VERSION to true. One can change the output file handle of the messages by setting $Getopt::Std::OUTPUT_HELP_VERSION. One can print the messages of C<--help> (without the C line) and C<--version> by calling functions help_mess() and version_mess() with the switches string as an argument. =cut @ISA = qw(Exporter); @EXPORT = qw(getopt getopts); $VERSION = '1.07'; # uncomment the next line to disable 1.03-backward compatibility paranoia # $STANDARD_HELP_VERSION = 1; # Process single-character switches with switch clustering. Pass one argument # which is a string containing all switches that take an argument. For each # switch found, sets $opt_x (where x is the switch name) to the value of the # argument, or 1 if no argument. Switches which take an argument don't care # whether there is a space between the switch and the argument. # Usage: # getopt('oDI'); # -o, -D & -I take arg. Sets opt_* as a side effect. sub getopt (;$$) { my ($argumentative, $hash) = @_; $argumentative = '' if !defined $argumentative; my ($first,$rest); local $_; local @EXPORT; while (@ARGV && ($_ = $ARGV[0]) =~ /^-(.)(.*)/) { ($first,$rest) = ($1,$2); if (/^--$/) { # early exit if -- shift @ARGV; last; } if (index($argumentative,$first) >= 0) { if ($rest ne '') { shift(@ARGV); } else { shift(@ARGV); $rest = shift(@ARGV); } if (ref $hash) { $$hash{$first} = $rest; } else { ${"opt_$first"} = $rest; push( @EXPORT, "\$opt_$first" ); } } else { if (ref $hash) { $$hash{$first} = 1; } else { ${"opt_$first"} = 1; push( @EXPORT, "\$opt_$first" ); } if ($rest ne '') { $ARGV[0] = "-$rest"; } else { shift(@ARGV); } } } unless (ref $hash) { local $Exporter::ExportLevel = 1; import Getopt::Std; } } sub output_h () { return $OUTPUT_HELP_VERSION if defined $OUTPUT_HELP_VERSION; return \*STDOUT if $STANDARD_HELP_VERSION; return \*STDERR; } sub try_exit () { exit 0 if $STANDARD_HELP_VERSION; my $p = __PACKAGE__; print {output_h()} <= 5.006; print $h <) { $has_pod = 1, last if /^=(pod|head1)/; } } print $h <= 0) { if (defined($args[$pos+1]) and ($args[$pos+1] eq ':')) { shift(@ARGV); if ($rest eq '') { ++$errs unless @ARGV; $rest = shift(@ARGV); } if (ref $hash) { $$hash{$first} = $rest; } else { ${"opt_$first"} = $rest; push( @EXPORT, "\$opt_$first" ); } } else { if (ref $hash) { $$hash{$first} = 1; } else { ${"opt_$first"} = 1; push( @EXPORT, "\$opt_$first" ); } if ($rest eq '') { shift(@ARGV); } else { $ARGV[0] = "-$rest"; } } } else { if ($first eq '-' and $rest eq 'help') { version_mess($argumentative, 'main'); help_mess($argumentative, 'main'); try_exit(); shift(@ARGV); next; } elsif ($first eq '-' and $rest eq 'version') { version_mess($argumentative, 'main'); try_exit(); shift(@ARGV); next; } warn "Unknown option: $first\n"; ++$errs; if ($rest ne '') { $ARGV[0] = "-$rest"; } else { shift(@ARGV); } } } unless (ref $hash) { local $Exporter::ExportLevel = 1; import Getopt::Std; } $errs == 0; } 1; Long/Descriptive/Opts.pm000064400000010334147634430370011223 0ustar00use strict; use warnings; package Getopt::Long::Descriptive::Opts; { $Getopt::Long::Descriptive::Opts::VERSION = '0.093'; } # ABSTRACT: object representing command line switches use Scalar::Util qw(blessed weaken); my %_CREATED_OPTS; my $SERIAL_NUMBER = 1; sub _specified { my ($self, $name) = @_; my $meta = $_CREATED_OPTS{ blessed $self }{meta}; return $meta->{given}{ $name }; } sub _specified_opts { my ($self) = @_; my $class = blessed $self; my $meta = $_CREATED_OPTS{ $class }{meta}; return $meta->{specified_opts} if $meta->{specified_opts}; my @keys = grep { $meta->{given}{ $_ } } (keys %{ $meta->{given} }); my %opts; @opts{ @keys } = @$self{ @keys }; $meta->{specified_opts} = \%opts; bless $meta->{specified_opts} => $class; weaken $meta->{specified_opts}; $meta->{specified_opts}; } sub _complete_opts { my ($self) = @_; my $class = blessed $self; my $meta = $_CREATED_OPTS{ $class }{meta}; return $meta->{complete_opts}; } sub ___class_for_opt { my ($class, $arg) = @_; my $values = $arg->{values}; my @bad = grep { $_ !~ /^[a-z_]\w*$/ } keys %$values; Carp::confess("perverse option names given: @bad") if @bad; my $new_class = "$class\::__OPT__::" . $SERIAL_NUMBER++; $_CREATED_OPTS{ $new_class } = { meta => $arg }; { no strict 'refs'; ${"$new_class\::VERSION"} = $class->VERSION; *{"$new_class\::ISA"} = [ 'Getopt::Long::Descriptive::Opts' ]; for my $opt (keys %$values) { *{"$new_class\::$opt"} = sub { $_[0]->{ $opt } }; } } return $new_class; } sub ___new_opt_obj { my ($class, $arg) = @_; my $copy = { %{ $arg->{values} } }; my $new_class = $class->___class_for_opt($arg); # This is stupid, but the traditional behavior was that if --foo was not # given, there is no $opt->{foo}; it started to show up when we "needed" all # the keys to generate a class, but was undef; this wasn't a problem, but # broke tests of things that were relying on not-exists like tests of %$opt # contents or MooseX::Getopt which wanted to use things as args for new -- # undef would not pass an Int TC. Easier to just do this. -- rjbs, # 2009-11-27 delete $copy->{$_} for grep { ! defined $copy->{$_} } keys %$copy; my $self = bless $copy => $new_class; $_CREATED_OPTS{ $new_class }{meta}{complete_opts} = $self; # weaken $_CREATED_OPTS{ $new_class }{meta}{complete_opts}; return $self; } 1; __END__ =pod =head1 NAME Getopt::Long::Descriptive::Opts - object representing command line switches =head1 VERSION version 0.093 =head1 DESCRIPTION This class is the base class of all C<$opt> objects returned by L. In general, you do not want to think about this class, look at it, or alter it. Seriously, it's pretty dumb. Every call to C will return a object of a new subclass of this class. It will have a method for the canonical name of each option possible given the option specifications. Method names beginning with an single underscore are public, and are named that way to avoid conflict with automatically generated methods. Methods with multiple underscores (in case you're reading the source) are private. =head1 METHODS B All methods beginning with an underscore are experimental as of today, 2009-12-12. They are likely to be formally made permanent soon. =head2 _specified This method returns true if the given name was specified on the command line. For example, if C<@ARGS> was "C<< --foo --bar 10 >>" and C is defined by a default, C<_specified> will return true for foo and bar, and false for baz. =head2 _specified_opts This method returns an opt object in which only explicitly specified values are defined. Values which were set by defaults will appear undef. =head2 _complete_opts This method returns the opts object with all values, including those set by defaults. It is probably not going to be very often-used. =head1 AUTHORS =over 4 =item * Hans Dieter Pearcey =item * Ricardo Signes =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2005 by Hans Dieter Pearcey. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut Long/Descriptive/Usage.pm000064400000010417147634430370011344 0ustar00use strict; use warnings; package Getopt::Long::Descriptive::Usage; { $Getopt::Long::Descriptive::Usage::VERSION = '0.093'; } # ABSTRACT: the usage description for GLD use List::Util qw(max); sub new { my ($class, $arg) = @_; my @to_copy = qw(options leader_text); my %copy; @copy{ @to_copy } = @$arg{ @to_copy }; bless \%copy => $class; } sub text { my ($self) = @_; return join qq{\n}, $self->leader_text, $self->option_text; } sub leader_text { $_[0]->{leader_text} } sub option_text { my ($self) = @_; my @options = @{ $self->{options} || [] }; my $string = q{}; # a spec can grow up to 4 characters in usage output: # '-' on short option, ' ' between short and long, '--' on long my @specs = map { $_->{spec} } grep { $_->{desc} ne 'spacer' } @options; my $length = (max(map { length } @specs) || 0) + 4; my $spec_fmt = "\t%-${length}s"; while (@options) { my $opt = shift @options; my $spec = $opt->{spec}; my $desc = $opt->{desc}; if ($desc eq 'spacer') { $string .= sprintf "$spec_fmt\n", $opt->{spec}; next; } $spec = Getopt::Long::Descriptive->_strip_assignment($spec); $spec = join " ", reverse map { length > 1 ? "--$_" : "-$_" } split /\|/, $spec; my @desc = $self->_split_description($length, $desc); $string .= sprintf "$spec_fmt %s\n", $spec, shift @desc; for my $line (@desc) { $string .= "\t"; $string .= q{ } x ( $length + 2 ); $string .= "$line\n"; } } return $string; } sub _split_description { my ($self, $length, $desc) = @_; # 8 for a tab, 2 for the space between option & desc; my $max_length = 78 - ( $length + 8 + 2 ); return $desc if length $desc <= $max_length; my @lines; while (length $desc > $max_length) { my $idx = rindex( substr( $desc, 0, $max_length ), q{ }, ); last unless $idx >= 0; push @lines, substr($desc, 0, $idx); substr($desc, 0, $idx + 1) = q{}; } push @lines, $desc; return @lines; } sub warn { warn shift->text } sub die { my $self = shift; my $arg = shift || {}; die( join q{}, grep { defined } $arg->{pre_text}, $self->text, $arg->{post_text} ); } use overload ( q{""} => "text", # This is only needed because Usage used to be a blessed coderef that worked # this way. Later we can toss a warning in here. -- rjbs, 2009-08-19 '&{}' => sub { my ($self) = @_; Carp::cluck("use of __PACKAGE__ objects as a code ref is deprecated"); return sub { return $_[0] ? $self->text : $self->warn; }; } ); 1; __END__ =pod =head1 NAME Getopt::Long::Descriptive::Usage - the usage description for GLD =head1 VERSION version 0.093 =head1 SYNOPSIS use Getopt::Long::Descriptive; my ($opt, $usage) = describe_options( ... ); $usage->text; # complete usage message $usage->die; # die with usage message =head1 DESCRIPTION This document only describes the methods of the Usage object. For information on how to use L, consult its documentation. =head1 METHODS =head2 new my $usage = Getopt::Long::Descriptive::Usage->new(\%arg); You B don't need to call this. GLD will do it for you. Valid arguments are: options - an arrayref of options leader_text - the text that leads the usage; this may go away! =head2 text This returns the full text of the usage message. =head2 leader_text This returns the text that comes at the beginning of the usage message. =head2 option_text This returns the text describing the available options. =head2 warn This warns with the usage message. =head2 die This throws the usage message as an exception. $usage_obj->die(\%arg); Some arguments can be provided pre_text - text to be prepended to the usage message post_text - text to be appended to the usage message The C and C arguments are concatenated with the usage message with no line breaks, so supply this if you need them. =head1 AUTHORS =over 4 =item * Hans Dieter Pearcey =item * Ricardo Signes =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2005 by Hans Dieter Pearcey. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut Long/Descriptive.pm000064400000041426147634430370010304 0ustar00use strict; use warnings; package Getopt::Long::Descriptive; { $Getopt::Long::Descriptive::VERSION = '0.093'; } # ABSTRACT: Getopt::Long, but simpler and more powerful use Carp qw(carp croak); use File::Basename (); use Getopt::Long 2.33; use List::Util qw(first); use Params::Validate 0.97 qw(:all); use Scalar::Util (); use Getopt::Long::Descriptive::Opts; use Getopt::Long::Descriptive::Usage; my $prog_name; sub prog_name { @_ ? ($prog_name = shift) : $prog_name } BEGIN { # grab this before someone decides to change it prog_name(File::Basename::basename($0)); } use Sub::Exporter::Util (); use Sub::Exporter 0.972 -setup => { exports => [ describe_options => \'_build_describe_options', q(prog_name), @{ $Params::Validate::EXPORT_TAGS{types} } ], groups => [ default => [ qw(describe_options) ], types => $Params::Validate::EXPORT_TAGS{types}, ], }; my %CONSTRAINT = ( implies => \&_mk_implies, required => { optional => 0 }, only_one => \&_mk_only_one, ); our $MungeOptions = 1; sub _nohidden { return grep { ! $_->{constraint}->{hidden} } @_; } sub _expand { return map { {( spec => $_->[0] || '', desc => @$_ > 1 ? $_->[1] : 'spacer', constraint => $_->[2] || {}, # if @$_ is 0 then we got [], a spacer name => @$_ ? _munge((split /[:=|!+]/, $_->[0] || '')[0]) : '', )} } @_; } my %HIDDEN = ( hidden => 1, ); my $SPEC_RE = qr{(?:[:=][\d\w\+]+[%@]?({\d*,\d*})?|[!+])$}; sub _strip_assignment { my ($self, $str) = @_; (my $copy = $str) =~ s{$SPEC_RE}{}; return $copy; } # This is here only to deal with people who were calling this fully-qualified # without importing. Sucks to them! -- rjbs, 2009-08-21 sub describe_options { my $sub = __PACKAGE__->_build_describe_options(describe_options => {} => {}); $sub->(@_); } sub usage_class { 'Getopt::Long::Descriptive::Usage' } sub _build_describe_options { my ($class) = @_; sub { my $format = shift; my $arg = (ref $_[-1] and ref $_[-1] eq 'HASH') ? pop @_ : {}; my @opts; # special casing # wish we had real loop objects my %method_map; for my $opt (_expand(@_)) { $method_map{ $opt->{name} } = undef unless $opt->{desc} eq 'spacer'; if (ref($opt->{desc}) eq 'ARRAY') { $opt->{constraint}->{one_of} = delete $opt->{desc}; $opt->{desc} = 'hidden'; } if ($HIDDEN{$opt->{desc}}) { $opt->{constraint}->{hidden}++; } if ($opt->{constraint}->{one_of}) { for my $one_opt (_expand( @{delete $opt->{constraint}->{one_of}} )) { $one_opt->{constraint}->{implies} ->{$opt->{name}} = $one_opt->{name}; for my $wipe (qw(required default)) { if ($one_opt->{constraint}->{$wipe}) { carp "'$wipe' constraint does not make sense in sub-option"; delete $one_opt->{constraint}->{$wipe}; } } $one_opt->{constraint}->{one_of} = $opt->{name}; push @opts, $one_opt; } } push @opts, $opt; } my @go_conf = @{ $arg->{getopt_conf} || $arg->{getopt} || [] }; if ($arg->{getopt}) { warn "describe_options: 'getopt' is deprecated, please use 'getopt_conf' instead\n"; } push @go_conf, "bundling" unless grep { /bundling/i } @go_conf; push @go_conf, "no_auto_help" unless grep { /no_auto_help/i } @go_conf; # not entirely sure that all of this (until the Usage->new) shouldn't be # moved into Usage -- rjbs, 2009-08-19 # all specs including hidden my @getopt_specs = map { $_->{spec} } grep { $_->{desc} ne 'spacer' } @opts; my @specs = map { $_->{spec} } grep { $_->{desc} ne 'spacer' } _nohidden(@opts); my $short = join q{}, sort { lc $a cmp lc $b or $a cmp $b } grep { /^.$/ } map { split /\|/ } map { __PACKAGE__->_strip_assignment($_) } @specs; my $long = grep /\b[^|]{2,}/, @specs; my %replace = ( "%" => "%", "c" => prog_name, "o" => join(q{ }, ($short ? "[-$short]" : ()), ($long ? "[long options...]" : ()) ), ); (my $str = $format) =~ s<%(.)>< defined $replace{$1} ? $replace{$1} : Carp::croak("unknown sequence %$1 in first argument to describe_options") >ge; $str =~ s/\s{2,}/ /g; my $usage = $class->usage_class->new({ options => [ _nohidden(@opts) ], leader_text => $str, }); Getopt::Long::Configure(@go_conf); my %return; $usage->die unless GetOptions(\%return, grep { length } @getopt_specs); my @given_keys = keys %return; for my $opt (keys %return) { my $newopt = _munge($opt); next if $newopt eq $opt; $return{$newopt} = delete $return{$opt}; } for my $copt (grep { $_->{constraint} } @opts) { delete $copt->{constraint}->{hidden}; my $name = $copt->{name}; my $new = _validate_with( name => $name, params => \%return, spec => $copt->{constraint}, opts => \@opts, usage => $usage, ); next unless (defined($new) || exists($return{$name})); $return{$name} = $new; } my $opt_obj = Getopt::Long::Descriptive::Opts->___new_opt_obj({ values => { %method_map, %return }, given => { map {; $_ => 1 } @given_keys }, }); return($opt_obj, $usage); } } sub _munge { my ($opt) = @_; return $opt unless $MungeOptions; $opt = lc($opt); $opt =~ tr/-/_/; return $opt; } sub _validate_with { my (%arg) = validate(@_, { name => 1, params => 1, spec => 1, opts => 1, usage => 1, }); my $spec = $arg{spec}; my %pvspec; for my $ct (keys %{$spec}) { if ($CONSTRAINT{$ct} and ref $CONSTRAINT{$ct} eq 'CODE') { $pvspec{callbacks} ||= {}; $pvspec{callbacks} = { %{$pvspec{callbacks}}, $CONSTRAINT{$ct}->( $arg{name}, $spec->{$ct}, $arg{params}, $arg{opts}, ), }; } else { %pvspec = ( %pvspec, $CONSTRAINT{$ct} ? %{$CONSTRAINT{$ct}} : ($ct => $spec->{$ct}), ); } } $pvspec{optional} = 1 unless exists $pvspec{optional}; # we need to implement 'default' by ourselves sometimes # because otherwise the implies won't be checked/executed # XXX this should be more generic -- we'll probably want # other callbacks to always run, too if (!defined($arg{params}{$arg{name}}) && $pvspec{default} && $spec->{implies}) { $arg{params}{$arg{name}} = delete $pvspec{default}; } my %p; my $ok = eval { %p = validate_with( params => [ %{$arg{params}} ], spec => { $arg{name} => \%pvspec }, allow_extra => 1, on_fail => sub { my $fail_msg = shift; Getopt::Long::Descriptive::_PV_Error->throw($fail_msg); }, ); 1; }; if (! $ok) { my $error = $@; if ( Scalar::Util::blessed($error) && $error->isa('Getopt::Long::Descriptive::_PV_Error') ) { $arg{usage}->die({ pre_text => $error->error . "\n" }); } die $@; } return $p{$arg{name}}; } # scalar: single option = true # arrayref: multiple options = true # hashref: single/multiple options = given values sub _norm_imply { my ($what) = @_; return { $what => 1 } unless my $ref = ref $what; return $what if $ref eq 'HASH'; return { map { $_ => 1 } @$what } if $ref eq 'ARRAY'; die "can't imply: $what"; } sub _mk_implies { my $name = shift; my $what = _norm_imply(shift); my $param = shift; my $opts = shift; for my $implied (keys %$what) { die("option specification for $name implies nonexistent option $implied\n") unless first { $_->{name} eq $implied } @$opts } my $whatstr = join(q{, }, map { "$_=$what->{$_}" } keys %$what); return "$name implies $whatstr" => sub { my ($pv_val) = shift; # negatable options will be 0 here, which is ok. return 1 unless defined $pv_val; while (my ($key, $val) = each %$what) { if (exists $param->{$key} and $param->{$key} ne $val) { die( "option specification for $name implies that $key should be " . "set to '$val', but it is '$param->{$key}' already\n" ); } $param->{$key} = $val; } return 1; }; } sub _mk_only_one { die "unimplemented"; } { package Getopt::Long::Descriptive::_PV_Error; sub error { $_[0]->{error} } sub throw { my ($class, $error_msg) = @_; my $self = { error => $error_msg }; bless $self, $class; die $self; } } 1; # End of Getopt::Long::Descriptive __END__ =pod =head1 NAME Getopt::Long::Descriptive - Getopt::Long, but simpler and more powerful =head1 VERSION version 0.093 =head1 SYNOPSIS use Getopt::Long::Descriptive; my ($opt, $usage) = describe_options( 'my-program %o ', [ 'server|s=s', "the server to connect to" ], [ 'port|p=i', "the port to connect to", { default => 79 } ], [], [ 'verbose|v', "print extra stuff" ], [ 'help', "print usage message and exit" ], ); print($usage->text), exit if $opt->help; Client->connect( $opt->server, $opt->port ); print "Connected!\n" if $opt->verbose; ...and running C will produce: my-program [-psv] [long options...] -s --server the server to connect to -p --port the port to connect to -v --verbose print extra stuff --help print usage message and exit =head1 DESCRIPTION Getopt::Long::Descriptive is yet another Getopt library. It's built atop Getopt::Long, and gets a lot of its features, but tries to avoid making you think about its huge array of options. It also provides usage (help) messages, data validation, and a few other useful features. =head1 FUNCTIONS Getopt::Long::Descriptive only exports one routine by default: C. All GLD's exports are exported by L. =head2 describe_options my ($opt, $usage) = describe_options($usage_desc, @opt_spec, \%arg); This routine inspects C<@ARGV> returns the options given and a object for generating usage messages. The C<$opt> object will be a dynamically-generated subclass of L. In brief, each of the options in C<@opt_spec> becomes an accessor method on the object, using the first-given name, with dashes converted to underscores. For more information, see the documentation for the Opts class. The C<$usage> object will be a L object, which provides a C method to get the text of the usage message and C to die with it. For more methods and options, consults the documentation for the Usage class. =head3 $usage_desc The C<$usage_desc> parameter to C is a C-like string that is used in generating the first line of the usage message. It's a one-line summary of how the command is to be invoked. A typical usage description might be: $usage_desc = "%c %o "; C<%c> will be replaced with what Getopt::Long::Descriptive thinks is the program name (it's computed from C<$0>, see L). C<%o> will be replaced with a list of the short options, as well as the text "[long options...]" if any have been defined. The rest of the usage description can be used to summarize what arguments are expected to follow the program's options, and is entirely free-form. Literal C<%> characters will need to be written as C<%%>, just like with C. =head3 @opt_spec The C<@opt_spec> part of the args to C is used to configure option parsing and to produce the usage message. Each entry in the list is an arrayref describing one option, like this: @opt_spec = ( [ "verbose|V" => "be noisy" ], [ "logfile=s" => "file to log to" ], ); The first value in the arrayref is a Getopt::Long-style option specification. In brief, they work like this: each one is a pipe-delimited list of names, optionally followed by a type declaration. Type declarations are '=x' or ':x', where C<=> means a value is required and C<:> means it is optional. I may be 's' to indicate a string is required, 'i' for an integer, or 'f' for a number with a fractional part. The type spec may end in C<@> to indicate that the option may appear multiple times. For more information on how these work, see the L documentation. The first name given should be the canonical name, as it will be used as the accessor method on the C<$opt> object. Dashes in the name will be converted to underscores, and all letters will be lowercased. For this reason, all options should generally have a long-form name. The second value in the arrayref is a description of the option, for use in the usage message. =head4 Special Option Specifications If the option specification (arrayref) is empty, it will have no effect other than causing a blank line to appear in the usage message. If the option specification contains only one element, it will be printed in the usage message with no other effect. If the option specification contains a third element, it adds extra constraints or modifiers to the interpretation and validation of the value. These are the keys that may be present in that hashref, and how they behave: =over 4 =item implies implies => 'bar' implies => [qw(foo bar)] implies => { foo => 1, bar => 2 } If option I has an "implies" entry, then if I is given, other options will be enabled. The value may be a single option to set, an arrayref of options to set, or a hashref of options to set to specific values. =item required required => 1 If an option is required, failure to provide the option will result in C printing the usage message and exiting. =item hidden hidden => 1 This option will not show up in the usage text. You can achieve the same behavior by using the string "hidden" for the option's description. =item one_of one_of => \@subopt_specs This is useful for a group of options that are related. Each option spec is added to the list for normal parsing and validation. Your option name will end up with a value of the name of the option that was chosen. For example, given the following spec: [ "mode" => hidden => { one_of => [ [ "get|g" => "get the value" ], [ "set|s" => "set the value" ], [ "delete" => "delete it" ], ] } ], No usage text for 'mode' will be displayed, but text for get, set, and delete will be displayed. If more than one of get, set, or delete is given, an error will be thrown. So, given the C<@opt_spec> above, and an C<@ARGV> of C<('--get')>, the following would be true: $opt->get == 1; $opt->mode eq 'get'; B: C would not be set if C defaulted to 'get' and no arguments were passed in. Even though the option sub-specs for C are meant to be 'first class' specs, some options don't make sense with them, e.g. C. As a further shorthand, you may specify C options using this form: [ mode => \@option_specs, \%constraints ] =item Params::Validate In addition, any constraint understood by Params::Validate may be used. (Internally, all constraints are translated into Params::Validate options or callbacks.) =back =head3 %arg The C<%arg> to C is optional. If the last parameter is a hashref, it contains extra arguments to modify the way C works. Valid arguments are: getopt_conf - an arrayref of strings, passed to Getopt::Long::Configure =head2 prog_name This routine, exported on demand, returns the basename of C<$0>, grabbed at compile-time. You can override this guess by calling C yourself. =head1 OTHER EXPORTS =head2 C<-types> Any of the Params::Validate type constants (C, etc.) can be imported as well. You can get all of them at once by importing C<-types>. =head2 C<-all> This import group will import C<-type>, C, and C. =head1 CUSTOMIZING Getopt::Long::Descriptive uses L to build and export the C routine. By writing a new class that extends Getopt::Long::Descriptive, the behavior of the constructed C routine can be changed. The following methods can be overridden: =head2 usage_class my $class = Getopt::Long::Descriptive->usage_class; This returns the class to be used for constructing a Usage object, and defaults to Getopt::Long::Descriptive::Usage. =head1 SEE ALSO =over 4 =item * L =item * L =back =head1 AUTHORS =over 4 =item * Hans Dieter Pearcey =item * Ricardo Signes =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2005 by Hans Dieter Pearcey. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut Long.pm000064400000235442147634430370006026 0ustar00#! perl # Getopt::Long.pm -- Universal options parsing # Author : Johan Vromans # Created On : Tue Sep 11 15:00:12 1990 # Last Modified By: Johan Vromans # Last Modified On: Sun Jun 16 21:43:53 2013 # Update Count : 1643 # Status : Released ################ Module Preamble ################ package Getopt::Long; use 5.004; use strict; use vars qw($VERSION); $VERSION = 2.40; # For testing versions only. use vars qw($VERSION_STRING); $VERSION_STRING = "2.40"; use Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK); @ISA = qw(Exporter); # Exported subroutines. sub GetOptions(@); # always sub GetOptionsFromArray(@); # on demand sub GetOptionsFromString(@); # on demand sub Configure(@); # on demand sub HelpMessage(@); # on demand sub VersionMessage(@); # in demand BEGIN { # Init immediately so their contents can be used in the 'use vars' below. @EXPORT = qw(&GetOptions $REQUIRE_ORDER $PERMUTE $RETURN_IN_ORDER); @EXPORT_OK = qw(&HelpMessage &VersionMessage &Configure &GetOptionsFromArray &GetOptionsFromString); } # User visible variables. use vars @EXPORT, @EXPORT_OK; use vars qw($error $debug $major_version $minor_version); # Deprecated visible variables. use vars qw($autoabbrev $getopt_compat $ignorecase $bundling $order $passthrough); # Official invisible variables. use vars qw($genprefix $caller $gnu_compat $auto_help $auto_version $longprefix); # Public subroutines. sub config(@); # deprecated name # Private subroutines. sub ConfigDefaults(); sub ParseOptionSpec($$); sub OptCtl($); sub FindOption($$$$$); sub ValidValue ($$$$$); ################ Local Variables ################ # $requested_version holds the version that was mentioned in the 'use' # or 'require', if any. It can be used to enable or disable specific # features. my $requested_version = 0; ################ Resident subroutines ################ sub ConfigDefaults() { # Handle POSIX compliancy. if ( defined $ENV{"POSIXLY_CORRECT"} ) { $genprefix = "(--|-)"; $autoabbrev = 0; # no automatic abbrev of options $bundling = 0; # no bundling of single letter switches $getopt_compat = 0; # disallow '+' to start options $order = $REQUIRE_ORDER; } else { $genprefix = "(--|-|\\+)"; $autoabbrev = 1; # automatic abbrev of options $bundling = 0; # bundling off by default $getopt_compat = 1; # allow '+' to start options $order = $PERMUTE; } # Other configurable settings. $debug = 0; # for debugging $error = 0; # error tally $ignorecase = 1; # ignore case when matching options $passthrough = 0; # leave unrecognized options alone $gnu_compat = 0; # require --opt=val if value is optional $longprefix = "(--)"; # what does a long prefix look like } # Override import. sub import { my $pkg = shift; # package my @syms = (); # symbols to import my @config = (); # configuration my $dest = \@syms; # symbols first for ( @_ ) { if ( $_ eq ':config' ) { $dest = \@config; # config next next; } push(@$dest, $_); # push } # Hide one level and call super. local $Exporter::ExportLevel = 1; push(@syms, qw(&GetOptions)) if @syms; # always export GetOptions $requested_version = 0; $pkg->SUPER::import(@syms); # And configure. Configure(@config) if @config; } ################ Initialization ################ # Values for $order. See GNU getopt.c for details. ($REQUIRE_ORDER, $PERMUTE, $RETURN_IN_ORDER) = (0..2); # Version major/minor numbers. ($major_version, $minor_version) = $VERSION =~ /^(\d+)\.(\d+)/; ConfigDefaults(); ################ OO Interface ################ package Getopt::Long::Parser; # Store a copy of the default configuration. Since ConfigDefaults has # just been called, what we get from Configure is the default. my $default_config = do { Getopt::Long::Configure () }; sub new { my $that = shift; my $class = ref($that) || $that; my %atts = @_; # Register the callers package. my $self = { caller_pkg => (caller)[0] }; bless ($self, $class); # Process config attributes. if ( defined $atts{config} ) { my $save = Getopt::Long::Configure ($default_config, @{$atts{config}}); $self->{settings} = Getopt::Long::Configure ($save); delete ($atts{config}); } # Else use default config. else { $self->{settings} = $default_config; } if ( %atts ) { # Oops die(__PACKAGE__.": unhandled attributes: ". join(" ", sort(keys(%atts)))."\n"); } $self; } sub configure { my ($self) = shift; # Restore settings, merge new settings in. my $save = Getopt::Long::Configure ($self->{settings}, @_); # Restore orig config and save the new config. $self->{settings} = Getopt::Long::Configure ($save); } sub getoptions { my ($self) = shift; return $self->getoptionsfromarray(\@ARGV, @_); } sub getoptionsfromarray { my ($self) = shift; # Restore config settings. my $save = Getopt::Long::Configure ($self->{settings}); # Call main routine. my $ret = 0; $Getopt::Long::caller = $self->{caller_pkg}; eval { # Locally set exception handler to default, otherwise it will # be called implicitly here, and again explicitly when we try # to deliver the messages. local ($SIG{__DIE__}) = 'DEFAULT'; $ret = Getopt::Long::GetOptionsFromArray (@_); }; # Restore saved settings. Getopt::Long::Configure ($save); # Handle errors and return value. die ($@) if $@; return $ret; } package Getopt::Long; ################ Back to Normal ################ # Indices in option control info. # Note that ParseOptions uses the fields directly. Search for 'hard-wired'. use constant CTL_TYPE => 0; #use constant CTL_TYPE_FLAG => ''; #use constant CTL_TYPE_NEG => '!'; #use constant CTL_TYPE_INCR => '+'; #use constant CTL_TYPE_INT => 'i'; #use constant CTL_TYPE_INTINC => 'I'; #use constant CTL_TYPE_XINT => 'o'; #use constant CTL_TYPE_FLOAT => 'f'; #use constant CTL_TYPE_STRING => 's'; use constant CTL_CNAME => 1; use constant CTL_DEFAULT => 2; use constant CTL_DEST => 3; use constant CTL_DEST_SCALAR => 0; use constant CTL_DEST_ARRAY => 1; use constant CTL_DEST_HASH => 2; use constant CTL_DEST_CODE => 3; use constant CTL_AMIN => 4; use constant CTL_AMAX => 5; # FFU. #use constant CTL_RANGE => ; #use constant CTL_REPEAT => ; # Rather liberal patterns to match numbers. use constant PAT_INT => "[-+]?_*[0-9][0-9_]*"; use constant PAT_XINT => "(?:". "[-+]?_*[1-9][0-9_]*". "|". "0x_*[0-9a-f][0-9a-f_]*". "|". "0b_*[01][01_]*". "|". "0[0-7_]*". ")"; use constant PAT_FLOAT => "[-+]?[0-9._]+(\.[0-9_]+)?([eE][-+]?[0-9_]+)?"; sub GetOptions(@) { # Shift in default array. unshift(@_, \@ARGV); # Try to keep caller() and Carp consistent. goto &GetOptionsFromArray; } sub GetOptionsFromString(@) { my ($string) = shift; require Text::ParseWords; my $args = [ Text::ParseWords::shellwords($string) ]; $caller ||= (caller)[0]; # current context my $ret = GetOptionsFromArray($args, @_); return ( $ret, $args ) if wantarray; if ( @$args ) { $ret = 0; warn("GetOptionsFromString: Excess data \"@$args\" in string \"$string\"\n"); } $ret; } sub GetOptionsFromArray(@) { my ($argv, @optionlist) = @_; # local copy of the option descriptions my $argend = '--'; # option list terminator my %opctl = (); # table of option specs my $pkg = $caller || (caller)[0]; # current context # Needed if linkage is omitted. my @ret = (); # accum for non-options my %linkage; # linkage my $userlinkage; # user supplied HASH my $opt; # current option my $prefix = $genprefix; # current prefix $error = ''; if ( $debug ) { # Avoid some warnings if debugging. local ($^W) = 0; print STDERR ("Getopt::Long $Getopt::Long::VERSION ", "called from package \"$pkg\".", "\n ", "argv: (@$argv)", "\n ", "autoabbrev=$autoabbrev,". "bundling=$bundling,", "getopt_compat=$getopt_compat,", "gnu_compat=$gnu_compat,", "order=$order,", "\n ", "ignorecase=$ignorecase,", "requested_version=$requested_version,", "passthrough=$passthrough,", "genprefix=\"$genprefix\",", "longprefix=\"$longprefix\".", "\n"); } # Check for ref HASH as first argument. # First argument may be an object. It's OK to use this as long # as it is really a hash underneath. $userlinkage = undef; if ( @optionlist && ref($optionlist[0]) and UNIVERSAL::isa($optionlist[0],'HASH') ) { $userlinkage = shift (@optionlist); print STDERR ("=> user linkage: $userlinkage\n") if $debug; } # See if the first element of the optionlist contains option # starter characters. # Be careful not to interpret '<>' as option starters. if ( @optionlist && $optionlist[0] =~ /^\W+$/ && !($optionlist[0] eq '<>' && @optionlist > 0 && ref($optionlist[1])) ) { $prefix = shift (@optionlist); # Turn into regexp. Needs to be parenthesized! $prefix =~ s/(\W)/\\$1/g; $prefix = "([" . $prefix . "])"; print STDERR ("=> prefix=\"$prefix\"\n") if $debug; } # Verify correctness of optionlist. %opctl = (); while ( @optionlist ) { my $opt = shift (@optionlist); unless ( defined($opt) ) { $error .= "Undefined argument in option spec\n"; next; } # Strip leading prefix so people can specify "--foo=i" if they like. $opt = $+ if $opt =~ /^$prefix+(.*)$/s; if ( $opt eq '<>' ) { if ( (defined $userlinkage) && !(@optionlist > 0 && ref($optionlist[0])) && (exists $userlinkage->{$opt}) && ref($userlinkage->{$opt}) ) { unshift (@optionlist, $userlinkage->{$opt}); } unless ( @optionlist > 0 && ref($optionlist[0]) && ref($optionlist[0]) eq 'CODE' ) { $error .= "Option spec <> requires a reference to a subroutine\n"; # Kill the linkage (to avoid another error). shift (@optionlist) if @optionlist && ref($optionlist[0]); next; } $linkage{'<>'} = shift (@optionlist); next; } # Parse option spec. my ($name, $orig) = ParseOptionSpec ($opt, \%opctl); unless ( defined $name ) { # Failed. $orig contains the error message. Sorry for the abuse. $error .= $orig; # Kill the linkage (to avoid another error). shift (@optionlist) if @optionlist && ref($optionlist[0]); next; } # If no linkage is supplied in the @optionlist, copy it from # the userlinkage if available. if ( defined $userlinkage ) { unless ( @optionlist > 0 && ref($optionlist[0]) ) { if ( exists $userlinkage->{$orig} && ref($userlinkage->{$orig}) ) { print STDERR ("=> found userlinkage for \"$orig\": ", "$userlinkage->{$orig}\n") if $debug; unshift (@optionlist, $userlinkage->{$orig}); } else { # Do nothing. Being undefined will be handled later. next; } } } # Copy the linkage. If omitted, link to global variable. if ( @optionlist > 0 && ref($optionlist[0]) ) { print STDERR ("=> link \"$orig\" to $optionlist[0]\n") if $debug; my $rl = ref($linkage{$orig} = shift (@optionlist)); if ( $rl eq "ARRAY" ) { $opctl{$name}[CTL_DEST] = CTL_DEST_ARRAY; } elsif ( $rl eq "HASH" ) { $opctl{$name}[CTL_DEST] = CTL_DEST_HASH; } elsif ( $rl eq "SCALAR" || $rl eq "REF" ) { # if ( $opctl{$name}[CTL_DEST] == CTL_DEST_ARRAY ) { # my $t = $linkage{$orig}; # $$t = $linkage{$orig} = []; # } # elsif ( $opctl{$name}[CTL_DEST] == CTL_DEST_HASH ) { # } # else { # Ok. # } } elsif ( $rl eq "CODE" ) { # Ok. } else { $error .= "Invalid option linkage for \"$opt\"\n"; } } else { # Link to global $opt_XXX variable. # Make sure a valid perl identifier results. my $ov = $orig; $ov =~ s/\W/_/g; if ( $opctl{$name}[CTL_DEST] == CTL_DEST_ARRAY ) { print STDERR ("=> link \"$orig\" to \@$pkg","::opt_$ov\n") if $debug; eval ("\$linkage{\$orig} = \\\@".$pkg."::opt_$ov;"); } elsif ( $opctl{$name}[CTL_DEST] == CTL_DEST_HASH ) { print STDERR ("=> link \"$orig\" to \%$pkg","::opt_$ov\n") if $debug; eval ("\$linkage{\$orig} = \\\%".$pkg."::opt_$ov;"); } else { print STDERR ("=> link \"$orig\" to \$$pkg","::opt_$ov\n") if $debug; eval ("\$linkage{\$orig} = \\\$".$pkg."::opt_$ov;"); } } if ( $opctl{$name}[CTL_TYPE] eq 'I' && ( $opctl{$name}[CTL_DEST] == CTL_DEST_ARRAY || $opctl{$name}[CTL_DEST] == CTL_DEST_HASH ) ) { $error .= "Invalid option linkage for \"$opt\"\n"; } } # Bail out if errors found. die ($error) if $error; $error = 0; # Supply --version and --help support, if needed and allowed. if ( defined($auto_version) ? $auto_version : ($requested_version >= 2.3203) ) { if ( !defined($opctl{version}) ) { $opctl{version} = ['','version',0,CTL_DEST_CODE,undef]; $linkage{version} = \&VersionMessage; } $auto_version = 1; } if ( defined($auto_help) ? $auto_help : ($requested_version >= 2.3203) ) { if ( !defined($opctl{help}) && !defined($opctl{'?'}) ) { $opctl{help} = $opctl{'?'} = ['','help',0,CTL_DEST_CODE,undef]; $linkage{help} = \&HelpMessage; } $auto_help = 1; } # Show the options tables if debugging. if ( $debug ) { my ($arrow, $k, $v); $arrow = "=> "; while ( ($k,$v) = each(%opctl) ) { print STDERR ($arrow, "\$opctl{$k} = $v ", OptCtl($v), "\n"); $arrow = " "; } } # Process argument list my $goon = 1; while ( $goon && @$argv > 0 ) { # Get next argument. $opt = shift (@$argv); print STDERR ("=> arg \"", $opt, "\"\n") if $debug; # Double dash is option list terminator. if ( defined($opt) && $opt eq $argend ) { push (@ret, $argend) if $passthrough; last; } # Look it up. my $tryopt = $opt; my $found; # success status my $key; # key (if hash type) my $arg; # option argument my $ctl; # the opctl entry ($found, $opt, $ctl, $arg, $key) = FindOption ($argv, $prefix, $argend, $opt, \%opctl); if ( $found ) { # FindOption undefines $opt in case of errors. next unless defined $opt; my $argcnt = 0; while ( defined $arg ) { # Get the canonical name. print STDERR ("=> cname for \"$opt\" is ") if $debug; $opt = $ctl->[CTL_CNAME]; print STDERR ("\"$ctl->[CTL_CNAME]\"\n") if $debug; if ( defined $linkage{$opt} ) { print STDERR ("=> ref(\$L{$opt}) -> ", ref($linkage{$opt}), "\n") if $debug; if ( ref($linkage{$opt}) eq 'SCALAR' || ref($linkage{$opt}) eq 'REF' ) { if ( $ctl->[CTL_TYPE] eq '+' ) { print STDERR ("=> \$\$L{$opt} += \"$arg\"\n") if $debug; if ( defined ${$linkage{$opt}} ) { ${$linkage{$opt}} += $arg; } else { ${$linkage{$opt}} = $arg; } } elsif ( $ctl->[CTL_DEST] == CTL_DEST_ARRAY ) { print STDERR ("=> ref(\$L{$opt}) auto-vivified", " to ARRAY\n") if $debug; my $t = $linkage{$opt}; $$t = $linkage{$opt} = []; print STDERR ("=> push(\@{\$L{$opt}, \"$arg\")\n") if $debug; push (@{$linkage{$opt}}, $arg); } elsif ( $ctl->[CTL_DEST] == CTL_DEST_HASH ) { print STDERR ("=> ref(\$L{$opt}) auto-vivified", " to HASH\n") if $debug; my $t = $linkage{$opt}; $$t = $linkage{$opt} = {}; print STDERR ("=> \$\$L{$opt}->{$key} = \"$arg\"\n") if $debug; $linkage{$opt}->{$key} = $arg; } else { print STDERR ("=> \$\$L{$opt} = \"$arg\"\n") if $debug; ${$linkage{$opt}} = $arg; } } elsif ( ref($linkage{$opt}) eq 'ARRAY' ) { print STDERR ("=> push(\@{\$L{$opt}, \"$arg\")\n") if $debug; push (@{$linkage{$opt}}, $arg); } elsif ( ref($linkage{$opt}) eq 'HASH' ) { print STDERR ("=> \$\$L{$opt}->{$key} = \"$arg\"\n") if $debug; $linkage{$opt}->{$key} = $arg; } elsif ( ref($linkage{$opt}) eq 'CODE' ) { print STDERR ("=> &L{$opt}(\"$opt\"", $ctl->[CTL_DEST] == CTL_DEST_HASH ? ", \"$key\"" : "", ", \"$arg\")\n") if $debug; my $eval_error = do { local $@; local $SIG{__DIE__} = 'DEFAULT'; eval { &{$linkage{$opt}} (Getopt::Long::CallBack->new (name => $opt, ctl => $ctl, opctl => \%opctl, linkage => \%linkage, prefix => $prefix, ), $ctl->[CTL_DEST] == CTL_DEST_HASH ? ($key) : (), $arg); }; $@; }; print STDERR ("=> die($eval_error)\n") if $debug && $eval_error ne ''; if ( $eval_error =~ /^!/ ) { if ( $eval_error =~ /^!FINISH\b/ ) { $goon = 0; } } elsif ( $eval_error ne '' ) { warn ($eval_error); $error++; } } else { print STDERR ("Invalid REF type \"", ref($linkage{$opt}), "\" in linkage\n"); die("Getopt::Long -- internal error!\n"); } } # No entry in linkage means entry in userlinkage. elsif ( $ctl->[CTL_DEST] == CTL_DEST_ARRAY ) { if ( defined $userlinkage->{$opt} ) { print STDERR ("=> push(\@{\$L{$opt}}, \"$arg\")\n") if $debug; push (@{$userlinkage->{$opt}}, $arg); } else { print STDERR ("=>\$L{$opt} = [\"$arg\"]\n") if $debug; $userlinkage->{$opt} = [$arg]; } } elsif ( $ctl->[CTL_DEST] == CTL_DEST_HASH ) { if ( defined $userlinkage->{$opt} ) { print STDERR ("=> \$L{$opt}->{$key} = \"$arg\"\n") if $debug; $userlinkage->{$opt}->{$key} = $arg; } else { print STDERR ("=>\$L{$opt} = {$key => \"$arg\"}\n") if $debug; $userlinkage->{$opt} = {$key => $arg}; } } else { if ( $ctl->[CTL_TYPE] eq '+' ) { print STDERR ("=> \$L{$opt} += \"$arg\"\n") if $debug; if ( defined $userlinkage->{$opt} ) { $userlinkage->{$opt} += $arg; } else { $userlinkage->{$opt} = $arg; } } else { print STDERR ("=>\$L{$opt} = \"$arg\"\n") if $debug; $userlinkage->{$opt} = $arg; } } $argcnt++; last if $argcnt >= $ctl->[CTL_AMAX] && $ctl->[CTL_AMAX] != -1; undef($arg); # Need more args? if ( $argcnt < $ctl->[CTL_AMIN] ) { if ( @$argv ) { if ( ValidValue($ctl, $argv->[0], 1, $argend, $prefix) ) { $arg = shift(@$argv); if ( $ctl->[CTL_TYPE] =~ /^[iIo]$/ ) { $arg =~ tr/_//d; $arg = $ctl->[CTL_TYPE] eq 'o' && $arg =~ /^0/ ? oct($arg) : 0+$arg } ($key,$arg) = $arg =~ /^([^=]+)=(.*)/ if $ctl->[CTL_DEST] == CTL_DEST_HASH; next; } warn("Value \"$$argv[0]\" invalid for option $opt\n"); $error++; } else { warn("Insufficient arguments for option $opt\n"); $error++; } } # Any more args? if ( @$argv && ValidValue($ctl, $argv->[0], 0, $argend, $prefix) ) { $arg = shift(@$argv); if ( $ctl->[CTL_TYPE] =~ /^[iIo]$/ ) { $arg =~ tr/_//d; $arg = $ctl->[CTL_TYPE] eq 'o' && $arg =~ /^0/ ? oct($arg) : 0+$arg } ($key,$arg) = $arg =~ /^([^=]+)=(.*)/ if $ctl->[CTL_DEST] == CTL_DEST_HASH; next; } } } # Not an option. Save it if we $PERMUTE and don't have a <>. elsif ( $order == $PERMUTE ) { # Try non-options call-back. my $cb; if ( (defined ($cb = $linkage{'<>'})) ) { print STDERR ("=> &L{$tryopt}(\"$tryopt\")\n") if $debug; my $eval_error = do { local $@; local $SIG{__DIE__} = 'DEFAULT'; eval { # The arg to <> cannot be the CallBack object # since it may be passed to other modules that # get confused (e.g., Archive::Tar). Well, # it's not relevant for this callback anyway. &$cb($tryopt); }; $@; }; print STDERR ("=> die($eval_error)\n") if $debug && $eval_error ne ''; if ( $eval_error =~ /^!/ ) { if ( $eval_error =~ /^!FINISH\b/ ) { $goon = 0; } } elsif ( $eval_error ne '' ) { warn ($eval_error); $error++; } } else { print STDERR ("=> saving \"$tryopt\" ", "(not an option, may permute)\n") if $debug; push (@ret, $tryopt); } next; } # ...otherwise, terminate. else { # Push this one back and exit. unshift (@$argv, $tryopt); return ($error == 0); } } # Finish. if ( @ret && $order == $PERMUTE ) { # Push back accumulated arguments print STDERR ("=> restoring \"", join('" "', @ret), "\"\n") if $debug; unshift (@$argv, @ret); } return ($error == 0); } # A readable representation of what's in an optbl. sub OptCtl ($) { my ($v) = @_; my @v = map { defined($_) ? ($_) : ("") } @$v; "[". join(",", "\"$v[CTL_TYPE]\"", "\"$v[CTL_CNAME]\"", "\"$v[CTL_DEFAULT]\"", ("\$","\@","\%","\&")[$v[CTL_DEST] || 0], $v[CTL_AMIN] || '', $v[CTL_AMAX] || '', # $v[CTL_RANGE] || '', # $v[CTL_REPEAT] || '', ). "]"; } # Parse an option specification and fill the tables. sub ParseOptionSpec ($$) { my ($opt, $opctl) = @_; # Match option spec. if ( $opt !~ m;^ ( # Option name (?: \w+[-\w]* ) # Alias names, or "?" (?: \| (?: \? | \w[-\w]* ) )* # Aliases (?: \| (?: [^-|!+=:][^|!+=:]* )? )* )? ( # Either modifiers ... [!+] | # ... or a value/dest/repeat specification [=:] [ionfs] [@%]? (?: \{\d*,?\d*\} )? | # ... or an optional-with-default spec : (?: -?\d+ | \+ ) [@%]? )? $;x ) { return (undef, "Error in option spec: \"$opt\"\n"); } my ($names, $spec) = ($1, $2); $spec = '' unless defined $spec; # $orig keeps track of the primary name the user specified. # This name will be used for the internal or external linkage. # In other words, if the user specifies "FoO|BaR", it will # match any case combinations of 'foo' and 'bar', but if a global # variable needs to be set, it will be $opt_FoO in the exact case # as specified. my $orig; my @names; if ( defined $names ) { @names = split (/\|/, $names); $orig = $names[0]; } else { @names = (''); $orig = ''; } # Construct the opctl entries. my $entry; if ( $spec eq '' || $spec eq '+' || $spec eq '!' ) { # Fields are hard-wired here. $entry = [$spec,$orig,undef,CTL_DEST_SCALAR,0,0]; } elsif ( $spec =~ /^:(-?\d+|\+)([@%])?$/ ) { my $def = $1; my $dest = $2; my $type = $def eq '+' ? 'I' : 'i'; $dest ||= '$'; $dest = $dest eq '@' ? CTL_DEST_ARRAY : $dest eq '%' ? CTL_DEST_HASH : CTL_DEST_SCALAR; # Fields are hard-wired here. $entry = [$type,$orig,$def eq '+' ? undef : $def, $dest,0,1]; } else { my ($mand, $type, $dest) = $spec =~ /^([=:])([ionfs])([@%])?(\{(\d+)?(,)?(\d+)?\})?$/; return (undef, "Cannot repeat while bundling: \"$opt\"\n") if $bundling && defined($4); my ($mi, $cm, $ma) = ($5, $6, $7); return (undef, "{0} is useless in option spec: \"$opt\"\n") if defined($mi) && !$mi && !defined($ma) && !defined($cm); $type = 'i' if $type eq 'n'; $dest ||= '$'; $dest = $dest eq '@' ? CTL_DEST_ARRAY : $dest eq '%' ? CTL_DEST_HASH : CTL_DEST_SCALAR; # Default minargs to 1/0 depending on mand status. $mi = $mand eq '=' ? 1 : 0 unless defined $mi; # Adjust mand status according to minargs. $mand = $mi ? '=' : ':'; # Adjust maxargs. $ma = $mi ? $mi : 1 unless defined $ma || defined $cm; return (undef, "Max must be greater than zero in option spec: \"$opt\"\n") if defined($ma) && !$ma; return (undef, "Max less than min in option spec: \"$opt\"\n") if defined($ma) && $ma < $mi; # Fields are hard-wired here. $entry = [$type,$orig,undef,$dest,$mi,$ma||-1]; } # Process all names. First is canonical, the rest are aliases. my $dups = ''; foreach ( @names ) { $_ = lc ($_) if $ignorecase > (($bundling && length($_) == 1) ? 1 : 0); if ( exists $opctl->{$_} ) { $dups .= "Duplicate specification \"$opt\" for option \"$_\"\n"; } if ( $spec eq '!' ) { $opctl->{"no$_"} = $entry; $opctl->{"no-$_"} = $entry; $opctl->{$_} = [@$entry]; $opctl->{$_}->[CTL_TYPE] = ''; } else { $opctl->{$_} = $entry; } } if ( $dups && $^W ) { foreach ( split(/\n+/, $dups) ) { warn($_."\n"); } } ($names[0], $orig); } # Option lookup. sub FindOption ($$$$$) { # returns (1, $opt, $ctl, $arg, $key) if okay, # returns (1, undef) if option in error, # returns (0) otherwise. my ($argv, $prefix, $argend, $opt, $opctl) = @_; print STDERR ("=> find \"$opt\"\n") if $debug; return (0) unless defined($opt); return (0) unless $opt =~ /^($prefix)(.*)$/s; return (0) if $opt eq "-" && !defined $opctl->{''}; $opt = substr( $opt, length($1) ); # retain taintedness my $starter = $1; print STDERR ("=> split \"$starter\"+\"$opt\"\n") if $debug; my $optarg; # value supplied with --opt=value my $rest; # remainder from unbundling # If it is a long option, it may include the value. # With getopt_compat, only if not bundling. if ( ($starter=~/^$longprefix$/ || ($getopt_compat && ($bundling == 0 || $bundling == 2))) && (my $oppos = index($opt, '=', 1)) > 0) { my $optorg = $opt; $opt = substr($optorg, 0, $oppos); $optarg = substr($optorg, $oppos + 1); # retain tainedness print STDERR ("=> option \"", $opt, "\", optarg = \"$optarg\"\n") if $debug; } #### Look it up ### my $tryopt = $opt; # option to try if ( $bundling && $starter eq '-' ) { # To try overrides, obey case ignore. $tryopt = $ignorecase ? lc($opt) : $opt; # If bundling == 2, long options can override bundles. if ( $bundling == 2 && length($tryopt) > 1 && defined ($opctl->{$tryopt}) ) { print STDERR ("=> $starter$tryopt overrides unbundling\n") if $debug; } else { $tryopt = $opt; # Unbundle single letter option. $rest = length ($tryopt) > 0 ? substr ($tryopt, 1) : ''; $tryopt = substr ($tryopt, 0, 1); $tryopt = lc ($tryopt) if $ignorecase > 1; print STDERR ("=> $starter$tryopt unbundled from ", "$starter$tryopt$rest\n") if $debug; $rest = undef unless $rest ne ''; } } # Try auto-abbreviation. elsif ( $autoabbrev && $opt ne "" ) { # Sort the possible long option names. my @names = sort(keys (%$opctl)); # Downcase if allowed. $opt = lc ($opt) if $ignorecase; $tryopt = $opt; # Turn option name into pattern. my $pat = quotemeta ($opt); # Look up in option names. my @hits = grep (/^$pat/, @names); print STDERR ("=> ", scalar(@hits), " hits (@hits) with \"$pat\" ", "out of ", scalar(@names), "\n") if $debug; # Check for ambiguous results. unless ( (@hits <= 1) || (grep ($_ eq $opt, @hits) == 1) ) { # See if all matches are for the same option. my %hit; foreach ( @hits ) { my $hit = $opctl->{$_}->[CTL_CNAME] if defined $opctl->{$_}->[CTL_CNAME]; $hit = "no" . $hit if $opctl->{$_}->[CTL_TYPE] eq '!'; $hit{$hit} = 1; } # Remove auto-supplied options (version, help). if ( keys(%hit) == 2 ) { if ( $auto_version && exists($hit{version}) ) { delete $hit{version}; } elsif ( $auto_help && exists($hit{help}) ) { delete $hit{help}; } } # Now see if it really is ambiguous. unless ( keys(%hit) == 1 ) { return (0) if $passthrough; warn ("Option ", $opt, " is ambiguous (", join(", ", @hits), ")\n"); $error++; return (1, undef); } @hits = keys(%hit); } # Complete the option name, if appropriate. if ( @hits == 1 && $hits[0] ne $opt ) { $tryopt = $hits[0]; $tryopt = lc ($tryopt) if $ignorecase; print STDERR ("=> option \"$opt\" -> \"$tryopt\"\n") if $debug; } } # Map to all lowercase if ignoring case. elsif ( $ignorecase ) { $tryopt = lc ($opt); } # Check validity by fetching the info. my $ctl = $opctl->{$tryopt}; unless ( defined $ctl ) { return (0) if $passthrough; # Pretend one char when bundling. if ( $bundling == 1 && length($starter) == 1 ) { $opt = substr($opt,0,1); unshift (@$argv, $starter.$rest) if defined $rest; } if ( $opt eq "" ) { warn ("Missing option after ", $starter, "\n"); } else { warn ("Unknown option: ", $opt, "\n"); } $error++; return (1, undef); } # Apparently valid. $opt = $tryopt; print STDERR ("=> found ", OptCtl($ctl), " for \"", $opt, "\"\n") if $debug; #### Determine argument status #### # If it is an option w/o argument, we're almost finished with it. my $type = $ctl->[CTL_TYPE]; my $arg; if ( $type eq '' || $type eq '!' || $type eq '+' ) { if ( defined $optarg ) { return (0) if $passthrough; warn ("Option ", $opt, " does not take an argument\n"); $error++; undef $opt; } elsif ( $type eq '' || $type eq '+' ) { # Supply explicit value. $arg = 1; } else { $opt =~ s/^no-?//i; # strip NO prefix $arg = 0; # supply explicit value } unshift (@$argv, $starter.$rest) if defined $rest; return (1, $opt, $ctl, $arg); } # Get mandatory status and type info. my $mand = $ctl->[CTL_AMIN]; # Check if there is an option argument available. if ( $gnu_compat && defined $optarg && $optarg eq '' ) { return (1, $opt, $ctl, $type eq 's' ? '' : 0) ;#unless $mand; $optarg = 0 unless $type eq 's'; } # Check if there is an option argument available. if ( defined $optarg ? ($optarg eq '') : !(defined $rest || @$argv > 0) ) { # Complain if this option needs an argument. # if ( $mand && !($type eq 's' ? defined($optarg) : 0) ) { if ( $mand ) { return (0) if $passthrough; warn ("Option ", $opt, " requires an argument\n"); $error++; return (1, undef); } if ( $type eq 'I' ) { # Fake incremental type. my @c = @$ctl; $c[CTL_TYPE] = '+'; return (1, $opt, \@c, 1); } return (1, $opt, $ctl, defined($ctl->[CTL_DEFAULT]) ? $ctl->[CTL_DEFAULT] : $type eq 's' ? '' : 0); } # Get (possibly optional) argument. $arg = (defined $rest ? $rest : (defined $optarg ? $optarg : shift (@$argv))); # Get key if this is a "name=value" pair for a hash option. my $key; if ($ctl->[CTL_DEST] == CTL_DEST_HASH && defined $arg) { ($key, $arg) = ($arg =~ /^([^=]*)=(.*)$/s) ? ($1, $2) : ($arg, defined($ctl->[CTL_DEFAULT]) ? $ctl->[CTL_DEFAULT] : ($mand ? undef : ($type eq 's' ? "" : 1))); if (! defined $arg) { warn ("Option $opt, key \"$key\", requires a value\n"); $error++; # Push back. unshift (@$argv, $starter.$rest) if defined $rest; return (1, undef); } } #### Check if the argument is valid for this option #### my $key_valid = $ctl->[CTL_DEST] == CTL_DEST_HASH ? "[^=]+=" : ""; if ( $type eq 's' ) { # string # A mandatory string takes anything. return (1, $opt, $ctl, $arg, $key) if $mand; # Same for optional string as a hash value return (1, $opt, $ctl, $arg, $key) if $ctl->[CTL_DEST] == CTL_DEST_HASH; # An optional string takes almost anything. return (1, $opt, $ctl, $arg, $key) if defined $optarg || defined $rest; return (1, $opt, $ctl, $arg, $key) if $arg eq "-"; # ?? # Check for option or option list terminator. if ($arg eq $argend || $arg =~ /^$prefix.+/) { # Push back. unshift (@$argv, $arg); # Supply empty value. $arg = ''; } } elsif ( $type eq 'i' # numeric/integer || $type eq 'I' # numeric/integer w/ incr default || $type eq 'o' ) { # dec/oct/hex/bin value my $o_valid = $type eq 'o' ? PAT_XINT : PAT_INT; if ( $bundling && defined $rest && $rest =~ /^($key_valid)($o_valid)(.*)$/si ) { ($key, $arg, $rest) = ($1, $2, $+); chop($key) if $key; $arg = ($type eq 'o' && $arg =~ /^0/) ? oct($arg) : 0+$arg; unshift (@$argv, $starter.$rest) if defined $rest && $rest ne ''; } elsif ( $arg =~ /^$o_valid$/si ) { $arg =~ tr/_//d; $arg = ($type eq 'o' && $arg =~ /^0/) ? oct($arg) : 0+$arg; } else { if ( defined $optarg || $mand ) { if ( $passthrough ) { unshift (@$argv, defined $rest ? $starter.$rest : $arg) unless defined $optarg; return (0); } warn ("Value \"", $arg, "\" invalid for option ", $opt, " (", $type eq 'o' ? "extended " : '', "number expected)\n"); $error++; # Push back. unshift (@$argv, $starter.$rest) if defined $rest; return (1, undef); } else { # Push back. unshift (@$argv, defined $rest ? $starter.$rest : $arg); if ( $type eq 'I' ) { # Fake incremental type. my @c = @$ctl; $c[CTL_TYPE] = '+'; return (1, $opt, \@c, 1); } # Supply default value. $arg = defined($ctl->[CTL_DEFAULT]) ? $ctl->[CTL_DEFAULT] : 0; } } } elsif ( $type eq 'f' ) { # real number, int is also ok # We require at least one digit before a point or 'e', # and at least one digit following the point and 'e'. # [-]NN[.NN][eNN] my $o_valid = PAT_FLOAT; if ( $bundling && defined $rest && $rest =~ /^($key_valid)($o_valid)(.*)$/s ) { $arg =~ tr/_//d; ($key, $arg, $rest) = ($1, $2, $+); chop($key) if $key; unshift (@$argv, $starter.$rest) if defined $rest && $rest ne ''; } elsif ( $arg =~ /^$o_valid$/ ) { $arg =~ tr/_//d; } else { if ( defined $optarg || $mand ) { if ( $passthrough ) { unshift (@$argv, defined $rest ? $starter.$rest : $arg) unless defined $optarg; return (0); } warn ("Value \"", $arg, "\" invalid for option ", $opt, " (real number expected)\n"); $error++; # Push back. unshift (@$argv, $starter.$rest) if defined $rest; return (1, undef); } else { # Push back. unshift (@$argv, defined $rest ? $starter.$rest : $arg); # Supply default value. $arg = 0.0; } } } else { die("Getopt::Long internal error (Can't happen)\n"); } return (1, $opt, $ctl, $arg, $key); } sub ValidValue ($$$$$) { my ($ctl, $arg, $mand, $argend, $prefix) = @_; if ( $ctl->[CTL_DEST] == CTL_DEST_HASH ) { return 0 unless $arg =~ /[^=]+=(.*)/; $arg = $1; } my $type = $ctl->[CTL_TYPE]; if ( $type eq 's' ) { # string # A mandatory string takes anything. return (1) if $mand; return (1) if $arg eq "-"; # Check for option or option list terminator. return 0 if $arg eq $argend || $arg =~ /^$prefix.+/; return 1; } elsif ( $type eq 'i' # numeric/integer || $type eq 'I' # numeric/integer w/ incr default || $type eq 'o' ) { # dec/oct/hex/bin value my $o_valid = $type eq 'o' ? PAT_XINT : PAT_INT; return $arg =~ /^$o_valid$/si; } elsif ( $type eq 'f' ) { # real number, int is also ok # We require at least one digit before a point or 'e', # and at least one digit following the point and 'e'. # [-]NN[.NN][eNN] my $o_valid = PAT_FLOAT; return $arg =~ /^$o_valid$/; } die("ValidValue: Cannot happen\n"); } # Getopt::Long Configuration. sub Configure (@) { my (@options) = @_; my $prevconfig = [ $error, $debug, $major_version, $minor_version, $autoabbrev, $getopt_compat, $ignorecase, $bundling, $order, $gnu_compat, $passthrough, $genprefix, $auto_version, $auto_help, $longprefix ]; if ( ref($options[0]) eq 'ARRAY' ) { ( $error, $debug, $major_version, $minor_version, $autoabbrev, $getopt_compat, $ignorecase, $bundling, $order, $gnu_compat, $passthrough, $genprefix, $auto_version, $auto_help, $longprefix ) = @{shift(@options)}; } my $opt; foreach $opt ( @options ) { my $try = lc ($opt); my $action = 1; if ( $try =~ /^no_?(.*)$/s ) { $action = 0; $try = $+; } if ( ($try eq 'default' or $try eq 'defaults') && $action ) { ConfigDefaults (); } elsif ( ($try eq 'posix_default' or $try eq 'posix_defaults') ) { local $ENV{POSIXLY_CORRECT}; $ENV{POSIXLY_CORRECT} = 1 if $action; ConfigDefaults (); } elsif ( $try eq 'auto_abbrev' or $try eq 'autoabbrev' ) { $autoabbrev = $action; } elsif ( $try eq 'getopt_compat' ) { $getopt_compat = $action; $genprefix = $action ? "(--|-|\\+)" : "(--|-)"; } elsif ( $try eq 'gnu_getopt' ) { if ( $action ) { $gnu_compat = 1; $bundling = 1; $getopt_compat = 0; $genprefix = "(--|-)"; $order = $PERMUTE; } } elsif ( $try eq 'gnu_compat' ) { $gnu_compat = $action; } elsif ( $try =~ /^(auto_?)?version$/ ) { $auto_version = $action; } elsif ( $try =~ /^(auto_?)?help$/ ) { $auto_help = $action; } elsif ( $try eq 'ignorecase' or $try eq 'ignore_case' ) { $ignorecase = $action; } elsif ( $try eq 'ignorecase_always' or $try eq 'ignore_case_always' ) { $ignorecase = $action ? 2 : 0; } elsif ( $try eq 'bundling' ) { $bundling = $action; } elsif ( $try eq 'bundling_override' ) { $bundling = $action ? 2 : 0; } elsif ( $try eq 'require_order' ) { $order = $action ? $REQUIRE_ORDER : $PERMUTE; } elsif ( $try eq 'permute' ) { $order = $action ? $PERMUTE : $REQUIRE_ORDER; } elsif ( $try eq 'pass_through' or $try eq 'passthrough' ) { $passthrough = $action; } elsif ( $try =~ /^prefix=(.+)$/ && $action ) { $genprefix = $1; # Turn into regexp. Needs to be parenthesized! $genprefix = "(" . quotemeta($genprefix) . ")"; eval { '' =~ /$genprefix/; }; die("Getopt::Long: invalid pattern \"$genprefix\"\n") if $@; } elsif ( $try =~ /^prefix_pattern=(.+)$/ && $action ) { $genprefix = $1; # Parenthesize if needed. $genprefix = "(" . $genprefix . ")" unless $genprefix =~ /^\(.*\)$/; eval { '' =~ m"$genprefix"; }; die("Getopt::Long: invalid pattern \"$genprefix\"\n") if $@; } elsif ( $try =~ /^long_prefix_pattern=(.+)$/ && $action ) { $longprefix = $1; # Parenthesize if needed. $longprefix = "(" . $longprefix . ")" unless $longprefix =~ /^\(.*\)$/; eval { '' =~ m"$longprefix"; }; die("Getopt::Long: invalid long prefix pattern \"$longprefix\"\n") if $@; } elsif ( $try eq 'debug' ) { $debug = $action; } else { die("Getopt::Long: unknown or erroneous config parameter \"$opt\"\n") } } $prevconfig; } # Deprecated name. sub config (@) { Configure (@_); } # Issue a standard message for --version. # # The arguments are mostly the same as for Pod::Usage::pod2usage: # # - a number (exit value) # - a string (lead in message) # - a hash with options. See Pod::Usage for details. # sub VersionMessage(@) { # Massage args. my $pa = setup_pa_args("version", @_); my $v = $main::VERSION; my $fh = $pa->{-output} || ($pa->{-exitval} eq "NOEXIT" || $pa->{-exitval} < 2) ? \*STDOUT : \*STDERR; print $fh (defined($pa->{-message}) ? $pa->{-message} : (), $0, defined $v ? " version $v" : (), "\n", "(", __PACKAGE__, "::", "GetOptions", " version ", defined($Getopt::Long::VERSION_STRING) ? $Getopt::Long::VERSION_STRING : $VERSION, ";", " Perl version ", $] >= 5.006 ? sprintf("%vd", $^V) : $], ")\n"); exit($pa->{-exitval}) unless $pa->{-exitval} eq "NOEXIT"; } # Issue a standard message for --help. # # The arguments are the same as for Pod::Usage::pod2usage: # # - a number (exit value) # - a string (lead in message) # - a hash with options. See Pod::Usage for details. # sub HelpMessage(@) { eval { require Pod::Usage; import Pod::Usage; 1; } || die("Cannot provide help: cannot load Pod::Usage\n"); # Note that pod2usage will issue a warning if -exitval => NOEXIT. pod2usage(setup_pa_args("help", @_)); } # Helper routine to set up a normalized hash ref to be used as # argument to pod2usage. sub setup_pa_args($@) { my $tag = shift; # who's calling # If called by direct binding to an option, it will get the option # name and value as arguments. Remove these, if so. @_ = () if @_ == 2 && $_[0] eq $tag; my $pa; if ( @_ > 1 ) { $pa = { @_ }; } else { $pa = shift || {}; } # At this point, $pa can be a number (exit value), string # (message) or hash with options. if ( UNIVERSAL::isa($pa, 'HASH') ) { # Get rid of -msg vs. -message ambiguity. $pa->{-message} = $pa->{-msg}; delete($pa->{-msg}); } elsif ( $pa =~ /^-?\d+$/ ) { $pa = { -exitval => $pa }; } else { $pa = { -message => $pa }; } # These are _our_ defaults. $pa->{-verbose} = 0 unless exists($pa->{-verbose}); $pa->{-exitval} = 0 unless exists($pa->{-exitval}); $pa; } # Sneak way to know what version the user requested. sub VERSION { $requested_version = $_[1]; shift->SUPER::VERSION(@_); } package Getopt::Long::CallBack; sub new { my ($pkg, %atts) = @_; bless { %atts }, $pkg; } sub name { my $self = shift; ''.$self->{name}; } use overload # Treat this object as an ordinary string for legacy API. '""' => \&name, fallback => 1; 1; ################ Documentation ################ =head1 NAME Getopt::Long - Extended processing of command line options =head1 SYNOPSIS use Getopt::Long; my $data = "file.dat"; my $length = 24; my $verbose; GetOptions ("length=i" => \$length, # numeric "file=s" => \$data, # string "verbose" => \$verbose) # flag or die("Error in command line arguments\n"); =head1 DESCRIPTION The Getopt::Long module implements an extended getopt function called GetOptions(). It parses the command line from C<@ARGV>, recognizing and removing specified options and their possible values. This function adheres to the POSIX syntax for command line options, with GNU extensions. In general, this means that options have long names instead of single letters, and are introduced with a double dash "--". Support for bundling of command line options, as was the case with the more traditional single-letter approach, is provided but not enabled by default. =head1 Command Line Options, an Introduction Command line operated programs traditionally take their arguments from the command line, for example filenames or other information that the program needs to know. Besides arguments, these programs often take command line I as well. Options are not necessary for the program to work, hence the name 'option', but are used to modify its default behaviour. For example, a program could do its job quietly, but with a suitable option it could provide verbose information about what it did. Command line options come in several flavours. Historically, they are preceded by a single dash C<->, and consist of a single letter. -l -a -c Usually, these single-character options can be bundled: -lac Options can have values, the value is placed after the option character. Sometimes with whitespace in between, sometimes not: -s 24 -s24 Due to the very cryptic nature of these options, another style was developed that used long names. So instead of a cryptic C<-l> one could use the more descriptive C<--long>. To distinguish between a bundle of single-character options and a long one, two dashes are used to precede the option name. Early implementations of long options used a plus C<+> instead. Also, option values could be specified either like --size=24 or --size 24 The C<+> form is now obsolete and strongly deprecated. =head1 Getting Started with Getopt::Long Getopt::Long is the Perl5 successor of C. This was the first Perl module that provided support for handling the new style of command line options, in particular long option names, hence the Perl5 name Getopt::Long. This module also supports single-character options and bundling. To use Getopt::Long from a Perl program, you must include the following line in your Perl program: use Getopt::Long; This will load the core of the Getopt::Long module and prepare your program for using it. Most of the actual Getopt::Long code is not loaded until you really call one of its functions. In the default configuration, options names may be abbreviated to uniqueness, case does not matter, and a single dash is sufficient, even for long option names. Also, options may be placed between non-option arguments. See L for more details on how to configure Getopt::Long. =head2 Simple options The most simple options are the ones that take no values. Their mere presence on the command line enables the option. Popular examples are: --all --verbose --quiet --debug Handling simple options is straightforward: my $verbose = ''; # option variable with default value (false) my $all = ''; # option variable with default value (false) GetOptions ('verbose' => \$verbose, 'all' => \$all); The call to GetOptions() parses the command line arguments that are present in C<@ARGV> and sets the option variable to the value C<1> if the option did occur on the command line. Otherwise, the option variable is not touched. Setting the option value to true is often called I the option. The option name as specified to the GetOptions() function is called the option I. Later we'll see that this specification can contain more than just the option name. The reference to the variable is called the option I. GetOptions() will return a true value if the command line could be processed successfully. Otherwise, it will write error messages using die() and warn(), and return a false result. =head2 A little bit less simple options Getopt::Long supports two useful variants of simple options: I options and I options. A negatable option is specified with an exclamation mark C after the option name: my $verbose = ''; # option variable with default value (false) GetOptions ('verbose!' => \$verbose); Now, using C<--verbose> on the command line will enable C<$verbose>, as expected. But it is also allowed to use C<--noverbose>, which will disable C<$verbose> by setting its value to C<0>. Using a suitable default value, the program can find out whether C<$verbose> is false by default, or disabled by using C<--noverbose>. An incremental option is specified with a plus C<+> after the option name: my $verbose = ''; # option variable with default value (false) GetOptions ('verbose+' => \$verbose); Using C<--verbose> on the command line will increment the value of C<$verbose>. This way the program can keep track of how many times the option occurred on the command line. For example, each occurrence of C<--verbose> could increase the verbosity level of the program. =head2 Mixing command line option with other arguments Usually programs take command line options as well as other arguments, for example, file names. It is good practice to always specify the options first, and the other arguments last. Getopt::Long will, however, allow the options and arguments to be mixed and 'filter out' all the options before passing the rest of the arguments to the program. To stop Getopt::Long from processing further arguments, insert a double dash C<--> on the command line: --size 24 -- --all In this example, C<--all> will I be treated as an option, but passed to the program unharmed, in C<@ARGV>. =head2 Options with values For options that take values it must be specified whether the option value is required or not, and what kind of value the option expects. Three kinds of values are supported: integer numbers, floating point numbers, and strings. If the option value is required, Getopt::Long will take the command line argument that follows the option and assign this to the option variable. If, however, the option value is specified as optional, this will only be done if that value does not look like a valid command line option itself. my $tag = ''; # option variable with default value GetOptions ('tag=s' => \$tag); In the option specification, the option name is followed by an equals sign C<=> and the letter C. The equals sign indicates that this option requires a value. The letter C indicates that this value is an arbitrary string. Other possible value types are C for integer values, and C for floating point values. Using a colon C<:> instead of the equals sign indicates that the option value is optional. In this case, if no suitable value is supplied, string valued options get an empty string C<''> assigned, while numeric options are set to C<0>. =head2 Options with multiple values Options sometimes take several values. For example, a program could use multiple directories to search for library files: --library lib/stdlib --library lib/extlib To accomplish this behaviour, simply specify an array reference as the destination for the option: GetOptions ("library=s" => \@libfiles); Alternatively, you can specify that the option can have multiple values by adding a "@", and pass a scalar reference as the destination: GetOptions ("library=s@" => \$libfiles); Used with the example above, C<@libfiles> (or C<@$libfiles>) would contain two strings upon completion: C<"lib/stdlib"> and C<"lib/extlib">, in that order. It is also possible to specify that only integer or floating point numbers are acceptable values. Often it is useful to allow comma-separated lists of values as well as multiple occurrences of the options. This is easy using Perl's split() and join() operators: GetOptions ("library=s" => \@libfiles); @libfiles = split(/,/,join(',',@libfiles)); Of course, it is important to choose the right separator string for each purpose. Warning: What follows is an experimental feature. Options can take multiple values at once, for example --coordinates 52.2 16.4 --rgbcolor 255 255 149 This can be accomplished by adding a repeat specifier to the option specification. Repeat specifiers are very similar to the C<{...}> repeat specifiers that can be used with regular expression patterns. For example, the above command line would be handled as follows: GetOptions('coordinates=f{2}' => \@coor, 'rgbcolor=i{3}' => \@color); The destination for the option must be an array or array reference. It is also possible to specify the minimal and maximal number of arguments an option takes. C indicates an option that takes at least two and at most 4 arguments. C indicates one or more values; C indicates zero or more option values. =head2 Options with hash values If the option destination is a reference to a hash, the option will take, as value, strings of the form IC<=>I. The value will be stored with the specified key in the hash. GetOptions ("define=s" => \%defines); Alternatively you can use: GetOptions ("define=s%" => \$defines); When used with command line options: --define os=linux --define vendor=redhat the hash C<%defines> (or C<%$defines>) will contain two keys, C<"os"> with value C<"linux"> and C<"vendor"> with value C<"redhat">. It is also possible to specify that only integer or floating point numbers are acceptable values. The keys are always taken to be strings. =head2 User-defined subroutines to handle options Ultimate control over what should be done when (actually: each time) an option is encountered on the command line can be achieved by designating a reference to a subroutine (or an anonymous subroutine) as the option destination. When GetOptions() encounters the option, it will call the subroutine with two or three arguments. The first argument is the name of the option. (Actually, it is an object that stringifies to the name of the option.) For a scalar or array destination, the second argument is the value to be stored. For a hash destination, the second argument is the key to the hash, and the third argument the value to be stored. It is up to the subroutine to store the value, or do whatever it thinks is appropriate. A trivial application of this mechanism is to implement options that are related to each other. For example: my $verbose = ''; # option variable with default value (false) GetOptions ('verbose' => \$verbose, 'quiet' => sub { $verbose = 0 }); Here C<--verbose> and C<--quiet> control the same variable C<$verbose>, but with opposite values. If the subroutine needs to signal an error, it should call die() with the desired error message as its argument. GetOptions() will catch the die(), issue the error message, and record that an error result must be returned upon completion. If the text of the error message starts with an exclamation mark C it is interpreted specially by GetOptions(). There is currently one special command implemented: C will cause GetOptions() to stop processing options, as if it encountered a double dash C<-->. In version 2.37 the first argument to the callback function was changed from string to object. This was done to make room for extensions and more detailed control. The object stringifies to the option name so this change should not introduce compatibility problems. Here is an example of how to access the option name and value from within a subroutine: GetOptions ('opt=i' => \&handler); sub handler { my ($opt_name, $opt_value) = @_; print("Option name is $opt_name and value is $opt_value\n"); } =head2 Options with multiple names Often it is user friendly to supply alternate mnemonic names for options. For example C<--height> could be an alternate name for C<--length>. Alternate names can be included in the option specification, separated by vertical bar C<|> characters. To implement the above example: GetOptions ('length|height=f' => \$length); The first name is called the I name, the other names are called I. When using a hash to store options, the key will always be the primary name. Multiple alternate names are possible. =head2 Case and abbreviations Without additional configuration, GetOptions() will ignore the case of option names, and allow the options to be abbreviated to uniqueness. GetOptions ('length|height=f' => \$length, "head" => \$head); This call will allow C<--l> and C<--L> for the length option, but requires a least C<--hea> and C<--hei> for the head and height options. =head2 Summary of Option Specifications Each option specifier consists of two parts: the name specification and the argument specification. The name specification contains the name of the option, optionally followed by a list of alternative names separated by vertical bar characters. length option name is "length" length|size|l name is "length", aliases are "size" and "l" The argument specification is optional. If omitted, the option is considered boolean, a value of 1 will be assigned when the option is used on the command line. The argument specification can be =over 4 =item ! The option does not take an argument and may be negated by prefixing it with "no" or "no-". E.g. C<"foo!"> will allow C<--foo> (a value of 1 will be assigned) as well as C<--nofoo> and C<--no-foo> (a value of 0 will be assigned). If the option has aliases, this applies to the aliases as well. Using negation on a single letter option when bundling is in effect is pointless and will result in a warning. =item + The option does not take an argument and will be incremented by 1 every time it appears on the command line. E.g. C<"more+">, when used with C<--more --more --more>, will increment the value three times, resulting in a value of 3 (provided it was 0 or undefined at first). The C<+> specifier is ignored if the option destination is not a scalar. =item = I [ I ] [ I ] The option requires an argument of the given type. Supported types are: =over 4 =item s String. An arbitrary sequence of characters. It is valid for the argument to start with C<-> or C<-->. =item i Integer. An optional leading plus or minus sign, followed by a sequence of digits. =item o Extended integer, Perl style. This can be either an optional leading plus or minus sign, followed by a sequence of digits, or an octal string (a zero, optionally followed by '0', '1', .. '7'), or a hexadecimal string (C<0x> followed by '0' .. '9', 'a' .. 'f', case insensitive), or a binary string (C<0b> followed by a series of '0' and '1'). =item f Real number. For example C<3.14>, C<-6.23E24> and so on. =back The I can be C<@> or C<%> to specify that the option is list or a hash valued. This is only needed when the destination for the option value is not otherwise specified. It should be omitted when not needed. The I specifies the number of values this option takes per occurrence on the command line. It has the format C<{> [ I ] [ C<,> [ I ] ] C<}>. I denotes the minimal number of arguments. It defaults to 1 for options with C<=> and to 0 for options with C<:>, see below. Note that I overrules the C<=> / C<:> semantics. I denotes the maximum number of arguments. It must be at least I. If I is omitted, I, there is no upper bound to the number of argument values taken. =item : I [ I ] Like C<=>, but designates the argument as optional. If omitted, an empty string will be assigned to string values options, and the value zero to numeric options. Note that if a string argument starts with C<-> or C<-->, it will be considered an option on itself. =item : I [ I ] Like C<:i>, but if the value is omitted, the I will be assigned. =item : + [ I ] Like C<:i>, but if the value is omitted, the current value for the option will be incremented. =back =head1 Advanced Possibilities =head2 Object oriented interface Getopt::Long can be used in an object oriented way as well: use Getopt::Long; $p = Getopt::Long::Parser->new; $p->configure(...configuration options...); if ($p->getoptions(...options descriptions...)) ... if ($p->getoptionsfromarray( \@array, ...options descriptions...)) ... Configuration options can be passed to the constructor: $p = new Getopt::Long::Parser config => [...configuration options...]; =head2 Thread Safety Getopt::Long is thread safe when using ithreads as of Perl 5.8. It is I thread safe when using the older (experimental and now obsolete) threads implementation that was added to Perl 5.005. =head2 Documentation and help texts Getopt::Long encourages the use of Pod::Usage to produce help messages. For example: use Getopt::Long; use Pod::Usage; my $man = 0; my $help = 0; GetOptions('help|?' => \$help, man => \$man) or pod2usage(2); pod2usage(1) if $help; pod2usage(-exitval => 0, -verbose => 2) if $man; __END__ =head1 NAME sample - Using Getopt::Long and Pod::Usage =head1 SYNOPSIS sample [options] [file ...] Options: -help brief help message -man full documentation =head1 OPTIONS =over 8 =item B<-help> Print a brief help message and exits. =item B<-man> Prints the manual page and exits. =back =head1 DESCRIPTION B will read the given input file(s) and do something useful with the contents thereof. =cut See L for details. =head2 Parsing options from an arbitrary array By default, GetOptions parses the options that are present in the global array C<@ARGV>. A special entry C can be used to parse options from an arbitrary array. use Getopt::Long qw(GetOptionsFromArray); $ret = GetOptionsFromArray(\@myopts, ...); When used like this, options and their possible values are removed from C<@myopts>, the global C<@ARGV> is not touched at all. The following two calls behave identically: $ret = GetOptions( ... ); $ret = GetOptionsFromArray(\@ARGV, ... ); This also means that a first argument hash reference now becomes the second argument: $ret = GetOptions(\%opts, ... ); $ret = GetOptionsFromArray(\@ARGV, \%opts, ... ); =head2 Parsing options from an arbitrary string A special entry C can be used to parse options from an arbitrary string. use Getopt::Long qw(GetOptionsFromString); $ret = GetOptionsFromString($string, ...); The contents of the string are split into arguments using a call to C. As with C, the global C<@ARGV> is not touched. It is possible that, upon completion, not all arguments in the string have been processed. C will, when called in list context, return both the return status and an array reference to any remaining arguments: ($ret, $args) = GetOptionsFromString($string, ... ); If any arguments remain, and C was not called in list context, a message will be given and C will return failure. As with GetOptionsFromArray, a first argument hash reference now becomes the second argument. =head2 Storing options values in a hash Sometimes, for example when there are a lot of options, having a separate variable for each of them can be cumbersome. GetOptions() supports, as an alternative mechanism, storing options values in a hash. To obtain this, a reference to a hash must be passed I to GetOptions(). For each option that is specified on the command line, the option value will be stored in the hash with the option name as key. Options that are not actually used on the command line will not be put in the hash, on other words, C (or defined()) can be used to test if an option was used. The drawback is that warnings will be issued if the program runs under C and uses C<$h{option}> without testing with exists() or defined() first. my %h = (); GetOptions (\%h, 'length=i'); # will store in $h{length} For options that take list or hash values, it is necessary to indicate this by appending an C<@> or C<%> sign after the type: GetOptions (\%h, 'colours=s@'); # will push to @{$h{colours}} To make things more complicated, the hash may contain references to the actual destinations, for example: my $len = 0; my %h = ('length' => \$len); GetOptions (\%h, 'length=i'); # will store in $len This example is fully equivalent with: my $len = 0; GetOptions ('length=i' => \$len); # will store in $len Any mixture is possible. For example, the most frequently used options could be stored in variables while all other options get stored in the hash: my $verbose = 0; # frequently referred my $debug = 0; # frequently referred my %h = ('verbose' => \$verbose, 'debug' => \$debug); GetOptions (\%h, 'verbose', 'debug', 'filter', 'size=i'); if ( $verbose ) { ... } if ( exists $h{filter} ) { ... option 'filter' was specified ... } =head2 Bundling With bundling it is possible to set several single-character options at once. For example if C, C and C are all valid options, -vax would set all three. Getopt::Long supports two levels of bundling. To enable bundling, a call to Getopt::Long::Configure is required. The first level of bundling can be enabled with: Getopt::Long::Configure ("bundling"); Configured this way, single-character options can be bundled but long options B always start with a double dash C<--> to avoid ambiguity. For example, when C, C, C and C are all valid options, -vax would set C, C and C, but --vax would set C. The second level of bundling lifts this restriction. It can be enabled with: Getopt::Long::Configure ("bundling_override"); Now, C<-vax> would set the option C. When any level of bundling is enabled, option values may be inserted in the bundle. For example: -h24w80 is equivalent to -h 24 -w 80 When configured for bundling, single-character options are matched case sensitive while long options are matched case insensitive. To have the single-character options matched case insensitive as well, use: Getopt::Long::Configure ("bundling", "ignorecase_always"); It goes without saying that bundling can be quite confusing. =head2 The lonesome dash Normally, a lone dash C<-> on the command line will not be considered an option. Option processing will terminate (unless "permute" is configured) and the dash will be left in C<@ARGV>. It is possible to get special treatment for a lone dash. This can be achieved by adding an option specification with an empty name, for example: GetOptions ('' => \$stdio); A lone dash on the command line will now be a legal option, and using it will set variable C<$stdio>. =head2 Argument callback A special option 'name' C<< <> >> can be used to designate a subroutine to handle non-option arguments. When GetOptions() encounters an argument that does not look like an option, it will immediately call this subroutine and passes it one parameter: the argument name. Well, actually it is an object that stringifies to the argument name. For example: my $width = 80; sub process { ... } GetOptions ('width=i' => \$width, '<>' => \&process); When applied to the following command line: arg1 --width=72 arg2 --width=60 arg3 This will call C while C<$width> is C<80>, C while C<$width> is C<72>, and C while C<$width> is C<60>. This feature requires configuration option B, see section L. =head1 Configuring Getopt::Long Getopt::Long can be configured by calling subroutine Getopt::Long::Configure(). This subroutine takes a list of quoted strings, each specifying a configuration option to be enabled, e.g. C, or disabled, e.g. C. Case does not matter. Multiple calls to Configure() are possible. Alternatively, as of version 2.24, the configuration options may be passed together with the C statement: use Getopt::Long qw(:config no_ignore_case bundling); The following options are available: =over 12 =item default This option causes all configuration options to be reset to their default values. =item posix_default This option causes all configuration options to be reset to their default values as if the environment variable POSIXLY_CORRECT had been set. =item auto_abbrev Allow option names to be abbreviated to uniqueness. Default is enabled unless environment variable POSIXLY_CORRECT has been set, in which case C is disabled. =item getopt_compat Allow C<+> to start options. Default is enabled unless environment variable POSIXLY_CORRECT has been set, in which case C is disabled. =item gnu_compat C controls whether C<--opt=> is allowed, and what it should do. Without C, C<--opt=> gives an error. With C, C<--opt=> will give option C and empty value. This is the way GNU getopt_long() does it. =item gnu_getopt This is a short way of setting C C C C. With C, command line handling should be fully compatible with GNU getopt_long(). =item require_order Whether command line arguments are allowed to be mixed with options. Default is disabled unless environment variable POSIXLY_CORRECT has been set, in which case C is enabled. See also C, which is the opposite of C. =item permute Whether command line arguments are allowed to be mixed with options. Default is enabled unless environment variable POSIXLY_CORRECT has been set, in which case C is disabled. Note that C is the opposite of C. If C is enabled, this means that --foo arg1 --bar arg2 arg3 is equivalent to --foo --bar arg1 arg2 arg3 If an argument callback routine is specified, C<@ARGV> will always be empty upon successful return of GetOptions() since all options have been processed. The only exception is when C<--> is used: --foo arg1 --bar arg2 -- arg3 This will call the callback routine for arg1 and arg2, and then terminate GetOptions() leaving C<"arg3"> in C<@ARGV>. If C is enabled, options processing terminates when the first non-option is encountered. --foo arg1 --bar arg2 arg3 is equivalent to --foo -- arg1 --bar arg2 arg3 If C is also enabled, options processing will terminate at the first unrecognized option, or non-option, whichever comes first. =item bundling (default: disabled) Enabling this option will allow single-character options to be bundled. To distinguish bundles from long option names, long options I be introduced with C<--> and bundles with C<->. Note that, if you have options C, C and C, and auto_abbrev enabled, possible arguments and option settings are: using argument sets option(s) ------------------------------------------ -a, --a a -l, --l l -al, -la, -ala, -all,... a, l --al, --all all The surprising part is that C<--a> sets option C (due to auto completion), not C. Note: disabling C also disables C. =item bundling_override (default: disabled) If C is enabled, bundling is enabled as with C but now long option names override option bundles. Note: disabling C also disables C. B Using option bundling can easily lead to unexpected results, especially when mixing long options and bundles. Caveat emptor. =item ignore_case (default: enabled) If enabled, case is ignored when matching option names. If, however, bundling is enabled as well, single character options will be treated case-sensitive. With C, option specifications for options that only differ in case, e.g., C<"foo"> and C<"Foo">, will be flagged as duplicates. Note: disabling C also disables C. =item ignore_case_always (default: disabled) When bundling is in effect, case is ignored on single-character options also. Note: disabling C also disables C. =item auto_version (default:disabled) Automatically provide support for the B<--version> option if the application did not specify a handler for this option itself. Getopt::Long will provide a standard version message that includes the program name, its version (if $main::VERSION is defined), and the versions of Getopt::Long and Perl. The message will be written to standard output and processing will terminate. C will be enabled if the calling program explicitly specified a version number higher than 2.32 in the C or C statement. =item auto_help (default:disabled) Automatically provide support for the B<--help> and B<-?> options if the application did not specify a handler for this option itself. Getopt::Long will provide a help message using module L. The message, derived from the SYNOPSIS POD section, will be written to standard output and processing will terminate. C will be enabled if the calling program explicitly specified a version number higher than 2.32 in the C or C statement. =item pass_through (default: disabled) Options that are unknown, ambiguous or supplied with an invalid option value are passed through in C<@ARGV> instead of being flagged as errors. This makes it possible to write wrapper scripts that process only part of the user supplied command line arguments, and pass the remaining options to some other program. If C is enabled, options processing will terminate at the first unrecognized option, or non-option, whichever comes first. However, if C is enabled instead, results can become confusing. Note that the options terminator (default C<-->), if present, will also be passed through in C<@ARGV>. =item prefix The string that starts options. If a constant string is not sufficient, see C. =item prefix_pattern A Perl pattern that identifies the strings that introduce options. Default is C<--|-|\+> unless environment variable POSIXLY_CORRECT has been set, in which case it is C<--|->. =item long_prefix_pattern A Perl pattern that allows the disambiguation of long and short prefixes. Default is C<-->. Typically you only need to set this if you are using nonstandard prefixes and want some or all of them to have the same semantics as '--' does under normal circumstances. For example, setting prefix_pattern to C<--|-|\+|\/> and long_prefix_pattern to C<--|\/> would add Win32 style argument handling. =item debug (default: disabled) Enable debugging output. =back =head1 Exportable Methods =over =item VersionMessage This subroutine provides a standard version message. Its argument can be: =over 4 =item * A string containing the text of a message to print I printing the standard message. =item * A numeric value corresponding to the desired exit status. =item * A reference to a hash. =back If more than one argument is given then the entire argument list is assumed to be a hash. If a hash is supplied (either as a reference or as a list) it should contain one or more elements with the following keys: =over 4 =item C<-message> =item C<-msg> The text of a message to print immediately prior to printing the program's usage message. =item C<-exitval> The desired exit status to pass to the B function. This should be an integer, or else the string "NOEXIT" to indicate that control should simply be returned without terminating the invoking process. =item C<-output> A reference to a filehandle, or the pathname of a file to which the usage message should be written. The default is C<\*STDERR> unless the exit value is less than 2 (in which case the default is C<\*STDOUT>). =back You cannot tie this routine directly to an option, e.g.: GetOptions("version" => \&VersionMessage); Use this instead: GetOptions("version" => sub { VersionMessage() }); =item HelpMessage This subroutine produces a standard help message, derived from the program's POD section SYNOPSIS using L. It takes the same arguments as VersionMessage(). In particular, you cannot tie it directly to an option, e.g.: GetOptions("help" => \&HelpMessage); Use this instead: GetOptions("help" => sub { HelpMessage() }); =back =head1 Return values and Errors Configuration errors and errors in the option definitions are signalled using die() and will terminate the calling program unless the call to Getopt::Long::GetOptions() was embedded in C, or die() was trapped using C<$SIG{__DIE__}>. GetOptions returns true to indicate success. It returns false when the function detected one or more errors during option parsing. These errors are signalled using warn() and can be trapped with C<$SIG{__WARN__}>. =head1 Legacy The earliest development of C started in 1990, with Perl version 4. As a result, its development, and the development of Getopt::Long, has gone through several stages. Since backward compatibility has always been extremely important, the current version of Getopt::Long still supports a lot of constructs that nowadays are no longer necessary or otherwise unwanted. This section describes briefly some of these 'features'. =head2 Default destinations When no destination is specified for an option, GetOptions will store the resultant value in a global variable named CI, where I is the primary name of this option. When a program executes under C (recommended), these variables must be pre-declared with our() or C. our $opt_length = 0; GetOptions ('length=i'); # will store in $opt_length To yield a usable Perl variable, characters that are not part of the syntax for variables are translated to underscores. For example, C<--fpp-struct-return> will set the variable C<$opt_fpp_struct_return>. Note that this variable resides in the namespace of the calling program, not necessarily C
. For example: GetOptions ("size=i", "sizes=i@"); with command line "-size 10 -sizes 24 -sizes 48" will perform the equivalent of the assignments $opt_size = 10; @opt_sizes = (24, 48); =head2 Alternative option starters A string of alternative option starter characters may be passed as the first argument (or the first argument after a leading hash reference argument). my $len = 0; GetOptions ('/', 'length=i' => $len); Now the command line may look like: /length 24 -- arg Note that to terminate options processing still requires a double dash C<-->. GetOptions() will not interpret a leading C<< "<>" >> as option starters if the next argument is a reference. To force C<< "<" >> and C<< ">" >> as option starters, use C<< "><" >>. Confusing? Well, B anyway. =head2 Configuration variables Previous versions of Getopt::Long used variables for the purpose of configuring. Although manipulating these variables still work, it is strongly encouraged to use the C routine that was introduced in version 2.17. Besides, it is much easier. =head1 Tips and Techniques =head2 Pushing multiple values in a hash option Sometimes you want to combine the best of hashes and arrays. For example, the command line: --list add=first --list add=second --list add=third where each successive 'list add' option will push the value of add into array ref $list->{'add'}. The result would be like $list->{add} = [qw(first second third)]; This can be accomplished with a destination routine: GetOptions('list=s%' => sub { push(@{$list{$_[1]}}, $_[2]) }); =head1 Troubleshooting =head2 GetOptions does not return a false result when an option is not supplied That's why they're called 'options'. =head2 GetOptions does not split the command line correctly The command line is not split by GetOptions, but by the command line interpreter (CLI). On Unix, this is the shell. On Windows, it is COMMAND.COM or CMD.EXE. Other operating systems have other CLIs. It is important to know that these CLIs may behave different when the command line contains special characters, in particular quotes or backslashes. For example, with Unix shells you can use single quotes (C<'>) and double quotes (C<">) to group words together. The following alternatives are equivalent on Unix: "two words" 'two words' two\ words In case of doubt, insert the following statement in front of your Perl program: print STDERR (join("|",@ARGV),"\n"); to verify how your CLI passes the arguments to the program. =head2 Undefined subroutine &main::GetOptions called Are you running Windows, and did you write use GetOpt::Long; (note the capital 'O')? =head2 How do I put a "-?" option into a Getopt::Long? You can only obtain this using an alias, and Getopt::Long of at least version 2.13. use Getopt::Long; GetOptions ("help|?"); # -help and -? will both set $opt_help Other characters that can't appear in Perl identifiers are also supported as aliases with Getopt::Long of at least version 2.39. As of version 2.32 Getopt::Long provides auto-help, a quick and easy way to add the options --help and -? to your program, and handle them. See C in section L. =head1 AUTHOR Johan Vromans =head1 COPYRIGHT AND DISCLAIMER This program is Copyright 1990,2013 by Johan Vromans. This program is free software; you can redistribute it and/or modify it under the terms of the Perl Artistic License or the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. If you do not have a copy of the GNU General Public License write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. =cut