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Direktori : /proc/self/root/lib/x86_64-linux-gnu/perl-base/Getopt/ |
Current File : //proc/self/root/lib/x86_64-linux-gnu/perl-base/Getopt/Long.pm |
#! 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: Tue Aug 18 14:48:05 2020 # Update Count : 1739 # Status : Released ################ Module Preamble ################ use 5.004; use strict; use warnings; package Getopt::Long; use vars qw($VERSION); $VERSION = 2.52; # For testing versions only. use vars qw($VERSION_STRING); $VERSION_STRING = "2.52"; 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); # Really invisible variables. my $bundling_values; # 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 $bundling_values = 0; # no bundling of values } # 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 => "[-+]?". # optional sign "(?=[0-9.])". # must start with digit or dec.point "[0-9_]*". # digits before the dec.point "(\.[0-9_]+)?". # optional fraction "([eE][-+]?[0-9_]+)?"; # optional exponent 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_STRING ", "called from package \"$pkg\".", "\n ", "argv: ", defined($argv) ? UNIVERSAL::isa( $argv, 'ARRAY' ) ? "(@$argv)" : $argv : "<undef>", "\n ", "autoabbrev=$autoabbrev,". "bundling=$bundling,", "bundling_values=$bundling_values,", "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"; } } $error .= "GetOptionsFromArray: 1st parameter is not an array reference\n" unless $argv && UNIVERSAL::isa( $argv, 'ARRAY' ); # Bail out if errors found. die ($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. my $given = $opt; print STDERR ("=> cname for \"$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, given => $given, 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 || $passthrough ) ) { # 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($_) ? ($_) : ("<undef>") } @$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]* ) # 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 || $bundling_values ) && $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; } # If bundling_values, option may be followed by the value. elsif ( $bundling_values ) { $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; # Whatever remains may not be considered an option. $optarg = $rest eq '' ? undef : $rest; $rest = undef; } # Split off a single letter and leave the rest for # further processing. 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 > (($bundling && length($tryopt) == 1) ? 1 : 0); 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; undef $optarg if $bundling_values; } 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 ) { my $optargtype = 0; # none, 1 = empty, 2 = nonempty, 3 = aux if ( defined($optarg) ) { $optargtype = (length($optarg) == 0) ? 1 : 2; } elsif ( defined $rest || @$argv > 0 ) { # GNU getopt_long() does not accept the (optional) # argument to be passed to the option without = sign. # We do, since not doing so breaks existing scripts. $optargtype = 3; } if(($optargtype == 0) && !$mand) { if ( $type eq 'I' ) { # Fake incremental type. my @c = @$ctl; $c[CTL_TYPE] = '+'; return (1, $opt, \@c, 1); } my $val = defined($ctl->[CTL_DEFAULT]) ? $ctl->[CTL_DEFAULT] : $type eq 's' ? '' : 0; return (1, $opt, $ctl, $val); } return (1, $opt, $ctl, $type eq 's' ? '' : 0) if $optargtype == 1; # --foo= -> return nothing } # 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 || $ctl->[CTL_DEST] == CTL_DEST_HASH ) { 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 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 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, $caller, $autoabbrev, $getopt_compat, $ignorecase, $bundling, $order, $gnu_compat, $passthrough, $genprefix, $auto_version, $auto_help, $longprefix, $bundling_values ]; if ( ref($options[0]) eq 'ARRAY' ) { ( $error, $debug, $major_version, $minor_version, $caller, $autoabbrev, $getopt_compat, $ignorecase, $bundling, $order, $gnu_compat, $passthrough, $genprefix, $auto_version, $auto_help, $longprefix, $bundling_values ) = @{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; $bundling_values = 0; } } elsif ( $try eq 'gnu_compat' ) { $gnu_compat = $action; $bundling = 0; $bundling_values = 1; } 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; $bundling_values = 0 if $action; } elsif ( $try eq 'bundling_override' ) { $bundling = $action ? 2 : 0; $bundling_values = 0 if $action; } elsif ( $try eq 'bundling_values' ) { $bundling_values = $action; $bundling = 0 if $action; } 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 = $_[1] if @_ > 1; shift->SUPER::VERSION(@_); } package Getopt::Long::CallBack; sub new { my ($pkg, %atts) = @_; bless { %atts }, $pkg; } sub name { my $self = shift; ''.$self->{name}; } sub given { my $self = shift; $self->{given}; } use overload # Treat this object as an ordinary string for legacy API. '""' => \&name, fallback => 1; 1; ################ Documentation ################