## name Version numbers allowed in use statements.
## failures 0
## cut
use 5.8.1;
## name Version numbers allowed in require statements.
## failures 0
## cut
require 5.8.1;
## name Version numbers not allowed in regular statements.
## failures 1
## cut
$Aleax = 5.8.1;
## name All numbers are allowed on any use statement.
## failures 0
## cut
use Test::More plan => 57;
## name Numbers allowed on plan statements.
## failures 0
## cut
plan tests => 2349;
## name Decimal zero is allowed anywhere.
## failures 0
## cut
$tangle_tree = 0;
## name Floating-point zero is allowed anywhere.
## failures 0
## cut
$xiron_golem = 0.0
## name Decimal one is allowed anywhere.
## failures 0
## cut
$killer_tomato = 1;
## name Floating-point one is allowed anywhere.
## failures 0
## cut
$witch_doctor = 1.0;
## name Decimal two is allowed anywhere.
## failures 0
## cut
$gold_golem = 2;
## name Floating-point two is allowed anywhere.
## failures 0
## cut
$lich = 2.0;
## name Fractional numbers not allowed in regular statements.
## failures 1
## cut
$soldier = 2.5;
## name Negative one is not allowed by default.
## failures 1
## cut
$giant_pigmy = -1;
## name The answer to life, the universe, and everything is not allowed in regular statements.
## failures 1
## cut
$frobnication_factor = 42;
## name The answer to life, the universe, and everything is allowed as a constant.
## failures 0
## cut
use constant FROBNICATION_FACTOR => 42;
## name Fractional numbers are allowed as a constant.
## failures 0
## cut
use constant FROBNICATION_FACTOR => 1_234.567_89;
## name The Readonly subroutine works.
## failures 0
## cut
use Readonly;
Readonly $frobnication_factor => 57;
## name The Readonly::Scalar subroutine works.
## failures 0
## cut
use Readonly;
Readonly::Scalar $frobnication_factor => 57;
## name The Readonly::Scalar1 subroutine does work if allow_to_the_right_of_a_fat_comma is set.
## failures 0
## cut
use Readonly;
Readonly::Scalar1 $frobnication_factor => 57;
## name The Readonly::Scalar1 subroutine does not work if allow_to_the_right_of_a_fat_comma is not set.
## failures 1
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
use Readonly;
Readonly::Scalar1 $frobnication_factor => 57;
## name The Readonly::Array subroutine works.
## failures 0
## cut
use Readonly;
Readonly::Array @frobnication_factors => ( 57, 193, 49675 );
## name The Readonly::Array1 subroutine does not work.
## failures 3
## cut
use Readonly;
Readonly::Array1 @frobnication_factors => ( 57, 193, 49675 );
## name The Readonly::Hash subroutine works.
## failures 0
## cut
use Readonly;
Readonly::Hash %frobnication_factors => ( 57 => 290 );
## name The Readonly::Hash1 subroutine does work if allow_to_the_right_of_a_fat_comma is set.
## failures 0
## cut
use Readonly;
Readonly::Hash1 %frobnication_factors => ( quhh => 290 );
## name The Readonly::Hash1 subroutine does not work if allow_to_the_right_of_a_fat_comma is not set.
## failures 1
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
use Readonly;
Readonly::Hash1 %frobnication_factors => ( quhh => 290 );
## name Constant subroutines containing just a number are allowed.
## failures 0
## cut
sub constant_subroutine { 104598 }
## name Constant subroutines containing "return" and a number are allowed.
## failures 0
## cut
sub constant_subroutine { return 9068; }
## name Subroutines that contain something other than a constant return value are not allowed.
## failures 1
## cut
sub constant_subroutine {
    print 'blah';
    return 9068;
}
## name Magic numbers not allowed in ranges.
## failures 1
## cut
foreach my $solid (1..5) {
    frobnicate($solid);
}
## name Readonly numbers allowed in ranges.
## failures 0
## cut
use Readonly;
Readonly my $REGULAR_GEOMETRIC_SOLIDS => 5;
foreach my $solid (1..$REGULAR_GEOMETRIC_SOLIDS) {
    frobnicate($solid);
}
## name Binary zero isn't allowed in regular statements.
## failures 1
## cut
$battlemech = 0b0;
## name Readonly binary zero is allowed.
## failures 0
## cut
Readonly $giant_eel => 0b0;
## name Binary one isn't allowed in regular statements.
## failures 1
## cut
$xeroc = 0b1;
## name Readonly binary one is allowed.
## failures 0
## cut
Readonly $creeping_coins => 0b1;
## name Octal zero isn't allowed in regular statements.
## failures 1
## cut
$basilisk = 000;
## name Readonly octal zero is allowed.
## failures 0
## cut
Readonly $dwarf_lord => 000;
## name Octal one isn't allowed in regular statements.
## failures 1
## cut
$brown_mold = 001;
## name Readonly octal one is allowed.
## failures 0
## cut
Readonly $kobold_zombie => 001;
## name Hexadecimal zero isn't allowed in regular statements.
## failures 1
## cut
$yeti = 0x00;
## name Readonly hexadecimal zero is allowed.
## failures 0
## cut
Readonly $newt => 0x00;
## name Hexadecimal one isn't allowed in regular statements.
## failures 1
## cut
$piranha = 0x01;
## name Readonly hexadecimal one is allowed.
## failures 0
## cut
Readonly $Lord_Surtur => 0x01;
## name Exponential zero isn't allowed in regular statements.
## failures 1
## cut
$Green_elf = 0e0;
## name Readonly exponential zero is allowed.
## failures 0
## cut
Readonly $sasquatch => 0e0;
## name Exponential one isn't allowed in regular statements.
## failures 1
## cut
$Uruk_hai = 1e0;
## name Readonly exponential one is allowed.
## failures 0
## cut
Readonly $leather_golem => 1e0;
## name Any numbers allowed in array references in use statement.
## failures 0
## cut
use Some::Module [ 1, 2, 3, 4 ];
## name Any numbers allowed in array references in require statement.
## failures 0
## cut
require Some::Other::Module [ 1, 2, 3, 4 ];
## name Any numbers allowed in array references in readonly statement.
## failures 0
## cut
Readonly $Totoro => [ 1, 2, 3, 4 ];
## name Magic numbers not allowed in array references in regular statement.
## failures 2
## cut
$Evil_Iggy = [ 1, 2, 3, 4 ];
## name Array references containing only good numbers are allowed (by this policy).
## failures 0
## cut
$titanothere = [ 1, 0, 1, 0 ];
## name Any numbers allowed in hash references in use statement.
## failures 0
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
use Some::Module { a => 6, b => 4 };
## name Any numbers allowed in hash references in require statement.
## failures 0
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
require Some::Other::Module { a => 6, b => 4 };
## name Any numbers allowed in hash references in readonly statement.
## failures 0
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
Readonly $Vlad_the_Impaler => { a => 6, b => 4 };
## name Magic numbers allowed in hash references in regular statement if allow_to_the_right_of_a_fat_comma is set.
## failures 0
## cut
$gnome_lord = { a => 6, b => 4 };
## name Magic numbers not allowed in hash references in regular statement if allow_to_the_right_of_a_fat_comma is not set.
## failures 2
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
$gnome_lord = { a => 6, b => 4 };
## name Hash references containing only good numbers are allowed (by this policy).
## failures 0
## cut
$aardvark = { 1 => 0, 0 => 1 };
## name Any numbers allowed in lists in use statement.
## failures 0
## cut
use Some::Module ( 1, 2, 3, 4 );
## name Any numbers allowed in lists in require statement.
## failures 0
## cut
require Some::Other::Module ( 1, 2, 3, 4 );
## name Any numbers allowed in lists in readonly statement.
## failures 0
## cut
Readonly @elf_mummy => ( 1, 2, 3, 4 );
## name Magic numbers not allowed in lists in regular statement.
## failures 2
## cut
@kitten = ( 1, 2, 3, 4 );
## name Lists containing only good numbers are allowed (by this policy).
## failures 0
## cut
@purple_worm = ( 1, 0, 1, 0 );
## name Magic numbers not allowed in nested lists in regular statement.
## failures 2
## cut
@quivering_blob = ( 1, ( 2, 3, 4 ) );
## name Magic numbers not allowed in nested array references in regular statement.
## failures 2
## cut
@green_slime = ( 1, [ 2, 3, 4 ] );
## name Magic numbers allowed in nested hash references in regular statement if allow_to_the_right_of_a_fat_comma is set.
## failures 0
## cut
@fire_elemental = ( 1, { 2 => 4 } );
## name Magic numbers not allowed in nested hash references in regular statement if allow_to_the_right_of_a_fat_comma is not set.
## failures 1
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
@fire_elemental = ( 1, { 2 => 4 } );
## name Good numbers allowed in nested hash references anywhere.
## failures 0
## parms { allow_to_the_right_of_a_fat_comma => 0 }
## cut
@Y2K_bug = ( 1, { 0 => 1 } );
## name Magic numbers not allowed in deep data structures in regular statement.
## failures 1
## cut
@fog_cloud = [ 1, { 0 => { 1 => [ 1, 1, [ \382 ] ] } } ];
## name Good numbers allowed in deep datastructures anywhere.
## failures 0
## cut
@fog_cloud = [ 1, { 0 => { 1 => [ 1, 1, [ 1 ] ] } } ];
## name $VERSION variables get a special exemption.
## failures 0
## cut
our $VERSION = 0.21;
## name Last element of an array gets a special exemption.
## failures 0
## cut
$Invid = $nalfeshnee[-1];
## name Last element exemption does not work if there is anything else within the subscript.
## failures 1
## cut
$warhorse = $Cerberus[-1 * 1];
## name Penultimate element of an array does not get a special exemption.
## failures 1
## cut
$scorpion = $shadow[-2];
## name Decimal zero is allowed even if the configuration specifies that there aren't any allowed literals.
## failures 0
## parms { allowed_values => '' }
## cut
$tangle_tree = 0;
## name Floating-point zero is allowed even if the configuration specifies that there aren't any allowed literals.
## failures 0
## parms { allowed_values => '' }
## cut
$xiron_golem = 0.0
## name Decimal one is allowed even if the configuration specifies that there aren't any allowed literals.
## failures 0
## parms { allowed_values => '' }
## cut
$killer_tomato = 1;
## name Floating-point one is allowed even if the configuration specifies that there aren't any allowed literals.
## failures 0
## parms { allowed_values => '' }
## cut
$witch_doctor = 1.0;
## name Decimal two is not allowed if the configuration specifies that there aren't any allowed literals.
## failures 1
## parms { allowed_values => '' }
## cut
$gold_golem = 2;
## name Floating-point two is not allowed if the configuration specifies that there aren't any allowed literals.
## failures 1
## parms { allowed_values => '' }
## cut
$lich = 2.0;
## name Decimal zero is allowed even if the configuration doesn't include it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$tangle_tree = 0;
## name Floating-point zero is allowed even if the configuration doesn't include it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$xiron_golem = 0.0
## name Decimal one is allowed even if the configuration doesn't include it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$killer_tomato = 1;
## name Floating-point one is allowed even if the configuration doesn't include it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$witch_doctor = 1.0;
## name Decimal two is not allowed if the configuration doesn't include it in the allowed literals.
## failures 1
## parms { allowed_values => '3 -5' }
## cut
$gold_golem = 2;
## name Floating-point two is not allowed if the configuration doesn't include it in the allowed literals.
## failures 1
## parms { allowed_values => '3 -5' }
## cut
$lich = 2.0;
## name Decimal three is allowed if the configuration includes it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$ghoul = 3;
## name Floating-point three is allowed if the configuration includes it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$water_elemental = 3.0;
## name Decimal negative five is allowed if the configuration includes it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$glass_piercer = -5;
## name Floating-point negative five is allowed if the configuration includes it in the allowed literals.
## failures 0
## parms { allowed_values => '3 -5' }
## cut
$clay_golem = -5.0;
## name Decimal zero is allowed even if the configuration specifies that there aren't any allowed types.
## failures 0
## parms { allowed_types => '' }
## cut
$tangle_tree = 0;
## name Floating-point zero is not allowed if the configuration specifies that there aren't any allowed types.
## failures 1
## parms { allowed_types => '' }
## cut
$xiron_golem = 0.0
## name Decimal one is allowed even if the configuration specifies that there aren't any allowed types.
## failures 0
## parms { allowed_types => '' }
## cut
$killer_tomato = 1;
## name Floating-point one is not allowed if the configuration specifies that there aren't any allowed types.
## failures 1
## parms { allowed_types => '' }
## cut
$witch_doctor = 1.0;
## name Decimal zero is allowed if the configuration specifies that there are any allowed types.
## failures 0
## parms { allowed_types => 'Float' }
## cut
$tangle_tree = 0;
## name Floating-point zero is allowed if the configuration specifies that the Float type is allowed.
## failures 0
## parms { allowed_types => 'Float' }
## cut
$xiron_golem = 0.0
## name Decimal one is allowed if the configuration specifies that there are any allowed types.
## failures 0
## parms { allowed_types => 'Float' }
## cut
$killer_tomato = 1;
## name Floating-point one is allowed if the configuration specifies that the Float type is allowed.
## failures 0
## parms { allowed_types => 'Float' }
## cut
$witch_doctor = 1.0;
## name Binary zero is allowed if the configuration specifies that the Binary type is allowed.
## failures 0
## parms { allowed_types => 'Binary' }
## cut
$battlemech = 0b0;
## name Binary one is allowed if the configuration specifies that the Binary type is allowed.
## failures 0
## parms { allowed_types => 'Binary' }
## cut
$xeroc = 0b1;
## name Exponential zero is allowed if the configuration specifies that the Exp type is allowed.
## failures 0
## parms { allowed_types => 'Exp' }
## cut
$Green_elf = 0e0;
## name Exponential one is allowed if the configuration specifies that the Exp type is allowed.
## failures 0
## parms { allowed_types => 'Exp' }
## cut
$Uruk_hai = 1e0;
## name Hexadecimal zero is allowed if the configuration specifies that the Hex type is allowed.
## failures 0
## parms { allowed_types => 'Hex' }
## cut
$yeti = 0x00;
## name Hexadecimal one is allowed if the configuration specifies that the Hex type is allowed.
## failures 0
## parms { allowed_types => 'Hex' }
## cut
$piranha = 0x01;
## name Octal zero is allowed if the configuration specifies that the Octal type is allowed.
## failures 0
## parms { allowed_types => 'Octal' }
## cut
$basilisk = 000;
## name Octal one is allowed if the configuration specifies that the Octal type is allowed.
## failures 0
## parms { allowed_types => 'Octal' }
## cut
$brown_mold = 001;
## name Any integer value should pass if the allowed values contains 'all_integers'.
## failures 0
## parms { allowed_values => 'all_integers' }
## cut
$brogmoid = 356_634_627;
$rat_ant  =     -29_422;
## name Any floating-point value without a fractional portion should pass if the allowed values contains 'all_integers'.
## failures 0
## parms { allowed_values => 'all_integers' }
## cut
$human = 102_938.0;
## name A non-integral value should pass if the allowed values contains it and 'all_integers'.
## failures 0
## parms { allowed_values => 'all_integers 429.73902' }
## cut
$Norn = 429.73902;
## name Any binary value should pass if the allowed values contains 'all_integers' and allowed types includes 'Binary'.
## failures 0
## parms { allowed_values => 'all_integers', allowed_types => 'Binary' }
## cut
$baby_blue_dragon = 0b01100101_01101010_01110011;
## name Any hexadecimal value should pass if the allowed values contains 'all_integers' and allowed types includes 'Hex'.
## failures 0
## parms { allowed_values => 'all_integers', allowed_types => 'Hex' }
## cut
$killer_bee = 0x656a73;
## name Any octal value should pass if the allowed values contains 'all_integers' and allowed types includes 'Octal'.
## failures 0
## parms { allowed_values => 'all_integers', allowed_types => 'Octal' }
## cut
$ettin_mummy = 0145_152_163;
## name Zero, one, three, four, and five decimal values should pass if the allowed values contains the '3..5' range.
## failures 0
## parms { allowed_values => '3..5' }
## cut
$guide = 0;
$cuatl = 1;
$Master_Assassin = 3;
$orc = 4;
$trapper = 5;
## name Negative one, two, and six decimal values and fractional values should not pass if the allowed values contains the '3..5' range.
## failures 4
## parms { allowed_values => '3..5' }
## cut
$Elvenking = -1;
$brown_pudding = 2;
$archeologist = 6;
$nurse = 4.5;
## name -3/2, -2/2, -1/2 ... 7/5 should pass if the allowed values contains the '-1.5..3.5:by(0.5)' range.
## failures 0
## parms { allowed_values => '-1.5..3.5:by(0.5)' }
## cut
$owlbear = [ -1.5, -1, -.5, 0, 0.5, 1, 1.5, 2, 2.5, 3, 3.5 ];
## name Negative two and four should not pass if the allowed values contains the '-1.5..3.5:by(0.5)' range.
## failures 2
## parms { allowed_values => '-1.5..3.5:by(0.5)' }
## cut
$lurker_above = [ -2, 4 ];
## name -3/2, -1/2, 1/2 ... 7/5, plus 0 and 1 should pass if the allowed values contains the '-1.5..3.5' range.
## failures 0
## parms { allowed_values => '-1.5..3.5' }
## cut
$long_worm = [ -1.5, -.5, 0, 0.5, 1, 1.5, 2.5, 3.5 ];
## name -3/2, -2/2, -1/2 ... 7/5 should pass if the allowed values contains the '-1.5..3.5' range and 'all_integers'.
## failures 0
## parms { allowed_values => 'all_integers -1.5..3.5' }
## cut
$ice_devil = [ -1.5, -1, -.5, 0, 0.5, 1, 1.5, 2, 2.5, 3, 3.5 ];
## name -5, -4, -3, -2, 0, 1, 21, 22, 23, and 24 should pass if the allowed values contains the '-5..-2' and '21..24 ranges.
## failures 0
## parms { allowed_values => '-5..-2 21..24' }
## cut
$newt = [ -5, -4, -3, -2, 0, 1, 21, 22, 23, 24 ];
## name Should pass mini-CPAN accumulated \$VERSION declarations.
## failures 0
## cut
(our $VERSION = q$Revision: 3146 $) =~ s/Revision //;
(our $VERSION) = '$Revision: 3146 $' =~ /([\d.]+)/;
(our $VERSION) = sprintf "%d", q$Revision: 3146 $ =~ /Revision:\s+(\S+)/;
our $VERSION : unique = "1.23";
our $VERSION : unique = '1.23';
our $VERSION = "$local_variable v1.23";
our $VERSION = "1." . sprintf "%d", q$Revision: 3146 $ =~ /: (\d+)/;
our $VERSION = "1.2.3";
our $VERSION = "1.2.3.0";
our $VERSION = "1.2.3.blah";
our $VERSION = "1.23 (liblgrp version $local_variable)";
our $VERSION = "1.23 2005-05-20";
our $VERSION = "1.23";
our $VERSION = "1.23, 2004-12-07";
our $VERSION = "1.23_blah";
our $VERSION = "1.23blah";
our $VERSION = "1.2_3";
our $VERSION = "123";
our $VERSION = "INSERT";
our $VERSION = $SomeOtherModule::VERSION;
our $VERSION = $VERSION = (qw($Revision: 3146 $))[1];
our $VERSION = $local_variable;
our $VERSION = '$Date: 2009-02-15 20:12:59 -0600 (Sun, 15 Feb 2009) $'; $VERSION =~ s|^\$Date:\s*([0-9]{4})/([0-9]{2})/([0-9]{2})\s.*|\1.\2.\3| ;
our $VERSION = '$Revision: 3146 $' =~ /\$Revision:\s+([^\s]+)/;
our $VERSION = '$Revision: 3146 $';
our $VERSION = '-123 blah';
our $VERSION = '1.' . qw $Revision: 3146 $[1];
our $VERSION = '1.' . sprintf "%d", (qw($Revision: 3146 $))[1];
our $VERSION = '1.' . sprintf("%d", (qw($Revision: 3146 $))[1]);
our $VERSION = '1.2.3';
our $VERSION = '1.2.3.0';
our $VERSION = '1.2.3blah';
our $VERSION = '1.23';
our $VERSION = '1.23_blah';
our $VERSION = '1.23blah';
our $VERSION = '1.2_3';
our $VERSION = '1.23' || do { q $Revision: 3146 $ =~ /(\d+)/; sprintf "%4.2f", $1 / 100 };
our $VERSION = '123';
our $VERSION = ('$Revision: 3146 $' =~ /(\d+.\d+)/)[ 0];
our $VERSION = ('$Revision: 3146 $' =~ /(\d+\.\d+)/);
our $VERSION = ('$Revision: 3146 $' =~ m/(\d+)/)[0];
our $VERSION = ((require SomeOtherModule), $SomeOtherModule::VERSION)[1];
our $VERSION = (q$Revision: 3146 $ =~ /([\d\.]+)/);
our $VERSION = (q$Revision: 3146 $ =~ /(\d+)/g)[0];
our $VERSION = (qq$Revision: 3146 $ =~ /(\d+)/)[0];
our $VERSION = (qw$Revision: 3146 $)[-1];
our $VERSION = (qw$Revision: 3146 $)[1];
our $VERSION = (qw($Revision: 3146 $))[1];
our $VERSION = (split(/ /, '$Revision: 3146 $'))[1];
our $VERSION = (split(/ /, '$Revision: 3146 $'))[2];
our $VERSION = 1.2.3;
our $VERSION = 1.23;
our $VERSION = 1.2_3;
our $VERSION = 123;
our $VERSION = SomeOtherModule::RCSVersion('$Revision: 3146 $');
our $VERSION = SomeOtherModule::VERSION;
our $VERSION = [ qw{ $Revision: 3146 $ } ]->[1];
our $VERSION = do { (my $v = q%version: 1.23 %) =~ s/.*://; sprintf("%d.%d", split(/\./, $v), 0) };
our $VERSION = do { (my $v = q%version: 123 %) =~ s/.*://; sprintf("%d.%d", split(/\./, $v), 0) };
our $VERSION = do { q $Revision: 3146 $ =~ /(\d+)/; sprintf "%4.2f", $1 / 100 };
our $VERSION = do { q$Revision: 3146 $ =~ /Revision: (\d+)/; sprintf "1.%d", $1; };
our $VERSION = do { require mod_perl2; $mod_perl2::VERSION };
our $VERSION = do {(q$URL: http://perlcritic.tigris.org/svn/perlcritic/branches/Perl-Critic-PPI-1.204/t/ValuesAndExpressions/ProhibitMagicNumbers.run $=~ m$.*/(?:tags|branches)/([^/ \t]+)$)[0] || "0.0"};
our $VERSION = eval { require version; version::qv((qw$Revision: 3146 $)[1] / 1000) };
our $VERSION = q$0.04$;
our $VERSION = q$Revision: 3146 $;
our $VERSION = q(0.14);
our $VERSION = qv('1.2.3');
our $VERSION = qw(1.2.3);
our $VERSION = sprintf "%.02f", $local_variable/100 + 0.3;
our $VERSION = sprintf "%.3f", 123 + substr(q$Revision: 3146 $, 4)/1000;
our $VERSION = sprintf "%d.%d", '$Revision: 3146 $' =~ /(\d+)\.(\d+)/;
our $VERSION = sprintf "%d.%d", '$Revision: 3146 $' =~ /(\d+)/g;
our $VERSION = sprintf "%d.%d", '$Revision: 3146 $' =~ /(\d+)\.(\d+)/;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ /: (\d+)\.(\d+)/;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ /(\d+)/g;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ /(\d+)\.(\d+)/;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ /(\d+)\.(\d+)/g;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ /: (\d+)\.(\d+)/;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ =~ m/ (\d+) \. (\d+) /xg;
our $VERSION = sprintf "%d.%d", q$Revision: 3146 $ ~~ m:P5:g/(\d+)/;
our $VERSION = sprintf "%d.%d%d", (split /\D+/, '$Name: beta0_1_1 $')[1..3];
our $VERSION = sprintf "%s.%s%s", q$Name: Rel-0_90 $ =~ /^Name: Rel-(\d+)_(\d+)(_\d+|)\s*$/, 999, "00", join "", (gmtime)[5] +1900, map {sprintf "%d", $_} (gmtime)[4]+1;
our $VERSION = sprintf "1.%d", '$Revision: 3146 $' =~ /(\d+)/;
our $VERSION = sprintf "1.%d", q$Revision: 3146 $ =~ /(\d+)/g;
our $VERSION = sprintf '%d.%d', (q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf '%d.%d', q$Revision: 3146 $ =~ /(\d+)\.(\d+)/;
our $VERSION = sprintf '%d.%d', q$Revision: 3146 $ =~ /(\d+)\.(\d+)/;
our $VERSION = sprintf '%s', 'q$Revision: 3146 $' =~ /\S+\s+(\S+)\s+/ ;
our $VERSION = sprintf '%s', 'q$Revision: 3146 $' =~ /\S+\s+(\S+)\s+/ ;
our $VERSION = sprintf '%s', q$Revision: 3146 $ =~ /Revision:\s+(\S+)\s+/ ;
our $VERSION = sprintf '%s', q{$Revision: 3146 $} =~ /\S+\s+(\S+)/ ;
our $VERSION = sprintf '1.%d', (q$Revision: 3146 $ =~ /\D(\d+)\s*$/)[0] + 15;
our $VERSION = sprintf("%d", q$Id: SomeModule.pm,v 1.23 2006/04/10 22:39:38 matthew Exp $ =~ /\s(\d+)\s/);
our $VERSION = sprintf("%d", q$Id: SomeModule.pm,v 1.23 2006/04/10 22:39:39 matthew Exp $ =~ /\s(\d+)\s/);
our $VERSION = sprintf("%d.%d", "Revision: 2006.0626" =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d", '$Name: v0_018-2006-06-15b $' =~ /(\d+)_(\d+)/, 0, 0);
our $VERSION = sprintf("%d.%d", 0, q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d", q$Name: REL-0-13 $ =~ /(\d+)-(\d+)/, 999, 99);
our $VERSION = sprintf("%d.%d", q$Name: ical-parser-html-1-6 $ =~ /(\d+)-(\d+)/);
our $VERSION = sprintf("%d.%d", q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d", q$Revision: 3146 $ =~ /(\d+)\.(\d+)/o);
our $VERSION = sprintf("%d.%d", q$Revision: 3146 $ =~ m/(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d", q$Revision: 3146 $=~/(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d", q'$Revision: 3146 $' =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf("%d.%d.%d", 0, q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf("1.%d", q$Revision: 3146 $ =~ / (\d+) /);
our $VERSION = sprintf("1.%d", q$Revision: 3146 $ =~ /(\d+)/);
our $VERSION = sprintf("1.2%d%d", q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf('%d.%d', '$Revision: 3146 $' =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf('%d.%d', q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = sprintf('%d.%d', q$Revision: 3146 $ =~ /(\d+)\.(\d+)/);
our $VERSION = substr q$Revision: 3146 $, 10;
our $VERSION = substr(q$Revision: 3146 $, 10);
our $VERSION = v1.2.3.0;
our $VERSION = v1.2.3;
our $VERSION = v1.23;
our $VERSION = version->new('1.2.3');
our $VERSION = version->new(qw$Revision: 3146 $);
our ($PACKAGE, $VERSION) = ('') x 2;
our ($VERSION) = "1.23";
our ($VERSION) = $SomeOtherModule::VERSION;
our ($VERSION) = '$Revision: 3146 $' =~ /\$Revision:\s+([^\s]+)/;
our ($VERSION) = '$Revision: 3146 $' =~ /\$Revision:\s+([^\s]+)/;
our ($VERSION) = '$Revision: 3146 $' =~ m{ \$Revision: \s+ (\S+) }x;
our ($VERSION) = '$Revision: 3146 $' =~ m{ \$Revision: \s+ (\S+) }xm;
our ($VERSION) = '$Revision: 3146 $'=~/(\d+(\.\d+))/;
our ($VERSION) = '$Revision: 3146 $' =~ m{ \$Revision: \s+ (\S+) }x;
our ($VERSION) = '1.23' =~ /([.,\d]+)/;
our ($VERSION) = '1.23';
our ($VERSION) = ($local_variable =~ /(\d+\.\d+)/);
our ($VERSION) = ('$Revision: 3146 $' =~ /(\d+\.\d+)/) ;
our ($VERSION) = ('$Revision: 3146 $' =~ /(\d+\.\d+)/);
our ($VERSION) = ('$Revision: 3146 $' =~ m/([\.\d]+)/) ;
our ($VERSION) = (q$Revision: 3146 $ =~ /([\d\.]+)/);
our ($VERSION) = (qq$Revision: 3146 $ =~ /(\d+)/)[0];
our ($VERSION) = 1.23;
our ($VERSION) = q$Revision: 3146 $ =~ /Revision:\s+(\S+)/ or $VERSION = "1.23";
our ($VERSION) = q$Revision: 3146 $ =~ /Revision:\s+(\S+)/ or $VERSION = '1.23';
our ($VERSION) = q$Revision: 3146 $ =~ /[\d.]+/g;
our ($VERSION) = q$Revision: 3146 $ =~ /^Revision:\s+(\S+)/ or $VERSION = "1.23";
require SomeOtherModule; our $VERSION = $SomeOtherModule::VERSION;
use SomeOtherModule; our $VERSION = $SomeOtherModule::VERSION;
use SomeOtherModule; our $VERSION = SomeOtherModule::VERSION;
use base 'SomeOtherModule'; our $VERSION = $SomeOtherModule::VERSION;
use version; our $VERSION = 1.23;
use version; our $VERSION = qv("1.2.3");
use version; our $VERSION = qv('1.2.3');
use version; our $VERSION = qv('1.23');
use version; our $VERSION = qv((qw$Revision: 3146 $)[1] / 1000);
use version; our $VERSION = version->new('1.23');
#-----------------------------------------------------------------------------
##############################################################################
#      $URL: http://perlcritic.tigris.org/svn/perlcritic/branches/Perl-Critic-PPI-1.204/t/ValuesAndExpressions/ProhibitMagicNumbers.run $
#     $Date: 2009-02-15 20:12:59 -0600 (Sun, 15 Feb 2009) $
#   $Author: clonezone $
# $Revision: 3146 $
##############################################################################
# Local Variables:
#   mode: cperl
#   cperl-indent-level: 4
#   fill-column: 78
#   indent-tabs-mode: nil
#   c-indentation-style: bsd
# End:
# ex: set ts=8 sts=4 sw=4 tw=78 ft=perl expandtab shiftround :