#line 1 #!perl -w package version; use 5.005_04; use strict; use vars qw(@ISA $VERSION $CLASS $STRICT $LAX *declare *qv); $VERSION = 0.95; $CLASS = 'version'; #--------------------------------------------------------------------------# # Version regexp components #--------------------------------------------------------------------------# # Fraction part of a decimal version number. This is a common part of # both strict and lax decimal versions my $FRACTION_PART = qr/\.[0-9]+/; # First part of either decimal or dotted-decimal strict version number. # Unsigned integer with no leading zeroes (except for zero itself) to # avoid confusion with octal. my $STRICT_INTEGER_PART = qr/0|[1-9][0-9]*/; # First part of either decimal or dotted-decimal lax version number. # Unsigned integer, but allowing leading zeros. Always interpreted # as decimal. However, some forms of the resulting syntax give odd # results if used as ordinary Perl expressions, due to how perl treats # octals. E.g. # version->new("010" ) == 10 # version->new( 010 ) == 8 # version->new( 010.2) == 82 # "8" . "2" my $LAX_INTEGER_PART = qr/[0-9]+/; # Second and subsequent part of a strict dotted-decimal version number. # Leading zeroes are permitted, and the number is always decimal. # Limited to three digits to avoid overflow when converting to decimal # form and also avoid problematic style with excessive leading zeroes. my $STRICT_DOTTED_DECIMAL_PART = qr/\.[0-9]{1,3}/; # Second and subsequent part of a lax dotted-decimal version number. # Leading zeroes are permitted, and the number is always decimal. No # limit on the numerical value or number of digits, so there is the # possibility of overflow when converting to decimal form. my $LAX_DOTTED_DECIMAL_PART = qr/\.[0-9]+/; # Alpha suffix part of lax version number syntax. Acts like a # dotted-decimal part. my $LAX_ALPHA_PART = qr/_[0-9]+/; #--------------------------------------------------------------------------# # Strict version regexp definitions #--------------------------------------------------------------------------# # Strict decimal version number. my $STRICT_DECIMAL_VERSION = qr/ $STRICT_INTEGER_PART $FRACTION_PART? /x; # Strict dotted-decimal version number. Must have both leading "v" and # at least three parts, to avoid confusion with decimal syntax. my $STRICT_DOTTED_DECIMAL_VERSION = qr/ v $STRICT_INTEGER_PART $STRICT_DOTTED_DECIMAL_PART{2,} /x; # Complete strict version number syntax -- should generally be used # anchored: qr/ \A $STRICT \z /x $STRICT = qr/ $STRICT_DECIMAL_VERSION | $STRICT_DOTTED_DECIMAL_VERSION /x; #--------------------------------------------------------------------------# # Lax version regexp definitions #--------------------------------------------------------------------------# # Lax decimal version number. Just like the strict one except for # allowing an alpha suffix or allowing a leading or trailing # decimal-point my $LAX_DECIMAL_VERSION = qr/ $LAX_INTEGER_PART (?: \. | $FRACTION_PART $LAX_ALPHA_PART? )? | $FRACTION_PART $LAX_ALPHA_PART? /x; # Lax dotted-decimal version number. Distinguished by having either # leading "v" or at least three non-alpha parts. Alpha part is only # permitted if there are at least two non-alpha parts. Strangely # enough, without the leading "v", Perl takes .1.2 to mean v0.1.2, # so when there is no "v", the leading part is optional my $LAX_DOTTED_DECIMAL_VERSION = qr/ v $LAX_INTEGER_PART (?: $LAX_DOTTED_DECIMAL_PART+ $LAX_ALPHA_PART? )? | $LAX_INTEGER_PART? $LAX_DOTTED_DECIMAL_PART{2,} $LAX_ALPHA_PART? /x; # Complete lax version number syntax -- should generally be used # anchored: qr/ \A $LAX \z /x # # The string 'undef' is a special case to make for easier handling # of return values from ExtUtils::MM->parse_version $LAX = qr/ undef | $LAX_DECIMAL_VERSION | $LAX_DOTTED_DECIMAL_VERSION /x; #--------------------------------------------------------------------------# { local $SIG{'__DIE__'}; eval "use version::vxs $VERSION"; if ( $@ ) { # don't have the XS version installed eval "use version::vpp $VERSION"; # don't tempt fate die "$@" if ( $@ ); push @ISA, "version::vpp"; local $^W; *version::qv = \&version::vpp::qv; *version::declare = \&version::vpp::declare; *version::_VERSION = \&version::vpp::_VERSION; if ($] >= 5.009000) { no strict 'refs'; *version::stringify = \&version::vpp::stringify; *{'version::(""'} = \&version::vpp::stringify; *version::new = \&version::vpp::new; *version::parse = \&version::vpp::parse; } } else { # use XS module push @ISA, "version::vxs"; local $^W; *version::declare = \&version::vxs::declare; *version::qv = \&version::vxs::qv; *version::_VERSION = \&version::vxs::_VERSION; *version::vcmp = \&version::vxs::VCMP; if ($] >= 5.009000) { no strict 'refs'; *version::stringify = \&version::vxs::stringify; *{'version::(""'} = \&version::vxs::stringify; *version::new = \&version::vxs::new; *version::parse = \&version::vxs::parse; } } } # Preloaded methods go here. sub import { no strict 'refs'; my ($class) = shift; # Set up any derived class unless ($class eq 'version') { local $^W; *{$class.'::declare'} = \&version::declare; *{$class.'::qv'} = \&version::qv; } my %args; if (@_) { # any remaining terms are arguments map { $args{$_} = 1 } @_ } else { # no parameters at all on use line %args = ( qv => 1, 'UNIVERSAL::VERSION' => 1, ); } my $callpkg = caller(); if (exists($args{declare})) { *{$callpkg.'::declare'} = sub {return $class->declare(shift) } unless defined(&{$callpkg.'::declare'}); } if (exists($args{qv})) { *{$callpkg.'::qv'} = sub {return $class->qv(shift) } unless defined(&{$callpkg.'::qv'}); } if (exists($args{'UNIVERSAL::VERSION'})) { local $^W; *UNIVERSAL::VERSION = \&version::_VERSION; } if (exists($args{'VERSION'})) { *{$callpkg.'::VERSION'} = \&version::_VERSION; } if (exists($args{'is_strict'})) { *{$callpkg.'::is_strict'} = \&version::is_strict unless defined(&{$callpkg.'::is_strict'}); } if (exists($args{'is_lax'})) { *{$callpkg.'::is_lax'} = \&version::is_lax unless defined(&{$callpkg.'::is_lax'}); } } sub is_strict { defined $_[0] && $_[0] =~ qr/ \A $STRICT \z /x } sub is_lax { defined $_[0] && $_[0] =~ qr/ \A $LAX \z /x } 1;