DateTime-1.06/0000755000175000017500000000000012260573461013002 5ustar autarchautarchDateTime-1.06/dist.ini0000644000175000017500000000161512260573461014451 0ustar autarchautarchname = DateTime author = Dave Rolsky license = Artistic_2_0 copyright_holder = Dave Rolsky version = 1.06 [NextRelease] format = %-6v %{yyyy-MM-dd}d [@Filter] -bundle = @Basic -remove = MakeMaker [PruneFiles] filenames = Build.PL [PkgVersion] ; authordep Dist::Zilla::Plugin::ModuleBuild::XSOrPP [=inc::MyModuleBuild] [PurePerlTests] env_var = PERL_DATETIME_PP [InstallGuide] [MetaJSON] [MetaResources] bugtracker.web = http://rt.cpan.org/NoAuth/Bugs.html?Dist=DateTime bugtracker.mailto = bug-datetime@rt.cpan.org repository.url = git://git.urth.org/DateTime.pm.git repository.web = http://git.urth.org/DateTime.pm.git repository.type = git [SurgicalPodWeaver] [EOLTests] [NoTabsTests] [PodSyntaxTests] [Test::CPAN::Changes] [Test::Pod::LinkCheck] ;[Test::Pod::No404s] [CheckChangeLog] [AutoPrereqs] skip = Test::DependentModules [CheckPrereqsIndexed] [@Git] DateTime-1.06/README0000644000175000017500000000034712260573461013666 0ustar autarchautarch This archive contains the distribution DateTime, version 1.06: A date and time object This software is Copyright (c) 2013 by Dave Rolsky. This is free software, licensed under: The Artistic License 2.0 (GPL Compatible) DateTime-1.06/Build.PL0000644000175000017500000000322512260573461014300 0ustar autarchautarch use strict; use warnings; use Module::Build 0.3601; my %module_build_args = ( "build_requires" => { "Module::Build" => "0.3601" }, "c_source" => "c", "configure_requires" => { "Module::Build" => "0.3601" }, "dist_abstract" => "A date and time object", "dist_author" => [ "Dave Rolsky " ], "dist_name" => "DateTime", "dist_version" => "1.06", "license" => "artistic_2", "module_name" => "DateTime", "recommends" => {}, "recursive_test_files" => 1, "requires" => { "Carp" => 0, "DateTime::Locale" => "0.41", "DateTime::TimeZone" => "1.09", "POSIX" => 0, "Params::Validate" => "0.76", "Scalar::Util" => 0, "Try::Tiny" => 0, "XSLoader" => 0, "base" => 0, "constant" => 0, "integer" => 0, "overload" => 0, "perl" => "5.008001", "strict" => 0, "vars" => 0, "warnings" => 0 }, "script_files" => [], "test_requires" => { "Storable" => 0, "Test::Fatal" => 0, "Test::More" => "0.88", "utf8" => 0 } ); my %fallback_build_requires = ( "Module::Build" => "0.3601", "Storable" => 0, "Test::Fatal" => 0, "Test::More" => "0.88", "utf8" => 0 ); unless ( eval { Module::Build->VERSION(0.4004) } ) { delete $module_build_args{test_requires}; $module_build_args{build_requires} = \%fallback_build_requires; } my $build = Module::Build->new(%module_build_args); my $skip_xs; if ( grep { $_ eq '--pp' } @ARGV ) { $skip_xs = 1; } elsif ( ! $build->have_c_compiler() ) { $skip_xs = 1; } if ($skip_xs) { $build->build_elements( [ grep { $_ ne 'xs' } @{ $build->build_elements() } ] ); } $build->create_build_script; DateTime-1.06/t/0000755000175000017500000000000012260573461013245 5ustar autarchautarchDateTime-1.06/t/release-pp-32leap-second2.t0000644000175000017500000001700012260573461020104 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 58, time_zone => '+0100', ); is( $t->second, 58, 'second value for leap second T-2, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-2' ); is( $t->{utc_rd_secs}, 86398, 'UTC RD seconds for leap second T-2' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-2' ); is( $t->{local_rd_secs}, 3598, 'local RD seconds for leap second T-2' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'second value for leap second T-1, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-1' ); is( $t->{utc_rd_secs}, 86399, 'UTC RD seconds for leap second T-1' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-1' ); is( $t->{local_rd_secs}, 3599, 'local RD seconds for leap second T-1' ); } { my $t = eval { DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100', ); }; ok( !$@, 'constructor for second = 60' ); SKIP: { skip 'constructor failed - no object to test', 5 unless $t; is( $t->second, 60, 'second value for leap second T-0, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-0' ); is( $t->{utc_rd_secs}, 86400, 'UTC RD seconds for leap second T-0' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-0' ); is( $t->{local_rd_secs}, 3600, 'local RD seconds for leap second T-0' ); } } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100', ); is( $t->second, 0, 'second value for leap second T+1, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+1' ); is( $t->{utc_rd_secs}, 0, 'UTC RD seconds for leap second T+1' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T+1' ); is( $t->{local_rd_secs}, 3601, 'local RD seconds for leap second T+1' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 1, time_zone => '+0100', ); is( $t->second, 1, 'second value for leap second T+2, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+2' ); is( $t->{utc_rd_secs}, 1, 'UTC RD seconds for leap second T+2' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T+2' ); is( $t->{local_rd_secs}, 3602, 'local RD seconds for leap second T+2' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 23, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'second value for end of leap second day, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for end of leap second day' ); is( $t->{utc_rd_secs}, 82799, 'UTC RD seconds for end of leap second day' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second day' ); is( $t->{local_rd_secs}, 86400, 'local RD seconds for end of leap second day' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 58, time_zone => '-0100', ); is( $t->second, 58, 'second value for leap second T-2, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-2' ); is( $t->{utc_rd_secs}, 86398, 'UTC RD seconds for leap second T-2' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-2' ); is( $t->{local_rd_secs}, 82798, 'local RD seconds for leap second T-2' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 59, time_zone => '-0100', ); is( $t->second, 59, 'second value for leap second T-1, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-1' ); is( $t->{utc_rd_secs}, 86399, 'UTC RD seconds for leap second T-1' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-1' ); is( $t->{local_rd_secs}, 82799, 'local RD seconds for leap second T-1' ); } { my $t = eval { DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100', ); }; ok( !$@, 'constructor for second = 60' ); SKIP: { skip 'constructor failed - no object to test', 5 unless $t; is( $t->second, 60, 'second value for leap second T-0, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-0' ); is( $t->{utc_rd_secs}, 86400, 'UTC RD seconds for leap second T-0' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-0' ); is( $t->{local_rd_secs}, 82800, 'local RD seconds for leap second T-0' ); } } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 0, second => 0, time_zone => '-0100', ); is( $t->second, 0, 'second value for leap second T+1, -0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+1' ); is( $t->{utc_rd_secs}, 0, 'UTC RD seconds for leap second T+1' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T+1' ); is( $t->{local_rd_secs}, 82801, 'local RD seconds for leap second T+1' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 0, second => 1, time_zone => '-0100', ); is( $t->second, 1, 'second value for leap second T+2, -0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+2' ); is( $t->{utc_rd_secs}, 1, 'UTC RD seconds for leap second T+2' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T+2' ); is( $t->{local_rd_secs}, 82802, 'local RD seconds for leap second T+2' ); } done_testing(); DateTime-1.06/t/release-pp-09greg.t0000644000175000017500000000626712260573461016575 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # test _ymd2rd and _rd2ymd for various dates # 2 tests are performed for each date (on _ymd2rd and _rd2ymd) # dates are specified as [rd,year,month,day] for ( # min and max supported days (for 32-bit system) [ -2**31, -5879610, 6, 22 ], [ 2**31 - 1, 5879611, 7, 11 ], # some miscellaneous dates (these are actually epoch dates for # various calendars from Calendrical Calculations (1st ed) Table # 1.1) [ -1721425, -4713, 11, 24 ], [ -1373427, -3760, 9, 7 ], [ -1137142, -3113, 8, 11 ], [ -1132959, -3101, 1, 23 ], [ -963099, -2636, 2, 15 ], [ -1, 0, 12, 30 ], [ 1, 1, 1, 1 ], [ 2796, 8, 8, 27 ], [ 103605, 284, 8, 29 ], [ 226896, 622, 3, 22 ], [ 227015, 622, 7, 19 ], [ 654415, 1792, 9, 22 ], [ 673222, 1844, 3, 21 ] ) { is( join( '/', DateTime->_rd2ymd( $_->[0] ) ), join( '/', @{$_}[ 1 .. 3 ] ), $_->[0] . " \t=> " . join '/', @{$_}[ 1 .. 3 ] ); is( DateTime->_ymd2rd( @{$_}[ 1 .. 3 ] ), $_->[0], join( '/', @{$_}[ 1 .. 3 ] ) . " \t=> " . $_->[0] ); } # normalization tests for ( [ -1753469, -4797, -33, 1 ], [ -1753469, -4803, 39, 1 ], [ -1753105, -4796, -34, 28 ], [ -1753105, -4802, 38, 28 ] ) { is( DateTime->_ymd2rd( @{$_}[ 1 .. 3 ] ), $_->[0], join( '/', @{$_}[ 1 .. 3 ] ) . " \t=> " . $_->[0] . " (normalization)" ); } # test first and last day of each month from Jan -4800..Dec 4800 # this test bails after the first failure with a not ok. # if it comlpetes successfully, only one ok is issued. my @mlen = ( 0, 31, 0, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my ( $dno, $y, $m, $dno2, $y2, $m2, $d2, $mlen ) = ( -1753530, -4800, 1 ); while ( $y <= 4800 ) { # test $y,$m,1 ++$dno; $dno2 = DateTime->_ymd2rd( $y, $m, 1 ); if ( $dno != $dno2 ) { is( $dno2, $dno, "greg torture test: _ymd2rd($y,$m,1) should be $dno" ); last; } ( $y2, $m2, $d2 ) = DateTime->_rd2ymd($dno); if ( $y2 != $y || $m2 != $m || $d2 != 1 ) { is( "$y2/$m2/$d2", "$y/$m/1", "greg torture test: _rd2ymd($dno) should be $y/$m/1" ); last; } # test $y,$m,$mlen $mlen = $mlen[$m] || ( $y % 4 ? 28 : $y % 100 ? 29 : $y % 400 ? 28 : 29 ); $dno += $mlen - 1; $dno2 = DateTime->_ymd2rd( $y, $m, $mlen ); if ( $dno != $dno2 ) { is( $dno2, $dno, "greg torture test: _ymd2rd($y,$m,$mlen) should be $dno" ); last; } ( $y2, $m2, $d2 ) = DateTime->_rd2ymd($dno); if ( $y2 != $y || $m2 != $m || $d2 != $mlen ) { is( "$y2/$m2/$d2", "$y/$m/$mlen", "greg torture test: _rd2ymd($dno) should be $y/$m/$mlen" ); last; } # and on to the next month... if ( ++$m > 12 ) { $m = 1; ++$y; } } pass("greg torture test") if $y == 4801; done_testing(); DateTime-1.06/t/16truncate.t0000644000175000017500000001320412260573461015426 0ustar autarchautarchuse strict; use warnings; use Test::Fatal; use Test::More 0.88; use DateTime; my %vals = ( year => 50, month => 3, day => 15, hour => 10, minute => 55, second => 17, nanosecond => 1234, ); { my $dt = DateTime->new(%vals); $dt->truncate( to => 'second' ); foreach my $f (qw( year month day hour minute second )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'minute' ); foreach my $f (qw( year month day hour minute )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'hour' ); foreach my $f (qw( year month day hour )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'day' ); foreach my $f (qw( year month day )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'month' ); foreach my $f (qw( year month )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( day )) { is( $dt->$f(), 1, "$f should be 1" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'year' ); foreach my $f (qw( year )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( month day )) { is( $dt->$f(), 1, "$f should be 1" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new( year => 2003, month => 11, day => 17 ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'week' ); is( $trunc->day, 17, 'truncate to week should always truncate to monday of week' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'week' ); is( $trunc->day, 24, 'truncate to week should always truncate to monday of week' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 2 ) ->truncate( to => 'week' ); is( $dt->year, 2003, 'truncation to week across month boundary' ); is( $dt->month, 9, 'truncation to week across month boundary' ); is( $dt->day, 29, 'truncation to week across month boundary' ); } } { my $dt = DateTime->new( year => 2013, month => 12, day => 16, locale => 'fr_FR' ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'local_week' ); is( $trunc->day, 16, 'truncate to local_week returns correct date - locale start is Monday' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'local_week' ); is( $trunc->day, 23, 'truncate to local_week returns correct date - locale start is Monday' ); } { my $dt = DateTime->new( year => 2013, month => 11, day => 2, locale => 'fr_FR' )->truncate( to => 'local_week' ); is( $dt->year, 2013, 'truncation to local_week across month boundary - locale start is Monday' ); is( $dt->month, 10, 'truncation to local_week across month boundary - locale start is Monday' ); is( $dt->day, 28, 'truncation to local_week across month boundary - locale start is Monday' ); } } { my $dt = DateTime->new( year => 2013, month => 12, day => 15, locale => 'en_US' ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'local_week' ); is( $trunc->day, 15, 'truncate to local_week returns correct date - locale start is Sunday' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'local_week' ); is( $trunc->day, 22, 'truncate to local_week returns correct date - locale start is Sunday' ); } { my $dt = DateTime->new( year => 2013, month => 11, day => 2, locale => 'en_US' )->truncate( to => 'local_week' ); is( $dt->year, 2013, 'truncation to local_week across month boundary - locale start is Sunday' ); is( $dt->month, 10, 'truncation to local_week across month boundary - locale start is Sunday' ); is( $dt->day, 27, 'truncation to local_week across month boundary - locale start is Sunday' ); } } { my $dt = DateTime->new(%vals); for my $bad (qw( seconds minutes year_foo month_bar )) { like( exception { $dt->truncate( to => $bad ) }, qr/\QThe 'to' parameter/, "bad truncate parameter ($bad) throws an error" ); } } done_testing(); DateTime-1.06/t/release-pp-29overload.t0000644000175000017500000000765212260573461017465 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1900, month => 12, day => 1 ); is( "$dt", '1900-12-01T00:00:00', 'stringification overloading' ); } { my $dt = DateTime->new( year => 2050, month => 1, day => 15, hour => 20, minute => 10, second => 10 ); my $before_string = '2050-01-15T20:10:09'; my $same_string = '2050-01-15T20:10:10'; my $after_string = '2050-01-15T20:10:11'; is( "$dt", $same_string, 'stringification overloading' ); ok( $dt eq $same_string, 'eq overloading true' ); ok( !( $dt eq $after_string ), 'eq overloading false' ); ok( $dt ne $after_string, 'ne overloading true' ); ok( !( $dt ne $same_string ), 'ne overloading false' ); is( $dt cmp $same_string, 0, 'cmp overloading' ); is( $dt cmp $after_string, -1, ' less than' ); ok( $dt lt $after_string, 'lt overloading' ); ok( !( $dt lt $same_string ), ' not' ); { package Other::Date; use overload q[""] => sub { return ${ $_[0] }; }, fallback => 1; sub new { my ( $class, $date ) = @_; return bless \$date, $class; } } my $same_od = Other::Date->new($same_string); my $after_od = Other::Date->new($after_string); my $before_od = Other::Date->new($before_string); ok( $dt eq $same_od, "DateTime eq non-DateTime overloaded object true" ); ok( !( $dt eq $after_od ), " eq false" ); ok( $dt ne $after_od, " ne true" ); ok( !( $dt ne $same_od ), " ne false" ); is( $dt cmp $same_od, 0, 'cmp overloading' ); is( $dt cmp $after_od, -1, ' lt overloading' ); ok( $dt lt $after_od, 'lt overloading' ); ok( !( $dt lt $same_od ), ' not' ); is_deeply( [ map { $_ . ' - ' . ( ref $_ || 'no ref' ) } sort { $a cmp $b or ref $a cmp ref $b } $same_od, $after_od, $before_od, $dt, $same_string, $after_string, $before_string ], [ map { $_ . ' - ' . ( ref $_ || 'no ref' ) } $before_string, $before_od, $same_string, $dt, $same_od, $after_string, $after_od ], "eq sort" ); eval { my $x = $dt + 1 }; like( $@, qr/Cannot add 1 to a DateTime object/, 'Cannot add plain scalar to a DateTime object' ); eval { my $x = $dt + bless {}, 'FooBar' }; like( $@, qr/Cannot add FooBar=HASH\([^\)]+\) to a DateTime object/, 'Cannot add plain FooBar object to a DateTime object' ); eval { my $x = $dt - 1 }; like( $@, qr/Cannot subtract 1 from a DateTime object/, 'Cannot subtract plain scalar from a DateTime object' ); eval { my $x = $dt - bless {}, 'FooBar' }; like( $@, qr/Cannot subtract FooBar=HASH\([^\)]+\) from a DateTime object/, 'Cannot subtract plain FooBar object from a DateTime object' ); eval { my $x = $dt > 1 }; like( $@, qr/A DateTime object can only be compared to another DateTime object/, 'Cannot compare a DateTime object to a scalar' ); eval { my $x = $dt > bless {}, 'FooBar' }; like( $@, qr/A DateTime object can only be compared to another DateTime object/, 'Cannot compare a DateTime object to a FooBar object' ); ok( !( $dt eq 'some string' ), 'DateTime object always compares false to a string' ); ok( $dt ne 'some string', 'DateTime object always compares false to a string' ); ok( $dt eq $dt->clone, 'DateTime object is equal to a clone of itself' ); ok( !( $dt ne $dt->clone ), 'DateTime object is equal to a clone of itself (! ne)' ); } done_testing(); DateTime-1.06/t/release-pp-13strftime.t0000644000175000017500000001474112260573461017475 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } # test suite stolen shamelessly from TimeDate distro use strict; use warnings; use utf8; use Test::More; use DateTime; my $locale = 'en_US'; my $dt; my %params; while ( defined( my $line = ) ) { chomp $line; next unless $line =~ /\S/; if ( $line =~ /^year =>/ ) { %params = map { split /\s*=>\s*/ } split /\s*,\s*/, $line; $dt = DateTime->new( %params, time_zone => 'UTC' ); next; } elsif ( $line =~ /^(\w+)/ ) { $locale = $1; eval "use DateTime::Locale::$1"; die $@ if $@; $dt = DateTime->new( %params, time_zone => 'UTC', locale => $locale ); next; } my ( $fmt, $res ) = split /\s+=>\s+/, $line, 2; $res =~ s/^\'|\'$//g; if ( $fmt eq '%A' && $locale eq 'it' && $] >= 5.006 && $] <= 5.008 ) { ok( 1, "Perl 5.6.0 & 5.6.1 cannot handle Unicode characters in the DATA filehandle properly" ); next; } is( $dt->strftime($fmt), $res, "$fmt" ); } # test use of strftime with multiple params - in list and scalar # context { my $dt = DateTime->new( year => 1800, month => 1, day => 10, time_zone => 'UTC', ); my ( $y, $d ) = $dt->strftime( '%Y', '%d' ); is( $y, 1800, 'first value is year' ); is( $d, 10, 'second value is day' ); $y = $dt->strftime( '%Y', '%d' ); is( $y, 1800, 'scalar context returns year' ); } { my $dt = DateTime->new( year => 2003, hour => 0, minute => 0 ); is( $dt->strftime('%I %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 1 ); is( $dt->strftime('%I %M %p'), '01 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), ' 1 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 11 ); is( $dt->strftime('%I %M %p'), '11 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '11 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 12 ); is( $dt->strftime('%I %M %p'), '12 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 13 ); is( $dt->strftime('%I %M %p'), '01 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), ' 1 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 23 ); is( $dt->strftime('%I %M %p'), '11 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '11 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 0 ); is( $dt->strftime('%I %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); } { is( DateTime->new( year => 2003, month => 1, day => 1 )->strftime('%V'), '01', '%V is 01' ); } { my $dt = DateTime->new( year => 2004, month => 8, day => 16, hour => 15, minute => 30, nanosecond => 123456789, locale => 'en', ); # Should print '%{day_name}', prints '30onday'! is( $dt->strftime('%%{day_name}%n'), "%{day_name}\n", '%%{day_name}%n bug' ); # Should print '%6N', prints '123456' is( $dt->strftime('%%6N%n'), "%6N\n", '%%6N%n bug' ); } { # Internally this becomes 119999885 nanoseconds (floating point math is awesome) my $epoch = 1297777805.12; my $dt = DateTime->from_epoch( epoch => $epoch ); my @vals = ( 1, 12, 120, 1200, 12000, 120000, 1200000, 12000000, 120000000, 1200000000, ); my $x = 1; for my $val (@vals) { my $spec = '%' . $x++ . 'N'; is( $dt->strftime($spec), $val, "strftime($spec) for $epoch == $val" ); } } { my $dt = DateTime->new( year => 2011 ); for my $i (1..9) { my $spec = '%' . $i . 'N'; my $expect = '0' x$i; is( $dt->strftime($spec), $expect, "strftime $spec with 0 nanoseconds" ); } } done_testing(); # add these if we do roman-numeral stuff # %Od VII # %Oe VII # %OH XIII # %OI I # %Oj CCL # %Ok XIII # %Ol I # %Om IX # %OM II # %Oq III # %OY MCMXCIX # %Oy XCIX __DATA__ year => 1999, month => 9, day => 7, hour => 13, minute => 2, second => 42, nanosecond => 123456789 %y => '99' %Y => '1999' %% => '%' %a => 'Tue' %A => 'Tuesday' %b => 'Sep' %B => 'September' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'Sep' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %N => '123456789' %3N => '123' %6N => '123456' %10N => '1234567890' %p => 'PM' %r => '01:02:42 PM' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %E => '%E' %{foobar} => '%{foobar}' %{month} => '9' %{year} => '1999' %x => 'Sep 7, 1999' %X => '1:02:42 PM' %c => 'Sep 7, 1999 1:02:42 PM' de %y => '99' %Y => '1999' %% => '%' %a => 'Di.' %A => 'Dienstag' %b => 'Sep' %B => 'September' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'Sep' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %p => 'nachm.' %r => '01:02:42 nachm.' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %{month} => '9' %{year} => '1999' it %y => '99' %Y => '1999' %% => '%' %a => 'mar' %A => 'martedì' %b => 'set' %B => 'settembre' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'set' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %p => 'p.' %r => '01:02:42 p.' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %{month} => '9' %{year} => '1999' year => 2012, month => 1, day => 1 %U => '01' %W => '00' %j => '001' year => 2012, month => 1, day => 10 %U => '02' %W => '02' %j => '010' year => 1999, month => 9, day => 7, hour => 13, minute => 2, second => 42, nanosecond => 00012345678 %N => '012345678' %3N => '012' %6N => '012345' %10N => '0123456780' DateTime-1.06/t/14locale.t0000644000175000017500000000334012260573461015036 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; use DateTime::Locale; eval { DateTime->new( year => 100, locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->now( locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->today( locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->from_epoch( epoch => 1, locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->last_day_of_month( year => 100, month => 2, locale => 'en_US' ); }; is( $@, '', 'make sure constructor accepts locale parameter' ); { package DT::Object; sub utc_rd_values { ( 0, 0 ) } } eval { DateTime->from_object( object => ( bless {}, 'DT::Object' ), locale => 'en_US' ); }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->new( year => 100, locale => DateTime::Locale->load('en_US') ); }; is( $@, '', 'make sure constructor accepts locale parameter as object' ); DateTime->DefaultLocale('it'); is( DateTime->now->locale->id, 'it', 'default locale should now be "it"' ); { my $dt = DateTime->new( year => 2013, month => 10, day => 27, hour => 0, time_zone => 'UTC' ); my $after_zone = $dt->clone()->set_time_zone('Europe/Rome'); is( $after_zone->offset(), '7200', 'offset is 7200 after set_time_zone()' ); my $after_locale = $dt->clone()->set_time_zone('Europe/Rome')->set_locale('en_GB'); is( $after_locale->offset(), '7200', 'offset is 7200 after set_time_zone() and set_locale()' ); } done_testing(); DateTime-1.06/t/31formatter.t0000644000175000017500000000316112260573461015602 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { package Formatter; sub new { return bless {}, __PACKAGE__; } sub format_datetime { $_[1]->strftime('%Y%m%d %T'); } } my $formatter = Formatter->new(); my $dt = DateTime->from_epoch( epoch => time(), formatter => $formatter ); ok( $dt, "Constructor (from_epoch) : $@" ); $dt = eval { DateTime->new( year => 2004, month => 9, day => 2, hour => 13, minute => 23, second => 34, formatter => $formatter ); }; ok( $dt, "Constructor (new) : $@" ); $dt = eval { DateTime->from_object( object => $dt, formatter => $formatter ) }; ok( $dt, "Constructor (from_object) : $@" ); is( $dt->formatter, $formatter, "check from_object copies formatter" ); is( $dt->_stringify(), '20040902 13:23:34', 'Format datetime' ); # check stringification (with formatter) is( $dt->_stringify, "$dt", "Stringification (with formatter)" ); # check that set() and truncate() don't lose formatter $dt->set( hour => 3 ); is( $dt->_stringify, '20040902 03:23:34', 'formatter is preserved after set()' ); $dt->truncate( to => 'minute' ); is( $dt->_stringify, '20040902 03:23:00', 'formatter is preserved after truncate()' ); # check if the default behavior works $dt->set_formatter(undef); is( $dt->_stringify(), $dt->iso8601, 'Default iso8601 works' ); # check stringification (default) is( $dt->_stringify, "$dt", "Stringification (no formatter -> format_datetime)" ); is( $dt->iso8601, "$dt", "Stringification (no formatter -> iso8601)" ); done_testing(); DateTime-1.06/t/21bad-params.t0000644000175000017500000000351712260573461015612 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; foreach my $p ( { year => 2000, month => 13 }, { year => 2000, month => 0 }, { year => 2000, month => 12, day => 32 }, { year => 2000, month => 12, day => 0 }, { year => 2000, month => 12, day => 10, hour => -1 }, { year => 2000, month => 12, day => 10, hour => 24 }, { year => 2000, month => 12, day => 10, hour => 12, minute => -1 }, { year => 2000, month => 12, day => 10, hour => 12, minute => 60 }, { year => 2000, month => 12, day => 10, hour => 12, second => -1 }, { year => 2000, month => 12, day => 10, hour => 12, second => 62 }, ) { eval { DateTime->new(%$p) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to new()" ); eval { DateTime->new( year => 2000 )->set(%$p) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to set()" ); } { eval { DateTime->last_day_of_month( year => 2000, month => 13 ) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to last_day_of_month()" ); eval { DateTime->last_day_of_month( year => 2000, month => 0 ) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to last_day_of_month()" ); } { eval { DateTime->new( year => 2000, month => 4, day => 31 ) }; like( $@, qr/valid day of month/i, "Day past last day of month should fail" ); eval { DateTime->new( year => 2001, month => 2, day => 29 ) }; like( $@, qr/valid day of month/i, "Day past last day of month should fail" ); eval { DateTime->new( year => 2000, month => 2, day => 29 ) }; ok( !$@, "February 29 should be valid in leap years" ); } done_testing(); DateTime-1.06/t/25add-subtract.t0000644000175000017500000000160212260573461016155 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # exercises a bug found in Perl version of _normalize_tai_seconds - # fixed in 0.15 { my $dt = DateTime->new( year => 2000, month => 12 ); $dt->add( months => 1 )->truncate( to => 'month' ) ->subtract( seconds => 1 ); is( $dt->year, 2000, 'year is 2001' ); is( $dt->month, 12, 'month is 12' ); is( $dt->hour, 23, 'hour is 23' ); is( $dt->minute, 59, 'minute is 59' ); is( $dt->second, 59, 'second is 59' ); } { my $dt = DateTime->new( year => 2000, month => 12 ); my $dt2 = $dt->clone->add( months => 1 )->subtract( seconds => 1 ); is( $dt2->year, 2000, 'year is 2001' ); is( $dt2->month, 12, 'month is 12' ); is( $dt2->hour, 23, 'hour is 23' ); is( $dt2->minute, 59, 'minute is 59' ); is( $dt2->second, 59, 'second is 59' ); } done_testing(); DateTime-1.06/t/release-pp-36invalid-local.t0000644000175000017500000000251012260573461020352 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my $badlt_rx = qr/Invalid local time|local time [0-9\-:T]+ does not exist/; { eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 2, time_zone => 'America/Chicago', ); }; like( $@, $badlt_rx, 'exception for invalid time' ); eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 2, minute => 59, second => 59, time_zone => 'America/Chicago', ); }; like( $@, $badlt_rx, 'exception for invalid time' ); } { eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 1, minute => 59, second => 59, time_zone => 'America/Chicago', ); }; ok( !$@, 'no exception for valid time' ); my $dt = DateTime->new( year => 2003, month => 4, day => 5, hour => 2, time_zone => 'America/Chicago', ); eval { $dt->add( days => 1 ) }; like( $@, $badlt_rx, 'exception for invalid time produced via add' ); } done_testing(); DateTime-1.06/t/release-pp-00load.t0000644000175000017500000000041212260573461016541 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More 0.88; use_ok('DateTime'); done_testing(); DateTime-1.06/t/release-pp-31formatter.t0000644000175000017500000000344512260573461017642 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { package Formatter; sub new { return bless {}, __PACKAGE__; } sub format_datetime { $_[1]->strftime('%Y%m%d %T'); } } my $formatter = Formatter->new(); my $dt = DateTime->from_epoch( epoch => time(), formatter => $formatter ); ok( $dt, "Constructor (from_epoch) : $@" ); $dt = eval { DateTime->new( year => 2004, month => 9, day => 2, hour => 13, minute => 23, second => 34, formatter => $formatter ); }; ok( $dt, "Constructor (new) : $@" ); $dt = eval { DateTime->from_object( object => $dt, formatter => $formatter ) }; ok( $dt, "Constructor (from_object) : $@" ); is( $dt->formatter, $formatter, "check from_object copies formatter" ); is( $dt->_stringify(), '20040902 13:23:34', 'Format datetime' ); # check stringification (with formatter) is( $dt->_stringify, "$dt", "Stringification (with formatter)" ); # check that set() and truncate() don't lose formatter $dt->set( hour => 3 ); is( $dt->_stringify, '20040902 03:23:34', 'formatter is preserved after set()' ); $dt->truncate( to => 'minute' ); is( $dt->_stringify, '20040902 03:23:00', 'formatter is preserved after truncate()' ); # check if the default behavior works $dt->set_formatter(undef); is( $dt->_stringify(), $dt->iso8601, 'Default iso8601 works' ); # check stringification (default) is( $dt->_stringify, "$dt", "Stringification (no formatter -> format_datetime)" ); is( $dt->iso8601, "$dt", "Stringification (no formatter -> iso8601)" ); done_testing(); DateTime-1.06/t/release-pp-24from-object.t0000644000175000017500000000413412260573461020044 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my $dt1 = DateTime->new( year => 1970, hour => 1, nanosecond => 100 ); my $dt2 = DateTime->from_object( object => $dt1 ); is( $dt1->year, 1970, 'year is 1970' ); is( $dt1->hour, 1, 'hour is 1' ); is( $dt1->nanosecond, 100, 'nanosecond is 100' ); { my $t1 = DateTime::Calendar::_Test::WithoutTZ->new( rd_days => 1, rd_secs => 0 ); # Tests creating objects from other calendars (without time zones) my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->datetime, '0001-01-01T00:00:00', 'convert from object without tz' ); ok( $t2->time_zone->is_floating, 'time_zone is floating' ); } { my $tz = DateTime::TimeZone->new( name => 'America/Chicago' ); my $t1 = DateTime::Calendar::_Test::WithTZ->new( rd_days => 1, rd_secs => 0, time_zone => $tz ); # Tests creating objects from other calendars (with time zones) my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->time_zone->name, 'America/Chicago', 'time_zone is preserved' ); } { my $tz = DateTime::TimeZone->new( name => 'UTC' ); my $t1 = DateTime::Calendar::_Test::WithTZ->new( rd_days => 720258, rd_secs => 86400, time_zone => $tz ); my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->second, 60, 'new DateTime from_object with TZ which is a leap second' ); } done_testing(); # Set up two simple test packages package DateTime::Calendar::_Test::WithoutTZ; sub new { my $class = shift; bless {@_}, $class; } sub utc_rd_values { return $_[0]{rd_days}, $_[0]{rd_secs}, 0; } package DateTime::Calendar::_Test::WithTZ; sub new { my $class = shift; bless {@_}, $class; } sub utc_rd_values { return $_[0]{rd_days}, $_[0]{rd_secs}, 0; } sub time_zone { return $_[0]{time_zone}; } DateTime-1.06/t/release-pod-spell.t0000644000175000017500000000233012260573461016745 0ustar autarchautarch BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use utf8; use strict; use warnings; use Test::More; eval "use Test::Spelling"; plan skip_all => "Test::Spelling required for spell checking" if $@; my @stopwords; for () { chomp; push @stopwords, $_ unless /\A (?: \# | \s* \z)/msx; # skip comments, whitespace } add_stopwords(@stopwords); set_spell_cmd('aspell list -l en'); # This prevents a weird segfault from the aspell command - see # https://bugs.launchpad.net/ubuntu/+source/aspell/+bug/71322 local $ENV{LC_ALL} = 'en_US'; all_pod_files_spelling_ok(); __DATA__ Anno BCE CLDR CPAN DATETIME DateTime DateTimes Datetime Datetimes Domini EEEE EEEEE Flávio Formatters GGGG GGGGG Glock IEEE IEEE LLL LLLL LLLLL Liang's MMM MMMM MMMMM Measham's POSIX PayPal QQQ QQQQ Rata Rata Rolsky SU Soibelmann Storable TZ Tsai UTC VVVV ZZZZ ZZZZZ afterwards bian ccc cccc ccccc conformant datetime datetime's datetimes decrement dian durations eee eeee eeeee fallback formatter hh iCal ji mutiplication na namespace ni nitty other's proleptic qqq qqqq sexagesimal subclasses uu vvvv wiki yy yyyy yyyyy zzzz DateTime-1.06/t/29overload.t0000644000175000017500000000736612260573461015434 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1900, month => 12, day => 1 ); is( "$dt", '1900-12-01T00:00:00', 'stringification overloading' ); } { my $dt = DateTime->new( year => 2050, month => 1, day => 15, hour => 20, minute => 10, second => 10 ); my $before_string = '2050-01-15T20:10:09'; my $same_string = '2050-01-15T20:10:10'; my $after_string = '2050-01-15T20:10:11'; is( "$dt", $same_string, 'stringification overloading' ); ok( $dt eq $same_string, 'eq overloading true' ); ok( !( $dt eq $after_string ), 'eq overloading false' ); ok( $dt ne $after_string, 'ne overloading true' ); ok( !( $dt ne $same_string ), 'ne overloading false' ); is( $dt cmp $same_string, 0, 'cmp overloading' ); is( $dt cmp $after_string, -1, ' less than' ); ok( $dt lt $after_string, 'lt overloading' ); ok( !( $dt lt $same_string ), ' not' ); { package Other::Date; use overload q[""] => sub { return ${ $_[0] }; }, fallback => 1; sub new { my ( $class, $date ) = @_; return bless \$date, $class; } } my $same_od = Other::Date->new($same_string); my $after_od = Other::Date->new($after_string); my $before_od = Other::Date->new($before_string); ok( $dt eq $same_od, "DateTime eq non-DateTime overloaded object true" ); ok( !( $dt eq $after_od ), " eq false" ); ok( $dt ne $after_od, " ne true" ); ok( !( $dt ne $same_od ), " ne false" ); is( $dt cmp $same_od, 0, 'cmp overloading' ); is( $dt cmp $after_od, -1, ' lt overloading' ); ok( $dt lt $after_od, 'lt overloading' ); ok( !( $dt lt $same_od ), ' not' ); is_deeply( [ map { $_ . ' - ' . ( ref $_ || 'no ref' ) } sort { $a cmp $b or ref $a cmp ref $b } $same_od, $after_od, $before_od, $dt, $same_string, $after_string, $before_string ], [ map { $_ . ' - ' . ( ref $_ || 'no ref' ) } $before_string, $before_od, $same_string, $dt, $same_od, $after_string, $after_od ], "eq sort" ); eval { my $x = $dt + 1 }; like( $@, qr/Cannot add 1 to a DateTime object/, 'Cannot add plain scalar to a DateTime object' ); eval { my $x = $dt + bless {}, 'FooBar' }; like( $@, qr/Cannot add FooBar=HASH\([^\)]+\) to a DateTime object/, 'Cannot add plain FooBar object to a DateTime object' ); eval { my $x = $dt - 1 }; like( $@, qr/Cannot subtract 1 from a DateTime object/, 'Cannot subtract plain scalar from a DateTime object' ); eval { my $x = $dt - bless {}, 'FooBar' }; like( $@, qr/Cannot subtract FooBar=HASH\([^\)]+\) from a DateTime object/, 'Cannot subtract plain FooBar object from a DateTime object' ); eval { my $x = $dt > 1 }; like( $@, qr/A DateTime object can only be compared to another DateTime object/, 'Cannot compare a DateTime object to a scalar' ); eval { my $x = $dt > bless {}, 'FooBar' }; like( $@, qr/A DateTime object can only be compared to another DateTime object/, 'Cannot compare a DateTime object to a FooBar object' ); ok( !( $dt eq 'some string' ), 'DateTime object always compares false to a string' ); ok( $dt ne 'some string', 'DateTime object always compares false to a string' ); ok( $dt eq $dt->clone, 'DateTime object is equal to a clone of itself' ); ok( !( $dt ne $dt->clone ), 'DateTime object is equal to a clone of itself (! ne)' ); } done_testing(); DateTime-1.06/t/33seconds-offset.t0000644000175000017500000000400112260573461016515 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 58, second => 59, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:29', '+00:00:30 leap second T-61' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 29, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:59', '+00:00:30 leap second T-31' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:60', '+00:00:30 leap second T-30' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 31, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:00', '+00:00:30 leap second T-29' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:30', '+00:00:30 leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:30', '+00:00:30 leap second T+1' ); } done_testing(); DateTime-1.06/t/release-pod-syntax.t0000644000175000017500000000045012260573461017155 0ustar autarchautarch#!perl BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use Test::More; eval "use Test::Pod 1.41"; plan skip_all => "Test::Pod 1.41 required for testing POD" if $@; all_pod_files_ok(); DateTime-1.06/t/43new-params.t0000644000175000017500000000370112260573461015654 0ustar autarchautarchuse strict; use warnings; use Test::Fatal; use Test::More; use DateTime; like( exception { DateTime->new( year => 10.5 ) }, qr/is an integer/, 'year must be an integer' ); like( exception { DateTime->new( year => -10.5 ) }, qr/is an integer/, 'year must be an integer' ); like( exception { DateTime->new( year => 10, month => 2.5 ) }, qr/an integer/, 'month must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12.4 ) }, qr/an integer/, 'day must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4.1 ); }, qr/an integer/, 'hour must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12.2 ); }, qr/an integer/, 'minute must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12, second => 51.8 ); }, qr/an integer/, 'second must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12, second => 51, nanosecond => 124512.12412 ); }, qr/positive integer/, 'nanosecond must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12 )->today; }, qr/called with reference/, 'today must be called as a class method, not an object method' ); like( exception { DateTime->new( year => 10, month => 2, day => 12 )->now; }, qr/called with reference/, 'now must be called as a class method, not an object method' ); done_testing(); DateTime-1.06/t/release-pp-30future-tz.t0000644000175000017500000000343012260573461017575 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # # This test exercises a bug that occurred when date math did not # always make sure to update the utc_year attribute of the given # DateTime. The sympton was that the time zone future span generation # would fail because utc_year was less than the span's max_year, so # span generation wouldn't actually do anything, and it would die with # "Invalid local time". # { # Each iteration needs to use a different zone, because if it # works once, the generated spans are cached. for my $add ( [ years => 50, 1, 'America/New_York' ], [ days => 50, 365, 'America/Chicago' ], [ minutes => 50, 365 * 1440, 'America/Denver', ], [ seconds => 50, 365 * 1440 * 60, 'America/Los_Angeles' ], [ nanoseconds => 50, 365 * 1440 * 60 * 1_000_000_000, 'America/North_Dakota/Center' ], [ years => 750, 1, 'Europe/Paris' ], [ days => 750, 365, 'Europe/London' ], [ minutes => 750, 365 * 1440, 'Europe/Brussels', ], [ seconds => 750, 365 * 1440 * 60, 'Europe/Vienna' ], [ nanoseconds => 750, 365 * 1440 * 60 * 1_000_000_000, 'Europe/Prague' ], ) { my $dt = DateTime->now( time_zone => $add->[3] ); my $new = eval { $dt->clone->add( $add->[0], $add->[1] * $add->[2] ) }; ok( !$@, "Make sure we can add $add->[1] years worth of $add->[0] in $add->[3] time zone" ); } } done_testing(); DateTime-1.06/t/32leap-second2.t0000644000175000017500000001651412260573461016062 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 58, time_zone => '+0100', ); is( $t->second, 58, 'second value for leap second T-2, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-2' ); is( $t->{utc_rd_secs}, 86398, 'UTC RD seconds for leap second T-2' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-2' ); is( $t->{local_rd_secs}, 3598, 'local RD seconds for leap second T-2' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'second value for leap second T-1, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-1' ); is( $t->{utc_rd_secs}, 86399, 'UTC RD seconds for leap second T-1' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-1' ); is( $t->{local_rd_secs}, 3599, 'local RD seconds for leap second T-1' ); } { my $t = eval { DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100', ); }; ok( !$@, 'constructor for second = 60' ); SKIP: { skip 'constructor failed - no object to test', 5 unless $t; is( $t->second, 60, 'second value for leap second T-0, +0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-0' ); is( $t->{utc_rd_secs}, 86400, 'UTC RD seconds for leap second T-0' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T-0' ); is( $t->{local_rd_secs}, 3600, 'local RD seconds for leap second T-0' ); } } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100', ); is( $t->second, 0, 'second value for leap second T+1, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+1' ); is( $t->{utc_rd_secs}, 0, 'UTC RD seconds for leap second T+1' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T+1' ); is( $t->{local_rd_secs}, 3601, 'local RD seconds for leap second T+1' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 1, time_zone => '+0100', ); is( $t->second, 1, 'second value for leap second T+2, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+2' ); is( $t->{utc_rd_secs}, 1, 'UTC RD seconds for leap second T+2' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second T+2' ); is( $t->{local_rd_secs}, 3602, 'local RD seconds for leap second T+2' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 23, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'second value for end of leap second day, +0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for end of leap second day' ); is( $t->{utc_rd_secs}, 82799, 'UTC RD seconds for end of leap second day' ); is( $t->{local_rd_days}, 720075, 'local RD days for leap second day' ); is( $t->{local_rd_secs}, 86400, 'local RD seconds for end of leap second day' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 58, time_zone => '-0100', ); is( $t->second, 58, 'second value for leap second T-2, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-2' ); is( $t->{utc_rd_secs}, 86398, 'UTC RD seconds for leap second T-2' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-2' ); is( $t->{local_rd_secs}, 82798, 'local RD seconds for leap second T-2' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 59, time_zone => '-0100', ); is( $t->second, 59, 'second value for leap second T-1, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-1' ); is( $t->{utc_rd_secs}, 86399, 'UTC RD seconds for leap second T-1' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-1' ); is( $t->{local_rd_secs}, 82799, 'local RD seconds for leap second T-1' ); } { my $t = eval { DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100', ); }; ok( !$@, 'constructor for second = 60' ); SKIP: { skip 'constructor failed - no object to test', 5 unless $t; is( $t->second, 60, 'second value for leap second T-0, -0100' ); is( $t->{utc_rd_days}, 720074, 'UTC RD days for leap second T-0' ); is( $t->{utc_rd_secs}, 86400, 'UTC RD seconds for leap second T-0' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T-0' ); is( $t->{local_rd_secs}, 82800, 'local RD seconds for leap second T-0' ); } } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 0, second => 0, time_zone => '-0100', ); is( $t->second, 0, 'second value for leap second T+1, -0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+1' ); is( $t->{utc_rd_secs}, 0, 'UTC RD seconds for leap second T+1' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T+1' ); is( $t->{local_rd_secs}, 82801, 'local RD seconds for leap second T+1' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 0, second => 1, time_zone => '-0100', ); is( $t->second, 1, 'second value for leap second T+2, -0100' ); is( $t->{utc_rd_days}, 720075, 'UTC RD days for leap second T+2' ); is( $t->{utc_rd_secs}, 1, 'UTC RD seconds for leap second T+2' ); is( $t->{local_rd_days}, 720074, 'local RD days for leap second T+2' ); is( $t->{local_rd_secs}, 82802, 'local RD seconds for leap second T+2' ); } done_testing(); DateTime-1.06/t/release-pod-coverage.t0000644000175000017500000000223212260573461017422 0ustar autarchautarch BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; use Test::More; eval "use Test::Pod::Coverage 1.04"; plan skip_all => "Test::Pod::Coverage 1.04 required for testing POD coverage" if $@; my @modules = grep { !/PP/ && !/Helpers/ } all_modules(); plan tests => scalar @modules; my %trustme = ( 'DateTime' => { trustme => [ qr/0$/, qr/^STORABLE/, 'utc_year', 'timegm', qw( day_of_month doq dow doy iso8601 local_rd_as_seconds mday min mon sec wday ), # deprecated methods 'DefaultLanguage', 'era', 'language', ] }, 'DateTime::Infinite' => { trustme => [ qr/^STORABLE/, qr/^set/, qr/^is_(?:in)?finite/, 'truncate' ] }, ); for my $mod ( sort @modules ) { pod_coverage_ok( $mod, $trustme{$mod} || {}, $mod ); } DateTime-1.06/t/release-load-is-xs.t0000644000175000017500000000046312260573461017033 0ustar autarchautarch BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; use Test::More; use DateTime; ok( ! $DateTime::IsPurePerl, 'Loading DateTime loaded the XS version' ); done_testing(); DateTime-1.06/t/release-pp-25add-subtract.t0000644000175000017500000000206612260573461020215 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # exercises a bug found in Perl version of _normalize_tai_seconds - # fixed in 0.15 { my $dt = DateTime->new( year => 2000, month => 12 ); $dt->add( months => 1 )->truncate( to => 'month' ) ->subtract( seconds => 1 ); is( $dt->year, 2000, 'year is 2001' ); is( $dt->month, 12, 'month is 12' ); is( $dt->hour, 23, 'hour is 23' ); is( $dt->minute, 59, 'minute is 59' ); is( $dt->second, 59, 'second is 59' ); } { my $dt = DateTime->new( year => 2000, month => 12 ); my $dt2 = $dt->clone->add( months => 1 )->subtract( seconds => 1 ); is( $dt2->year, 2000, 'year is 2001' ); is( $dt2->month, 12, 'month is 12' ); is( $dt2->hour, 23, 'hour is 23' ); is( $dt2->minute, 59, 'minute is 59' ); is( $dt2->second, 59, 'second is 59' ); } done_testing(); DateTime-1.06/t/release-pp-35rd-values.t0000644000175000017500000000317512260573461017545 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 2000, hour => 1, nanosecond => 500, time_zone => 'UTC', ); my ( $utc_rd_days, $utc_rd_secs, $utc_nanosecs ) = $dt->utc_rd_values; is( $utc_rd_days, 730120, 'utc rd days is 730120' ); is( $utc_rd_secs, 3600, 'utc rd seconds is 3600' ); is( $utc_nanosecs, 500, 'nanoseconds is 500' ); my ( $local_rd_days, $local_rd_secs, $local_nanosecs ) = $dt->local_rd_values; is( $local_rd_days, $utc_rd_days, 'local & utc rd days are equal' ); is( $local_rd_secs, $utc_rd_secs, 'local & utc rd seconds are equal' ); is( $local_nanosecs, $utc_nanosecs, 'local & UTC nanoseconds are equal' ); } { my $dt = DateTime->new( year => 2000, hour => 1, nanosecond => 500, time_zone => '+02:00', ); my ( $utc_rd_days, $utc_rd_secs, $utc_nanosecs ) = $dt->utc_rd_values; is( $utc_rd_days, 730119, 'utc rd days is 730119' ); is( $utc_rd_secs, 82800, 'utc rd seconds is 82800' ); is( $utc_nanosecs, 500, 'nanoseconds is 500' ); my ( $local_rd_days, $local_rd_secs, $local_nanosecs ) = $dt->local_rd_values; is( $local_rd_days, 730120, 'local rd days is 730120' ); is( $local_rd_secs, 3600, 'local rd seconds is 3600' ); is( $local_nanosecs, 500, 'local nanoseconds is 500' ); } done_testing(); DateTime-1.06/t/01sanity.t0000644000175000017500000000314512260573461015105 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1870, month => 10, day => 21, hour => 12, minute => 10, second => 45, nanosecond => 123456, time_zone => 'UTC' ); is( $dt->year, '1870', "Year accessor, outside of the epoch" ); is( $dt->month, '10', "Month accessor, outside the epoch" ); is( $dt->day, '21', "Day accessor, outside the epoch" ); is( $dt->hour, '12', "Hour accessor, outside the epoch" ); is( $dt->minute, '10', "Minute accessor, outside the epoch" ); is( $dt->second, '45', "Second accessor, outside the epoch" ); is( $dt->nanosecond, '123456', "nanosecond accessor, outside the epoch" ); $dt = DateTime->from_object( object => $dt ); is( $dt->year, '1870', "Year should be identical" ); is( $dt->month, '10', "Month should be identical" ); is( $dt->day, '21', "Day should be identical" ); is( $dt->hour, '12', "Hour should be identical" ); is( $dt->minute, '10', "Minute should be identical" ); is( $dt->second, '45', "Second should be identical" ); is( $dt->nanosecond, '123456', "nanosecond should be identical" ); } { my $dt = DateTime->new( year => 1870, month => 10, day => 21, hour => 12, minute => 10, second => 45, time_zone => 'UTC' ); is( $dt->minute, '10', "Minute accessor, outside the epoch" ); is( $dt->second, '45', "Second accessor, outside the epoch" ); } done_testing(); DateTime-1.06/t/44set-formatter.t0000644000175000017500000000114512260573461016377 0ustar autarchautarchuse strict; use warnings; use Test::Fatal; use Test::More; use DateTime; use overload; my $dt = DateTime->now; like( exception { $dt->set_formatter('Invalid::Formatter') }, qr/can format_datetime/, 'set_format is validated' ); SKIP: { skip 'This test requires DateTime::Format::Strptime 1.2000+', 1 unless eval "use DateTime::Format::Strptime 1.2000"; my $formatter = DateTime::Format::Strptime->new( pattern => '%Y%m%d %T', ); is( $dt->set_formatter($formatter), $dt, 'set_formatter returns the datetime object' ); } done_testing(); DateTime-1.06/t/22from-doy.t0000644000175000017500000000275012260573461015336 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my @last = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my @leap_last = @last; $leap_last[1]++; { my $doy = 15; foreach my $month ( 1 .. 12 ) { $doy += $last[ $month - 2 ] if $month > 1; my $dt = DateTime->from_day_of_year( year => 2001, day_of_year => $doy, time_zone => 'UTC', ); is( $dt->year, 2001, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, 15, 'check day' ); is( $dt->day_of_year, $doy, 'check day of year' ); } } { my $doy = 15; foreach my $month ( 1 .. 12 ) { $doy += $leap_last[ $month - 2 ] if $month > 1; my $dt = DateTime->from_day_of_year( year => 2004, day_of_year => $doy, time_zone => 'UTC', ); is( $dt->year, 2004, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, 15, 'check day' ); is( $dt->day_of_year, $doy, 'check day of year' ); } } { eval { DateTime->from_day_of_year( year => 2001, day_of_year => 366 ) }; like( $@, qr/2001 is not a leap year/, "Cannot give day of year 366 in non-leap years" ); eval { DateTime->from_day_of_year( year => 2004, day_of_year => 366 ) }; ok( !$@, "Day of year 366 should work in leap years" ); } done_testing(); DateTime-1.06/t/24from-object.t0000644000175000017500000000365012260573461016013 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my $dt1 = DateTime->new( year => 1970, hour => 1, nanosecond => 100 ); my $dt2 = DateTime->from_object( object => $dt1 ); is( $dt1->year, 1970, 'year is 1970' ); is( $dt1->hour, 1, 'hour is 1' ); is( $dt1->nanosecond, 100, 'nanosecond is 100' ); { my $t1 = DateTime::Calendar::_Test::WithoutTZ->new( rd_days => 1, rd_secs => 0 ); # Tests creating objects from other calendars (without time zones) my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->datetime, '0001-01-01T00:00:00', 'convert from object without tz' ); ok( $t2->time_zone->is_floating, 'time_zone is floating' ); } { my $tz = DateTime::TimeZone->new( name => 'America/Chicago' ); my $t1 = DateTime::Calendar::_Test::WithTZ->new( rd_days => 1, rd_secs => 0, time_zone => $tz ); # Tests creating objects from other calendars (with time zones) my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->time_zone->name, 'America/Chicago', 'time_zone is preserved' ); } { my $tz = DateTime::TimeZone->new( name => 'UTC' ); my $t1 = DateTime::Calendar::_Test::WithTZ->new( rd_days => 720258, rd_secs => 86400, time_zone => $tz ); my $t2 = DateTime->from_object( object => $t1 ); isa_ok( $t2, 'DateTime' ); is( $t2->second, 60, 'new DateTime from_object with TZ which is a leap second' ); } done_testing(); # Set up two simple test packages package DateTime::Calendar::_Test::WithoutTZ; sub new { my $class = shift; bless {@_}, $class; } sub utc_rd_values { return $_[0]{rd_days}, $_[0]{rd_secs}, 0; } package DateTime::Calendar::_Test::WithTZ; sub new { my $class = shift; bless {@_}, $class; } sub utc_rd_values { return $_[0]{rd_days}, $_[0]{rd_secs}, 0; } sub time_zone { return $_[0]{time_zone}; } DateTime-1.06/t/26dt-leapsecond-pm.t0000644000175000017500000000212412260573461016735 0ustar autarchautarch# no pp test use strict; use warnings; use Test::More; use DateTime::LeapSecond; is( DateTime::LeapSecond::leap_seconds(100), 0, 'before 1970' ); # at the start of the table: # 1972-06-30 my $day = 720074; is( DateTime::LeapSecond::leap_seconds($day), 0, 'before leap-second transition' ); is( DateTime::LeapSecond::extra_seconds($day) + 0, 1, 'leap day' ); # 1972-07-01 $day = 720075; is( DateTime::LeapSecond::leap_seconds($day), 1, 'day after leap-second day' ); is( DateTime::LeapSecond::extra_seconds($day), 0, 'not a leap day' ); # 1972-07-02 $day = 720076; is( DateTime::LeapSecond::leap_seconds($day), 1, 'after leap-second day' ); # at the end of the table: # 1998-12-31 $day = 729754; is( DateTime::LeapSecond::leap_seconds($day), 21, 'before leap-second day' ); # 1999-01-01 $day = 729755; is( DateTime::LeapSecond::leap_seconds($day), 22, 'leap-second day' ); # 1999-01-02 $day = 729756; is( DateTime::LeapSecond::leap_seconds($day), 22, 'after leap-second day' ); # some leap second dates: # 1972 Jul. 1 # 1973 Jan. 1 # ... # 1997 Jul. 1 # 1999 Jan. 1 done_testing(); DateTime-1.06/t/02last-day.t0000644000175000017500000000206612260573461015316 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my @last = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my @leap_last = @last; $leap_last[1]++; foreach my $month ( 1 .. 12 ) { my $dt = DateTime->last_day_of_month( year => 2001, month => $month, time_zone => 'UTC', ); is( $dt->year, 2001, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, $last[ $month - 1 ], 'check day' ); } foreach my $month ( 1 .. 12 ) { my $dt = DateTime->last_day_of_month( year => 2004, month => $month, time_zone => 'UTC', ); is( $dt->year, 2004, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, $leap_last[ $month - 1 ], 'check day' ); } { eval { DateTime->last_day_of_month( year => 2000, month => 1, nanosecond => 2000 ); }; is( $@, '', "last_day_of_month should accept nanosecond" ); } done_testing(); DateTime-1.06/t/30future-tz.t0000644000175000017500000000314412260573461015544 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # # This test exercises a bug that occurred when date math did not # always make sure to update the utc_year attribute of the given # DateTime. The sympton was that the time zone future span generation # would fail because utc_year was less than the span's max_year, so # span generation wouldn't actually do anything, and it would die with # "Invalid local time". # { # Each iteration needs to use a different zone, because if it # works once, the generated spans are cached. for my $add ( [ years => 50, 1, 'America/New_York' ], [ days => 50, 365, 'America/Chicago' ], [ minutes => 50, 365 * 1440, 'America/Denver', ], [ seconds => 50, 365 * 1440 * 60, 'America/Los_Angeles' ], [ nanoseconds => 50, 365 * 1440 * 60 * 1_000_000_000, 'America/North_Dakota/Center' ], [ years => 750, 1, 'Europe/Paris' ], [ days => 750, 365, 'Europe/London' ], [ minutes => 750, 365 * 1440, 'Europe/Brussels', ], [ seconds => 750, 365 * 1440 * 60, 'Europe/Vienna' ], [ nanoseconds => 750, 365 * 1440 * 60 * 1_000_000_000, 'Europe/Prague' ], ) { my $dt = DateTime->now( time_zone => $add->[3] ); my $new = eval { $dt->clone->add( $add->[0], $add->[1] * $add->[2] ) }; ok( !$@, "Make sure we can add $add->[1] years worth of $add->[0] in $add->[3] time zone" ); } } done_testing(); DateTime-1.06/t/release-pp-27delta.t0000644000175000017500000000766612260573461016746 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); { my $dur_md = $date2->delta_md($date1); is( $dur_md->delta_months, 1, 'delta_md months is 1' ); is( $dur_md->delta_days, 2, 'delta_md days is 2' ); is( $dur_md->delta_minutes, 0, 'delta_md minutes is 0' ); is( $dur_md->delta_seconds, 0, 'delta_md seconds is 0' ); is( $dur_md->delta_nanoseconds, 0, 'delta_md nanoseconds is 0' ); my $dur_d = $date2->delta_days($date1); is( $dur_d->delta_months, 0, 'delta_d months is 0' ); is( $dur_d->delta_days, 33, 'delta_d days is 33' ); is( $dur_d->delta_minutes, 0, 'delta_d minutes is 0' ); is( $dur_d->delta_seconds, 0, 'delta_d seconds is 0' ); is( $dur_d->delta_nanoseconds, 0, 'delta_d nanoseconds is 0' ); my $dur_ms = $date2->delta_ms($date1); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 47584, 'delta_ms minutes is 47584' ); is( $dur_ms->delta_seconds, 20, 'delta_ms seconds is 20' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 793, 'hours is 793' ); } { my $dur_md = $date1->delta_md($date2); is( $dur_md->delta_months, 1, 'delta_md months is 1' ); is( $dur_md->delta_days, 2, 'delta_md days is 2' ); is( $dur_md->delta_minutes, 0, 'delta_md minutes is 0' ); is( $dur_md->delta_seconds, 0, 'delta_md seconds is 0' ); is( $dur_md->delta_nanoseconds, 0, 'delta_md nanoseconds is 0' ); my $dur_d = $date1->delta_days($date2); is( $dur_d->delta_months, 0, 'delta_d months is 0' ); is( $dur_d->delta_days, 33, 'delta_d days is 33' ); is( $dur_d->delta_minutes, 0, 'delta_d minutes is 0' ); is( $dur_d->delta_seconds, 0, 'delta_d seconds is 0' ); is( $dur_d->delta_nanoseconds, 0, 'delta_d nanoseconds is 0' ); my $dur_ms = $date1->delta_ms($date2); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 47584, 'delta_ms minutes is 47584' ); is( $dur_ms->delta_seconds, 20, 'delta_ms seconds is 20' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 793, 'hours is 793' ); } } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 15, minute => 0, second => 0, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 5, day => 11, hour => 12, minute => 30, second => 10, time_zone => 'UTC' ); my $dur_ms = $date1->delta_ms($date2); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 1290, 'delta_ms minutes is 1290' ); is( $dur_ms->delta_seconds, 10, 'delta_ms seconds is 30' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 21, 'hours is 21' ); } done_testing(); DateTime-1.06/t/release-pp-15jd.t0000644000175000017500000000371712260573461016240 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # Borrowed from Matt Sergeant's Time::Piece # A table of MJD and components my @mjd = ( '51603.524' => { year => 2000, month => 2, day => 29, hour => 12, minute => 34, second => 56, }, '40598.574' => { year => 1970, month => 1, day => 12, hour => 13, minute => 46, second => 51, }, '52411.140' => { year => 2002, month => 5, day => 17, hour => 3, minute => 21, second => 43, }, '53568.547' => { year => 2005, month => 7, day => 17, hour => 13, minute => 8, second => 23, }, '52295.218' => { year => 2002, month => 1, day => 21, hour => 5, minute => 13, second => 20, }, '52295.399' => { year => 2002, month => 1, day => 21, hour => 9, minute => 35, second => 3, }, # beginning of MJD '0.000' => { year => 1858, month => 11, day => 17, hour => 0, minute => 0, second => 0, }, # beginning of JD '-2400000.500' => { year => -4713, month => 11, day => 24, hour => 12, minute => 0, second => 0, }, ); while ( my ( $mjd, $comps ) = splice @mjd, 0, 2 ) { my $dt = DateTime->new( %$comps, time_zone => 'UTC', ); is( sprintf( '%.3f', $dt->mjd ), $mjd, "MJD should be $mjd" ); my $jd = sprintf( '%.3f', $mjd + 2_400_000.5 ); is( sprintf( '%.3f', $dt->jd ), $jd, "JD should be $jd" ); } done_testing(); DateTime-1.06/t/release-pp-16truncate.t0000644000175000017500000001347012260573461017466 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::Fatal; use Test::More 0.88; use DateTime; my %vals = ( year => 50, month => 3, day => 15, hour => 10, minute => 55, second => 17, nanosecond => 1234, ); { my $dt = DateTime->new(%vals); $dt->truncate( to => 'second' ); foreach my $f (qw( year month day hour minute second )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'minute' ); foreach my $f (qw( year month day hour minute )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'hour' ); foreach my $f (qw( year month day hour )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'day' ); foreach my $f (qw( year month day )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'month' ); foreach my $f (qw( year month )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( day )) { is( $dt->$f(), 1, "$f should be 1" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new(%vals); $dt->truncate( to => 'year' ); foreach my $f (qw( year )) { is( $dt->$f(), $vals{$f}, "$f should be $vals{$f}" ); } foreach my $f (qw( month day )) { is( $dt->$f(), 1, "$f should be 1" ); } foreach my $f (qw( hour minute second nanosecond )) { is( $dt->$f(), 0, "$f should be 0" ); } } { my $dt = DateTime->new( year => 2003, month => 11, day => 17 ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'week' ); is( $trunc->day, 17, 'truncate to week should always truncate to monday of week' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'week' ); is( $trunc->day, 24, 'truncate to week should always truncate to monday of week' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 2 ) ->truncate( to => 'week' ); is( $dt->year, 2003, 'truncation to week across month boundary' ); is( $dt->month, 9, 'truncation to week across month boundary' ); is( $dt->day, 29, 'truncation to week across month boundary' ); } } { my $dt = DateTime->new( year => 2013, month => 12, day => 16, locale => 'fr_FR' ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'local_week' ); is( $trunc->day, 16, 'truncate to local_week returns correct date - locale start is Monday' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'local_week' ); is( $trunc->day, 23, 'truncate to local_week returns correct date - locale start is Monday' ); } { my $dt = DateTime->new( year => 2013, month => 11, day => 2, locale => 'fr_FR' )->truncate( to => 'local_week' ); is( $dt->year, 2013, 'truncation to local_week across month boundary - locale start is Monday' ); is( $dt->month, 10, 'truncation to local_week across month boundary - locale start is Monday' ); is( $dt->day, 28, 'truncation to local_week across month boundary - locale start is Monday' ); } } { my $dt = DateTime->new( year => 2013, month => 12, day => 15, locale => 'en_US' ); for ( 1 .. 6 ) { my $trunc = $dt->clone->add( days => $_ )->truncate( to => 'local_week' ); is( $trunc->day, 15, 'truncate to local_week returns correct date - locale start is Sunday' ); } { my $trunc = $dt->clone->add( days => 7 )->truncate( to => 'local_week' ); is( $trunc->day, 22, 'truncate to local_week returns correct date - locale start is Sunday' ); } { my $dt = DateTime->new( year => 2013, month => 11, day => 2, locale => 'en_US' )->truncate( to => 'local_week' ); is( $dt->year, 2013, 'truncation to local_week across month boundary - locale start is Sunday' ); is( $dt->month, 10, 'truncation to local_week across month boundary - locale start is Sunday' ); is( $dt->day, 27, 'truncation to local_week across month boundary - locale start is Sunday' ); } } { my $dt = DateTime->new(%vals); for my $bad (qw( seconds minutes year_foo month_bar )) { like( exception { $dt->truncate( to => $bad ) }, qr/\QThe 'to' parameter/, "bad truncate parameter ($bad) throws an error" ); } } done_testing(); DateTime-1.06/t/12week.t0000644000175000017500000000270412260573461014533 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my @tests = ( [ [ 1964, 12, 31 ], [ 1964, 53 ] ], [ [ 1965, 1, 1 ], [ 1964, 53 ] ], [ [ 1971, 9, 7 ], [ 1971, 36 ] ], [ [ 1971, 10, 25 ], [ 1971, 43 ] ], [ [ 1995, 1, 1 ], [ 1994, 52 ] ], [ [ 1995, 11, 18 ], [ 1995, 46 ] ], [ [ 1995, 12, 31 ], [ 1995, 52 ] ], [ [ 1996, 12, 31 ], [ 1997, 1 ] ], [ [ 2001, 4, 28 ], [ 2001, 17 ] ], [ [ 2001, 8, 2 ], [ 2001, 31 ] ], [ [ 2001, 9, 11 ], [ 2001, 37 ] ], [ [ 2002, 12, 25 ], [ 2002, 52 ] ], [ [ 2002, 12, 31 ], [ 2003, 1 ] ], [ [ 2003, 1, 1 ], [ 2003, 1 ] ], [ [ 2003, 12, 31 ], [ 2004, 1 ] ], [ [ 2004, 1, 1 ], [ 2004, 1 ] ], [ [ 2004, 12, 31 ], [ 2004, 53 ] ], [ [ 2005, 1, 1 ], [ 2004, 53 ] ], [ [ 2005, 12, 31 ], [ 2005, 52 ] ], [ [ 2006, 1, 1 ], [ 2005, 52 ] ], [ [ 2006, 12, 31 ], [ 2006, 52 ] ], [ [ 2007, 1, 1 ], [ 2007, 1 ] ], [ [ 2007, 12, 31 ], [ 2008, 1 ] ], [ [ 2008, 1, 1 ], [ 2008, 1 ] ], [ [ 2008, 12, 31 ], [ 2009, 1 ] ], [ [ 2009, 1, 1 ], [ 2009, 1 ] ], ); foreach my $test (@tests) { my @args = @{ $test->[0] }; my @results = @{ $test->[1] }; my $dt = DateTime->new( year => $args[0], month => $args[1], day => $args[2], time_zone => 'UTC', ); my ( $year, $week ) = $dt->week(); is( "$year-W$week", "$results[0]-W$results[1]" ); } done_testing(); DateTime-1.06/t/release-pp-34set-tz.t0000644000175000017500000000513412260573461017065 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::Fatal; use Test::More 0.88; use DateTime; # These tests are for a bug related to a bad interaction between the # horrid ->_handle_offset_modifier method and calling ->set_time_zone # on a real Olson time zone. When _handle_offset_modifier was called # from set_time_zone, it tried calling ->_offset_for_local_datetime, # which was bogus, because at that point it doesn't know the local # date time any more, only UTC. # # The fix is to have ->_handle_offset_modifier call ->offset when it # knows that UTC is valid, which is determined by an arg to # ->_handle_offset_modifier # These tests come from one of the zdump-generated test files in # DT::TZ { my $dt = DateTime->new( year => 1934, month => 2, day => 26, hour => 0, minute => 59, second => 59, time_zone => 'UTC', ); $dt->set_time_zone('Africa/Niamey'); is( $dt->year, 1934, 'local year should be 1934 (1934-02-25 23:59:59)' ); is( $dt->month, 2, 'local month should be 2 (1934-02-25 23:59:59)' ); is( $dt->day, 25, 'local day should be 25 (1934-02-25 23:59:59)' ); is( $dt->hour, 23, 'local hour should be 23 (1934-02-25 23:59:59)' ); is( $dt->minute, 59, 'local minute should be 59 (1934-02-25 23:59:59)' ); is( $dt->second, 59, 'local second should be 59 (1934-02-25 23:59:59)' ); ok( !$dt->is_dst, 'is_dst should be false (1934-02-25 23:59:59)' ); is( $dt->offset, -3600, 'offset should be -3600 (1934-02-25 23:59:59)' ); } { my $dt = DateTime->new( year => 2013, month => 3, day => 10, hour => 2, minute => 4, time_zone => 'floating', ); like( exception { $dt->set_time_zone('America/Los_Angeles') }, qr/\QInvalid local time for date in time zone/, 'got an exception when trying to set time zone when it leads to invalid local time' ); is( $dt->time_zone()->name(), 'floating', 'time zone was not changed after set_time_zone() throws an exception' ); } { my $dt = DateTime->now( time_zone => 'America/Chicago' ); ok( $dt->set_time_zone('America/Chicago'), 'set_time_zone returns object when time zone name is same as current' ); ok( $dt->set_time_zone( $dt->time_zone() ), 'set_time_zone returns object when time zone object is same as current' ); } done_testing(); DateTime-1.06/t/37local-add.t0000644000175000017500000001206112260573461015424 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # These tests should be the final word on dt addition involving a # DST-changing time zone # time addition is "wait X amount of time, then what does the clock # say?" this means it acts on the UTC components. { my $dt = DateTime->new( year => 2003, month => 4, day => 6, time_zone => 'America/Chicago', ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-04-06T01:00:00', 'add one hour to midnight, get 1 am' ); eval { $dt->add( hours => 1 ) }; is( $@, '', 'no error adding 1 hour just before DST leap forward' ); is( $dt->datetime, '2003-04-06T03:00:00', 'add one hour to 1 am, get 3 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-04-06T01:00:00', 'subtract one hour from 3 am, get 1 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-04-06T00:00:00', 'subtract one hour from 1 am, get midnight' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 26, time_zone => 'America/Chicago', ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one hour to midnight, get 1 am' ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one hour to 1 am, get 1 am (again)' ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T02:00:00', 'add one hour to 1 am (2nd time), get 2 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'subtract 1 hour from 2 am, get 1 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'subtract 1 hour from 1 am, get 1 am (again)' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T00:00:00', 'subtract 1 hour from 1 am (2nd), get midnight' ); } # date addition is "leave the clock alone, just change the date # portion". this means it acts on local components { my $dt = DateTime->new( year => 2003, month => 4, day => 6, time_zone => 'America/Chicago', ); $dt->add( days => 1 ); is( $dt->datetime, '2003-04-07T00:00:00', 'add 1 day at midnight, same clock time' ); $dt->add( months => 7 ); is( $dt->datetime, '2003-11-07T00:00:00', 'add 7 months at midnight, same clock time' ); $dt->subtract( months => 7 ); is( $dt->datetime, '2003-04-07T00:00:00', 'subtract 7 months at midnight, same clock time' ); $dt->subtract( days => 1 ); is( $dt->datetime, '2003-04-06T00:00:00', 'subtract 1 day at midnight, same clock time' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 26, time_zone => 'America/Chicago', ); $dt->add( days => 1 ); is( $dt->datetime, '2003-10-27T00:00:00', 'add 1 day at midnight, get midnight' ); $dt->add( months => 7 ); is( $dt->datetime, '2004-05-27T00:00:00', 'add 7 months at midnight, get midnight' ); $dt->subtract( months => 7 ); is( $dt->datetime, '2003-10-27T00:00:00', 'subtract 7 months at midnight, get midnight' ); $dt->subtract( days => 1 ); is( $dt->datetime, '2003-10-26T00:00:00', 'subtract 1 day at midnight, get midnight' ); } # date and time addition in one call is still two separate operations. # First we do date, then time. { my $dt = DateTime->new( year => 2003, month => 4, day => 5, time_zone => 'America/Chicago', ); $dt->add( days => 1, hours => 2 ); is( $dt->datetime, '2003-04-06T03:00:00', 'add one day & 2 hours from midnight, get 3 am' ); # !!! - not reversible this way - needs some good docs my $dt1 = $dt->clone->subtract( days => 1, hours => 2 ); is( $dt1->datetime, '2003-04-05T01:00:00', 'subtract one day & 2 hours from 3 am, get 1 am' ); # is reversible this way - also needs docs my $dt2 = $dt->clone->subtract( hours => 2 )->subtract( days => 1 ); is( $dt2->datetime, '2003-04-05T00:00:00', 'subtract 2 hours and then one day from 3 am, get midnight' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 25, time_zone => 'America/Chicago', ); $dt->add( days => 1, hours => 2 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one day & 2 hours from midnight, get 1 am' ); my $dt1 = $dt->clone->subtract( days => 1, hours => 2 ); is( $dt1->datetime, '2003-10-24T23:00:00', 'add one day & 2 hours from midnight, get 11 pm' ); my $dt2 = $dt->clone->subtract( hours => 2 )->subtract( days => 1 ); is( $dt2->datetime, '2003-10-25T00:00:00', 'subtract 2 hours and then one day from 3 am, get midnight' ); } # an example from the docs { my $dt = DateTime->new( year => 2003, month => 4, day => 5, hour => 2, time_zone => 'America/Chicago', ); $dt->add( hours => 24 ); is( $dt->datetime, '2003-04-06T03:00:00', 'datetime after adding 24 hours is 2003-04-06T03:00:00' ); } done_testing(); DateTime-1.06/t/release-pp-06add.t0000644000175000017500000002271712260573461016374 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my $t = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); $t->add( weeks => 8 ); is( $t->year, 1997, "year rollover" ); is( $t->month, 1, "month set on year rollover" ); is( $t->datetime, '1997-01-17T18:30:20', 'okay on year rollover' ); $t->add( weeks => 2 ); is( $t->datetime, '1997-01-31T18:30:20', 'Adding weeks' ); $t->add( seconds => 15 ); is( $t->datetime, '1997-01-31T18:30:35', 'Adding seconds' ); $t->add( minutes => 12 ); is( $t->datetime, '1997-01-31T18:42:35', 'Adding minutes' ); $t->add( minutes => 25, hours => 3, seconds => 7 ); is( $t->datetime, '1997-01-31T22:07:42', 'Adding h,m,s' ); # Now, test the adding of durations $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( minutes => 1, seconds => 12 ); is( $t->datetime, '1986-01-28T16:39:12', "Adding durations with minutes and seconds works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( seconds => 30 ); is( $t->datetime, '1986-01-28T16:38:30', "Adding durations with seconds only works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( hours => 1, minutes => 10 ); is( $t->datetime, '1986-01-28T17:48:00', "Adding durations with hours and minutes works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3 ); is( $t->datetime, '1986-01-31T16:38:00', "Adding durations with days only works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3, hours => 2 ); is( $t->datetime, '1986-01-31T18:38:00', "Adding durations with days and hours works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3, hours => 2, minutes => 20, seconds => 15 ); is( $t->datetime, '1986-01-31T18:58:15', "Adding durations with days, hours, minutes, and seconds works" ); # Add 15M - this test failed at one point in N::I::Time $t = DateTime->new( year => 2001, month => 4, day => 5, hour => 16, time_zone => 'UTC' ); $t->add( minutes => 15 ); is( $t->datetime, '2001-04-05T16:15:00', "Adding minutes to an ical string" ); # Subtract a duration $t->add( minutes => -15 ); is( $t->datetime, '2001-04-05T16:00:00', "Back where we started" ); undef $t; $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( seconds => 60 ); is( $t->datetime, "1986-01-28T16:39:00", "adding positive seconds with seconds works" ); $t->add( seconds => -120 ); is( $t->datetime, "1986-01-28T16:37:00", "adding negative seconds with seconds works" ); # test sub months $t = DateTime->new( year => 2001, month => 1, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-02-01', 'february 1st' ); $t = DateTime->new( year => 2001, month => 2, day => 28, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-03-01', 'march 1st' ); $t = DateTime->new( year => 2001, month => 3, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-04-01', 'april 1st' ); $t = DateTime->new( year => 2001, month => 4, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-05-01', 'may 1st' ); $t = DateTime->new( year => 2001, month => 5, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-06-01', 'june 1st' ); $t = DateTime->new( year => 2001, month => 6, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-07-01', 'july 1st' ); $t = DateTime->new( year => 2001, month => 7, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-08-01', 'august 1st' ); $t = DateTime->new( year => 2001, month => 8, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-09-01', 'september 1st' ); $t = DateTime->new( year => 2001, month => 9, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-10-01', 'october 1st' ); $t = DateTime->new( year => 2001, month => 10, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-11-01', 'november 1st' ); $t = DateTime->new( year => 2001, month => 11, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-12-01', 'december 1st' ); $t = DateTime->new( year => 2001, month => 12, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2002-01-01', 'january 1st' ); # Adding years # Before leap day, not a leap year ... $t = DateTime->new( year => 2001, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2002-02-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2019-02-28', 'Adding 17 years' ); # After leap day, not a leap year ... $t = DateTime->new( year => 2001, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2002-03-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2019-03-28', 'Adding 17 years' ); # On leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 2, day => 29, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-03-01', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-03-01', 'Adding 17 years' ); # Before leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-02-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-02-28', 'Adding 17 years' ); # After leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-03-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-03-28', 'Adding 17 years' ); # Test a bunch of years, before leap day for ( 1 .. 99 ) { $t = DateTime->new( year => 2000, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_; is( $t->date, "20${x}-02-28", "Adding $_ years" ); } # Test a bunch of years, after leap day for ( 1 .. 99 ) { $t = DateTime->new( year => 2000, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_; is( $t->date, "20${x}-03-28", "Adding $_ years" ); } # And more of the same, starting on a non-leap year # Test a bunch of years, before leap day for ( 1 .. 97 ) { $t = DateTime->new( year => 2002, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_ + 2; is( $t->date, "20${x}-02-28", "Adding $_ years" ); } # Test a bunch of years, after leap day for ( 1 .. 97 ) { $t = DateTime->new( year => 2002, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_ + 2; is( $t->date, "20${x}-03-28", "Adding $_ years" ); } # subtract years for ( 1 .. 97 ) { $t = DateTime->new( year => 1999, month => 3, day => 1, time_zone => 'UTC', ); $t->add( years => -$_ ); my $x = sprintf '%02d', 99 - $_; is( $t->date, "19${x}-03-01", "Subtracting $_ years" ); } # test some old bugs # bug adding months where current month + months added were > 25 $t = DateTime->new( year => 1997, month => 12, day => 1, time_zone => 'UTC', ); $t->add( months => 14 ); is( $t->date, '1999-02-01', 'Adding months--rollover year' ); # bug subtracting months with year rollover $t = DateTime->new( year => 1997, month => 1, day => 1, time_zone => 'UTC', ); $t->add( months => -1 ); is( $t->date, '1996-12-01', 'Subtracting months--rollover year' ); my $new = $t + DateTime::Duration->new( years => 2 ); is( $new->date, '1998-12-01', 'test + overloading' ); # test nanoseconds { my $t = DateTime->new( year => 1997, month => 1, day => 1, hour => 1, minute => 1, second => 59, nanosecond => 500000000, time_zone => 'UTC', ); $t->add( nanoseconds => 500000000 ); is( $t->second, 0, 'fractional second rollover' ); $t->add( nanoseconds => 123000000 ); is( $t->fractional_second, 0.123, 'as fractional_second' ); } { my $dt = DateTime->new( year => 2003, month => 2, day => 28 ); $dt->add( months => 1, days => 1 ); is( $dt->ymd, '2003-04-01', 'order of units in date math' ); } { my $dt = DateTime->new( year => 2003, hour => 12, minute => 1 ); $dt->add( minutes => 30, seconds => -1 ); is( $dt->hour, 12, 'hour is 12' ); is( $dt->minute, 30, 'minute is 30' ); is( $dt->second, 59, 'second is 59' ); } done_testing(); DateTime-1.06/t/20infinite.t0000644000175000017500000001010112260573461015372 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; use DateTime::Locale; my $pos = DateTime::Infinite::Future->new; my $neg = DateTime::Infinite::Past->new; my $posinf = DateTime::INFINITY; my $neginf = DateTime::NEG_INFINITY; my $nan_string = DateTime::NAN; # infinite date math { ok( $pos->is_infinite, 'positive infinity should be infinite' ); ok( $neg->is_infinite, 'negative infinity should be infinite' ); ok( !$pos->is_finite, 'positive infinity should not be finite' ); ok( !$neg->is_finite, 'negative infinity should not be finite' ); # that's a long time ago! my $long_ago = DateTime->new( year => -100_000 ); ok( $neg < $long_ago, 'negative infinity is really negative' ); my $far_future = DateTime->new( year => 100_000 ); ok( $pos > $far_future, 'positive infinity is really positive' ); ok( $pos > $neg, 'positive infinity is bigger than negative infinity' ); my $pos_dur = $pos - $far_future; ok( $pos_dur->is_positive, 'infinity - normal = infinity' ); my $pos2 = $long_ago + $pos_dur; ok( $pos2 == $pos, 'normal + infinite duration = infinity' ); my $neg_dur = $far_future - $pos; ok( $neg_dur->is_negative, 'normal - infinity = neg infinity' ); my $neg2 = $long_ago + $neg_dur; ok( $neg2 == $neg, 'normal + neg infinite duration = neg infinity' ); my $dur = $pos - $pos; my %deltas = $dur->deltas; my @compare = qw( days seconds nanoseconds ); foreach (@compare) { # NaN != NaN (but should stringify the same) is( $deltas{$_} . '', $nan_string, "infinity - infinity = nan ($_)" ); } my $new_pos = $pos->clone->add( days => 10 ); ok( $new_pos == $pos, "infinity + normal duration = infinity" ); my $new_pos2 = $pos->clone->subtract( days => 10 ); ok( $new_pos2 == $pos, "infinity - normal duration = infinity" ); ok( $pos == $posinf, "infinity (datetime) == infinity (number)" ); ok( $neg == $neginf, "neg infinity (datetime) == neg infinity (number)" ); } # This could vary across platforms my $pos_as_string = $posinf . ''; my $neg_as_string = $neginf . ''; # formatting { foreach my $m ( qw( year month day hour minute second microsecond millisecond nanosecond ) ) { is( $pos->$m() . '', $pos_as_string, "pos $m is $pos_as_string" ); is( $neg->$m() . '', $neg_as_string, "neg $m is $pos_as_string" ); } } { my $now = DateTime->now; is( DateTime->compare( $pos, $now ), 1, 'positive infinite is greater than now' ); is( DateTime->compare( $neg, $now ), -1, 'negative infinite is less than now' ); } { my $now = DateTime->now; my $pos2 = $pos + DateTime::Duration->new( months => 1 ); ok( $pos == $pos2, "infinity (datetime) == infinity (datetime)" ); } { my $now = DateTime->now; my $neg2 = $neg + DateTime::Duration->new( months => 1 ); ok( $neg == $neg2, "-infinity (datetime) == -infinity (datetime)" ); } { cmp_ok( "$pos", 'eq', $posinf, 'stringified infinity (datetime) eq infinity (number)' ); cmp_ok( "$neg", 'eq', $neginf, 'stringified neg infinity (datetime) eq neg infinity (number)' ); } { is( $pos->day_name(), undef, 'day_name returns undef', ); is( $pos->am_or_pm(), undef, 'am_or_pm returns undef' ); is( $pos->locale()->name(), 'Fake locale for Infinite DateTime objects', 'locale name for fake locale' ); is( $pos->locale()->datetime_format_long(), DateTime::Locale->load('en_US')->datetime_format_long(), 'fake locale returns same format as en_US' ); } done_testing(); DateTime-1.06/t/15jd.t0000644000175000017500000000343312260573461014200 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # Borrowed from Matt Sergeant's Time::Piece # A table of MJD and components my @mjd = ( '51603.524' => { year => 2000, month => 2, day => 29, hour => 12, minute => 34, second => 56, }, '40598.574' => { year => 1970, month => 1, day => 12, hour => 13, minute => 46, second => 51, }, '52411.140' => { year => 2002, month => 5, day => 17, hour => 3, minute => 21, second => 43, }, '53568.547' => { year => 2005, month => 7, day => 17, hour => 13, minute => 8, second => 23, }, '52295.218' => { year => 2002, month => 1, day => 21, hour => 5, minute => 13, second => 20, }, '52295.399' => { year => 2002, month => 1, day => 21, hour => 9, minute => 35, second => 3, }, # beginning of MJD '0.000' => { year => 1858, month => 11, day => 17, hour => 0, minute => 0, second => 0, }, # beginning of JD '-2400000.500' => { year => -4713, month => 11, day => 24, hour => 12, minute => 0, second => 0, }, ); while ( my ( $mjd, $comps ) = splice @mjd, 0, 2 ) { my $dt = DateTime->new( %$comps, time_zone => 'UTC', ); is( sprintf( '%.3f', $dt->mjd ), $mjd, "MJD should be $mjd" ); my $jd = sprintf( '%.3f', $mjd + 2_400_000.5 ); is( sprintf( '%.3f', $dt->jd ), $jd, "JD should be $jd" ); } done_testing(); DateTime-1.06/t/release-no-tabs.t0000644000175000017500000000106312260573461016413 0ustar autarchautarch BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; # this test was generated with Dist::Zilla::Plugin::NoTabsTests 0.06 use Test::More 0.88; use Test::NoTabs; my @files = ( 'lib/DateTime.pm', 'lib/DateTime/Duration.pm', 'lib/DateTime/Helpers.pm', 'lib/DateTime/Infinite.pm', 'lib/DateTime/LeapSecond.pm', 'lib/DateTimePP.pm', 'lib/DateTimePPExtra.pm' ); notabs_ok($_) foreach @files; done_testing; DateTime-1.06/t/release-pp-41cldr-format.t0000644000175000017500000001460512260573461020052 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use utf8; use Test::More; use DateTime; binmode $_, ':encoding(UTF-8)' for Test::Builder->new()->output(), Test::Builder->new()->failure_output(), Test::Builder->new()->todo_output(); { my $dt = DateTime->new( year => 1976, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en', time_zone => 'America/Chicago', ); my %tests = ( 'GGGGG' => 'A', 'GGGG' => 'Anno Domini', 'GGG' => 'AD', 'GG' => 'AD', 'G' => 'AD', 'yyyyy' => '01976', 'yyyy' => '1976', 'yyy' => '1976', 'yy' => '76', 'y' => '1976', 'uuuuuu' => '001976', 'uuuuu' => '01976', 'uuuu' => '1976', 'uuu' => '1976', 'uu' => '1976', 'u' => '1976', 'YYYYY' => '01976', 'YYYY' => '1976', 'YYY' => '1976', 'YY' => '1976', 'Y' => '1976', 'QQQQ' => '4th quarter', 'QQQ' => 'Q4', 'QQ' => '04', 'Q' => '4', 'qqqq' => '4th quarter', 'qqq' => 'Q4', 'qq' => '04', 'q' => '4', 'MMMMM' => 'O', 'MMMM' => 'October', 'MMM' => 'Oct', 'MM' => '10', 'M' => '10', 'LLLLL' => 'O', 'LLLL' => 'October', 'LLL' => 'Oct', 'LL' => '10', 'L' => '10', 'ww' => '43', 'w' => '43', 'W' => '3', 'dd' => '20', 'd' => '20', 'DDD' => '294', 'DD' => '294', 'D' => '294', 'F' => '3', 'gggggg' => '043071', 'g' => '43071', 'EEEEE' => 'W', 'EEEE' => 'Wednesday', 'EEE' => 'Wed', 'EE' => 'Wed', 'E' => 'Wed', 'eeeee' => 'W', 'eeee' => 'Wednesday', 'eee' => 'Wed', 'ee' => '03', 'e' => '3', 'ccccc' => 'W', 'cccc' => 'Wednesday', 'ccc' => 'Wed', 'cc' => '03', 'c' => '3', 'a' => 'PM', 'hh' => '06', 'h' => '6', 'HH' => '18', 'H' => '18', 'KK' => '06', 'K' => '6', 'kk' => '18', 'kk' => '18', 'j' => '6', 'jj' => '06', 'mm' => '34', 'm' => '34', 'ss' => '55', 's' => '55', 'SS' => '00', 'SSSSSS' => '001000', 'A' => '66895001', 'zzzz' => 'America/Chicago', 'zzz' => 'CDT', 'ZZZZ' => 'CDT-0500', 'ZZZ' => '-0500', 'vvvv' => 'America/Chicago', 'vvv' => 'CDT', 'VVVV' => 'America/Chicago', 'VVV' => 'CDT', 'ZZZZZ' => '-05:00', q{'one fine day'} => 'one fine day', q{'yy''yy' yyyy} => q{yy'yy 1976}, q{'yy''yy' 'hello' yyyy} => q{yy'yy hello 1976}, # Non-pattern text should pass through unchanged 'd日' => '20日', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en', time_zone => 'America/Chicago', ); is( $dt->format_cldr('yy'), '08', 'format_cldr for yy in 2008 should be 08' ); } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en_US', time_zone => 'America/Chicago', ); is( $dt->format_cldr('j'), '6', 'format_cldr for j in en_US should be 6 (at 18:34)' ); } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'fr', time_zone => 'America/Chicago', ); is( $dt->format_cldr('j'), '18', 'format_cldr for j in fr should be 18 (at 18:34)' ); } { my $dt = DateTime->new( year => 2009, month => 4, day => 13, locale => 'en_US', ); is( $dt->format_cldr('e'), '2', 'format_cldr for e in en_US should be 2 (for Monday, 2009-04-13)' ); is( $dt->format_cldr('c'), '1', 'format_cldr for c in en_US should be 1 (for Monday, 2009-04-13)' ); } { my $dt = DateTime->new( year => 2009, month => 4, day => 13, locale => 'fr_FR', ); is( $dt->format_cldr('e'), '1', 'format_cldr for e in fr_FR should be 1 (for Monday, 2009-04-13)' ); is( $dt->format_cldr('c'), '1', 'format_cldr for c in fr_FR should be 1 (for Monday, 2009-04-13)' ); } { my $dt = DateTime->new( year => -10 ); my %tests = ( 'y' => '-10', 'yy' => '-10', 'yyy' => '-10', 'yyyy' => '-010', 'yyyyy' => '-0010', 'u' => '-10', 'uu' => '-10', 'uuu' => '-10', 'uuuu' => '-010', 'uuuuu' => '-0010', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } { my $dt = DateTime->new( year => -1976 ); my %tests = ( 'y' => '-1976', 'yy' => '-76', 'yyy' => '-1976', 'yyyy' => '-1976', 'yyyyy' => '-1976', 'u' => '-1976', 'uu' => '-1976', 'uuu' => '-1976', 'uuuu' => '-1976', 'uuuuu' => '-1976', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } done_testing(); DateTime-1.06/t/release-pp-28dow.t0000644000175000017500000000326612260573461016437 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 0 ); is( $dt->year, 0, 'year is 0' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 6, 'day of week is 6' ); } { my $dt = DateTime->new( year => 0, month => 12, day => 31 ); is( $dt->year, 0, 'year is 0' ); is( $dt->month, 12, 'month is 12' ); is( $dt->day, 31, 'day is 31' ); is( $dt->day_of_week, 7, 'day of week is 7' ); } { my $dt = DateTime->new( year => -1 ); is( $dt->year, -1, 'year is -1' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 5, 'day of week is 5' ); } { my $dt = DateTime->new( year => 1 ); is( $dt->year, 1, 'year is 1' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 1, 'day of week is 1' ); } { my $dow = 1; for my $year ( 1, 0, -1 ) { my $days_in_year = $year ? 365 : 366; for my $doy ( reverse 1 .. $days_in_year ) { is( DateTime->from_day_of_year( year => $year, day_of_year => $doy, )->day_of_week, $dow, "day of week for day $doy of year $year is $dow" ); $dow--; $dow = 7 if $dow == 0; } } } done_testing(); DateTime-1.06/t/release-pod-linkcheck.t0000644000175000017500000000077512260573461017574 0ustar autarchautarch#!perl BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; use Test::More; foreach my $env_skip ( qw( SKIP_POD_LINKCHECK ) ){ plan skip_all => "\$ENV{$env_skip} is set, skipping" if $ENV{$env_skip}; } eval "use Test::Pod::LinkCheck"; if ( $@ ) { plan skip_all => 'Test::Pod::LinkCheck required for testing POD'; } else { Test::Pod::LinkCheck->new->all_pod_ok; } DateTime-1.06/t/38local-subtract.t0000644000175000017500000004573612260573461016543 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # These tests should be the final word on dt subtraction involving a # DST-changing time zone { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur1), $dt2 ), 0, 'subtract_datetime is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur1), $dt1 ), 0, 'subtract_datetime is reversible from end point' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, -6, 'delta_months is -6' ); is( $deltas2{days}, 0, 'delta_days is 0' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur3 = $dt2->delta_md($dt1); my %deltas3 = $dur3->deltas; is( $deltas3{months}, 6, 'delta_months is 6' ); is( $deltas3{days}, 0, 'delta_days is 0' ); is( $deltas3{minutes}, 0, 'delta_minutes is 0' ); is( $deltas3{seconds}, 0, 'delta_seconds is 0' ); is( $deltas3{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur3), $dt2 ), 0, 'delta_md is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur3), $dt1 ), 0, 'delta_md is reversible from end point' ); my $dur4 = $dt2->delta_days($dt1); my %deltas4 = $dur4->deltas; is( $deltas4{months}, 0, 'delta_months is 0' ); is( $deltas4{days}, 184, 'delta_days is 184' ); is( $deltas4{minutes}, 0, 'delta_minutes is 0' ); is( $deltas4{seconds}, 0, 'delta_seconds is 0' ); is( $deltas4{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur3), $dt2 ), 0, 'delta_days is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur4), $dt1 ), 0, 'delta_days is reversible from end point' ); } # same as above, but now the UTC hour of the earlier datetime is # _greater_ than that of the later one. this checks that overflows # are handled correctly. { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, hour => 18, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, hour => 18, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } # make sure delta_md and delta_days work in the face of DST change # where we lose an hour { my $dt1 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2004, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->delta_md($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt2->delta_days($dt1); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, 182, 'delta_days is 182' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } # the docs say use UTC to guarantee reversibility { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); $dt1->set_time_zone('UTC'); $dt2->set_time_zone('UTC'); my $dur = $dt2->subtract_datetime($dt1); is( DateTime->compare( $dt1->add_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point with UTC' ); is( DateTime->compare( $dt2->subtract_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point with UTC' ); } # The important thing here is that after a subtraction, we can use the # duration to get from one date to the other, regardless of the type # of subtraction done. { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime_absolute($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 0, 'delta_months is 0' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 15901200, 'delta_seconds is 15901200' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur1), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur1), $dt1 ), 0, 'subtraction is doubly reversible' ); my $dur2 = $dt1->subtract_datetime_absolute($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, 0, 'delta_days is 0' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, -15901200, 'delta_seconds is -15901200' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt2->clone->add_duration($dur2), $dt1 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt1->clone->subtract_duration($dur2), $dt2 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 6, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 0, 'delta_days is 0' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 5, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 1, 'delta_days is 1' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'dt1 + dur = dt2' ); # this are two examples from the docs is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1->clone->add( hours => 1 ) ), 0, 'dt2 - dur != dt1 (not reversible)' ); is( DateTime->compare( $dt2->clone->subtract_duration( $dur->clock_duration ) ->subtract_duration( $dur->calendar_duration ), $dt1 ), 0, 'dt2 - dur->clock - dur->cal = dt1 (reversible when componentized)' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, -1, 'delta_days is 1' ); is( $deltas2{minutes}, -3, 'delta_minutes is 3' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( $dt2->clone->add_duration($dur2)->datetime, '2003-04-05T02:58:00', 'dt2 + dur2 != dt1' ); is( DateTime->compare( $dt2->clone->add_duration( $dur2->clock_duration ) ->add_duration( $dur2->calendar_duration ), $dt1 ), 0, 'dt2 + dur2->clock + dur2->cal = dt1' ); is( DateTime->compare( $dt1->clone->subtract_duration($dur2), $dt2 ), 0, 'dt1 - dur2 = dt2' ); } # These tests makes sure that days with DST changes are "normal" when # they're the smaller operand { my $dt1 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 7, hour => 3, minute => 2, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 1, 'delta_days is 1' ); is( $deltas{minutes}, 1, 'delta_minutes is 1' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, -1, 'delta_days is -1' ); is( $deltas2{minutes}, -1, 'delta_minutes is -1' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 5, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 7, hour => 2, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 2, 'delta_days is 2' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } # from example in docs { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); $dt1->set_time_zone('floating'); $dt2->set_time_zone('floating'); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 6, 'delta_months is 6' ); is( $deltas{days}, 0, 'delta_days is 0' ); is( $deltas{minutes}, 0, 'delta_minutes is 0' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is reversible from end point' ); } { my $dt1 = DateTime->new( year => 2005, month => 8, time_zone => 'Europe/London', ); my $dt2 = DateTime->new( year => 2005, month => 11, time_zone => 'Europe/London', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 3, '3 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 0, '0 minutes between two local times over DST change' ); } # same as previous but without hours overflow { my $dt1 = DateTime->new( year => 2005, month => 8, hour => 12, time_zone => 'Europe/London', ); my $dt2 = DateTime->new( year => 2005, month => 11, hour => 12, time_zone => 'Europe/London', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 3, '3 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 0, '0 minutes between two local times over DST change' ); } # another docs example { my $dt2 = DateTime->new( year => 2003, month => 10, day => 26, hour => 1, time_zone => 'America/Chicago', ); my $dt1 = $dt2->clone->subtract( hours => 1 ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '0 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 60, '60 minutes between two local times over DST change' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/New_York', ); my $dt2 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '0 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 60, '60 minutes between two local times over DST change' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } # Fix a bug that occurred when the local time zone had DST and the two # datetime objects were on the same day { my $dt1 = DateTime->new( year => 2005, month => 4, day => 3, hour => 7, minute => 0, time_zone => 'America/New_York' ); my $dt2 = DateTime->new( year => 2005, month => 4, day => 3, hour => 8, minute => 0, time_zone => 'America/New_York' ); my $dur = $dt2->subtract_datetime($dt1); my ( $minutes, $seconds ) = $dur->in_units( 'minutes', 'seconds' ); is( $minutes, 60, 'subtraction of two dates on a DST change date, minutes == 60' ); is( $seconds, 0, 'subtraction of two dates on a DST change date, seconds == 0' ); $dur = $dt1->subtract_datetime($dt1); ok( $dur->is_zero, 'dst change date (no dst) - itself, duration is zero' ); } { my $dt1 = DateTime->new( year => 2005, month => 4, day => 3, hour => 1, minute => 0, time_zone => 'America/New_York' ); my $dur = $dt1->subtract_datetime($dt1); ok( $dur->is_zero, 'dst change date (with dst) - itself, duration is zero' ); } # This tests a bug where one of the datetimes is changing DST, and the # other is not. In this case, no "adjustments" (aka hacks) are made in # subtract_datetime, and it just gives the "UTC difference". { # This is UTC-4 my $dt1 = DateTime->new( year => 2009, month => 3, day => 9, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 9, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 720, 'subtraction the day after a DST change in one zone, where the other datetime is in a different zone' ); } { # This is UTC-5 my $dt1 = DateTime->new( year => 2009, month => 3, day => 8, hour => 1, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 8, hour => 1, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 780, 'subtraction the day of a DST change in one zone (before the change),' . ' where the other datetime is in a different zone' ); } { # This is UTC-4 my $dt1 = DateTime->new( year => 2009, month => 3, day => 8, hour => 4, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 8, hour => 4, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 720, 'subtraction the day of a DST change in one zone (after the change),' . ' where the other datetime is in a different zone' ); } done_testing(); DateTime-1.06/t/42duration-class.t0000644000175000017500000000107512260573461016533 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { package DateTime::MySubclass; use base 'DateTime'; sub duration_class {'DateTime::Duration::MySubclass'} package DateTime::Duration::MySubclass; use base 'DateTime::Duration'; sub is_my_subclass {1} } my $dt = DateTime::MySubclass->now; my $delta = $dt - $dt; isa_ok( $delta, 'DateTime::Duration::MySubclass' ); isa_ok( $dt + $delta, 'DateTime::MySubclass' ); my $delta_days = $dt->delta_days($dt); isa_ok( $delta_days, 'DateTime::Duration::MySubclass' ); done_testing(); DateTime-1.06/t/release-pp-11duration.t0000644000175000017500000003224412260573461017461 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; use DateTime::Duration; { my %pairs = ( years => 1, months => 2, weeks => 3, days => 4, hours => 6, minutes => 7, seconds => 8, nanoseconds => 9, ); my $dur = DateTime::Duration->new(%pairs); while ( my ( $unit, $val ) = each %pairs ) { is( $dur->$unit(), $val, "$unit should be $val" ); } is( $dur->delta_months, 14, "delta_months" ); is( $dur->delta_days, 25, "delta_days" ); is( $dur->delta_minutes, 367, "delta_minutes" ); is( $dur->delta_seconds, 8, "delta_seconds" ); is( $dur->delta_nanoseconds, 9, "delta_nanoseconds" ); is( $dur->in_units('months'), 14, "in_units months" ); is( $dur->in_units('days'), 25, "in_units days" ); is( $dur->in_units('minutes'), 367, "in_units minutes" ); is( $dur->in_units('seconds'), 8, "in_units seconds" ); is( $dur->in_units( 'nanoseconds', 'seconds' ), 9, "in_units nanoseconds, seconds" ); is( $dur->in_units('years'), 1, "in_units years" ); is( $dur->in_units( 'months', 'years' ), 2, "in_units months, years" ); is( $dur->in_units('weeks'), 3, "in_units weeks" ); is( $dur->in_units( 'days', 'weeks' ), 4, "in_units days, weeks" ); is( $dur->in_units('hours'), 6, "in_units hours" ); is( $dur->in_units( 'minutes', 'hours' ), 7, "in_units minutes, hours" ); is( $dur->in_units('nanoseconds'), 8_000_000_009, "in_units nanoseconds" ); my ( $years, $months, $weeks, $days, $hours, $minutes, $seconds, $nanoseconds ) = $dur->in_units( qw( years months weeks days hours minutes seconds nanoseconds ) ); is( $years, 1, "in_units years, list context" ); is( $months, 2, "in_units months, list context" ); is( $weeks, 3, "in_units weeks, list context" ); is( $days, 4, "in_units days, list context" ); is( $hours, 6, "in_units hours, list context" ); is( $minutes, 7, "in_units minutes, list context" ); is( $seconds, 8, "in_units seconds, list context" ); is( $nanoseconds, 9, "in_units nanoseconds, list context" ); ok( $dur->is_positive, "should be positive" ); ok( !$dur->is_zero, "should not be zero" ); ok( !$dur->is_negative, "should not be negative" ); ok( $dur->is_wrap_mode, "wrap mode" ); } { my %pairs = ( years => 1, months => 2, weeks => 3, days => 4, hours => 6, minutes => 7, seconds => 8, nanoseconds => 9, ); my $dur = DateTime::Duration->new( %pairs, end_of_month => 'limit' ); my $calendar_dur = $dur->calendar_duration; is( $calendar_dur->delta_months, 14, "date - delta_months is 14" ); is( $calendar_dur->delta_minutes, 0, "date - delta_minutes is 0" ); is( $calendar_dur->delta_seconds, 0, "date - delta_seconds is 0" ); is( $calendar_dur->delta_nanoseconds, 0, "date - delta_nanoseconds is 0" ); ok( $calendar_dur->is_limit_mode, "limit mode" ); my $clock_dur = $dur->clock_duration; is( $clock_dur->delta_months, 0, "time - delta_months is 0" ); is( $clock_dur->delta_minutes, 367, "time - delta_minutes is 367" ); is( $clock_dur->delta_seconds, 8, "time - delta_seconds is 8" ); is( $clock_dur->delta_nanoseconds, 9, "time - delta_nanoseconds is 9" ); ok( $clock_dur->is_limit_mode, "limit mode" ); } { my $dur = DateTime::Duration->new( days => 1, end_of_month => 'limit' ); ok( $dur->is_limit_mode, "limit mode" ); } { my $dur = DateTime::Duration->new( days => 1, end_of_month => 'preserve' ); ok( $dur->is_preserve_mode, "preserve mode" ); } my $leap_day = DateTime->new( year => 2004, month => 2, day => 29, time_zone => 'UTC', ); { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'wrap' ); is( $new->date, '2005-03-01', "new date should be 2005-03-01" ); } { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'limit' ); is( $new->date, '2005-02-28', "new date should be 2005-02-28" ); } { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'preserve' ); is( $new->date, '2005-02-28', "new date should be 2005-02-28" ); my $new2 = $leap_day + DateTime::Duration->new( months => 1, end_of_month => 'preserve' ); is( $new2->date, '2004-03-31', "new date should be 2004-03-31" ); } { my $inverse = DateTime::Duration->new( years => 1, months => 1, weeks => 1, days => 1, hours => 1, minutes => 2, seconds => 3, )->inverse; is( $inverse->years, 1, 'inverse years should be positive' ); is( $inverse->months, 1, 'inverse months should be positive' ); is( $inverse->weeks, 1, 'inverse weeks should be positive' ); is( $inverse->days, 1, 'inverse days should be positive' ); is( $inverse->hours, 1, 'inverse hours should be positive' ); is( $inverse->minutes, 2, 'inverse minutes should be positive' ); is( $inverse->seconds, 3, 'inverse minutes should be positive' ); is( $inverse->delta_months, -13, 'inverse delta months should be negative' ); is( $inverse->delta_days, -8, 'inverse delta months should be negative' ); is( $inverse->delta_minutes, -62, 'inverse delta minutes should be negative' ); is( $inverse->delta_seconds, -3, 'inverse delta seconds should be negative' ); ok( $inverse->is_negative, "should be negative" ); ok( !$inverse->is_zero, "should not be zero" ); ok( !$inverse->is_positive, "should not be positivea" ); is( $inverse->end_of_month_mode(), 'preserve', 'inverse method uses default end_of_month_mode without explicit parameter' ); my $inverse2 = DateTime::Duration->new( years => 1 ) ->inverse( end_of_month => 'limit' ); is( $inverse2->end_of_month_mode(), 'limit', 'inverse method allows setting end_of_month_mode' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10 ); my $dur2 = DateTime::Duration->new( months => 3, days => 7 ); my $new1 = $dur1 + $dur2; is( $new1->delta_months, 9, 'test + overloading' ); is( $new1->delta_days, 17, 'test + overloading' ); my $new2 = $dur1 - $dur2; is( $new2->delta_months, 3, 'test - overloading' ); is( $new2->delta_days, 3, 'test - overloading' ); my $new3 = $dur2 - $dur1; is( $new3->delta_months, -3, 'test - overloading' ); is( $new3->delta_days, -3, 'test - overloading' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10 ); my $new1 = $dur1 * 4; is( $new1->delta_months, 24, 'test * overloading' ); is( $new1->delta_days, 40, 'test * overloading' ); $dur1->multiply(4); is( $dur1->delta_months, 24, 'test multiply' ); is( $dur1->delta_days, 40, 'test multiply' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10, seconds => 3, nanoseconds => 1_200_300_400 ); my $dur2 = DateTime::Duration->new( seconds => 1, nanoseconds => 500_000_000 ); is( $dur1->delta_seconds, 4, 'test nanoseconds overflow' ); is( $dur1->delta_nanoseconds, 200_300_400, 'test nanoseconds remainder' ); my $new1 = $dur1 - $dur2; is( $new1->delta_seconds, 2, 'seconds is positive' ); is( $new1->delta_nanoseconds, 700_300_400, 'nanoseconds remainder is negative' ); $new1->add( nanoseconds => 500_000_000 ); is( $new1->delta_seconds, 3, 'seconds are unaffected' ); is( $new1->delta_nanoseconds, 200_300_400, 'nanoseconds are back' ); my $new2 = $dur1 - $dur2; $new2->add( nanoseconds => 1_500_000_000 ); is( $new2->delta_seconds, 4, 'seconds go up' ); is( $new2->delta_nanoseconds, 200_300_400, 'nanoseconds are normalized' ); $new2->subtract( nanoseconds => 100_000_000 ); is( $new2->delta_nanoseconds, 100_300_400, 'sub nanoseconds works' ); my $new3 = $dur2 * 3; is( $new3->delta_seconds, 4, 'seconds normalized after multiplication' ); is( $new3->delta_nanoseconds, 500_000_000, 'nanoseconds normalized after multiplication' ); } { my $dur = DateTime::Duration->new( nanoseconds => -10 ); is( $dur->nanoseconds, 10, 'nanoseconds is 10' ); is( $dur->delta_nanoseconds, -10, 'delta_nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dur = DateTime::Duration->new( days => 0 ); is( $dur->delta_days, 0, 'delta_days is 0' ); ok( !$dur->is_positive, 'not positive' ); ok( $dur->is_zero, 'is zero' ); ok( !$dur->is_negative, 'not negative' ); } { eval { DateTime::Duration->new( months => 3 )->add( hours => -3 ) ->add( minutes => 1 ); }; ok( !$@, 'method chaining should work' ); } { my $min_1 = DateTime::Duration->new( minutes => 1 ); my $hour_1 = DateTime::Duration->new( hours => 1 ); my $min_59 = $hour_1 - $min_1; is( $min_59->delta_months, 0, 'delta_months is 0' ); is( $min_59->delta_days, 0, 'delta_days is 0' ); is( $min_59->delta_minutes, 59, 'delta_minutes is 59' ); is( $min_59->delta_seconds, 0, 'delta_seconds is 0' ); is( $min_59->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); my $min_neg_59 = $min_1 - $hour_1; is( $min_neg_59->delta_months, 0, 'delta_months is 0' ); is( $min_neg_59->delta_days, 0, 'delta_days is 0' ); is( $min_neg_59->delta_minutes, -59, 'delta_minutes is -59' ); is( $min_neg_59->delta_seconds, 0, 'delta_seconds is 0' ); is( $min_neg_59->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); } { my $dur1 = DateTime::Duration->new( minutes => 10 ); my $dur2 = DateTime::Duration->new( minutes => 20 ); eval { my $x = 1 if $dur1 <=> $dur2 }; like( $@, qr/does not overload comparison/, 'check error for duration comparison overload' ); is( DateTime::Duration->compare( $dur1, $dur2 ), -1, '20 minutes is greater than 10 minutes' ); is( DateTime::Duration->compare( $dur1, $dur2, DateTime->new( year => 1 ) ), -1, '20 minutes is greater than 10 minutes' ); } { my $dur1 = DateTime::Duration->new( days => 29 ); my $dur2 = DateTime::Duration->new( months => 1 ); my $base = DateTime->new( year => 2004 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), -1, '29 days is less than 1 month with base of 2004-01-01' ); $base = DateTime->new( year => 2004, month => 2 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), 0, '29 days is equal to 1 month with base of 2004-02-01' ); $base = DateTime->new( year => 2005, month => 2 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), 1, '29 days is greater than 1 month with base of 2005-02-01' ); } { my $dur1 = DateTime::Duration->new( nanoseconds => 1_000, seconds => 1, ); my $dur2 = $dur1->clone->subtract( nanoseconds => 5_000 ); is( $dur2->delta_seconds, 0, 'normalize nanoseconds to positive' ); is( $dur2->delta_nanoseconds, 999_996_000, 'normalize nanoseconds to positive' ); my $dur3 = $dur1->clone->subtract( nanoseconds => 6_000 ) ->subtract( nanoseconds => 999_999_000 ); is( $dur3->delta_seconds, 0, 'normalize nanoseconds to negative' ); is( $dur3->delta_nanoseconds, -4_000, 'normalize nanoseconds to negative' ); my $dur4 = DateTime::Duration->new( seconds => -1, nanoseconds => -2_500_000_000 ); is( $dur4->delta_seconds, -3, 'normalize many negative nanoseconds' ); is( $dur4->delta_nanoseconds, -500_000_000, 'normalize many negative nanoseconds' ); } { my $dur = DateTime::Duration->new( minutes => 30, seconds => -1, ); ok( !$dur->is_positive, 'is not positive' ); ok( !$dur->is_zero, 'is not zero' ); ok( !$dur->is_negative, 'is not negative' ); } { my $dur = DateTime::Duration->new( minutes => 50 ); is( $dur->in_units('years'), 0, 'in_units returns 0 for years' ); is( $dur->in_units('months'), 0, 'in_units returns 0 for months' ); is( $dur->in_units('days'), 0, 'in_units returns 0 for days' ); is( $dur->in_units('hours'), 0, 'in_units returns 0 for hours' ); is( $dur->in_units('seconds'), 0, 'in_units returns 0 for seconds' ); is( $dur->in_units('nanoseconds'), 0, 'in_units returns 0 for nanoseconds' ); } { local $TODO = 'reject fractional units in DateTime::Duration->new'; eval { DateTime::Duration->new( minutes => 50.2 ) }; like( $@, qr/is an integer/, 'cannot create a duration with fractional units' ); } done_testing(); DateTime-1.06/t/release-pp-05set.t0000644000175000017500000000625212260573461016432 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); is( $dt->month, 11, 'check month' ); $dt->set( month => 5 ); is( $dt->year, 1996, 'check year after setting month' ); is( $dt->month, 5, 'check month after setting it' ); is( $dt->day, 22, 'check day after setting month' ); is( $dt->hour, 18, 'check hour after setting month' ); is( $dt->minute, 30, 'check minute after setting month' ); is( $dt->second, 20, 'check second after setting month' ); $dt->set_time_zone('-060001'); is( $dt->year, 1996, 'check year after setting time zone' ); is( $dt->month, 5, 'check month after setting time zone' ); is( $dt->day, 22, 'check day after setting time zone' ); is( $dt->hour, 12, 'check hour after setting time zone' ); is( $dt->minute, 30, 'check minute after setting time zone' ); is( $dt->second, 19, 'check second after setting time zone' ); is( $dt->offset, -21601, 'check time zone offset after setting new time zone' ); $dt->set_time_zone('+0100'); is( $dt->year, 1996, 'check year after setting time zone' ); is( $dt->month, 5, 'check month after setting time zone' ); is( $dt->day, 22, 'check day after setting time zone' ); is( $dt->hour, 19, 'check hour after setting time zone' ); is( $dt->minute, 30, 'check minute after setting time zone' ); is( $dt->second, 20, 'check second after setting time zone' ); is( $dt->offset, 3600, 'check time zone offset after setting new time zone' ); $dt->set( hour => 17 ); is( $dt->year, 1996, 'check year after setting hour' ); is( $dt->month, 5, 'check month after setting hour' ); is( $dt->day, 22, 'check day after setting hour' ); is( $dt->hour, 17, 'check hour after setting hour' ); is( $dt->minute, 30, 'check minute after setting hour' ); is( $dt->second, 20, 'check second after setting hour' ); } { my $dt = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); $dt->set_year(2000); is( $dt->year, 2000, 'check year after set_year' ); $dt->set_month(5); is( $dt->month, 5, 'check month after set_month' ); $dt->set_day(6); is( $dt->day, 6, 'check day after set_day' ); $dt->set_hour(7); is( $dt->hour, 7, 'check hour after set_hour' ); $dt->set_minute(8); is( $dt->minute, 8, 'check minute after set_minute' ); $dt->set_second(9); is( $dt->second, 9, 'check second after set_second' ); $dt->set_nanosecond(9999); is( $dt->nanosecond, 9999, 'check nanosecond after set_nanosecond' ); $dt->set_locale('fr_FR'); is( $dt->month_name, 'mai', 'check month name after set_locale' ); } done_testing(); DateTime-1.06/t/23storable.t0000644000175000017500000000417012260573461015414 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; unless ( eval { require Storable; 1 } ) { plan skip_all => 'Cannot load Storable'; } { my @dt = ( DateTime->new( year => 1950, hour => 1, nanosecond => 1, time_zone => 'America/Chicago', language => 'German' ), DateTime::Infinite::Past->new, DateTime::Infinite::Future->new, ); foreach my $dt (@dt) { my $copy = Storable::thaw( Storable::nfreeze($dt) ); is( $copy->time_zone->name, $dt->time_zone->name, 'Storable freeze/thaw preserves tz' ); is( ref $copy->locale, ref $dt->locale, 'Storable freeze/thaw preserves locale' ); is( $copy->year, $dt->year, 'Storable freeze/thaw preserves rd values' ); is( $copy->hour, $dt->hour, 'Storable freeze/thaw preserves rd values' ); is( $copy->nanosecond, $dt->nanosecond, 'Storable freeze/thaw preserves rd values' ); } } { my $dt1 = DateTime->now( locale => 'en_US' ); my $dt2 = Storable::dclone($dt1); my $dt3 = Storable::thaw( Storable::nfreeze($dt2) ); is( $dt1->iso8601, $dt2->iso8601, 'dclone produces date equal to original' ); is( $dt2->iso8601, $dt3->iso8601, 'explicit freeze and thaw produces date equal to original' ); is( $dt1->locale->id, 'en_US', 'check id of original locale object' ); is( $dt2->locale->id, 'en_US', 'check locale id after dclone' ); is( $dt3->locale->id, 'en_US', 'check locale id after explicit freeze/thaw' ); } { package Formatter; sub format_datetime {}; } { my $dt = DateTime->new( year => 2004, formatter => 'Formatter', ); my $copy = Storable::thaw( Storable::nfreeze($dt) ); is( $dt->formatter, $copy->formatter, 'Storable freeze/thaw preserves formatter' ); } done_testing(); DateTime-1.06/t/36invalid-local.t0000644000175000017500000000222412260573461016321 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my $badlt_rx = qr/Invalid local time|local time [0-9\-:T]+ does not exist/; { eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 2, time_zone => 'America/Chicago', ); }; like( $@, $badlt_rx, 'exception for invalid time' ); eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 2, minute => 59, second => 59, time_zone => 'America/Chicago', ); }; like( $@, $badlt_rx, 'exception for invalid time' ); } { eval { DateTime->new( year => 2003, month => 4, day => 6, hour => 1, minute => 59, second => 59, time_zone => 'America/Chicago', ); }; ok( !$@, 'no exception for valid time' ); my $dt = DateTime->new( year => 2003, month => 4, day => 5, hour => 2, time_zone => 'America/Chicago', ); eval { $dt->add( days => 1 ) }; like( $@, $badlt_rx, 'exception for invalid time produced via add' ); } done_testing(); DateTime-1.06/t/release-pp-18today.t0000644000175000017500000000115112260573461016754 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $now = DateTime->now; my $today = DateTime->today; is( $today->year, $now->year, 'today->year' ); is( $today->month, $now->month, 'today->month' ); is( $today->day, $now->day, 'today->day' ); is( $today->hour, 0, 'today->hour' ); is( $today->minute, 0, 'today->hour' ); is( $today->second, 0, 'today->hour' ); } done_testing(); DateTime-1.06/t/release-cpan-changes.t0000644000175000017500000000052112260573461017375 0ustar autarchautarch#!perl BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; use Test::More 0.96 tests => 2; use_ok('Test::CPAN::Changes'); subtest 'changes_ok' => sub { changes_file_ok('Changes'); }; done_testing(); DateTime-1.06/t/release-pp-02last-day.t0000644000175000017500000000235212260573461017347 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my @last = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my @leap_last = @last; $leap_last[1]++; foreach my $month ( 1 .. 12 ) { my $dt = DateTime->last_day_of_month( year => 2001, month => $month, time_zone => 'UTC', ); is( $dt->year, 2001, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, $last[ $month - 1 ], 'check day' ); } foreach my $month ( 1 .. 12 ) { my $dt = DateTime->last_day_of_month( year => 2004, month => $month, time_zone => 'UTC', ); is( $dt->year, 2004, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, $leap_last[ $month - 1 ], 'check day' ); } { eval { DateTime->last_day_of_month( year => 2000, month => 1, nanosecond => 2000 ); }; is( $@, '', "last_day_of_month should accept nanosecond" ); } done_testing(); DateTime-1.06/t/release-pp-38local-subtract.t0000644000175000017500000004622212260573461020565 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # These tests should be the final word on dt subtraction involving a # DST-changing time zone { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur1), $dt2 ), 0, 'subtract_datetime is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur1), $dt1 ), 0, 'subtract_datetime is reversible from end point' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, -6, 'delta_months is -6' ); is( $deltas2{days}, 0, 'delta_days is 0' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur3 = $dt2->delta_md($dt1); my %deltas3 = $dur3->deltas; is( $deltas3{months}, 6, 'delta_months is 6' ); is( $deltas3{days}, 0, 'delta_days is 0' ); is( $deltas3{minutes}, 0, 'delta_minutes is 0' ); is( $deltas3{seconds}, 0, 'delta_seconds is 0' ); is( $deltas3{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur3), $dt2 ), 0, 'delta_md is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur3), $dt1 ), 0, 'delta_md is reversible from end point' ); my $dur4 = $dt2->delta_days($dt1); my %deltas4 = $dur4->deltas; is( $deltas4{months}, 0, 'delta_months is 0' ); is( $deltas4{days}, 184, 'delta_days is 184' ); is( $deltas4{minutes}, 0, 'delta_minutes is 0' ); is( $deltas4{seconds}, 0, 'delta_seconds is 0' ); is( $deltas4{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur3), $dt2 ), 0, 'delta_days is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur4), $dt1 ), 0, 'delta_days is reversible from end point' ); } # same as above, but now the UTC hour of the earlier datetime is # _greater_ than that of the later one. this checks that overflows # are handled correctly. { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, hour => 18, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, hour => 18, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } # make sure delta_md and delta_days work in the face of DST change # where we lose an hour { my $dt1 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2004, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->delta_md($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 6, 'delta_months is 6' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 0, 'delta_seconds is 0' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt2->delta_days($dt1); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, 182, 'delta_days is 182' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } # the docs say use UTC to guarantee reversibility { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); $dt1->set_time_zone('UTC'); $dt2->set_time_zone('UTC'); my $dur = $dt2->subtract_datetime($dt1); is( DateTime->compare( $dt1->add_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point with UTC' ); is( DateTime->compare( $dt2->subtract_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point with UTC' ); } # The important thing here is that after a subtraction, we can use the # duration to get from one date to the other, regardless of the type # of subtraction done. { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); my $dur1 = $dt2->subtract_datetime_absolute($dt1); my %deltas1 = $dur1->deltas; is( $deltas1{months}, 0, 'delta_months is 0' ); is( $deltas1{days}, 0, 'delta_days is 0' ); is( $deltas1{minutes}, 0, 'delta_minutes is 0' ); is( $deltas1{seconds}, 15901200, 'delta_seconds is 15901200' ); is( $deltas1{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur1), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur1), $dt1 ), 0, 'subtraction is doubly reversible' ); my $dur2 = $dt1->subtract_datetime_absolute($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, 0, 'delta_days is 0' ); is( $deltas2{minutes}, 0, 'delta_minutes is 0' ); is( $deltas2{seconds}, -15901200, 'delta_seconds is -15901200' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt2->clone->add_duration($dur2), $dt1 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt1->clone->subtract_duration($dur2), $dt2 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 6, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 0, 'delta_days is 0' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 5, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 1, 'delta_days is 1' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'dt1 + dur = dt2' ); # this are two examples from the docs is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1->clone->add( hours => 1 ) ), 0, 'dt2 - dur != dt1 (not reversible)' ); is( DateTime->compare( $dt2->clone->subtract_duration( $dur->clock_duration ) ->subtract_duration( $dur->calendar_duration ), $dt1 ), 0, 'dt2 - dur->clock - dur->cal = dt1 (reversible when componentized)' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, -1, 'delta_days is 1' ); is( $deltas2{minutes}, -3, 'delta_minutes is 3' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( $dt2->clone->add_duration($dur2)->datetime, '2003-04-05T02:58:00', 'dt2 + dur2 != dt1' ); is( DateTime->compare( $dt2->clone->add_duration( $dur2->clock_duration ) ->add_duration( $dur2->calendar_duration ), $dt1 ), 0, 'dt2 + dur2->clock + dur2->cal = dt1' ); is( DateTime->compare( $dt1->clone->subtract_duration($dur2), $dt2 ), 0, 'dt1 - dur2 = dt2' ); } # These tests makes sure that days with DST changes are "normal" when # they're the smaller operand { my $dt1 = DateTime->new( year => 2003, month => 4, day => 6, hour => 3, minute => 1, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 7, hour => 3, minute => 2, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 1, 'delta_days is 1' ); is( $deltas{minutes}, 1, 'delta_minutes is 1' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); my $dur2 = $dt1->subtract_datetime($dt2); my %deltas2 = $dur2->deltas; is( $deltas2{months}, 0, 'delta_months is 0' ); is( $deltas2{days}, -1, 'delta_days is -1' ); is( $deltas2{minutes}, -1, 'delta_minutes is -1' ); is( $deltas2{seconds}, 0, 'delta_seconds is 0' ); is( $deltas2{nanoseconds}, 0, 'delta_nanoseconds is 0' ); } { my $dt1 = DateTime->new( year => 2003, month => 4, day => 5, hour => 1, minute => 58, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 4, day => 7, hour => 2, minute => 1, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, 'delta_months is 0' ); is( $deltas{days}, 2, 'delta_days is 2' ); is( $deltas{minutes}, 3, 'delta_minutes is 3' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } # from example in docs { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dt2 = DateTime->new( year => 2003, month => 11, day => 6, time_zone => 'America/Chicago', ); $dt1->set_time_zone('floating'); $dt2->set_time_zone('floating'); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 6, 'delta_months is 6' ); is( $deltas{days}, 0, 'delta_days is 0' ); is( $deltas{minutes}, 0, 'delta_minutes is 0' ); is( $deltas{seconds}, 0, 'delta_seconds is 0' ); is( $deltas{nanoseconds}, 0, 'delta_nanoseconds is 0' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible from start point' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is reversible from end point' ); } { my $dt1 = DateTime->new( year => 2005, month => 8, time_zone => 'Europe/London', ); my $dt2 = DateTime->new( year => 2005, month => 11, time_zone => 'Europe/London', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 3, '3 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 0, '0 minutes between two local times over DST change' ); } # same as previous but without hours overflow { my $dt1 = DateTime->new( year => 2005, month => 8, hour => 12, time_zone => 'Europe/London', ); my $dt2 = DateTime->new( year => 2005, month => 11, hour => 12, time_zone => 'Europe/London', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 3, '3 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 0, '0 minutes between two local times over DST change' ); } # another docs example { my $dt2 = DateTime->new( year => 2003, month => 10, day => 26, hour => 1, time_zone => 'America/Chicago', ); my $dt1 = $dt2->clone->subtract( hours => 1 ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '0 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 60, '60 minutes between two local times over DST change' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } { my $dt1 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/New_York', ); my $dt2 = DateTime->new( year => 2003, month => 5, day => 6, time_zone => 'America/Chicago', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '0 months between two local times over DST change' ); is( $deltas{days}, 0, '0 days between two local times over DST change' ); is( $deltas{minutes}, 60, '60 minutes between two local times over DST change' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, 'subtraction is reversible' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, 'subtraction is doubly reversible' ); } # Fix a bug that occurred when the local time zone had DST and the two # datetime objects were on the same day { my $dt1 = DateTime->new( year => 2005, month => 4, day => 3, hour => 7, minute => 0, time_zone => 'America/New_York' ); my $dt2 = DateTime->new( year => 2005, month => 4, day => 3, hour => 8, minute => 0, time_zone => 'America/New_York' ); my $dur = $dt2->subtract_datetime($dt1); my ( $minutes, $seconds ) = $dur->in_units( 'minutes', 'seconds' ); is( $minutes, 60, 'subtraction of two dates on a DST change date, minutes == 60' ); is( $seconds, 0, 'subtraction of two dates on a DST change date, seconds == 0' ); $dur = $dt1->subtract_datetime($dt1); ok( $dur->is_zero, 'dst change date (no dst) - itself, duration is zero' ); } { my $dt1 = DateTime->new( year => 2005, month => 4, day => 3, hour => 1, minute => 0, time_zone => 'America/New_York' ); my $dur = $dt1->subtract_datetime($dt1); ok( $dur->is_zero, 'dst change date (with dst) - itself, duration is zero' ); } # This tests a bug where one of the datetimes is changing DST, and the # other is not. In this case, no "adjustments" (aka hacks) are made in # subtract_datetime, and it just gives the "UTC difference". { # This is UTC-4 my $dt1 = DateTime->new( year => 2009, month => 3, day => 9, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 9, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 720, 'subtraction the day after a DST change in one zone, where the other datetime is in a different zone' ); } { # This is UTC-5 my $dt1 = DateTime->new( year => 2009, month => 3, day => 8, hour => 1, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 8, hour => 1, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 780, 'subtraction the day of a DST change in one zone (before the change),' . ' where the other datetime is in a different zone' ); } { # This is UTC-4 my $dt1 = DateTime->new( year => 2009, month => 3, day => 8, hour => 4, time_zone => 'America/New_York' ); # This is UTC+8 my $dt2 = DateTime->new( year => 2009, month => 3, day => 8, hour => 4, time_zone => 'Asia/Hong_Kong' ); my $dur = $dt1->subtract_datetime($dt2); is( $dur->delta_minutes, 720, 'subtraction the day of a DST change in one zone (after the change),' . ' where the other datetime is in a different zone' ); } done_testing(); DateTime-1.06/t/release-pp-07compare.t0000644000175000017500000001432712260573461017271 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); # make sure that comparing to itself eq 0 my $identity = $date1->compare($date2); ok( $identity == 0, "Identity comparison" ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 1, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 second diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 1, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 minute diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 13, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 hour diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 25, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 day diff' ); $date2 = DateTime->new( year => 1997, month => 11, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 month diff' ); $date2 = DateTime->new( year => 1998, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 year diff' ); # $a > $b tests $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 59, second => 59, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 second diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 59, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 minute diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 hour diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 23, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 day diff' ); $date2 = DateTime->new( year => 1997, month => 9, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 month diff' ); $date2 = DateTime->new( year => 1996, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 year diff' ); my $infinity = DateTime::INFINITY; ok( $date1->compare($infinity) == -1, 'Comparison $a < inf' ); ok( $date1->compare( -$infinity ) == 1, 'Comparison $a > -inf' ); # comparison overloading, and infinity ok( ( $date1 <=> $infinity ) == -1, 'Comparison overload $a <=> inf' ); ok( ( $infinity <=> $date1 ) == 1, 'Comparison overload $inf <=> $a' ); # comparison with floating time { my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'America/Chicago' ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'floating' ); is( DateTime->compare( $date1, $date2 ), 0, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), 0, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), 0, 'Comparison with floating time (cmp)' ); is( DateTime->compare_ignore_floating( $date1, $date2 ), 1, 'Comparison with floating time (cmp)' ); } # sub-second { my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 100, ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 200, ); is( DateTime->compare( $date1, $date2 ), -1, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), -1, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), -1, 'Comparison with floating time (cmp)' ); } { my $date1 = DateTime->new( year => 2000, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 10000, ); my $date2 = DateTime->new( year => 2000, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 10000, ); is( DateTime->compare( $date1, $date2 ), 0, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), 0, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), 0, 'Comparison with floating time (cmp)' ); is( DateTime->compare_ignore_floating( $date1, $date2 ), 0, 'Comparison with compare_ignore_floating (cmp)' ); } { package DT::Test; sub new { shift; bless [@_] } sub utc_rd_values { @{ $_[0] } } } { my $dt = DateTime->new( year => 1950 ); my @values = $dt->utc_rd_values; $values[2] += 50; my $dt_test1 = DT::Test->new(@values); ok( $dt < $dt_test1, 'comparison works across different classes' ); $values[0] -= 1; my $dt_test2 = DT::Test->new(@values); ok( $dt > $dt_test2, 'comparison works across different classes' ); } done_testing(); DateTime-1.06/t/19leap-second.t0000644000175000017500000007250712260573461016011 0ustar autarchautarchuse strict; use warnings; use Test::Fatal; use Test::More; use DateTime; # tests using UTC times { # 1972-06-30T23:58:20 UTC my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); my $t1 = $t->clone; is( $t->year, 1972, "year is 1972" ); is( $t->minute, 58, "minute is 58" ); is( $t->second, 20, "second is 20" ); # 1972-06-30T23:59:20 UTC $t->add( seconds => 60 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 59, "minute is 59" ); is( $t->second, 20, "second is 20" ); # 1972-07-01T00:00:19 UTC $t->add( seconds => 60 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 0, "minute is 0" ); is( $t->second, 19, "second is 19" ); # 1972-06-30T23:59:60 UTC $t->subtract( seconds => 20 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 59, "minute is 59" ); is( $t->second, 60, "second is 60" ); is( $t->{utc_rd_secs}, 86400, "utc_rd_secs is 86400" ); # subtract_datetime my $t2 = DateTime->new( year => 1972, month => 07, day => 1, hour => 0, minute => 0, second => 20, time_zone => 'UTC', ); my $dur = $t2->subtract_datetime_absolute($t1); is( $dur->delta_seconds, 121, "delta_seconds is 121" ); $dur = $t1->subtract_datetime_absolute($t2); is( $dur->delta_seconds, -121, "delta_seconds is -121" ); } { # tests using floating times # a floating time has no leap seconds my $t = DateTime->new( year => 1971, month => 12, day => 31, hour => 23, minute => 58, second => 20, time_zone => 'floating', ); my $t1 = $t->clone; $t->add( seconds => 60 ); is( $t->minute, 59, "min" ); is( $t->second, 20, "sec" ); $t->add( seconds => 60 ); is( $t->minute, 0, "min" ); is( $t->second, 20, "sec" ); # subtract_datetime, using floating times my $t2 = DateTime->new( year => 1972, month => 1, day => 1, hour => 0, minute => 0, second => 20, time_zone => 'floating', ); my $dur = $t2->subtract_datetime_absolute($t1); is( $dur->delta_seconds, 120, "delta_seconds is 120" ); $dur = $t1->subtract_datetime_absolute($t2); is( $dur->delta_seconds, -120, "delta_seconds is -120" ); } { # tests using time zones # leap seconds occur during _UTC_ midnight # 1972-06-30 20:58:20 -03:00 = 1972-06-30 23:58:20 UTC my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => 'America/Sao_Paulo', ); $t->add( seconds => 60 ); is( $t->datetime, '1972-06-30T20:59:20', "normal add" ); is( $t->minute, 59, "min" ); is( $t->second, 20, "sec" ); $t->add( seconds => 60 ); is( $t->datetime, '1972-06-30T21:00:19', "add over a leap second" ); is( $t->minute, 0, "min" ); is( $t->second, 19, "sec" ); $t->subtract( seconds => 20 ); is( $t->datetime, '1972-06-30T20:59:60', "subtract over a leap second" ); is( $t->minute, 59, "min" ); is( $t->second, 60, "sec" ); is( $t->{utc_rd_secs}, 86400, "rd_sec" ); } # test that we can set second to 60 (negative offset) { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 59, second => 60, time_zone => 'America/Sao_Paulo', ); is( $t->second, 60, 'second set to 60 in constructor' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 21, minute => 0, second => 0, time_zone => 'America/Sao_Paulo', ); is( $t->second, 0, 'datetime just after leap second' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 21, minute => 0, second => 1, time_zone => 'America/Sao_Paulo', ); is( $t->second, 1, 'datetime two seconds after leap second' ); } # test that we can set second to 60 (negative offset) { eval { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100', ); is( $t->second, 60, 'second set to 60 in constructor, negative TZ offset' ); }; if ($@) { ok( 0, "Error setting second to 60 in constructor: $@" ); } } # test that we can set second to 60 (positive offset) { eval { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100', ); is( $t->second, 60, 'second set to 60 in constructor, positive TZ offset' ); }; if ($@) { ok( 0, "Error setting second to 60 in constructor, positive TZ offset: $@" ); } } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'datetime just before leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100', ); is( $t->second, 0, 'datetime just after leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 1, time_zone => '+0100', ); is( $t->second, 1, 'datetime two seconds after leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 0, second => 29, time_zone => '+00:00:30', ); is( $t->second, 29, 'time zone +00:00:30 and leap seconds, second value' ); is( $t->minute, 0, 'time zone +00:00:30 and leap seconds, minute value' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 59, second => 60, time_zone => 'America/Sao_Paulo', ); $t->set_time_zone('UTC'); is( $t->second, 60, 'second after setting time zone' ); is( $t->hour, 23, 'hour after setting time zone' ); $t->add( days => 1 ); is( $t->datetime, '1972-07-02T00:00:00', 'add 1 day starting on leap second' ); $t->subtract( days => 1 ); is( $t->datetime, '1972-07-01T00:00:00', 'add and subtract 1 day starting on leap second' ); is( $t->leap_seconds, 1, 'datetime has 1 leap second' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); is( $t->epoch, 78796799, 'epoch just before first leap second is 78796799' ); $t->add( seconds => 1 ); is( $t->epoch, 78796800, 'epoch of first leap second is 78796800' ); $t->add( seconds => 1 ); is( $t->epoch, 78796800, 'epoch of first second after first leap second is 78796700' ); } { my $dt = DateTime->new( year => 2003, time_zone => 'UTC' ); is( $dt->leap_seconds, 22, 'datetime has 22 leap seconds' ); } { my $dt = DateTime->new( year => 2003, time_zone => 'floating' ); is( $dt->leap_seconds, 0, 'floating datetime has 0 leap seconds' ); } # date math across leap seconds distinguishes between minutes and second { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( minutes => 1 ); is( $t->year, 1973, '+1 minute, year == 1973' ); is( $t->month, 1, '+1 minute, month == 1' ); is( $t->day, 1, '+1 minute, day == 1' ); is( $t->hour, 0, '+1 minute, hour == 0' ); is( $t->minute, 0, '+1 minute, minute == 0' ); is( $t->second, 30, '+1 minute, second == 30' ); } { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( seconds => 60 ); is( $t->year, 1973, '+60 seconds, year == 1973' ); is( $t->month, 1, '+60 seconds, month == 1' ); is( $t->day, 1, '+60 seconds, day == 1' ); is( $t->hour, 0, '+60 seconds, hour == 0' ); is( $t->minute, 0, '+60 seconds, minute == 0' ); is( $t->second, 29, '+60 seconds, second == 29' ); } { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( minutes => 1, seconds => 1 ); is( $t->year, 1973, '+1 minute & 1 second, year == 1973' ); is( $t->month, 1, '+1 minute & 1 second, month == 1' ); is( $t->day, 1, '+1 minute & 1 second, day == 1' ); is( $t->hour, 0, '+1 minute & 1 second, hour == 0' ); is( $t->minute, 0, '+1 minute & 1 second, minute == 0' ); is( $t->second, 31, '+1 minute & 1 second, second == 31' ); } { eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 61, time_zone => 'UTC', ); }; ok( $@, "Cannot give second of 61 except when it matches a leap second" ); eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 58, second => 60, time_zone => 'UTC', ); }; ok( $@, "Cannot give second of 60 except when it matches a leap second" ); eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'floating', ); }; ok( $@, "Cannot give second of 60 with floating time zone" ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 58, second => 50, time_zone => 'UTC', ); my $pos_dur = $dt1 - $dt2; is( $pos_dur->delta_minutes, 1, 'delta_minutes is 1' ); is( $pos_dur->delta_seconds, 10, 'delta_seconds is 10' ); my $neg_dur = $dt2 - $dt1; is( $neg_dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $neg_dur->delta_seconds, -10, 'delta_seconds is -10' ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 55, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 58, second => 50, time_zone => 'UTC', ); my $pos_dur = $dt1 - $dt2; is( $pos_dur->delta_minutes, 1, 'delta_minutes is 1' ); is( $pos_dur->delta_seconds, 5, 'delta_seconds is 5' ); my $neg_dur = $dt2 - $dt1; is( $neg_dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $neg_dur->delta_seconds, -5, 'delta_seconds is -5' ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 55, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1999, month => 1, day => 1, hour => 0, minute => 0, second => 30, time_zone => 'UTC', ); my $pos_dur = $dt2 - $dt1; is( $pos_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $pos_dur->delta_seconds, 36, 'delta_seconds is 36' ); my $neg_dur = $dt1 - $dt2; is( $neg_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $neg_dur->delta_seconds, -36, 'delta_seconds is -36' ); } # catch off-by-one when carrying a leap second { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 0, nanosecond => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1999, month => 1, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC', ); my $pos_dur = $dt2 - $dt1; is( $pos_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $pos_dur->delta_seconds, 60, 'delta_seconds is 60' ); is( $pos_dur->delta_nanoseconds, 999999999, 'delta_nanoseconds is 999...' ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-02T23:58:20', "add two days crossing a leap second (UTC)" ); } # a bunch of tests that math works across a leap second for various time zones { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-02T20:58:20', "add two days crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-03T02:58:20', "add two days crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 48 hours crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 48 hours crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 48 hours crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 2880 minutes crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 2880 minutes crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 2880 minutes crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 172801 seconds crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 172801 seconds crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 172801 seconds crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract two days crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract two days crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract two days crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 48 hours crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 48 hours crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 48 hours crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 2880 minutes crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 2880 minutes crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 2880 minutes crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 172801 seconds crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 172801 seconds crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 172801 seconds crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 12, minute => 58, second => 20, time_zone => '+1200', ); $dt->set_time_zone('-1200'); is( $dt->datetime, '1972-06-30T12:58:20', "24 hour time zone change near leap second" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 12, minute => 58, second => 20, time_zone => '-1200', ); $dt->set_time_zone('+1200'); is( $dt->datetime, '1972-07-01T12:58:20', "24 hour time zone change near leap second" ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time leap second T-1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T00:59:60', 'local time leap second T-0' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T01:00:00', 'local time leap second T+1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 23, minute => 59, second => 59, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T23:59:59', 'local time end of leap second day' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T22:59:59', 'UTC time end of leap second day' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 22, minute => 59, second => 59, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T22:59:59', '-0100 time leap second T-1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T22:59:60', '-0100 time leap second T-0' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 0, second => 0, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T23:00:00', '-0100 time leap second T+1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:60', '+0100 time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T01:00:00', '+0100 time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time end of leap second day' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time end of leap second day' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T22:59:59', '-0100 time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T22:59:60', '-0100 time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T23:00:00', '-0100 time leap second T+1' ); } { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->second, 60, 'leap second at end of 2005 is allowed' ); } { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T23:59:60', 'dt is 2005-12-31T23:59:60' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2006-01-01T00:00:00', 'dt is 2006-01-01T00:00:00' ); } # bug reported by Mike Schilli - addition got "stuck" at 60 seconds # and never rolled over to the following day { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T23:59:60', 'dt is 2005-12-31T23:59:60' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2006-01-01T00:00:00', 'dt is 2006-01-01T00:00:00' ); } # and this makes sure that fix for the above bug didn't break # _non-leapsecond_ second addition { my $dt = DateTime->new( year => 2005, month => 12, day => 30, hour => 23, minute => 59, second => 58, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-30T23:59:59', 'dt is 2005-12-30T23:59:59' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T00:00:00', 'dt is 2005-12-31T00:00:00' ); } { for my $date ( [ 1972, 6, 30 ], [ 1972, 12, 31 ], [ 1973, 12, 31 ], [ 1974, 12, 31 ], [ 1975, 12, 31 ], [ 1976, 12, 31 ], [ 1977, 12, 31 ], [ 1978, 12, 31 ], [ 1979, 12, 31 ], [ 1981, 6, 30 ], [ 1982, 6, 30 ], [ 1983, 6, 30 ], [ 1985, 6, 30 ], [ 1987, 12, 31 ], [ 1989, 12, 31 ], [ 1990, 12, 31 ], [ 1992, 6, 30 ], [ 1993, 6, 30 ], [ 1994, 6, 30 ], [ 1995, 12, 31 ], [ 1997, 6, 30 ], [ 1998, 12, 31 ], [ 2005, 12, 31 ], [ 2008, 12, 31 ], [ 2012, 6, 30 ], ) { my $formatted = join '-', map { sprintf( '%02d', $_ ) } @{$date}; is( exception { DateTime->new( year => $date->[0], month => $date->[1], day => $date->[2], hour => 23, minute => 59, second => 60, time_zone => 'UTC', ); }, undef, "We can make a DateTime object for the leap second on $formatted" ); } } done_testing(); DateTime-1.06/t/27delta.t0000644000175000017500000000740212260573461014677 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); { my $dur_md = $date2->delta_md($date1); is( $dur_md->delta_months, 1, 'delta_md months is 1' ); is( $dur_md->delta_days, 2, 'delta_md days is 2' ); is( $dur_md->delta_minutes, 0, 'delta_md minutes is 0' ); is( $dur_md->delta_seconds, 0, 'delta_md seconds is 0' ); is( $dur_md->delta_nanoseconds, 0, 'delta_md nanoseconds is 0' ); my $dur_d = $date2->delta_days($date1); is( $dur_d->delta_months, 0, 'delta_d months is 0' ); is( $dur_d->delta_days, 33, 'delta_d days is 33' ); is( $dur_d->delta_minutes, 0, 'delta_d minutes is 0' ); is( $dur_d->delta_seconds, 0, 'delta_d seconds is 0' ); is( $dur_d->delta_nanoseconds, 0, 'delta_d nanoseconds is 0' ); my $dur_ms = $date2->delta_ms($date1); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 47584, 'delta_ms minutes is 47584' ); is( $dur_ms->delta_seconds, 20, 'delta_ms seconds is 20' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 793, 'hours is 793' ); } { my $dur_md = $date1->delta_md($date2); is( $dur_md->delta_months, 1, 'delta_md months is 1' ); is( $dur_md->delta_days, 2, 'delta_md days is 2' ); is( $dur_md->delta_minutes, 0, 'delta_md minutes is 0' ); is( $dur_md->delta_seconds, 0, 'delta_md seconds is 0' ); is( $dur_md->delta_nanoseconds, 0, 'delta_md nanoseconds is 0' ); my $dur_d = $date1->delta_days($date2); is( $dur_d->delta_months, 0, 'delta_d months is 0' ); is( $dur_d->delta_days, 33, 'delta_d days is 33' ); is( $dur_d->delta_minutes, 0, 'delta_d minutes is 0' ); is( $dur_d->delta_seconds, 0, 'delta_d seconds is 0' ); is( $dur_d->delta_nanoseconds, 0, 'delta_d nanoseconds is 0' ); my $dur_ms = $date1->delta_ms($date2); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 47584, 'delta_ms minutes is 47584' ); is( $dur_ms->delta_seconds, 20, 'delta_ms seconds is 20' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 793, 'hours is 793' ); } } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 15, minute => 0, second => 0, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 5, day => 11, hour => 12, minute => 30, second => 10, time_zone => 'UTC' ); my $dur_ms = $date1->delta_ms($date2); is( $dur_ms->delta_months, 0, 'delta_ms months is 0' ); is( $dur_ms->delta_days, 0, 'delta_ms days is 0' ); is( $dur_ms->delta_minutes, 1290, 'delta_ms minutes is 1290' ); is( $dur_ms->delta_seconds, 10, 'delta_ms seconds is 30' ); is( $dur_ms->delta_nanoseconds, 0, 'delta_ms nanoseconds is 0' ); is( $dur_ms->hours, 21, 'hours is 21' ); } done_testing(); DateTime-1.06/t/04epoch.t0000644000175000017500000001111312260573461014671 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { # Tests creating objects from epoch time my $t1 = DateTime->from_epoch( epoch => 0 ); is( $t1->epoch, 0, "epoch should be 0" ); is( $t1->second, 0, "seconds are correct on epoch 0" ); is( $t1->minute, 0, "minutes are correct on epoch 0" ); is( $t1->hour, 0, "hours are correct on epoch 0" ); is( $t1->day, 1, "days are correct on epoch 0" ); is( $t1->month, 1, "months are correct on epoch 0" ); is( $t1->year, 1970, "year is correct on epoch 0" ); } { my $dt = DateTime->from_epoch( epoch => '3600' ); is( $dt->epoch, 3600, 'creation test from epoch = 3600 (compare to epoch)' ); } { # these tests could break if the time changed during the next three lines my $now = time; my $nowtest = DateTime->now(); my $nowtest2 = DateTime->from_epoch( epoch => $now ); is( $nowtest->hour, $nowtest2->hour, "Hour: Create without args" ); is( $nowtest->month, $nowtest2->month, "Month : Create without args" ); is( $nowtest->minute, $nowtest2->minute, "Minute: Create without args" ); } { my $epochtest = DateTime->from_epoch( epoch => '997121000' ); is( $epochtest->epoch, 997121000, "epoch method returns correct value" ); is( $epochtest->hour, 18, "hour" ); is( $epochtest->min, 3, "minute" ); } { my $dt = DateTime->from_epoch( epoch => 3600 ); $dt->set_time_zone('+0100'); is( $dt->epoch, 3600, 'epoch is 3600' ); is( $dt->hour, 2, 'hour is 2' ); } { my $dt = DateTime->new( year => 1970, month => 1, day => 1, hour => 0, time_zone => '-0100', ); is( $dt->epoch, 3600, 'epoch is 3600' ); } { my $dt = DateTime->from_epoch( epoch => 0, time_zone => '-0100', ); is( $dt->offset, -3600, 'offset should be -3600' ); is( $dt->epoch, 0, 'epoch is 0' ); } # Adding/subtracting should affect epoch { my $expected = 1049160602; my $epochtest = DateTime->from_epoch( epoch => $expected ); is( $epochtest->epoch, $expected, "epoch method returns correct value ($expected)" ); is( $epochtest->hour, 1, "hour" ); is( $epochtest->min, 30, "minute" ); $epochtest->add( hours => 2 ); $expected += 2 * 60 * 60; is( $epochtest->hour, 3, "adjusted hour" ); is( $epochtest->epoch, $expected, "epoch method returns correct adjusted value ($expected)" ); } { my $dt = DateTime->from_epoch( epoch => 0.5 ); is( $dt->nanosecond, 500_000_000, 'nanosecond should be 500,000,000 with 0.5 as epoch' ); is( $dt->epoch, 0, 'epoch should be 0' ); is( $dt->hires_epoch, 0.5, 'hires_epoch should be 0.5' ); } { my $dt = DateTime->from_epoch( epoch => 0.1234567891 ); is( $dt->nanosecond, 123_456_789, 'nanosecond should be an integer ' ); } { is( DateTime->new( year => 1904 )->epoch, -2082844800, "epoch should work back to at least 1904" ); my $dt = DateTime->from_epoch( epoch => -2082844800 ); is( $dt->year, 1904, 'year should be 1904' ); is( $dt->month, 1, 'month should be 1904' ); is( $dt->day, 1, 'day should be 1904' ); } { for my $pair ( [ 1 => -62135596800 ], [ 99 => -59042995200 ], [ 100 => -59011459200 ], [ 999 => -30641760000 ], ) { my ( $year, $epoch ) = @{$pair}; is( DateTime->new( year => $year )->epoch, $epoch, "epoch for $year is $epoch" ); } } { package Number::Overloaded; use overload "0+" => sub { $_[0]->{num} }, fallback => 1; sub new { bless { num => $_[1] }, $_[0] } } { my $time = Number::Overloaded->new(12345); my $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, 12345, 'can pass overloaded object to from_epoch' ); $time = Number::Overloaded->new(12345.1234); $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, 12345, 'decimal epoch in overloaded object' ); } { my $time = Number::Overloaded->new(-12345); my $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, -12345, 'negative epoch in overloaded object' ); } { my @tests = ( 'asldkjlkjd', '1234 foo', 'adlkj 1234', ); for my $test (@tests) { eval { DateTime->from_epoch( epoch => $test ); }; like( $@, qr/did not pass regex check/, qq{'$test' is not a valid epoch value} ); } } done_testing(); DateTime-1.06/t/release-pp-43new-params.t0000644000175000017500000000416512260573461017714 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::Fatal; use Test::More; use DateTime; like( exception { DateTime->new( year => 10.5 ) }, qr/is an integer/, 'year must be an integer' ); like( exception { DateTime->new( year => -10.5 ) }, qr/is an integer/, 'year must be an integer' ); like( exception { DateTime->new( year => 10, month => 2.5 ) }, qr/an integer/, 'month must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12.4 ) }, qr/an integer/, 'day must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4.1 ); }, qr/an integer/, 'hour must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12.2 ); }, qr/an integer/, 'minute must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12, second => 51.8 ); }, qr/an integer/, 'second must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12, hour => 4, minute => 12, second => 51, nanosecond => 124512.12412 ); }, qr/positive integer/, 'nanosecond must be an integer' ); like( exception { DateTime->new( year => 10, month => 2, day => 12 )->today; }, qr/called with reference/, 'today must be called as a class method, not an object method' ); like( exception { DateTime->new( year => 10, month => 2, day => 12 )->now; }, qr/called with reference/, 'now must be called as a class method, not an object method' ); done_testing(); DateTime-1.06/t/35rd-values.t0000644000175000017500000000271112260573461015505 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 2000, hour => 1, nanosecond => 500, time_zone => 'UTC', ); my ( $utc_rd_days, $utc_rd_secs, $utc_nanosecs ) = $dt->utc_rd_values; is( $utc_rd_days, 730120, 'utc rd days is 730120' ); is( $utc_rd_secs, 3600, 'utc rd seconds is 3600' ); is( $utc_nanosecs, 500, 'nanoseconds is 500' ); my ( $local_rd_days, $local_rd_secs, $local_nanosecs ) = $dt->local_rd_values; is( $local_rd_days, $utc_rd_days, 'local & utc rd days are equal' ); is( $local_rd_secs, $utc_rd_secs, 'local & utc rd seconds are equal' ); is( $local_nanosecs, $utc_nanosecs, 'local & UTC nanoseconds are equal' ); } { my $dt = DateTime->new( year => 2000, hour => 1, nanosecond => 500, time_zone => '+02:00', ); my ( $utc_rd_days, $utc_rd_secs, $utc_nanosecs ) = $dt->utc_rd_values; is( $utc_rd_days, 730119, 'utc rd days is 730119' ); is( $utc_rd_secs, 82800, 'utc rd seconds is 82800' ); is( $utc_nanosecs, 500, 'nanoseconds is 500' ); my ( $local_rd_days, $local_rd_secs, $local_nanosecs ) = $dt->local_rd_values; is( $local_rd_days, 730120, 'local rd days is 730120' ); is( $local_rd_secs, 3600, 'local rd seconds is 3600' ); is( $local_nanosecs, 500, 'local nanoseconds is 500' ); } done_testing(); DateTime-1.06/t/release-pp-12week.t0000644000175000017500000000317012260573461016564 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my @tests = ( [ [ 1964, 12, 31 ], [ 1964, 53 ] ], [ [ 1965, 1, 1 ], [ 1964, 53 ] ], [ [ 1971, 9, 7 ], [ 1971, 36 ] ], [ [ 1971, 10, 25 ], [ 1971, 43 ] ], [ [ 1995, 1, 1 ], [ 1994, 52 ] ], [ [ 1995, 11, 18 ], [ 1995, 46 ] ], [ [ 1995, 12, 31 ], [ 1995, 52 ] ], [ [ 1996, 12, 31 ], [ 1997, 1 ] ], [ [ 2001, 4, 28 ], [ 2001, 17 ] ], [ [ 2001, 8, 2 ], [ 2001, 31 ] ], [ [ 2001, 9, 11 ], [ 2001, 37 ] ], [ [ 2002, 12, 25 ], [ 2002, 52 ] ], [ [ 2002, 12, 31 ], [ 2003, 1 ] ], [ [ 2003, 1, 1 ], [ 2003, 1 ] ], [ [ 2003, 12, 31 ], [ 2004, 1 ] ], [ [ 2004, 1, 1 ], [ 2004, 1 ] ], [ [ 2004, 12, 31 ], [ 2004, 53 ] ], [ [ 2005, 1, 1 ], [ 2004, 53 ] ], [ [ 2005, 12, 31 ], [ 2005, 52 ] ], [ [ 2006, 1, 1 ], [ 2005, 52 ] ], [ [ 2006, 12, 31 ], [ 2006, 52 ] ], [ [ 2007, 1, 1 ], [ 2007, 1 ] ], [ [ 2007, 12, 31 ], [ 2008, 1 ] ], [ [ 2008, 1, 1 ], [ 2008, 1 ] ], [ [ 2008, 12, 31 ], [ 2009, 1 ] ], [ [ 2009, 1, 1 ], [ 2009, 1 ] ], ); foreach my $test (@tests) { my @args = @{ $test->[0] }; my @results = @{ $test->[1] }; my $dt = DateTime->new( year => $args[0], month => $args[1], day => $args[2], time_zone => 'UTC', ); my ( $year, $week ) = $dt->week(); is( "$year-W$week", "$results[0]-W$results[1]" ); } done_testing(); DateTime-1.06/t/release-pp-37local-add.t0000644000175000017500000001234512260573461017464 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; # These tests should be the final word on dt addition involving a # DST-changing time zone # time addition is "wait X amount of time, then what does the clock # say?" this means it acts on the UTC components. { my $dt = DateTime->new( year => 2003, month => 4, day => 6, time_zone => 'America/Chicago', ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-04-06T01:00:00', 'add one hour to midnight, get 1 am' ); eval { $dt->add( hours => 1 ) }; is( $@, '', 'no error adding 1 hour just before DST leap forward' ); is( $dt->datetime, '2003-04-06T03:00:00', 'add one hour to 1 am, get 3 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-04-06T01:00:00', 'subtract one hour from 3 am, get 1 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-04-06T00:00:00', 'subtract one hour from 1 am, get midnight' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 26, time_zone => 'America/Chicago', ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one hour to midnight, get 1 am' ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one hour to 1 am, get 1 am (again)' ); $dt->add( hours => 1 ); is( $dt->datetime, '2003-10-26T02:00:00', 'add one hour to 1 am (2nd time), get 2 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'subtract 1 hour from 2 am, get 1 am' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T01:00:00', 'subtract 1 hour from 1 am, get 1 am (again)' ); $dt->subtract( hours => 1 ); is( $dt->datetime, '2003-10-26T00:00:00', 'subtract 1 hour from 1 am (2nd), get midnight' ); } # date addition is "leave the clock alone, just change the date # portion". this means it acts on local components { my $dt = DateTime->new( year => 2003, month => 4, day => 6, time_zone => 'America/Chicago', ); $dt->add( days => 1 ); is( $dt->datetime, '2003-04-07T00:00:00', 'add 1 day at midnight, same clock time' ); $dt->add( months => 7 ); is( $dt->datetime, '2003-11-07T00:00:00', 'add 7 months at midnight, same clock time' ); $dt->subtract( months => 7 ); is( $dt->datetime, '2003-04-07T00:00:00', 'subtract 7 months at midnight, same clock time' ); $dt->subtract( days => 1 ); is( $dt->datetime, '2003-04-06T00:00:00', 'subtract 1 day at midnight, same clock time' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 26, time_zone => 'America/Chicago', ); $dt->add( days => 1 ); is( $dt->datetime, '2003-10-27T00:00:00', 'add 1 day at midnight, get midnight' ); $dt->add( months => 7 ); is( $dt->datetime, '2004-05-27T00:00:00', 'add 7 months at midnight, get midnight' ); $dt->subtract( months => 7 ); is( $dt->datetime, '2003-10-27T00:00:00', 'subtract 7 months at midnight, get midnight' ); $dt->subtract( days => 1 ); is( $dt->datetime, '2003-10-26T00:00:00', 'subtract 1 day at midnight, get midnight' ); } # date and time addition in one call is still two separate operations. # First we do date, then time. { my $dt = DateTime->new( year => 2003, month => 4, day => 5, time_zone => 'America/Chicago', ); $dt->add( days => 1, hours => 2 ); is( $dt->datetime, '2003-04-06T03:00:00', 'add one day & 2 hours from midnight, get 3 am' ); # !!! - not reversible this way - needs some good docs my $dt1 = $dt->clone->subtract( days => 1, hours => 2 ); is( $dt1->datetime, '2003-04-05T01:00:00', 'subtract one day & 2 hours from 3 am, get 1 am' ); # is reversible this way - also needs docs my $dt2 = $dt->clone->subtract( hours => 2 )->subtract( days => 1 ); is( $dt2->datetime, '2003-04-05T00:00:00', 'subtract 2 hours and then one day from 3 am, get midnight' ); } { my $dt = DateTime->new( year => 2003, month => 10, day => 25, time_zone => 'America/Chicago', ); $dt->add( days => 1, hours => 2 ); is( $dt->datetime, '2003-10-26T01:00:00', 'add one day & 2 hours from midnight, get 1 am' ); my $dt1 = $dt->clone->subtract( days => 1, hours => 2 ); is( $dt1->datetime, '2003-10-24T23:00:00', 'add one day & 2 hours from midnight, get 11 pm' ); my $dt2 = $dt->clone->subtract( hours => 2 )->subtract( days => 1 ); is( $dt2->datetime, '2003-10-25T00:00:00', 'subtract 2 hours and then one day from 3 am, get midnight' ); } # an example from the docs { my $dt = DateTime->new( year => 2003, month => 4, day => 5, hour => 2, time_zone => 'America/Chicago', ); $dt->add( hours => 24 ); is( $dt->datetime, '2003-04-06T03:00:00', 'datetime after adding 24 hours is 2003-04-06T03:00:00' ); } done_testing(); DateTime-1.06/t/release-pp-01sanity.t0000644000175000017500000000343112260573461017136 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1870, month => 10, day => 21, hour => 12, minute => 10, second => 45, nanosecond => 123456, time_zone => 'UTC' ); is( $dt->year, '1870', "Year accessor, outside of the epoch" ); is( $dt->month, '10', "Month accessor, outside the epoch" ); is( $dt->day, '21', "Day accessor, outside the epoch" ); is( $dt->hour, '12', "Hour accessor, outside the epoch" ); is( $dt->minute, '10', "Minute accessor, outside the epoch" ); is( $dt->second, '45', "Second accessor, outside the epoch" ); is( $dt->nanosecond, '123456', "nanosecond accessor, outside the epoch" ); $dt = DateTime->from_object( object => $dt ); is( $dt->year, '1870', "Year should be identical" ); is( $dt->month, '10', "Month should be identical" ); is( $dt->day, '21', "Day should be identical" ); is( $dt->hour, '12', "Hour should be identical" ); is( $dt->minute, '10', "Minute should be identical" ); is( $dt->second, '45', "Second should be identical" ); is( $dt->nanosecond, '123456', "nanosecond should be identical" ); } { my $dt = DateTime->new( year => 1870, month => 10, day => 21, hour => 12, minute => 10, second => 45, time_zone => 'UTC' ); is( $dt->minute, '10', "Minute accessor, outside the epoch" ); is( $dt->second, '45', "Second accessor, outside the epoch" ); } done_testing(); DateTime-1.06/t/07compare.t0000644000175000017500000001404312260573461015231 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); # make sure that comparing to itself eq 0 my $identity = $date1->compare($date2); ok( $identity == 0, "Identity comparison" ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 1, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 second diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 1, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 minute diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 13, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 hour diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 25, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 day diff' ); $date2 = DateTime->new( year => 1997, month => 11, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 month diff' ); $date2 = DateTime->new( year => 1998, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == -1, 'Comparison $a < $b, 1 year diff' ); # $a > $b tests $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 59, second => 59, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 second diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 59, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 minute diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 11, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 hour diff' ); $date2 = DateTime->new( year => 1997, month => 10, day => 23, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 day diff' ); $date2 = DateTime->new( year => 1997, month => 9, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 month diff' ); $date2 = DateTime->new( year => 1996, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'UTC' ); ok( $date1->compare($date2) == 1, 'Comparison $a > $b, 1 year diff' ); my $infinity = DateTime::INFINITY; ok( $date1->compare($infinity) == -1, 'Comparison $a < inf' ); ok( $date1->compare( -$infinity ) == 1, 'Comparison $a > -inf' ); # comparison overloading, and infinity ok( ( $date1 <=> $infinity ) == -1, 'Comparison overload $a <=> inf' ); ok( ( $infinity <=> $date1 ) == 1, 'Comparison overload $inf <=> $a' ); # comparison with floating time { my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'America/Chicago' ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, time_zone => 'floating' ); is( DateTime->compare( $date1, $date2 ), 0, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), 0, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), 0, 'Comparison with floating time (cmp)' ); is( DateTime->compare_ignore_floating( $date1, $date2 ), 1, 'Comparison with floating time (cmp)' ); } # sub-second { my $date1 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 100, ); my $date2 = DateTime->new( year => 1997, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 200, ); is( DateTime->compare( $date1, $date2 ), -1, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), -1, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), -1, 'Comparison with floating time (cmp)' ); } { my $date1 = DateTime->new( year => 2000, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 10000, ); my $date2 = DateTime->new( year => 2000, month => 10, day => 24, hour => 12, minute => 0, second => 0, nanosecond => 10000, ); is( DateTime->compare( $date1, $date2 ), 0, 'Comparison with floating time (cmp)' ); is( ( $date1 <=> $date2 ), 0, 'Comparison with floating time (<=>)' ); is( ( $date1 cmp $date2 ), 0, 'Comparison with floating time (cmp)' ); is( DateTime->compare_ignore_floating( $date1, $date2 ), 0, 'Comparison with compare_ignore_floating (cmp)' ); } { package DT::Test; sub new { shift; bless [@_] } sub utc_rd_values { @{ $_[0] } } } { my $dt = DateTime->new( year => 1950 ); my @values = $dt->utc_rd_values; $values[2] += 50; my $dt_test1 = DT::Test->new(@values); ok( $dt < $dt_test1, 'comparison works across different classes' ); $values[0] -= 1; my $dt_test2 = DT::Test->new(@values); ok( $dt > $dt_test2, 'comparison works across different classes' ); } done_testing(); DateTime-1.06/t/10subtract.t0000644000175000017500000003321212260573461015423 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); my $dur = $date2 - $date1; is( $dur->delta_months, 1, 'delta_months should be 1' ); is( $dur->delta_days, 2, 'delta_days should be 2' ); is( $dur->delta_minutes, 64, 'delta_minutes should be 64' ); is( $dur->delta_seconds, 20, 'delta_seconds should be 20' ); is( $dur->delta_nanoseconds, 999_999_995, 'delta_nanoseconds should be 999,999,995' ); is( $dur->years, 0, 'Years' ); is( $dur->months, 1, 'Months' ); is( $dur->weeks, 0, 'Weeks' ); is( $dur->days, 2, 'Days' ); is( $dur->hours, 1, 'Hours' ); is( $dur->minutes, 4, 'Minutes' ); is( $dur->seconds, 20, 'Seconds' ); is( $dur->nanoseconds, 999_999_995, 'Nanoseconds' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, time_zone => 'UTC' ); my $dur = $date1 - $date2; is( $dur->delta_months, -1, 'delta_months should be -1' ); is( $dur->delta_days, -2, 'delta_days should be -2' ); is( $dur->delta_minutes, -64, 'delta_minutes should be 64' ); is( $dur->delta_seconds, -21, 'delta_seconds should be 20' ); is( $dur->delta_nanoseconds, 0, 'delta_nanoseconds should be 0' ); is( $dur->years, 0, 'Years' ); is( $dur->months, 1, 'Months' ); is( $dur->weeks, 0, 'Weeks' ); is( $dur->days, 2, 'Days' ); is( $dur->hours, 1, 'Hours' ); is( $dur->minutes, 4, 'Minutes' ); is( $dur->seconds, 21, 'Seconds' ); is( $dur->nanoseconds, 0, 'Nanoseconds' ); $dur = $date1 - $date1; is( $dur->delta_days, 0, 'date minus itself should have no delta days' ); is( $dur->delta_seconds, 0, 'date minus itself should have no delta seconds' ); my $new = $date1 - DateTime::Duration->new( years => 2 ); is( $new->datetime, '1999-05-10T04:03:02', 'test - overloading' ); } { my $d = DateTime->new( year => 2001, month => 10, day => 19, hour => 5, minute => 1, second => 1, time_zone => 'UTC' ); my $d2 = $d->clone; $d2->subtract( weeks => 1, days => 1, hours => 1, minutes => 1, seconds => 1, ); ok( defined $d2, 'Defined' ); is( $d2->datetime, '2001-10-11T04:00:00', 'Subtract and get the right thing' ); } # based on bug report from Eric Cholet { my $dt1 = DateTime->new( year => 2003, month => 2, day => 9, hour => 0, minute => 0, second => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2003, month => 2, day => 7, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); my $dur1 = $dt1->subtract_datetime($dt2); is( $dur1->delta_days, 1, 'delta_days should be 1' ); is( $dur1->delta_seconds, 2, 'delta_seconds should be 2' ); my $dt3 = $dt2 + $dur1; is( DateTime->compare( $dt1, $dt3 ), 0, 'adding difference back to dt1 should give same datetime' ); my $dur2 = $dt2->subtract_datetime($dt1); is( $dur2->delta_days, -1, 'delta_days should be -1' ); is( $dur2->delta_seconds, -2, 'delta_seconds should be -2' ); my $dt4 = $dt1 + $dur2; is( DateTime->compare( $dt2, $dt4 ), 0, 'adding difference back to dt2 should give same datetime' ); } # test if the day changes because of a nanosecond subtract { my $dt = DateTime->new( year => 2001, month => 6, day => 12, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); $dt->subtract( nanoseconds => 1 ); is( $dt->nanosecond, 999999999, 'negative nanoseconds normalize ok' ); is( $dt->second, 59, 'seconds normalize ok' ); is( $dt->minute, 59, 'minutes normalize ok' ); is( $dt->hour, 23, 'hours normalize ok' ); is( $dt->day, 11, 'days normalize ok' ); } # test for a bug when nanoseconds were greater in earlier datetime { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 6, hour => 0, minute => 10, second => 0, nanosecond => 0, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'delta_days is 0' ); is( $dur->delta_minutes, 1439, 'delta_minutes is 1439' ); is( $dur->delta_seconds, 59, 'delta_seconds is 59' ); is( $dur->delta_nanoseconds, 999_999_999, 'delta_nanoseconds is 999,999,999' ); ok( $dur->is_positive, 'duration is positive' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 0, 'seconds is 0' ); is( $dur->delta_nanoseconds, -10, 'nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'delta_days is 0' ); is( $dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $dur->delta_seconds, 0, 'delta_seconds is 0' ); is( $dur->delta_nanoseconds, -10, 'nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 59, 'seconds is 59' ); is( $dur->delta_nanoseconds, 999_999_990, 'nanoseconds is 999,999,990' ); ok( $dur->is_positive, 'duration is positive' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, -59, 'seconds is -59' ); is( $dur->delta_nanoseconds, -999_999_990, 'nanoseconds is -999,999,990' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dur = $dt1 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 0, 'seconds is 0' ); is( $dur->delta_nanoseconds, 0, 'nanoseconds is 0' ); ok( !$dur->is_positive, 'not positive' ); ok( !$dur->is_negative, 'not negative' ); } { my $dt1 = DateTime->new( year => 2003, month => 12, day => 31 ); my $dt2 = $dt1->clone->subtract( months => 1 ); is( $dt2->year, 2003, '2003-12-31 - 1 month = 2003-11-30' ); is( $dt2->month, 11, '2003-12-31 - 1 month = 2003-11-30' ); is( $dt2->day, 30, '2003-12-31 - 1 month = 2003-11-30' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); my $dur = $date2->subtract_datetime_absolute($date1); is( $dur->delta_months, 0, 'delta_months is 0' ); is( $dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $dur->delta_seconds, 2_855_060, 'delta_seconds is 2,855,060' ); is( $dur->delta_nanoseconds, 999_999_995, 'delta_seconds is 999,999,995' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, time_zone => 'UTC' ); my $dur = $date1->subtract_datetime_absolute($date2); is( $dur->delta_months, 0, 'delta_months is 0' ); is( $dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $dur->delta_seconds, -2_855_061, 'delta_seconds is -2,855,061' ); is( $dur->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); } { my $date1 = DateTime->new( year => 2003, month => 9, day => 30 ); my $date2 = DateTime->new( year => 2003, month => 10, day => 1 ); my $date3 = DateTime->new( year => 2003, month => 10, day => 31 ); my $date4 = DateTime->new( year => 2003, month => 11, day => 1 ); my $date5 = DateTime->new( year => 2003, month => 2, day => 28 ); my $date6 = DateTime->new( year => 2003, month => 3, day => 1 ); my $date7 = DateTime->new( year => 2003, month => 1, day => 31 ); my $date8 = DateTime->new( year => 2003, month => 2, day => 1 ); foreach my $p ( [ $date1, $date2 ], [ $date3, $date4 ], [ $date5, $date6 ], [ $date7, $date8 ], ) { my $pos_diff = $p->[1]->subtract_datetime( $p->[0] ); is( $pos_diff->delta_days, 1, "1 day diff at end of month" ); is( $pos_diff->delta_months, 0, "0 month diff at end of month" ); my $neg_diff = $p->[0]->subtract_datetime( $p->[1] ); is( $neg_diff->delta_days, -1, "-1 day diff at end of month" ); is( $neg_diff->delta_months, 0, "0 month diff at end of month" ); } } { my $dt1 = DateTime->new( year => 2005, month => 6, day => 11, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2005, month => 11, day => 10, time_zone => 'UTC', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 4, '4 months - smaller day > bigger day' ); is( $deltas{days}, 29, '29 days - smaller day > bigger day' ); is( $deltas{minutes}, 0, '0 minutes - smaller day > bigger day' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, '$dt1 + $dur == $dt2' ); # XXX - this does not work, nor will it ever work # is( $dt2->clone->subtract_duration($dur), $dt1, '$dt2 - $dur == $dt1' ); } { my $dt1 = DateTime->new( year => 2005, month => 6, day => 11, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2005, month => 11, day => 10, time_zone => 'UTC', ); my $dur = $dt2->delta_days($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '30 months - smaller day > bigger day' ); is( $deltas{days}, 152, '152 days - smaller day > bigger day' ); is( $deltas{minutes}, 0, '0 minutes - smaller day > bigger day' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, '$dt1 + $dur == $dt2' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, '$dt2 - $dur == $dt1' ); } { my $dt = DateTime->new( year => 2012, month => 6, day => 30, time_zone => 'floating', ); my $default = $dt->clone()->subtract( months => 1 ); is( $default->format_cldr('yyyy-MM-dd'), '2012-05-31', 'default subtract uses preserve end_of_month mode' ); my $with_mode = $dt->clone()->subtract( months => 1, end_of_month => 'limit', ); is( $with_mode->format_cldr('yyyy-MM-dd'), '2012-05-30', 'set end_of_month mode to limit in call to subtract()' ); } done_testing(); DateTime-1.06/t/11duration.t0000644000175000017500000003176012260573461015430 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; use DateTime::Duration; { my %pairs = ( years => 1, months => 2, weeks => 3, days => 4, hours => 6, minutes => 7, seconds => 8, nanoseconds => 9, ); my $dur = DateTime::Duration->new(%pairs); while ( my ( $unit, $val ) = each %pairs ) { is( $dur->$unit(), $val, "$unit should be $val" ); } is( $dur->delta_months, 14, "delta_months" ); is( $dur->delta_days, 25, "delta_days" ); is( $dur->delta_minutes, 367, "delta_minutes" ); is( $dur->delta_seconds, 8, "delta_seconds" ); is( $dur->delta_nanoseconds, 9, "delta_nanoseconds" ); is( $dur->in_units('months'), 14, "in_units months" ); is( $dur->in_units('days'), 25, "in_units days" ); is( $dur->in_units('minutes'), 367, "in_units minutes" ); is( $dur->in_units('seconds'), 8, "in_units seconds" ); is( $dur->in_units( 'nanoseconds', 'seconds' ), 9, "in_units nanoseconds, seconds" ); is( $dur->in_units('years'), 1, "in_units years" ); is( $dur->in_units( 'months', 'years' ), 2, "in_units months, years" ); is( $dur->in_units('weeks'), 3, "in_units weeks" ); is( $dur->in_units( 'days', 'weeks' ), 4, "in_units days, weeks" ); is( $dur->in_units('hours'), 6, "in_units hours" ); is( $dur->in_units( 'minutes', 'hours' ), 7, "in_units minutes, hours" ); is( $dur->in_units('nanoseconds'), 8_000_000_009, "in_units nanoseconds" ); my ( $years, $months, $weeks, $days, $hours, $minutes, $seconds, $nanoseconds ) = $dur->in_units( qw( years months weeks days hours minutes seconds nanoseconds ) ); is( $years, 1, "in_units years, list context" ); is( $months, 2, "in_units months, list context" ); is( $weeks, 3, "in_units weeks, list context" ); is( $days, 4, "in_units days, list context" ); is( $hours, 6, "in_units hours, list context" ); is( $minutes, 7, "in_units minutes, list context" ); is( $seconds, 8, "in_units seconds, list context" ); is( $nanoseconds, 9, "in_units nanoseconds, list context" ); ok( $dur->is_positive, "should be positive" ); ok( !$dur->is_zero, "should not be zero" ); ok( !$dur->is_negative, "should not be negative" ); ok( $dur->is_wrap_mode, "wrap mode" ); } { my %pairs = ( years => 1, months => 2, weeks => 3, days => 4, hours => 6, minutes => 7, seconds => 8, nanoseconds => 9, ); my $dur = DateTime::Duration->new( %pairs, end_of_month => 'limit' ); my $calendar_dur = $dur->calendar_duration; is( $calendar_dur->delta_months, 14, "date - delta_months is 14" ); is( $calendar_dur->delta_minutes, 0, "date - delta_minutes is 0" ); is( $calendar_dur->delta_seconds, 0, "date - delta_seconds is 0" ); is( $calendar_dur->delta_nanoseconds, 0, "date - delta_nanoseconds is 0" ); ok( $calendar_dur->is_limit_mode, "limit mode" ); my $clock_dur = $dur->clock_duration; is( $clock_dur->delta_months, 0, "time - delta_months is 0" ); is( $clock_dur->delta_minutes, 367, "time - delta_minutes is 367" ); is( $clock_dur->delta_seconds, 8, "time - delta_seconds is 8" ); is( $clock_dur->delta_nanoseconds, 9, "time - delta_nanoseconds is 9" ); ok( $clock_dur->is_limit_mode, "limit mode" ); } { my $dur = DateTime::Duration->new( days => 1, end_of_month => 'limit' ); ok( $dur->is_limit_mode, "limit mode" ); } { my $dur = DateTime::Duration->new( days => 1, end_of_month => 'preserve' ); ok( $dur->is_preserve_mode, "preserve mode" ); } my $leap_day = DateTime->new( year => 2004, month => 2, day => 29, time_zone => 'UTC', ); { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'wrap' ); is( $new->date, '2005-03-01', "new date should be 2005-03-01" ); } { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'limit' ); is( $new->date, '2005-02-28', "new date should be 2005-02-28" ); } { my $new = $leap_day + DateTime::Duration->new( years => 1, end_of_month => 'preserve' ); is( $new->date, '2005-02-28', "new date should be 2005-02-28" ); my $new2 = $leap_day + DateTime::Duration->new( months => 1, end_of_month => 'preserve' ); is( $new2->date, '2004-03-31', "new date should be 2004-03-31" ); } { my $inverse = DateTime::Duration->new( years => 1, months => 1, weeks => 1, days => 1, hours => 1, minutes => 2, seconds => 3, )->inverse; is( $inverse->years, 1, 'inverse years should be positive' ); is( $inverse->months, 1, 'inverse months should be positive' ); is( $inverse->weeks, 1, 'inverse weeks should be positive' ); is( $inverse->days, 1, 'inverse days should be positive' ); is( $inverse->hours, 1, 'inverse hours should be positive' ); is( $inverse->minutes, 2, 'inverse minutes should be positive' ); is( $inverse->seconds, 3, 'inverse minutes should be positive' ); is( $inverse->delta_months, -13, 'inverse delta months should be negative' ); is( $inverse->delta_days, -8, 'inverse delta months should be negative' ); is( $inverse->delta_minutes, -62, 'inverse delta minutes should be negative' ); is( $inverse->delta_seconds, -3, 'inverse delta seconds should be negative' ); ok( $inverse->is_negative, "should be negative" ); ok( !$inverse->is_zero, "should not be zero" ); ok( !$inverse->is_positive, "should not be positivea" ); is( $inverse->end_of_month_mode(), 'preserve', 'inverse method uses default end_of_month_mode without explicit parameter' ); my $inverse2 = DateTime::Duration->new( years => 1 ) ->inverse( end_of_month => 'limit' ); is( $inverse2->end_of_month_mode(), 'limit', 'inverse method allows setting end_of_month_mode' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10 ); my $dur2 = DateTime::Duration->new( months => 3, days => 7 ); my $new1 = $dur1 + $dur2; is( $new1->delta_months, 9, 'test + overloading' ); is( $new1->delta_days, 17, 'test + overloading' ); my $new2 = $dur1 - $dur2; is( $new2->delta_months, 3, 'test - overloading' ); is( $new2->delta_days, 3, 'test - overloading' ); my $new3 = $dur2 - $dur1; is( $new3->delta_months, -3, 'test - overloading' ); is( $new3->delta_days, -3, 'test - overloading' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10 ); my $new1 = $dur1 * 4; is( $new1->delta_months, 24, 'test * overloading' ); is( $new1->delta_days, 40, 'test * overloading' ); $dur1->multiply(4); is( $dur1->delta_months, 24, 'test multiply' ); is( $dur1->delta_days, 40, 'test multiply' ); } { my $dur1 = DateTime::Duration->new( months => 6, days => 10, seconds => 3, nanoseconds => 1_200_300_400 ); my $dur2 = DateTime::Duration->new( seconds => 1, nanoseconds => 500_000_000 ); is( $dur1->delta_seconds, 4, 'test nanoseconds overflow' ); is( $dur1->delta_nanoseconds, 200_300_400, 'test nanoseconds remainder' ); my $new1 = $dur1 - $dur2; is( $new1->delta_seconds, 2, 'seconds is positive' ); is( $new1->delta_nanoseconds, 700_300_400, 'nanoseconds remainder is negative' ); $new1->add( nanoseconds => 500_000_000 ); is( $new1->delta_seconds, 3, 'seconds are unaffected' ); is( $new1->delta_nanoseconds, 200_300_400, 'nanoseconds are back' ); my $new2 = $dur1 - $dur2; $new2->add( nanoseconds => 1_500_000_000 ); is( $new2->delta_seconds, 4, 'seconds go up' ); is( $new2->delta_nanoseconds, 200_300_400, 'nanoseconds are normalized' ); $new2->subtract( nanoseconds => 100_000_000 ); is( $new2->delta_nanoseconds, 100_300_400, 'sub nanoseconds works' ); my $new3 = $dur2 * 3; is( $new3->delta_seconds, 4, 'seconds normalized after multiplication' ); is( $new3->delta_nanoseconds, 500_000_000, 'nanoseconds normalized after multiplication' ); } { my $dur = DateTime::Duration->new( nanoseconds => -10 ); is( $dur->nanoseconds, 10, 'nanoseconds is 10' ); is( $dur->delta_nanoseconds, -10, 'delta_nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dur = DateTime::Duration->new( days => 0 ); is( $dur->delta_days, 0, 'delta_days is 0' ); ok( !$dur->is_positive, 'not positive' ); ok( $dur->is_zero, 'is zero' ); ok( !$dur->is_negative, 'not negative' ); } { eval { DateTime::Duration->new( months => 3 )->add( hours => -3 ) ->add( minutes => 1 ); }; ok( !$@, 'method chaining should work' ); } { my $min_1 = DateTime::Duration->new( minutes => 1 ); my $hour_1 = DateTime::Duration->new( hours => 1 ); my $min_59 = $hour_1 - $min_1; is( $min_59->delta_months, 0, 'delta_months is 0' ); is( $min_59->delta_days, 0, 'delta_days is 0' ); is( $min_59->delta_minutes, 59, 'delta_minutes is 59' ); is( $min_59->delta_seconds, 0, 'delta_seconds is 0' ); is( $min_59->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); my $min_neg_59 = $min_1 - $hour_1; is( $min_neg_59->delta_months, 0, 'delta_months is 0' ); is( $min_neg_59->delta_days, 0, 'delta_days is 0' ); is( $min_neg_59->delta_minutes, -59, 'delta_minutes is -59' ); is( $min_neg_59->delta_seconds, 0, 'delta_seconds is 0' ); is( $min_neg_59->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); } { my $dur1 = DateTime::Duration->new( minutes => 10 ); my $dur2 = DateTime::Duration->new( minutes => 20 ); eval { my $x = 1 if $dur1 <=> $dur2 }; like( $@, qr/does not overload comparison/, 'check error for duration comparison overload' ); is( DateTime::Duration->compare( $dur1, $dur2 ), -1, '20 minutes is greater than 10 minutes' ); is( DateTime::Duration->compare( $dur1, $dur2, DateTime->new( year => 1 ) ), -1, '20 minutes is greater than 10 minutes' ); } { my $dur1 = DateTime::Duration->new( days => 29 ); my $dur2 = DateTime::Duration->new( months => 1 ); my $base = DateTime->new( year => 2004 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), -1, '29 days is less than 1 month with base of 2004-01-01' ); $base = DateTime->new( year => 2004, month => 2 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), 0, '29 days is equal to 1 month with base of 2004-02-01' ); $base = DateTime->new( year => 2005, month => 2 ); is( DateTime::Duration->compare( $dur1, $dur2, $base ), 1, '29 days is greater than 1 month with base of 2005-02-01' ); } { my $dur1 = DateTime::Duration->new( nanoseconds => 1_000, seconds => 1, ); my $dur2 = $dur1->clone->subtract( nanoseconds => 5_000 ); is( $dur2->delta_seconds, 0, 'normalize nanoseconds to positive' ); is( $dur2->delta_nanoseconds, 999_996_000, 'normalize nanoseconds to positive' ); my $dur3 = $dur1->clone->subtract( nanoseconds => 6_000 ) ->subtract( nanoseconds => 999_999_000 ); is( $dur3->delta_seconds, 0, 'normalize nanoseconds to negative' ); is( $dur3->delta_nanoseconds, -4_000, 'normalize nanoseconds to negative' ); my $dur4 = DateTime::Duration->new( seconds => -1, nanoseconds => -2_500_000_000 ); is( $dur4->delta_seconds, -3, 'normalize many negative nanoseconds' ); is( $dur4->delta_nanoseconds, -500_000_000, 'normalize many negative nanoseconds' ); } { my $dur = DateTime::Duration->new( minutes => 30, seconds => -1, ); ok( !$dur->is_positive, 'is not positive' ); ok( !$dur->is_zero, 'is not zero' ); ok( !$dur->is_negative, 'is not negative' ); } { my $dur = DateTime::Duration->new( minutes => 50 ); is( $dur->in_units('years'), 0, 'in_units returns 0 for years' ); is( $dur->in_units('months'), 0, 'in_units returns 0 for months' ); is( $dur->in_units('days'), 0, 'in_units returns 0 for days' ); is( $dur->in_units('hours'), 0, 'in_units returns 0 for hours' ); is( $dur->in_units('seconds'), 0, 'in_units returns 0 for seconds' ); is( $dur->in_units('nanoseconds'), 0, 'in_units returns 0 for nanoseconds' ); } { local $TODO = 'reject fractional units in DateTime::Duration->new'; eval { DateTime::Duration->new( minutes => 50.2 ) }; like( $@, qr/is an integer/, 'cannot create a duration with fractional units' ); } done_testing(); DateTime-1.06/t/release-pp-22from-doy.t0000644000175000017500000000323412260573461017367 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my @last = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my @leap_last = @last; $leap_last[1]++; { my $doy = 15; foreach my $month ( 1 .. 12 ) { $doy += $last[ $month - 2 ] if $month > 1; my $dt = DateTime->from_day_of_year( year => 2001, day_of_year => $doy, time_zone => 'UTC', ); is( $dt->year, 2001, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, 15, 'check day' ); is( $dt->day_of_year, $doy, 'check day of year' ); } } { my $doy = 15; foreach my $month ( 1 .. 12 ) { $doy += $leap_last[ $month - 2 ] if $month > 1; my $dt = DateTime->from_day_of_year( year => 2004, day_of_year => $doy, time_zone => 'UTC', ); is( $dt->year, 2004, 'check year' ); is( $dt->month, $month, 'check month' ); is( $dt->day, 15, 'check day' ); is( $dt->day_of_year, $doy, 'check day of year' ); } } { eval { DateTime->from_day_of_year( year => 2001, day_of_year => 366 ) }; like( $@, qr/2001 is not a leap year/, "Cannot give day of year 366 in non-leap years" ); eval { DateTime->from_day_of_year( year => 2004, day_of_year => 366 ) }; ok( !$@, "Day of year 366 should work in leap years" ); } done_testing(); DateTime-1.06/t/release-pp-10subtract.t0000644000175000017500000003347612260573461017472 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); my $dur = $date2 - $date1; is( $dur->delta_months, 1, 'delta_months should be 1' ); is( $dur->delta_days, 2, 'delta_days should be 2' ); is( $dur->delta_minutes, 64, 'delta_minutes should be 64' ); is( $dur->delta_seconds, 20, 'delta_seconds should be 20' ); is( $dur->delta_nanoseconds, 999_999_995, 'delta_nanoseconds should be 999,999,995' ); is( $dur->years, 0, 'Years' ); is( $dur->months, 1, 'Months' ); is( $dur->weeks, 0, 'Weeks' ); is( $dur->days, 2, 'Days' ); is( $dur->hours, 1, 'Hours' ); is( $dur->minutes, 4, 'Minutes' ); is( $dur->seconds, 20, 'Seconds' ); is( $dur->nanoseconds, 999_999_995, 'Nanoseconds' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, time_zone => 'UTC' ); my $dur = $date1 - $date2; is( $dur->delta_months, -1, 'delta_months should be -1' ); is( $dur->delta_days, -2, 'delta_days should be -2' ); is( $dur->delta_minutes, -64, 'delta_minutes should be 64' ); is( $dur->delta_seconds, -21, 'delta_seconds should be 20' ); is( $dur->delta_nanoseconds, 0, 'delta_nanoseconds should be 0' ); is( $dur->years, 0, 'Years' ); is( $dur->months, 1, 'Months' ); is( $dur->weeks, 0, 'Weeks' ); is( $dur->days, 2, 'Days' ); is( $dur->hours, 1, 'Hours' ); is( $dur->minutes, 4, 'Minutes' ); is( $dur->seconds, 21, 'Seconds' ); is( $dur->nanoseconds, 0, 'Nanoseconds' ); $dur = $date1 - $date1; is( $dur->delta_days, 0, 'date minus itself should have no delta days' ); is( $dur->delta_seconds, 0, 'date minus itself should have no delta seconds' ); my $new = $date1 - DateTime::Duration->new( years => 2 ); is( $new->datetime, '1999-05-10T04:03:02', 'test - overloading' ); } { my $d = DateTime->new( year => 2001, month => 10, day => 19, hour => 5, minute => 1, second => 1, time_zone => 'UTC' ); my $d2 = $d->clone; $d2->subtract( weeks => 1, days => 1, hours => 1, minutes => 1, seconds => 1, ); ok( defined $d2, 'Defined' ); is( $d2->datetime, '2001-10-11T04:00:00', 'Subtract and get the right thing' ); } # based on bug report from Eric Cholet { my $dt1 = DateTime->new( year => 2003, month => 2, day => 9, hour => 0, minute => 0, second => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2003, month => 2, day => 7, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); my $dur1 = $dt1->subtract_datetime($dt2); is( $dur1->delta_days, 1, 'delta_days should be 1' ); is( $dur1->delta_seconds, 2, 'delta_seconds should be 2' ); my $dt3 = $dt2 + $dur1; is( DateTime->compare( $dt1, $dt3 ), 0, 'adding difference back to dt1 should give same datetime' ); my $dur2 = $dt2->subtract_datetime($dt1); is( $dur2->delta_days, -1, 'delta_days should be -1' ); is( $dur2->delta_seconds, -2, 'delta_seconds should be -2' ); my $dt4 = $dt1 + $dur2; is( DateTime->compare( $dt2, $dt4 ), 0, 'adding difference back to dt2 should give same datetime' ); } # test if the day changes because of a nanosecond subtract { my $dt = DateTime->new( year => 2001, month => 6, day => 12, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); $dt->subtract( nanoseconds => 1 ); is( $dt->nanosecond, 999999999, 'negative nanoseconds normalize ok' ); is( $dt->second, 59, 'seconds normalize ok' ); is( $dt->minute, 59, 'minutes normalize ok' ); is( $dt->hour, 23, 'hours normalize ok' ); is( $dt->day, 11, 'days normalize ok' ); } # test for a bug when nanoseconds were greater in earlier datetime { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 6, hour => 0, minute => 10, second => 0, nanosecond => 0, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'delta_days is 0' ); is( $dur->delta_minutes, 1439, 'delta_minutes is 1439' ); is( $dur->delta_seconds, 59, 'delta_seconds is 59' ); is( $dur->delta_nanoseconds, 999_999_999, 'delta_nanoseconds is 999,999,999' ); ok( $dur->is_positive, 'duration is positive' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 0, 'seconds is 0' ); is( $dur->delta_nanoseconds, -10, 'nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'delta_days is 0' ); is( $dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $dur->delta_seconds, 0, 'delta_seconds is 0' ); is( $dur->delta_nanoseconds, -10, 'nanoseconds is -10' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 59, 'seconds is 59' ); is( $dur->delta_nanoseconds, 999_999_990, 'nanoseconds is 999,999,990' ); ok( $dur->is_positive, 'duration is positive' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 10, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 10, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dur = $dt2 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, -59, 'seconds is -59' ); is( $dur->delta_nanoseconds, -999_999_990, 'nanoseconds is -999,999,990' ); ok( $dur->is_negative, 'duration is negative' ); } { my $dt1 = DateTime->new( year => 2000, month => 1, day => 5, hour => 0, minute => 11, second => 0, nanosecond => 20, time_zone => 'UTC', ); my $dur = $dt1 - $dt1; is( $dur->delta_days, 0, 'days is 0' ); is( $dur->delta_seconds, 0, 'seconds is 0' ); is( $dur->delta_nanoseconds, 0, 'nanoseconds is 0' ); ok( !$dur->is_positive, 'not positive' ); ok( !$dur->is_negative, 'not negative' ); } { my $dt1 = DateTime->new( year => 2003, month => 12, day => 31 ); my $dt2 = $dt1->clone->subtract( months => 1 ); is( $dt2->year, 2003, '2003-12-31 - 1 month = 2003-11-30' ); is( $dt2->month, 11, '2003-12-31 - 1 month = 2003-11-30' ); is( $dt2->day, 30, '2003-12-31 - 1 month = 2003-11-30' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, nanosecond => 12, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, nanosecond => 7, time_zone => 'UTC' ); my $dur = $date2->subtract_datetime_absolute($date1); is( $dur->delta_months, 0, 'delta_months is 0' ); is( $dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $dur->delta_seconds, 2_855_060, 'delta_seconds is 2,855,060' ); is( $dur->delta_nanoseconds, 999_999_995, 'delta_seconds is 999,999,995' ); } { my $date1 = DateTime->new( year => 2001, month => 5, day => 10, hour => 4, minute => 3, second => 2, time_zone => 'UTC' ); my $date2 = DateTime->new( year => 2001, month => 6, day => 12, hour => 5, minute => 7, second => 23, time_zone => 'UTC' ); my $dur = $date1->subtract_datetime_absolute($date2); is( $dur->delta_months, 0, 'delta_months is 0' ); is( $dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $dur->delta_seconds, -2_855_061, 'delta_seconds is -2,855,061' ); is( $dur->delta_nanoseconds, 0, 'delta_nanoseconds is 0' ); } { my $date1 = DateTime->new( year => 2003, month => 9, day => 30 ); my $date2 = DateTime->new( year => 2003, month => 10, day => 1 ); my $date3 = DateTime->new( year => 2003, month => 10, day => 31 ); my $date4 = DateTime->new( year => 2003, month => 11, day => 1 ); my $date5 = DateTime->new( year => 2003, month => 2, day => 28 ); my $date6 = DateTime->new( year => 2003, month => 3, day => 1 ); my $date7 = DateTime->new( year => 2003, month => 1, day => 31 ); my $date8 = DateTime->new( year => 2003, month => 2, day => 1 ); foreach my $p ( [ $date1, $date2 ], [ $date3, $date4 ], [ $date5, $date6 ], [ $date7, $date8 ], ) { my $pos_diff = $p->[1]->subtract_datetime( $p->[0] ); is( $pos_diff->delta_days, 1, "1 day diff at end of month" ); is( $pos_diff->delta_months, 0, "0 month diff at end of month" ); my $neg_diff = $p->[0]->subtract_datetime( $p->[1] ); is( $neg_diff->delta_days, -1, "-1 day diff at end of month" ); is( $neg_diff->delta_months, 0, "0 month diff at end of month" ); } } { my $dt1 = DateTime->new( year => 2005, month => 6, day => 11, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2005, month => 11, day => 10, time_zone => 'UTC', ); my $dur = $dt2->subtract_datetime($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 4, '4 months - smaller day > bigger day' ); is( $deltas{days}, 29, '29 days - smaller day > bigger day' ); is( $deltas{minutes}, 0, '0 minutes - smaller day > bigger day' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, '$dt1 + $dur == $dt2' ); # XXX - this does not work, nor will it ever work # is( $dt2->clone->subtract_duration($dur), $dt1, '$dt2 - $dur == $dt1' ); } { my $dt1 = DateTime->new( year => 2005, month => 6, day => 11, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 2005, month => 11, day => 10, time_zone => 'UTC', ); my $dur = $dt2->delta_days($dt1); my %deltas = $dur->deltas; is( $deltas{months}, 0, '30 months - smaller day > bigger day' ); is( $deltas{days}, 152, '152 days - smaller day > bigger day' ); is( $deltas{minutes}, 0, '0 minutes - smaller day > bigger day' ); is( DateTime->compare( $dt1->clone->add_duration($dur), $dt2 ), 0, '$dt1 + $dur == $dt2' ); is( DateTime->compare( $dt2->clone->subtract_duration($dur), $dt1 ), 0, '$dt2 - $dur == $dt1' ); } { my $dt = DateTime->new( year => 2012, month => 6, day => 30, time_zone => 'floating', ); my $default = $dt->clone()->subtract( months => 1 ); is( $default->format_cldr('yyyy-MM-dd'), '2012-05-31', 'default subtract uses preserve end_of_month mode' ); my $with_mode = $dt->clone()->subtract( months => 1, end_of_month => 'limit', ); is( $with_mode->format_cldr('yyyy-MM-dd'), '2012-05-30', 'set end_of_month mode to limit in call to subtract()' ); } done_testing(); DateTime-1.06/t/09greg.t0000644000175000017500000000600312260573461014526 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; # test _ymd2rd and _rd2ymd for various dates # 2 tests are performed for each date (on _ymd2rd and _rd2ymd) # dates are specified as [rd,year,month,day] for ( # min and max supported days (for 32-bit system) [ -2**31, -5879610, 6, 22 ], [ 2**31 - 1, 5879611, 7, 11 ], # some miscellaneous dates (these are actually epoch dates for # various calendars from Calendrical Calculations (1st ed) Table # 1.1) [ -1721425, -4713, 11, 24 ], [ -1373427, -3760, 9, 7 ], [ -1137142, -3113, 8, 11 ], [ -1132959, -3101, 1, 23 ], [ -963099, -2636, 2, 15 ], [ -1, 0, 12, 30 ], [ 1, 1, 1, 1 ], [ 2796, 8, 8, 27 ], [ 103605, 284, 8, 29 ], [ 226896, 622, 3, 22 ], [ 227015, 622, 7, 19 ], [ 654415, 1792, 9, 22 ], [ 673222, 1844, 3, 21 ] ) { is( join( '/', DateTime->_rd2ymd( $_->[0] ) ), join( '/', @{$_}[ 1 .. 3 ] ), $_->[0] . " \t=> " . join '/', @{$_}[ 1 .. 3 ] ); is( DateTime->_ymd2rd( @{$_}[ 1 .. 3 ] ), $_->[0], join( '/', @{$_}[ 1 .. 3 ] ) . " \t=> " . $_->[0] ); } # normalization tests for ( [ -1753469, -4797, -33, 1 ], [ -1753469, -4803, 39, 1 ], [ -1753105, -4796, -34, 28 ], [ -1753105, -4802, 38, 28 ] ) { is( DateTime->_ymd2rd( @{$_}[ 1 .. 3 ] ), $_->[0], join( '/', @{$_}[ 1 .. 3 ] ) . " \t=> " . $_->[0] . " (normalization)" ); } # test first and last day of each month from Jan -4800..Dec 4800 # this test bails after the first failure with a not ok. # if it comlpetes successfully, only one ok is issued. my @mlen = ( 0, 31, 0, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my ( $dno, $y, $m, $dno2, $y2, $m2, $d2, $mlen ) = ( -1753530, -4800, 1 ); while ( $y <= 4800 ) { # test $y,$m,1 ++$dno; $dno2 = DateTime->_ymd2rd( $y, $m, 1 ); if ( $dno != $dno2 ) { is( $dno2, $dno, "greg torture test: _ymd2rd($y,$m,1) should be $dno" ); last; } ( $y2, $m2, $d2 ) = DateTime->_rd2ymd($dno); if ( $y2 != $y || $m2 != $m || $d2 != 1 ) { is( "$y2/$m2/$d2", "$y/$m/1", "greg torture test: _rd2ymd($dno) should be $y/$m/1" ); last; } # test $y,$m,$mlen $mlen = $mlen[$m] || ( $y % 4 ? 28 : $y % 100 ? 29 : $y % 400 ? 28 : 29 ); $dno += $mlen - 1; $dno2 = DateTime->_ymd2rd( $y, $m, $mlen ); if ( $dno != $dno2 ) { is( $dno2, $dno, "greg torture test: _ymd2rd($y,$m,$mlen) should be $dno" ); last; } ( $y2, $m2, $d2 ) = DateTime->_rd2ymd($dno); if ( $y2 != $y || $m2 != $m || $d2 != $mlen ) { is( "$y2/$m2/$d2", "$y/$m/$mlen", "greg torture test: _rd2ymd($dno) should be $y/$m/$mlen" ); last; } # and on to the next month... if ( ++$m > 12 ) { $m = 1; ++$y; } } pass("greg torture test") if $y == 4801; done_testing(); DateTime-1.06/t/release-pp-04epoch.t0000644000175000017500000001137712260573461016740 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { # Tests creating objects from epoch time my $t1 = DateTime->from_epoch( epoch => 0 ); is( $t1->epoch, 0, "epoch should be 0" ); is( $t1->second, 0, "seconds are correct on epoch 0" ); is( $t1->minute, 0, "minutes are correct on epoch 0" ); is( $t1->hour, 0, "hours are correct on epoch 0" ); is( $t1->day, 1, "days are correct on epoch 0" ); is( $t1->month, 1, "months are correct on epoch 0" ); is( $t1->year, 1970, "year is correct on epoch 0" ); } { my $dt = DateTime->from_epoch( epoch => '3600' ); is( $dt->epoch, 3600, 'creation test from epoch = 3600 (compare to epoch)' ); } { # these tests could break if the time changed during the next three lines my $now = time; my $nowtest = DateTime->now(); my $nowtest2 = DateTime->from_epoch( epoch => $now ); is( $nowtest->hour, $nowtest2->hour, "Hour: Create without args" ); is( $nowtest->month, $nowtest2->month, "Month : Create without args" ); is( $nowtest->minute, $nowtest2->minute, "Minute: Create without args" ); } { my $epochtest = DateTime->from_epoch( epoch => '997121000' ); is( $epochtest->epoch, 997121000, "epoch method returns correct value" ); is( $epochtest->hour, 18, "hour" ); is( $epochtest->min, 3, "minute" ); } { my $dt = DateTime->from_epoch( epoch => 3600 ); $dt->set_time_zone('+0100'); is( $dt->epoch, 3600, 'epoch is 3600' ); is( $dt->hour, 2, 'hour is 2' ); } { my $dt = DateTime->new( year => 1970, month => 1, day => 1, hour => 0, time_zone => '-0100', ); is( $dt->epoch, 3600, 'epoch is 3600' ); } { my $dt = DateTime->from_epoch( epoch => 0, time_zone => '-0100', ); is( $dt->offset, -3600, 'offset should be -3600' ); is( $dt->epoch, 0, 'epoch is 0' ); } # Adding/subtracting should affect epoch { my $expected = 1049160602; my $epochtest = DateTime->from_epoch( epoch => $expected ); is( $epochtest->epoch, $expected, "epoch method returns correct value ($expected)" ); is( $epochtest->hour, 1, "hour" ); is( $epochtest->min, 30, "minute" ); $epochtest->add( hours => 2 ); $expected += 2 * 60 * 60; is( $epochtest->hour, 3, "adjusted hour" ); is( $epochtest->epoch, $expected, "epoch method returns correct adjusted value ($expected)" ); } { my $dt = DateTime->from_epoch( epoch => 0.5 ); is( $dt->nanosecond, 500_000_000, 'nanosecond should be 500,000,000 with 0.5 as epoch' ); is( $dt->epoch, 0, 'epoch should be 0' ); is( $dt->hires_epoch, 0.5, 'hires_epoch should be 0.5' ); } { my $dt = DateTime->from_epoch( epoch => 0.1234567891 ); is( $dt->nanosecond, 123_456_789, 'nanosecond should be an integer ' ); } { is( DateTime->new( year => 1904 )->epoch, -2082844800, "epoch should work back to at least 1904" ); my $dt = DateTime->from_epoch( epoch => -2082844800 ); is( $dt->year, 1904, 'year should be 1904' ); is( $dt->month, 1, 'month should be 1904' ); is( $dt->day, 1, 'day should be 1904' ); } { for my $pair ( [ 1 => -62135596800 ], [ 99 => -59042995200 ], [ 100 => -59011459200 ], [ 999 => -30641760000 ], ) { my ( $year, $epoch ) = @{$pair}; is( DateTime->new( year => $year )->epoch, $epoch, "epoch for $year is $epoch" ); } } { package Number::Overloaded; use overload "0+" => sub { $_[0]->{num} }, fallback => 1; sub new { bless { num => $_[1] }, $_[0] } } { my $time = Number::Overloaded->new(12345); my $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, 12345, 'can pass overloaded object to from_epoch' ); $time = Number::Overloaded->new(12345.1234); $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, 12345, 'decimal epoch in overloaded object' ); } { my $time = Number::Overloaded->new(-12345); my $dt = DateTime->from_epoch( epoch => $time ); is( $dt->epoch, -12345, 'negative epoch in overloaded object' ); } { my @tests = ( 'asldkjlkjd', '1234 foo', 'adlkj 1234', ); for my $test (@tests) { eval { DateTime->from_epoch( epoch => $test ); }; like( $@, qr/did not pass regex check/, qq{'$test' is not a valid epoch value} ); } } done_testing(); DateTime-1.06/t/release-pp-44set-formatter.t0000644000175000017500000000143112260573461020430 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::Fatal; use Test::More; use DateTime; use overload; my $dt = DateTime->now; like( exception { $dt->set_formatter('Invalid::Formatter') }, qr/can format_datetime/, 'set_format is validated' ); SKIP: { skip 'This test requires DateTime::Format::Strptime 1.2000+', 1 unless eval "use DateTime::Format::Strptime 1.2000"; my $formatter = DateTime::Format::Strptime->new( pattern => '%Y%m%d %T', ); is( $dt->set_formatter($formatter), $dt, 'set_formatter returns the datetime object' ); } done_testing(); DateTime-1.06/t/release-pp-33seconds-offset.t0000644000175000017500000000426512260573461020564 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 58, second => 59, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:29', '+00:00:30 leap second T-61' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 29, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:59', '+00:00:30 leap second T-31' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-06-30T23:59:60', '+00:00:30 leap second T-30' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 31, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:00', '+00:00:30 leap second T-29' ); } { local $TODO = 'offsets with seconds are broken near leap seconds'; my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:30', '+00:00:30 leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); $dt->set_time_zone('+00:00:30'); is( $dt->datetime, '1997-07-01T00:00:30', '+00:00:30 leap second T+1' ); } done_testing(); DateTime-1.06/t/17set-return.t0000644000175000017500000000175612260573461015723 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; use DateTime::Duration; { my $dt = DateTime->new( year => 2008, month => 2, day => 28 ); my $du = DateTime::Duration->new( years => 1 ); my $p; $p = $dt->set( year => 1882 ); is( DateTime->compare( $p, $dt ), 0, "set() returns self" ); $p = $dt->set_time_zone('Australia/Sydney'); is( DateTime->compare( $p, $dt ), 0, "set_time_zone() returns self" ); $p = $dt->add_duration($du); is( DateTime->compare( $p, $dt ), 0, "add_duration() returns self" ); $p = $dt->add( years => 2 ); is( DateTime->compare( $p, $dt ), 0, "add() returns self" ); $p = $dt->subtract_duration($du); is( DateTime->compare( $p, $dt ), 0, "subtract_duration() returns self" ); $p = $dt->subtract( years => 3 ); is( DateTime->compare( $p, $dt ), 0, "subtract() returns self" ); $p = $dt->truncate( to => 'day' ); is( DateTime->compare( $p, $dt ), 0, "truncate() returns self" ); } done_testing(); DateTime-1.06/t/release-pp-17set-return.t0000644000175000017500000000224212260573461017745 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; use DateTime::Duration; { my $dt = DateTime->new( year => 2008, month => 2, day => 28 ); my $du = DateTime::Duration->new( years => 1 ); my $p; $p = $dt->set( year => 1882 ); is( DateTime->compare( $p, $dt ), 0, "set() returns self" ); $p = $dt->set_time_zone('Australia/Sydney'); is( DateTime->compare( $p, $dt ), 0, "set_time_zone() returns self" ); $p = $dt->add_duration($du); is( DateTime->compare( $p, $dt ), 0, "add_duration() returns self" ); $p = $dt->add( years => 2 ); is( DateTime->compare( $p, $dt ), 0, "add() returns self" ); $p = $dt->subtract_duration($du); is( DateTime->compare( $p, $dt ), 0, "subtract_duration() returns self" ); $p = $dt->subtract( years => 3 ); is( DateTime->compare( $p, $dt ), 0, "subtract() returns self" ); $p = $dt->truncate( to => 'day' ); is( DateTime->compare( $p, $dt ), 0, "truncate() returns self" ); } done_testing(); DateTime-1.06/t/release-pp-21bad-params.t0000644000175000017500000000400312260573461017634 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; foreach my $p ( { year => 2000, month => 13 }, { year => 2000, month => 0 }, { year => 2000, month => 12, day => 32 }, { year => 2000, month => 12, day => 0 }, { year => 2000, month => 12, day => 10, hour => -1 }, { year => 2000, month => 12, day => 10, hour => 24 }, { year => 2000, month => 12, day => 10, hour => 12, minute => -1 }, { year => 2000, month => 12, day => 10, hour => 12, minute => 60 }, { year => 2000, month => 12, day => 10, hour => 12, second => -1 }, { year => 2000, month => 12, day => 10, hour => 12, second => 62 }, ) { eval { DateTime->new(%$p) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to new()" ); eval { DateTime->new( year => 2000 )->set(%$p) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to set()" ); } { eval { DateTime->last_day_of_month( year => 2000, month => 13 ) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to last_day_of_month()" ); eval { DateTime->last_day_of_month( year => 2000, month => 0 ) }; like( $@, qr/did not pass/, "Parameters outside valid range should fail in call to last_day_of_month()" ); } { eval { DateTime->new( year => 2000, month => 4, day => 31 ) }; like( $@, qr/valid day of month/i, "Day past last day of month should fail" ); eval { DateTime->new( year => 2001, month => 2, day => 29 ) }; like( $@, qr/valid day of month/i, "Day past last day of month should fail" ); eval { DateTime->new( year => 2000, month => 2, day => 29 ) }; ok( !$@, "February 29 should be valid in leap years" ); } done_testing(); DateTime-1.06/t/release-pp-42duration-class.t0000644000175000017500000000136112260573461020564 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; { package DateTime::MySubclass; use base 'DateTime'; sub duration_class {'DateTime::Duration::MySubclass'} package DateTime::Duration::MySubclass; use base 'DateTime::Duration'; sub is_my_subclass {1} } my $dt = DateTime::MySubclass->now; my $delta = $dt - $dt; isa_ok( $delta, 'DateTime::Duration::MySubclass' ); isa_ok( $dt + $delta, 'DateTime::MySubclass' ); my $delta_days = $dt->delta_days($dt); isa_ok( $delta_days, 'DateTime::Duration::MySubclass' ); done_testing(); DateTime-1.06/t/28dow.t0000644000175000017500000000300212260573461014370 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 0 ); is( $dt->year, 0, 'year is 0' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 6, 'day of week is 6' ); } { my $dt = DateTime->new( year => 0, month => 12, day => 31 ); is( $dt->year, 0, 'year is 0' ); is( $dt->month, 12, 'month is 12' ); is( $dt->day, 31, 'day is 31' ); is( $dt->day_of_week, 7, 'day of week is 7' ); } { my $dt = DateTime->new( year => -1 ); is( $dt->year, -1, 'year is -1' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 5, 'day of week is 5' ); } { my $dt = DateTime->new( year => 1 ); is( $dt->year, 1, 'year is 1' ); is( $dt->month, 1, 'month is 1' ); is( $dt->day, 1, 'day is 1' ); is( $dt->day_of_week, 1, 'day of week is 1' ); } { my $dow = 1; for my $year ( 1, 0, -1 ) { my $days_in_year = $year ? 365 : 366; for my $doy ( reverse 1 .. $days_in_year ) { is( DateTime->from_day_of_year( year => $year, day_of_year => $doy, )->day_of_week, $dow, "day of week for day $doy of year $year is $dow" ); $dow--; $dow = 7 if $dow == 0; } } } done_testing(); DateTime-1.06/t/40leap-years.t0000644000175000017500000000042412260573461015640 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; for my $y ( 0, 400, 2000, 2004 ) { ok( DateTime->_is_leap_year($y), "$y is a leap year" ); } for my $y ( 1, 100, 1900, 2133 ) { ok( !DateTime->_is_leap_year($y), "$y is not a leap year" ); } done_testing(); DateTime-1.06/t/release-eol.t0000644000175000017500000000047612260573461015636 0ustar autarchautarch BEGIN { unless ($ENV{RELEASE_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for release candidate testing'); } } use strict; use warnings; use Test::More; eval 'use Test::EOL'; plan skip_all => 'Test::EOL required' if $@; all_perl_files_ok({ trailing_whitespace => 1 }); DateTime-1.06/t/release-pp-20infinite.t0000644000175000017500000001036512260573461017441 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; use DateTime::Locale; my $pos = DateTime::Infinite::Future->new; my $neg = DateTime::Infinite::Past->new; my $posinf = DateTime::INFINITY; my $neginf = DateTime::NEG_INFINITY; my $nan_string = DateTime::NAN; # infinite date math { ok( $pos->is_infinite, 'positive infinity should be infinite' ); ok( $neg->is_infinite, 'negative infinity should be infinite' ); ok( !$pos->is_finite, 'positive infinity should not be finite' ); ok( !$neg->is_finite, 'negative infinity should not be finite' ); # that's a long time ago! my $long_ago = DateTime->new( year => -100_000 ); ok( $neg < $long_ago, 'negative infinity is really negative' ); my $far_future = DateTime->new( year => 100_000 ); ok( $pos > $far_future, 'positive infinity is really positive' ); ok( $pos > $neg, 'positive infinity is bigger than negative infinity' ); my $pos_dur = $pos - $far_future; ok( $pos_dur->is_positive, 'infinity - normal = infinity' ); my $pos2 = $long_ago + $pos_dur; ok( $pos2 == $pos, 'normal + infinite duration = infinity' ); my $neg_dur = $far_future - $pos; ok( $neg_dur->is_negative, 'normal - infinity = neg infinity' ); my $neg2 = $long_ago + $neg_dur; ok( $neg2 == $neg, 'normal + neg infinite duration = neg infinity' ); my $dur = $pos - $pos; my %deltas = $dur->deltas; my @compare = qw( days seconds nanoseconds ); foreach (@compare) { # NaN != NaN (but should stringify the same) is( $deltas{$_} . '', $nan_string, "infinity - infinity = nan ($_)" ); } my $new_pos = $pos->clone->add( days => 10 ); ok( $new_pos == $pos, "infinity + normal duration = infinity" ); my $new_pos2 = $pos->clone->subtract( days => 10 ); ok( $new_pos2 == $pos, "infinity - normal duration = infinity" ); ok( $pos == $posinf, "infinity (datetime) == infinity (number)" ); ok( $neg == $neginf, "neg infinity (datetime) == neg infinity (number)" ); } # This could vary across platforms my $pos_as_string = $posinf . ''; my $neg_as_string = $neginf . ''; # formatting { foreach my $m ( qw( year month day hour minute second microsecond millisecond nanosecond ) ) { is( $pos->$m() . '', $pos_as_string, "pos $m is $pos_as_string" ); is( $neg->$m() . '', $neg_as_string, "neg $m is $pos_as_string" ); } } { my $now = DateTime->now; is( DateTime->compare( $pos, $now ), 1, 'positive infinite is greater than now' ); is( DateTime->compare( $neg, $now ), -1, 'negative infinite is less than now' ); } { my $now = DateTime->now; my $pos2 = $pos + DateTime::Duration->new( months => 1 ); ok( $pos == $pos2, "infinity (datetime) == infinity (datetime)" ); } { my $now = DateTime->now; my $neg2 = $neg + DateTime::Duration->new( months => 1 ); ok( $neg == $neg2, "-infinity (datetime) == -infinity (datetime)" ); } { cmp_ok( "$pos", 'eq', $posinf, 'stringified infinity (datetime) eq infinity (number)' ); cmp_ok( "$neg", 'eq', $neginf, 'stringified neg infinity (datetime) eq neg infinity (number)' ); } { is( $pos->day_name(), undef, 'day_name returns undef', ); is( $pos->am_or_pm(), undef, 'am_or_pm returns undef' ); is( $pos->locale()->name(), 'Fake locale for Infinite DateTime objects', 'locale name for fake locale' ); is( $pos->locale()->datetime_format_long(), DateTime::Locale->load('en_US')->datetime_format_long(), 'fake locale returns same format as en_US' ); } done_testing(); DateTime-1.06/t/release-pp-19leap-second.t0000644000175000017500000007277312260573461020051 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::Fatal; use Test::More; use DateTime; # tests using UTC times { # 1972-06-30T23:58:20 UTC my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); my $t1 = $t->clone; is( $t->year, 1972, "year is 1972" ); is( $t->minute, 58, "minute is 58" ); is( $t->second, 20, "second is 20" ); # 1972-06-30T23:59:20 UTC $t->add( seconds => 60 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 59, "minute is 59" ); is( $t->second, 20, "second is 20" ); # 1972-07-01T00:00:19 UTC $t->add( seconds => 60 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 0, "minute is 0" ); is( $t->second, 19, "second is 19" ); # 1972-06-30T23:59:60 UTC $t->subtract( seconds => 20 ); is( $t->year, 1972, "year is 1972" ); is( $t->minute, 59, "minute is 59" ); is( $t->second, 60, "second is 60" ); is( $t->{utc_rd_secs}, 86400, "utc_rd_secs is 86400" ); # subtract_datetime my $t2 = DateTime->new( year => 1972, month => 07, day => 1, hour => 0, minute => 0, second => 20, time_zone => 'UTC', ); my $dur = $t2->subtract_datetime_absolute($t1); is( $dur->delta_seconds, 121, "delta_seconds is 121" ); $dur = $t1->subtract_datetime_absolute($t2); is( $dur->delta_seconds, -121, "delta_seconds is -121" ); } { # tests using floating times # a floating time has no leap seconds my $t = DateTime->new( year => 1971, month => 12, day => 31, hour => 23, minute => 58, second => 20, time_zone => 'floating', ); my $t1 = $t->clone; $t->add( seconds => 60 ); is( $t->minute, 59, "min" ); is( $t->second, 20, "sec" ); $t->add( seconds => 60 ); is( $t->minute, 0, "min" ); is( $t->second, 20, "sec" ); # subtract_datetime, using floating times my $t2 = DateTime->new( year => 1972, month => 1, day => 1, hour => 0, minute => 0, second => 20, time_zone => 'floating', ); my $dur = $t2->subtract_datetime_absolute($t1); is( $dur->delta_seconds, 120, "delta_seconds is 120" ); $dur = $t1->subtract_datetime_absolute($t2); is( $dur->delta_seconds, -120, "delta_seconds is -120" ); } { # tests using time zones # leap seconds occur during _UTC_ midnight # 1972-06-30 20:58:20 -03:00 = 1972-06-30 23:58:20 UTC my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => 'America/Sao_Paulo', ); $t->add( seconds => 60 ); is( $t->datetime, '1972-06-30T20:59:20', "normal add" ); is( $t->minute, 59, "min" ); is( $t->second, 20, "sec" ); $t->add( seconds => 60 ); is( $t->datetime, '1972-06-30T21:00:19', "add over a leap second" ); is( $t->minute, 0, "min" ); is( $t->second, 19, "sec" ); $t->subtract( seconds => 20 ); is( $t->datetime, '1972-06-30T20:59:60', "subtract over a leap second" ); is( $t->minute, 59, "min" ); is( $t->second, 60, "sec" ); is( $t->{utc_rd_secs}, 86400, "rd_sec" ); } # test that we can set second to 60 (negative offset) { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 59, second => 60, time_zone => 'America/Sao_Paulo', ); is( $t->second, 60, 'second set to 60 in constructor' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 21, minute => 0, second => 0, time_zone => 'America/Sao_Paulo', ); is( $t->second, 0, 'datetime just after leap second' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 21, minute => 0, second => 1, time_zone => 'America/Sao_Paulo', ); is( $t->second, 1, 'datetime two seconds after leap second' ); } # test that we can set second to 60 (negative offset) { eval { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100', ); is( $t->second, 60, 'second set to 60 in constructor, negative TZ offset' ); }; if ($@) { ok( 0, "Error setting second to 60 in constructor: $@" ); } } # test that we can set second to 60 (positive offset) { eval { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100', ); is( $t->second, 60, 'second set to 60 in constructor, positive TZ offset' ); }; if ($@) { ok( 0, "Error setting second to 60 in constructor, positive TZ offset: $@" ); } } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100', ); is( $t->second, 59, 'datetime just before leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100', ); is( $t->second, 0, 'datetime just after leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 1, minute => 0, second => 1, time_zone => '+0100', ); is( $t->second, 1, 'datetime two seconds after leap second' ); } { my $t = DateTime->new( year => 1972, month => 7, day => 1, hour => 0, minute => 0, second => 29, time_zone => '+00:00:30', ); is( $t->second, 29, 'time zone +00:00:30 and leap seconds, second value' ); is( $t->minute, 0, 'time zone +00:00:30 and leap seconds, minute value' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 59, second => 60, time_zone => 'America/Sao_Paulo', ); $t->set_time_zone('UTC'); is( $t->second, 60, 'second after setting time zone' ); is( $t->hour, 23, 'hour after setting time zone' ); $t->add( days => 1 ); is( $t->datetime, '1972-07-02T00:00:00', 'add 1 day starting on leap second' ); $t->subtract( days => 1 ); is( $t->datetime, '1972-07-01T00:00:00', 'add and subtract 1 day starting on leap second' ); is( $t->leap_seconds, 1, 'datetime has 1 leap second' ); } { my $t = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); is( $t->epoch, 78796799, 'epoch just before first leap second is 78796799' ); $t->add( seconds => 1 ); is( $t->epoch, 78796800, 'epoch of first leap second is 78796800' ); $t->add( seconds => 1 ); is( $t->epoch, 78796800, 'epoch of first second after first leap second is 78796700' ); } { my $dt = DateTime->new( year => 2003, time_zone => 'UTC' ); is( $dt->leap_seconds, 22, 'datetime has 22 leap seconds' ); } { my $dt = DateTime->new( year => 2003, time_zone => 'floating' ); is( $dt->leap_seconds, 0, 'floating datetime has 0 leap seconds' ); } # date math across leap seconds distinguishes between minutes and second { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( minutes => 1 ); is( $t->year, 1973, '+1 minute, year == 1973' ); is( $t->month, 1, '+1 minute, month == 1' ); is( $t->day, 1, '+1 minute, day == 1' ); is( $t->hour, 0, '+1 minute, hour == 0' ); is( $t->minute, 0, '+1 minute, minute == 0' ); is( $t->second, 30, '+1 minute, second == 30' ); } { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( seconds => 60 ); is( $t->year, 1973, '+60 seconds, year == 1973' ); is( $t->month, 1, '+60 seconds, month == 1' ); is( $t->day, 1, '+60 seconds, day == 1' ); is( $t->hour, 0, '+60 seconds, hour == 0' ); is( $t->minute, 0, '+60 seconds, minute == 0' ); is( $t->second, 29, '+60 seconds, second == 29' ); } { my $t = DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 30, time_zone => 'UTC' ); $t->add( minutes => 1, seconds => 1 ); is( $t->year, 1973, '+1 minute & 1 second, year == 1973' ); is( $t->month, 1, '+1 minute & 1 second, month == 1' ); is( $t->day, 1, '+1 minute & 1 second, day == 1' ); is( $t->hour, 0, '+1 minute & 1 second, hour == 0' ); is( $t->minute, 0, '+1 minute & 1 second, minute == 0' ); is( $t->second, 31, '+1 minute & 1 second, second == 31' ); } { eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 61, time_zone => 'UTC', ); }; ok( $@, "Cannot give second of 61 except when it matches a leap second" ); eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 58, second => 60, time_zone => 'UTC', ); }; ok( $@, "Cannot give second of 60 except when it matches a leap second" ); eval { DateTime->new( year => 1972, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'floating', ); }; ok( $@, "Cannot give second of 60 with floating time zone" ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 58, second => 50, time_zone => 'UTC', ); my $pos_dur = $dt1 - $dt2; is( $pos_dur->delta_minutes, 1, 'delta_minutes is 1' ); is( $pos_dur->delta_seconds, 10, 'delta_seconds is 10' ); my $neg_dur = $dt2 - $dt1; is( $neg_dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $neg_dur->delta_seconds, -10, 'delta_seconds is -10' ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 55, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 58, second => 50, time_zone => 'UTC', ); my $pos_dur = $dt1 - $dt2; is( $pos_dur->delta_minutes, 1, 'delta_minutes is 1' ); is( $pos_dur->delta_seconds, 5, 'delta_seconds is 5' ); my $neg_dur = $dt2 - $dt1; is( $neg_dur->delta_minutes, -1, 'delta_minutes is -1' ); is( $neg_dur->delta_seconds, -5, 'delta_seconds is -5' ); } { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 55, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1999, month => 1, day => 1, hour => 0, minute => 0, second => 30, time_zone => 'UTC', ); my $pos_dur = $dt2 - $dt1; is( $pos_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $pos_dur->delta_seconds, 36, 'delta_seconds is 36' ); my $neg_dur = $dt1 - $dt2; is( $neg_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $neg_dur->delta_seconds, -36, 'delta_seconds is -36' ); } # catch off-by-one when carrying a leap second { my $dt1 = DateTime->new( year => 1998, month => 12, day => 31, hour => 23, minute => 59, second => 0, nanosecond => 1, time_zone => 'UTC', ); my $dt2 = DateTime->new( year => 1999, month => 1, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC', ); my $pos_dur = $dt2 - $dt1; is( $pos_dur->delta_minutes, 0, 'delta_minutes is 0' ); is( $pos_dur->delta_seconds, 60, 'delta_seconds is 60' ); is( $pos_dur->delta_nanoseconds, 999999999, 'delta_nanoseconds is 999...' ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-02T23:58:20', "add two days crossing a leap second (UTC)" ); } # a bunch of tests that math works across a leap second for various time zones { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-02T20:58:20', "add two days crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( days => 2 ); is( $dt->datetime, '1972-07-03T02:58:20', "add two days crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 48 hours crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 48 hours crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( hours => 48 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 48 hours crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 2880 minutes crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 2880 minutes crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( minutes => 2880 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 2880 minutes crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-02T23:58:20', "add 172801 seconds crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-02T20:58:20', "add 172801 seconds crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->add( seconds => 172801 ); is( $dt->datetime, '1972-07-03T02:58:20', "add 172801 seconds crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract two days crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract two days crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( days => 2 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract two days crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 48 hours crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 48 hours crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( hours => 48 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 48 hours crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 2880 minutes crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 2880 minutes crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( minutes => 2880 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 2880 minutes crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 23, minute => 58, second => 20, time_zone => 'UTC', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-06-30T23:58:20', "subtract 172801 seconds crossing a leap second (UTC)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 2, hour => 20, minute => 58, second => 20, time_zone => '-0300', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-06-30T20:58:20', "subtract 172801 seconds crossing a leap second (-0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 3, hour => 2, minute => 58, second => 20, time_zone => '+0300', ); $dt->subtract( seconds => 172801 ); is( $dt->datetime, '1972-07-01T02:58:20', "subtract 172801 seconds crossing a leap second (+0300)" ); } { my $dt = DateTime->new( year => 1972, month => 7, day => 1, hour => 12, minute => 58, second => 20, time_zone => '+1200', ); $dt->set_time_zone('-1200'); is( $dt->datetime, '1972-06-30T12:58:20', "24 hour time zone change near leap second" ); } { my $dt = DateTime->new( year => 1972, month => 6, day => 30, hour => 12, minute => 58, second => 20, time_zone => '-1200', ); $dt->set_time_zone('+1200'); is( $dt->datetime, '1972-07-01T12:58:20', "24 hour time zone change near leap second" ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 59, second => 59, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time leap second T-1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 59, second => 60, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T00:59:60', 'local time leap second T-0' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 1, minute => 0, second => 0, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T01:00:00', 'local time leap second T+1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 23, minute => 59, second => 59, time_zone => '+0100' ); is( $dt->datetime, '1997-07-01T23:59:59', 'local time end of leap second day' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T22:59:59', 'UTC time end of leap second day' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 22, minute => 59, second => 59, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T22:59:59', '-0100 time leap second T-1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 22, minute => 59, second => 60, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T22:59:60', '-0100 time leap second T-0' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 0, second => 0, time_zone => '-0100' ); is( $dt->datetime, '1997-06-30T23:00:00', '-0100 time leap second T+1' ); $dt->set_time_zone('UTC'); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:60', '+0100 time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T01:00:00', '+0100 time leap second T+1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time end of leap second day' ); $dt->set_time_zone('+0100'); is( $dt->datetime, '1997-07-01T00:59:59', '+0100 time end of leap second day' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 59, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:59', 'UTC time leap second T-1' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T22:59:59', '-0100 time leap second T-1' ); } { my $dt = DateTime->new( year => 1997, month => 6, day => 30, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->datetime, '1997-06-30T23:59:60', 'UTC time leap second T-0' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T22:59:60', '-0100 time leap second T-0' ); } { my $dt = DateTime->new( year => 1997, month => 7, day => 1, hour => 0, minute => 0, second => 0, time_zone => 'UTC' ); is( $dt->datetime, '1997-07-01T00:00:00', 'UTC time leap second T+1' ); $dt->set_time_zone('-0100'); is( $dt->datetime, '1997-06-30T23:00:00', '-0100 time leap second T+1' ); } { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 60, time_zone => 'UTC' ); is( $dt->second, 60, 'leap second at end of 2005 is allowed' ); } { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T23:59:60', 'dt is 2005-12-31T23:59:60' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2006-01-01T00:00:00', 'dt is 2006-01-01T00:00:00' ); } # bug reported by Mike Schilli - addition got "stuck" at 60 seconds # and never rolled over to the following day { my $dt = DateTime->new( year => 2005, month => 12, day => 31, hour => 23, minute => 59, second => 59, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T23:59:60', 'dt is 2005-12-31T23:59:60' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2006-01-01T00:00:00', 'dt is 2006-01-01T00:00:00' ); } # and this makes sure that fix for the above bug didn't break # _non-leapsecond_ second addition { my $dt = DateTime->new( year => 2005, month => 12, day => 30, hour => 23, minute => 59, second => 58, time_zone => 'UTC', ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-30T23:59:59', 'dt is 2005-12-30T23:59:59' ); $dt->add( seconds => 1 ); is( $dt->datetime, '2005-12-31T00:00:00', 'dt is 2005-12-31T00:00:00' ); } { for my $date ( [ 1972, 6, 30 ], [ 1972, 12, 31 ], [ 1973, 12, 31 ], [ 1974, 12, 31 ], [ 1975, 12, 31 ], [ 1976, 12, 31 ], [ 1977, 12, 31 ], [ 1978, 12, 31 ], [ 1979, 12, 31 ], [ 1981, 6, 30 ], [ 1982, 6, 30 ], [ 1983, 6, 30 ], [ 1985, 6, 30 ], [ 1987, 12, 31 ], [ 1989, 12, 31 ], [ 1990, 12, 31 ], [ 1992, 6, 30 ], [ 1993, 6, 30 ], [ 1994, 6, 30 ], [ 1995, 12, 31 ], [ 1997, 6, 30 ], [ 1998, 12, 31 ], [ 2005, 12, 31 ], [ 2008, 12, 31 ], [ 2012, 6, 30 ], ) { my $formatted = join '-', map { sprintf( '%02d', $_ ) } @{$date}; is( exception { DateTime->new( year => $date->[0], month => $date->[1], day => $date->[2], hour => 23, minute => 59, second => 60, time_zone => 'UTC', ); }, undef, "We can make a DateTime object for the leap second on $formatted" ); } } done_testing(); DateTime-1.06/t/03components.t0000644000175000017500000002572212260573461015772 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my $d = DateTime->new( year => 2001, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => 'UTC', ); is( $d->year, 2001, '->year' ); is( $d->ce_year, 2001, '->ce_year' ); is( $d->month, 7, '->month' ); is( $d->quarter, 3, '->quarter' ); is( $d->month_0, 6, '->month_0' ); is( $d->month_name, 'July', '->month_name' ); is( $d->month_abbr, 'Jul', '->month_abbr' ); is( $d->day_of_month, 5, '->day_of_month' ); is( $d->day_of_month_0, 4, '->day_of_month_0' ); is( $d->day, 5, '->day' ); is( $d->day_0, 4, '->day_0' ); is( $d->mday, 5, '->mday' ); is( $d->mday_0, 4, '->mday_0' ); is( $d->mday, 5, '->mday' ); is( $d->mday_0, 4, '->mday_0' ); is( $d->hour, 2, '->hour' ); is( $d->hour_1, 2, '->hour_1' ); is( $d->hour_12, 2, '->hour_12' ); is( $d->hour_12_0, 2, '->hour_12_0' ); is( $d->minute, 12, '->minute' ); is( $d->min, 12, '->min' ); is( $d->second, 50, '->second' ); is( $d->sec, 50, '->sec' ); is( $d->day_of_year, 186, '->day_of_year' ); is( $d->day_of_year_0, 185, '->day_of_year' ); is( $d->day_of_quarter, 5, '->day_of_quarter' ); is( $d->doq, 5, '->doq' ); is( $d->day_of_quarter_0, 4, '->day_of_quarter_0' ); is( $d->doq_0, 4, '->doq_0' ); is( $d->day_of_week, 4, '->day_of_week' ); is( $d->day_of_week_0, 3, '->day_of_week_0' ); is( $d->week_of_month, 1, '->week_of_month' ); is( $d->weekday_of_month, 1, '->weekday_of_month' ); is( $d->wday, 4, '->wday' ); is( $d->wday_0, 3, '->wday_0' ); is( $d->dow, 4, '->dow' ); is( $d->dow_0, 3, '->dow_0' ); is( $d->day_name, 'Thursday', '->day_name' ); is( $d->day_abbr, 'Thu', '->day_abrr' ); is( $d->ymd, '2001-07-05', '->ymd' ); is( $d->ymd('!'), '2001!07!05', "->ymd('!')" ); is( $d->date, '2001-07-05', '->ymd' ); is( $d->mdy, '07-05-2001', '->mdy' ); is( $d->mdy('!'), '07!05!2001', "->mdy('!')" ); is( $d->dmy, '05-07-2001', '->dmy' ); is( $d->dmy('!'), '05!07!2001', "->dmy('!')" ); is( $d->hms, '02:12:50', '->hms' ); is( $d->hms('!'), '02!12!50', "->hms('!')" ); is( $d->time, '02:12:50', '->hms' ); is( $d->datetime, '2001-07-05T02:12:50', '->datetime' ); is( $d->iso8601, '2001-07-05T02:12:50', '->iso8601' ); is( $d->is_leap_year, 0, '->is_leap_year' ); is( $d->era_abbr, 'AD', '->era_abbr' ); is( $d->era, $d->era_abbr, '->era (deprecated)' ); is( $d->era_name, 'Anno Domini', '->era_abbr' ); is( $d->quarter_abbr, 'Q3', '->quarter_abbr' ); is( $d->quarter_name, '3rd quarter', '->quarter_name' ); my $leap_d = DateTime->new( year => 2004, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => 'UTC', ); is( $leap_d->is_leap_year, 1, '->is_leap_year' ); my $sunday = DateTime->new( year => 2003, month => 1, day => 26, time_zone => 'UTC', ); is( $sunday->day_of_week, 7, "Sunday is day 7" ); my $monday = DateTime->new( year => 2003, month => 1, day => 27, time_zone => 'UTC', ); is( $monday->day_of_week, 1, "Monday is day 1" ); { # time zone offset should not affect the values returned my $d = DateTime->new( year => 2001, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => '-0124', ); is( $d->year, 2001, '->year' ); is( $d->ce_year, 2001, '->ce_year' ); is( $d->month, 7, '->month' ); is( $d->day_of_month, 5, '->day_of_month' ); is( $d->hour, 2, '->hour' ); is( $d->hour_1, 2, '->hour_1' ); is( $d->minute, 12, '->minute' ); is( $d->second, 50, '->second' ); } { my $dt0 = DateTime->new( year => 1, time_zone => 'UTC' ); is( $dt0->year, 1, "year 1 is year 1" ); is( $dt0->ce_year, 1, "ce_year 1 is year 1" ); is( $dt0->era_abbr, 'AD', 'era is AD' ); is( $dt0->year_with_era, '1AD', 'year_with_era is 1AD' ); is( $dt0->christian_era, 'AD', 'christian_era is AD' ); is( $dt0->year_with_christian_era, '1AD', 'year_with_christian_era is 1AD' ); is( $dt0->secular_era, 'CE', 'secular_era is CE' ); is( $dt0->year_with_secular_era, '1CE', 'year_with_secular_era is 1CE' ); $dt0->subtract( years => 1 ); is( $dt0->year, 0, "year 1 minus 1 is year 0" ); is( $dt0->ce_year, -1, "ce_year 1 minus 1 is year -1" ); is( $dt0->era_abbr, 'BC', 'era is BC' ); is( $dt0->year_with_era, '1BC', 'year_with_era is 1BC' ); is( $dt0->christian_era, 'BC', 'christian_era is BC' ); is( $dt0->year_with_christian_era, '1BC', 'year_with_christian_era is 1BC' ); is( $dt0->secular_era, 'BCE', 'secular_era is BCE' ); is( $dt0->year_with_secular_era, '1BCE', 'year_with_secular_era is 1BCE' ); } { my $dt_neg = DateTime->new( year => -10, time_zone => 'UTC', ); is( $dt_neg->year, -10, "Year -10 is -10" ); is( $dt_neg->ce_year, -11, "year -10 is ce_year -11" ); my $dt1 = $dt_neg + DateTime::Duration->new( years => 10 ); is( $dt1->year, 0, "year is 0 after adding ten years to year -10" ); is( $dt1->ce_year, -1, "ce_year is -1 after adding ten years to year -10" ); } { my $dt = DateTime->new( year => 50, month => 2, hour => 3, minute => 20, second => 5, time_zone => 'UTC', ); is( $dt->ymd('%s'), '0050%s02%s01', 'use %s as separator in ymd' ); is( $dt->mdy('%s'), '02%s01%s0050', 'use %s as separator in mdy' ); is( $dt->dmy('%s'), '01%s02%s0050', 'use %s as separator in dmy' ); is( $dt->hms('%s'), '03%s20%s05', 'use %s as separator in hms' ); } # test doy in leap year { my $dt = DateTime->new( year => 2000, month => 1, day => 5, time_zone => 'UTC', ); is( $dt->day_of_year, 5, 'doy for 2000-01-05 should be 5' ); is( $dt->day_of_year_0, 4, 'doy_0 for 2000-01-05 should be 4' ); } { my $dt = DateTime->new( year => 2000, month => 2, day => 29, time_zone => 'UTC', ); is( $dt->day_of_year, 60, 'doy for 2000-02-29 should be 60' ); is( $dt->day_of_year_0, 59, 'doy_0 for 2000-02-29 should be 59' ); } { my $dt = DateTime->new( year => -6, month => 2, day => 25, time_zone => 'UTC', ); is( $dt->ymd, '-0006-02-25', 'ymd is -0006-02-25' ); is( $dt->iso8601, '-0006-02-25T00:00:00', 'iso8601 is -0005-02-25T00:00:00' ); is( $dt->year, -6, 'year is -6' ); is( $dt->ce_year, -7, 'ce_year is -7' ); } { my $dt = DateTime->new( year => 1996, month => 2, day => 1 ); is( $dt->quarter, 1, '->quarter is 1' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 5, day => 1 ); is( $dt->quarter, 2, '->quarter is 2' ); is( $dt->day_of_quarter, 31, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 8, day => 1 ); is( $dt->quarter, 3, '->quarter is 3' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 11, day => 1 ); is( $dt->quarter, 4, '->quarter is 4' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } # nano, micro, and milli seconds { my $dt = DateTime->new( year => 1996, nanosecond => 500_000_000 ); is( $dt->nanosecond, 500_000_000, 'nanosecond is 500,000,000' ); is( $dt->microsecond, 500_000, 'microsecond is 500,000' ); is( $dt->millisecond, 500, 'millisecond is 500' ); $dt->set( nanosecond => 500_000_500 ); is( $dt->nanosecond, 500_000_500, 'nanosecond is 500,000,500' ); is( $dt->microsecond, 500_000, 'microsecond is 500,000' ); is( $dt->millisecond, 500, 'millisecond is 500' ); $dt->set( nanosecond => 499_999_999 ); is( $dt->nanosecond, 499_999_999, 'nanosecond is 499,999,999' ); is( $dt->microsecond, 499_999, 'microsecond is 499,999' ); is( $dt->millisecond, 499, 'millisecond is 499' ); $dt->set( nanosecond => 450_000_001 ); is( $dt->nanosecond, 450_000_001, 'nanosecond is 450,000,001' ); is( $dt->microsecond, 450_000, 'microsecond is 450,000' ); is( $dt->millisecond, 450, 'millisecond is 450' ); $dt->set( nanosecond => 450_500_000 ); is( $dt->nanosecond, 450_500_000, 'nanosecond is 450,500,000' ); is( $dt->microsecond, 450_500, 'microsecond is 450,500' ); is( $dt->millisecond, 450, 'millisecond is 450' ); } { my $dt = DateTime->new( year => 2003, month => 5, day => 7 ); is( $dt->weekday_of_month, 1, '->weekday_of_month' ); is( $dt->week_of_month, 2, '->week_of_month' ); } { my $dt = DateTime->new( year => 2003, month => 5, day => 8 ); is( $dt->weekday_of_month, 2, '->weekday_of_month' ); is( $dt->week_of_month, 2, '->week_of_month' ); } { my $dt = DateTime->new( year => 1000, hour => 23 ); is( $dt->hour, 23, '->hour' ); is( $dt->hour_1, 23, '->hour_1' ); is( $dt->hour_12, 11, '->hour_12' ); is( $dt->hour_12_0, 11, '->hour_12_0' ); } { my $dt = DateTime->new( year => 1000, hour => 0 ); is( $dt->hour, 0, '->hour' ); is( $dt->hour_1, 24, '->hour_1' ); is( $dt->hour_12, 12, '->hour_12' ); is( $dt->hour_12_0, 0, '->hour_12_0' ); } SKIP: { skip 'These tests require Test::Warn', 9 unless eval "use Test::Warn; 1"; my $dt = DateTime->new( year => 2000 ); warnings_like( sub { $dt->year(2001) }, qr/is a read-only/, 'year() is read-only' ); warnings_like( sub { $dt->month(5) }, qr/is a read-only/, 'month() is read-only' ); warnings_like( sub { $dt->day(5) }, qr/is a read-only/, 'day() is read-only' ); warnings_like( sub { $dt->hour(5) }, qr/is a read-only/, 'hour() is read-only' ); warnings_like( sub { $dt->minute(5) }, qr/is a read-only/, 'minute() is read-only' ); warnings_like( sub { $dt->second(5) }, qr/is a read-only/, 'second() is read-only' ); warnings_like( sub { $dt->nanosecond(5) }, qr/is a read-only/, 'nanosecond() is read-only' ); warnings_like( sub { $dt->time_zone('America/Chicago') }, qr/is a read-only/, 'time_zone() is read-only' ); warnings_like( sub { $dt->locale('en_US') }, qr/is a read-only/, 'locale() is read-only' ); } done_testing(); DateTime-1.06/t/18today.t0000644000175000017500000000066512260573461014732 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $now = DateTime->now; my $today = DateTime->today; is( $today->year, $now->year, 'today->year' ); is( $today->month, $now->month, 'today->month' ); is( $today->day, $now->day, 'today->day' ); is( $today->hour, 0, 'today->hour' ); is( $today->minute, 0, 'today->hour' ); is( $today->second, 0, 'today->hour' ); } done_testing(); DateTime-1.06/t/release-pp-03components.t0000644000175000017500000002620612260573461020023 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; my $d = DateTime->new( year => 2001, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => 'UTC', ); is( $d->year, 2001, '->year' ); is( $d->ce_year, 2001, '->ce_year' ); is( $d->month, 7, '->month' ); is( $d->quarter, 3, '->quarter' ); is( $d->month_0, 6, '->month_0' ); is( $d->month_name, 'July', '->month_name' ); is( $d->month_abbr, 'Jul', '->month_abbr' ); is( $d->day_of_month, 5, '->day_of_month' ); is( $d->day_of_month_0, 4, '->day_of_month_0' ); is( $d->day, 5, '->day' ); is( $d->day_0, 4, '->day_0' ); is( $d->mday, 5, '->mday' ); is( $d->mday_0, 4, '->mday_0' ); is( $d->mday, 5, '->mday' ); is( $d->mday_0, 4, '->mday_0' ); is( $d->hour, 2, '->hour' ); is( $d->hour_1, 2, '->hour_1' ); is( $d->hour_12, 2, '->hour_12' ); is( $d->hour_12_0, 2, '->hour_12_0' ); is( $d->minute, 12, '->minute' ); is( $d->min, 12, '->min' ); is( $d->second, 50, '->second' ); is( $d->sec, 50, '->sec' ); is( $d->day_of_year, 186, '->day_of_year' ); is( $d->day_of_year_0, 185, '->day_of_year' ); is( $d->day_of_quarter, 5, '->day_of_quarter' ); is( $d->doq, 5, '->doq' ); is( $d->day_of_quarter_0, 4, '->day_of_quarter_0' ); is( $d->doq_0, 4, '->doq_0' ); is( $d->day_of_week, 4, '->day_of_week' ); is( $d->day_of_week_0, 3, '->day_of_week_0' ); is( $d->week_of_month, 1, '->week_of_month' ); is( $d->weekday_of_month, 1, '->weekday_of_month' ); is( $d->wday, 4, '->wday' ); is( $d->wday_0, 3, '->wday_0' ); is( $d->dow, 4, '->dow' ); is( $d->dow_0, 3, '->dow_0' ); is( $d->day_name, 'Thursday', '->day_name' ); is( $d->day_abbr, 'Thu', '->day_abrr' ); is( $d->ymd, '2001-07-05', '->ymd' ); is( $d->ymd('!'), '2001!07!05', "->ymd('!')" ); is( $d->date, '2001-07-05', '->ymd' ); is( $d->mdy, '07-05-2001', '->mdy' ); is( $d->mdy('!'), '07!05!2001', "->mdy('!')" ); is( $d->dmy, '05-07-2001', '->dmy' ); is( $d->dmy('!'), '05!07!2001', "->dmy('!')" ); is( $d->hms, '02:12:50', '->hms' ); is( $d->hms('!'), '02!12!50', "->hms('!')" ); is( $d->time, '02:12:50', '->hms' ); is( $d->datetime, '2001-07-05T02:12:50', '->datetime' ); is( $d->iso8601, '2001-07-05T02:12:50', '->iso8601' ); is( $d->is_leap_year, 0, '->is_leap_year' ); is( $d->era_abbr, 'AD', '->era_abbr' ); is( $d->era, $d->era_abbr, '->era (deprecated)' ); is( $d->era_name, 'Anno Domini', '->era_abbr' ); is( $d->quarter_abbr, 'Q3', '->quarter_abbr' ); is( $d->quarter_name, '3rd quarter', '->quarter_name' ); my $leap_d = DateTime->new( year => 2004, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => 'UTC', ); is( $leap_d->is_leap_year, 1, '->is_leap_year' ); my $sunday = DateTime->new( year => 2003, month => 1, day => 26, time_zone => 'UTC', ); is( $sunday->day_of_week, 7, "Sunday is day 7" ); my $monday = DateTime->new( year => 2003, month => 1, day => 27, time_zone => 'UTC', ); is( $monday->day_of_week, 1, "Monday is day 1" ); { # time zone offset should not affect the values returned my $d = DateTime->new( year => 2001, month => 7, day => 5, hour => 2, minute => 12, second => 50, time_zone => '-0124', ); is( $d->year, 2001, '->year' ); is( $d->ce_year, 2001, '->ce_year' ); is( $d->month, 7, '->month' ); is( $d->day_of_month, 5, '->day_of_month' ); is( $d->hour, 2, '->hour' ); is( $d->hour_1, 2, '->hour_1' ); is( $d->minute, 12, '->minute' ); is( $d->second, 50, '->second' ); } { my $dt0 = DateTime->new( year => 1, time_zone => 'UTC' ); is( $dt0->year, 1, "year 1 is year 1" ); is( $dt0->ce_year, 1, "ce_year 1 is year 1" ); is( $dt0->era_abbr, 'AD', 'era is AD' ); is( $dt0->year_with_era, '1AD', 'year_with_era is 1AD' ); is( $dt0->christian_era, 'AD', 'christian_era is AD' ); is( $dt0->year_with_christian_era, '1AD', 'year_with_christian_era is 1AD' ); is( $dt0->secular_era, 'CE', 'secular_era is CE' ); is( $dt0->year_with_secular_era, '1CE', 'year_with_secular_era is 1CE' ); $dt0->subtract( years => 1 ); is( $dt0->year, 0, "year 1 minus 1 is year 0" ); is( $dt0->ce_year, -1, "ce_year 1 minus 1 is year -1" ); is( $dt0->era_abbr, 'BC', 'era is BC' ); is( $dt0->year_with_era, '1BC', 'year_with_era is 1BC' ); is( $dt0->christian_era, 'BC', 'christian_era is BC' ); is( $dt0->year_with_christian_era, '1BC', 'year_with_christian_era is 1BC' ); is( $dt0->secular_era, 'BCE', 'secular_era is BCE' ); is( $dt0->year_with_secular_era, '1BCE', 'year_with_secular_era is 1BCE' ); } { my $dt_neg = DateTime->new( year => -10, time_zone => 'UTC', ); is( $dt_neg->year, -10, "Year -10 is -10" ); is( $dt_neg->ce_year, -11, "year -10 is ce_year -11" ); my $dt1 = $dt_neg + DateTime::Duration->new( years => 10 ); is( $dt1->year, 0, "year is 0 after adding ten years to year -10" ); is( $dt1->ce_year, -1, "ce_year is -1 after adding ten years to year -10" ); } { my $dt = DateTime->new( year => 50, month => 2, hour => 3, minute => 20, second => 5, time_zone => 'UTC', ); is( $dt->ymd('%s'), '0050%s02%s01', 'use %s as separator in ymd' ); is( $dt->mdy('%s'), '02%s01%s0050', 'use %s as separator in mdy' ); is( $dt->dmy('%s'), '01%s02%s0050', 'use %s as separator in dmy' ); is( $dt->hms('%s'), '03%s20%s05', 'use %s as separator in hms' ); } # test doy in leap year { my $dt = DateTime->new( year => 2000, month => 1, day => 5, time_zone => 'UTC', ); is( $dt->day_of_year, 5, 'doy for 2000-01-05 should be 5' ); is( $dt->day_of_year_0, 4, 'doy_0 for 2000-01-05 should be 4' ); } { my $dt = DateTime->new( year => 2000, month => 2, day => 29, time_zone => 'UTC', ); is( $dt->day_of_year, 60, 'doy for 2000-02-29 should be 60' ); is( $dt->day_of_year_0, 59, 'doy_0 for 2000-02-29 should be 59' ); } { my $dt = DateTime->new( year => -6, month => 2, day => 25, time_zone => 'UTC', ); is( $dt->ymd, '-0006-02-25', 'ymd is -0006-02-25' ); is( $dt->iso8601, '-0006-02-25T00:00:00', 'iso8601 is -0005-02-25T00:00:00' ); is( $dt->year, -6, 'year is -6' ); is( $dt->ce_year, -7, 'ce_year is -7' ); } { my $dt = DateTime->new( year => 1996, month => 2, day => 1 ); is( $dt->quarter, 1, '->quarter is 1' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 5, day => 1 ); is( $dt->quarter, 2, '->quarter is 2' ); is( $dt->day_of_quarter, 31, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 8, day => 1 ); is( $dt->quarter, 3, '->quarter is 3' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } { my $dt = DateTime->new( year => 1996, month => 11, day => 1 ); is( $dt->quarter, 4, '->quarter is 4' ); is( $dt->day_of_quarter, 32, '->day_of_quarter' ); } # nano, micro, and milli seconds { my $dt = DateTime->new( year => 1996, nanosecond => 500_000_000 ); is( $dt->nanosecond, 500_000_000, 'nanosecond is 500,000,000' ); is( $dt->microsecond, 500_000, 'microsecond is 500,000' ); is( $dt->millisecond, 500, 'millisecond is 500' ); $dt->set( nanosecond => 500_000_500 ); is( $dt->nanosecond, 500_000_500, 'nanosecond is 500,000,500' ); is( $dt->microsecond, 500_000, 'microsecond is 500,000' ); is( $dt->millisecond, 500, 'millisecond is 500' ); $dt->set( nanosecond => 499_999_999 ); is( $dt->nanosecond, 499_999_999, 'nanosecond is 499,999,999' ); is( $dt->microsecond, 499_999, 'microsecond is 499,999' ); is( $dt->millisecond, 499, 'millisecond is 499' ); $dt->set( nanosecond => 450_000_001 ); is( $dt->nanosecond, 450_000_001, 'nanosecond is 450,000,001' ); is( $dt->microsecond, 450_000, 'microsecond is 450,000' ); is( $dt->millisecond, 450, 'millisecond is 450' ); $dt->set( nanosecond => 450_500_000 ); is( $dt->nanosecond, 450_500_000, 'nanosecond is 450,500,000' ); is( $dt->microsecond, 450_500, 'microsecond is 450,500' ); is( $dt->millisecond, 450, 'millisecond is 450' ); } { my $dt = DateTime->new( year => 2003, month => 5, day => 7 ); is( $dt->weekday_of_month, 1, '->weekday_of_month' ); is( $dt->week_of_month, 2, '->week_of_month' ); } { my $dt = DateTime->new( year => 2003, month => 5, day => 8 ); is( $dt->weekday_of_month, 2, '->weekday_of_month' ); is( $dt->week_of_month, 2, '->week_of_month' ); } { my $dt = DateTime->new( year => 1000, hour => 23 ); is( $dt->hour, 23, '->hour' ); is( $dt->hour_1, 23, '->hour_1' ); is( $dt->hour_12, 11, '->hour_12' ); is( $dt->hour_12_0, 11, '->hour_12_0' ); } { my $dt = DateTime->new( year => 1000, hour => 0 ); is( $dt->hour, 0, '->hour' ); is( $dt->hour_1, 24, '->hour_1' ); is( $dt->hour_12, 12, '->hour_12' ); is( $dt->hour_12_0, 0, '->hour_12_0' ); } SKIP: { skip 'These tests require Test::Warn', 9 unless eval "use Test::Warn; 1"; my $dt = DateTime->new( year => 2000 ); warnings_like( sub { $dt->year(2001) }, qr/is a read-only/, 'year() is read-only' ); warnings_like( sub { $dt->month(5) }, qr/is a read-only/, 'month() is read-only' ); warnings_like( sub { $dt->day(5) }, qr/is a read-only/, 'day() is read-only' ); warnings_like( sub { $dt->hour(5) }, qr/is a read-only/, 'hour() is read-only' ); warnings_like( sub { $dt->minute(5) }, qr/is a read-only/, 'minute() is read-only' ); warnings_like( sub { $dt->second(5) }, qr/is a read-only/, 'second() is read-only' ); warnings_like( sub { $dt->nanosecond(5) }, qr/is a read-only/, 'nanosecond() is read-only' ); warnings_like( sub { $dt->time_zone('America/Chicago') }, qr/is a read-only/, 'time_zone() is read-only' ); warnings_like( sub { $dt->locale('en_US') }, qr/is a read-only/, 'locale() is read-only' ); } done_testing(); DateTime-1.06/t/13strftime.t0000644000175000017500000001445512260573461015444 0ustar autarchautarch# test suite stolen shamelessly from TimeDate distro use strict; use warnings; use utf8; use Test::More; use DateTime; my $locale = 'en_US'; my $dt; my %params; while ( defined( my $line = ) ) { chomp $line; next unless $line =~ /\S/; if ( $line =~ /^year =>/ ) { %params = map { split /\s*=>\s*/ } split /\s*,\s*/, $line; $dt = DateTime->new( %params, time_zone => 'UTC' ); next; } elsif ( $line =~ /^(\w+)/ ) { $locale = $1; eval "use DateTime::Locale::$1"; die $@ if $@; $dt = DateTime->new( %params, time_zone => 'UTC', locale => $locale ); next; } my ( $fmt, $res ) = split /\s+=>\s+/, $line, 2; $res =~ s/^\'|\'$//g; if ( $fmt eq '%A' && $locale eq 'it' && $] >= 5.006 && $] <= 5.008 ) { ok( 1, "Perl 5.6.0 & 5.6.1 cannot handle Unicode characters in the DATA filehandle properly" ); next; } is( $dt->strftime($fmt), $res, "$fmt" ); } # test use of strftime with multiple params - in list and scalar # context { my $dt = DateTime->new( year => 1800, month => 1, day => 10, time_zone => 'UTC', ); my ( $y, $d ) = $dt->strftime( '%Y', '%d' ); is( $y, 1800, 'first value is year' ); is( $d, 10, 'second value is day' ); $y = $dt->strftime( '%Y', '%d' ); is( $y, 1800, 'scalar context returns year' ); } { my $dt = DateTime->new( year => 2003, hour => 0, minute => 0 ); is( $dt->strftime('%I %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 1 ); is( $dt->strftime('%I %M %p'), '01 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), ' 1 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 11 ); is( $dt->strftime('%I %M %p'), '11 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '11 00 AM', 'formatting of hours as 1-12' ); $dt->set( hour => 12 ); is( $dt->strftime('%I %M %p'), '12 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 13 ); is( $dt->strftime('%I %M %p'), '01 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), ' 1 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 23 ); is( $dt->strftime('%I %M %p'), '11 00 PM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '11 00 PM', 'formatting of hours as 1-12' ); $dt->set( hour => 0 ); is( $dt->strftime('%I %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); is( $dt->strftime('%l %M %p'), '12 00 AM', 'formatting of hours as 1-12' ); } { is( DateTime->new( year => 2003, month => 1, day => 1 )->strftime('%V'), '01', '%V is 01' ); } { my $dt = DateTime->new( year => 2004, month => 8, day => 16, hour => 15, minute => 30, nanosecond => 123456789, locale => 'en', ); # Should print '%{day_name}', prints '30onday'! is( $dt->strftime('%%{day_name}%n'), "%{day_name}\n", '%%{day_name}%n bug' ); # Should print '%6N', prints '123456' is( $dt->strftime('%%6N%n'), "%6N\n", '%%6N%n bug' ); } { # Internally this becomes 119999885 nanoseconds (floating point math is awesome) my $epoch = 1297777805.12; my $dt = DateTime->from_epoch( epoch => $epoch ); my @vals = ( 1, 12, 120, 1200, 12000, 120000, 1200000, 12000000, 120000000, 1200000000, ); my $x = 1; for my $val (@vals) { my $spec = '%' . $x++ . 'N'; is( $dt->strftime($spec), $val, "strftime($spec) for $epoch == $val" ); } } { my $dt = DateTime->new( year => 2011 ); for my $i (1..9) { my $spec = '%' . $i . 'N'; my $expect = '0' x$i; is( $dt->strftime($spec), $expect, "strftime $spec with 0 nanoseconds" ); } } done_testing(); # add these if we do roman-numeral stuff # %Od VII # %Oe VII # %OH XIII # %OI I # %Oj CCL # %Ok XIII # %Ol I # %Om IX # %OM II # %Oq III # %OY MCMXCIX # %Oy XCIX __DATA__ year => 1999, month => 9, day => 7, hour => 13, minute => 2, second => 42, nanosecond => 123456789 %y => '99' %Y => '1999' %% => '%' %a => 'Tue' %A => 'Tuesday' %b => 'Sep' %B => 'September' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'Sep' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %N => '123456789' %3N => '123' %6N => '123456' %10N => '1234567890' %p => 'PM' %r => '01:02:42 PM' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %E => '%E' %{foobar} => '%{foobar}' %{month} => '9' %{year} => '1999' %x => 'Sep 7, 1999' %X => '1:02:42 PM' %c => 'Sep 7, 1999 1:02:42 PM' de %y => '99' %Y => '1999' %% => '%' %a => 'Di.' %A => 'Dienstag' %b => 'Sep' %B => 'September' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'Sep' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %p => 'nachm.' %r => '01:02:42 nachm.' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %{month} => '9' %{year} => '1999' it %y => '99' %Y => '1999' %% => '%' %a => 'mar' %A => 'martedì' %b => 'set' %B => 'settembre' %C => '19' %d => '07' %e => ' 7' %D => '09/07/99' %h => 'set' %H => '13' %I => '01' %j => '250' %k => '13' %l => ' 1' %m => '09' %M => '02' %p => 'p.' %r => '01:02:42 p.' %R => '13:02' %s => '936709362' %S => '42' %T => '13:02:42' %U => '36' %V => '36' %w => '2' %W => '36' %y => '99' %Y => '1999' %Z => 'UTC' %z => '+0000' %{month} => '9' %{year} => '1999' year => 2012, month => 1, day => 1 %U => '01' %W => '00' %j => '001' year => 2012, month => 1, day => 10 %U => '02' %W => '02' %j => '010' year => 1999, month => 9, day => 7, hour => 13, minute => 2, second => 42, nanosecond => 00012345678 %N => '012345678' %3N => '012' %6N => '012345' %10N => '0123456780' DateTime-1.06/t/39no-so.t0000644000175000017500000000116012260573461014637 0ustar autarchautarch# no pp test use strict; use warnings; use Test::More; no warnings 'once', 'redefine'; require XSLoader; my $orig = \&XSLoader::load; my $sub = sub { if ( defined $_[0] && $_[0] eq 'DateTime' ) { die q{Can't locate loadable object for module DateTime in @INC}; } else { goto $orig; } }; *XSLoader::load = $sub; eval { require DateTime }; is( $@, '', 'No error loading DateTime without DateTime.so file' ); ok( $DateTime::IsPurePerl, '$DateTime::IsPurePerl is true' ); ok( DateTime->new( year => 2005 ), 'can make DateTime object without DateTime.so file' ); done_testing(); DateTime-1.06/t/author-test-all-my-deps.t0000644000175000017500000000142212260573461020032 0ustar autarchautarch BEGIN { unless ($ENV{AUTHOR_TESTING}) { require Test::More; Test::More::plan(skip_all => 'these tests are for testing by the author'); } } use strict; use warnings; use Cwd qw( abs_path ); use Test::More; BEGIN { plan skip_all => 'Must set DATETIME_TEST_DEPS to true in order to run these tests' unless $ENV{DATETIME_TEST_DEPS}; } use Test::DependentModules qw( test_all_dependents ); $ENV{PERL_TEST_DM_LOG_DIR} = abs_path('.'); my $exclude = $ENV{DATETIME_TEST_DEPS} eq 'all' ? qr/(?:^App-) | ^(?: Archive-RPM | Video-Xine )$ /x : qr/^(?!DateTime-)/; test_all_dependents( 'DateTime', { exclude => $exclude } ); DateTime-1.06/t/release-pp-23storable.t0000644000175000017500000000445412260573461017454 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; unless ( eval { require Storable; 1 } ) { plan skip_all => 'Cannot load Storable'; } { my @dt = ( DateTime->new( year => 1950, hour => 1, nanosecond => 1, time_zone => 'America/Chicago', language => 'German' ), DateTime::Infinite::Past->new, DateTime::Infinite::Future->new, ); foreach my $dt (@dt) { my $copy = Storable::thaw( Storable::nfreeze($dt) ); is( $copy->time_zone->name, $dt->time_zone->name, 'Storable freeze/thaw preserves tz' ); is( ref $copy->locale, ref $dt->locale, 'Storable freeze/thaw preserves locale' ); is( $copy->year, $dt->year, 'Storable freeze/thaw preserves rd values' ); is( $copy->hour, $dt->hour, 'Storable freeze/thaw preserves rd values' ); is( $copy->nanosecond, $dt->nanosecond, 'Storable freeze/thaw preserves rd values' ); } } { my $dt1 = DateTime->now( locale => 'en_US' ); my $dt2 = Storable::dclone($dt1); my $dt3 = Storable::thaw( Storable::nfreeze($dt2) ); is( $dt1->iso8601, $dt2->iso8601, 'dclone produces date equal to original' ); is( $dt2->iso8601, $dt3->iso8601, 'explicit freeze and thaw produces date equal to original' ); is( $dt1->locale->id, 'en_US', 'check id of original locale object' ); is( $dt2->locale->id, 'en_US', 'check locale id after dclone' ); is( $dt3->locale->id, 'en_US', 'check locale id after explicit freeze/thaw' ); } { package Formatter; sub format_datetime {}; } { my $dt = DateTime->new( year => 2004, formatter => 'Formatter', ); my $copy = Storable::thaw( Storable::nfreeze($dt) ); is( $dt->formatter, $copy->formatter, 'Storable freeze/thaw preserves formatter' ); } done_testing(); DateTime-1.06/t/release-pp-40leap-years.t0000644000175000017500000000071012260573461017671 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; for my $y ( 0, 400, 2000, 2004 ) { ok( DateTime->_is_leap_year($y), "$y is a leap year" ); } for my $y ( 1, 100, 1900, 2133 ) { ok( !DateTime->_is_leap_year($y), "$y is not a leap year" ); } done_testing(); DateTime-1.06/t/00load.t0000644000175000017500000000012612260573461014510 0ustar autarchautarchuse strict; use warnings; use Test::More 0.88; use_ok('DateTime'); done_testing(); DateTime-1.06/t/release-pp-14locale.t0000644000175000017500000000362412260573461017076 0ustar autarchautarch use Test::More; BEGIN { unless ( $ENV{RELEASE_TESTING} ) { plan skip_all => 'these tests are for testing by the release'; } $ENV{PERL_DATETIME_PP} = 1; } use strict; use warnings; use Test::More; use DateTime; use DateTime::Locale; eval { DateTime->new( year => 100, locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->now( locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->today( locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->from_epoch( epoch => 1, locale => 'en_US' ) }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->last_day_of_month( year => 100, month => 2, locale => 'en_US' ); }; is( $@, '', 'make sure constructor accepts locale parameter' ); { package DT::Object; sub utc_rd_values { ( 0, 0 ) } } eval { DateTime->from_object( object => ( bless {}, 'DT::Object' ), locale => 'en_US' ); }; is( $@, '', 'make sure constructor accepts locale parameter' ); eval { DateTime->new( year => 100, locale => DateTime::Locale->load('en_US') ); }; is( $@, '', 'make sure constructor accepts locale parameter as object' ); DateTime->DefaultLocale('it'); is( DateTime->now->locale->id, 'it', 'default locale should now be "it"' ); { my $dt = DateTime->new( year => 2013, month => 10, day => 27, hour => 0, time_zone => 'UTC' ); my $after_zone = $dt->clone()->set_time_zone('Europe/Rome'); is( $after_zone->offset(), '7200', 'offset is 7200 after set_time_zone()' ); my $after_locale = $dt->clone()->set_time_zone('Europe/Rome')->set_locale('en_GB'); is( $after_locale->offset(), '7200', 'offset is 7200 after set_time_zone() and set_locale()' ); } done_testing(); DateTime-1.06/t/06add.t0000644000175000017500000002243312260573461014334 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; my $t = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); $t->add( weeks => 8 ); is( $t->year, 1997, "year rollover" ); is( $t->month, 1, "month set on year rollover" ); is( $t->datetime, '1997-01-17T18:30:20', 'okay on year rollover' ); $t->add( weeks => 2 ); is( $t->datetime, '1997-01-31T18:30:20', 'Adding weeks' ); $t->add( seconds => 15 ); is( $t->datetime, '1997-01-31T18:30:35', 'Adding seconds' ); $t->add( minutes => 12 ); is( $t->datetime, '1997-01-31T18:42:35', 'Adding minutes' ); $t->add( minutes => 25, hours => 3, seconds => 7 ); is( $t->datetime, '1997-01-31T22:07:42', 'Adding h,m,s' ); # Now, test the adding of durations $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( minutes => 1, seconds => 12 ); is( $t->datetime, '1986-01-28T16:39:12', "Adding durations with minutes and seconds works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( seconds => 30 ); is( $t->datetime, '1986-01-28T16:38:30', "Adding durations with seconds only works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( hours => 1, minutes => 10 ); is( $t->datetime, '1986-01-28T17:48:00', "Adding durations with hours and minutes works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3 ); is( $t->datetime, '1986-01-31T16:38:00', "Adding durations with days only works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3, hours => 2 ); is( $t->datetime, '1986-01-31T18:38:00', "Adding durations with days and hours works" ); $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( days => 3, hours => 2, minutes => 20, seconds => 15 ); is( $t->datetime, '1986-01-31T18:58:15', "Adding durations with days, hours, minutes, and seconds works" ); # Add 15M - this test failed at one point in N::I::Time $t = DateTime->new( year => 2001, month => 4, day => 5, hour => 16, time_zone => 'UTC' ); $t->add( minutes => 15 ); is( $t->datetime, '2001-04-05T16:15:00', "Adding minutes to an ical string" ); # Subtract a duration $t->add( minutes => -15 ); is( $t->datetime, '2001-04-05T16:00:00', "Back where we started" ); undef $t; $t = DateTime->new( year => 1986, month => 1, day => 28, hour => 16, minute => 38, time_zone => 'UTC' ); $t->add( seconds => 60 ); is( $t->datetime, "1986-01-28T16:39:00", "adding positive seconds with seconds works" ); $t->add( seconds => -120 ); is( $t->datetime, "1986-01-28T16:37:00", "adding negative seconds with seconds works" ); # test sub months $t = DateTime->new( year => 2001, month => 1, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-02-01', 'february 1st' ); $t = DateTime->new( year => 2001, month => 2, day => 28, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-03-01', 'march 1st' ); $t = DateTime->new( year => 2001, month => 3, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-04-01', 'april 1st' ); $t = DateTime->new( year => 2001, month => 4, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-05-01', 'may 1st' ); $t = DateTime->new( year => 2001, month => 5, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-06-01', 'june 1st' ); $t = DateTime->new( year => 2001, month => 6, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-07-01', 'july 1st' ); $t = DateTime->new( year => 2001, month => 7, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-08-01', 'august 1st' ); $t = DateTime->new( year => 2001, month => 8, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-09-01', 'september 1st' ); $t = DateTime->new( year => 2001, month => 9, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-10-01', 'october 1st' ); $t = DateTime->new( year => 2001, month => 10, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-11-01', 'november 1st' ); $t = DateTime->new( year => 2001, month => 11, day => 30, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2001-12-01', 'december 1st' ); $t = DateTime->new( year => 2001, month => 12, day => 31, time_zone => 'UTC', ); $t->add( days => 1 ); is( $t->date, '2002-01-01', 'january 1st' ); # Adding years # Before leap day, not a leap year ... $t = DateTime->new( year => 2001, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2002-02-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2019-02-28', 'Adding 17 years' ); # After leap day, not a leap year ... $t = DateTime->new( year => 2001, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2002-03-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2019-03-28', 'Adding 17 years' ); # On leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 2, day => 29, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-03-01', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-03-01', 'Adding 17 years' ); # Before leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-02-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-02-28', 'Adding 17 years' ); # After leap day, in a leap year ... $t = DateTime->new( year => 2000, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => 1 ); is( $t->date, '2001-03-28', 'Adding a year' ); $t->add( years => 17 ); is( $t->date, '2018-03-28', 'Adding 17 years' ); # Test a bunch of years, before leap day for ( 1 .. 99 ) { $t = DateTime->new( year => 2000, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_; is( $t->date, "20${x}-02-28", "Adding $_ years" ); } # Test a bunch of years, after leap day for ( 1 .. 99 ) { $t = DateTime->new( year => 2000, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_; is( $t->date, "20${x}-03-28", "Adding $_ years" ); } # And more of the same, starting on a non-leap year # Test a bunch of years, before leap day for ( 1 .. 97 ) { $t = DateTime->new( year => 2002, month => 2, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_ + 2; is( $t->date, "20${x}-02-28", "Adding $_ years" ); } # Test a bunch of years, after leap day for ( 1 .. 97 ) { $t = DateTime->new( year => 2002, month => 3, day => 28, time_zone => 'UTC', ); $t->add( years => $_ ); my $x = sprintf '%02d', $_ + 2; is( $t->date, "20${x}-03-28", "Adding $_ years" ); } # subtract years for ( 1 .. 97 ) { $t = DateTime->new( year => 1999, month => 3, day => 1, time_zone => 'UTC', ); $t->add( years => -$_ ); my $x = sprintf '%02d', 99 - $_; is( $t->date, "19${x}-03-01", "Subtracting $_ years" ); } # test some old bugs # bug adding months where current month + months added were > 25 $t = DateTime->new( year => 1997, month => 12, day => 1, time_zone => 'UTC', ); $t->add( months => 14 ); is( $t->date, '1999-02-01', 'Adding months--rollover year' ); # bug subtracting months with year rollover $t = DateTime->new( year => 1997, month => 1, day => 1, time_zone => 'UTC', ); $t->add( months => -1 ); is( $t->date, '1996-12-01', 'Subtracting months--rollover year' ); my $new = $t + DateTime::Duration->new( years => 2 ); is( $new->date, '1998-12-01', 'test + overloading' ); # test nanoseconds { my $t = DateTime->new( year => 1997, month => 1, day => 1, hour => 1, minute => 1, second => 59, nanosecond => 500000000, time_zone => 'UTC', ); $t->add( nanoseconds => 500000000 ); is( $t->second, 0, 'fractional second rollover' ); $t->add( nanoseconds => 123000000 ); is( $t->fractional_second, 0.123, 'as fractional_second' ); } { my $dt = DateTime->new( year => 2003, month => 2, day => 28 ); $dt->add( months => 1, days => 1 ); is( $dt->ymd, '2003-04-01', 'order of units in date math' ); } { my $dt = DateTime->new( year => 2003, hour => 12, minute => 1 ); $dt->add( minutes => 30, seconds => -1 ); is( $dt->hour, 12, 'hour is 12' ); is( $dt->minute, 30, 'minute is 30' ); is( $dt->second, 59, 'second is 59' ); } done_testing(); DateTime-1.06/t/05set.t0000644000175000017500000000576612260573461014410 0ustar autarchautarchuse strict; use warnings; use Test::More; use DateTime; { my $dt = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); is( $dt->month, 11, 'check month' ); $dt->set( month => 5 ); is( $dt->year, 1996, 'check year after setting month' ); is( $dt->month, 5, 'check month after setting it' ); is( $dt->day, 22, 'check day after setting month' ); is( $dt->hour, 18, 'check hour after setting month' ); is( $dt->minute, 30, 'check minute after setting month' ); is( $dt->second, 20, 'check second after setting month' ); $dt->set_time_zone('-060001'); is( $dt->year, 1996, 'check year after setting time zone' ); is( $dt->month, 5, 'check month after setting time zone' ); is( $dt->day, 22, 'check day after setting time zone' ); is( $dt->hour, 12, 'check hour after setting time zone' ); is( $dt->minute, 30, 'check minute after setting time zone' ); is( $dt->second, 19, 'check second after setting time zone' ); is( $dt->offset, -21601, 'check time zone offset after setting new time zone' ); $dt->set_time_zone('+0100'); is( $dt->year, 1996, 'check year after setting time zone' ); is( $dt->month, 5, 'check month after setting time zone' ); is( $dt->day, 22, 'check day after setting time zone' ); is( $dt->hour, 19, 'check hour after setting time zone' ); is( $dt->minute, 30, 'check minute after setting time zone' ); is( $dt->second, 20, 'check second after setting time zone' ); is( $dt->offset, 3600, 'check time zone offset after setting new time zone' ); $dt->set( hour => 17 ); is( $dt->year, 1996, 'check year after setting hour' ); is( $dt->month, 5, 'check month after setting hour' ); is( $dt->day, 22, 'check day after setting hour' ); is( $dt->hour, 17, 'check hour after setting hour' ); is( $dt->minute, 30, 'check minute after setting hour' ); is( $dt->second, 20, 'check second after setting hour' ); } { my $dt = DateTime->new( year => 1996, month => 11, day => 22, hour => 18, minute => 30, second => 20, time_zone => 'UTC', ); $dt->set_year(2000); is( $dt->year, 2000, 'check year after set_year' ); $dt->set_month(5); is( $dt->month, 5, 'check month after set_month' ); $dt->set_day(6); is( $dt->day, 6, 'check day after set_day' ); $dt->set_hour(7); is( $dt->hour, 7, 'check hour after set_hour' ); $dt->set_minute(8); is( $dt->minute, 8, 'check minute after set_minute' ); $dt->set_second(9); is( $dt->second, 9, 'check second after set_second' ); $dt->set_nanosecond(9999); is( $dt->nanosecond, 9999, 'check nanosecond after set_nanosecond' ); $dt->set_locale('fr_FR'); is( $dt->month_name, 'mai', 'check month name after set_locale' ); } done_testing(); DateTime-1.06/t/41cldr-format.t0000644000175000017500000001432112260573461016012 0ustar autarchautarchuse strict; use warnings; use utf8; use Test::More; use DateTime; binmode $_, ':encoding(UTF-8)' for Test::Builder->new()->output(), Test::Builder->new()->failure_output(), Test::Builder->new()->todo_output(); { my $dt = DateTime->new( year => 1976, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en', time_zone => 'America/Chicago', ); my %tests = ( 'GGGGG' => 'A', 'GGGG' => 'Anno Domini', 'GGG' => 'AD', 'GG' => 'AD', 'G' => 'AD', 'yyyyy' => '01976', 'yyyy' => '1976', 'yyy' => '1976', 'yy' => '76', 'y' => '1976', 'uuuuuu' => '001976', 'uuuuu' => '01976', 'uuuu' => '1976', 'uuu' => '1976', 'uu' => '1976', 'u' => '1976', 'YYYYY' => '01976', 'YYYY' => '1976', 'YYY' => '1976', 'YY' => '1976', 'Y' => '1976', 'QQQQ' => '4th quarter', 'QQQ' => 'Q4', 'QQ' => '04', 'Q' => '4', 'qqqq' => '4th quarter', 'qqq' => 'Q4', 'qq' => '04', 'q' => '4', 'MMMMM' => 'O', 'MMMM' => 'October', 'MMM' => 'Oct', 'MM' => '10', 'M' => '10', 'LLLLL' => 'O', 'LLLL' => 'October', 'LLL' => 'Oct', 'LL' => '10', 'L' => '10', 'ww' => '43', 'w' => '43', 'W' => '3', 'dd' => '20', 'd' => '20', 'DDD' => '294', 'DD' => '294', 'D' => '294', 'F' => '3', 'gggggg' => '043071', 'g' => '43071', 'EEEEE' => 'W', 'EEEE' => 'Wednesday', 'EEE' => 'Wed', 'EE' => 'Wed', 'E' => 'Wed', 'eeeee' => 'W', 'eeee' => 'Wednesday', 'eee' => 'Wed', 'ee' => '03', 'e' => '3', 'ccccc' => 'W', 'cccc' => 'Wednesday', 'ccc' => 'Wed', 'cc' => '03', 'c' => '3', 'a' => 'PM', 'hh' => '06', 'h' => '6', 'HH' => '18', 'H' => '18', 'KK' => '06', 'K' => '6', 'kk' => '18', 'kk' => '18', 'j' => '6', 'jj' => '06', 'mm' => '34', 'm' => '34', 'ss' => '55', 's' => '55', 'SS' => '00', 'SSSSSS' => '001000', 'A' => '66895001', 'zzzz' => 'America/Chicago', 'zzz' => 'CDT', 'ZZZZ' => 'CDT-0500', 'ZZZ' => '-0500', 'vvvv' => 'America/Chicago', 'vvv' => 'CDT', 'VVVV' => 'America/Chicago', 'VVV' => 'CDT', 'ZZZZZ' => '-05:00', q{'one fine day'} => 'one fine day', q{'yy''yy' yyyy} => q{yy'yy 1976}, q{'yy''yy' 'hello' yyyy} => q{yy'yy hello 1976}, # Non-pattern text should pass through unchanged 'd日' => '20日', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en', time_zone => 'America/Chicago', ); is( $dt->format_cldr('yy'), '08', 'format_cldr for yy in 2008 should be 08' ); } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'en_US', time_zone => 'America/Chicago', ); is( $dt->format_cldr('j'), '6', 'format_cldr for j in en_US should be 6 (at 18:34)' ); } { my $dt = DateTime->new( year => 2008, month => 10, day => 20, hour => 18, minute => 34, second => 55, nanosecond => 1_000_000, locale => 'fr', time_zone => 'America/Chicago', ); is( $dt->format_cldr('j'), '18', 'format_cldr for j in fr should be 18 (at 18:34)' ); } { my $dt = DateTime->new( year => 2009, month => 4, day => 13, locale => 'en_US', ); is( $dt->format_cldr('e'), '2', 'format_cldr for e in en_US should be 2 (for Monday, 2009-04-13)' ); is( $dt->format_cldr('c'), '1', 'format_cldr for c in en_US should be 1 (for Monday, 2009-04-13)' ); } { my $dt = DateTime->new( year => 2009, month => 4, day => 13, locale => 'fr_FR', ); is( $dt->format_cldr('e'), '1', 'format_cldr for e in fr_FR should be 1 (for Monday, 2009-04-13)' ); is( $dt->format_cldr('c'), '1', 'format_cldr for c in fr_FR should be 1 (for Monday, 2009-04-13)' ); } { my $dt = DateTime->new( year => -10 ); my %tests = ( 'y' => '-10', 'yy' => '-10', 'yyy' => '-10', 'yyyy' => '-010', 'yyyyy' => '-0010', 'u' => '-10', 'uu' => '-10', 'uuu' => '-10', 'uuuu' => '-010', 'uuuuu' => '-0010', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } { my $dt = DateTime->new( year => -1976 ); my %tests = ( 'y' => '-1976', 'yy' => '-76', 'yyy' => '-1976', 'yyyy' => '-1976', 'yyyyy' => '-1976', 'u' => '-1976', 'uu' => '-1976', 'uuu' => '-1976', 'uuuu' => '-1976', 'uuuuu' => '-1976', ); for my $k ( sort keys %tests ) { is( $dt->format_cldr($k), $tests{$k}, "format_cldr for $k" ); } } done_testing(); DateTime-1.06/t/34set-tz.t0000644000175000017500000000465012260573461015034 0ustar autarchautarchuse strict; use warnings; use Test::Fatal; use Test::More 0.88; use DateTime; # These tests are for a bug related to a bad interaction between the # horrid ->_handle_offset_modifier method and calling ->set_time_zone # on a real Olson time zone. When _handle_offset_modifier was called # from set_time_zone, it tried calling ->_offset_for_local_datetime, # which was bogus, because at that point it doesn't know the local # date time any more, only UTC. # # The fix is to have ->_handle_offset_modifier call ->offset when it # knows that UTC is valid, which is determined by an arg to # ->_handle_offset_modifier # These tests come from one of the zdump-generated test files in # DT::TZ { my $dt = DateTime->new( year => 1934, month => 2, day => 26, hour => 0, minute => 59, second => 59, time_zone => 'UTC', ); $dt->set_time_zone('Africa/Niamey'); is( $dt->year, 1934, 'local year should be 1934 (1934-02-25 23:59:59)' ); is( $dt->month, 2, 'local month should be 2 (1934-02-25 23:59:59)' ); is( $dt->day, 25, 'local day should be 25 (1934-02-25 23:59:59)' ); is( $dt->hour, 23, 'local hour should be 23 (1934-02-25 23:59:59)' ); is( $dt->minute, 59, 'local minute should be 59 (1934-02-25 23:59:59)' ); is( $dt->second, 59, 'local second should be 59 (1934-02-25 23:59:59)' ); ok( !$dt->is_dst, 'is_dst should be false (1934-02-25 23:59:59)' ); is( $dt->offset, -3600, 'offset should be -3600 (1934-02-25 23:59:59)' ); } { my $dt = DateTime->new( year => 2013, month => 3, day => 10, hour => 2, minute => 4, time_zone => 'floating', ); like( exception { $dt->set_time_zone('America/Los_Angeles') }, qr/\QInvalid local time for date in time zone/, 'got an exception when trying to set time zone when it leads to invalid local time' ); is( $dt->time_zone()->name(), 'floating', 'time zone was not changed after set_time_zone() throws an exception' ); } { my $dt = DateTime->now( time_zone => 'America/Chicago' ); ok( $dt->set_time_zone('America/Chicago'), 'set_time_zone returns object when time zone name is same as current' ); ok( $dt->set_time_zone( $dt->time_zone() ), 'set_time_zone returns object when time zone object is same as current' ); } done_testing(); DateTime-1.06/c/0000755000175000017500000000000012260573461013224 5ustar autarchautarchDateTime-1.06/c/leap_seconds.h0000644000175000017500000001322512260573461016037 0ustar autarchautarch/* This file is auto-generated by the leap second code generator (0.03). This code generator comes with the DateTime.pm module distribution in the tools/ directory Generated by ./tools/leap_seconds_header.pl. Do not edit this file directly. */ #define SET_LEAP_SECONDS(utc_rd, ls) \ { \ { \ if (utc_rd < 720075) { \ ls = 0; \ } else if (utc_rd >= 720075 && utc_rd < 720259) { \ ls = 1; \ } else if (utc_rd >= 720259 && utc_rd < 720624) { \ ls = 2; \ } else if (utc_rd >= 720624 && utc_rd < 720989) { \ ls = 3; \ } else if (utc_rd >= 720989 && utc_rd < 721354) { \ ls = 4; \ } else if (utc_rd >= 721354 && utc_rd < 721720) { \ ls = 5; \ } else if (utc_rd >= 721720 && utc_rd < 722085) { \ ls = 6; \ } else if (utc_rd >= 722085 && utc_rd < 722450) { \ ls = 7; \ } else if (utc_rd >= 722450 && utc_rd < 722815) { \ ls = 8; \ } else if (utc_rd >= 722815 && utc_rd < 723362) { \ ls = 9; \ } else if (utc_rd >= 723362 && utc_rd < 723727) { \ ls = 10; \ } else if (utc_rd >= 723727 && utc_rd < 724092) { \ ls = 11; \ } else if (utc_rd >= 724092 && utc_rd < 724823) { \ ls = 12; \ } else if (utc_rd >= 724823 && utc_rd < 725737) { \ ls = 13; \ } else if (utc_rd >= 725737 && utc_rd < 726468) { \ ls = 14; \ } else if (utc_rd >= 726468 && utc_rd < 726833) { \ ls = 15; \ } else if (utc_rd >= 726833 && utc_rd < 727380) { \ ls = 16; \ } else if (utc_rd >= 727380 && utc_rd < 727745) { \ ls = 17; \ } else if (utc_rd >= 727745 && utc_rd < 728110) { \ ls = 18; \ } else if (utc_rd >= 728110 && utc_rd < 728659) { \ ls = 19; \ } else if (utc_rd >= 728659 && utc_rd < 729206) { \ ls = 20; \ } else if (utc_rd >= 729206 && utc_rd < 729755) { \ ls = 21; \ } else if (utc_rd >= 729755 && utc_rd < 732312) { \ ls = 22; \ } else if (utc_rd >= 732312 && utc_rd < 733408) { \ ls = 23; \ } else if (utc_rd >= 733408 && utc_rd < 734685) { \ ls = 24; \ } else { \ ls = 25; \ } \ } \ } #define SET_EXTRA_SECONDS(utc_rd, es) \ { \ { \ es = 0; \ switch (utc_rd) { \ case 720074: es = 1; break; \ case 720258: es = 1; break; \ case 720623: es = 1; break; \ case 720988: es = 1; break; \ case 721353: es = 1; break; \ case 721719: es = 1; break; \ case 722084: es = 1; break; \ case 722449: es = 1; break; \ case 722814: es = 1; break; \ case 723361: es = 1; break; \ case 723726: es = 1; break; \ case 724091: es = 1; break; \ case 724822: es = 1; break; \ case 725736: es = 1; break; \ case 726467: es = 1; break; \ case 726832: es = 1; break; \ case 727379: es = 1; break; \ case 727744: es = 1; break; \ case 728109: es = 1; break; \ case 728658: es = 1; break; \ case 729205: es = 1; break; \ case 729754: es = 1; break; \ case 732311: es = 1; break; \ case 733407: es = 1; break; \ case 734684: es = 1; break; \ } \ } \ } #define SET_DAY_LENGTH(utc_rd, dl) \ { \ { \ dl = 86400; \ switch (utc_rd) { \ case 720074: dl = 86400 + 1; break; \ case 720258: dl = 86400 + 1; break; \ case 720623: dl = 86400 + 1; break; \ case 720988: dl = 86400 + 1; break; \ case 721353: dl = 86400 + 1; break; \ case 721719: dl = 86400 + 1; break; \ case 722084: dl = 86400 + 1; break; \ case 722449: dl = 86400 + 1; break; \ case 722814: dl = 86400 + 1; break; \ case 723361: dl = 86400 + 1; break; \ case 723726: dl = 86400 + 1; break; \ case 724091: dl = 86400 + 1; break; \ case 724822: dl = 86400 + 1; break; \ case 725736: dl = 86400 + 1; break; \ case 726467: dl = 86400 + 1; break; \ case 726832: dl = 86400 + 1; break; \ case 727379: dl = 86400 + 1; break; \ case 727744: dl = 86400 + 1; break; \ case 728109: dl = 86400 + 1; break; \ case 728658: dl = 86400 + 1; break; \ case 729205: dl = 86400 + 1; break; \ case 729754: dl = 86400 + 1; break; \ case 732311: dl = 86400 + 1; break; \ case 733407: dl = 86400 + 1; break; \ case 734684: dl = 86400 + 1; break; \ } \ } \ } DateTime-1.06/c/ppport.h0000644000175000017500000052540612260573461014735 0ustar autarchautarch#if 0 <<'SKIP'; #endif /* ---------------------------------------------------------------------- ppport.h -- Perl/Pollution/Portability Version 3.19 Automatically created by Devel::PPPort running under perl 5.010000. Do NOT edit this file directly! -- Edit PPPort_pm.PL and the includes in parts/inc/ instead. Use 'perldoc ppport.h' to view the documentation below. ---------------------------------------------------------------------- SKIP =pod =head1 NAME ppport.h - Perl/Pollution/Portability version 3.19 =head1 SYNOPSIS perl ppport.h [options] [source files] Searches current directory for files if no [source files] are given --help show short help --version show version --patch=file write one patch file with changes --copy=suffix write changed copies with suffix --diff=program use diff program and options --compat-version=version provide compatibility with Perl version --cplusplus accept C++ comments --quiet don't output anything except fatal errors --nodiag don't show diagnostics --nohints don't show hints --nochanges don't suggest changes --nofilter don't filter input files --strip strip all script and doc functionality from ppport.h --list-provided list provided API --list-unsupported list unsupported API --api-info=name show Perl API portability information =head1 COMPATIBILITY This version of F is designed to support operation with Perl installations back to 5.003, and has been tested up to 5.10.0. =head1 OPTIONS =head2 --help Display a brief usage summary. =head2 --version Display the version of F. =head2 --patch=I If this option is given, a single patch file will be created if any changes are suggested. This requires a working diff program to be installed on your system. =head2 --copy=I If this option is given, a copy of each file will be saved with the given suffix that contains the suggested changes. This does not require any external programs. Note that this does not automagially add a dot between the original filename and the suffix. If you want the dot, you have to include it in the option argument. If neither C<--patch> or C<--copy> are given, the default is to simply print the diffs for each file. This requires either C or a C program to be installed. =head2 --diff=I Manually set the diff program and options to use. The default is to use C, when installed, and output unified context diffs. =head2 --compat-version=I Tell F to check for compatibility with the given Perl version. The default is to check for compatibility with Perl version 5.003. You can use this option to reduce the output of F if you intend to be backward compatible only down to a certain Perl version. =head2 --cplusplus Usually, F will detect C++ style comments and replace them with C style comments for portability reasons. Using this option instructs F to leave C++ comments untouched. =head2 --quiet Be quiet. Don't print anything except fatal errors. =head2 --nodiag Don't output any diagnostic messages. Only portability alerts will be printed. =head2 --nohints Don't output any hints. Hints often contain useful portability notes. Warnings will still be displayed. =head2 --nochanges Don't suggest any changes. Only give diagnostic output and hints unless these are also deactivated. =head2 --nofilter Don't filter the list of input files. By default, files not looking like source code (i.e. not *.xs, *.c, *.cc, *.cpp or *.h) are skipped. =head2 --strip Strip all script and documentation functionality from F. This reduces the size of F dramatically and may be useful if you want to include F in smaller modules without increasing their distribution size too much. The stripped F will have a C<--unstrip> option that allows you to undo the stripping, but only if an appropriate C module is installed. =head2 --list-provided Lists the API elements for which compatibility is provided by F. Also lists if it must be explicitly requested, if it has dependencies, and if there are hints or warnings for it. =head2 --list-unsupported Lists the API elements that are known not to be supported by F and below which version of Perl they probably won't be available or work. =head2 --api-info=I Show portability information for API elements matching I. If I is surrounded by slashes, it is interpreted as a regular expression. =head1 DESCRIPTION In order for a Perl extension (XS) module to be as portable as possible across differing versions of Perl itself, certain steps need to be taken. =over 4 =item * Including this header is the first major one. This alone will give you access to a large part of the Perl API that hasn't been available in earlier Perl releases. Use perl ppport.h --list-provided to see which API elements are provided by ppport.h. =item * You should avoid using deprecated parts of the API. For example, using global Perl variables without the C prefix is deprecated. Also, some API functions used to have a C prefix. Using this form is also deprecated. You can safely use the supported API, as F will provide wrappers for older Perl versions. =item * If you use one of a few functions or variables that were not present in earlier versions of Perl, and that can't be provided using a macro, you have to explicitly request support for these functions by adding one or more C<#define>s in your source code before the inclusion of F. These functions or variables will be marked C in the list shown by C<--list-provided>. Depending on whether you module has a single or multiple files that use such functions or variables, you want either C or global variants. For a C function or variable (used only in a single source file), use: #define NEED_function #define NEED_variable For a global function or variable (used in multiple source files), use: #define NEED_function_GLOBAL #define NEED_variable_GLOBAL Note that you mustn't have more than one global request for the same function or variable in your project. Function / Variable Static Request Global Request ----------------------------------------------------------------------------------------- PL_parser NEED_PL_parser NEED_PL_parser_GLOBAL PL_signals NEED_PL_signals NEED_PL_signals_GLOBAL eval_pv() NEED_eval_pv NEED_eval_pv_GLOBAL grok_bin() NEED_grok_bin NEED_grok_bin_GLOBAL grok_hex() NEED_grok_hex NEED_grok_hex_GLOBAL grok_number() NEED_grok_number NEED_grok_number_GLOBAL grok_numeric_radix() NEED_grok_numeric_radix NEED_grok_numeric_radix_GLOBAL grok_oct() NEED_grok_oct NEED_grok_oct_GLOBAL load_module() NEED_load_module NEED_load_module_GLOBAL my_snprintf() NEED_my_snprintf NEED_my_snprintf_GLOBAL my_sprintf() NEED_my_sprintf NEED_my_sprintf_GLOBAL my_strlcat() NEED_my_strlcat NEED_my_strlcat_GLOBAL my_strlcpy() NEED_my_strlcpy NEED_my_strlcpy_GLOBAL newCONSTSUB() NEED_newCONSTSUB NEED_newCONSTSUB_GLOBAL newRV_noinc() NEED_newRV_noinc NEED_newRV_noinc_GLOBAL newSV_type() NEED_newSV_type NEED_newSV_type_GLOBAL newSVpvn_flags() NEED_newSVpvn_flags NEED_newSVpvn_flags_GLOBAL newSVpvn_share() NEED_newSVpvn_share NEED_newSVpvn_share_GLOBAL pv_display() NEED_pv_display NEED_pv_display_GLOBAL pv_escape() NEED_pv_escape NEED_pv_escape_GLOBAL pv_pretty() NEED_pv_pretty NEED_pv_pretty_GLOBAL sv_2pv_flags() NEED_sv_2pv_flags NEED_sv_2pv_flags_GLOBAL sv_2pvbyte() NEED_sv_2pvbyte NEED_sv_2pvbyte_GLOBAL sv_catpvf_mg() NEED_sv_catpvf_mg NEED_sv_catpvf_mg_GLOBAL sv_catpvf_mg_nocontext() NEED_sv_catpvf_mg_nocontext NEED_sv_catpvf_mg_nocontext_GLOBAL sv_pvn_force_flags() NEED_sv_pvn_force_flags NEED_sv_pvn_force_flags_GLOBAL sv_setpvf_mg() NEED_sv_setpvf_mg NEED_sv_setpvf_mg_GLOBAL sv_setpvf_mg_nocontext() NEED_sv_setpvf_mg_nocontext NEED_sv_setpvf_mg_nocontext_GLOBAL vload_module() NEED_vload_module NEED_vload_module_GLOBAL vnewSVpvf() NEED_vnewSVpvf NEED_vnewSVpvf_GLOBAL warner() NEED_warner NEED_warner_GLOBAL To avoid namespace conflicts, you can change the namespace of the explicitly exported functions / variables using the C macro. Just C<#define> the macro before including C: #define DPPP_NAMESPACE MyOwnNamespace_ #include "ppport.h" The default namespace is C. =back The good thing is that most of the above can be checked by running F on your source code. See the next section for details. =head1 EXAMPLES To verify whether F is needed for your module, whether you should make any changes to your code, and whether any special defines should be used, F can be run as a Perl script to check your source code. Simply say: perl ppport.h The result will usually be a list of patches suggesting changes that should at least be acceptable, if not necessarily the most efficient solution, or a fix for all possible problems. If you know that your XS module uses features only available in newer Perl releases, if you're aware that it uses C++ comments, and if you want all suggestions as a single patch file, you could use something like this: perl ppport.h --compat-version=5.6.0 --cplusplus --patch=test.diff If you only want your code to be scanned without any suggestions for changes, use: perl ppport.h --nochanges You can specify a different C program or options, using the C<--diff> option: perl ppport.h --diff='diff -C 10' This would output context diffs with 10 lines of context. If you want to create patched copies of your files instead, use: perl ppport.h --copy=.new To display portability information for the C function, use: perl ppport.h --api-info=newSVpvn Since the argument to C<--api-info> can be a regular expression, you can use perl ppport.h --api-info=/_nomg$/ to display portability information for all C<_nomg> functions or perl ppport.h --api-info=/./ to display information for all known API elements. =head1 BUGS If this version of F is causing failure during the compilation of this module, please check if newer versions of either this module or C are available on CPAN before sending a bug report. If F was generated using the latest version of C and is causing failure of this module, please file a bug report using the CPAN Request Tracker at L. Please include the following information: =over 4 =item 1. The complete output from running "perl -V" =item 2. This file. =item 3. The name and version of the module you were trying to build. =item 4. A full log of the build that failed. =item 5. Any other information that you think could be relevant. =back For the latest version of this code, please get the C module from CPAN. =head1 COPYRIGHT Version 3.x, Copyright (c) 2004-2009, Marcus Holland-Moritz. Version 2.x, Copyright (C) 2001, Paul Marquess. Version 1.x, Copyright (C) 1999, Kenneth Albanowski. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO See L. =cut use strict; # Disable broken TRIE-optimization BEGIN { eval '${^RE_TRIE_MAXBUF} = -1' if $] >= 5.009004 && $] <= 5.009005 } my $VERSION = 3.19; my %opt = ( quiet => 0, diag => 1, hints => 1, changes => 1, cplusplus => 0, filter => 1, strip => 0, version => 0, ); my($ppport) = $0 =~ /([\w.]+)$/; my $LF = '(?:\r\n|[\r\n])'; # line feed my $HS = "[ \t]"; # horizontal whitespace # Never use C comments in this file! my $ccs = '/'.'*'; my $cce = '*'.'/'; my $rccs = quotemeta $ccs; my $rcce = quotemeta $cce; eval { require Getopt::Long; Getopt::Long::GetOptions(\%opt, qw( help quiet diag! filter! hints! changes! cplusplus strip version patch=s copy=s diff=s compat-version=s list-provided list-unsupported api-info=s )) or usage(); }; if ($@ and grep /^-/, @ARGV) { usage() if "@ARGV" =~ /^--?h(?:elp)?$/; die "Getopt::Long not found. Please don't use any options.\n"; } if ($opt{version}) { print "This is $0 $VERSION.\n"; exit 0; } usage() if $opt{help}; strip() if $opt{strip}; if (exists $opt{'compat-version'}) { my($r,$v,$s) = eval { parse_version($opt{'compat-version'}) }; if ($@) { die "Invalid version number format: '$opt{'compat-version'}'\n"; } die "Only Perl 5 is supported\n" if $r != 5; die "Invalid version number: $opt{'compat-version'}\n" if $v >= 1000 || $s >= 1000; $opt{'compat-version'} = sprintf "%d.%03d%03d", $r, $v, $s; } else { $opt{'compat-version'} = 5; } my %API = map { /^(\w+)\|([^|]*)\|([^|]*)\|(\w*)$/ ? ( $1 => { ($2 ? ( base => $2 ) : ()), ($3 ? ( todo => $3 ) : ()), (index($4, 'v') >= 0 ? ( varargs => 1 ) : ()), (index($4, 'p') >= 0 ? ( provided => 1 ) : ()), (index($4, 'n') >= 0 ? ( nothxarg => 1 ) : ()), } ) : die "invalid spec: $_" } qw( AvFILLp|5.004050||p AvFILL||| CLASS|||n CPERLscope|5.005000||p CX_CURPAD_SAVE||| CX_CURPAD_SV||| CopFILEAV|5.006000||p CopFILEGV_set|5.006000||p CopFILEGV|5.006000||p CopFILESV|5.006000||p CopFILE_set|5.006000||p CopFILE|5.006000||p CopSTASHPV_set|5.006000||p CopSTASHPV|5.006000||p CopSTASH_eq|5.006000||p CopSTASH_set|5.006000||p CopSTASH|5.006000||p CopyD|5.009002||p Copy||| CvPADLIST||| CvSTASH||| CvWEAKOUTSIDE||| DEFSV_set|5.011000||p DEFSV|5.004050||p END_EXTERN_C|5.005000||p ENTER||| ERRSV|5.004050||p EXTEND||| EXTERN_C|5.005000||p F0convert|||n FREETMPS||| GIMME_V||5.004000|n GIMME|||n GROK_NUMERIC_RADIX|5.007002||p G_ARRAY||| G_DISCARD||| G_EVAL||| G_METHOD|5.006001||p G_NOARGS||| G_SCALAR||| G_VOID||5.004000| GetVars||| GvSVn|5.009003||p GvSV||| Gv_AMupdate||| HEf_SVKEY||5.004000| HeHASH||5.004000| HeKEY||5.004000| HeKLEN||5.004000| HePV||5.004000| HeSVKEY_force||5.004000| HeSVKEY_set||5.004000| HeSVKEY||5.004000| HeUTF8||5.011000| HeVAL||5.004000| HvNAMELEN_get|5.009003||p HvNAME_get|5.009003||p HvNAME||| INT2PTR|5.006000||p IN_LOCALE_COMPILETIME|5.007002||p IN_LOCALE_RUNTIME|5.007002||p IN_LOCALE|5.007002||p IN_PERL_COMPILETIME|5.008001||p IS_NUMBER_GREATER_THAN_UV_MAX|5.007002||p IS_NUMBER_INFINITY|5.007002||p IS_NUMBER_IN_UV|5.007002||p IS_NUMBER_NAN|5.007003||p IS_NUMBER_NEG|5.007002||p IS_NUMBER_NOT_INT|5.007002||p IVSIZE|5.006000||p IVTYPE|5.006000||p IVdf|5.006000||p LEAVE||| LVRET||| MARK||| MULTICALL||5.011000| MY_CXT_CLONE|5.009002||p MY_CXT_INIT|5.007003||p MY_CXT|5.007003||p MoveD|5.009002||p Move||| NOOP|5.005000||p NUM2PTR|5.006000||p NVTYPE|5.006000||p NVef|5.006001||p NVff|5.006001||p NVgf|5.006001||p Newxc|5.009003||p Newxz|5.009003||p Newx|5.009003||p Nullav||| Nullch||| Nullcv||| Nullhv||| Nullsv||| ORIGMARK||| PAD_BASE_SV||| PAD_CLONE_VARS||| PAD_COMPNAME_FLAGS||| PAD_COMPNAME_GEN_set||| PAD_COMPNAME_GEN||| PAD_COMPNAME_OURSTASH||| PAD_COMPNAME_PV||| PAD_COMPNAME_TYPE||| PAD_DUP||| PAD_RESTORE_LOCAL||| PAD_SAVE_LOCAL||| PAD_SAVE_SETNULLPAD||| PAD_SETSV||| PAD_SET_CUR_NOSAVE||| PAD_SET_CUR||| PAD_SVl||| PAD_SV||| PERLIO_FUNCS_CAST|5.009003||p PERLIO_FUNCS_DECL|5.009003||p PERL_ABS|5.008001||p PERL_BCDVERSION|5.011000||p PERL_GCC_BRACE_GROUPS_FORBIDDEN|5.008001||p PERL_HASH|5.004000||p PERL_INT_MAX|5.004000||p PERL_INT_MIN|5.004000||p PERL_LONG_MAX|5.004000||p PERL_LONG_MIN|5.004000||p PERL_MAGIC_arylen|5.007002||p PERL_MAGIC_backref|5.007002||p PERL_MAGIC_bm|5.007002||p PERL_MAGIC_collxfrm|5.007002||p PERL_MAGIC_dbfile|5.007002||p PERL_MAGIC_dbline|5.007002||p PERL_MAGIC_defelem|5.007002||p PERL_MAGIC_envelem|5.007002||p PERL_MAGIC_env|5.007002||p PERL_MAGIC_ext|5.007002||p PERL_MAGIC_fm|5.007002||p PERL_MAGIC_glob|5.011000||p PERL_MAGIC_isaelem|5.007002||p PERL_MAGIC_isa|5.007002||p PERL_MAGIC_mutex|5.011000||p PERL_MAGIC_nkeys|5.007002||p PERL_MAGIC_overload_elem|5.007002||p PERL_MAGIC_overload_table|5.007002||p PERL_MAGIC_overload|5.007002||p PERL_MAGIC_pos|5.007002||p PERL_MAGIC_qr|5.007002||p PERL_MAGIC_regdata|5.007002||p PERL_MAGIC_regdatum|5.007002||p PERL_MAGIC_regex_global|5.007002||p PERL_MAGIC_shared_scalar|5.007003||p PERL_MAGIC_shared|5.007003||p PERL_MAGIC_sigelem|5.007002||p PERL_MAGIC_sig|5.007002||p PERL_MAGIC_substr|5.007002||p PERL_MAGIC_sv|5.007002||p PERL_MAGIC_taint|5.007002||p PERL_MAGIC_tiedelem|5.007002||p PERL_MAGIC_tiedscalar|5.007002||p PERL_MAGIC_tied|5.007002||p PERL_MAGIC_utf8|5.008001||p PERL_MAGIC_uvar_elem|5.007003||p PERL_MAGIC_uvar|5.007002||p PERL_MAGIC_vec|5.007002||p PERL_MAGIC_vstring|5.008001||p PERL_PV_ESCAPE_ALL|5.009004||p PERL_PV_ESCAPE_FIRSTCHAR|5.009004||p PERL_PV_ESCAPE_NOBACKSLASH|5.009004||p PERL_PV_ESCAPE_NOCLEAR|5.009004||p PERL_PV_ESCAPE_QUOTE|5.009004||p PERL_PV_ESCAPE_RE|5.009005||p PERL_PV_ESCAPE_UNI_DETECT|5.009004||p PERL_PV_ESCAPE_UNI|5.009004||p PERL_PV_PRETTY_DUMP|5.009004||p PERL_PV_PRETTY_ELLIPSES|5.010000||p PERL_PV_PRETTY_LTGT|5.009004||p PERL_PV_PRETTY_NOCLEAR|5.010000||p PERL_PV_PRETTY_QUOTE|5.009004||p PERL_PV_PRETTY_REGPROP|5.009004||p PERL_QUAD_MAX|5.004000||p PERL_QUAD_MIN|5.004000||p PERL_REVISION|5.006000||p PERL_SCAN_ALLOW_UNDERSCORES|5.007003||p PERL_SCAN_DISALLOW_PREFIX|5.007003||p PERL_SCAN_GREATER_THAN_UV_MAX|5.007003||p PERL_SCAN_SILENT_ILLDIGIT|5.008001||p PERL_SHORT_MAX|5.004000||p PERL_SHORT_MIN|5.004000||p PERL_SIGNALS_UNSAFE_FLAG|5.008001||p PERL_SUBVERSION|5.006000||p PERL_SYS_INIT3||5.006000| PERL_SYS_INIT||| PERL_SYS_TERM||5.011000| PERL_UCHAR_MAX|5.004000||p PERL_UCHAR_MIN|5.004000||p PERL_UINT_MAX|5.004000||p PERL_UINT_MIN|5.004000||p PERL_ULONG_MAX|5.004000||p PERL_ULONG_MIN|5.004000||p PERL_UNUSED_ARG|5.009003||p PERL_UNUSED_CONTEXT|5.009004||p PERL_UNUSED_DECL|5.007002||p PERL_UNUSED_VAR|5.007002||p PERL_UQUAD_MAX|5.004000||p PERL_UQUAD_MIN|5.004000||p PERL_USE_GCC_BRACE_GROUPS|5.009004||p PERL_USHORT_MAX|5.004000||p PERL_USHORT_MIN|5.004000||p PERL_VERSION|5.006000||p PL_DBsignal|5.005000||p PL_DBsingle|||pn PL_DBsub|||pn PL_DBtrace|||pn PL_Sv|5.005000||p PL_bufend|5.011000||p PL_bufptr|5.011000||p PL_compiling|5.004050||p PL_copline|5.011000||p PL_curcop|5.004050||p PL_curstash|5.004050||p PL_debstash|5.004050||p PL_defgv|5.004050||p PL_diehook|5.004050||p PL_dirty|5.004050||p PL_dowarn|||pn PL_errgv|5.004050||p PL_error_count|5.011000||p PL_expect|5.011000||p PL_hexdigit|5.005000||p PL_hints|5.005000||p PL_in_my_stash|5.011000||p PL_in_my|5.011000||p PL_last_in_gv|||n PL_laststatval|5.005000||p PL_lex_state|5.011000||p PL_lex_stuff|5.011000||p PL_linestr|5.011000||p PL_modglobal||5.005000|n PL_na|5.004050||pn PL_no_modify|5.006000||p PL_ofsgv|||n PL_parser|5.009005||p PL_perl_destruct_level|5.004050||p PL_perldb|5.004050||p PL_ppaddr|5.006000||p PL_rsfp_filters|5.004050||p PL_rsfp|5.004050||p PL_rs|||n PL_signals|5.008001||p PL_stack_base|5.004050||p PL_stack_sp|5.004050||p PL_statcache|5.005000||p PL_stdingv|5.004050||p PL_sv_arenaroot|5.004050||p PL_sv_no|5.004050||pn PL_sv_undef|5.004050||pn PL_sv_yes|5.004050||pn PL_tainted|5.004050||p PL_tainting|5.004050||p PL_tokenbuf|5.011000||p POP_MULTICALL||5.011000| POPi|||n POPl|||n POPn|||n POPpbytex||5.007001|n POPpx||5.005030|n POPp|||n POPs|||n PTR2IV|5.006000||p PTR2NV|5.006000||p PTR2UV|5.006000||p PTR2nat|5.009003||p PTR2ul|5.007001||p PTRV|5.006000||p PUSHMARK||| PUSH_MULTICALL||5.011000| PUSHi||| PUSHmortal|5.009002||p PUSHn||| PUSHp||| PUSHs||| PUSHu|5.004000||p PUTBACK||| PerlIO_clearerr||5.007003| PerlIO_close||5.007003| PerlIO_context_layers||5.009004| PerlIO_eof||5.007003| PerlIO_error||5.007003| PerlIO_fileno||5.007003| PerlIO_fill||5.007003| PerlIO_flush||5.007003| PerlIO_get_base||5.007003| PerlIO_get_bufsiz||5.007003| PerlIO_get_cnt||5.007003| PerlIO_get_ptr||5.007003| PerlIO_read||5.007003| PerlIO_seek||5.007003| PerlIO_set_cnt||5.007003| PerlIO_set_ptrcnt||5.007003| PerlIO_setlinebuf||5.007003| PerlIO_stderr||5.007003| PerlIO_stdin||5.007003| PerlIO_stdout||5.007003| PerlIO_tell||5.007003| PerlIO_unread||5.007003| PerlIO_write||5.007003| Perl_signbit||5.009005|n PoisonFree|5.009004||p PoisonNew|5.009004||p PoisonWith|5.009004||p Poison|5.008000||p RETVAL|||n Renewc||| Renew||| SAVECLEARSV||| SAVECOMPPAD||| SAVEPADSV||| SAVETMPS||| SAVE_DEFSV|5.004050||p SPAGAIN||| SP||| START_EXTERN_C|5.005000||p START_MY_CXT|5.007003||p STMT_END|||p STMT_START|||p STR_WITH_LEN|5.009003||p ST||| SV_CONST_RETURN|5.009003||p SV_COW_DROP_PV|5.008001||p SV_COW_SHARED_HASH_KEYS|5.009005||p SV_GMAGIC|5.007002||p SV_HAS_TRAILING_NUL|5.009004||p SV_IMMEDIATE_UNREF|5.007001||p SV_MUTABLE_RETURN|5.009003||p SV_NOSTEAL|5.009002||p SV_SMAGIC|5.009003||p SV_UTF8_NO_ENCODING|5.008001||p SVfARG|5.009005||p SVf_UTF8|5.006000||p SVf|5.006000||p SVt_IV||| SVt_NV||| SVt_PVAV||| SVt_PVCV||| SVt_PVHV||| SVt_PVMG||| SVt_PV||| Safefree||| Slab_Alloc||| Slab_Free||| Slab_to_rw||| StructCopy||| SvCUR_set||| SvCUR||| SvEND||| SvGAMAGIC||5.006001| SvGETMAGIC|5.004050||p SvGROW||| SvIOK_UV||5.006000| SvIOK_notUV||5.006000| SvIOK_off||| SvIOK_only_UV||5.006000| SvIOK_only||| SvIOK_on||| SvIOKp||| SvIOK||| SvIVX||| SvIV_nomg|5.009001||p SvIV_set||| SvIVx||| SvIV||| SvIsCOW_shared_hash||5.008003| SvIsCOW||5.008003| SvLEN_set||| SvLEN||| SvLOCK||5.007003| SvMAGIC_set|5.009003||p SvNIOK_off||| SvNIOKp||| SvNIOK||| SvNOK_off||| SvNOK_only||| SvNOK_on||| SvNOKp||| SvNOK||| SvNVX||| SvNV_set||| SvNVx||| SvNV||| SvOK||| SvOOK_offset||5.011000| SvOOK||| SvPOK_off||| SvPOK_only_UTF8||5.006000| SvPOK_only||| SvPOK_on||| SvPOKp||| SvPOK||| SvPVX_const|5.009003||p SvPVX_mutable|5.009003||p SvPVX||| SvPV_const|5.009003||p SvPV_flags_const_nolen|5.009003||p SvPV_flags_const|5.009003||p SvPV_flags_mutable|5.009003||p SvPV_flags|5.007002||p SvPV_force_flags_mutable|5.009003||p SvPV_force_flags_nolen|5.009003||p SvPV_force_flags|5.007002||p SvPV_force_mutable|5.009003||p SvPV_force_nolen|5.009003||p SvPV_force_nomg_nolen|5.009003||p SvPV_force_nomg|5.007002||p SvPV_force|||p SvPV_mutable|5.009003||p SvPV_nolen_const|5.009003||p SvPV_nolen|5.006000||p SvPV_nomg_const_nolen|5.009003||p SvPV_nomg_const|5.009003||p SvPV_nomg|5.007002||p SvPV_renew|5.009003||p SvPV_set||| SvPVbyte_force||5.009002| SvPVbyte_nolen||5.006000| SvPVbytex_force||5.006000| SvPVbytex||5.006000| SvPVbyte|5.006000||p SvPVutf8_force||5.006000| SvPVutf8_nolen||5.006000| SvPVutf8x_force||5.006000| SvPVutf8x||5.006000| SvPVutf8||5.006000| SvPVx||| SvPV||| SvREFCNT_dec||| SvREFCNT_inc_NN|5.009004||p SvREFCNT_inc_simple_NN|5.009004||p SvREFCNT_inc_simple_void_NN|5.009004||p SvREFCNT_inc_simple_void|5.009004||p SvREFCNT_inc_simple|5.009004||p SvREFCNT_inc_void_NN|5.009004||p SvREFCNT_inc_void|5.009004||p SvREFCNT_inc|||p SvREFCNT||| SvROK_off||| SvROK_on||| SvROK||| SvRV_set|5.009003||p SvRV||| SvRXOK||5.009005| SvRX||5.009005| SvSETMAGIC||| SvSHARED_HASH|5.009003||p SvSHARE||5.007003| SvSTASH_set|5.009003||p SvSTASH||| SvSetMagicSV_nosteal||5.004000| SvSetMagicSV||5.004000| SvSetSV_nosteal||5.004000| SvSetSV||| SvTAINTED_off||5.004000| SvTAINTED_on||5.004000| SvTAINTED||5.004000| SvTAINT||| SvTRUE||| SvTYPE||| SvUNLOCK||5.007003| SvUOK|5.007001|5.006000|p SvUPGRADE||| SvUTF8_off||5.006000| SvUTF8_on||5.006000| SvUTF8||5.006000| SvUVXx|5.004000||p SvUVX|5.004000||p SvUV_nomg|5.009001||p SvUV_set|5.009003||p SvUVx|5.004000||p SvUV|5.004000||p SvVOK||5.008001| SvVSTRING_mg|5.009004||p THIS|||n UNDERBAR|5.009002||p UTF8_MAXBYTES|5.009002||p UVSIZE|5.006000||p UVTYPE|5.006000||p UVXf|5.007001||p UVof|5.006000||p UVuf|5.006000||p UVxf|5.006000||p WARN_ALL|5.006000||p WARN_AMBIGUOUS|5.006000||p WARN_ASSERTIONS|5.011000||p WARN_BAREWORD|5.006000||p WARN_CLOSED|5.006000||p WARN_CLOSURE|5.006000||p WARN_DEBUGGING|5.006000||p WARN_DEPRECATED|5.006000||p WARN_DIGIT|5.006000||p WARN_EXEC|5.006000||p WARN_EXITING|5.006000||p WARN_GLOB|5.006000||p WARN_INPLACE|5.006000||p WARN_INTERNAL|5.006000||p WARN_IO|5.006000||p WARN_LAYER|5.008000||p WARN_MALLOC|5.006000||p WARN_MISC|5.006000||p WARN_NEWLINE|5.006000||p WARN_NUMERIC|5.006000||p WARN_ONCE|5.006000||p WARN_OVERFLOW|5.006000||p WARN_PACK|5.006000||p WARN_PARENTHESIS|5.006000||p WARN_PIPE|5.006000||p WARN_PORTABLE|5.006000||p WARN_PRECEDENCE|5.006000||p WARN_PRINTF|5.006000||p WARN_PROTOTYPE|5.006000||p WARN_QW|5.006000||p WARN_RECURSION|5.006000||p WARN_REDEFINE|5.006000||p WARN_REGEXP|5.006000||p WARN_RESERVED|5.006000||p WARN_SEMICOLON|5.006000||p WARN_SEVERE|5.006000||p WARN_SIGNAL|5.006000||p WARN_SUBSTR|5.006000||p WARN_SYNTAX|5.006000||p WARN_TAINT|5.006000||p WARN_THREADS|5.008000||p WARN_UNINITIALIZED|5.006000||p WARN_UNOPENED|5.006000||p WARN_UNPACK|5.006000||p WARN_UNTIE|5.006000||p WARN_UTF8|5.006000||p WARN_VOID|5.006000||p XCPT_CATCH|5.009002||p XCPT_RETHROW|5.009002||p XCPT_TRY_END|5.009002||p XCPT_TRY_START|5.009002||p XPUSHi||| XPUSHmortal|5.009002||p XPUSHn||| XPUSHp||| XPUSHs||| XPUSHu|5.004000||p XSPROTO|5.010000||p XSRETURN_EMPTY||| XSRETURN_IV||| XSRETURN_NO||| XSRETURN_NV||| XSRETURN_PV||| XSRETURN_UNDEF||| XSRETURN_UV|5.008001||p XSRETURN_YES||| XSRETURN|||p XST_mIV||| XST_mNO||| XST_mNV||| XST_mPV||| XST_mUNDEF||| XST_mUV|5.008001||p XST_mYES||| XS_VERSION_BOOTCHECK||| XS_VERSION||| XSprePUSH|5.006000||p XS||| ZeroD|5.009002||p Zero||| _aMY_CXT|5.007003||p _pMY_CXT|5.007003||p aMY_CXT_|5.007003||p aMY_CXT|5.007003||p aTHXR_|5.011000||p aTHXR|5.011000||p aTHX_|5.006000||p aTHX|5.006000||p add_data|||n addmad||| allocmy||| amagic_call||| amagic_cmp_locale||| amagic_cmp||| amagic_i_ncmp||| amagic_ncmp||| any_dup||| ao||| append_elem||| append_list||| append_madprops||| apply_attrs_my||| apply_attrs_string||5.006001| apply_attrs||| apply||| atfork_lock||5.007003|n atfork_unlock||5.007003|n av_arylen_p||5.009003| av_clear||| av_create_and_push||5.009005| av_create_and_unshift_one||5.009005| av_delete||5.006000| av_exists||5.006000| av_extend||| av_fetch||| av_fill||| av_iter_p||5.011000| av_len||| av_make||| av_pop||| av_push||| av_reify||| av_shift||| av_store||| av_undef||| av_unshift||| ax|||n bad_type||| bind_match||| block_end||| block_gimme||5.004000| block_start||| boolSV|5.004000||p boot_core_PerlIO||| boot_core_UNIVERSAL||| boot_core_mro||| bytes_from_utf8||5.007001| bytes_to_uni|||n bytes_to_utf8||5.006001| call_argv|5.006000||p call_atexit||5.006000| call_list||5.004000| call_method|5.006000||p call_pv|5.006000||p call_sv|5.006000||p calloc||5.007002|n cando||| cast_i32||5.006000| cast_iv||5.006000| cast_ulong||5.006000| cast_uv||5.006000| check_type_and_open||| check_uni||| checkcomma||| checkposixcc||| ckWARN|5.006000||p ck_anoncode||| ck_bitop||| ck_concat||| ck_defined||| ck_delete||| ck_die||| ck_each||| ck_eof||| ck_eval||| ck_exec||| ck_exists||| ck_exit||| ck_ftst||| ck_fun||| ck_glob||| ck_grep||| ck_index||| ck_join||| ck_lfun||| ck_listiob||| ck_match||| ck_method||| ck_null||| ck_open||| ck_readline||| ck_repeat||| ck_require||| ck_return||| ck_rfun||| ck_rvconst||| ck_sassign||| ck_select||| ck_shift||| ck_sort||| ck_spair||| ck_split||| ck_subr||| ck_substr||| ck_svconst||| ck_trunc||| ck_unpack||| ckwarn_d||5.009003| ckwarn||5.009003| cl_and|||n cl_anything|||n cl_init_zero|||n cl_init|||n cl_is_anything|||n cl_or|||n clear_placeholders||| closest_cop||| convert||| cop_free||| cr_textfilter||| create_eval_scope||| croak_nocontext|||vn croak_xs_usage||5.011000| croak|||v csighandler||5.009003|n curmad||| custom_op_desc||5.007003| custom_op_name||5.007003| cv_ckproto_len||| cv_clone||| cv_const_sv||5.004000| cv_dump||| cv_undef||| cx_dump||5.005000| cx_dup||| cxinc||| dAXMARK|5.009003||p dAX|5.007002||p dITEMS|5.007002||p dMARK||| dMULTICALL||5.009003| dMY_CXT_SV|5.007003||p dMY_CXT|5.007003||p dNOOP|5.006000||p dORIGMARK||| dSP||| dTHR|5.004050||p dTHXR|5.011000||p dTHXa|5.006000||p dTHXoa|5.006000||p dTHX|5.006000||p dUNDERBAR|5.009002||p dVAR|5.009003||p dXCPT|5.009002||p dXSARGS||| dXSI32||| dXSTARG|5.006000||p deb_curcv||| deb_nocontext|||vn deb_stack_all||| deb_stack_n||| debop||5.005000| debprofdump||5.005000| debprof||| debstackptrs||5.007003| debstack||5.007003| debug_start_match||| deb||5.007003|v del_sv||| delete_eval_scope||| delimcpy||5.004000| deprecate_old||| deprecate||| despatch_signals||5.007001| destroy_matcher||| die_nocontext|||vn die_where||| die|||v dirp_dup||| div128||| djSP||| do_aexec5||| do_aexec||| do_aspawn||| do_binmode||5.004050| do_chomp||| do_chop||| do_close||| do_dump_pad||| do_eof||| do_exec3||| do_execfree||| do_exec||| do_gv_dump||5.006000| do_gvgv_dump||5.006000| do_hv_dump||5.006000| do_ipcctl||| do_ipcget||| do_join||| do_kv||| do_magic_dump||5.006000| do_msgrcv||| do_msgsnd||| do_oddball||| do_op_dump||5.006000| do_op_xmldump||| do_open9||5.006000| do_openn||5.007001| do_open||5.004000| do_pmop_dump||5.006000| do_pmop_xmldump||| do_print||| do_readline||| do_seek||| do_semop||| do_shmio||| do_smartmatch||| do_spawn_nowait||| do_spawn||| do_sprintf||| do_sv_dump||5.006000| do_sysseek||| do_tell||| do_trans_complex_utf8||| do_trans_complex||| do_trans_count_utf8||| do_trans_count||| do_trans_simple_utf8||| do_trans_simple||| do_trans||| do_vecget||| do_vecset||| do_vop||| docatch||| doeval||| dofile||| dofindlabel||| doform||| doing_taint||5.008001|n dooneliner||| doopen_pm||| doparseform||| dopoptoeval||| dopoptogiven||| dopoptolabel||| dopoptoloop||| dopoptosub_at||| dopoptowhen||| doref||5.009003| dounwind||| dowantarray||| dump_all||5.006000| dump_eval||5.006000| dump_exec_pos||| dump_fds||| dump_form||5.006000| dump_indent||5.006000|v dump_mstats||| dump_packsubs||5.006000| dump_sub||5.006000| dump_sv_child||| dump_trie_interim_list||| dump_trie_interim_table||| dump_trie||| dump_vindent||5.006000| dumpuntil||| dup_attrlist||| emulate_cop_io||| eval_pv|5.006000||p eval_sv|5.006000||p exec_failed||| expect_number||| fbm_compile||5.005000| fbm_instr||5.005000| feature_is_enabled||| fetch_cop_label||5.011000| filter_add||| filter_del||| filter_gets||| filter_read||| find_and_forget_pmops||| find_array_subscript||| find_beginning||| find_byclass||| find_hash_subscript||| find_in_my_stash||| find_runcv||5.008001| find_rundefsvoffset||5.009002| find_script||| find_uninit_var||| first_symbol|||n fold_constants||| forbid_setid||| force_ident||| force_list||| force_next||| force_version||| force_word||| forget_pmop||| form_nocontext|||vn form||5.004000|v fp_dup||| fprintf_nocontext|||vn free_global_struct||| free_tied_hv_pool||| free_tmps||| gen_constant_list||| get_arena||| get_aux_mg||| get_av|5.006000||p get_context||5.006000|n get_cvn_flags||5.009005| get_cv|5.006000||p get_db_sub||| get_debug_opts||| get_hash_seed||| get_hv|5.006000||p get_isa_hash||| get_mstats||| get_no_modify||| get_num||| get_op_descs||5.005000| get_op_names||5.005000| get_opargs||| get_ppaddr||5.006000| get_re_arg||| get_sv|5.006000||p get_vtbl||5.005030| getcwd_sv||5.007002| getenv_len||| glob_2number||| glob_assign_glob||| glob_assign_ref||| gp_dup||| gp_free||| gp_ref||| grok_bin|5.007003||p grok_hex|5.007003||p grok_number|5.007002||p grok_numeric_radix|5.007002||p grok_oct|5.007003||p group_end||| gv_AVadd||| gv_HVadd||| gv_IOadd||| gv_SVadd||| gv_autoload4||5.004000| gv_check||| gv_const_sv||5.009003| gv_dump||5.006000| gv_efullname3||5.004000| gv_efullname4||5.006001| gv_efullname||| gv_ename||| gv_fetchfile_flags||5.009005| gv_fetchfile||| gv_fetchmeth_autoload||5.007003| gv_fetchmethod_autoload||5.004000| gv_fetchmethod_flags||5.011000| gv_fetchmethod||| gv_fetchmeth||| gv_fetchpvn_flags|5.009002||p gv_fetchpvs|5.009004||p gv_fetchpv||| gv_fetchsv||5.009002| gv_fullname3||5.004000| gv_fullname4||5.006001| gv_fullname||| gv_get_super_pkg||| gv_handler||5.007001| gv_init_sv||| gv_init||| gv_name_set||5.009004| gv_stashpvn|5.004000||p gv_stashpvs|5.009003||p gv_stashpv||| gv_stashsv||| he_dup||| hek_dup||| hfreeentries||| hsplit||| hv_assert||5.011000| hv_auxinit|||n hv_backreferences_p||| hv_clear_placeholders||5.009001| hv_clear||| hv_common_key_len||5.010000| hv_common||5.010000| hv_copy_hints_hv||| hv_delayfree_ent||5.004000| hv_delete_common||| hv_delete_ent||5.004000| hv_delete||| hv_eiter_p||5.009003| hv_eiter_set||5.009003| hv_exists_ent||5.004000| hv_exists||| hv_fetch_ent||5.004000| hv_fetchs|5.009003||p hv_fetch||| hv_free_ent||5.004000| hv_iterinit||| hv_iterkeysv||5.004000| hv_iterkey||| hv_iternext_flags||5.008000| hv_iternextsv||| hv_iternext||| hv_iterval||| hv_kill_backrefs||| hv_ksplit||5.004000| hv_magic_check|||n hv_magic||| hv_name_set||5.009003| hv_notallowed||| hv_placeholders_get||5.009003| hv_placeholders_p||5.009003| hv_placeholders_set||5.009003| hv_riter_p||5.009003| hv_riter_set||5.009003| hv_scalar||5.009001| hv_store_ent||5.004000| hv_store_flags||5.008000| hv_stores|5.009004||p hv_store||| hv_undef||| ibcmp_locale||5.004000| ibcmp_utf8||5.007003| ibcmp||| incline||| incpush_if_exists||| incpush_use_sep||| incpush||| ingroup||| init_argv_symbols||| init_debugger||| init_global_struct||| init_i18nl10n||5.006000| init_i18nl14n||5.006000| init_ids||| init_interp||| init_main_stash||| init_perllib||| init_postdump_symbols||| init_predump_symbols||| init_stacks||5.005000| init_tm||5.007002| instr||| intro_my||| intuit_method||| intuit_more||| invert||| io_close||| isALNUMC|5.006000||p isALNUM||| isALPHA||| isASCII|5.006000||p isBLANK|5.006001||p isCNTRL|5.006000||p isDIGIT||| isGRAPH|5.006000||p isGV_with_GP|5.009004||p isLOWER||| isPRINT|5.004000||p isPSXSPC|5.006001||p isPUNCT|5.006000||p isSPACE||| isUPPER||| isXDIGIT|5.006000||p is_an_int||| is_gv_magical_sv||| is_handle_constructor|||n is_list_assignment||| is_lvalue_sub||5.007001| is_uni_alnum_lc||5.006000| is_uni_alnumc_lc||5.006000| is_uni_alnumc||5.006000| is_uni_alnum||5.006000| is_uni_alpha_lc||5.006000| is_uni_alpha||5.006000| is_uni_ascii_lc||5.006000| is_uni_ascii||5.006000| is_uni_cntrl_lc||5.006000| is_uni_cntrl||5.006000| is_uni_digit_lc||5.006000| is_uni_digit||5.006000| is_uni_graph_lc||5.006000| is_uni_graph||5.006000| is_uni_idfirst_lc||5.006000| is_uni_idfirst||5.006000| is_uni_lower_lc||5.006000| is_uni_lower||5.006000| is_uni_print_lc||5.006000| is_uni_print||5.006000| is_uni_punct_lc||5.006000| is_uni_punct||5.006000| is_uni_space_lc||5.006000| is_uni_space||5.006000| is_uni_upper_lc||5.006000| is_uni_upper||5.006000| is_uni_xdigit_lc||5.006000| is_uni_xdigit||5.006000| is_utf8_alnumc||5.006000| is_utf8_alnum||5.006000| is_utf8_alpha||5.006000| is_utf8_ascii||5.006000| is_utf8_char_slow|||n is_utf8_char||5.006000| is_utf8_cntrl||5.006000| is_utf8_common||| is_utf8_digit||5.006000| is_utf8_graph||5.006000| is_utf8_idcont||5.008000| is_utf8_idfirst||5.006000| is_utf8_lower||5.006000| is_utf8_mark||5.006000| is_utf8_print||5.006000| is_utf8_punct||5.006000| is_utf8_space||5.006000| is_utf8_string_loclen||5.009003| is_utf8_string_loc||5.008001| is_utf8_string||5.006001| is_utf8_upper||5.006000| is_utf8_xdigit||5.006000| isa_lookup||| items|||n ix|||n jmaybe||| join_exact||| keyword||| leave_scope||| lex_end||| lex_start||| linklist||| listkids||| list||| load_module_nocontext|||vn load_module|5.006000||pv localize||| looks_like_bool||| looks_like_number||| lop||| mPUSHi|5.009002||p mPUSHn|5.009002||p mPUSHp|5.009002||p mPUSHs|5.011000||p mPUSHu|5.009002||p mXPUSHi|5.009002||p mXPUSHn|5.009002||p mXPUSHp|5.009002||p mXPUSHs|5.011000||p mXPUSHu|5.009002||p mad_free||| madlex||| madparse||| magic_clear_all_env||| magic_clearenv||| magic_clearhint||| magic_clearisa||| magic_clearpack||| magic_clearsig||| magic_dump||5.006000| magic_existspack||| magic_freearylen_p||| magic_freeovrld||| magic_getarylen||| magic_getdefelem||| magic_getnkeys||| magic_getpack||| magic_getpos||| magic_getsig||| magic_getsubstr||| magic_gettaint||| magic_getuvar||| magic_getvec||| magic_get||| magic_killbackrefs||| magic_len||| magic_methcall||| magic_methpack||| magic_nextpack||| magic_regdata_cnt||| magic_regdatum_get||| magic_regdatum_set||| magic_scalarpack||| magic_set_all_env||| magic_setamagic||| magic_setarylen||| magic_setcollxfrm||| magic_setdbline||| magic_setdefelem||| magic_setenv||| magic_sethint||| magic_setisa||| magic_setmglob||| magic_setnkeys||| magic_setpack||| magic_setpos||| magic_setregexp||| magic_setsig||| magic_setsubstr||| magic_settaint||| magic_setutf8||| magic_setuvar||| magic_setvec||| magic_set||| magic_sizepack||| magic_wipepack||| make_matcher||| make_trie_failtable||| make_trie||| malloc_good_size|||n malloced_size|||n malloc||5.007002|n markstack_grow||| matcher_matches_sv||| measure_struct||| memEQ|5.004000||p memNE|5.004000||p mem_collxfrm||| mem_log_common|||n mess_alloc||| mess_nocontext|||vn mess||5.006000|v method_common||| mfree||5.007002|n mg_clear||| mg_copy||| mg_dup||| mg_find||| mg_free||| mg_get||| mg_length||5.005000| mg_localize||| mg_magical||| mg_set||| mg_size||5.005000| mini_mktime||5.007002| missingterm||| mode_from_discipline||| modkids||| mod||| more_bodies||| more_sv||| moreswitches||| mro_get_from_name||5.011000| mro_get_linear_isa_dfs||| mro_get_linear_isa||5.009005| mro_get_private_data||5.011000| mro_isa_changed_in||| mro_meta_dup||| mro_meta_init||| mro_method_changed_in||5.009005| mro_register||5.011000| mro_set_mro||5.011000| mro_set_private_data||5.011000| mul128||| mulexp10|||n my_atof2||5.007002| my_atof||5.006000| my_attrs||| my_bcopy|||n my_betoh16|||n my_betoh32|||n my_betoh64|||n my_betohi|||n my_betohl|||n my_betohs|||n my_bzero|||n my_chsize||| my_clearenv||| my_cxt_index||| my_cxt_init||| my_dirfd||5.009005| my_exit_jump||| my_exit||| my_failure_exit||5.004000| my_fflush_all||5.006000| my_fork||5.007003|n my_htobe16|||n my_htobe32|||n my_htobe64|||n my_htobei|||n my_htobel|||n my_htobes|||n my_htole16|||n my_htole32|||n my_htole64|||n my_htolei|||n my_htolel|||n my_htoles|||n my_htonl||| my_kid||| my_letoh16|||n my_letoh32|||n my_letoh64|||n my_letohi|||n my_letohl|||n my_letohs|||n my_lstat||| my_memcmp||5.004000|n my_memset|||n my_ntohl||| my_pclose||5.004000| my_popen_list||5.007001| my_popen||5.004000| my_setenv||| my_snprintf|5.009004||pvn my_socketpair||5.007003|n my_sprintf|5.009003||pvn my_stat||| my_strftime||5.007002| my_strlcat|5.009004||pn my_strlcpy|5.009004||pn my_swabn|||n my_swap||| my_unexec||| my_vsnprintf||5.009004|n need_utf8|||n newANONATTRSUB||5.006000| newANONHASH||| newANONLIST||| newANONSUB||| newASSIGNOP||| newATTRSUB||5.006000| newAVREF||| newAV||| newBINOP||| newCONDOP||| newCONSTSUB|5.004050||p newCVREF||| newDEFSVOP||| newFORM||| newFOROP||| newGIVENOP||5.009003| newGIVWHENOP||| newGP||| newGVOP||| newGVREF||| newGVgen||| newHVREF||| newHVhv||5.005000| newHV||| newIO||| newLISTOP||| newLOGOP||| newLOOPEX||| newLOOPOP||| newMADPROP||| newMADsv||| newMYSUB||| newNULLLIST||| newOP||| newPADOP||| newPMOP||| newPROG||| newPVOP||| newRANGE||| newRV_inc|5.004000||p newRV_noinc|5.004000||p newRV||| newSLICEOP||| newSTATEOP||| newSUB||| newSVOP||| newSVREF||| newSV_type|5.009005||p newSVhek||5.009003| newSViv||| newSVnv||| newSVpvf_nocontext|||vn newSVpvf||5.004000|v newSVpvn_flags|5.011000||p newSVpvn_share|5.007001||p newSVpvn_utf8|5.011000||p newSVpvn|5.004050||p newSVpvs_flags|5.011000||p newSVpvs_share||5.009003| newSVpvs|5.009003||p newSVpv||| newSVrv||| newSVsv||| newSVuv|5.006000||p newSV||| newTOKEN||| newUNOP||| newWHENOP||5.009003| newWHILEOP||5.009003| newXS_flags||5.009004| newXSproto||5.006000| newXS||5.006000| new_collate||5.006000| new_constant||| new_ctype||5.006000| new_he||| new_logop||| new_numeric||5.006000| new_stackinfo||5.005000| new_version||5.009000| new_warnings_bitfield||| next_symbol||| nextargv||| nextchar||| ninstr||| no_bareword_allowed||| no_fh_allowed||| no_op||| not_a_number||| nothreadhook||5.008000| nuke_stacks||| num_overflow|||n offer_nice_chunk||| oopsAV||| oopsHV||| op_clear||| op_const_sv||| op_dump||5.006000| op_free||| op_getmad_weak||| op_getmad||| op_null||5.007002| op_refcnt_dec||| op_refcnt_inc||| op_refcnt_lock||5.009002| op_refcnt_unlock||5.009002| op_xmldump||| open_script||| pMY_CXT_|5.007003||p pMY_CXT|5.007003||p pTHX_|5.006000||p pTHX|5.006000||p packWARN|5.007003||p pack_cat||5.007003| pack_rec||| package||| packlist||5.008001| pad_add_anon||| pad_add_name||| pad_alloc||| pad_block_start||| pad_check_dup||| pad_compname_type||| pad_findlex||| pad_findmy||| pad_fixup_inner_anons||| pad_free||| pad_leavemy||| pad_new||| pad_peg|||n pad_push||| pad_reset||| pad_setsv||| pad_sv||5.011000| pad_swipe||| pad_tidy||| pad_undef||| parse_body||| parse_unicode_opts||| parser_dup||| parser_free||| path_is_absolute|||n peep||| pending_Slabs_to_ro||| perl_alloc_using|||n perl_alloc|||n perl_clone_using|||n perl_clone|||n perl_construct|||n perl_destruct||5.007003|n perl_free|||n perl_parse||5.006000|n perl_run|||n pidgone||| pm_description||| pmflag||| pmop_dump||5.006000| pmop_xmldump||| pmruntime||| pmtrans||| pop_scope||| pregcomp||5.009005| pregexec||| pregfree2||5.011000| pregfree||| prepend_elem||| prepend_madprops||| printbuf||| printf_nocontext|||vn process_special_blocks||| ptr_table_clear||5.009005| ptr_table_fetch||5.009005| ptr_table_find|||n ptr_table_free||5.009005| ptr_table_new||5.009005| ptr_table_split||5.009005| ptr_table_store||5.009005| push_scope||| put_byte||| pv_display|5.006000||p pv_escape|5.009004||p pv_pretty|5.009004||p pv_uni_display||5.007003| qerror||| qsortsvu||| re_compile||5.009005| re_croak2||| re_dup_guts||| re_intuit_start||5.009005| re_intuit_string||5.006000| readpipe_override||| realloc||5.007002|n reentrant_free||| reentrant_init||| reentrant_retry|||vn reentrant_size||| ref_array_or_hash||| refcounted_he_chain_2hv||| refcounted_he_fetch||| refcounted_he_free||| refcounted_he_new_common||| refcounted_he_new||| refcounted_he_value||| refkids||| refto||| ref||5.011000| reg_check_named_buff_matched||| reg_named_buff_all||5.009005| reg_named_buff_exists||5.009005| reg_named_buff_fetch||5.009005| reg_named_buff_firstkey||5.009005| reg_named_buff_iter||| reg_named_buff_nextkey||5.009005| reg_named_buff_scalar||5.009005| reg_named_buff||| reg_namedseq||| reg_node||| reg_numbered_buff_fetch||| reg_numbered_buff_length||| reg_numbered_buff_store||| reg_qr_package||| reg_recode||| reg_scan_name||| reg_skipcomment||| reg_temp_copy||| reganode||| regatom||| regbranch||| regclass_swash||5.009004| regclass||| regcppop||| regcppush||| regcurly|||n regdump_extflags||| regdump||5.005000| regdupe_internal||| regexec_flags||5.005000| regfree_internal||5.009005| reghop3|||n reghop4|||n reghopmaybe3|||n reginclass||| reginitcolors||5.006000| reginsert||| regmatch||| regnext||5.005000| regpiece||| regpposixcc||| regprop||| regrepeat||| regtail_study||| regtail||| regtry||| reguni||| regwhite|||n reg||| repeatcpy||| report_evil_fh||| report_uninit||| require_pv||5.006000| require_tie_mod||| restore_magic||| rninstr||| rsignal_restore||| rsignal_save||| rsignal_state||5.004000| rsignal||5.004000| run_body||| run_user_filter||| runops_debug||5.005000| runops_standard||5.005000| rvpv_dup||| rxres_free||| rxres_restore||| rxres_save||| safesyscalloc||5.006000|n safesysfree||5.006000|n safesysmalloc||5.006000|n safesysrealloc||5.006000|n same_dirent||| save_I16||5.004000| save_I32||| save_I8||5.006000| save_adelete||5.011000| save_aelem||5.004050| save_alloc||5.006000| save_aptr||| save_ary||| save_bool||5.008001| save_clearsv||| save_delete||| save_destructor_x||5.006000| save_destructor||5.006000| save_freeop||| save_freepv||| save_freesv||| save_generic_pvref||5.006001| save_generic_svref||5.005030| save_gp||5.004000| save_hash||| save_hek_flags|||n save_helem_flags||5.011000| save_helem||5.004050| save_hints||| save_hptr||| save_int||| save_item||| save_iv||5.005000| save_lines||| save_list||| save_long||| save_magic||| save_mortalizesv||5.007001| save_nogv||| save_op||| save_padsv_and_mortalize||5.011000| save_pptr||| save_pushi32ptr||| save_pushptri32ptr||| save_pushptrptr||| save_pushptr||5.011000| save_re_context||5.006000| save_scalar_at||| save_scalar||| save_set_svflags||5.009000| save_shared_pvref||5.007003| save_sptr||| save_svref||| save_vptr||5.006000| savepvn||| savepvs||5.009003| savepv||| savesharedpvn||5.009005| savesharedpv||5.007003| savestack_grow_cnt||5.008001| savestack_grow||| savesvpv||5.009002| sawparens||| scalar_mod_type|||n scalarboolean||| scalarkids||| scalarseq||| scalarvoid||| scalar||| scan_bin||5.006000| scan_commit||| scan_const||| scan_formline||| scan_heredoc||| scan_hex||| scan_ident||| scan_inputsymbol||| scan_num||5.007001| scan_oct||| scan_pat||| scan_str||| scan_subst||| scan_trans||| scan_version||5.009001| scan_vstring||5.009005| scan_word||| scope||| screaminstr||5.005000| search_const||| seed||5.008001| sequence_num||| sequence_tail||| sequence||| set_context||5.006000|n set_numeric_local||5.006000| set_numeric_radix||5.006000| set_numeric_standard||5.006000| setdefout||| share_hek_flags||| share_hek||5.004000| si_dup||| sighandler|||n simplify_sort||| skipspace0||| skipspace1||| skipspace2||| skipspace||| softref2xv||| sortcv_stacked||| sortcv_xsub||| sortcv||| sortsv_flags||5.009003| sortsv||5.007003| space_join_names_mortal||| ss_dup||| stack_grow||| start_force||| start_glob||| start_subparse||5.004000| stashpv_hvname_match||5.011000| stdize_locale||| store_cop_label||| strEQ||| strGE||| strGT||| strLE||| strLT||| strNE||| str_to_version||5.006000| strip_return||| strnEQ||| strnNE||| study_chunk||| sub_crush_depth||| sublex_done||| sublex_push||| sublex_start||| sv_2bool||| sv_2cv||| sv_2io||| sv_2iuv_common||| sv_2iuv_non_preserve||| sv_2iv_flags||5.009001| sv_2iv||| sv_2mortal||| sv_2num||| sv_2nv||| sv_2pv_flags|5.007002||p sv_2pv_nolen|5.006000||p sv_2pvbyte_nolen|5.006000||p sv_2pvbyte|5.006000||p sv_2pvutf8_nolen||5.006000| sv_2pvutf8||5.006000| sv_2pv||| sv_2uv_flags||5.009001| sv_2uv|5.004000||p sv_add_arena||| sv_add_backref||| sv_backoff||| sv_bless||| sv_cat_decode||5.008001| sv_catpv_mg|5.004050||p sv_catpvf_mg_nocontext|||pvn sv_catpvf_mg|5.006000|5.004000|pv sv_catpvf_nocontext|||vn sv_catpvf||5.004000|v sv_catpvn_flags||5.007002| sv_catpvn_mg|5.004050||p sv_catpvn_nomg|5.007002||p sv_catpvn||| sv_catpvs|5.009003||p sv_catpv||| sv_catsv_flags||5.007002| sv_catsv_mg|5.004050||p sv_catsv_nomg|5.007002||p sv_catsv||| sv_catxmlpvn||| sv_catxmlsv||| sv_chop||| sv_clean_all||| sv_clean_objs||| sv_clear||| sv_cmp_locale||5.004000| sv_cmp||| sv_collxfrm||| sv_compile_2op||5.008001| sv_copypv||5.007003| sv_dec||| sv_del_backref||| sv_derived_from||5.004000| sv_destroyable||5.010000| sv_does||5.009004| sv_dump||| sv_dup_inc_multiple||| sv_dup||| sv_eq||| sv_exp_grow||| sv_force_normal_flags||5.007001| sv_force_normal||5.006000| sv_free2||| sv_free_arenas||| sv_free||| sv_gets||5.004000| sv_grow||| sv_i_ncmp||| sv_inc||| sv_insert_flags||5.011000| sv_insert||| sv_isa||| sv_isobject||| sv_iv||5.005000| sv_kill_backrefs||| sv_len_utf8||5.006000| sv_len||| sv_magic_portable|5.011000|5.004000|p sv_magicext||5.007003| sv_magic||| sv_mortalcopy||| sv_ncmp||| sv_newmortal||| sv_newref||| sv_nolocking||5.007003| sv_nosharing||5.007003| sv_nounlocking||| sv_nv||5.005000| sv_peek||5.005000| sv_pos_b2u_midway||| sv_pos_b2u||5.006000| sv_pos_u2b_cached||| sv_pos_u2b_forwards|||n sv_pos_u2b_midway|||n sv_pos_u2b||5.006000| sv_pvbyten_force||5.006000| sv_pvbyten||5.006000| sv_pvbyte||5.006000| sv_pvn_force_flags|5.007002||p sv_pvn_force||| sv_pvn_nomg|5.007003|5.005000|p sv_pvn||5.005000| sv_pvutf8n_force||5.006000| sv_pvutf8n||5.006000| sv_pvutf8||5.006000| sv_pv||5.006000| sv_recode_to_utf8||5.007003| sv_reftype||| sv_release_COW||| sv_replace||| sv_report_used||| sv_reset||| sv_rvweaken||5.006000| sv_setiv_mg|5.004050||p sv_setiv||| sv_setnv_mg|5.006000||p sv_setnv||| sv_setpv_mg|5.004050||p sv_setpvf_mg_nocontext|||pvn sv_setpvf_mg|5.006000|5.004000|pv sv_setpvf_nocontext|||vn sv_setpvf||5.004000|v sv_setpviv_mg||5.008001| sv_setpviv||5.008001| sv_setpvn_mg|5.004050||p sv_setpvn||| sv_setpvs|5.009004||p sv_setpv||| sv_setref_iv||| sv_setref_nv||| sv_setref_pvn||| sv_setref_pv||| sv_setref_uv||5.007001| sv_setsv_cow||| sv_setsv_flags||5.007002| sv_setsv_mg|5.004050||p sv_setsv_nomg|5.007002||p sv_setsv||| sv_setuv_mg|5.004050||p sv_setuv|5.004000||p sv_tainted||5.004000| sv_taint||5.004000| sv_true||5.005000| sv_unglob||| sv_uni_display||5.007003| sv_unmagic||| sv_unref_flags||5.007001| sv_unref||| sv_untaint||5.004000| sv_upgrade||| sv_usepvn_flags||5.009004| sv_usepvn_mg|5.004050||p sv_usepvn||| sv_utf8_decode||5.006000| sv_utf8_downgrade||5.006000| sv_utf8_encode||5.006000| sv_utf8_upgrade_flags_grow||5.011000| sv_utf8_upgrade_flags||5.007002| sv_utf8_upgrade_nomg||5.007002| sv_utf8_upgrade||5.007001| sv_uv|5.005000||p sv_vcatpvf_mg|5.006000|5.004000|p sv_vcatpvfn||5.004000| sv_vcatpvf|5.006000|5.004000|p sv_vsetpvf_mg|5.006000|5.004000|p sv_vsetpvfn||5.004000| sv_vsetpvf|5.006000|5.004000|p sv_xmlpeek||| svtype||| swallow_bom||| swap_match_buff||| swash_fetch||5.007002| swash_get||| swash_init||5.006000| sys_init3||5.010000|n sys_init||5.010000|n sys_intern_clear||| sys_intern_dup||| sys_intern_init||| sys_term||5.010000|n taint_env||| taint_proper||| tmps_grow||5.006000| toLOWER||| toUPPER||| to_byte_substr||| to_uni_fold||5.007003| to_uni_lower_lc||5.006000| to_uni_lower||5.007003| to_uni_title_lc||5.006000| to_uni_title||5.007003| to_uni_upper_lc||5.006000| to_uni_upper||5.007003| to_utf8_case||5.007003| to_utf8_fold||5.007003| to_utf8_lower||5.007003| to_utf8_substr||| to_utf8_title||5.007003| to_utf8_upper||5.007003| token_free||| token_getmad||| tokenize_use||| tokeq||| tokereport||| too_few_arguments||| too_many_arguments||| uiv_2buf|||n unlnk||| unpack_rec||| unpack_str||5.007003| unpackstring||5.008001| unshare_hek_or_pvn||| unshare_hek||| unsharepvn||5.004000| unwind_handler_stack||| update_debugger_info||| upg_version||5.009005| usage||| utf16_to_utf8_reversed||5.006001| utf16_to_utf8||5.006001| utf8_distance||5.006000| utf8_hop||5.006000| utf8_length||5.007001| utf8_mg_pos_cache_update||| utf8_to_bytes||5.006001| utf8_to_uvchr||5.007001| utf8_to_uvuni||5.007001| utf8n_to_uvchr||| utf8n_to_uvuni||5.007001| utilize||| uvchr_to_utf8_flags||5.007003| uvchr_to_utf8||| uvuni_to_utf8_flags||5.007003| uvuni_to_utf8||5.007001| validate_suid||| varname||| vcmp||5.009000| vcroak||5.006000| vdeb||5.007003| vdie_common||| vdie_croak_common||| vdie||| vform||5.006000| visit||| vivify_defelem||| vivify_ref||| vload_module|5.006000||p vmess||5.006000| vnewSVpvf|5.006000|5.004000|p vnormal||5.009002| vnumify||5.009000| vstringify||5.009000| vverify||5.009003| vwarner||5.006000| vwarn||5.006000| wait4pid||| warn_nocontext|||vn warner_nocontext|||vn warner|5.006000|5.004000|pv warn|||v watch||| whichsig||| write_no_mem||| write_to_stderr||| xmldump_all||| xmldump_attr||| xmldump_eval||| xmldump_form||| xmldump_indent|||v xmldump_packsubs||| xmldump_sub||| xmldump_vindent||| yyerror||| yylex||| yyparse||| yywarn||| ); if (exists $opt{'list-unsupported'}) { my $f; for $f (sort { lc $a cmp lc $b } keys %API) { next unless $API{$f}{todo}; print "$f ", '.'x(40-length($f)), " ", format_version($API{$f}{todo}), "\n"; } exit 0; } # Scan for possible replacement candidates my(%replace, %need, %hints, %warnings, %depends); my $replace = 0; my($hint, $define, $function); sub find_api { my $code = shift; $code =~ s{ / (?: \*[^*]*\*+(?:[^$ccs][^*]*\*+)* / | /[^\r\n]*) | "[^"\\]*(?:\\.[^"\\]*)*" | '[^'\\]*(?:\\.[^'\\]*)*' }{}egsx; grep { exists $API{$_} } $code =~ /(\w+)/mg; } while () { if ($hint) { my $h = $hint->[0] eq 'Hint' ? \%hints : \%warnings; if (m{^\s*\*\s(.*?)\s*$}) { for (@{$hint->[1]}) { $h->{$_} ||= ''; # suppress warning with older perls $h->{$_} .= "$1\n"; } } else { undef $hint } } $hint = [$1, [split /,?\s+/, $2]] if m{^\s*$rccs\s+(Hint|Warning):\s+(\w+(?:,?\s+\w+)*)\s*$}; if ($define) { if ($define->[1] =~ /\\$/) { $define->[1] .= $_; } else { if (exists $API{$define->[0]} && $define->[1] !~ /^DPPP_\(/) { my @n = find_api($define->[1]); push @{$depends{$define->[0]}}, @n if @n } undef $define; } } $define = [$1, $2] if m{^\s*#\s*define\s+(\w+)(?:\([^)]*\))?\s+(.*)}; if ($function) { if (/^}/) { if (exists $API{$function->[0]}) { my @n = find_api($function->[1]); push @{$depends{$function->[0]}}, @n if @n } undef $function; } else { $function->[1] .= $_; } } $function = [$1, ''] if m{^DPPP_\(my_(\w+)\)}; $replace = $1 if m{^\s*$rccs\s+Replace:\s+(\d+)\s+$rcce\s*$}; $replace{$2} = $1 if $replace and m{^\s*#\s*define\s+(\w+)(?:\([^)]*\))?\s+(\w+)}; $replace{$2} = $1 if m{^\s*#\s*define\s+(\w+)(?:\([^)]*\))?\s+(\w+).*$rccs\s+Replace\s+$rcce}; $replace{$1} = $2 if m{^\s*$rccs\s+Replace (\w+) with (\w+)\s+$rcce\s*$}; if (m{^\s*$rccs\s+(\w+(\s*,\s*\w+)*)\s+depends\s+on\s+(\w+(\s*,\s*\w+)*)\s+$rcce\s*$}) { my @deps = map { s/\s+//g; $_ } split /,/, $3; my $d; for $d (map { s/\s+//g; $_ } split /,/, $1) { push @{$depends{$d}}, @deps; } } $need{$1} = 1 if m{^#if\s+defined\(NEED_(\w+)(?:_GLOBAL)?\)}; } for (values %depends) { my %s; $_ = [sort grep !$s{$_}++, @$_]; } if (exists $opt{'api-info'}) { my $f; my $count = 0; my $match = $opt{'api-info'} =~ m!^/(.*)/$! ? $1 : "^\Q$opt{'api-info'}\E\$"; for $f (sort { lc $a cmp lc $b } keys %API) { next unless $f =~ /$match/; print "\n=== $f ===\n\n"; my $info = 0; if ($API{$f}{base} || $API{$f}{todo}) { my $base = format_version($API{$f}{base} || $API{$f}{todo}); print "Supported at least starting from perl-$base.\n"; $info++; } if ($API{$f}{provided}) { my $todo = $API{$f}{todo} ? format_version($API{$f}{todo}) : "5.003"; print "Support by $ppport provided back to perl-$todo.\n"; print "Support needs to be explicitly requested by NEED_$f.\n" if exists $need{$f}; print "Depends on: ", join(', ', @{$depends{$f}}), ".\n" if exists $depends{$f}; print "\n$hints{$f}" if exists $hints{$f}; print "\nWARNING:\n$warnings{$f}" if exists $warnings{$f}; $info++; } print "No portability information available.\n" unless $info; $count++; } $count or print "Found no API matching '$opt{'api-info'}'."; print "\n"; exit 0; } if (exists $opt{'list-provided'}) { my $f; for $f (sort { lc $a cmp lc $b } keys %API) { next unless $API{$f}{provided}; my @flags; push @flags, 'explicit' if exists $need{$f}; push @flags, 'depend' if exists $depends{$f}; push @flags, 'hint' if exists $hints{$f}; push @flags, 'warning' if exists $warnings{$f}; my $flags = @flags ? ' ['.join(', ', @flags).']' : ''; print "$f$flags\n"; } exit 0; } my @files; my @srcext = qw( .xs .c .h .cc .cpp -c.inc -xs.inc ); my $srcext = join '|', map { quotemeta $_ } @srcext; if (@ARGV) { my %seen; for (@ARGV) { if (-e) { if (-f) { push @files, $_ unless $seen{$_}++; } else { warn "'$_' is not a file.\n" } } else { my @new = grep { -f } glob $_ or warn "'$_' does not exist.\n"; push @files, grep { !$seen{$_}++ } @new; } } } else { eval { require File::Find; File::Find::find(sub { $File::Find::name =~ /($srcext)$/i and push @files, $File::Find::name; }, '.'); }; if ($@) { @files = map { glob "*$_" } @srcext; } } if (!@ARGV || $opt{filter}) { my(@in, @out); my %xsc = map { /(.*)\.xs$/ ? ("$1.c" => 1, "$1.cc" => 1) : () } @files; for (@files) { my $out = exists $xsc{$_} || /\b\Q$ppport\E$/i || !/($srcext)$/i; push @{ $out ? \@out : \@in }, $_; } if (@ARGV && @out) { warning("Skipping the following files (use --nofilter to avoid this):\n| ", join "\n| ", @out); } @files = @in; } die "No input files given!\n" unless @files; my(%files, %global, %revreplace); %revreplace = reverse %replace; my $filename; my $patch_opened = 0; for $filename (@files) { unless (open IN, "<$filename") { warn "Unable to read from $filename: $!\n"; next; } info("Scanning $filename ..."); my $c = do { local $/; }; close IN; my %file = (orig => $c, changes => 0); # Temporarily remove C/XS comments and strings from the code my @ccom; $c =~ s{ ( ^$HS*\#$HS*include\b[^\r\n]+\b(?:\Q$ppport\E|XSUB\.h)\b[^\r\n]* | ^$HS*\#$HS*(?:define|elif|if(?:def)?)\b[^\r\n]* ) | ( ^$HS*\#[^\r\n]* | "[^"\\]*(?:\\.[^"\\]*)*" | '[^'\\]*(?:\\.[^'\\]*)*' | / (?: \*[^*]*\*+(?:[^$ccs][^*]*\*+)* / | /[^\r\n]* ) ) }{ defined $2 and push @ccom, $2; defined $1 ? $1 : "$ccs$#ccom$cce" }mgsex; $file{ccom} = \@ccom; $file{code} = $c; $file{has_inc_ppport} = $c =~ /^$HS*#$HS*include[^\r\n]+\b\Q$ppport\E\b/m; my $func; for $func (keys %API) { my $match = $func; $match .= "|$revreplace{$func}" if exists $revreplace{$func}; if ($c =~ /\b(?:Perl_)?($match)\b/) { $file{uses_replace}{$1}++ if exists $revreplace{$func} && $1 eq $revreplace{$func}; $file{uses_Perl}{$func}++ if $c =~ /\bPerl_$func\b/; if (exists $API{$func}{provided}) { $file{uses_provided}{$func}++; if (!exists $API{$func}{base} || $API{$func}{base} > $opt{'compat-version'}) { $file{uses}{$func}++; my @deps = rec_depend($func); if (@deps) { $file{uses_deps}{$func} = \@deps; for (@deps) { $file{uses}{$_} = 0 unless exists $file{uses}{$_}; } } for ($func, @deps) { $file{needs}{$_} = 'static' if exists $need{$_}; } } } if (exists $API{$func}{todo} && $API{$func}{todo} > $opt{'compat-version'}) { if ($c =~ /\b$func\b/) { $file{uses_todo}{$func}++; } } } } while ($c =~ /^$HS*#$HS*define$HS+(NEED_(\w+?)(_GLOBAL)?)\b/mg) { if (exists $need{$2}) { $file{defined $3 ? 'needed_global' : 'needed_static'}{$2}++; } else { warning("Possibly wrong #define $1 in $filename") } } for (qw(uses needs uses_todo needed_global needed_static)) { for $func (keys %{$file{$_}}) { push @{$global{$_}{$func}}, $filename; } } $files{$filename} = \%file; } # Globally resolve NEED_'s my $need; for $need (keys %{$global{needs}}) { if (@{$global{needs}{$need}} > 1) { my @targets = @{$global{needs}{$need}}; my @t = grep $files{$_}{needed_global}{$need}, @targets; @targets = @t if @t; @t = grep /\.xs$/i, @targets; @targets = @t if @t; my $target = shift @targets; $files{$target}{needs}{$need} = 'global'; for (@{$global{needs}{$need}}) { $files{$_}{needs}{$need} = 'extern' if $_ ne $target; } } } for $filename (@files) { exists $files{$filename} or next; info("=== Analyzing $filename ==="); my %file = %{$files{$filename}}; my $func; my $c = $file{code}; my $warnings = 0; for $func (sort keys %{$file{uses_Perl}}) { if ($API{$func}{varargs}) { unless ($API{$func}{nothxarg}) { my $changes = ($c =~ s{\b(Perl_$func\s*\(\s*)(?!aTHX_?)(\)|[^\s)]*\))} { $1 . ($2 eq ')' ? 'aTHX' : 'aTHX_ ') . $2 }ge); if ($changes) { warning("Doesn't pass interpreter argument aTHX to Perl_$func"); $file{changes} += $changes; } } } else { warning("Uses Perl_$func instead of $func"); $file{changes} += ($c =~ s{\bPerl_$func(\s*)\((\s*aTHX_?)?\s*} {$func$1(}g); } } for $func (sort keys %{$file{uses_replace}}) { warning("Uses $func instead of $replace{$func}"); $file{changes} += ($c =~ s/\b$func\b/$replace{$func}/g); } for $func (sort keys %{$file{uses_provided}}) { if ($file{uses}{$func}) { if (exists $file{uses_deps}{$func}) { diag("Uses $func, which depends on ", join(', ', @{$file{uses_deps}{$func}})); } else { diag("Uses $func"); } } $warnings += hint($func); } unless ($opt{quiet}) { for $func (sort keys %{$file{uses_todo}}) { print "*** WARNING: Uses $func, which may not be portable below perl ", format_version($API{$func}{todo}), ", even with '$ppport'\n"; $warnings++; } } for $func (sort keys %{$file{needed_static}}) { my $message = ''; if (not exists $file{uses}{$func}) { $message = "No need to define NEED_$func if $func is never used"; } elsif (exists $file{needs}{$func} && $file{needs}{$func} ne 'static') { $message = "No need to define NEED_$func when already needed globally"; } if ($message) { diag($message); $file{changes} += ($c =~ s/^$HS*#$HS*define$HS+NEED_$func\b.*$LF//mg); } } for $func (sort keys %{$file{needed_global}}) { my $message = ''; if (not exists $global{uses}{$func}) { $message = "No need to define NEED_${func}_GLOBAL if $func is never used"; } elsif (exists $file{needs}{$func}) { if ($file{needs}{$func} eq 'extern') { $message = "No need to define NEED_${func}_GLOBAL when already needed globally"; } elsif ($file{needs}{$func} eq 'static') { $message = "No need to define NEED_${func}_GLOBAL when only used in this file"; } } if ($message) { diag($message); $file{changes} += ($c =~ s/^$HS*#$HS*define$HS+NEED_${func}_GLOBAL\b.*$LF//mg); } } $file{needs_inc_ppport} = keys %{$file{uses}}; if ($file{needs_inc_ppport}) { my $pp = ''; for $func (sort keys %{$file{needs}}) { my $type = $file{needs}{$func}; next if $type eq 'extern'; my $suffix = $type eq 'global' ? '_GLOBAL' : ''; unless (exists $file{"needed_$type"}{$func}) { if ($type eq 'global') { diag("Files [@{$global{needs}{$func}}] need $func, adding global request"); } else { diag("File needs $func, adding static request"); } $pp .= "#define NEED_$func$suffix\n"; } } if ($pp && ($c =~ s/^(?=$HS*#$HS*define$HS+NEED_\w+)/$pp/m)) { $pp = ''; $file{changes}++; } unless ($file{has_inc_ppport}) { diag("Needs to include '$ppport'"); $pp .= qq(#include "$ppport"\n) } if ($pp) { $file{changes} += ($c =~ s/^($HS*#$HS*define$HS+NEED_\w+.*?)^/$1$pp/ms) || ($c =~ s/^(?=$HS*#$HS*include.*\Q$ppport\E)/$pp/m) || ($c =~ s/^($HS*#$HS*include.*XSUB.*\s*?)^/$1$pp/m) || ($c =~ s/^/$pp/); } } else { if ($file{has_inc_ppport}) { diag("No need to include '$ppport'"); $file{changes} += ($c =~ s/^$HS*?#$HS*include.*\Q$ppport\E.*?$LF//m); } } # put back in our C comments my $ix; my $cppc = 0; my @ccom = @{$file{ccom}}; for $ix (0 .. $#ccom) { if (!$opt{cplusplus} && $ccom[$ix] =~ s!^//!!) { $cppc++; $file{changes} += $c =~ s/$rccs$ix$rcce/$ccs$ccom[$ix] $cce/; } else { $c =~ s/$rccs$ix$rcce/$ccom[$ix]/; } } if ($cppc) { my $s = $cppc != 1 ? 's' : ''; warning("Uses $cppc C++ style comment$s, which is not portable"); } my $s = $warnings != 1 ? 's' : ''; my $warn = $warnings ? " ($warnings warning$s)" : ''; info("Analysis completed$warn"); if ($file{changes}) { if (exists $opt{copy}) { my $newfile = "$filename$opt{copy}"; if (-e $newfile) { error("'$newfile' already exists, refusing to write copy of '$filename'"); } else { local *F; if (open F, ">$newfile") { info("Writing copy of '$filename' with changes to '$newfile'"); print F $c; close F; } else { error("Cannot open '$newfile' for writing: $!"); } } } elsif (exists $opt{patch} || $opt{changes}) { if (exists $opt{patch}) { unless ($patch_opened) { if (open PATCH, ">$opt{patch}") { $patch_opened = 1; } else { error("Cannot open '$opt{patch}' for writing: $!"); delete $opt{patch}; $opt{changes} = 1; goto fallback; } } mydiff(\*PATCH, $filename, $c); } else { fallback: info("Suggested changes:"); mydiff(\*STDOUT, $filename, $c); } } else { my $s = $file{changes} == 1 ? '' : 's'; info("$file{changes} potentially required change$s detected"); } } else { info("Looks good"); } } close PATCH if $patch_opened; exit 0; sub try_use { eval "use @_;"; return $@ eq '' } sub mydiff { local *F = shift; my($file, $str) = @_; my $diff; if (exists $opt{diff}) { $diff = run_diff($opt{diff}, $file, $str); } if (!defined $diff and try_use('Text::Diff')) { $diff = Text::Diff::diff($file, \$str, { STYLE => 'Unified' }); $diff = <
$tmp") { print F $str; close F; if (open F, "$prog $file $tmp |") { while () { s/\Q$tmp\E/$file.patched/; $diff .= $_; } close F; unlink $tmp; return $diff; } unlink $tmp; } else { error("Cannot open '$tmp' for writing: $!"); } return undef; } sub rec_depend { my($func, $seen) = @_; return () unless exists $depends{$func}; $seen = {%{$seen||{}}}; return () if $seen->{$func}++; my %s; grep !$s{$_}++, map { ($_, rec_depend($_, $seen)) } @{$depends{$func}}; } sub parse_version { my $ver = shift; if ($ver =~ /^(\d+)\.(\d+)\.(\d+)$/) { return ($1, $2, $3); } elsif ($ver !~ /^\d+\.[\d_]+$/) { die "cannot parse version '$ver'\n"; } $ver =~ s/_//g; $ver =~ s/$/000000/; my($r,$v,$s) = $ver =~ /(\d+)\.(\d{3})(\d{3})/; $v = int $v; $s = int $s; if ($r < 5 || ($r == 5 && $v < 6)) { if ($s % 10) { die "cannot parse version '$ver'\n"; } } return ($r, $v, $s); } sub format_version { my $ver = shift; $ver =~ s/$/000000/; my($r,$v,$s) = $ver =~ /(\d+)\.(\d{3})(\d{3})/; $v = int $v; $s = int $s; if ($r < 5 || ($r == 5 && $v < 6)) { if ($s % 10) { die "invalid version '$ver'\n"; } $s /= 10; $ver = sprintf "%d.%03d", $r, $v; $s > 0 and $ver .= sprintf "_%02d", $s; return $ver; } return sprintf "%d.%d.%d", $r, $v, $s; } sub info { $opt{quiet} and return; print @_, "\n"; } sub diag { $opt{quiet} and return; $opt{diag} and print @_, "\n"; } sub warning { $opt{quiet} and return; print "*** ", @_, "\n"; } sub error { print "*** ERROR: ", @_, "\n"; } my %given_hints; my %given_warnings; sub hint { $opt{quiet} and return; my $func = shift; my $rv = 0; if (exists $warnings{$func} && !$given_warnings{$func}++) { my $warn = $warnings{$func}; $warn =~ s!^!*** !mg; print "*** WARNING: $func\n", $warn; $rv++; } if ($opt{hints} && exists $hints{$func} && !$given_hints{$func}++) { my $hint = $hints{$func}; $hint =~ s/^/ /mg; print " --- hint for $func ---\n", $hint; } $rv; } sub usage { my($usage) = do { local(@ARGV,$/)=($0); <> } =~ /^=head\d$HS+SYNOPSIS\s*^(.*?)\s*^=/ms; my %M = ( 'I' => '*' ); $usage =~ s/^\s*perl\s+\S+/$^X $0/; $usage =~ s/([A-Z])<([^>]+)>/$M{$1}$2$M{$1}/g; print < }; my($copy) = $self =~ /^=head\d\s+COPYRIGHT\s*^(.*?)^=\w+/ms; $copy =~ s/^(?=\S+)/ /gms; $self =~ s/^$HS+Do NOT edit.*?(?=^-)/$copy/ms; $self =~ s/^SKIP.*(?=^__DATA__)/SKIP if (\@ARGV && \$ARGV[0] eq '--unstrip') { eval { require Devel::PPPort }; \$@ and die "Cannot require Devel::PPPort, please install.\\n"; if (eval \$Devel::PPPort::VERSION < $VERSION) { die "$0 was originally generated with Devel::PPPort $VERSION.\\n" . "Your Devel::PPPort is only version \$Devel::PPPort::VERSION.\\n" . "Please install a newer version, or --unstrip will not work.\\n"; } Devel::PPPort::WriteFile(\$0); exit 0; } print <$0" or die "cannot strip $0: $!\n"; print OUT "$pl$c\n"; exit 0; } __DATA__ */ #ifndef _P_P_PORTABILITY_H_ #define _P_P_PORTABILITY_H_ #ifndef DPPP_NAMESPACE # define DPPP_NAMESPACE DPPP_ #endif #define DPPP_CAT2(x,y) CAT2(x,y) #define DPPP_(name) DPPP_CAT2(DPPP_NAMESPACE, name) #ifndef PERL_REVISION # if !defined(__PATCHLEVEL_H_INCLUDED__) && !(defined(PATCHLEVEL) && defined(SUBVERSION)) # define PERL_PATCHLEVEL_H_IMPLICIT # include # endif # if !(defined(PERL_VERSION) || (defined(SUBVERSION) && defined(PATCHLEVEL))) # include # endif # ifndef PERL_REVISION # define PERL_REVISION (5) /* Replace: 1 */ # define PERL_VERSION PATCHLEVEL # define PERL_SUBVERSION SUBVERSION /* Replace PERL_PATCHLEVEL with PERL_VERSION */ /* Replace: 0 */ # endif #endif #define _dpppDEC2BCD(dec) ((((dec)/100)<<8)|((((dec)%100)/10)<<4)|((dec)%10)) #define PERL_BCDVERSION ((_dpppDEC2BCD(PERL_REVISION)<<24)|(_dpppDEC2BCD(PERL_VERSION)<<12)|_dpppDEC2BCD(PERL_SUBVERSION)) /* It is very unlikely that anyone will try to use this with Perl 6 (or greater), but who knows. */ #if PERL_REVISION != 5 # error ppport.h only works with Perl version 5 #endif /* PERL_REVISION != 5 */ #ifndef dTHR # define dTHR dNOOP #endif #ifndef dTHX # define dTHX dNOOP #endif #ifndef dTHXa # define dTHXa(x) dNOOP #endif #ifndef pTHX # define pTHX void #endif #ifndef pTHX_ # define pTHX_ #endif #ifndef aTHX # define aTHX #endif #ifndef aTHX_ # define aTHX_ #endif #if (PERL_BCDVERSION < 0x5006000) # ifdef USE_THREADS # define aTHXR thr # define aTHXR_ thr, # else # define aTHXR # define aTHXR_ # endif # define dTHXR dTHR #else # define aTHXR aTHX # define aTHXR_ aTHX_ # define dTHXR dTHX #endif #ifndef dTHXoa # define dTHXoa(x) dTHXa(x) #endif #ifdef I_LIMITS # include #endif #ifndef PERL_UCHAR_MIN # define PERL_UCHAR_MIN ((unsigned char)0) #endif #ifndef PERL_UCHAR_MAX # ifdef UCHAR_MAX # define PERL_UCHAR_MAX ((unsigned char)UCHAR_MAX) # else # ifdef MAXUCHAR # define PERL_UCHAR_MAX ((unsigned char)MAXUCHAR) # else # define PERL_UCHAR_MAX ((unsigned char)~(unsigned)0) # endif # endif #endif #ifndef PERL_USHORT_MIN # define PERL_USHORT_MIN ((unsigned short)0) #endif #ifndef PERL_USHORT_MAX # ifdef USHORT_MAX # define PERL_USHORT_MAX ((unsigned short)USHORT_MAX) # else # ifdef MAXUSHORT # define PERL_USHORT_MAX ((unsigned short)MAXUSHORT) # else # ifdef USHRT_MAX # define PERL_USHORT_MAX ((unsigned short)USHRT_MAX) # else # define PERL_USHORT_MAX ((unsigned short)~(unsigned)0) # endif # endif # endif #endif #ifndef PERL_SHORT_MAX # ifdef SHORT_MAX # define PERL_SHORT_MAX ((short)SHORT_MAX) # else # ifdef MAXSHORT /* Often used in */ # define PERL_SHORT_MAX ((short)MAXSHORT) # else # ifdef SHRT_MAX # define PERL_SHORT_MAX ((short)SHRT_MAX) # else # define PERL_SHORT_MAX ((short) (PERL_USHORT_MAX >> 1)) # endif # endif # endif #endif #ifndef PERL_SHORT_MIN # ifdef SHORT_MIN # define PERL_SHORT_MIN ((short)SHORT_MIN) # else # ifdef MINSHORT # define PERL_SHORT_MIN ((short)MINSHORT) # else # ifdef SHRT_MIN # define PERL_SHORT_MIN ((short)SHRT_MIN) # else # define PERL_SHORT_MIN (-PERL_SHORT_MAX - ((3 & -1) == 3)) # endif # endif # endif #endif #ifndef PERL_UINT_MAX # ifdef UINT_MAX # define PERL_UINT_MAX ((unsigned int)UINT_MAX) # else # ifdef MAXUINT # define PERL_UINT_MAX ((unsigned int)MAXUINT) # else # define PERL_UINT_MAX (~(unsigned int)0) # endif # endif #endif #ifndef PERL_UINT_MIN # define PERL_UINT_MIN ((unsigned int)0) #endif #ifndef PERL_INT_MAX # ifdef INT_MAX # define PERL_INT_MAX ((int)INT_MAX) # else # ifdef MAXINT /* Often used in */ # define PERL_INT_MAX ((int)MAXINT) # else # define PERL_INT_MAX ((int)(PERL_UINT_MAX >> 1)) # endif # endif #endif #ifndef PERL_INT_MIN # ifdef INT_MIN # define PERL_INT_MIN ((int)INT_MIN) # else # ifdef MININT # define PERL_INT_MIN ((int)MININT) # else # define PERL_INT_MIN (-PERL_INT_MAX - ((3 & -1) == 3)) # endif # endif #endif #ifndef PERL_ULONG_MAX # ifdef ULONG_MAX # define PERL_ULONG_MAX ((unsigned long)ULONG_MAX) # else # ifdef MAXULONG # define PERL_ULONG_MAX ((unsigned long)MAXULONG) # else # define PERL_ULONG_MAX (~(unsigned long)0) # endif # endif #endif #ifndef PERL_ULONG_MIN # define PERL_ULONG_MIN ((unsigned long)0L) #endif #ifndef PERL_LONG_MAX # ifdef LONG_MAX # define PERL_LONG_MAX ((long)LONG_MAX) # else # ifdef MAXLONG # define PERL_LONG_MAX ((long)MAXLONG) # else # define PERL_LONG_MAX ((long) (PERL_ULONG_MAX >> 1)) # endif # endif #endif #ifndef PERL_LONG_MIN # ifdef LONG_MIN # define PERL_LONG_MIN ((long)LONG_MIN) # else # ifdef MINLONG # define PERL_LONG_MIN ((long)MINLONG) # else # define PERL_LONG_MIN (-PERL_LONG_MAX - ((3 & -1) == 3)) # endif # endif #endif #if defined(HAS_QUAD) && (defined(convex) || defined(uts)) # ifndef PERL_UQUAD_MAX # ifdef ULONGLONG_MAX # define PERL_UQUAD_MAX ((unsigned long long)ULONGLONG_MAX) # else # ifdef MAXULONGLONG # define PERL_UQUAD_MAX ((unsigned long long)MAXULONGLONG) # else # define PERL_UQUAD_MAX (~(unsigned long long)0) # endif # endif # endif # ifndef PERL_UQUAD_MIN # define PERL_UQUAD_MIN ((unsigned long long)0L) # endif # ifndef PERL_QUAD_MAX # ifdef LONGLONG_MAX # define PERL_QUAD_MAX ((long long)LONGLONG_MAX) # else # ifdef MAXLONGLONG # define PERL_QUAD_MAX ((long long)MAXLONGLONG) # else # define PERL_QUAD_MAX ((long long) (PERL_UQUAD_MAX >> 1)) # endif # endif # endif # ifndef PERL_QUAD_MIN # ifdef LONGLONG_MIN # define PERL_QUAD_MIN ((long long)LONGLONG_MIN) # else # ifdef MINLONGLONG # define PERL_QUAD_MIN ((long long)MINLONGLONG) # else # define PERL_QUAD_MIN (-PERL_QUAD_MAX - ((3 & -1) == 3)) # endif # endif # endif #endif /* This is based on code from 5.003 perl.h */ #ifdef HAS_QUAD # ifdef cray #ifndef IVTYPE # define IVTYPE int #endif #ifndef IV_MIN # define IV_MIN PERL_INT_MIN #endif #ifndef IV_MAX # define IV_MAX PERL_INT_MAX #endif #ifndef UV_MIN # define UV_MIN PERL_UINT_MIN #endif #ifndef UV_MAX # define UV_MAX PERL_UINT_MAX #endif # ifdef INTSIZE #ifndef IVSIZE # define IVSIZE INTSIZE #endif # endif # else # if defined(convex) || defined(uts) #ifndef IVTYPE # define IVTYPE long long #endif #ifndef IV_MIN # define IV_MIN PERL_QUAD_MIN #endif #ifndef IV_MAX # define IV_MAX PERL_QUAD_MAX #endif #ifndef UV_MIN # define UV_MIN PERL_UQUAD_MIN #endif #ifndef UV_MAX # define UV_MAX PERL_UQUAD_MAX #endif # ifdef LONGLONGSIZE #ifndef IVSIZE # define IVSIZE LONGLONGSIZE #endif # endif # else #ifndef IVTYPE # define IVTYPE long #endif #ifndef IV_MIN # define IV_MIN PERL_LONG_MIN #endif #ifndef IV_MAX # define IV_MAX PERL_LONG_MAX #endif #ifndef UV_MIN # define UV_MIN PERL_ULONG_MIN #endif #ifndef UV_MAX # define UV_MAX PERL_ULONG_MAX #endif # ifdef LONGSIZE #ifndef IVSIZE # define IVSIZE LONGSIZE #endif # endif # endif # endif #ifndef IVSIZE # define IVSIZE 8 #endif #ifndef PERL_QUAD_MIN # define PERL_QUAD_MIN IV_MIN #endif #ifndef PERL_QUAD_MAX # define PERL_QUAD_MAX IV_MAX #endif #ifndef PERL_UQUAD_MIN # define PERL_UQUAD_MIN UV_MIN #endif #ifndef PERL_UQUAD_MAX # define PERL_UQUAD_MAX UV_MAX #endif #else #ifndef IVTYPE # define IVTYPE long #endif #ifndef IV_MIN # define IV_MIN PERL_LONG_MIN #endif #ifndef IV_MAX # define IV_MAX PERL_LONG_MAX #endif #ifndef UV_MIN # define UV_MIN PERL_ULONG_MIN #endif #ifndef UV_MAX # define UV_MAX PERL_ULONG_MAX #endif #endif #ifndef IVSIZE # ifdef LONGSIZE # define IVSIZE LONGSIZE # else # define IVSIZE 4 /* A bold guess, but the best we can make. */ # endif #endif #ifndef UVTYPE # define UVTYPE unsigned IVTYPE #endif #ifndef UVSIZE # define UVSIZE IVSIZE #endif #ifndef sv_setuv # define sv_setuv(sv, uv) \ STMT_START { \ UV TeMpUv = uv; \ if (TeMpUv <= IV_MAX) \ sv_setiv(sv, TeMpUv); \ else \ sv_setnv(sv, (double)TeMpUv); \ } STMT_END #endif #ifndef newSVuv # define newSVuv(uv) ((uv) <= IV_MAX ? newSViv((IV)uv) : newSVnv((NV)uv)) #endif #ifndef sv_2uv # define sv_2uv(sv) ((PL_Sv = (sv)), (UV) (SvNOK(PL_Sv) ? SvNV(PL_Sv) : sv_2nv(PL_Sv))) #endif #ifndef SvUVX # define SvUVX(sv) ((UV)SvIVX(sv)) #endif #ifndef SvUVXx # define SvUVXx(sv) SvUVX(sv) #endif #ifndef SvUV # define SvUV(sv) (SvIOK(sv) ? SvUVX(sv) : sv_2uv(sv)) #endif #ifndef SvUVx # define SvUVx(sv) ((PL_Sv = (sv)), SvUV(PL_Sv)) #endif /* Hint: sv_uv * Always use the SvUVx() macro instead of sv_uv(). */ #ifndef sv_uv # define sv_uv(sv) SvUVx(sv) #endif #if !defined(SvUOK) && defined(SvIOK_UV) # define SvUOK(sv) SvIOK_UV(sv) #endif #ifndef XST_mUV # define XST_mUV(i,v) (ST(i) = sv_2mortal(newSVuv(v)) ) #endif #ifndef XSRETURN_UV # define XSRETURN_UV(v) STMT_START { XST_mUV(0,v); XSRETURN(1); } STMT_END #endif #ifndef PUSHu # define PUSHu(u) STMT_START { sv_setuv(TARG, (UV)(u)); PUSHTARG; } STMT_END #endif #ifndef XPUSHu # define XPUSHu(u) STMT_START { sv_setuv(TARG, (UV)(u)); XPUSHTARG; } STMT_END #endif #ifdef HAS_MEMCMP #ifndef memNE # define memNE(s1,s2,l) (memcmp(s1,s2,l)) #endif #ifndef memEQ # define memEQ(s1,s2,l) (!memcmp(s1,s2,l)) #endif #else #ifndef memNE # define memNE(s1,s2,l) (bcmp(s1,s2,l)) #endif #ifndef memEQ # define memEQ(s1,s2,l) (!bcmp(s1,s2,l)) #endif #endif #ifndef MoveD # define MoveD(s,d,n,t) memmove((char*)(d),(char*)(s), (n) * sizeof(t)) #endif #ifndef CopyD # define CopyD(s,d,n,t) memcpy((char*)(d),(char*)(s), (n) * sizeof(t)) #endif #ifdef HAS_MEMSET #ifndef ZeroD # define ZeroD(d,n,t) memzero((char*)(d), (n) * sizeof(t)) #endif #else #ifndef ZeroD # define ZeroD(d,n,t) ((void)memzero((char*)(d), (n) * sizeof(t)), d) #endif #endif #ifndef PoisonWith # define PoisonWith(d,n,t,b) (void)memset((char*)(d), (U8)(b), (n) * sizeof(t)) #endif #ifndef PoisonNew # define PoisonNew(d,n,t) PoisonWith(d,n,t,0xAB) #endif #ifndef PoisonFree # define PoisonFree(d,n,t) PoisonWith(d,n,t,0xEF) #endif #ifndef Poison # define Poison(d,n,t) PoisonFree(d,n,t) #endif #ifndef Newx # define Newx(v,n,t) New(0,v,n,t) #endif #ifndef Newxc # define Newxc(v,n,t,c) Newc(0,v,n,t,c) #endif #ifndef Newxz # define Newxz(v,n,t) Newz(0,v,n,t) #endif #ifndef PERL_UNUSED_DECL # ifdef HASATTRIBUTE # if (defined(__GNUC__) && defined(__cplusplus)) || defined(__INTEL_COMPILER) # define PERL_UNUSED_DECL # else # define PERL_UNUSED_DECL __attribute__((unused)) # endif # else # define PERL_UNUSED_DECL # endif #endif #ifndef PERL_UNUSED_ARG # if defined(lint) && defined(S_SPLINT_S) /* www.splint.org */ # include # define PERL_UNUSED_ARG(x) NOTE(ARGUNUSED(x)) # else # define PERL_UNUSED_ARG(x) ((void)x) # endif #endif #ifndef PERL_UNUSED_VAR # define PERL_UNUSED_VAR(x) ((void)x) #endif #ifndef PERL_UNUSED_CONTEXT # ifdef USE_ITHREADS # define PERL_UNUSED_CONTEXT PERL_UNUSED_ARG(my_perl) # else # define PERL_UNUSED_CONTEXT # endif #endif #ifndef NOOP # define NOOP /*EMPTY*/(void)0 #endif #ifndef dNOOP # define dNOOP extern int /*@unused@*/ Perl___notused PERL_UNUSED_DECL #endif #ifndef NVTYPE # if defined(USE_LONG_DOUBLE) && defined(HAS_LONG_DOUBLE) # define NVTYPE long double # else # define NVTYPE double # endif typedef NVTYPE NV; #endif #ifndef INT2PTR # if (IVSIZE == PTRSIZE) && (UVSIZE == PTRSIZE) # define PTRV UV # define INT2PTR(any,d) (any)(d) # else # if PTRSIZE == LONGSIZE # define PTRV unsigned long # else # define PTRV unsigned # endif # define INT2PTR(any,d) (any)(PTRV)(d) # endif #endif #ifndef PTR2ul # if PTRSIZE == LONGSIZE # define PTR2ul(p) (unsigned long)(p) # else # define PTR2ul(p) INT2PTR(unsigned long,p) # endif #endif #ifndef PTR2nat # define PTR2nat(p) (PTRV)(p) #endif #ifndef NUM2PTR # define NUM2PTR(any,d) (any)PTR2nat(d) #endif #ifndef PTR2IV # define PTR2IV(p) INT2PTR(IV,p) #endif #ifndef PTR2UV # define PTR2UV(p) INT2PTR(UV,p) #endif #ifndef PTR2NV # define PTR2NV(p) NUM2PTR(NV,p) #endif #undef START_EXTERN_C #undef END_EXTERN_C #undef EXTERN_C #ifdef __cplusplus # define START_EXTERN_C extern "C" { # define END_EXTERN_C } # define EXTERN_C extern "C" #else # define START_EXTERN_C # define END_EXTERN_C # define EXTERN_C extern #endif #if defined(PERL_GCC_PEDANTIC) # ifndef PERL_GCC_BRACE_GROUPS_FORBIDDEN # define PERL_GCC_BRACE_GROUPS_FORBIDDEN # endif #endif #if defined(__GNUC__) && !defined(PERL_GCC_BRACE_GROUPS_FORBIDDEN) && !defined(__cplusplus) # ifndef PERL_USE_GCC_BRACE_GROUPS # define PERL_USE_GCC_BRACE_GROUPS # endif #endif #undef STMT_START #undef STMT_END #ifdef PERL_USE_GCC_BRACE_GROUPS # define STMT_START (void)( /* gcc supports ``({ STATEMENTS; })'' */ # define STMT_END ) #else # if defined(VOIDFLAGS) && (VOIDFLAGS) && (defined(sun) || defined(__sun__)) && !defined(__GNUC__) # define STMT_START if (1) # define STMT_END else (void)0 # else # define STMT_START do # define STMT_END while (0) # endif #endif #ifndef boolSV # define boolSV(b) ((b) ? &PL_sv_yes : &PL_sv_no) #endif /* DEFSV appears first in 5.004_56 */ #ifndef DEFSV # define DEFSV GvSV(PL_defgv) #endif #ifndef SAVE_DEFSV # define SAVE_DEFSV SAVESPTR(GvSV(PL_defgv)) #endif #ifndef DEFSV_set # define DEFSV_set(sv) (DEFSV = (sv)) #endif /* Older perls (<=5.003) lack AvFILLp */ #ifndef AvFILLp # define AvFILLp AvFILL #endif #ifndef ERRSV # define ERRSV get_sv("@",FALSE) #endif /* Hint: gv_stashpvn * This function's backport doesn't support the length parameter, but * rather ignores it. Portability can only be ensured if the length * parameter is used for speed reasons, but the length can always be * correctly computed from the string argument. */ #ifndef gv_stashpvn # define gv_stashpvn(str,len,create) gv_stashpv(str,create) #endif /* Replace: 1 */ #ifndef get_cv # define get_cv perl_get_cv #endif #ifndef get_sv # define get_sv perl_get_sv #endif #ifndef get_av # define get_av perl_get_av #endif #ifndef get_hv # define get_hv perl_get_hv #endif /* Replace: 0 */ #ifndef dUNDERBAR # define dUNDERBAR dNOOP #endif #ifndef UNDERBAR # define UNDERBAR DEFSV #endif #ifndef dAX # define dAX I32 ax = MARK - PL_stack_base + 1 #endif #ifndef dITEMS # define dITEMS I32 items = SP - MARK #endif #ifndef dXSTARG # define dXSTARG SV * targ = sv_newmortal() #endif #ifndef dAXMARK # define dAXMARK I32 ax = POPMARK; \ register SV ** const mark = PL_stack_base + ax++ #endif #ifndef XSprePUSH # define XSprePUSH (sp = PL_stack_base + ax - 1) #endif #if (PERL_BCDVERSION < 0x5005000) # undef XSRETURN # define XSRETURN(off) \ STMT_START { \ PL_stack_sp = PL_stack_base + ax + ((off) - 1); \ return; \ } STMT_END #endif #ifndef XSPROTO # define XSPROTO(name) void name(pTHX_ CV* cv) #endif #ifndef SVfARG # define SVfARG(p) ((void*)(p)) #endif #ifndef PERL_ABS # define PERL_ABS(x) ((x) < 0 ? -(x) : (x)) #endif #ifndef dVAR # define dVAR dNOOP #endif #ifndef SVf # define SVf "_" #endif #ifndef UTF8_MAXBYTES # define UTF8_MAXBYTES UTF8_MAXLEN #endif #ifndef CPERLscope # define CPERLscope(x) x #endif #ifndef PERL_HASH # define PERL_HASH(hash,str,len) \ STMT_START { \ const char *s_PeRlHaSh = str; \ I32 i_PeRlHaSh = len; \ U32 hash_PeRlHaSh = 0; \ while (i_PeRlHaSh--) \ hash_PeRlHaSh = hash_PeRlHaSh * 33 + *s_PeRlHaSh++; \ (hash) = hash_PeRlHaSh; \ } STMT_END #endif #ifndef PERLIO_FUNCS_DECL # ifdef PERLIO_FUNCS_CONST # define PERLIO_FUNCS_DECL(funcs) const PerlIO_funcs funcs # define PERLIO_FUNCS_CAST(funcs) (PerlIO_funcs*)(funcs) # else # define PERLIO_FUNCS_DECL(funcs) PerlIO_funcs funcs # define PERLIO_FUNCS_CAST(funcs) (funcs) # endif #endif /* provide these typedefs for older perls */ #if (PERL_BCDVERSION < 0x5009003) # ifdef ARGSproto typedef OP* (CPERLscope(*Perl_ppaddr_t))(ARGSproto); # else typedef OP* (CPERLscope(*Perl_ppaddr_t))(pTHX); # endif typedef OP* (CPERLscope(*Perl_check_t)) (pTHX_ OP*); #endif #ifndef isPSXSPC # define isPSXSPC(c) (isSPACE(c) || (c) == '\v') #endif #ifndef isBLANK # define isBLANK(c) ((c) == ' ' || (c) == '\t') #endif #ifdef EBCDIC #ifndef isALNUMC # define isALNUMC(c) isalnum(c) #endif #ifndef isASCII # define isASCII(c) isascii(c) #endif #ifndef isCNTRL # define isCNTRL(c) iscntrl(c) #endif #ifndef isGRAPH # define isGRAPH(c) isgraph(c) #endif #ifndef isPRINT # define isPRINT(c) isprint(c) #endif #ifndef isPUNCT # define isPUNCT(c) ispunct(c) #endif #ifndef isXDIGIT # define isXDIGIT(c) isxdigit(c) #endif #else # if (PERL_BCDVERSION < 0x5010000) /* Hint: isPRINT * The implementation in older perl versions includes all of the * isSPACE() characters, which is wrong. The version provided by * Devel::PPPort always overrides a present buggy version. */ # undef isPRINT # endif #ifndef isALNUMC # define isALNUMC(c) (isALPHA(c) || isDIGIT(c)) #endif #ifndef isASCII # define isASCII(c) ((c) <= 127) #endif #ifndef isCNTRL # define isCNTRL(c) ((c) < ' ' || (c) == 127) #endif #ifndef isGRAPH # define isGRAPH(c) (isALNUM(c) || isPUNCT(c)) #endif #ifndef isPRINT # define isPRINT(c) (((c) >= 32 && (c) < 127)) #endif #ifndef isPUNCT # define isPUNCT(c) (((c) >= 33 && (c) <= 47) || ((c) >= 58 && (c) <= 64) || ((c) >= 91 && (c) <= 96) || ((c) >= 123 && (c) <= 126)) #endif #ifndef isXDIGIT # define isXDIGIT(c) (isDIGIT(c) || ((c) >= 'a' && (c) <= 'f') || ((c) >= 'A' && (c) <= 'F')) #endif #endif #ifndef PERL_SIGNALS_UNSAFE_FLAG #define PERL_SIGNALS_UNSAFE_FLAG 0x0001 #if (PERL_BCDVERSION < 0x5008000) # define D_PPP_PERL_SIGNALS_INIT PERL_SIGNALS_UNSAFE_FLAG #else # define D_PPP_PERL_SIGNALS_INIT 0 #endif #if defined(NEED_PL_signals) static U32 DPPP_(my_PL_signals) = D_PPP_PERL_SIGNALS_INIT; #elif defined(NEED_PL_signals_GLOBAL) U32 DPPP_(my_PL_signals) = D_PPP_PERL_SIGNALS_INIT; #else extern U32 DPPP_(my_PL_signals); #endif #define PL_signals DPPP_(my_PL_signals) #endif /* Hint: PL_ppaddr * Calling an op via PL_ppaddr requires passing a context argument * for threaded builds. Since the context argument is different for * 5.005 perls, you can use aTHXR (supplied by ppport.h), which will * automatically be defined as the correct argument. */ #if (PERL_BCDVERSION <= 0x5005005) /* Replace: 1 */ # define PL_ppaddr ppaddr # define PL_no_modify no_modify /* Replace: 0 */ #endif #if (PERL_BCDVERSION <= 0x5004005) /* Replace: 1 */ # define PL_DBsignal DBsignal # define PL_DBsingle DBsingle # define PL_DBsub DBsub # define PL_DBtrace DBtrace # define PL_Sv Sv # define PL_bufend bufend # define PL_bufptr bufptr # define PL_compiling compiling # define PL_copline copline # define PL_curcop curcop # define PL_curstash curstash # define PL_debstash debstash # define PL_defgv defgv # define PL_diehook diehook # define PL_dirty dirty # define PL_dowarn dowarn # define PL_errgv errgv # define PL_error_count error_count # define PL_expect expect # define PL_hexdigit hexdigit # define PL_hints hints # define PL_in_my in_my # define PL_laststatval laststatval # define PL_lex_state lex_state # define PL_lex_stuff lex_stuff # define PL_linestr linestr # define PL_na na # define PL_perl_destruct_level perl_destruct_level # define PL_perldb perldb # define PL_rsfp_filters rsfp_filters # define PL_rsfp rsfp # define PL_stack_base stack_base # define PL_stack_sp stack_sp # define PL_statcache statcache # define PL_stdingv stdingv # define PL_sv_arenaroot sv_arenaroot # define PL_sv_no sv_no # define PL_sv_undef sv_undef # define PL_sv_yes sv_yes # define PL_tainted tainted # define PL_tainting tainting # define PL_tokenbuf tokenbuf /* Replace: 0 */ #endif /* Warning: PL_parser * For perl versions earlier than 5.9.5, this is an always * non-NULL dummy. Also, it cannot be dereferenced. Don't * use it if you can avoid is and unless you absolutely know * what you're doing. * If you always check that PL_parser is non-NULL, you can * define DPPP_PL_parser_NO_DUMMY to avoid the creation of * a dummy parser structure. */ #if (PERL_BCDVERSION >= 0x5009005) # ifdef DPPP_PL_parser_NO_DUMMY # define D_PPP_my_PL_parser_var(var) ((PL_parser ? PL_parser : \ (croak("panic: PL_parser == NULL in %s:%d", \ __FILE__, __LINE__), (yy_parser *) NULL))->var) # else # ifdef DPPP_PL_parser_NO_DUMMY_WARNING # define D_PPP_parser_dummy_warning(var) # else # define D_PPP_parser_dummy_warning(var) \ warn("warning: dummy PL_" #var " used in %s:%d", __FILE__, __LINE__), # endif # define D_PPP_my_PL_parser_var(var) ((PL_parser ? PL_parser : \ (D_PPP_parser_dummy_warning(var) &DPPP_(dummy_PL_parser)))->var) #if defined(NEED_PL_parser) static yy_parser DPPP_(dummy_PL_parser); #elif defined(NEED_PL_parser_GLOBAL) yy_parser DPPP_(dummy_PL_parser); #else extern yy_parser DPPP_(dummy_PL_parser); #endif # endif /* PL_expect, PL_copline, PL_rsfp, PL_rsfp_filters, PL_linestr, PL_bufptr, PL_bufend, PL_lex_state, PL_lex_stuff, PL_tokenbuf depends on PL_parser */ /* Warning: PL_expect, PL_copline, PL_rsfp, PL_rsfp_filters, PL_linestr, PL_bufptr, PL_bufend, PL_lex_state, PL_lex_stuff, PL_tokenbuf * Do not use this variable unless you know exactly what you're * doint. It is internal to the perl parser and may change or even * be removed in the future. As of perl 5.9.5, you have to check * for (PL_parser != NULL) for this variable to have any effect. * An always non-NULL PL_parser dummy is provided for earlier * perl versions. * If PL_parser is NULL when you try to access this variable, a * dummy is being accessed instead and a warning is issued unless * you define DPPP_PL_parser_NO_DUMMY_WARNING. * If DPPP_PL_parser_NO_DUMMY is defined, the code trying to access * this variable will croak with a panic message. */ # define PL_expect D_PPP_my_PL_parser_var(expect) # define PL_copline D_PPP_my_PL_parser_var(copline) # define PL_rsfp D_PPP_my_PL_parser_var(rsfp) # define PL_rsfp_filters D_PPP_my_PL_parser_var(rsfp_filters) # define PL_linestr D_PPP_my_PL_parser_var(linestr) # define PL_bufptr D_PPP_my_PL_parser_var(bufptr) # define PL_bufend D_PPP_my_PL_parser_var(bufend) # define PL_lex_state D_PPP_my_PL_parser_var(lex_state) # define PL_lex_stuff D_PPP_my_PL_parser_var(lex_stuff) # define PL_tokenbuf D_PPP_my_PL_parser_var(tokenbuf) # define PL_in_my D_PPP_my_PL_parser_var(in_my) # define PL_in_my_stash D_PPP_my_PL_parser_var(in_my_stash) # define PL_error_count D_PPP_my_PL_parser_var(error_count) #else /* ensure that PL_parser != NULL and cannot be dereferenced */ # define PL_parser ((void *) 1) #endif #ifndef mPUSHs # define mPUSHs(s) PUSHs(sv_2mortal(s)) #endif #ifndef PUSHmortal # define PUSHmortal PUSHs(sv_newmortal()) #endif #ifndef mPUSHp # define mPUSHp(p,l) sv_setpvn(PUSHmortal, (p), (l)) #endif #ifndef mPUSHn # define mPUSHn(n) sv_setnv(PUSHmortal, (NV)(n)) #endif #ifndef mPUSHi # define mPUSHi(i) sv_setiv(PUSHmortal, (IV)(i)) #endif #ifndef mPUSHu # define mPUSHu(u) sv_setuv(PUSHmortal, (UV)(u)) #endif #ifndef mXPUSHs # define mXPUSHs(s) XPUSHs(sv_2mortal(s)) #endif #ifndef XPUSHmortal # define XPUSHmortal XPUSHs(sv_newmortal()) #endif #ifndef mXPUSHp # define mXPUSHp(p,l) STMT_START { EXTEND(sp,1); sv_setpvn(PUSHmortal, (p), (l)); } STMT_END #endif #ifndef mXPUSHn # define mXPUSHn(n) STMT_START { EXTEND(sp,1); sv_setnv(PUSHmortal, (NV)(n)); } STMT_END #endif #ifndef mXPUSHi # define mXPUSHi(i) STMT_START { EXTEND(sp,1); sv_setiv(PUSHmortal, (IV)(i)); } STMT_END #endif #ifndef mXPUSHu # define mXPUSHu(u) STMT_START { EXTEND(sp,1); sv_setuv(PUSHmortal, (UV)(u)); } STMT_END #endif /* Replace: 1 */ #ifndef call_sv # define call_sv perl_call_sv #endif #ifndef call_pv # define call_pv perl_call_pv #endif #ifndef call_argv # define call_argv perl_call_argv #endif #ifndef call_method # define call_method perl_call_method #endif #ifndef eval_sv # define eval_sv perl_eval_sv #endif /* Replace: 0 */ #ifndef PERL_LOADMOD_DENY # define PERL_LOADMOD_DENY 0x1 #endif #ifndef PERL_LOADMOD_NOIMPORT # define PERL_LOADMOD_NOIMPORT 0x2 #endif #ifndef PERL_LOADMOD_IMPORT_OPS # define PERL_LOADMOD_IMPORT_OPS 0x4 #endif #ifndef G_METHOD # define G_METHOD 64 # ifdef call_sv # undef call_sv # endif # if (PERL_BCDVERSION < 0x5006000) # define call_sv(sv, flags) ((flags) & G_METHOD ? perl_call_method((char *) SvPV_nolen_const(sv), \ (flags) & ~G_METHOD) : perl_call_sv(sv, flags)) # else # define call_sv(sv, flags) ((flags) & G_METHOD ? Perl_call_method(aTHX_ (char *) SvPV_nolen_const(sv), \ (flags) & ~G_METHOD) : Perl_call_sv(aTHX_ sv, flags)) # endif #endif /* Replace perl_eval_pv with eval_pv */ #ifndef eval_pv #if defined(NEED_eval_pv) static SV* DPPP_(my_eval_pv)(char *p, I32 croak_on_error); static #else extern SV* DPPP_(my_eval_pv)(char *p, I32 croak_on_error); #endif #ifdef eval_pv # undef eval_pv #endif #define eval_pv(a,b) DPPP_(my_eval_pv)(aTHX_ a,b) #define Perl_eval_pv DPPP_(my_eval_pv) #if defined(NEED_eval_pv) || defined(NEED_eval_pv_GLOBAL) SV* DPPP_(my_eval_pv)(char *p, I32 croak_on_error) { dSP; SV* sv = newSVpv(p, 0); PUSHMARK(sp); eval_sv(sv, G_SCALAR); SvREFCNT_dec(sv); SPAGAIN; sv = POPs; PUTBACK; if (croak_on_error && SvTRUE(GvSV(errgv))) croak(SvPVx(GvSV(errgv), na)); return sv; } #endif #endif #ifndef vload_module #if defined(NEED_vload_module) static void DPPP_(my_vload_module)(U32 flags, SV *name, SV *ver, va_list *args); static #else extern void DPPP_(my_vload_module)(U32 flags, SV *name, SV *ver, va_list *args); #endif #ifdef vload_module # undef vload_module #endif #define vload_module(a,b,c,d) DPPP_(my_vload_module)(aTHX_ a,b,c,d) #define Perl_vload_module DPPP_(my_vload_module) #if defined(NEED_vload_module) || defined(NEED_vload_module_GLOBAL) void DPPP_(my_vload_module)(U32 flags, SV *name, SV *ver, va_list *args) { dTHR; dVAR; OP *veop, *imop; OP * const modname = newSVOP(OP_CONST, 0, name); /* 5.005 has a somewhat hacky force_normal that doesn't croak on SvREADONLY() if PL_compling is true. Current perls take care in ck_require() to correctly turn off SvREADONLY before calling force_normal_flags(). This seems a better fix than fudging PL_compling */ SvREADONLY_off(((SVOP*)modname)->op_sv); modname->op_private |= OPpCONST_BARE; if (ver) { veop = newSVOP(OP_CONST, 0, ver); } else veop = NULL; if (flags & PERL_LOADMOD_NOIMPORT) { imop = sawparens(newNULLLIST()); } else if (flags & PERL_LOADMOD_IMPORT_OPS) { imop = va_arg(*args, OP*); } else { SV *sv; imop = NULL; sv = va_arg(*args, SV*); while (sv) { imop = append_elem(OP_LIST, imop, newSVOP(OP_CONST, 0, sv)); sv = va_arg(*args, SV*); } } { const line_t ocopline = PL_copline; COP * const ocurcop = PL_curcop; const int oexpect = PL_expect; #if (PERL_BCDVERSION >= 0x5004000) utilize(!(flags & PERL_LOADMOD_DENY), start_subparse(FALSE, 0), veop, modname, imop); #else utilize(!(flags & PERL_LOADMOD_DENY), start_subparse(), modname, imop); #endif PL_expect = oexpect; PL_copline = ocopline; PL_curcop = ocurcop; } } #endif #endif #ifndef load_module #if defined(NEED_load_module) static void DPPP_(my_load_module)(U32 flags, SV *name, SV *ver, ...); static #else extern void DPPP_(my_load_module)(U32 flags, SV *name, SV *ver, ...); #endif #ifdef load_module # undef load_module #endif #define load_module DPPP_(my_load_module) #define Perl_load_module DPPP_(my_load_module) #if defined(NEED_load_module) || defined(NEED_load_module_GLOBAL) void DPPP_(my_load_module)(U32 flags, SV *name, SV *ver, ...) { va_list args; va_start(args, ver); vload_module(flags, name, ver, &args); va_end(args); } #endif #endif #ifndef newRV_inc # define newRV_inc(sv) newRV(sv) /* Replace */ #endif #ifndef newRV_noinc #if defined(NEED_newRV_noinc) static SV * DPPP_(my_newRV_noinc)(SV *sv); static #else extern SV * DPPP_(my_newRV_noinc)(SV *sv); #endif #ifdef newRV_noinc # undef newRV_noinc #endif #define newRV_noinc(a) DPPP_(my_newRV_noinc)(aTHX_ a) #define Perl_newRV_noinc DPPP_(my_newRV_noinc) #if defined(NEED_newRV_noinc) || defined(NEED_newRV_noinc_GLOBAL) SV * DPPP_(my_newRV_noinc)(SV *sv) { SV *rv = (SV *)newRV(sv); SvREFCNT_dec(sv); return rv; } #endif #endif /* Hint: newCONSTSUB * Returns a CV* as of perl-5.7.1. This return value is not supported * by Devel::PPPort. */ /* newCONSTSUB from IO.xs is in the core starting with 5.004_63 */ #if (PERL_BCDVERSION < 0x5004063) && (PERL_BCDVERSION != 0x5004005) #if defined(NEED_newCONSTSUB) static void DPPP_(my_newCONSTSUB)(HV *stash, const char *name, SV *sv); static #else extern void DPPP_(my_newCONSTSUB)(HV *stash, const char *name, SV *sv); #endif #ifdef newCONSTSUB # undef newCONSTSUB #endif #define newCONSTSUB(a,b,c) DPPP_(my_newCONSTSUB)(aTHX_ a,b,c) #define Perl_newCONSTSUB DPPP_(my_newCONSTSUB) #if defined(NEED_newCONSTSUB) || defined(NEED_newCONSTSUB_GLOBAL) /* This is just a trick to avoid a dependency of newCONSTSUB on PL_parser */ /* (There's no PL_parser in perl < 5.005, so this is completely safe) */ #define D_PPP_PL_copline PL_copline void DPPP_(my_newCONSTSUB)(HV *stash, const char *name, SV *sv) { U32 oldhints = PL_hints; HV *old_cop_stash = PL_curcop->cop_stash; HV *old_curstash = PL_curstash; line_t oldline = PL_curcop->cop_line; PL_curcop->cop_line = D_PPP_PL_copline; PL_hints &= ~HINT_BLOCK_SCOPE; if (stash) PL_curstash = PL_curcop->cop_stash = stash; newSUB( #if (PERL_BCDVERSION < 0x5003022) start_subparse(), #elif (PERL_BCDVERSION == 0x5003022) start_subparse(0), #else /* 5.003_23 onwards */ start_subparse(FALSE, 0), #endif newSVOP(OP_CONST, 0, newSVpv((char *) name, 0)), newSVOP(OP_CONST, 0, &PL_sv_no), /* SvPV(&PL_sv_no) == "" -- GMB */ newSTATEOP(0, Nullch, newSVOP(OP_CONST, 0, sv)) ); PL_hints = oldhints; PL_curcop->cop_stash = old_cop_stash; PL_curstash = old_curstash; PL_curcop->cop_line = oldline; } #endif #endif /* * Boilerplate macros for initializing and accessing interpreter-local * data from C. All statics in extensions should be reworked to use * this, if you want to make the extension thread-safe. See ext/re/re.xs * for an example of the use of these macros. * * Code that uses these macros is responsible for the following: * 1. #define MY_CXT_KEY to a unique string, e.g. "DynaLoader_guts" * 2. Declare a typedef named my_cxt_t that is a structure that contains * all the data that needs to be interpreter-local. * 3. Use the START_MY_CXT macro after the declaration of my_cxt_t. * 4. Use the MY_CXT_INIT macro such that it is called exactly once * (typically put in the BOOT: section). * 5. Use the members of the my_cxt_t structure everywhere as * MY_CXT.member. * 6. Use the dMY_CXT macro (a declaration) in all the functions that * access MY_CXT. */ #if defined(MULTIPLICITY) || defined(PERL_OBJECT) || \ defined(PERL_CAPI) || defined(PERL_IMPLICIT_CONTEXT) #ifndef START_MY_CXT /* This must appear in all extensions that define a my_cxt_t structure, * right after the definition (i.e. at file scope). The non-threads * case below uses it to declare the data as static. */ #define START_MY_CXT #if (PERL_BCDVERSION < 0x5004068) /* Fetches the SV that keeps the per-interpreter data. */ #define dMY_CXT_SV \ SV *my_cxt_sv = get_sv(MY_CXT_KEY, FALSE) #else /* >= perl5.004_68 */ #define dMY_CXT_SV \ SV *my_cxt_sv = *hv_fetch(PL_modglobal, MY_CXT_KEY, \ sizeof(MY_CXT_KEY)-1, TRUE) #endif /* < perl5.004_68 */ /* This declaration should be used within all functions that use the * interpreter-local data. */ #define dMY_CXT \ dMY_CXT_SV; \ my_cxt_t *my_cxtp = INT2PTR(my_cxt_t*,SvUV(my_cxt_sv)) /* Creates and zeroes the per-interpreter data. * (We allocate my_cxtp in a Perl SV so that it will be released when * the interpreter goes away.) */ #define MY_CXT_INIT \ dMY_CXT_SV; \ /* newSV() allocates one more than needed */ \ my_cxt_t *my_cxtp = (my_cxt_t*)SvPVX(newSV(sizeof(my_cxt_t)-1));\ Zero(my_cxtp, 1, my_cxt_t); \ sv_setuv(my_cxt_sv, PTR2UV(my_cxtp)) /* This macro must be used to access members of the my_cxt_t structure. * e.g. MYCXT.some_data */ #define MY_CXT (*my_cxtp) /* Judicious use of these macros can reduce the number of times dMY_CXT * is used. Use is similar to pTHX, aTHX etc. */ #define pMY_CXT my_cxt_t *my_cxtp #define pMY_CXT_ pMY_CXT, #define _pMY_CXT ,pMY_CXT #define aMY_CXT my_cxtp #define aMY_CXT_ aMY_CXT, #define _aMY_CXT ,aMY_CXT #endif /* START_MY_CXT */ #ifndef MY_CXT_CLONE /* Clones the per-interpreter data. */ #define MY_CXT_CLONE \ dMY_CXT_SV; \ my_cxt_t *my_cxtp = (my_cxt_t*)SvPVX(newSV(sizeof(my_cxt_t)-1));\ Copy(INT2PTR(my_cxt_t*, SvUV(my_cxt_sv)), my_cxtp, 1, my_cxt_t);\ sv_setuv(my_cxt_sv, PTR2UV(my_cxtp)) #endif #else /* single interpreter */ #ifndef START_MY_CXT #define START_MY_CXT static my_cxt_t my_cxt; #define dMY_CXT_SV dNOOP #define dMY_CXT dNOOP #define MY_CXT_INIT NOOP #define MY_CXT my_cxt #define pMY_CXT void #define pMY_CXT_ #define _pMY_CXT #define aMY_CXT #define aMY_CXT_ #define _aMY_CXT #endif /* START_MY_CXT */ #ifndef MY_CXT_CLONE #define MY_CXT_CLONE NOOP #endif #endif #ifndef IVdf # if IVSIZE == LONGSIZE # define IVdf "ld" # define UVuf "lu" # define UVof "lo" # define UVxf "lx" # define UVXf "lX" # else # if IVSIZE == INTSIZE # define IVdf "d" # define UVuf "u" # define UVof "o" # define UVxf "x" # define UVXf "X" # endif # endif #endif #ifndef NVef # if defined(USE_LONG_DOUBLE) && defined(HAS_LONG_DOUBLE) && \ defined(PERL_PRIfldbl) && (PERL_BCDVERSION != 0x5006000) /* Not very likely, but let's try anyway. */ # define NVef PERL_PRIeldbl # define NVff PERL_PRIfldbl # define NVgf PERL_PRIgldbl # else # define NVef "e" # define NVff "f" # define NVgf "g" # endif #endif #ifndef SvREFCNT_inc # ifdef PERL_USE_GCC_BRACE_GROUPS # define SvREFCNT_inc(sv) \ ({ \ SV * const _sv = (SV*)(sv); \ if (_sv) \ (SvREFCNT(_sv))++; \ _sv; \ }) # else # define SvREFCNT_inc(sv) \ ((PL_Sv=(SV*)(sv)) ? (++(SvREFCNT(PL_Sv)),PL_Sv) : NULL) # endif #endif #ifndef SvREFCNT_inc_simple # ifdef PERL_USE_GCC_BRACE_GROUPS # define SvREFCNT_inc_simple(sv) \ ({ \ if (sv) \ (SvREFCNT(sv))++; \ (SV *)(sv); \ }) # else # define SvREFCNT_inc_simple(sv) \ ((sv) ? (SvREFCNT(sv)++,(SV*)(sv)) : NULL) # endif #endif #ifndef SvREFCNT_inc_NN # ifdef PERL_USE_GCC_BRACE_GROUPS # define SvREFCNT_inc_NN(sv) \ ({ \ SV * const _sv = (SV*)(sv); \ SvREFCNT(_sv)++; \ _sv; \ }) # else # define SvREFCNT_inc_NN(sv) \ (PL_Sv=(SV*)(sv),++(SvREFCNT(PL_Sv)),PL_Sv) # endif #endif #ifndef SvREFCNT_inc_void # ifdef PERL_USE_GCC_BRACE_GROUPS # define SvREFCNT_inc_void(sv) \ ({ \ SV * const _sv = (SV*)(sv); \ if (_sv) \ (void)(SvREFCNT(_sv)++); \ }) # else # define SvREFCNT_inc_void(sv) \ (void)((PL_Sv=(SV*)(sv)) ? ++(SvREFCNT(PL_Sv)) : 0) # endif #endif #ifndef SvREFCNT_inc_simple_void # define SvREFCNT_inc_simple_void(sv) STMT_START { if (sv) SvREFCNT(sv)++; } STMT_END #endif #ifndef SvREFCNT_inc_simple_NN # define SvREFCNT_inc_simple_NN(sv) (++SvREFCNT(sv), (SV*)(sv)) #endif #ifndef SvREFCNT_inc_void_NN # define SvREFCNT_inc_void_NN(sv) (void)(++SvREFCNT((SV*)(sv))) #endif #ifndef SvREFCNT_inc_simple_void_NN # define SvREFCNT_inc_simple_void_NN(sv) (void)(++SvREFCNT((SV*)(sv))) #endif #ifndef newSV_type #if defined(NEED_newSV_type) static SV* DPPP_(my_newSV_type)(pTHX_ svtype const t); static #else extern SV* DPPP_(my_newSV_type)(pTHX_ svtype const t); #endif #ifdef newSV_type # undef newSV_type #endif #define newSV_type(a) DPPP_(my_newSV_type)(aTHX_ a) #define Perl_newSV_type DPPP_(my_newSV_type) #if defined(NEED_newSV_type) || defined(NEED_newSV_type_GLOBAL) SV* DPPP_(my_newSV_type)(pTHX_ svtype const t) { SV* const sv = newSV(0); sv_upgrade(sv, t); return sv; } #endif #endif #if (PERL_BCDVERSION < 0x5006000) # define D_PPP_CONSTPV_ARG(x) ((char *) (x)) #else # define D_PPP_CONSTPV_ARG(x) (x) #endif #ifndef newSVpvn # define newSVpvn(data,len) ((data) \ ? ((len) ? newSVpv((data), (len)) : newSVpv("", 0)) \ : newSV(0)) #endif #ifndef newSVpvn_utf8 # define newSVpvn_utf8(s, len, u) newSVpvn_flags((s), (len), (u) ? SVf_UTF8 : 0) #endif #ifndef SVf_UTF8 # define SVf_UTF8 0 #endif #ifndef newSVpvn_flags #if defined(NEED_newSVpvn_flags) static SV * DPPP_(my_newSVpvn_flags)(pTHX_ const char *s, STRLEN len, U32 flags); static #else extern SV * DPPP_(my_newSVpvn_flags)(pTHX_ const char *s, STRLEN len, U32 flags); #endif #ifdef newSVpvn_flags # undef newSVpvn_flags #endif #define newSVpvn_flags(a,b,c) DPPP_(my_newSVpvn_flags)(aTHX_ a,b,c) #define Perl_newSVpvn_flags DPPP_(my_newSVpvn_flags) #if defined(NEED_newSVpvn_flags) || defined(NEED_newSVpvn_flags_GLOBAL) SV * DPPP_(my_newSVpvn_flags)(pTHX_ const char *s, STRLEN len, U32 flags) { SV *sv = newSVpvn(D_PPP_CONSTPV_ARG(s), len); SvFLAGS(sv) |= (flags & SVf_UTF8); return (flags & SVs_TEMP) ? sv_2mortal(sv) : sv; } #endif #endif /* Backwards compatibility stuff... :-( */ #if !defined(NEED_sv_2pv_flags) && defined(NEED_sv_2pv_nolen) # define NEED_sv_2pv_flags #endif #if !defined(NEED_sv_2pv_flags_GLOBAL) && defined(NEED_sv_2pv_nolen_GLOBAL) # define NEED_sv_2pv_flags_GLOBAL #endif /* Hint: sv_2pv_nolen * Use the SvPV_nolen() or SvPV_nolen_const() macros instead of sv_2pv_nolen(). */ #ifndef sv_2pv_nolen # define sv_2pv_nolen(sv) SvPV_nolen(sv) #endif #ifdef SvPVbyte /* Hint: SvPVbyte * Does not work in perl-5.6.1, ppport.h implements a version * borrowed from perl-5.7.3. */ #if (PERL_BCDVERSION < 0x5007000) #if defined(NEED_sv_2pvbyte) static char * DPPP_(my_sv_2pvbyte)(pTHX_ SV *sv, STRLEN *lp); static #else extern char * DPPP_(my_sv_2pvbyte)(pTHX_ SV *sv, STRLEN *lp); #endif #ifdef sv_2pvbyte # undef sv_2pvbyte #endif #define sv_2pvbyte(a,b) DPPP_(my_sv_2pvbyte)(aTHX_ a,b) #define Perl_sv_2pvbyte DPPP_(my_sv_2pvbyte) #if defined(NEED_sv_2pvbyte) || defined(NEED_sv_2pvbyte_GLOBAL) char * DPPP_(my_sv_2pvbyte)(pTHX_ SV *sv, STRLEN *lp) { sv_utf8_downgrade(sv,0); return SvPV(sv,*lp); } #endif /* Hint: sv_2pvbyte * Use the SvPVbyte() macro instead of sv_2pvbyte(). */ #undef SvPVbyte #define SvPVbyte(sv, lp) \ ((SvFLAGS(sv) & (SVf_POK|SVf_UTF8)) == (SVf_POK) \ ? ((lp = SvCUR(sv)), SvPVX(sv)) : sv_2pvbyte(sv, &lp)) #endif #else # define SvPVbyte SvPV # define sv_2pvbyte sv_2pv #endif #ifndef sv_2pvbyte_nolen # define sv_2pvbyte_nolen(sv) sv_2pv_nolen(sv) #endif /* Hint: sv_pvn * Always use the SvPV() macro instead of sv_pvn(). */ /* Hint: sv_pvn_force * Always use the SvPV_force() macro instead of sv_pvn_force(). */ /* If these are undefined, they're not handled by the core anyway */ #ifndef SV_IMMEDIATE_UNREF # define SV_IMMEDIATE_UNREF 0 #endif #ifndef SV_GMAGIC # define SV_GMAGIC 0 #endif #ifndef SV_COW_DROP_PV # define SV_COW_DROP_PV 0 #endif #ifndef SV_UTF8_NO_ENCODING # define SV_UTF8_NO_ENCODING 0 #endif #ifndef SV_NOSTEAL # define SV_NOSTEAL 0 #endif #ifndef SV_CONST_RETURN # define SV_CONST_RETURN 0 #endif #ifndef SV_MUTABLE_RETURN # define SV_MUTABLE_RETURN 0 #endif #ifndef SV_SMAGIC # define SV_SMAGIC 0 #endif #ifndef SV_HAS_TRAILING_NUL # define SV_HAS_TRAILING_NUL 0 #endif #ifndef SV_COW_SHARED_HASH_KEYS # define SV_COW_SHARED_HASH_KEYS 0 #endif #if (PERL_BCDVERSION < 0x5007002) #if defined(NEED_sv_2pv_flags) static char * DPPP_(my_sv_2pv_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags); static #else extern char * DPPP_(my_sv_2pv_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags); #endif #ifdef sv_2pv_flags # undef sv_2pv_flags #endif #define sv_2pv_flags(a,b,c) DPPP_(my_sv_2pv_flags)(aTHX_ a,b,c) #define Perl_sv_2pv_flags DPPP_(my_sv_2pv_flags) #if defined(NEED_sv_2pv_flags) || defined(NEED_sv_2pv_flags_GLOBAL) char * DPPP_(my_sv_2pv_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags) { STRLEN n_a = (STRLEN) flags; return sv_2pv(sv, lp ? lp : &n_a); } #endif #if defined(NEED_sv_pvn_force_flags) static char * DPPP_(my_sv_pvn_force_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags); static #else extern char * DPPP_(my_sv_pvn_force_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags); #endif #ifdef sv_pvn_force_flags # undef sv_pvn_force_flags #endif #define sv_pvn_force_flags(a,b,c) DPPP_(my_sv_pvn_force_flags)(aTHX_ a,b,c) #define Perl_sv_pvn_force_flags DPPP_(my_sv_pvn_force_flags) #if defined(NEED_sv_pvn_force_flags) || defined(NEED_sv_pvn_force_flags_GLOBAL) char * DPPP_(my_sv_pvn_force_flags)(pTHX_ SV *sv, STRLEN *lp, I32 flags) { STRLEN n_a = (STRLEN) flags; return sv_pvn_force(sv, lp ? lp : &n_a); } #endif #endif #if (PERL_BCDVERSION < 0x5008008) || ( (PERL_BCDVERSION >= 0x5009000) && (PERL_BCDVERSION < 0x5009003) ) # define DPPP_SVPV_NOLEN_LP_ARG &PL_na #else # define DPPP_SVPV_NOLEN_LP_ARG 0 #endif #ifndef SvPV_const # define SvPV_const(sv, lp) SvPV_flags_const(sv, lp, SV_GMAGIC) #endif #ifndef SvPV_mutable # define SvPV_mutable(sv, lp) SvPV_flags_mutable(sv, lp, SV_GMAGIC) #endif #ifndef SvPV_flags # define SvPV_flags(sv, lp, flags) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? ((lp = SvCUR(sv)), SvPVX(sv)) : sv_2pv_flags(sv, &lp, flags)) #endif #ifndef SvPV_flags_const # define SvPV_flags_const(sv, lp, flags) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? ((lp = SvCUR(sv)), SvPVX_const(sv)) : \ (const char*) sv_2pv_flags(sv, &lp, flags|SV_CONST_RETURN)) #endif #ifndef SvPV_flags_const_nolen # define SvPV_flags_const_nolen(sv, flags) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? SvPVX_const(sv) : \ (const char*) sv_2pv_flags(sv, DPPP_SVPV_NOLEN_LP_ARG, flags|SV_CONST_RETURN)) #endif #ifndef SvPV_flags_mutable # define SvPV_flags_mutable(sv, lp, flags) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? ((lp = SvCUR(sv)), SvPVX_mutable(sv)) : \ sv_2pv_flags(sv, &lp, flags|SV_MUTABLE_RETURN)) #endif #ifndef SvPV_force # define SvPV_force(sv, lp) SvPV_force_flags(sv, lp, SV_GMAGIC) #endif #ifndef SvPV_force_nolen # define SvPV_force_nolen(sv) SvPV_force_flags_nolen(sv, SV_GMAGIC) #endif #ifndef SvPV_force_mutable # define SvPV_force_mutable(sv, lp) SvPV_force_flags_mutable(sv, lp, SV_GMAGIC) #endif #ifndef SvPV_force_nomg # define SvPV_force_nomg(sv, lp) SvPV_force_flags(sv, lp, 0) #endif #ifndef SvPV_force_nomg_nolen # define SvPV_force_nomg_nolen(sv) SvPV_force_flags_nolen(sv, 0) #endif #ifndef SvPV_force_flags # define SvPV_force_flags(sv, lp, flags) \ ((SvFLAGS(sv) & (SVf_POK|SVf_THINKFIRST)) == SVf_POK \ ? ((lp = SvCUR(sv)), SvPVX(sv)) : sv_pvn_force_flags(sv, &lp, flags)) #endif #ifndef SvPV_force_flags_nolen # define SvPV_force_flags_nolen(sv, flags) \ ((SvFLAGS(sv) & (SVf_POK|SVf_THINKFIRST)) == SVf_POK \ ? SvPVX(sv) : sv_pvn_force_flags(sv, DPPP_SVPV_NOLEN_LP_ARG, flags)) #endif #ifndef SvPV_force_flags_mutable # define SvPV_force_flags_mutable(sv, lp, flags) \ ((SvFLAGS(sv) & (SVf_POK|SVf_THINKFIRST)) == SVf_POK \ ? ((lp = SvCUR(sv)), SvPVX_mutable(sv)) \ : sv_pvn_force_flags(sv, &lp, flags|SV_MUTABLE_RETURN)) #endif #ifndef SvPV_nolen # define SvPV_nolen(sv) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? SvPVX(sv) : sv_2pv_flags(sv, DPPP_SVPV_NOLEN_LP_ARG, SV_GMAGIC)) #endif #ifndef SvPV_nolen_const # define SvPV_nolen_const(sv) \ ((SvFLAGS(sv) & (SVf_POK)) == SVf_POK \ ? SvPVX_const(sv) : sv_2pv_flags(sv, DPPP_SVPV_NOLEN_LP_ARG, SV_GMAGIC|SV_CONST_RETURN)) #endif #ifndef SvPV_nomg # define SvPV_nomg(sv, lp) SvPV_flags(sv, lp, 0) #endif #ifndef SvPV_nomg_const # define SvPV_nomg_const(sv, lp) SvPV_flags_const(sv, lp, 0) #endif #ifndef SvPV_nomg_const_nolen # define SvPV_nomg_const_nolen(sv) SvPV_flags_const_nolen(sv, 0) #endif #ifndef SvPV_renew # define SvPV_renew(sv,n) STMT_START { SvLEN_set(sv, n); \ SvPV_set((sv), (char *) saferealloc( \ (Malloc_t)SvPVX(sv), (MEM_SIZE)((n)))); \ } STMT_END #endif #ifndef SvMAGIC_set # define SvMAGIC_set(sv, val) \ STMT_START { assert(SvTYPE(sv) >= SVt_PVMG); \ (((XPVMG*) SvANY(sv))->xmg_magic = (val)); } STMT_END #endif #if (PERL_BCDVERSION < 0x5009003) #ifndef SvPVX_const # define SvPVX_const(sv) ((const char*) (0 + SvPVX(sv))) #endif #ifndef SvPVX_mutable # define SvPVX_mutable(sv) (0 + SvPVX(sv)) #endif #ifndef SvRV_set # define SvRV_set(sv, val) \ STMT_START { assert(SvTYPE(sv) >= SVt_RV); \ (((XRV*) SvANY(sv))->xrv_rv = (val)); } STMT_END #endif #else #ifndef SvPVX_const # define SvPVX_const(sv) ((const char*)((sv)->sv_u.svu_pv)) #endif #ifndef SvPVX_mutable # define SvPVX_mutable(sv) ((sv)->sv_u.svu_pv) #endif #ifndef SvRV_set # define SvRV_set(sv, val) \ STMT_START { assert(SvTYPE(sv) >= SVt_RV); \ ((sv)->sv_u.svu_rv = (val)); } STMT_END #endif #endif #ifndef SvSTASH_set # define SvSTASH_set(sv, val) \ STMT_START { assert(SvTYPE(sv) >= SVt_PVMG); \ (((XPVMG*) SvANY(sv))->xmg_stash = (val)); } STMT_END #endif #if (PERL_BCDVERSION < 0x5004000) #ifndef SvUV_set # define SvUV_set(sv, val) \ STMT_START { assert(SvTYPE(sv) == SVt_IV || SvTYPE(sv) >= SVt_PVIV); \ (((XPVIV*) SvANY(sv))->xiv_iv = (IV) (val)); } STMT_END #endif #else #ifndef SvUV_set # define SvUV_set(sv, val) \ STMT_START { assert(SvTYPE(sv) == SVt_IV || SvTYPE(sv) >= SVt_PVIV); \ (((XPVUV*) SvANY(sv))->xuv_uv = (val)); } STMT_END #endif #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(vnewSVpvf) #if defined(NEED_vnewSVpvf) static SV * DPPP_(my_vnewSVpvf)(pTHX_ const char *pat, va_list *args); static #else extern SV * DPPP_(my_vnewSVpvf)(pTHX_ const char *pat, va_list *args); #endif #ifdef vnewSVpvf # undef vnewSVpvf #endif #define vnewSVpvf(a,b) DPPP_(my_vnewSVpvf)(aTHX_ a,b) #define Perl_vnewSVpvf DPPP_(my_vnewSVpvf) #if defined(NEED_vnewSVpvf) || defined(NEED_vnewSVpvf_GLOBAL) SV * DPPP_(my_vnewSVpvf)(pTHX_ const char *pat, va_list *args) { register SV *sv = newSV(0); sv_vsetpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)); return sv; } #endif #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_vcatpvf) # define sv_vcatpvf(sv, pat, args) sv_vcatpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)) #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_vsetpvf) # define sv_vsetpvf(sv, pat, args) sv_vsetpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)) #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_catpvf_mg) #if defined(NEED_sv_catpvf_mg) static void DPPP_(my_sv_catpvf_mg)(pTHX_ SV *sv, const char *pat, ...); static #else extern void DPPP_(my_sv_catpvf_mg)(pTHX_ SV *sv, const char *pat, ...); #endif #define Perl_sv_catpvf_mg DPPP_(my_sv_catpvf_mg) #if defined(NEED_sv_catpvf_mg) || defined(NEED_sv_catpvf_mg_GLOBAL) void DPPP_(my_sv_catpvf_mg)(pTHX_ SV *sv, const char *pat, ...) { va_list args; va_start(args, pat); sv_vcatpvfn(sv, pat, strlen(pat), &args, Null(SV**), 0, Null(bool*)); SvSETMAGIC(sv); va_end(args); } #endif #endif #ifdef PERL_IMPLICIT_CONTEXT #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_catpvf_mg_nocontext) #if defined(NEED_sv_catpvf_mg_nocontext) static void DPPP_(my_sv_catpvf_mg_nocontext)(SV *sv, const char *pat, ...); static #else extern void DPPP_(my_sv_catpvf_mg_nocontext)(SV *sv, const char *pat, ...); #endif #define sv_catpvf_mg_nocontext DPPP_(my_sv_catpvf_mg_nocontext) #define Perl_sv_catpvf_mg_nocontext DPPP_(my_sv_catpvf_mg_nocontext) #if defined(NEED_sv_catpvf_mg_nocontext) || defined(NEED_sv_catpvf_mg_nocontext_GLOBAL) void DPPP_(my_sv_catpvf_mg_nocontext)(SV *sv, const char *pat, ...) { dTHX; va_list args; va_start(args, pat); sv_vcatpvfn(sv, pat, strlen(pat), &args, Null(SV**), 0, Null(bool*)); SvSETMAGIC(sv); va_end(args); } #endif #endif #endif /* sv_catpvf_mg depends on sv_catpvf_mg_nocontext */ #ifndef sv_catpvf_mg # ifdef PERL_IMPLICIT_CONTEXT # define sv_catpvf_mg Perl_sv_catpvf_mg_nocontext # else # define sv_catpvf_mg Perl_sv_catpvf_mg # endif #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_vcatpvf_mg) # define sv_vcatpvf_mg(sv, pat, args) \ STMT_START { \ sv_vcatpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)); \ SvSETMAGIC(sv); \ } STMT_END #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_setpvf_mg) #if defined(NEED_sv_setpvf_mg) static void DPPP_(my_sv_setpvf_mg)(pTHX_ SV *sv, const char *pat, ...); static #else extern void DPPP_(my_sv_setpvf_mg)(pTHX_ SV *sv, const char *pat, ...); #endif #define Perl_sv_setpvf_mg DPPP_(my_sv_setpvf_mg) #if defined(NEED_sv_setpvf_mg) || defined(NEED_sv_setpvf_mg_GLOBAL) void DPPP_(my_sv_setpvf_mg)(pTHX_ SV *sv, const char *pat, ...) { va_list args; va_start(args, pat); sv_vsetpvfn(sv, pat, strlen(pat), &args, Null(SV**), 0, Null(bool*)); SvSETMAGIC(sv); va_end(args); } #endif #endif #ifdef PERL_IMPLICIT_CONTEXT #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_setpvf_mg_nocontext) #if defined(NEED_sv_setpvf_mg_nocontext) static void DPPP_(my_sv_setpvf_mg_nocontext)(SV *sv, const char *pat, ...); static #else extern void DPPP_(my_sv_setpvf_mg_nocontext)(SV *sv, const char *pat, ...); #endif #define sv_setpvf_mg_nocontext DPPP_(my_sv_setpvf_mg_nocontext) #define Perl_sv_setpvf_mg_nocontext DPPP_(my_sv_setpvf_mg_nocontext) #if defined(NEED_sv_setpvf_mg_nocontext) || defined(NEED_sv_setpvf_mg_nocontext_GLOBAL) void DPPP_(my_sv_setpvf_mg_nocontext)(SV *sv, const char *pat, ...) { dTHX; va_list args; va_start(args, pat); sv_vsetpvfn(sv, pat, strlen(pat), &args, Null(SV**), 0, Null(bool*)); SvSETMAGIC(sv); va_end(args); } #endif #endif #endif /* sv_setpvf_mg depends on sv_setpvf_mg_nocontext */ #ifndef sv_setpvf_mg # ifdef PERL_IMPLICIT_CONTEXT # define sv_setpvf_mg Perl_sv_setpvf_mg_nocontext # else # define sv_setpvf_mg Perl_sv_setpvf_mg # endif #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(sv_vsetpvf_mg) # define sv_vsetpvf_mg(sv, pat, args) \ STMT_START { \ sv_vsetpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)); \ SvSETMAGIC(sv); \ } STMT_END #endif #ifndef newSVpvn_share #if defined(NEED_newSVpvn_share) static SV * DPPP_(my_newSVpvn_share)(pTHX_ const char *src, I32 len, U32 hash); static #else extern SV * DPPP_(my_newSVpvn_share)(pTHX_ const char *src, I32 len, U32 hash); #endif #ifdef newSVpvn_share # undef newSVpvn_share #endif #define newSVpvn_share(a,b,c) DPPP_(my_newSVpvn_share)(aTHX_ a,b,c) #define Perl_newSVpvn_share DPPP_(my_newSVpvn_share) #if defined(NEED_newSVpvn_share) || defined(NEED_newSVpvn_share_GLOBAL) SV * DPPP_(my_newSVpvn_share)(pTHX_ const char *src, I32 len, U32 hash) { SV *sv; if (len < 0) len = -len; if (!hash) PERL_HASH(hash, (char*) src, len); sv = newSVpvn((char *) src, len); sv_upgrade(sv, SVt_PVIV); SvIVX(sv) = hash; SvREADONLY_on(sv); SvPOK_on(sv); return sv; } #endif #endif #ifndef SvSHARED_HASH # define SvSHARED_HASH(sv) (0 + SvUVX(sv)) #endif #ifndef HvNAME_get # define HvNAME_get(hv) HvNAME(hv) #endif #ifndef HvNAMELEN_get # define HvNAMELEN_get(hv) (HvNAME_get(hv) ? (I32)strlen(HvNAME_get(hv)) : 0) #endif #ifndef GvSVn # define GvSVn(gv) GvSV(gv) #endif #ifndef isGV_with_GP # define isGV_with_GP(gv) isGV(gv) #endif #ifndef WARN_ALL # define WARN_ALL 0 #endif #ifndef WARN_CLOSURE # define WARN_CLOSURE 1 #endif #ifndef WARN_DEPRECATED # define WARN_DEPRECATED 2 #endif #ifndef WARN_EXITING # define WARN_EXITING 3 #endif #ifndef WARN_GLOB # define WARN_GLOB 4 #endif #ifndef WARN_IO # define WARN_IO 5 #endif #ifndef WARN_CLOSED # define WARN_CLOSED 6 #endif #ifndef WARN_EXEC # define WARN_EXEC 7 #endif #ifndef WARN_LAYER # define WARN_LAYER 8 #endif #ifndef WARN_NEWLINE # define WARN_NEWLINE 9 #endif #ifndef WARN_PIPE # define WARN_PIPE 10 #endif #ifndef WARN_UNOPENED # define WARN_UNOPENED 11 #endif #ifndef WARN_MISC # define WARN_MISC 12 #endif #ifndef WARN_NUMERIC # define WARN_NUMERIC 13 #endif #ifndef WARN_ONCE # define WARN_ONCE 14 #endif #ifndef WARN_OVERFLOW # define WARN_OVERFLOW 15 #endif #ifndef WARN_PACK # define WARN_PACK 16 #endif #ifndef WARN_PORTABLE # define WARN_PORTABLE 17 #endif #ifndef WARN_RECURSION # define WARN_RECURSION 18 #endif #ifndef WARN_REDEFINE # define WARN_REDEFINE 19 #endif #ifndef WARN_REGEXP # define WARN_REGEXP 20 #endif #ifndef WARN_SEVERE # define WARN_SEVERE 21 #endif #ifndef WARN_DEBUGGING # define WARN_DEBUGGING 22 #endif #ifndef WARN_INPLACE # define WARN_INPLACE 23 #endif #ifndef WARN_INTERNAL # define WARN_INTERNAL 24 #endif #ifndef WARN_MALLOC # define WARN_MALLOC 25 #endif #ifndef WARN_SIGNAL # define WARN_SIGNAL 26 #endif #ifndef WARN_SUBSTR # define WARN_SUBSTR 27 #endif #ifndef WARN_SYNTAX # define WARN_SYNTAX 28 #endif #ifndef WARN_AMBIGUOUS # define WARN_AMBIGUOUS 29 #endif #ifndef WARN_BAREWORD # define WARN_BAREWORD 30 #endif #ifndef WARN_DIGIT # define WARN_DIGIT 31 #endif #ifndef WARN_PARENTHESIS # define WARN_PARENTHESIS 32 #endif #ifndef WARN_PRECEDENCE # define WARN_PRECEDENCE 33 #endif #ifndef WARN_PRINTF # define WARN_PRINTF 34 #endif #ifndef WARN_PROTOTYPE # define WARN_PROTOTYPE 35 #endif #ifndef WARN_QW # define WARN_QW 36 #endif #ifndef WARN_RESERVED # define WARN_RESERVED 37 #endif #ifndef WARN_SEMICOLON # define WARN_SEMICOLON 38 #endif #ifndef WARN_TAINT # define WARN_TAINT 39 #endif #ifndef WARN_THREADS # define WARN_THREADS 40 #endif #ifndef WARN_UNINITIALIZED # define WARN_UNINITIALIZED 41 #endif #ifndef WARN_UNPACK # define WARN_UNPACK 42 #endif #ifndef WARN_UNTIE # define WARN_UNTIE 43 #endif #ifndef WARN_UTF8 # define WARN_UTF8 44 #endif #ifndef WARN_VOID # define WARN_VOID 45 #endif #ifndef WARN_ASSERTIONS # define WARN_ASSERTIONS 46 #endif #ifndef packWARN # define packWARN(a) (a) #endif #ifndef ckWARN # ifdef G_WARN_ON # define ckWARN(a) (PL_dowarn & G_WARN_ON) # else # define ckWARN(a) PL_dowarn # endif #endif #if (PERL_BCDVERSION >= 0x5004000) && !defined(warner) #if defined(NEED_warner) static void DPPP_(my_warner)(U32 err, const char *pat, ...); static #else extern void DPPP_(my_warner)(U32 err, const char *pat, ...); #endif #define Perl_warner DPPP_(my_warner) #if defined(NEED_warner) || defined(NEED_warner_GLOBAL) void DPPP_(my_warner)(U32 err, const char *pat, ...) { SV *sv; va_list args; PERL_UNUSED_ARG(err); va_start(args, pat); sv = vnewSVpvf(pat, &args); va_end(args); sv_2mortal(sv); warn("%s", SvPV_nolen(sv)); } #define warner Perl_warner #define Perl_warner_nocontext Perl_warner #endif #endif /* concatenating with "" ensures that only literal strings are accepted as argument * note that STR_WITH_LEN() can't be used as argument to macros or functions that * under some configurations might be macros */ #ifndef STR_WITH_LEN # define STR_WITH_LEN(s) (s ""), (sizeof(s)-1) #endif #ifndef newSVpvs # define newSVpvs(str) newSVpvn(str "", sizeof(str) - 1) #endif #ifndef newSVpvs_flags # define newSVpvs_flags(str, flags) newSVpvn_flags(str "", sizeof(str) - 1, flags) #endif #ifndef sv_catpvs # define sv_catpvs(sv, str) sv_catpvn(sv, str "", sizeof(str) - 1) #endif #ifndef sv_setpvs # define sv_setpvs(sv, str) sv_setpvn(sv, str "", sizeof(str) - 1) #endif #ifndef hv_fetchs # define hv_fetchs(hv, key, lval) hv_fetch(hv, key "", sizeof(key) - 1, lval) #endif #ifndef hv_stores # define hv_stores(hv, key, val) hv_store(hv, key "", sizeof(key) - 1, val, 0) #endif #ifndef gv_fetchpvn_flags # define gv_fetchpvn_flags(name, len, flags, svt) gv_fetchpv(name, flags, svt) #endif #ifndef gv_fetchpvs # define gv_fetchpvs(name, flags, svt) gv_fetchpvn_flags(name "", sizeof(name) - 1, flags, svt) #endif #ifndef gv_stashpvs # define gv_stashpvs(name, flags) gv_stashpvn(name "", sizeof(name) - 1, flags) #endif #ifndef SvGETMAGIC # define SvGETMAGIC(x) STMT_START { if (SvGMAGICAL(x)) mg_get(x); } STMT_END #endif #ifndef PERL_MAGIC_sv # define PERL_MAGIC_sv '\0' #endif #ifndef PERL_MAGIC_overload # define PERL_MAGIC_overload 'A' #endif #ifndef PERL_MAGIC_overload_elem # define PERL_MAGIC_overload_elem 'a' #endif #ifndef PERL_MAGIC_overload_table # define PERL_MAGIC_overload_table 'c' #endif #ifndef PERL_MAGIC_bm # define PERL_MAGIC_bm 'B' #endif #ifndef PERL_MAGIC_regdata # define PERL_MAGIC_regdata 'D' #endif #ifndef PERL_MAGIC_regdatum # define PERL_MAGIC_regdatum 'd' #endif #ifndef PERL_MAGIC_env # define PERL_MAGIC_env 'E' #endif #ifndef PERL_MAGIC_envelem # define PERL_MAGIC_envelem 'e' #endif #ifndef PERL_MAGIC_fm # define PERL_MAGIC_fm 'f' #endif #ifndef PERL_MAGIC_regex_global # define PERL_MAGIC_regex_global 'g' #endif #ifndef PERL_MAGIC_isa # define PERL_MAGIC_isa 'I' #endif #ifndef PERL_MAGIC_isaelem # define PERL_MAGIC_isaelem 'i' #endif #ifndef PERL_MAGIC_nkeys # define PERL_MAGIC_nkeys 'k' #endif #ifndef PERL_MAGIC_dbfile # define PERL_MAGIC_dbfile 'L' #endif #ifndef PERL_MAGIC_dbline # define PERL_MAGIC_dbline 'l' #endif #ifndef PERL_MAGIC_mutex # define PERL_MAGIC_mutex 'm' #endif #ifndef PERL_MAGIC_shared # define PERL_MAGIC_shared 'N' #endif #ifndef PERL_MAGIC_shared_scalar # define PERL_MAGIC_shared_scalar 'n' #endif #ifndef PERL_MAGIC_collxfrm # define PERL_MAGIC_collxfrm 'o' #endif #ifndef PERL_MAGIC_tied # define PERL_MAGIC_tied 'P' #endif #ifndef PERL_MAGIC_tiedelem # define PERL_MAGIC_tiedelem 'p' #endif #ifndef PERL_MAGIC_tiedscalar # define PERL_MAGIC_tiedscalar 'q' #endif #ifndef PERL_MAGIC_qr # define PERL_MAGIC_qr 'r' #endif #ifndef PERL_MAGIC_sig # define PERL_MAGIC_sig 'S' #endif #ifndef PERL_MAGIC_sigelem # define PERL_MAGIC_sigelem 's' #endif #ifndef PERL_MAGIC_taint # define PERL_MAGIC_taint 't' #endif #ifndef PERL_MAGIC_uvar # define PERL_MAGIC_uvar 'U' #endif #ifndef PERL_MAGIC_uvar_elem # define PERL_MAGIC_uvar_elem 'u' #endif #ifndef PERL_MAGIC_vstring # define PERL_MAGIC_vstring 'V' #endif #ifndef PERL_MAGIC_vec # define PERL_MAGIC_vec 'v' #endif #ifndef PERL_MAGIC_utf8 # define PERL_MAGIC_utf8 'w' #endif #ifndef PERL_MAGIC_substr # define PERL_MAGIC_substr 'x' #endif #ifndef PERL_MAGIC_defelem # define PERL_MAGIC_defelem 'y' #endif #ifndef PERL_MAGIC_glob # define PERL_MAGIC_glob '*' #endif #ifndef PERL_MAGIC_arylen # define PERL_MAGIC_arylen '#' #endif #ifndef PERL_MAGIC_pos # define PERL_MAGIC_pos '.' #endif #ifndef PERL_MAGIC_backref # define PERL_MAGIC_backref '<' #endif #ifndef PERL_MAGIC_ext # define PERL_MAGIC_ext '~' #endif /* That's the best we can do... */ #ifndef sv_catpvn_nomg # define sv_catpvn_nomg sv_catpvn #endif #ifndef sv_catsv_nomg # define sv_catsv_nomg sv_catsv #endif #ifndef sv_setsv_nomg # define sv_setsv_nomg sv_setsv #endif #ifndef sv_pvn_nomg # define sv_pvn_nomg sv_pvn #endif #ifndef SvIV_nomg # define SvIV_nomg SvIV #endif #ifndef SvUV_nomg # define SvUV_nomg SvUV #endif #ifndef sv_catpv_mg # define sv_catpv_mg(sv, ptr) \ STMT_START { \ SV *TeMpSv = sv; \ sv_catpv(TeMpSv,ptr); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_catpvn_mg # define sv_catpvn_mg(sv, ptr, len) \ STMT_START { \ SV *TeMpSv = sv; \ sv_catpvn(TeMpSv,ptr,len); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_catsv_mg # define sv_catsv_mg(dsv, ssv) \ STMT_START { \ SV *TeMpSv = dsv; \ sv_catsv(TeMpSv,ssv); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setiv_mg # define sv_setiv_mg(sv, i) \ STMT_START { \ SV *TeMpSv = sv; \ sv_setiv(TeMpSv,i); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setnv_mg # define sv_setnv_mg(sv, num) \ STMT_START { \ SV *TeMpSv = sv; \ sv_setnv(TeMpSv,num); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setpv_mg # define sv_setpv_mg(sv, ptr) \ STMT_START { \ SV *TeMpSv = sv; \ sv_setpv(TeMpSv,ptr); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setpvn_mg # define sv_setpvn_mg(sv, ptr, len) \ STMT_START { \ SV *TeMpSv = sv; \ sv_setpvn(TeMpSv,ptr,len); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setsv_mg # define sv_setsv_mg(dsv, ssv) \ STMT_START { \ SV *TeMpSv = dsv; \ sv_setsv(TeMpSv,ssv); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_setuv_mg # define sv_setuv_mg(sv, i) \ STMT_START { \ SV *TeMpSv = sv; \ sv_setuv(TeMpSv,i); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef sv_usepvn_mg # define sv_usepvn_mg(sv, ptr, len) \ STMT_START { \ SV *TeMpSv = sv; \ sv_usepvn(TeMpSv,ptr,len); \ SvSETMAGIC(TeMpSv); \ } STMT_END #endif #ifndef SvVSTRING_mg # define SvVSTRING_mg(sv) (SvMAGICAL(sv) ? mg_find(sv, PERL_MAGIC_vstring) : NULL) #endif /* Hint: sv_magic_portable * This is a compatibility function that is only available with * Devel::PPPort. It is NOT in the perl core. * Its purpose is to mimic the 5.8.0 behaviour of sv_magic() when * it is being passed a name pointer with namlen == 0. In that * case, perl 5.8.0 and later store the pointer, not a copy of it. * The compatibility can be provided back to perl 5.004. With * earlier versions, the code will not compile. */ #if (PERL_BCDVERSION < 0x5004000) /* code that uses sv_magic_portable will not compile */ #elif (PERL_BCDVERSION < 0x5008000) # define sv_magic_portable(sv, obj, how, name, namlen) \ STMT_START { \ SV *SvMp_sv = (sv); \ char *SvMp_name = (char *) (name); \ I32 SvMp_namlen = (namlen); \ if (SvMp_name && SvMp_namlen == 0) \ { \ MAGIC *mg; \ sv_magic(SvMp_sv, obj, how, 0, 0); \ mg = SvMAGIC(SvMp_sv); \ mg->mg_len = -42; /* XXX: this is the tricky part */ \ mg->mg_ptr = SvMp_name; \ } \ else \ { \ sv_magic(SvMp_sv, obj, how, SvMp_name, SvMp_namlen); \ } \ } STMT_END #else # define sv_magic_portable(a, b, c, d, e) sv_magic(a, b, c, d, e) #endif #ifdef USE_ITHREADS #ifndef CopFILE # define CopFILE(c) ((c)->cop_file) #endif #ifndef CopFILEGV # define CopFILEGV(c) (CopFILE(c) ? gv_fetchfile(CopFILE(c)) : Nullgv) #endif #ifndef CopFILE_set # define CopFILE_set(c,pv) ((c)->cop_file = savepv(pv)) #endif #ifndef CopFILESV # define CopFILESV(c) (CopFILE(c) ? GvSV(gv_fetchfile(CopFILE(c))) : Nullsv) #endif #ifndef CopFILEAV # define CopFILEAV(c) (CopFILE(c) ? GvAV(gv_fetchfile(CopFILE(c))) : Nullav) #endif #ifndef CopSTASHPV # define CopSTASHPV(c) ((c)->cop_stashpv) #endif #ifndef CopSTASHPV_set # define CopSTASHPV_set(c,pv) ((c)->cop_stashpv = ((pv) ? savepv(pv) : Nullch)) #endif #ifndef CopSTASH # define CopSTASH(c) (CopSTASHPV(c) ? gv_stashpv(CopSTASHPV(c),GV_ADD) : Nullhv) #endif #ifndef CopSTASH_set # define CopSTASH_set(c,hv) CopSTASHPV_set(c, (hv) ? HvNAME(hv) : Nullch) #endif #ifndef CopSTASH_eq # define CopSTASH_eq(c,hv) ((hv) && (CopSTASHPV(c) == HvNAME(hv) \ || (CopSTASHPV(c) && HvNAME(hv) \ && strEQ(CopSTASHPV(c), HvNAME(hv))))) #endif #else #ifndef CopFILEGV # define CopFILEGV(c) ((c)->cop_filegv) #endif #ifndef CopFILEGV_set # define CopFILEGV_set(c,gv) ((c)->cop_filegv = (GV*)SvREFCNT_inc(gv)) #endif #ifndef CopFILE_set # define CopFILE_set(c,pv) CopFILEGV_set((c), gv_fetchfile(pv)) #endif #ifndef CopFILESV # define CopFILESV(c) (CopFILEGV(c) ? GvSV(CopFILEGV(c)) : Nullsv) #endif #ifndef CopFILEAV # define CopFILEAV(c) (CopFILEGV(c) ? GvAV(CopFILEGV(c)) : Nullav) #endif #ifndef CopFILE # define CopFILE(c) (CopFILESV(c) ? SvPVX(CopFILESV(c)) : Nullch) #endif #ifndef CopSTASH # define CopSTASH(c) ((c)->cop_stash) #endif #ifndef CopSTASH_set # define CopSTASH_set(c,hv) ((c)->cop_stash = (hv)) #endif #ifndef CopSTASHPV # define CopSTASHPV(c) (CopSTASH(c) ? HvNAME(CopSTASH(c)) : Nullch) #endif #ifndef CopSTASHPV_set # define CopSTASHPV_set(c,pv) CopSTASH_set((c), gv_stashpv(pv,GV_ADD)) #endif #ifndef CopSTASH_eq # define CopSTASH_eq(c,hv) (CopSTASH(c) == (hv)) #endif #endif /* USE_ITHREADS */ #ifndef IN_PERL_COMPILETIME # define IN_PERL_COMPILETIME (PL_curcop == &PL_compiling) #endif #ifndef IN_LOCALE_RUNTIME # define IN_LOCALE_RUNTIME (PL_curcop->op_private & HINT_LOCALE) #endif #ifndef IN_LOCALE_COMPILETIME # define IN_LOCALE_COMPILETIME (PL_hints & HINT_LOCALE) #endif #ifndef IN_LOCALE # define IN_LOCALE (IN_PERL_COMPILETIME ? IN_LOCALE_COMPILETIME : IN_LOCALE_RUNTIME) #endif #ifndef IS_NUMBER_IN_UV # define IS_NUMBER_IN_UV 0x01 #endif #ifndef IS_NUMBER_GREATER_THAN_UV_MAX # define IS_NUMBER_GREATER_THAN_UV_MAX 0x02 #endif #ifndef IS_NUMBER_NOT_INT # define IS_NUMBER_NOT_INT 0x04 #endif #ifndef IS_NUMBER_NEG # define IS_NUMBER_NEG 0x08 #endif #ifndef IS_NUMBER_INFINITY # define IS_NUMBER_INFINITY 0x10 #endif #ifndef IS_NUMBER_NAN # define IS_NUMBER_NAN 0x20 #endif #ifndef GROK_NUMERIC_RADIX # define GROK_NUMERIC_RADIX(sp, send) grok_numeric_radix(sp, send) #endif #ifndef PERL_SCAN_GREATER_THAN_UV_MAX # define PERL_SCAN_GREATER_THAN_UV_MAX 0x02 #endif #ifndef PERL_SCAN_SILENT_ILLDIGIT # define PERL_SCAN_SILENT_ILLDIGIT 0x04 #endif #ifndef PERL_SCAN_ALLOW_UNDERSCORES # define PERL_SCAN_ALLOW_UNDERSCORES 0x01 #endif #ifndef PERL_SCAN_DISALLOW_PREFIX # define PERL_SCAN_DISALLOW_PREFIX 0x02 #endif #ifndef grok_numeric_radix #if defined(NEED_grok_numeric_radix) static bool DPPP_(my_grok_numeric_radix)(pTHX_ const char ** sp, const char * send); static #else extern bool DPPP_(my_grok_numeric_radix)(pTHX_ const char ** sp, const char * send); #endif #ifdef grok_numeric_radix # undef grok_numeric_radix #endif #define grok_numeric_radix(a,b) DPPP_(my_grok_numeric_radix)(aTHX_ a,b) #define Perl_grok_numeric_radix DPPP_(my_grok_numeric_radix) #if defined(NEED_grok_numeric_radix) || defined(NEED_grok_numeric_radix_GLOBAL) bool DPPP_(my_grok_numeric_radix)(pTHX_ const char **sp, const char *send) { #ifdef USE_LOCALE_NUMERIC #ifdef PL_numeric_radix_sv if (PL_numeric_radix_sv && IN_LOCALE) { STRLEN len; char* radix = SvPV(PL_numeric_radix_sv, len); if (*sp + len <= send && memEQ(*sp, radix, len)) { *sp += len; return TRUE; } } #else /* older perls don't have PL_numeric_radix_sv so the radix * must manually be requested from locale.h */ #include dTHR; /* needed for older threaded perls */ struct lconv *lc = localeconv(); char *radix = lc->decimal_point; if (radix && IN_LOCALE) { STRLEN len = strlen(radix); if (*sp + len <= send && memEQ(*sp, radix, len)) { *sp += len; return TRUE; } } #endif #endif /* USE_LOCALE_NUMERIC */ /* always try "." if numeric radix didn't match because * we may have data from different locales mixed */ if (*sp < send && **sp == '.') { ++*sp; return TRUE; } return FALSE; } #endif #endif #ifndef grok_number #if defined(NEED_grok_number) static int DPPP_(my_grok_number)(pTHX_ const char * pv, STRLEN len, UV * valuep); static #else extern int DPPP_(my_grok_number)(pTHX_ const char * pv, STRLEN len, UV * valuep); #endif #ifdef grok_number # undef grok_number #endif #define grok_number(a,b,c) DPPP_(my_grok_number)(aTHX_ a,b,c) #define Perl_grok_number DPPP_(my_grok_number) #if defined(NEED_grok_number) || defined(NEED_grok_number_GLOBAL) int DPPP_(my_grok_number)(pTHX_ const char *pv, STRLEN len, UV *valuep) { const char *s = pv; const char *send = pv + len; const UV max_div_10 = UV_MAX / 10; const char max_mod_10 = UV_MAX % 10; int numtype = 0; int sawinf = 0; int sawnan = 0; while (s < send && isSPACE(*s)) s++; if (s == send) { return 0; } else if (*s == '-') { s++; numtype = IS_NUMBER_NEG; } else if (*s == '+') s++; if (s == send) return 0; /* next must be digit or the radix separator or beginning of infinity */ if (isDIGIT(*s)) { /* UVs are at least 32 bits, so the first 9 decimal digits cannot overflow. */ UV value = *s - '0'; /* This construction seems to be more optimiser friendly. (without it gcc does the isDIGIT test and the *s - '0' separately) With it gcc on arm is managing 6 instructions (6 cycles) per digit. In theory the optimiser could deduce how far to unroll the loop before checking for overflow. */ if (++s < send) { int digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { digit = *s - '0'; if (digit >= 0 && digit <= 9) { value = value * 10 + digit; if (++s < send) { /* Now got 9 digits, so need to check each time for overflow. */ digit = *s - '0'; while (digit >= 0 && digit <= 9 && (value < max_div_10 || (value == max_div_10 && digit <= max_mod_10))) { value = value * 10 + digit; if (++s < send) digit = *s - '0'; else break; } if (digit >= 0 && digit <= 9 && (s < send)) { /* value overflowed. skip the remaining digits, don't worry about setting *valuep. */ do { s++; } while (s < send && isDIGIT(*s)); numtype |= IS_NUMBER_GREATER_THAN_UV_MAX; goto skip_value; } } } } } } } } } } } } } } } } } } numtype |= IS_NUMBER_IN_UV; if (valuep) *valuep = value; skip_value: if (GROK_NUMERIC_RADIX(&s, send)) { numtype |= IS_NUMBER_NOT_INT; while (s < send && isDIGIT(*s)) /* optional digits after the radix */ s++; } } else if (GROK_NUMERIC_RADIX(&s, send)) { numtype |= IS_NUMBER_NOT_INT | IS_NUMBER_IN_UV; /* valuep assigned below */ /* no digits before the radix means we need digits after it */ if (s < send && isDIGIT(*s)) { do { s++; } while (s < send && isDIGIT(*s)); if (valuep) { /* integer approximation is valid - it's 0. */ *valuep = 0; } } else return 0; } else if (*s == 'I' || *s == 'i') { s++; if (s == send || (*s != 'N' && *s != 'n')) return 0; s++; if (s == send || (*s != 'F' && *s != 'f')) return 0; s++; if (s < send && (*s == 'I' || *s == 'i')) { s++; if (s == send || (*s != 'N' && *s != 'n')) return 0; s++; if (s == send || (*s != 'I' && *s != 'i')) return 0; s++; if (s == send || (*s != 'T' && *s != 't')) return 0; s++; if (s == send || (*s != 'Y' && *s != 'y')) return 0; s++; } sawinf = 1; } else if (*s == 'N' || *s == 'n') { /* XXX TODO: There are signaling NaNs and quiet NaNs. */ s++; if (s == send || (*s != 'A' && *s != 'a')) return 0; s++; if (s == send || (*s != 'N' && *s != 'n')) return 0; s++; sawnan = 1; } else return 0; if (sawinf) { numtype &= IS_NUMBER_NEG; /* Keep track of sign */ numtype |= IS_NUMBER_INFINITY | IS_NUMBER_NOT_INT; } else if (sawnan) { numtype &= IS_NUMBER_NEG; /* Keep track of sign */ numtype |= IS_NUMBER_NAN | IS_NUMBER_NOT_INT; } else if (s < send) { /* we can have an optional exponent part */ if (*s == 'e' || *s == 'E') { /* The only flag we keep is sign. Blow away any "it's UV" */ numtype &= IS_NUMBER_NEG; numtype |= IS_NUMBER_NOT_INT; s++; if (s < send && (*s == '-' || *s == '+')) s++; if (s < send && isDIGIT(*s)) { do { s++; } while (s < send && isDIGIT(*s)); } else return 0; } } while (s < send && isSPACE(*s)) s++; if (s >= send) return numtype; if (len == 10 && memEQ(pv, "0 but true", 10)) { if (valuep) *valuep = 0; return IS_NUMBER_IN_UV; } return 0; } #endif #endif /* * The grok_* routines have been modified to use warn() instead of * Perl_warner(). Also, 'hexdigit' was the former name of PL_hexdigit, * which is why the stack variable has been renamed to 'xdigit'. */ #ifndef grok_bin #if defined(NEED_grok_bin) static UV DPPP_(my_grok_bin)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); static #else extern UV DPPP_(my_grok_bin)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); #endif #ifdef grok_bin # undef grok_bin #endif #define grok_bin(a,b,c,d) DPPP_(my_grok_bin)(aTHX_ a,b,c,d) #define Perl_grok_bin DPPP_(my_grok_bin) #if defined(NEED_grok_bin) || defined(NEED_grok_bin_GLOBAL) UV DPPP_(my_grok_bin)(pTHX_ const char *start, STRLEN *len_p, I32 *flags, NV *result) { const char *s = start; STRLEN len = *len_p; UV value = 0; NV value_nv = 0; const UV max_div_2 = UV_MAX / 2; bool allow_underscores = *flags & PERL_SCAN_ALLOW_UNDERSCORES; bool overflowed = FALSE; if (!(*flags & PERL_SCAN_DISALLOW_PREFIX)) { /* strip off leading b or 0b. for compatibility silently suffer "b" and "0b" as valid binary numbers. */ if (len >= 1) { if (s[0] == 'b') { s++; len--; } else if (len >= 2 && s[0] == '0' && s[1] == 'b') { s+=2; len-=2; } } } for (; len-- && *s; s++) { char bit = *s; if (bit == '0' || bit == '1') { /* Write it in this wonky order with a goto to attempt to get the compiler to make the common case integer-only loop pretty tight. With gcc seems to be much straighter code than old scan_bin. */ redo: if (!overflowed) { if (value <= max_div_2) { value = (value << 1) | (bit - '0'); continue; } /* Bah. We're just overflowed. */ warn("Integer overflow in binary number"); overflowed = TRUE; value_nv = (NV) value; } value_nv *= 2.0; /* If an NV has not enough bits in its mantissa to * represent a UV this summing of small low-order numbers * is a waste of time (because the NV cannot preserve * the low-order bits anyway): we could just remember when * did we overflow and in the end just multiply value_nv by the * right amount. */ value_nv += (NV)(bit - '0'); continue; } if (bit == '_' && len && allow_underscores && (bit = s[1]) && (bit == '0' || bit == '1')) { --len; ++s; goto redo; } if (!(*flags & PERL_SCAN_SILENT_ILLDIGIT)) warn("Illegal binary digit '%c' ignored", *s); break; } if ( ( overflowed && value_nv > 4294967295.0) #if UVSIZE > 4 || (!overflowed && value > 0xffffffff ) #endif ) { warn("Binary number > 0b11111111111111111111111111111111 non-portable"); } *len_p = s - start; if (!overflowed) { *flags = 0; return value; } *flags = PERL_SCAN_GREATER_THAN_UV_MAX; if (result) *result = value_nv; return UV_MAX; } #endif #endif #ifndef grok_hex #if defined(NEED_grok_hex) static UV DPPP_(my_grok_hex)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); static #else extern UV DPPP_(my_grok_hex)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); #endif #ifdef grok_hex # undef grok_hex #endif #define grok_hex(a,b,c,d) DPPP_(my_grok_hex)(aTHX_ a,b,c,d) #define Perl_grok_hex DPPP_(my_grok_hex) #if defined(NEED_grok_hex) || defined(NEED_grok_hex_GLOBAL) UV DPPP_(my_grok_hex)(pTHX_ const char *start, STRLEN *len_p, I32 *flags, NV *result) { const char *s = start; STRLEN len = *len_p; UV value = 0; NV value_nv = 0; const UV max_div_16 = UV_MAX / 16; bool allow_underscores = *flags & PERL_SCAN_ALLOW_UNDERSCORES; bool overflowed = FALSE; const char *xdigit; if (!(*flags & PERL_SCAN_DISALLOW_PREFIX)) { /* strip off leading x or 0x. for compatibility silently suffer "x" and "0x" as valid hex numbers. */ if (len >= 1) { if (s[0] == 'x') { s++; len--; } else if (len >= 2 && s[0] == '0' && s[1] == 'x') { s+=2; len-=2; } } } for (; len-- && *s; s++) { xdigit = strchr((char *) PL_hexdigit, *s); if (xdigit) { /* Write it in this wonky order with a goto to attempt to get the compiler to make the common case integer-only loop pretty tight. With gcc seems to be much straighter code than old scan_hex. */ redo: if (!overflowed) { if (value <= max_div_16) { value = (value << 4) | ((xdigit - PL_hexdigit) & 15); continue; } warn("Integer overflow in hexadecimal number"); overflowed = TRUE; value_nv = (NV) value; } value_nv *= 16.0; /* If an NV has not enough bits in its mantissa to * represent a UV this summing of small low-order numbers * is a waste of time (because the NV cannot preserve * the low-order bits anyway): we could just remember when * did we overflow and in the end just multiply value_nv by the * right amount of 16-tuples. */ value_nv += (NV)((xdigit - PL_hexdigit) & 15); continue; } if (*s == '_' && len && allow_underscores && s[1] && (xdigit = strchr((char *) PL_hexdigit, s[1]))) { --len; ++s; goto redo; } if (!(*flags & PERL_SCAN_SILENT_ILLDIGIT)) warn("Illegal hexadecimal digit '%c' ignored", *s); break; } if ( ( overflowed && value_nv > 4294967295.0) #if UVSIZE > 4 || (!overflowed && value > 0xffffffff ) #endif ) { warn("Hexadecimal number > 0xffffffff non-portable"); } *len_p = s - start; if (!overflowed) { *flags = 0; return value; } *flags = PERL_SCAN_GREATER_THAN_UV_MAX; if (result) *result = value_nv; return UV_MAX; } #endif #endif #ifndef grok_oct #if defined(NEED_grok_oct) static UV DPPP_(my_grok_oct)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); static #else extern UV DPPP_(my_grok_oct)(pTHX_ const char * start, STRLEN * len_p, I32 * flags, NV * result); #endif #ifdef grok_oct # undef grok_oct #endif #define grok_oct(a,b,c,d) DPPP_(my_grok_oct)(aTHX_ a,b,c,d) #define Perl_grok_oct DPPP_(my_grok_oct) #if defined(NEED_grok_oct) || defined(NEED_grok_oct_GLOBAL) UV DPPP_(my_grok_oct)(pTHX_ const char *start, STRLEN *len_p, I32 *flags, NV *result) { const char *s = start; STRLEN len = *len_p; UV value = 0; NV value_nv = 0; const UV max_div_8 = UV_MAX / 8; bool allow_underscores = *flags & PERL_SCAN_ALLOW_UNDERSCORES; bool overflowed = FALSE; for (; len-- && *s; s++) { /* gcc 2.95 optimiser not smart enough to figure that this subtraction out front allows slicker code. */ int digit = *s - '0'; if (digit >= 0 && digit <= 7) { /* Write it in this wonky order with a goto to attempt to get the compiler to make the common case integer-only loop pretty tight. */ redo: if (!overflowed) { if (value <= max_div_8) { value = (value << 3) | digit; continue; } /* Bah. We're just overflowed. */ warn("Integer overflow in octal number"); overflowed = TRUE; value_nv = (NV) value; } value_nv *= 8.0; /* If an NV has not enough bits in its mantissa to * represent a UV this summing of small low-order numbers * is a waste of time (because the NV cannot preserve * the low-order bits anyway): we could just remember when * did we overflow and in the end just multiply value_nv by the * right amount of 8-tuples. */ value_nv += (NV)digit; continue; } if (digit == ('_' - '0') && len && allow_underscores && (digit = s[1] - '0') && (digit >= 0 && digit <= 7)) { --len; ++s; goto redo; } /* Allow \octal to work the DWIM way (that is, stop scanning * as soon as non-octal characters are seen, complain only iff * someone seems to want to use the digits eight and nine). */ if (digit == 8 || digit == 9) { if (!(*flags & PERL_SCAN_SILENT_ILLDIGIT)) warn("Illegal octal digit '%c' ignored", *s); } break; } if ( ( overflowed && value_nv > 4294967295.0) #if UVSIZE > 4 || (!overflowed && value > 0xffffffff ) #endif ) { warn("Octal number > 037777777777 non-portable"); } *len_p = s - start; if (!overflowed) { *flags = 0; return value; } *flags = PERL_SCAN_GREATER_THAN_UV_MAX; if (result) *result = value_nv; return UV_MAX; } #endif #endif #if !defined(my_snprintf) #if defined(NEED_my_snprintf) static int DPPP_(my_my_snprintf)(char * buffer, const Size_t len, const char * format, ...); static #else extern int DPPP_(my_my_snprintf)(char * buffer, const Size_t len, const char * format, ...); #endif #define my_snprintf DPPP_(my_my_snprintf) #define Perl_my_snprintf DPPP_(my_my_snprintf) #if defined(NEED_my_snprintf) || defined(NEED_my_snprintf_GLOBAL) int DPPP_(my_my_snprintf)(char *buffer, const Size_t len, const char *format, ...) { dTHX; int retval; va_list ap; va_start(ap, format); #ifdef HAS_VSNPRINTF retval = vsnprintf(buffer, len, format, ap); #else retval = vsprintf(buffer, format, ap); #endif va_end(ap); if (retval < 0 || (len > 0 && (Size_t)retval >= len)) Perl_croak(aTHX_ "panic: my_snprintf buffer overflow"); return retval; } #endif #endif #if !defined(my_sprintf) #if defined(NEED_my_sprintf) static int DPPP_(my_my_sprintf)(char * buffer, const char * pat, ...); static #else extern int DPPP_(my_my_sprintf)(char * buffer, const char * pat, ...); #endif #define my_sprintf DPPP_(my_my_sprintf) #define Perl_my_sprintf DPPP_(my_my_sprintf) #if defined(NEED_my_sprintf) || defined(NEED_my_sprintf_GLOBAL) int DPPP_(my_my_sprintf)(char *buffer, const char* pat, ...) { va_list args; va_start(args, pat); vsprintf(buffer, pat, args); va_end(args); return strlen(buffer); } #endif #endif #ifdef NO_XSLOCKS # ifdef dJMPENV # define dXCPT dJMPENV; int rEtV = 0 # define XCPT_TRY_START JMPENV_PUSH(rEtV); if (rEtV == 0) # define XCPT_TRY_END JMPENV_POP; # define XCPT_CATCH if (rEtV != 0) # define XCPT_RETHROW JMPENV_JUMP(rEtV) # else # define dXCPT Sigjmp_buf oldTOP; int rEtV = 0 # define XCPT_TRY_START Copy(top_env, oldTOP, 1, Sigjmp_buf); rEtV = Sigsetjmp(top_env, 1); if (rEtV == 0) # define XCPT_TRY_END Copy(oldTOP, top_env, 1, Sigjmp_buf); # define XCPT_CATCH if (rEtV != 0) # define XCPT_RETHROW Siglongjmp(top_env, rEtV) # endif #endif #if !defined(my_strlcat) #if defined(NEED_my_strlcat) static Size_t DPPP_(my_my_strlcat)(char * dst, const char * src, Size_t size); static #else extern Size_t DPPP_(my_my_strlcat)(char * dst, const char * src, Size_t size); #endif #define my_strlcat DPPP_(my_my_strlcat) #define Perl_my_strlcat DPPP_(my_my_strlcat) #if defined(NEED_my_strlcat) || defined(NEED_my_strlcat_GLOBAL) Size_t DPPP_(my_my_strlcat)(char *dst, const char *src, Size_t size) { Size_t used, length, copy; used = strlen(dst); length = strlen(src); if (size > 0 && used < size - 1) { copy = (length >= size - used) ? size - used - 1 : length; memcpy(dst + used, src, copy); dst[used + copy] = '\0'; } return used + length; } #endif #endif #if !defined(my_strlcpy) #if defined(NEED_my_strlcpy) static Size_t DPPP_(my_my_strlcpy)(char * dst, const char * src, Size_t size); static #else extern Size_t DPPP_(my_my_strlcpy)(char * dst, const char * src, Size_t size); #endif #define my_strlcpy DPPP_(my_my_strlcpy) #define Perl_my_strlcpy DPPP_(my_my_strlcpy) #if defined(NEED_my_strlcpy) || defined(NEED_my_strlcpy_GLOBAL) Size_t DPPP_(my_my_strlcpy)(char *dst, const char *src, Size_t size) { Size_t length, copy; length = strlen(src); if (size > 0) { copy = (length >= size) ? size - 1 : length; memcpy(dst, src, copy); dst[copy] = '\0'; } return length; } #endif #endif #ifndef PERL_PV_ESCAPE_QUOTE # define PERL_PV_ESCAPE_QUOTE 0x0001 #endif #ifndef PERL_PV_PRETTY_QUOTE # define PERL_PV_PRETTY_QUOTE PERL_PV_ESCAPE_QUOTE #endif #ifndef PERL_PV_PRETTY_ELLIPSES # define PERL_PV_PRETTY_ELLIPSES 0x0002 #endif #ifndef PERL_PV_PRETTY_LTGT # define PERL_PV_PRETTY_LTGT 0x0004 #endif #ifndef PERL_PV_ESCAPE_FIRSTCHAR # define PERL_PV_ESCAPE_FIRSTCHAR 0x0008 #endif #ifndef PERL_PV_ESCAPE_UNI # define PERL_PV_ESCAPE_UNI 0x0100 #endif #ifndef PERL_PV_ESCAPE_UNI_DETECT # define PERL_PV_ESCAPE_UNI_DETECT 0x0200 #endif #ifndef PERL_PV_ESCAPE_ALL # define PERL_PV_ESCAPE_ALL 0x1000 #endif #ifndef PERL_PV_ESCAPE_NOBACKSLASH # define PERL_PV_ESCAPE_NOBACKSLASH 0x2000 #endif #ifndef PERL_PV_ESCAPE_NOCLEAR # define PERL_PV_ESCAPE_NOCLEAR 0x4000 #endif #ifndef PERL_PV_ESCAPE_RE # define PERL_PV_ESCAPE_RE 0x8000 #endif #ifndef PERL_PV_PRETTY_NOCLEAR # define PERL_PV_PRETTY_NOCLEAR PERL_PV_ESCAPE_NOCLEAR #endif #ifndef PERL_PV_PRETTY_DUMP # define PERL_PV_PRETTY_DUMP PERL_PV_PRETTY_ELLIPSES|PERL_PV_PRETTY_QUOTE #endif #ifndef PERL_PV_PRETTY_REGPROP # define PERL_PV_PRETTY_REGPROP PERL_PV_PRETTY_ELLIPSES|PERL_PV_PRETTY_LTGT|PERL_PV_ESCAPE_RE #endif /* Hint: pv_escape * Note that unicode functionality is only backported to * those perl versions that support it. For older perl * versions, the implementation will fall back to bytes. */ #ifndef pv_escape #if defined(NEED_pv_escape) static char * DPPP_(my_pv_escape)(pTHX_ SV * dsv, char const * const str, const STRLEN count, const STRLEN max, STRLEN * const escaped, const U32 flags); static #else extern char * DPPP_(my_pv_escape)(pTHX_ SV * dsv, char const * const str, const STRLEN count, const STRLEN max, STRLEN * const escaped, const U32 flags); #endif #ifdef pv_escape # undef pv_escape #endif #define pv_escape(a,b,c,d,e,f) DPPP_(my_pv_escape)(aTHX_ a,b,c,d,e,f) #define Perl_pv_escape DPPP_(my_pv_escape) #if defined(NEED_pv_escape) || defined(NEED_pv_escape_GLOBAL) char * DPPP_(my_pv_escape)(pTHX_ SV *dsv, char const * const str, const STRLEN count, const STRLEN max, STRLEN * const escaped, const U32 flags) { const char esc = flags & PERL_PV_ESCAPE_RE ? '%' : '\\'; const char dq = flags & PERL_PV_ESCAPE_QUOTE ? '"' : esc; char octbuf[32] = "%123456789ABCDF"; STRLEN wrote = 0; STRLEN chsize = 0; STRLEN readsize = 1; #if defined(is_utf8_string) && defined(utf8_to_uvchr) bool isuni = flags & PERL_PV_ESCAPE_UNI ? 1 : 0; #endif const char *pv = str; const char * const end = pv + count; octbuf[0] = esc; if (!(flags & PERL_PV_ESCAPE_NOCLEAR)) sv_setpvs(dsv, ""); #if defined(is_utf8_string) && defined(utf8_to_uvchr) if ((flags & PERL_PV_ESCAPE_UNI_DETECT) && is_utf8_string((U8*)pv, count)) isuni = 1; #endif for (; pv < end && (!max || wrote < max) ; pv += readsize) { const UV u = #if defined(is_utf8_string) && defined(utf8_to_uvchr) isuni ? utf8_to_uvchr((U8*)pv, &readsize) : #endif (U8)*pv; const U8 c = (U8)u & 0xFF; if (u > 255 || (flags & PERL_PV_ESCAPE_ALL)) { if (flags & PERL_PV_ESCAPE_FIRSTCHAR) chsize = my_snprintf(octbuf, sizeof octbuf, "%"UVxf, u); else chsize = my_snprintf(octbuf, sizeof octbuf, "%cx{%"UVxf"}", esc, u); } else if (flags & PERL_PV_ESCAPE_NOBACKSLASH) { chsize = 1; } else { if (c == dq || c == esc || !isPRINT(c)) { chsize = 2; switch (c) { case '\\' : /* fallthrough */ case '%' : if (c == esc) octbuf[1] = esc; else chsize = 1; break; case '\v' : octbuf[1] = 'v'; break; case '\t' : octbuf[1] = 't'; break; case '\r' : octbuf[1] = 'r'; break; case '\n' : octbuf[1] = 'n'; break; case '\f' : octbuf[1] = 'f'; break; case '"' : if (dq == '"') octbuf[1] = '"'; else chsize = 1; break; default: chsize = my_snprintf(octbuf, sizeof octbuf, pv < end && isDIGIT((U8)*(pv+readsize)) ? "%c%03o" : "%c%o", esc, c); } } else { chsize = 1; } } if (max && wrote + chsize > max) { break; } else if (chsize > 1) { sv_catpvn(dsv, octbuf, chsize); wrote += chsize; } else { char tmp[2]; my_snprintf(tmp, sizeof tmp, "%c", c); sv_catpvn(dsv, tmp, 1); wrote++; } if (flags & PERL_PV_ESCAPE_FIRSTCHAR) break; } if (escaped != NULL) *escaped= pv - str; return SvPVX(dsv); } #endif #endif #ifndef pv_pretty #if defined(NEED_pv_pretty) static char * DPPP_(my_pv_pretty)(pTHX_ SV * dsv, char const * const str, const STRLEN count, const STRLEN max, char const * const start_color, char const * const end_color, const U32 flags); static #else extern char * DPPP_(my_pv_pretty)(pTHX_ SV * dsv, char const * const str, const STRLEN count, const STRLEN max, char const * const start_color, char const * const end_color, const U32 flags); #endif #ifdef pv_pretty # undef pv_pretty #endif #define pv_pretty(a,b,c,d,e,f,g) DPPP_(my_pv_pretty)(aTHX_ a,b,c,d,e,f,g) #define Perl_pv_pretty DPPP_(my_pv_pretty) #if defined(NEED_pv_pretty) || defined(NEED_pv_pretty_GLOBAL) char * DPPP_(my_pv_pretty)(pTHX_ SV *dsv, char const * const str, const STRLEN count, const STRLEN max, char const * const start_color, char const * const end_color, const U32 flags) { const U8 dq = (flags & PERL_PV_PRETTY_QUOTE) ? '"' : '%'; STRLEN escaped; if (!(flags & PERL_PV_PRETTY_NOCLEAR)) sv_setpvs(dsv, ""); if (dq == '"') sv_catpvs(dsv, "\""); else if (flags & PERL_PV_PRETTY_LTGT) sv_catpvs(dsv, "<"); if (start_color != NULL) sv_catpv(dsv, D_PPP_CONSTPV_ARG(start_color)); pv_escape(dsv, str, count, max, &escaped, flags | PERL_PV_ESCAPE_NOCLEAR); if (end_color != NULL) sv_catpv(dsv, D_PPP_CONSTPV_ARG(end_color)); if (dq == '"') sv_catpvs(dsv, "\""); else if (flags & PERL_PV_PRETTY_LTGT) sv_catpvs(dsv, ">"); if ((flags & PERL_PV_PRETTY_ELLIPSES) && escaped < count) sv_catpvs(dsv, "..."); return SvPVX(dsv); } #endif #endif #ifndef pv_display #if defined(NEED_pv_display) static char * DPPP_(my_pv_display)(pTHX_ SV * dsv, const char * pv, STRLEN cur, STRLEN len, STRLEN pvlim); static #else extern char * DPPP_(my_pv_display)(pTHX_ SV * dsv, const char * pv, STRLEN cur, STRLEN len, STRLEN pvlim); #endif #ifdef pv_display # undef pv_display #endif #define pv_display(a,b,c,d,e) DPPP_(my_pv_display)(aTHX_ a,b,c,d,e) #define Perl_pv_display DPPP_(my_pv_display) #if defined(NEED_pv_display) || defined(NEED_pv_display_GLOBAL) char * DPPP_(my_pv_display)(pTHX_ SV *dsv, const char *pv, STRLEN cur, STRLEN len, STRLEN pvlim) { pv_pretty(dsv, pv, cur, pvlim, NULL, NULL, PERL_PV_PRETTY_DUMP); if (len > cur && pv[cur] == '\0') sv_catpvs(dsv, "\\0"); return SvPVX(dsv); } #endif #endif #endif /* _P_P_PORTABILITY_H_ */ /* End of File ppport.h */ DateTime-1.06/META.yml0000644000175000017500000000152112260573461014252 0ustar autarchautarch--- abstract: 'A date and time object' author: - 'Dave Rolsky ' build_requires: Module::Build: 0.3601 Storable: 0 Test::Fatal: 0 Test::More: 0.88 utf8: 0 configure_requires: Module::Build: 0.3601 dynamic_config: 0 generated_by: 'Dist::Zilla version 5.006, CPAN::Meta::Converter version 2.131560' license: artistic_2 meta-spec: url: http://module-build.sourceforge.net/META-spec-v1.4.html version: 1.4 name: DateTime requires: Carp: 0 DateTime::Locale: 0.41 DateTime::TimeZone: 1.09 POSIX: 0 Params::Validate: 0.76 Scalar::Util: 0 Try::Tiny: 0 XSLoader: 0 base: 0 constant: 0 integer: 0 overload: 0 perl: 5.008001 strict: 0 vars: 0 warnings: 0 resources: bugtracker: http://rt.cpan.org/NoAuth/Bugs.html?Dist=DateTime repository: git://git.urth.org/DateTime.pm.git version: 1.06 DateTime-1.06/LICENSE0000644000175000017500000002152012260573461014007 0ustar autarchautarchThis software is Copyright (c) 2013 by Dave Rolsky. 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DateTime-1.06/CREDITS0000644000175000017500000000223312260573461014022 0ustar autarchautarchThe core implementations for the DateTime.pm and DateTime::Duration modules originally came from Date::ICal and Date::ICal::Duration, both of which were written by Rich Bowen with help from the Reefknot team. Nowadays much of this code has been rewritten to the point that it is fundamentally original work. Parts of the API come from Time::Piece, by Matt Sergeant , who had help from Jarkko Hietaniemi . That API was originally created by Larry Wall. None of the code is shared. The DateTime::Locale functionality is based in part on the Date::Language modules that come with Graham Barr's TimeDate module suite. The strftime method in this module also borrows heavily from Graham's implementation. The week number and week year algorithms were taken from Steffen Beyer's Date::Calc module, but rewritten in Perl from scratch. The code for handling nanoseconds and the code for leap seconds were both largely written by Flavio Soibelmann Glock, who also has contributed various other features and fixes. Many others have helped out with code, ideas, and bug reports. See the Changes file for details. DateTime-1.06/TODO0000644000175000017500000000120412260573461013467 0ustar autarchautarchTODO list for Perl module DateTime - what's the relation between UT1 and MJD/JD ? see: http://hpiers.obspm.fr/eop-pc/earthor/utc/leapsecond.html * strftime method - more tests for other languages * sub-second resolution - more tests: add/subtract/compare * Other - document RD days/seconds(/nanosecs?) in a separate document that will be the reference for DateTime.pm internals, as well as being useful for other calendar implementors. - thorough tests for subtraction & addition overloading NOTE TO FUTURE DEVELOPERS: Attempting to implement add_duration in XS actually seemed to slow date math operations down. Sad but true. DateTime-1.06/inc/0000755000175000017500000000000012260573461013553 5ustar autarchautarchDateTime-1.06/inc/MyModuleBuild.pm0000644000175000017500000000051112260573461016621 0ustar autarchautarchpackage inc::MyModuleBuild; use strict; use warnings; use Moose; extends 'Dist::Zilla::Plugin::ModuleBuild::XSOrPP'; around module_build_args => sub { my $orig = shift; my $self = shift; my $args = $self->$orig(@_); $args->{c_source} = 'c'; return $args; }; __PACKAGE__->meta()->make_immutable(); 1; DateTime-1.06/lib/0000755000175000017500000000000012260573461013550 5ustar autarchautarchDateTime-1.06/lib/DateTimePP.pm0000644000175000017500000001217512260573461016050 0ustar autarchautarchpackage DateTime; use strict; use warnings; $DateTime::IsPurePerl = 1; my @MonthLengths = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); my @LeapYearMonthLengths = @MonthLengths; $LeapYearMonthLengths[1]++; my @EndOfLastMonthDayOfYear; { my $x = 0; foreach my $length (@MonthLengths) { push @EndOfLastMonthDayOfYear, $x; $x += $length; } } my @EndOfLastMonthDayOfLeapYear = @EndOfLastMonthDayOfYear; $EndOfLastMonthDayOfLeapYear[$_]++ for 2 .. 11; sub _time_as_seconds { shift; my ( $hour, $min, $sec ) = @_; $hour ||= 0; $min ||= 0; $sec ||= 0; my $secs = $hour * 3600 + $min * 60 + $sec; return $secs; } sub _rd2ymd { my $class = shift; use integer; my $d = shift; my $rd = $d; my $yadj = 0; my ( $c, $y, $m ); # add 306 days to make relative to Mar 1, 0; also adjust $d to be # within a range (1..2**28-1) where our calculations will work # with 32bit ints if ( $d > 2**28 - 307 ) { # avoid overflow if $d close to maxint $yadj = ( $d - 146097 + 306 ) / 146097 + 1; $d -= $yadj * 146097 - 306; } elsif ( ( $d += 306 ) <= 0 ) { $yadj = -( -$d / 146097 + 1 ) ; # avoid ambiguity in C division of negatives $d -= $yadj * 146097; } $c = ( $d * 4 - 1 ) / 146097; # calc # of centuries $d is after 29 Feb of yr 0 $d -= $c * 146097 / 4; # (4 centuries = 146097 days) $y = ( $d * 4 - 1 ) / 1461; # calc number of years into the century, $d -= $y * 1461 / 4; # again March-based (4 yrs =~ 146[01] days) $m = ( $d * 12 + 1093 ) / 367; # get the month (3..14 represent March through $d -= ( $m * 367 - 1094 ) / 12; # February of following year) $y += $c * 100 + $yadj * 400; # get the real year, which is off by ++$y, $m -= 12 if $m > 12; # one if month is January or February if ( $_[0] ) { my $dow; if ( $rd < -6 ) { $dow = ( $rd + 6 ) % 7; $dow += $dow ? 8 : 1; } else { $dow = ( ( $rd + 6 ) % 7 ) + 1; } my $doy = $class->_end_of_last_month_day_of_year( $y, $m ); $doy += $d; my $quarter; { no integer; $quarter = int( ( 1 / 3.1 ) * $m ) + 1; } my $qm = ( 3 * $quarter ) - 2; my $doq = ( $doy - $class->_end_of_last_month_day_of_year( $y, $qm ) ); return ( $y, $m, $d, $dow, $doy, $quarter, $doq ); } return ( $y, $m, $d ); } sub _ymd2rd { shift; # ignore class use integer; my ( $y, $m, $d ) = @_; my $adj; # make month in range 3..14 (treat Jan & Feb as months 13..14 of # prev year) if ( $m <= 2 ) { $y -= ( $adj = ( 14 - $m ) / 12 ); $m += 12 * $adj; } elsif ( $m > 14 ) { $y += ( $adj = ( $m - 3 ) / 12 ); $m -= 12 * $adj; } # make year positive (oh, for a use integer 'sane_div'!) if ( $y < 0 ) { $d -= 146097 * ( $adj = ( 399 - $y ) / 400 ); $y += 400 * $adj; } # add: day of month, days of previous 0-11 month period that began # w/March, days of previous 0-399 year period that began w/March # of a 400-multiple year), days of any 400-year periods before # that, and finally subtract 306 days to adjust from Mar 1, year # 0-relative to Jan 1, year 1-relative (whew) $d += ( $m * 367 - 1094 ) / 12 + $y % 100 * 1461 / 4 + ( $y / 100 * 36524 + $y / 400 ) - 306; } sub _seconds_as_components { shift; my $secs = shift; my $utc_secs = shift; my $modifier = shift || 0; use integer; $secs -= $modifier; my $hour = $secs / 3600; $secs -= $hour * 3600; my $minute = $secs / 60; my $second = $secs - ( $minute * 60 ); if ( $utc_secs && $utc_secs >= 86400 ) { # there is no such thing as +3 or more leap seconds! die "Invalid UTC RD seconds value: $utc_secs" if $utc_secs > 86401; $second += $utc_secs - 86400 + 60; $minute = 59; $hour--; $hour = 23 if $hour < 0; } return ( $hour, $minute, $second ); } sub _end_of_last_month_day_of_year { my $class = shift; my ( $y, $m ) = @_; $m--; return ( $class->_is_leap_year($y) ? $EndOfLastMonthDayOfLeapYear[$m] : $EndOfLastMonthDayOfYear[$m] ); } sub _is_leap_year { shift; my $year = shift; # According to Bjorn Tackmann, this line prevents an infinite loop # when running the tests under Qemu. I cannot reproduce this on # Ubuntu or with Strawberry Perl on Win2K. return 0 if $year == INFINITY() || $year == NEG_INFINITY(); return 0 if $year % 4; return 1 if $year % 100; return 0 if $year % 400; return 1; } sub _day_length { DateTime::LeapSecond::day_length( $_[1] ) } sub _accumulated_leap_seconds { DateTime::LeapSecond::leap_seconds( $_[1] ) } # This is down here so that _ymd2rd is available when it loads, # because it will load DateTime::LeapSecond, which needs # DateTime->_ymd2rd to be available when it is loading use DateTimePPExtra; 1; DateTime-1.06/lib/DateTime/0000755000175000017500000000000012260573461015244 5ustar autarchautarchDateTime-1.06/lib/DateTime/Duration.pm0000644000175000017500000004245712260573461017403 0ustar autarchautarchpackage DateTime::Duration; { $DateTime::Duration::VERSION = '1.06'; } use strict; use warnings; use Carp (); use DateTime; use DateTime::Helpers; use Params::Validate qw( validate SCALAR ); use overload ( fallback => 1, '+' => '_add_overload', '-' => '_subtract_overload', '*' => '_multiply_overload', '<=>' => '_compare_overload', 'cmp' => '_compare_overload', ); use constant MAX_NANOSECONDS => 1_000_000_000; # 1E9 = almost 32 bits my @all_units = qw( months days minutes seconds nanoseconds ); # XXX - need to reject non-integers but accept infinity, NaN, & # 1.56e+18 sub new { my $class = shift; my %p = validate( @_, { years => { type => SCALAR, default => 0 }, months => { type => SCALAR, default => 0 }, weeks => { type => SCALAR, default => 0 }, days => { type => SCALAR, default => 0 }, hours => { type => SCALAR, default => 0 }, minutes => { type => SCALAR, default => 0 }, seconds => { type => SCALAR, default => 0 }, nanoseconds => { type => SCALAR, default => 0 }, end_of_month => { type => SCALAR, default => undef, regex => qr/^(?:wrap|limit|preserve)$/ }, } ); my $self = bless {}, $class; $self->{months} = ( $p{years} * 12 ) + $p{months}; $self->{days} = ( $p{weeks} * 7 ) + $p{days}; $self->{minutes} = ( $p{hours} * 60 ) + $p{minutes}; $self->{seconds} = $p{seconds}; if ( $p{nanoseconds} ) { $self->{nanoseconds} = $p{nanoseconds}; $self->_normalize_nanoseconds; } else { # shortcut - if they don't need nanoseconds $self->{nanoseconds} = 0; } $self->{end_of_month} = ( defined $p{end_of_month} ? $p{end_of_month} : $self->{months} < 0 ? 'preserve' : 'wrap' ); return $self; } # make the signs of seconds, nanos the same; 0 < abs(nanos) < MAX_NANOS # NB this requires nanoseconds != 0 (callers check this already) sub _normalize_nanoseconds { my $self = shift; return if ( $self->{nanoseconds} == DateTime::INFINITY() || $self->{nanoseconds} == DateTime::NEG_INFINITY() || $self->{nanoseconds} eq DateTime::NAN() ); my $seconds = $self->{seconds} + $self->{nanoseconds} / MAX_NANOSECONDS; $self->{seconds} = int($seconds); $self->{nanoseconds} = $self->{nanoseconds} % MAX_NANOSECONDS; $self->{nanoseconds} -= MAX_NANOSECONDS if $seconds < 0; } sub clone { bless { %{ $_[0] } }, ref $_[0] } sub years { abs( $_[0]->in_units('years') ) } sub months { abs( $_[0]->in_units( 'months', 'years' ) ) } sub weeks { abs( $_[0]->in_units('weeks') ) } sub days { abs( $_[0]->in_units( 'days', 'weeks' ) ) } sub hours { abs( $_[0]->in_units('hours') ) } sub minutes { abs( $_[0]->in_units( 'minutes', 'hours' ) ) } sub seconds { abs( $_[0]->in_units('seconds') ) } sub nanoseconds { abs( $_[0]->in_units( 'nanoseconds', 'seconds' ) ) } sub is_positive { $_[0]->_has_positive && !$_[0]->_has_negative } sub is_negative { !$_[0]->_has_positive && $_[0]->_has_negative } sub _has_positive { ( grep { $_ > 0 } @{ $_[0] }{@all_units} ) ? 1 : 0; } sub _has_negative { ( grep { $_ < 0 } @{ $_[0] }{@all_units} ) ? 1 : 0; } sub is_zero { return 0 if grep { $_ != 0 } @{ $_[0] }{@all_units}; return 1; } sub delta_months { $_[0]->{months} } sub delta_days { $_[0]->{days} } sub delta_minutes { $_[0]->{minutes} } sub delta_seconds { $_[0]->{seconds} } sub delta_nanoseconds { $_[0]->{nanoseconds} } sub deltas { map { $_ => $_[0]->{$_} } @all_units; } sub in_units { my $self = shift; my @units = @_; my %units = map { $_ => 1 } @units; my %ret; my ( $months, $days, $minutes, $seconds ) = @{$self}{qw( months days minutes seconds )}; if ( $units{years} ) { $ret{years} = int( $months / 12 ); $months -= $ret{years} * 12; } if ( $units{months} ) { $ret{months} = $months; } if ( $units{weeks} ) { $ret{weeks} = int( $days / 7 ); $days -= $ret{weeks} * 7; } if ( $units{days} ) { $ret{days} = $days; } if ( $units{hours} ) { $ret{hours} = int( $minutes / 60 ); $minutes -= $ret{hours} * 60; } if ( $units{minutes} ) { $ret{minutes} = $minutes; } if ( $units{seconds} ) { $ret{seconds} = $seconds; $seconds = 0; } if ( $units{nanoseconds} ) { $ret{nanoseconds} = $seconds * MAX_NANOSECONDS + $self->{nanoseconds}; } wantarray ? @ret{@units} : $ret{ $units[0] }; } sub is_wrap_mode { $_[0]->{end_of_month} eq 'wrap' ? 1 : 0 } sub is_limit_mode { $_[0]->{end_of_month} eq 'limit' ? 1 : 0 } sub is_preserve_mode { $_[0]->{end_of_month} eq 'preserve' ? 1 : 0 } sub end_of_month_mode { $_[0]->{end_of_month} } sub calendar_duration { my $self = shift; return ( ref $self ) ->new( map { $_ => $self->{$_} } qw( months days end_of_month ) ); } sub clock_duration { my $self = shift; return ( ref $self ) ->new( map { $_ => $self->{$_} } qw( minutes seconds nanoseconds end_of_month ) ); } sub inverse { my $self = shift; my %p = @_; my %new; foreach my $u (@all_units) { $new{$u} = $self->{$u}; # avoid -0 bug $new{$u} *= -1 if $new{$u}; } $new{end_of_month} = $p{end_of_month} if exists $p{end_of_month}; return ( ref $self )->new(%new); } sub add_duration { my ( $self, $dur ) = @_; foreach my $u (@all_units) { $self->{$u} += $dur->{$u}; } $self->_normalize_nanoseconds if $self->{nanoseconds}; return $self; } sub add { my $self = shift; return $self->add_duration( ( ref $self )->new(@_) ); } sub subtract_duration { return $_[0]->add_duration( $_[1]->inverse ) } sub subtract { my $self = shift; return $self->subtract_duration( ( ref $self )->new(@_) ); } sub multiply { my $self = shift; my $multiplier = shift; foreach my $u (@all_units) { $self->{$u} *= $multiplier; } $self->_normalize_nanoseconds if $self->{nanoseconds}; return $self; } sub compare { my ( $class, $dur1, $dur2, $dt ) = @_; $dt ||= DateTime->now; return DateTime->compare( $dt->clone->add_duration($dur1), $dt->clone->add_duration($dur2) ); } sub _add_overload { my ( $d1, $d2, $rev ) = @_; ( $d1, $d2 ) = ( $d2, $d1 ) if $rev; if ( DateTime::Helpers::isa( $d2, 'DateTime' ) ) { $d2->add_duration($d1); return; } # will also work if $d1 is a DateTime.pm object return $d1->clone->add_duration($d2); } sub _subtract_overload { my ( $d1, $d2, $rev ) = @_; ( $d1, $d2 ) = ( $d2, $d1 ) if $rev; Carp::croak( "Cannot subtract a DateTime object from a DateTime::Duration object") if DateTime::Helpers::isa( $d2, 'DateTime' ); return $d1->clone->subtract_duration($d2); } sub _multiply_overload { my $self = shift; my $new = $self->clone; return $new->multiply(@_); } sub _compare_overload { Carp::croak( 'DateTime::Duration does not overload comparison.' . ' See the documentation on the compare() method for details.' ); } 1; # ABSTRACT: Duration objects for date math __END__ =pod =head1 NAME DateTime::Duration - Duration objects for date math =head1 VERSION version 1.06 =head1 SYNOPSIS use DateTime::Duration; $dur = DateTime::Duration->new( years => 3, months => 5, weeks => 1, days => 1, hours => 6, minutes => 15, seconds => 45, nanoseconds => 12000 ); my ( $days, $hours, $seconds ) = $dur->in_units('days', 'hours', 'seconds'); # Human-readable accessors, always positive, but consider using # DateTime::Format::Duration instead $dur->years; $dur->months; $dur->weeks; $dur->days; $dur->hours; $dur->minutes; $dur->seconds; $dur->nanoseconds; $dur->is_wrap_mode $dur->is_limit_mode $dur->is_preserve_mode print $dur->end_of_month_mode; # Multiply all values by -1 my $opposite = $dur->inverse; my $bigger = $dur1 + $dur2; my $smaller = $dur1 - $dur2; # the result could be negative my $bigger = $dur1 * 3; my $base_dt = DateTime->new( year => 2000 ); my @sorted = sort { DateTime::Duration->compare( $a, $b, $base_dt ) } @durations; if ( $dur->is_positive ) { ... } if ( $dur->is_zero ) { ... } if ( $dur->is_negative ) { ... } =head1 DESCRIPTION This is a simple class for representing duration objects. These objects are used whenever you do date math with DateTime.pm. See the L section of the DateTime.pm documentation for more details. The short course: One cannot in general convert between seconds, minutes, days, and months, so this class will never do so. Instead, create the duration with the desired units to begin with, for example by calling the appropriate subtraction/delta method on a C object. =head1 METHODS Like C itself, C returns the object from mutator methods in order to make method chaining possible. C has the following methods: =head2 DateTime::Duration->new( ... ) This method takes the parameters "years", "months", "weeks", "days", "hours", "minutes", "seconds", "nanoseconds", and "end_of_month". All of these except "end_of_month" are numbers. If any of the numbers are negative, the entire duration is negative. All of the numbers B. Internally, years as just treated as 12 months. Similarly, weeks are treated as 7 days, and hours are converted to minutes. Seconds and nanoseconds are both treated separately. The "end_of_month" parameter must be either "wrap", "limit", or "preserve". This parameter specifies how date math that crosses the end of a month is handled. In "wrap" mode, adding months or years that result in days beyond the end of the new month will roll over into the following month. For instance, adding one year to Feb 29 will result in Mar 1. If you specify "end_of_month" mode as "limit", the end of the month is never crossed. Thus, adding one year to Feb 29, 2000 will result in Feb 28, 2001. If you were to then add three more years this will result in Feb 28, 2004. If you specify "end_of_month" mode as "preserve", the same calculation is done as for "limit" except that if the original date is at the end of the month the new date will also be. For instance, adding one month to Feb 29, 2000 will result in Mar 31, 2000. For positive durations, the "end_of_month" parameter defaults to wrap. For negative durations, the default is "limit". This should match how most people "intuitively" expect datetime math to work. =head2 $dur->clone() Returns a new object with the same properties as the object on which this method was called. =head2 $dur->in_units( ... ) Returns the length of the duration in the units (any of those that can be passed to C) given as arguments. All lengths are integral, but may be negative. Smaller units are computed from what remains after taking away the larger units given, so for example: my $dur = DateTime::Duration->new( years => 1, months => 15 ); $dur->in_units( 'years' ); # 2 $dur->in_units( 'months' ); # 27 $dur->in_units( 'years', 'months' ); # (2, 3) $dur->in_units( 'weeks', 'days' ); # (0, 0) ! The last example demonstrates that there will not be any conversion between units which don't have a fixed conversion rate. The only conversions possible are: =over 8 =item * years <=> months =item * weeks <=> days =item * hours <=> minutes =item * seconds <=> nanoseconds =back For the explanation of why this is the case, please see the L section of the DateTime.pm documentation Note that the numbers returned by this method may not match the values given to the constructor. In list context, in_units returns the lengths in the order of the units given. In scalar context, it returns the length in the first unit (but still computes in terms of all given units). If you need more flexibility in presenting information about durations, please take a look a C. =head2 $dur->is_positive(), $dur->is_zero(), $dur->is_negative() Indicates whether or not the duration is positive, zero, or negative. If the duration contains both positive and negative units, then it will return false for B of these methods. =head2 $dur->is_wrap_mode(), $dur->is_limit_mode(), $dur->is_preserve_mode() Indicates what mode is used for end of month wrapping. =head2 $dur->end_of_month_mode() Returns one of "wrap", "limit", or "preserve". =head2 $dur->calendar_duration() Returns a new object with the same I delta (months and days only) and end of month mode as the current object. =head2 $dur->clock_duration() Returns a new object with the same I deltas (minutes, seconds, and nanoseconds) and end of month mode as the current object. =head2 $dur->inverse( ... ) Returns a new object with the same deltas as the current object, but multiple by -1. The end of month mode for the new object will be the default end of month mode, which depends on whether the new duration is positive or negative. You can set the end of month mode in the inverted duration explicitly by passing "end_of_month => ..." to the C method. =head2 $dur->add_duration( $duration_object ), $dur->subtract_duration( $duration_object ) Adds or subtracts one duration from another. =head2 $dur->add( ... ), $dur->subtract( ... ) Syntactic sugar for addition and subtraction. The parameters given to these methods are used to create a new object, which is then passed to C or C, as appropriate. =head2 $dur->multiply( $number ) Multiplies each unit in the by the specified number. =head2 DateTime::Duration->compare( $duration1, $duration2, $base_datetime ) This is a class method that can be used to compare or sort durations. Comparison is done by adding each duration to the specified C object and comparing the resulting datetimes. This is necessary because without a base, many durations are not comparable. For example, 1 month may or may not be longer than 29 days, depending on what datetime it is added to. If no base datetime is given, then the result of C<< DateTime->now >> is used instead. Using this default will give non-repeatable results if used to compare two duration objects containing different units. It will also give non-repeatable results if the durations contain multiple types of units, such as months and days. However, if you know that both objects only consist of one type of unit (months I days I hours, etc.), and each duration contains the same type of unit, then the results of the comparison will be repeatable. =head2 $dur->delta_months(), $dur->delta_days(), $dur->delta_minutes(), $dur->delta_seconds(), $dur->delta_nanoseconds() These methods provide the information C needs for doing date math. The numbers returned may be positive or negative. This is mostly useful for doing date math in L. =head2 $dur->deltas() Returns a hash with the keys "months", "days", "minutes", "seconds", and "nanoseconds", containing all the delta information for the object. This is mostly useful for doing date math in L. =head2 $dur->years(), $dur->months(), $dur->weeks(), $dur->days(), $dur->hours(), $dur->minutes(), $dur->seconds(), $dur->nanoseconds() These methods return numbers indicating how many of the given unit the object represents, after having done a conversion to any larger units. For example, days are first converted to weeks, and then the remainder is returned. These numbers are always positive. Here's what each method returns: $dur->years() == abs( $dur->in_units('years') ) $dur->months() == abs( ( $dur->in_units( 'months', 'years' ) )[0] ) $dur->weeks() == abs( $dur->in_units( 'weeks' ) ) $dur->days() == abs( ( $dur->in_units( 'days', 'weeks' ) )[0] ) $dur->hours() == abs( $dur->in_units( 'hours' ) ) $dur->minutes == abs( ( $dur->in_units( 'minutes', 'hours' ) )[0] ) $dur->seconds == abs( $dur->in_units( 'seconds' ) ) $dur->nanoseconds() == abs( ( $dur->in_units( 'nanoseconds', 'seconds' ) )[0] ) If this seems confusing, remember that you can always use the C method to specify exactly what you want. Better yet, if you are trying to generate output suitable for humans, use the C module. =head2 Overloading This class overloads addition, subtraction, and mutiplication. Comparison is B overloaded. If you attempt to compare durations using C<< <=> >> or C, then an exception will be thrown! Use the C class method instead. =head1 SUPPORT Support for this module is provided via the datetime@perl.org email list. See http://lists.perl.org/ for more details. =head1 SEE ALSO datetime@perl.org mailing list http://datetime.perl.org/ =head1 AUTHOR Dave Rolsky =head1 COPYRIGHT AND LICENSE This software is Copyright (c) 2013 by Dave Rolsky. This is free software, licensed under: The Artistic License 2.0 (GPL Compatible) =cut DateTime-1.06/lib/DateTime/LeapSecond.pm0000644000175000017500000001031012260573461017612 0ustar autarchautarchpackage DateTime::LeapSecond; { $DateTime::LeapSecond::VERSION = '1.06'; } use strict; use warnings; use vars qw( @RD @LEAP_SECONDS %RD_LENGTH ); use DateTime; # Generates a Perl binary decision tree sub _make_utx { my ( $beg, $end, $tab, $op ) = @_; my $step = int( ( $end - $beg ) / 2 ); my $tmp; if ( $step <= 0 ) { $tmp = "${tab}return $LEAP_SECONDS[$beg + 1];\n"; return $tmp; } $tmp = "${tab}if (\$val < " . $RD[ $beg + $step ] . ") {\n"; $tmp .= _make_utx( $beg, $beg + $step, $tab . " ", $op ); $tmp .= "${tab}}\n"; $tmp .= "${tab}else {\n"; $tmp .= _make_utx( $beg + $step, $end, $tab . " ", $op ); $tmp .= "${tab}}\n"; return $tmp; } # Process BEGIN data and write binary tree decision table sub _init { my $value = -1; while (@_) { my ( $year, $mon, $mday, $leap_seconds ) = ( shift, shift, shift, shift ); # print "$year,$mon,$mday\n"; my $utc_epoch = DateTime->_ymd2rd( $year, ( $mon =~ /Jan/i ? 1 : 7 ), $mday ); $value++; push @LEAP_SECONDS, $value; push @RD, $utc_epoch; $RD_LENGTH{ $utc_epoch - 1 } = $leap_seconds; # warn "$year,$mon,$mday = $utc_epoch +$value"; } push @LEAP_SECONDS, ++$value; my $tmp; # write binary tree decision table $tmp = "sub leap_seconds {\n"; $tmp .= " my \$val = shift;\n"; $tmp .= _make_utx( -1, 1 + $#RD, " ", "+" ); $tmp .= "}\n"; # NOTE: uncomment the line below to see the code: #warn $tmp; eval $tmp; } sub extra_seconds { exists $RD_LENGTH{ $_[0] } ? $RD_LENGTH{ $_[0] } : 0; } sub day_length { exists $RD_LENGTH{ $_[0] } ? 86400 + $RD_LENGTH{ $_[0] } : 86400; } sub _initialize { # this table: ftp://62.161.69.5/pub/tai/publication/leaptab.txt # known accurate until (at least): 2005-12-31 # # There are no leap seconds before 1972, because that's the # year this system was implemented. # # year month day number-of-leapseconds # _init( qw( 1972 Jul. 1 +1 1973 Jan. 1 +1 1974 Jan. 1 +1 1975 Jan. 1 +1 1976 Jan. 1 +1 1977 Jan. 1 +1 1978 Jan. 1 +1 1979 Jan. 1 +1 1980 Jan. 1 +1 1981 Jul. 1 +1 1982 Jul. 1 +1 1983 Jul. 1 +1 1985 Jul. 1 +1 1988 Jan. 1 +1 1990 Jan. 1 +1 1991 Jan. 1 +1 1992 Jul. 1 +1 1993 Jul. 1 +1 1994 Jul. 1 +1 1996 Jan. 1 +1 1997 Jul. 1 +1 1999 Jan. 1 +1 2006 Jan. 1 +1 2009 Jan. 1 +1 2012 Jun. 1 +1 ) ); } __PACKAGE__->_initialize(); 1; # ABSTRACT: leap seconds table and utilities __END__ =pod =head1 NAME DateTime::LeapSecond - leap seconds table and utilities =head1 VERSION version 1.06 =head1 SYNOPSIS use DateTime; use DateTime::LeapSecond; print "Leap seconds between years 1990 and 2000 are "; print DateTime::Leapsecond::leap_seconds( $utc_rd_2000 ) - DateTime::Leapsecond::leap_seconds( $utc_rd_1990 ); =head1 DESCRIPTION This module is used to calculate leap seconds for a given Rata Die day. It is used when DateTime.pm cannot compile the XS version of this code. This library is known to be accurate for dates until December 2009. There are no leap seconds before 1972, because that's the year this system was implemented. =over 4 =item * leap_seconds( $rd ) Returns the number of accumulated leap seconds for a given day, in the range 0 .. 22. =item * extra_seconds( $rd ) Returns the number of leap seconds for a given day, in the range -2 .. 2. =item * day_length( $rd ) Returns the number of seconds for a given day, in the range 86398 .. 86402. =back =head1 SEE ALSO Ehttp://hpiers.obspm.fr/eop-pc/earthor/utc/leapsecond.htmlE http://datetime.perl.org =head1 AUTHOR Dave Rolsky =head1 COPYRIGHT AND LICENSE This software is Copyright (c) 2013 by Dave Rolsky. This is free software, licensed under: The Artistic License 2.0 (GPL Compatible) =cut DateTime-1.06/lib/DateTime/Infinite.pm0000644000175000017500000001127612260573461017356 0ustar autarchautarchpackage DateTime::Infinite; { $DateTime::Infinite::VERSION = '1.06'; } use strict; use warnings; use DateTime; use DateTime::TimeZone; use base qw(DateTime); foreach my $m (qw( set set_time_zone truncate )) { no strict 'refs'; *{"DateTime::Infinite::$m"} = sub { return $_[0] }; } sub is_finite {0} sub is_infinite {1} sub _rd2ymd { return $_[2] ? ( $_[1] ) x 7 : ( $_[1] ) x 3; } sub _seconds_as_components { return ( $_[1] ) x 3; } sub _stringify { $_[0]->{utc_rd_days} == DateTime::INFINITY ? DateTime::INFINITY . '' : DateTime::NEG_INFINITY . ''; } sub STORABLE_freeze {return} sub STORABLE_thaw {return} package DateTime::Infinite::Future; { $DateTime::Infinite::Future::VERSION = '1.06'; } use strict; use warnings; use base qw(DateTime::Infinite); { my $Pos = bless { utc_rd_days => DateTime::INFINITY, utc_rd_secs => DateTime::INFINITY, local_rd_days => DateTime::INFINITY, local_rd_secs => DateTime::INFINITY, rd_nanosecs => DateTime::INFINITY, tz => DateTime::TimeZone->new( name => 'floating' ), locale => FakeLocale->instance(), }, __PACKAGE__; $Pos->_calc_utc_rd; $Pos->_calc_local_rd; sub new {$Pos} } package DateTime::Infinite::Past; { $DateTime::Infinite::Past::VERSION = '1.06'; } use strict; use warnings; use base qw(DateTime::Infinite); { my $Neg = bless { utc_rd_days => DateTime::NEG_INFINITY, utc_rd_secs => DateTime::NEG_INFINITY, local_rd_days => DateTime::NEG_INFINITY, local_rd_secs => DateTime::NEG_INFINITY, rd_nanosecs => DateTime::NEG_INFINITY, tz => DateTime::TimeZone->new( name => 'floating' ), locale => FakeLocale->instance(), }, __PACKAGE__; $Neg->_calc_utc_rd; $Neg->_calc_local_rd; sub new {$Neg} } package # hide from PAUSE FakeLocale; use strict; use warnings; use DateTime::Locale; my $Instance; sub instance { return $Instance ||= bless { locale => DateTime::Locale->load('en_US') }, __PACKAGE__; } sub id { return 'infinite'; } sub language_id { return 'infinite'; } sub name { 'Fake locale for Infinite DateTime objects'; } sub language { 'Fake locale for Infinite DateTime objects'; } my @methods = qw( script_id territory_id variant_id script territory variant native_name native_language native_script native_territory native_variant ); for my $meth (@methods) { no strict 'refs'; *{$meth} = sub { undef }; } # Totally arbitrary sub first_day_of_week { return 1; } sub prefers_24_hour_time { return 0; } our $AUTOLOAD; sub AUTOLOAD { my $self = shift; my ($meth) = $AUTOLOAD =~ /::(\w+)$/; if ( $meth =~ /format/ && $meth !~ /^(?:day|month|quarter)/ ) { return $self->{locale}->$meth(@_); } return []; } 1; # ABSTRACT: Infinite past and future DateTime objects __END__ =pod =head1 NAME DateTime::Infinite - Infinite past and future DateTime objects =head1 VERSION version 1.06 =head1 SYNOPSIS my $future = DateTime::Infinite::Future->new(); my $past = DateTime::Infinite::Past->new(); =head1 DESCRIPTION This module provides two L subclasses, C and C. The objects are in the "floating" timezone, and this cannot be changed. =head1 BUGS There seem to be lots of problems when dealing with infinite numbers on Win32. This may be a problem with this code, Perl, or Win32's IEEE math implementation. Either way, the module may not be well-behaved on Win32 operating systems. =head1 METHODS The only constructor for these two classes is the C method, as shown in the L. This method takes no parameters. All "get" methods in this module simply return infinity, positive or negative. If the method is expected to return a string, it return the string representation of positive or negative infinity used by your system. For example, on my system calling C returns a number which when printed appears either "inf" or "-inf". The object is not mutable, so the C, C, and C methods are all do-nothing methods that simply return the object they are called with. Obviously, the C method returns false and the C method returns true. =head1 SEE ALSO datetime@perl.org mailing list http://datetime.perl.org/ =head1 AUTHOR Dave Rolsky =head1 COPYRIGHT AND LICENSE This software is Copyright (c) 2013 by Dave Rolsky. This is free software, licensed under: The Artistic License 2.0 (GPL Compatible) =cut DateTime-1.06/lib/DateTime/Helpers.pm0000644000175000017500000000064012260573461017204 0ustar autarchautarchpackage DateTime::Helpers; { $DateTime::Helpers::VERSION = '1.06'; } use strict; use warnings; use Scalar::Util (); sub can { my $object = shift; my $method = shift; return unless Scalar::Util::blessed($object); return $object->can($method); } sub isa { my $object = shift; my $method = shift; return unless Scalar::Util::blessed($object); return $object->isa($method); } 1; DateTime-1.06/lib/DateTimePPExtra.pm0000644000175000017500000000252512260573461017052 0ustar autarchautarchpackage DateTime; use strict; use warnings; use DateTime::LeapSecond; sub _normalize_tai_seconds { return if grep { $_ == INFINITY() || $_ == NEG_INFINITY() } @_[ 1, 2 ]; # This must be after checking for infinity, because it breaks in # presence of use integer ! use integer; my $adj; if ( $_[2] < 0 ) { $adj = ( $_[2] - 86399 ) / 86400; } else { $adj = $_[2] / 86400; } $_[1] += $adj; $_[2] -= $adj * 86400; } sub _normalize_leap_seconds { # args: 0 => days, 1 => seconds my $delta_days; use integer; # rough adjust - can adjust many days if ( $_[2] < 0 ) { $delta_days = ( $_[2] - 86399 ) / 86400; } else { $delta_days = $_[2] / 86400; } my $new_day = $_[1] + $delta_days; my $delta_seconds = ( 86400 * $delta_days ) + DateTime::LeapSecond::leap_seconds($new_day) - DateTime::LeapSecond::leap_seconds( $_[1] ); $_[2] -= $delta_seconds; $_[1] = $new_day; # fine adjust - up to 1 day my $day_length = DateTime::LeapSecond::day_length($new_day); if ( $_[2] >= $day_length ) { $_[2] -= $day_length; $_[1]++; } elsif ( $_[2] < 0 ) { $day_length = DateTime::LeapSecond::day_length( $new_day - 1 ); $_[2] += $day_length; $_[1]--; } } 1; DateTime-1.06/lib/DateTime.pm0000644000175000017500000034747212260573461015623 0ustar autarchautarchpackage DateTime; { $DateTime::VERSION = '1.06'; } use 5.008001; use strict; use warnings; { my $loaded = 0; unless ( $ENV{PERL_DATETIME_PP} ) { local $@; eval { require XSLoader; XSLoader::load( __PACKAGE__, exists $DateTime::{VERSION} && ${ $DateTime::{VERSION} } ? ${ $DateTime::{VERSION} } : 42 ); $DateTime::IsPurePerl = 0; }; die $@ if $@ && $@ !~ /object version|loadable object/; $loaded = 1 unless $@; } if ($loaded) { require DateTimePPExtra unless defined &DateTime::_normalize_tai_seconds; } else { require DateTimePP; } } use Carp; use DateTime::Duration; use DateTime::Helpers; use DateTime::Locale 0.41; use DateTime::TimeZone 1.09; use Params::Validate 0.76 qw( validate validate_pos UNDEF SCALAR BOOLEAN HASHREF OBJECT ); use POSIX qw(floor); use Try::Tiny; # for some reason, overloading doesn't work unless fallback is listed # early. # # 3rd parameter ( $_[2] ) means the parameters are 'reversed'. # see: "Calling conventions for binary operations" in overload docs. # use overload ( 'fallback' => 1, '<=>' => '_compare_overload', 'cmp' => '_string_compare_overload', '""' => '_stringify', '-' => '_subtract_overload', '+' => '_add_overload', 'eq' => '_string_equals_overload', 'ne' => '_string_not_equals_overload', ); # Have to load this after overloading is defined, after BEGIN blocks # or else weird crashes ensue require DateTime::Infinite; use constant MAX_NANOSECONDS => 1_000_000_000; # 1E9 = almost 32 bits use constant INFINITY => ( 100**100**100**100 ); use constant NEG_INFINITY => -1 * ( 100**100**100**100 ); use constant NAN => INFINITY - INFINITY; use constant SECONDS_PER_DAY => 86400; use constant duration_class => 'DateTime::Duration'; my ( @MonthLengths, @LeapYearMonthLengths ); BEGIN { @MonthLengths = ( 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ); @LeapYearMonthLengths = @MonthLengths; $LeapYearMonthLengths[1]++; } { # I'd rather use Class::Data::Inheritable for this, but there's no # way to add the module-loading behavior to an accessor it # creates, despite what its docs say! my $DefaultLocale; sub DefaultLocale { my $class = shift; if (@_) { my $lang = shift; $DefaultLocale = DateTime::Locale->load($lang); } return $DefaultLocale; } # backwards compat *DefaultLanguage = \&DefaultLocale; } __PACKAGE__->DefaultLocale('en_US'); my $BasicValidate = { year => { type => SCALAR, callbacks => { 'is an integer' => sub { $_[0] =~ /^-?\d+$/ } }, }, month => { type => SCALAR, default => 1, callbacks => { 'an integer between 1 and 12' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 1 && $_[0] <= 12 } }, }, day => { type => SCALAR, default => 1, callbacks => { 'an integer which is a possible valid day of month' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 1 && $_[0] <= 31 } }, }, hour => { type => SCALAR, default => 0, callbacks => { 'an integer between 0 and 23' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 0 && $_[0] <= 23 }, }, }, minute => { type => SCALAR, default => 0, callbacks => { 'an integer between 0 and 59' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 0 && $_[0] <= 59 }, }, }, second => { type => SCALAR, default => 0, callbacks => { 'an integer between 0 and 61' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 0 && $_[0] <= 61 }, }, }, nanosecond => { type => SCALAR, default => 0, callbacks => { 'a positive integer' => sub { $_[0] =~ /^\d+$/ && $_[0] >= 0 }, } }, locale => { type => SCALAR | OBJECT, default => undef }, language => { type => SCALAR | OBJECT, optional => 1 }, formatter => { type => UNDEF | SCALAR | OBJECT, optional => 1, callbacks => { 'can format_datetime' => sub { defined $_[0] ? $_[0]->can('format_datetime') : 1 }, }, }, }; my $NewValidate = { %$BasicValidate, time_zone => { type => SCALAR | OBJECT, default => 'floating' }, }; sub new { my $class = shift; my %p = validate( @_, $NewValidate ); Carp::croak( "Invalid day of month (day = $p{day} - month = $p{month} - year = $p{year})\n" ) if $p{day} > 28 && $p{day} > $class->_month_length( $p{year}, $p{month} ); return $class->_new(%p); } sub _new { my $class = shift; my %p = @_; Carp::croak('Constructor called with reference, we expected a package') if ref $class; # If this method is called from somewhere other than new(), then some of # these default may not get applied. $p{month} = 1 unless exists $p{month}; $p{day} = 1 unless exists $p{day}; $p{hour} = 0 unless exists $p{hour}; $p{minute} = 0 unless exists $p{minute}; $p{second} = 0 unless exists $p{second}; $p{nanosecond} = 0 unless exists $p{nanosecond}; $p{time_zone} = 'floating' unless exists $p{time_zone}; my $self = bless {}, $class; $p{locale} = delete $p{language} if exists $p{language}; $self->_set_locale( $p{locale} ); $self->{tz} = ( ref $p{time_zone} ? $p{time_zone} : DateTime::TimeZone->new( name => $p{time_zone} ) ); $self->{local_rd_days} = $class->_ymd2rd( @p{qw( year month day )} ); $self->{local_rd_secs} = $class->_time_as_seconds( @p{qw( hour minute second )} ); $self->{offset_modifier} = 0; $self->{rd_nanosecs} = $p{nanosecond}; $self->{formatter} = $p{formatter}; $self->_normalize_nanoseconds( $self->{local_rd_secs}, $self->{rd_nanosecs} ); # Set this explicitly since it can't be calculated accurately # without knowing our time zone offset, and it's possible that the # offset can't be calculated without having at least a rough guess # of the datetime's year. This year need not be correct, as long # as its equal or greater to the correct number, so we fudge by # adding one to the local year given to the constructor. $self->{utc_year} = $p{year} + 1; $self->_calc_utc_rd; $self->_handle_offset_modifier( $p{second} ); $self->_calc_local_rd; if ( $p{second} > 59 ) { if ( $self->{tz}->is_floating || # If true, this means that the actual calculated leap # second does not occur in the second given to new() ( $self->{utc_rd_secs} - 86399 < $p{second} - 59 ) ) { Carp::croak("Invalid second value ($p{second})\n"); } } return $self; } sub _set_locale { my $self = shift; my $locale = shift; if ( defined $locale && ref $locale ) { $self->{locale} = $locale; } else { $self->{locale} = $locale ? DateTime::Locale->load($locale) : $self->DefaultLocale(); } return; } # This method exists for the benefit of internal methods which create # a new object based on the current object, like set() and truncate(). sub _new_from_self { my $self = shift; my %p = @_; my %old = map { $_ => $self->$_() } qw( year month day hour minute second nanosecond locale time_zone ); $old{formatter} = $self->formatter() if defined $self->formatter(); my $method = delete $p{_skip_validation} ? '_new' : 'new'; return ( ref $self )->$method( %old, %p ); } sub _handle_offset_modifier { my $self = shift; $self->{offset_modifier} = 0; return if $self->{tz}->is_floating; my $second = shift; my $utc_is_valid = shift; my $utc_rd_days = $self->{utc_rd_days}; my $offset = $utc_is_valid ? $self->offset : $self->_offset_for_local_datetime; if ( $offset >= 0 && $self->{local_rd_secs} >= $offset ) { if ( $second < 60 && $offset > 0 ) { $self->{offset_modifier} = $self->_day_length( $utc_rd_days - 1 ) - SECONDS_PER_DAY; $self->{local_rd_secs} += $self->{offset_modifier}; } elsif ( $second == 60 && ( ( $self->{local_rd_secs} == $offset && $offset > 0 ) || ( $offset == 0 && $self->{local_rd_secs} > 86399 ) ) ) { my $mod = $self->_day_length( $utc_rd_days - 1 ) - SECONDS_PER_DAY; unless ( $mod == 0 ) { $self->{utc_rd_secs} -= $mod; $self->_normalize_seconds; } } } elsif ($offset < 0 && $self->{local_rd_secs} >= SECONDS_PER_DAY + $offset ) { if ( $second < 60 ) { $self->{offset_modifier} = $self->_day_length( $utc_rd_days - 1 ) - SECONDS_PER_DAY; $self->{local_rd_secs} += $self->{offset_modifier}; } elsif ($second == 60 && $self->{local_rd_secs} == SECONDS_PER_DAY + $offset ) { my $mod = $self->_day_length( $utc_rd_days - 1 ) - SECONDS_PER_DAY; unless ( $mod == 0 ) { $self->{utc_rd_secs} -= $mod; $self->_normalize_seconds; } } } } sub _calc_utc_rd { my $self = shift; delete $self->{utc_c}; if ( $self->{tz}->is_utc || $self->{tz}->is_floating ) { $self->{utc_rd_days} = $self->{local_rd_days}; $self->{utc_rd_secs} = $self->{local_rd_secs}; } else { my $offset = $self->_offset_for_local_datetime; $offset += $self->{offset_modifier}; $self->{utc_rd_days} = $self->{local_rd_days}; $self->{utc_rd_secs} = $self->{local_rd_secs} - $offset; } # We account for leap seconds in the new() method and nowhere else # except date math. $self->_normalize_tai_seconds( $self->{utc_rd_days}, $self->{utc_rd_secs} ); } sub _normalize_seconds { my $self = shift; return if $self->{utc_rd_secs} >= 0 && $self->{utc_rd_secs} <= 86399; if ( $self->{tz}->is_floating ) { $self->_normalize_tai_seconds( $self->{utc_rd_days}, $self->{utc_rd_secs} ); } else { $self->_normalize_leap_seconds( $self->{utc_rd_days}, $self->{utc_rd_secs} ); } } sub _calc_local_rd { my $self = shift; delete $self->{local_c}; # We must short circuit for UTC times or else we could end up with # loops between DateTime.pm and DateTime::TimeZone if ( $self->{tz}->is_utc || $self->{tz}->is_floating ) { $self->{local_rd_days} = $self->{utc_rd_days}; $self->{local_rd_secs} = $self->{utc_rd_secs}; } else { my $offset = $self->offset; $self->{local_rd_days} = $self->{utc_rd_days}; $self->{local_rd_secs} = $self->{utc_rd_secs} + $offset; # intentionally ignore leap seconds here $self->_normalize_tai_seconds( $self->{local_rd_days}, $self->{local_rd_secs} ); $self->{local_rd_secs} += $self->{offset_modifier}; } $self->_calc_local_components; } sub _calc_local_components { my $self = shift; @{ $self->{local_c} }{ qw( year month day day_of_week day_of_year quarter day_of_quarter) } = $self->_rd2ymd( $self->{local_rd_days}, 1 ); @{ $self->{local_c} }{qw( hour minute second )} = $self->_seconds_as_components( $self->{local_rd_secs}, $self->{utc_rd_secs}, $self->{offset_modifier} ); } sub _calc_utc_components { my $self = shift; die "Cannot get UTC components before UTC RD has been calculated\n" unless defined $self->{utc_rd_days}; @{ $self->{utc_c} }{qw( year month day )} = $self->_rd2ymd( $self->{utc_rd_days} ); @{ $self->{utc_c} }{qw( hour minute second )} = $self->_seconds_as_components( $self->{utc_rd_secs} ); } sub _utc_ymd { my $self = shift; $self->_calc_utc_components unless exists $self->{utc_c}{year}; return @{ $self->{utc_c} }{qw( year month day )}; } sub _utc_hms { my $self = shift; $self->_calc_utc_components unless exists $self->{utc_c}{hour}; return @{ $self->{utc_c} }{qw( hour minute second )}; } { my $spec = { epoch => { regex => qr/^-?(?:\d+(?:\.\d*)?|\.\d+)$/ }, locale => { type => SCALAR | OBJECT, optional => 1 }, language => { type => SCALAR | OBJECT, optional => 1 }, time_zone => { type => SCALAR | OBJECT, optional => 1 }, formatter => { type => SCALAR | OBJECT, can => 'format_datetime', optional => 1 }, }; sub from_epoch { my $class = shift; my %p = validate( @_, $spec ); my %args; # Epoch may come from Time::HiRes, so it may not be an integer. my ( $int, $dec ) = $p{epoch} =~ /^(-?\d+)?(\.\d+)?/; $int ||= 0; $args{nanosecond} = int( $dec * MAX_NANOSECONDS ) if $dec; # Note, for very large negative values this may give a # blatantly wrong answer. @args{qw( second minute hour day month year )} = ( gmtime($int) )[ 0 .. 5 ]; $args{year} += 1900; $args{month}++; my $self = $class->_new( %p, %args, time_zone => 'UTC' ); $self->set_time_zone( $p{time_zone} ) if exists $p{time_zone}; return $self; } } # use scalar time in case someone's loaded Time::Piece sub now { shift->from_epoch( epoch => ( scalar time ), @_ ) } sub today { shift->now(@_)->truncate( to => 'day' ) } { my $spec = { object => { type => OBJECT, can => 'utc_rd_values', }, locale => { type => SCALAR | OBJECT, optional => 1 }, language => { type => SCALAR | OBJECT, optional => 1 }, formatter => { type => SCALAR | OBJECT, can => 'format_datetime', optional => 1 }, }; sub from_object { my $class = shift; my %p = validate( @_, $spec ); my $object = delete $p{object}; my ( $rd_days, $rd_secs, $rd_nanosecs ) = $object->utc_rd_values; # A kludge because until all calendars are updated to return all # three values, $rd_nanosecs could be undef $rd_nanosecs ||= 0; # This is a big hack to let _seconds_as_components operate naively # on the given value. If the object _is_ on a leap second, we'll # add that to the generated seconds value later. my $leap_seconds = 0; if ( $object->can('time_zone') && !$object->time_zone->is_floating && $rd_secs > 86399 && $rd_secs <= $class->_day_length($rd_days) ) { $leap_seconds = $rd_secs - 86399; $rd_secs -= $leap_seconds; } my %args; @args{qw( year month day )} = $class->_rd2ymd($rd_days); @args{qw( hour minute second )} = $class->_seconds_as_components($rd_secs); $args{nanosecond} = $rd_nanosecs; $args{second} += $leap_seconds; my $new = $class->new( %p, %args, time_zone => 'UTC' ); if ( $object->can('time_zone') ) { $new->set_time_zone( $object->time_zone ); } else { $new->set_time_zone('floating'); } return $new; } } my $LastDayOfMonthValidate = {%$NewValidate}; foreach ( keys %$LastDayOfMonthValidate ) { my %copy = %{ $LastDayOfMonthValidate->{$_} }; delete $copy{default}; $copy{optional} = 1 unless $_ eq 'year' || $_ eq 'month'; $LastDayOfMonthValidate->{$_} = \%copy; } sub last_day_of_month { my $class = shift; my %p = validate( @_, $LastDayOfMonthValidate ); my $day = $class->_month_length( $p{year}, $p{month} ); return $class->_new( %p, day => $day ); } sub _month_length { return ( $_[0]->_is_leap_year( $_[1] ) ? $LeapYearMonthLengths[ $_[2] - 1 ] : $MonthLengths[ $_[2] - 1 ] ); } my $FromDayOfYearValidate = {%$NewValidate}; foreach ( keys %$FromDayOfYearValidate ) { next if $_ eq 'month' || $_ eq 'day'; my %copy = %{ $FromDayOfYearValidate->{$_} }; delete $copy{default}; $copy{optional} = 1 unless $_ eq 'year' || $_ eq 'month'; $FromDayOfYearValidate->{$_} = \%copy; } $FromDayOfYearValidate->{day_of_year} = { type => SCALAR, callbacks => { 'is between 1 and 366' => sub { $_[0] >= 1 && $_[0] <= 366 } } }; sub from_day_of_year { my $class = shift; my %p = validate( @_, $FromDayOfYearValidate ); Carp::croak("$p{year} is not a leap year.\n") if $p{day_of_year} == 366 && !$class->_is_leap_year( $p{year} ); my $month = 1; my $day = delete $p{day_of_year}; if ( $day > 31 ) { my $length = $class->_month_length( $p{year}, $month ); while ( $day > $length ) { $day -= $length; $month++; $length = $class->_month_length( $p{year}, $month ); } } return $class->_new( %p, month => $month, day => $day, ); } sub formatter { $_[0]->{formatter} } sub clone { bless { %{ $_[0] } }, ref $_[0] } sub year { Carp::carp('year() is a read-only accessor') if @_ > 1; return $_[0]->{local_c}{year}; } sub ce_year { $_[0]->{local_c}{year} <= 0 ? $_[0]->{local_c}{year} - 1 : $_[0]->{local_c}{year}; } sub era_name { $_[0]->{locale}->era_wide->[ $_[0]->_era_index() ] } sub era_abbr { $_[0]->{locale}->era_abbreviated->[ $_[0]->_era_index() ] } # deprecated *era = \&era_abbr; sub _era_index { $_[0]->{local_c}{year} <= 0 ? 0 : 1 } sub christian_era { $_[0]->ce_year > 0 ? 'AD' : 'BC' } sub secular_era { $_[0]->ce_year > 0 ? 'CE' : 'BCE' } sub year_with_era { ( abs $_[0]->ce_year ) . $_[0]->era_abbr } sub year_with_christian_era { ( abs $_[0]->ce_year ) . $_[0]->christian_era } sub year_with_secular_era { ( abs $_[0]->ce_year ) . $_[0]->secular_era } sub month { Carp::carp('month() is a read-only accessor') if @_ > 1; return $_[0]->{local_c}{month}; } *mon = \&month; sub month_0 { $_[0]->{local_c}{month} - 1 } *mon_0 = \&month_0; sub month_name { $_[0]->{locale}->month_format_wide->[ $_[0]->month_0() ] } sub month_abbr { $_[0]->{locale}->month_format_abbreviated->[ $_[0]->month_0() ]; } sub day_of_month { Carp::carp('day_of_month() is a read-only accessor') if @_ > 1; $_[0]->{local_c}{day}; } *day = \&day_of_month; *mday = \&day_of_month; sub weekday_of_month { use integer; ( ( $_[0]->day - 1 ) / 7 ) + 1 } sub quarter { $_[0]->{local_c}{quarter} } sub quarter_name { $_[0]->{locale}->quarter_format_wide->[ $_[0]->quarter_0() ]; } sub quarter_abbr { $_[0]->{locale}->quarter_format_abbreviated->[ $_[0]->quarter_0() ]; } sub quarter_0 { $_[0]->{local_c}{quarter} - 1 } sub day_of_month_0 { $_[0]->{local_c}{day} - 1 } *day_0 = \&day_of_month_0; *mday_0 = \&day_of_month_0; sub day_of_week { $_[0]->{local_c}{day_of_week} } *wday = \&day_of_week; *dow = \&day_of_week; sub day_of_week_0 { $_[0]->{local_c}{day_of_week} - 1 } *wday_0 = \&day_of_week_0; *dow_0 = \&day_of_week_0; sub local_day_of_week { my $self = shift; return 1 + ( $self->day_of_week - $self->{locale}->first_day_of_week ) % 7; } sub day_name { $_[0]->{locale}->day_format_wide->[ $_[0]->day_of_week_0() ] } sub day_abbr { $_[0]->{locale}->day_format_abbreviated->[ $_[0]->day_of_week_0() ]; } sub day_of_quarter { $_[0]->{local_c}{day_of_quarter} } *doq = \&day_of_quarter; sub day_of_quarter_0 { $_[0]->day_of_quarter - 1 } *doq_0 = \&day_of_quarter_0; sub day_of_year { $_[0]->{local_c}{day_of_year} } *doy = \&day_of_year; sub day_of_year_0 { $_[0]->{local_c}{day_of_year} - 1 } *doy_0 = \&day_of_year_0; sub am_or_pm { $_[0]->{locale}->am_pm_abbreviated->[ $_[0]->hour() < 12 ? 0 : 1 ]; } sub ymd { my ( $self, $sep ) = @_; $sep = '-' unless defined $sep; return sprintf( "%0.4d%s%0.2d%s%0.2d", $self->year, $sep, $self->{local_c}{month}, $sep, $self->{local_c}{day} ); } *date = \&ymd; sub mdy { my ( $self, $sep ) = @_; $sep = '-' unless defined $sep; return sprintf( "%0.2d%s%0.2d%s%0.4d", $self->{local_c}{month}, $sep, $self->{local_c}{day}, $sep, $self->year ); } sub dmy { my ( $self, $sep ) = @_; $sep = '-' unless defined $sep; return sprintf( "%0.2d%s%0.2d%s%0.4d", $self->{local_c}{day}, $sep, $self->{local_c}{month}, $sep, $self->year ); } sub hour { Carp::carp('hour() is a read-only accessor') if @_ > 1; return $_[0]->{local_c}{hour}; } sub hour_1 { $_[0]->{local_c}{hour} == 0 ? 24 : $_[0]->{local_c}{hour} } sub hour_12 { my $h = $_[0]->hour % 12; return $h ? $h : 12 } sub hour_12_0 { $_[0]->hour % 12 } sub minute { Carp::carp('minute() is a read-only accessor') if @_ > 1; return $_[0]->{local_c}{minute}; } *min = \&minute; sub second { Carp::carp('second() is a read-only accessor') if @_ > 1; return $_[0]->{local_c}{second}; } *sec = \&second; sub fractional_second { $_[0]->second + $_[0]->nanosecond / MAX_NANOSECONDS } sub nanosecond { Carp::carp('nanosecond() is a read-only accessor') if @_ > 1; return $_[0]->{rd_nanosecs}; } sub millisecond { floor( $_[0]->{rd_nanosecs} / 1000000 ) } sub microsecond { floor( $_[0]->{rd_nanosecs} / 1000 ) } sub leap_seconds { my $self = shift; return 0 if $self->{tz}->is_floating; return DateTime->_accumulated_leap_seconds( $self->{utc_rd_days} ); } sub _stringify { my $self = shift; return $self->iso8601 unless $self->{formatter}; return $self->{formatter}->format_datetime($self); } sub hms { my ( $self, $sep ) = @_; $sep = ':' unless defined $sep; return sprintf( "%0.2d%s%0.2d%s%0.2d", $self->{local_c}{hour}, $sep, $self->{local_c}{minute}, $sep, $self->{local_c}{second} ); } # don't want to override CORE::time() *DateTime::time = \&hms; sub iso8601 { join 'T', $_[0]->ymd('-'), $_[0]->hms(':') } *datetime = \&iso8601; sub is_leap_year { $_[0]->_is_leap_year( $_[0]->year ) } sub week { my $self = shift; unless ( defined $self->{local_c}{week_year} ) { # This algorithm was taken from Date::Calc's DateCalc.c file my $jan_one_dow_m1 = ( ( $self->_ymd2rd( $self->year, 1, 1 ) + 6 ) % 7 ); $self->{local_c}{week_number} = int( ( ( $self->day_of_year - 1 ) + $jan_one_dow_m1 ) / 7 ); $self->{local_c}{week_number}++ if $jan_one_dow_m1 < 4; if ( $self->{local_c}{week_number} == 0 ) { $self->{local_c}{week_year} = $self->year - 1; $self->{local_c}{week_number} = $self->_weeks_in_year( $self->{local_c}{week_year} ); } elsif ($self->{local_c}{week_number} == 53 && $self->_weeks_in_year( $self->year ) == 52 ) { $self->{local_c}{week_number} = 1; $self->{local_c}{week_year} = $self->year + 1; } else { $self->{local_c}{week_year} = $self->year; } } return @{ $self->{local_c} }{ 'week_year', 'week_number' }; } sub _weeks_in_year { my $self = shift; my $year = shift; my $dow = $self->_ymd2rd( $year, 1, 1 ) % 7; # Years starting with a Thursday and leap years starting with a Wednesday # have 53 weeks. return ( $dow == 4 || ( $dow == 3 && $self->_is_leap_year($year) ) ) ? 53 : 52; } sub week_year { ( $_[0]->week )[0] } sub week_number { ( $_[0]->week )[1] } # ISO says that the first week of a year is the first week containing # a Thursday. Extending that says that the first week of the month is # the first week containing a Thursday. ICU agrees. sub week_of_month { my $self = shift; my $thu = $self->day + 4 - $self->day_of_week; return int( ( $thu + 6 ) / 7 ); } sub time_zone { Carp::carp('time_zone() is a read-only accessor') if @_ > 1; return $_[0]->{tz}; } sub offset { $_[0]->{tz}->offset_for_datetime( $_[0] ) } sub _offset_for_local_datetime { $_[0]->{tz}->offset_for_local_datetime( $_[0] ); } sub is_dst { $_[0]->{tz}->is_dst_for_datetime( $_[0] ) } sub time_zone_long_name { $_[0]->{tz}->name } sub time_zone_short_name { $_[0]->{tz}->short_name_for_datetime( $_[0] ) } sub locale { Carp::carp('locale() is a read-only accessor') if @_ > 1; return $_[0]->{locale}; } *language = \&locale; sub utc_rd_values { @{ $_[0] }{ 'utc_rd_days', 'utc_rd_secs', 'rd_nanosecs' }; } sub local_rd_values { @{ $_[0] }{ 'local_rd_days', 'local_rd_secs', 'rd_nanosecs' }; } # NOTE: no nanoseconds, no leap seconds sub utc_rd_as_seconds { ( $_[0]->{utc_rd_days} * SECONDS_PER_DAY ) + $_[0]->{utc_rd_secs}; } # NOTE: no nanoseconds, no leap seconds sub local_rd_as_seconds { ( $_[0]->{local_rd_days} * SECONDS_PER_DAY ) + $_[0]->{local_rd_secs}; } # RD 1 is JD 1,721,424.5 - a simple offset sub jd { my $self = shift; my $jd = $self->{utc_rd_days} + 1_721_424.5; my $day_length = $self->_day_length( $self->{utc_rd_days} ); return ( $jd + ( $self->{utc_rd_secs} / $day_length ) + ( $self->{rd_nanosecs} / $day_length / MAX_NANOSECONDS ) ); } sub mjd { $_[0]->jd - 2_400_000.5 } { my %strftime_patterns = ( 'a' => sub { $_[0]->day_abbr }, 'A' => sub { $_[0]->day_name }, 'b' => sub { $_[0]->month_abbr }, 'B' => sub { $_[0]->month_name }, 'c' => sub { $_[0]->format_cldr( $_[0]->{locale}->datetime_format_default() ); }, 'C' => sub { int( $_[0]->year / 100 ) }, 'd' => sub { sprintf( '%02d', $_[0]->day_of_month ) }, 'D' => sub { $_[0]->strftime('%m/%d/%y') }, 'e' => sub { sprintf( '%2d', $_[0]->day_of_month ) }, 'F' => sub { $_[0]->ymd('-') }, 'g' => sub { substr( $_[0]->week_year, -2 ) }, 'G' => sub { $_[0]->week_year }, 'H' => sub { sprintf( '%02d', $_[0]->hour ) }, 'I' => sub { sprintf( '%02d', $_[0]->hour_12 ) }, 'j' => sub { sprintf( '%03d', $_[0]->day_of_year ) }, 'k' => sub { sprintf( '%2d', $_[0]->hour ) }, 'l' => sub { sprintf( '%2d', $_[0]->hour_12 ) }, 'm' => sub { sprintf( '%02d', $_[0]->month ) }, 'M' => sub { sprintf( '%02d', $_[0]->minute ) }, 'n' => sub { "\n" }, # should this be OS-sensitive? 'N' => \&_format_nanosecs, 'p' => sub { $_[0]->am_or_pm() }, 'P' => sub { lc $_[0]->am_or_pm() }, 'r' => sub { $_[0]->strftime('%I:%M:%S %p') }, 'R' => sub { $_[0]->strftime('%H:%M') }, 's' => sub { $_[0]->epoch }, 'S' => sub { sprintf( '%02d', $_[0]->second ) }, 't' => sub { "\t" }, 'T' => sub { $_[0]->strftime('%H:%M:%S') }, 'u' => sub { $_[0]->day_of_week }, 'U' => sub { my $sun = $_[0]->day_of_year - ( $_[0]->day_of_week + 7 ) % 7; return sprintf( '%02d', int( ( $sun + 6 ) / 7 ) ); }, 'V' => sub { sprintf( '%02d', $_[0]->week_number ) }, 'w' => sub { my $dow = $_[0]->day_of_week; return $dow % 7; }, 'W' => sub { my $mon = $_[0]->day_of_year - ( $_[0]->day_of_week + 6 ) % 7; return sprintf( '%02d', int( ( $mon + 6 ) / 7 ) ); }, 'x' => sub { $_[0]->format_cldr( $_[0]->{locale}->date_format_default() ); }, 'X' => sub { $_[0]->format_cldr( $_[0]->{locale}->time_format_default() ); }, 'y' => sub { sprintf( '%02d', substr( $_[0]->year, -2 ) ) }, 'Y' => sub { return $_[0]->year }, 'z' => sub { DateTime::TimeZone->offset_as_string( $_[0]->offset ) }, 'Z' => sub { $_[0]->{tz}->short_name_for_datetime( $_[0] ) }, '%' => sub { '%' }, ); $strftime_patterns{h} = $strftime_patterns{b}; sub strftime { my $self = shift; # make a copy or caller's scalars get munged my @patterns = @_; my @r; foreach my $p (@patterns) { $p =~ s/ (?: %\{(\w+)\} # method name like %{day_name} | %([%a-zA-Z]) # single character specifier like %d | %(\d+)N # special case for %N ) / ( $1 ? ( $self->can($1) ? $self->$1() : "\%{$1}" ) : $2 ? ( $strftime_patterns{$2} ? $strftime_patterns{$2}->($self) : "\%$2" ) : $3 ? $strftime_patterns{N}->($self, $3) : '' # this won't happen ) /sgex; return $p unless wantarray; push @r, $p; } return @r; } } { # It's an array because the order in which the regexes are checked # is important. These patterns are similar to the ones Java uses, # but not quite the same. See # http://www.unicode.org/reports/tr35/tr35-9.html#Date_Format_Patterns. my @patterns = ( qr/GGGGG/ => sub { $_[0]->{locale}->era_narrow->[ $_[0]->_era_index() ] }, qr/GGGG/ => 'era_name', qr/G{1,3}/ => 'era_abbr', qr/(y{3,5})/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->year() ) }, # yy is a weird special case, where it must be exactly 2 digits qr/yy/ => sub { my $year = $_[0]->year(); my $y2 = substr( $year, -2, 2 ) if length $year > 2; $y2 *= -1 if $year < 0; $_[0]->_zero_padded_number( 'yy', $y2 ); }, qr/y/ => sub { $_[0]->year() }, qr/(u+)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->year() ) }, qr/(Y+)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->week_year() ) }, qr/QQQQ/ => 'quarter_name', qr/QQQ/ => 'quarter_abbr', qr/(QQ?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->quarter() ) }, qr/qqqq/ => sub { $_[0]->{locale}->quarter_stand_alone_wide() ->[ $_[0]->quarter_0() ]; }, qr/qqq/ => sub { $_[0]->{locale}->quarter_stand_alone_abbreviated() ->[ $_[0]->quarter_0() ]; }, qr/(qq?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->quarter() ) }, qr/MMMMM/ => sub { $_[0]->{locale}->month_format_narrow->[ $_[0]->month_0() ] } , qr/MMMM/ => 'month_name', qr/MMM/ => 'month_abbr', qr/(MM?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->month() ) }, qr/LLLLL/ => sub { $_[0]->{locale}->month_stand_alone_narrow->[ $_[0]->month_0() ]; }, qr/LLLL/ => sub { $_[0]->{locale}->month_stand_alone_wide->[ $_[0]->month_0() ]; }, qr/LLL/ => sub { $_[0]->{locale} ->month_stand_alone_abbreviated->[ $_[0]->month_0() ]; }, qr/(LL?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->month() ) }, qr/(ww?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->week_number() ) }, qr/W/ => 'week_of_month', qr/(dd?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->day_of_month() ) }, qr/(D{1,3})/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->day_of_year() ) }, qr/F/ => 'weekday_of_month', qr/(g+)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->mjd() ) }, qr/EEEEE/ => sub { $_[0]->{locale}->day_format_narrow->[ $_[0]->day_of_week_0() ]; }, qr/EEEE/ => 'day_name', qr/E{1,3}/ => 'day_abbr', qr/eeeee/ => sub { $_[0]->{locale}->day_format_narrow->[ $_[0]->day_of_week_0() ]; }, qr/eeee/ => 'day_name', qr/eee/ => 'day_abbr', qr/(ee?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->local_day_of_week() ); }, qr/ccccc/ => sub { $_[0]->{locale} ->day_stand_alone_narrow->[ $_[0]->day_of_week_0() ]; }, qr/cccc/ => sub { $_[0]->{locale}->day_stand_alone_wide->[ $_[0]->day_of_week_0() ]; }, qr/ccc/ => sub { $_[0]->{locale} ->day_stand_alone_abbreviated->[ $_[0]->day_of_week_0() ]; }, qr/(cc?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->day_of_week() ) }, qr/a/ => 'am_or_pm', qr/(hh?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->hour_12() ) }, qr/(HH?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->hour() ) }, qr/(KK?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->hour_12_0() ) }, qr/(kk?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->hour_1() ) }, qr/(jj?)/ => sub { my $h = $_[0]->{locale}->prefers_24_hour_time() ? $_[0]->hour() : $_[0]->hour_12(); $_[0]->_zero_padded_number( $1, $h ); }, qr/(mm?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->minute() ) }, qr/(ss?)/ => sub { $_[0]->_zero_padded_number( $1, $_[0]->second() ) }, # I'm not sure this is what is wanted (notably the trailing # and leading zeros it can produce), but once again the LDML # spec is not all that clear. qr/(S+)/ => sub { my $l = length $1; my $val = sprintf( "%.${l}f", $_[0]->fractional_second() - $_[0]->second() ); $val =~ s/^0\.//; $val || 0; }, qr/A+/ => sub { ( $_[0]->{local_rd_secs} * 1000 ) + $_[0]->millisecond() }, qr/zzzz/ => sub { $_[0]->time_zone_long_name() }, qr/z{1,3}/ => sub { $_[0]->time_zone_short_name() }, qr/ZZZZZ/ => sub { substr( my $z = DateTime::TimeZone->offset_as_string( $_[0]->offset() ), -2, 0, ":" ); $z; }, qr/ZZZZ/ => sub { $_[0]->time_zone_short_name() . DateTime::TimeZone->offset_as_string( $_[0]->offset() ); }, qr/Z{1,3}/ => sub { DateTime::TimeZone->offset_as_string( $_[0]->offset() ) }, qr/vvvv/ => sub { $_[0]->time_zone_long_name() }, qr/v{1,3}/ => sub { $_[0]->time_zone_short_name() }, qr/VVVV/ => sub { $_[0]->time_zone_long_name() }, qr/V{1,3}/ => sub { $_[0]->time_zone_short_name() }, ); sub _zero_padded_number { my $self = shift; my $size = length shift; my $val = shift; return sprintf( "%0${size}d", $val ); } sub _space_padded_string { my $self = shift; my $size = length shift; my $val = shift; return sprintf( "% ${size}s", $val ); } sub format_cldr { my $self = shift; # make a copy or caller's scalars get munged my @patterns = @_; my @r; foreach my $p (@patterns) { $p =~ s/\G (?: '((?:[^']|'')*)' # quote escaped bit of text # it needs to end with one # quote not followed by # another | (([a-zA-Z])\3*) # could be a pattern | (.) # anything else ) / defined $1 ? $1 : defined $2 ? $self->_cldr_pattern($2) : defined $4 ? $4 : undef # should never get here /sgex; $p =~ s/\'\'/\'/g; return $p unless wantarray; push @r, $p; } return @r; } sub _cldr_pattern { my $self = shift; my $pattern = shift; for ( my $i = 0 ; $i < @patterns ; $i += 2 ) { if ( $pattern =~ /$patterns[$i]/ ) { my $sub = $patterns[ $i + 1 ]; return $self->$sub(); } } return $pattern; } } sub _format_nanosecs { my $self = shift; my $precision = @_ ? shift : 9; my $divide_by = 10**( 9 - $precision ); return sprintf( '%0' . $precision . 'u', floor( $self->{rd_nanosecs} / $divide_by ) ); } sub epoch { my $self = shift; return $self->{utc_c}{epoch} if exists $self->{utc_c}{epoch}; return $self->{utc_c}{epoch} = ( $self->{utc_rd_days} - 719163 ) * SECONDS_PER_DAY + $self->{utc_rd_secs}; } sub hires_epoch { my $self = shift; my $epoch = $self->epoch; return undef unless defined $epoch; my $nano = $self->{rd_nanosecs} / MAX_NANOSECONDS; return $epoch + $nano; } sub is_finite { 1 } sub is_infinite { 0 } # added for benefit of DateTime::TimeZone sub utc_year { $_[0]->{utc_year} } # returns a result that is relative to the first datetime sub subtract_datetime { my $dt1 = shift; my $dt2 = shift; $dt2 = $dt2->clone->set_time_zone( $dt1->time_zone ) unless $dt1->time_zone eq $dt2->time_zone; # We only want a negative duration if $dt2 > $dt1 ($self) my ( $bigger, $smaller, $negative ) = ( $dt1 >= $dt2 ? ( $dt1, $dt2, 0 ) : ( $dt2, $dt1, 1 ) ); my $is_floating = $dt1->time_zone->is_floating && $dt2->time_zone->is_floating; my $minute_length = 60; unless ($is_floating) { my ( $utc_rd_days, $utc_rd_secs ) = $smaller->utc_rd_values; if ( $utc_rd_secs >= 86340 && !$is_floating ) { # If the smaller of the two datetimes occurs in the last # UTC minute of the UTC day, then that minute may not be # 60 seconds long. If we need to subtract a minute from # the larger datetime's minutes count in order to adjust # the seconds difference to be positive, we need to know # how long that minute was. If one of the datetimes is # floating, we just assume a minute is 60 seconds. $minute_length = $dt1->_day_length($utc_rd_days) - 86340; } } # This is a gross hack that basically figures out if the bigger of # the two datetimes is the day of a DST change. If it's a 23 hour # day (switching _to_ DST) then we subtract 60 minutes from the # local time. If it's a 25 hour day then we add 60 minutes to the # local time. # # This produces the most "intuitive" results, though there are # still reversibility problems with the resultant duration. # # However, if the two objects are on the same (local) date, and we # are not crossing a DST change, we don't want to invoke the hack # - see 38local-subtract.t my $bigger_min = $bigger->hour * 60 + $bigger->minute; if ( $bigger->time_zone->has_dst_changes && $bigger->is_dst != $smaller->is_dst ) { $bigger_min -= 60 # it's a 23 hour (local) day if ( $bigger->is_dst && do { local $@; my $prev_day = eval { $bigger->clone->subtract( days => 1 ) }; $prev_day && !$prev_day->is_dst ? 1 : 0; } ); $bigger_min += 60 # it's a 25 hour (local) day if ( !$bigger->is_dst && do { local $@; my $prev_day = eval { $bigger->clone->subtract( days => 1 ) }; $prev_day && $prev_day->is_dst ? 1 : 0; } ); } my ( $months, $days, $minutes, $seconds, $nanoseconds ) = $dt1->_adjust_for_positive_difference( $bigger->year * 12 + $bigger->month, $smaller->year * 12 + $smaller->month, $bigger->day, $smaller->day, $bigger_min, $smaller->hour * 60 + $smaller->minute, $bigger->second, $smaller->second, $bigger->nanosecond, $smaller->nanosecond, $minute_length, # XXX - using the smaller as the month length is # somewhat arbitrary, we could also use the bigger - # either way we have reversibility problems $dt1->_month_length( $smaller->year, $smaller->month ), ); if ($negative) { for ( $months, $days, $minutes, $seconds, $nanoseconds ) { # Some versions of Perl can end up with -0 if we do "0 * -1"!! $_ *= -1 if $_; } } return $dt1->duration_class->new( months => $months, days => $days, minutes => $minutes, seconds => $seconds, nanoseconds => $nanoseconds, ); } sub _adjust_for_positive_difference { my ( $self, $month1, $month2, $day1, $day2, $min1, $min2, $sec1, $sec2, $nano1, $nano2, $minute_length, $month_length, ) = @_; if ( $nano1 < $nano2 ) { $sec1--; $nano1 += MAX_NANOSECONDS; } if ( $sec1 < $sec2 ) { $min1--; $sec1 += $minute_length; } # A day always has 24 * 60 minutes, though the minutes may vary in # length. if ( $min1 < $min2 ) { $day1--; $min1 += 24 * 60; } if ( $day1 < $day2 ) { $month1--; $day1 += $month_length; } return ( $month1 - $month2, $day1 - $day2, $min1 - $min2, $sec1 - $sec2, $nano1 - $nano2, ); } sub subtract_datetime_absolute { my $self = shift; my $dt = shift; my $utc_rd_secs1 = $self->utc_rd_as_seconds; $utc_rd_secs1 += DateTime->_accumulated_leap_seconds( $self->{utc_rd_days} ) if !$self->time_zone->is_floating; my $utc_rd_secs2 = $dt->utc_rd_as_seconds; $utc_rd_secs2 += DateTime->_accumulated_leap_seconds( $dt->{utc_rd_days} ) if !$dt->time_zone->is_floating; my $seconds = $utc_rd_secs1 - $utc_rd_secs2; my $nanoseconds = $self->nanosecond - $dt->nanosecond; if ( $nanoseconds < 0 ) { $seconds--; $nanoseconds += MAX_NANOSECONDS; } return $self->duration_class->new( seconds => $seconds, nanoseconds => $nanoseconds, ); } sub delta_md { my $self = shift; my $dt = shift; my ( $smaller, $bigger ) = sort $self, $dt; my ( $months, $days, undef, undef, undef ) = $dt->_adjust_for_positive_difference( $bigger->year * 12 + $bigger->month, $smaller->year * 12 + $smaller->month, $bigger->day, $smaller->day, 0, 0, 0, 0, 0, 0, 60, $smaller->_month_length( $smaller->year, $smaller->month ), ); return $self->duration_class->new( months => $months, days => $days ); } sub delta_days { my $self = shift; my $dt = shift; my $days = abs( ( $self->local_rd_values )[0] - ( $dt->local_rd_values )[0] ); $self->duration_class->new( days => $days ); } sub delta_ms { my $self = shift; my $dt = shift; my ( $smaller, $greater ) = sort $self, $dt; my $days = int( $greater->jd - $smaller->jd ); my $dur = $greater->subtract_datetime($smaller); my %p; $p{hours} = $dur->hours + ( $days * 24 ); $p{minutes} = $dur->minutes; $p{seconds} = $dur->seconds; return $self->duration_class->new(%p); } sub _add_overload { my ( $dt, $dur, $reversed ) = @_; if ($reversed) { ( $dur, $dt ) = ( $dt, $dur ); } unless ( DateTime::Helpers::isa( $dur, 'DateTime::Duration' ) ) { my $class = ref $dt; my $dt_string = overload::StrVal($dt); Carp::croak( "Cannot add $dur to a $class object ($dt_string).\n" . " Only a DateTime::Duration object can " . " be added to a $class object." ); } return $dt->clone->add_duration($dur); } sub _subtract_overload { my ( $date1, $date2, $reversed ) = @_; if ($reversed) { ( $date2, $date1 ) = ( $date1, $date2 ); } if ( DateTime::Helpers::isa( $date2, 'DateTime::Duration' ) ) { my $new = $date1->clone; $new->add_duration( $date2->inverse ); return $new; } elsif ( DateTime::Helpers::isa( $date2, 'DateTime' ) ) { return $date1->subtract_datetime($date2); } else { my $class = ref $date1; my $dt_string = overload::StrVal($date1); Carp::croak( "Cannot subtract $date2 from a $class object ($dt_string).\n" . " Only a DateTime::Duration or DateTime object can " . " be subtracted from a $class object." ); } } sub add { my $self = shift; return $self->add_duration( $self->duration_class->new(@_) ); } sub subtract { my $self = shift; my %p = @_; my %eom; $eom{end_of_month} = delete $p{end_of_month} if exists $p{end_of_month}; my $dur = $self->duration_class->new(@_)->inverse(%eom); return $self->add_duration($dur); } sub subtract_duration { return $_[0]->add_duration( $_[1]->inverse ) } { my @spec = ( { isa => 'DateTime::Duration' } ); sub add_duration { my $self = shift; my ($dur) = validate_pos( @_, @spec ); # simple optimization return $self if $dur->is_zero; my %deltas = $dur->deltas; # This bit isn't quite right since DateTime::Infinite::Future - # infinite duration should NaN foreach my $val ( values %deltas ) { my $inf; if ( $val == INFINITY ) { $inf = DateTime::Infinite::Future->new; } elsif ( $val == NEG_INFINITY ) { $inf = DateTime::Infinite::Past->new; } if ($inf) { %$self = %$inf; bless $self, ref $inf; return $self; } } return $self if $self->is_infinite; if ( $deltas{days} ) { $self->{local_rd_days} += $deltas{days}; $self->{utc_year} += int( $deltas{days} / 365 ) + 1; } if ( $deltas{months} ) { # For preserve mode, if it is the last day of the month, make # it the 0th day of the following month (which then will # normalize back to the last day of the new month). my ( $y, $m, $d ) = ( $dur->is_preserve_mode ? $self->_rd2ymd( $self->{local_rd_days} + 1 ) : $self->_rd2ymd( $self->{local_rd_days} ) ); $d -= 1 if $dur->is_preserve_mode; if ( !$dur->is_wrap_mode && $d > 28 ) { # find the rd for the last day of our target month $self->{local_rd_days} = $self->_ymd2rd( $y, $m + $deltas{months} + 1, 0 ); # what day of the month is it? (discard year and month) my $last_day = ( $self->_rd2ymd( $self->{local_rd_days} ) )[2]; # if our original day was less than the last day, # use that instead $self->{local_rd_days} -= $last_day - $d if $last_day > $d; } else { $self->{local_rd_days} = $self->_ymd2rd( $y, $m + $deltas{months}, $d ); } $self->{utc_year} += int( $deltas{months} / 12 ) + 1; } if ( $deltas{days} || $deltas{months} ) { $self->_calc_utc_rd; $self->_handle_offset_modifier( $self->second ); } if ( $deltas{minutes} ) { $self->{utc_rd_secs} += $deltas{minutes} * 60; # This intentionally ignores leap seconds $self->_normalize_tai_seconds( $self->{utc_rd_days}, $self->{utc_rd_secs} ); } if ( $deltas{seconds} || $deltas{nanoseconds} ) { $self->{utc_rd_secs} += $deltas{seconds}; if ( $deltas{nanoseconds} ) { $self->{rd_nanosecs} += $deltas{nanoseconds}; $self->_normalize_nanoseconds( $self->{utc_rd_secs}, $self->{rd_nanosecs} ); } $self->_normalize_seconds; # This might be some big number much bigger than 60, but # that's ok (there are tests in 19leap_second.t to confirm # that) $self->_handle_offset_modifier( $self->second + $deltas{seconds} ); } my $new = ( ref $self )->from_object( object => $self, locale => $self->{locale}, ( $self->{formatter} ? ( formatter => $self->{formatter} ) : () ), ); %$self = %$new; return $self; } } sub _compare_overload { # note: $_[1]->compare( $_[0] ) is an error when $_[1] is not a # DateTime (such as the INFINITY value) return $_[2] ? -$_[0]->compare( $_[1] ) : $_[0]->compare( $_[1] ); } sub _string_compare_overload { my ( $dt1, $dt2, $flip ) = @_; # One is a DateTime object, one isn't. Just stringify and compare. if ( !DateTime::Helpers::can( $dt2, 'utc_rd_values' ) ) { my $sign = $flip ? -1 : 1; return $sign * ( "$dt1" cmp "$dt2" ); } else { my $meth = $dt1->can('_compare_overload'); goto $meth; } } sub compare { shift->_compare( @_, 0 ); } sub compare_ignore_floating { shift->_compare( @_, 1 ); } sub _compare { my ( $class, $dt1, $dt2, $consistent ) = ref $_[0] ? ( undef, @_ ) : @_; return undef unless defined $dt2; if ( !ref $dt2 && ( $dt2 == INFINITY || $dt2 == NEG_INFINITY ) ) { return $dt1->{utc_rd_days} <=> $dt2; } unless ( DateTime::Helpers::can( $dt1, 'utc_rd_values' ) && DateTime::Helpers::can( $dt2, 'utc_rd_values' ) ) { my $dt1_string = overload::StrVal($dt1); my $dt2_string = overload::StrVal($dt2); Carp::croak( "A DateTime object can only be compared to" . " another DateTime object ($dt1_string, $dt2_string)." ); } if ( !$consistent && DateTime::Helpers::can( $dt1, 'time_zone' ) && DateTime::Helpers::can( $dt2, 'time_zone' ) ) { my $is_floating1 = $dt1->time_zone->is_floating; my $is_floating2 = $dt2->time_zone->is_floating; if ( $is_floating1 && !$is_floating2 ) { $dt1 = $dt1->clone->set_time_zone( $dt2->time_zone ); } elsif ( $is_floating2 && !$is_floating1 ) { $dt2 = $dt2->clone->set_time_zone( $dt1->time_zone ); } } my @dt1_components = $dt1->utc_rd_values; my @dt2_components = $dt2->utc_rd_values; foreach my $i ( 0 .. 2 ) { return $dt1_components[$i] <=> $dt2_components[$i] if $dt1_components[$i] != $dt2_components[$i]; } return 0; } sub _string_equals_overload { my ( $class, $dt1, $dt2 ) = ref $_[0] ? ( undef, @_ ) : @_; if ( !DateTime::Helpers::can( $dt2, 'utc_rd_values' ) ) { return "$dt1" eq "$dt2"; } $class ||= ref $dt1; return !$class->compare( $dt1, $dt2 ); } sub _string_not_equals_overload { return !_string_equals_overload(@_); } sub _normalize_nanoseconds { use integer; # seconds, nanoseconds if ( $_[2] < 0 ) { my $overflow = 1 + $_[2] / MAX_NANOSECONDS; $_[2] += $overflow * MAX_NANOSECONDS; $_[1] -= $overflow; } elsif ( $_[2] >= MAX_NANOSECONDS ) { my $overflow = $_[2] / MAX_NANOSECONDS; $_[2] -= $overflow * MAX_NANOSECONDS; $_[1] += $overflow; } } # Many of the same parameters as new() but all of them are optional, # and there are no defaults. my $SetValidate = { map { my %copy = %{ $BasicValidate->{$_} }; delete $copy{default}; $copy{optional} = 1; $_ => \%copy } keys %$BasicValidate }; sub set { my $self = shift; my %p = validate( @_, $SetValidate ); my $new_dt = $self->_new_from_self(%p); %$self = %$new_dt; return $self; } sub set_year { $_[0]->set( year => $_[1] ) } sub set_month { $_[0]->set( month => $_[1] ) } sub set_day { $_[0]->set( day => $_[1] ) } sub set_hour { $_[0]->set( hour => $_[1] ) } sub set_minute { $_[0]->set( minute => $_[1] ) } sub set_second { $_[0]->set( second => $_[1] ) } sub set_nanosecond { $_[0]->set( nanosecond => $_[1] ) } # These two are special cased because ... if the local time is the hour of a # DST change where the same local time occurs twice then passing it through # _new() can actually change the underlying UTC time, which is bad. sub set_locale { my $self = shift; my ($locale) = validate_pos( @_, $BasicValidate->{locale} ); $self->_set_locale($locale); return $self; } sub set_formatter { my $self = shift; my ($formatter) = validate_pos( @_, $BasicValidate->{formatter} ); $self->{formatter} = $formatter; return $self; } { my %TruncateDefault = ( month => 1, day => 1, hour => 0, minute => 0, second => 0, nanosecond => 0, ); my $re = join '|', 'year', 'week', 'local_week', grep { $_ ne 'nanosecond' } keys %TruncateDefault; my $spec = { to => { regex => qr/^(?:$re)$/ } }; sub truncate { my $self = shift; my %p = validate( @_, $spec ); my %new; if ( $p{to} eq 'week' || $p{to} eq 'local_week' ) { my $first_day_of_week = ( $p{to} eq 'local_week' ) ? $self->{locale}->first_day_of_week : 1; my $day_diff = ( $self->day_of_week - $first_day_of_week ) % 7; if ($day_diff) { $self->add( days => -1 * $day_diff ); } return $self->truncate( to => 'day' ); } else { my $truncate; foreach my $f (qw( year month day hour minute second nanosecond )) { $new{$f} = $truncate ? $TruncateDefault{$f} : $self->$f(); $truncate = 1 if $p{to} eq $f; } } my $new_dt = $self->_new_from_self( %new, _skip_validation => 1 ); %$self = %$new_dt; return $self; } } sub set_time_zone { my ( $self, $tz ) = @_; if ( ref $tz ) { # This is a bit of a hack but it works because time zone objects # are singletons, and if it doesn't work all we lose is a little # bit of speed. return $self if $self->{tz} eq $tz; } else { return $self if $self->{tz}->name() eq $tz; } my $was_floating = $self->{tz}->is_floating; my $old_tz = $self->{tz}; $self->{tz} = ref $tz ? $tz : DateTime::TimeZone->new( name => $tz ); $self->_handle_offset_modifier( $self->second, 1 ); my $e; try { # if it either was or now is floating (but not both) if ( $self->{tz}->is_floating xor $was_floating ) { $self->_calc_utc_rd; } elsif ( !$was_floating ) { $self->_calc_local_rd; } } catch { $e = $_; }; # If we can't recalc the RD values then we shouldn't keep the new TZ. RT # #83940 if ($e) { $self->{tz} = $old_tz; die $e; } return $self; } sub STORABLE_freeze { my $self = shift; my $cloning = shift; my $serialized = ''; foreach my $key ( qw( utc_rd_days utc_rd_secs rd_nanosecs ) ) { $serialized .= "$key:$self->{$key}|"; } # not used yet, but may be handy in the future. $serialized .= 'version:' . ( $DateTime::VERSION || 'git' ); # Formatter needs to be returned as a reference since it may be # undef or a class name, and Storable will complain if extra # return values aren't refs return $serialized, $self->{locale}, $self->{tz}, \$self->{formatter}; } sub STORABLE_thaw { my $self = shift; my $cloning = shift; my $serialized = shift; my %serialized = map { split /:/ } split /\|/, $serialized; my ( $locale, $tz, $formatter ); # more recent code version if (@_) { ( $locale, $tz, $formatter ) = @_; } else { $tz = DateTime::TimeZone->new( name => delete $serialized{tz} ); $locale = DateTime::Locale->load( exists $serialized{language} ? delete $serialized{language} : delete $serialized{locale} ); } delete $serialized{version}; my $object = bless { utc_vals => [ $serialized{utc_rd_days}, $serialized{utc_rd_secs}, $serialized{rd_nanosecs}, ], tz => $tz, }, 'DateTime::_Thawed'; my %formatter = defined $$formatter ? ( formatter => $$formatter ) : (); my $new = ( ref $self )->from_object( object => $object, locale => $locale, %formatter, ); %$self = %$new; return $self; } package # hide from PAUSE DateTime::_Thawed; sub utc_rd_values { @{ $_[0]->{utc_vals} } } sub time_zone { $_[0]->{tz} } 1; # ABSTRACT: A date and time object __END__ =pod =head1 NAME DateTime - A date and time object =head1 VERSION version 1.06 =head1 SYNOPSIS use DateTime; $dt = DateTime->new( year => 1964, month => 10, day => 16, hour => 16, minute => 12, second => 47, nanosecond => 500000000, time_zone => 'Asia/Taipei', ); $dt = DateTime->from_epoch( epoch => $epoch ); $dt = DateTime->now; # same as ( epoch => time() ) $year = $dt->year; $month = $dt->month; # 1-12 $day = $dt->day; # 1-31 $dow = $dt->day_of_week; # 1-7 (Monday is 1) $hour = $dt->hour; # 0-23 $minute = $dt->minute; # 0-59 $second = $dt->second; # 0-61 (leap seconds!) $doy = $dt->day_of_year; # 1-366 (leap years) $doq = $dt->day_of_quarter; # 1.. $qtr = $dt->quarter; # 1-4 # all of the start-at-1 methods above have corresponding start-at-0 # methods, such as $dt->day_of_month_0, $dt->month_0 and so on $ymd = $dt->ymd; # 2002-12-06 $ymd = $dt->ymd('/'); # 2002/12/06 $mdy = $dt->mdy; # 12-06-2002 $mdy = $dt->mdy('/'); # 12/06/2002 $dmy = $dt->dmy; # 06-12-2002 $dmy = $dt->dmy('/'); # 06/12/2002 $hms = $dt->hms; # 14:02:29 $hms = $dt->hms('!'); # 14!02!29 $is_leap = $dt->is_leap_year; # these are localizable, see Locales section $month_name = $dt->month_name; # January, February, ... $month_abbr = $dt->month_abbr; # Jan, Feb, ... $day_name = $dt->day_name; # Monday, Tuesday, ... $day_abbr = $dt->day_abbr; # Mon, Tue, ... # May not work for all possible datetime, see the docs on this # method for more details. $epoch_time = $dt->epoch; $dt2 = $dt + $duration_object; $dt3 = $dt - $duration_object; $duration_object = $dt - $dt2; $dt->set( year => 1882 ); $dt->set_time_zone( 'America/Chicago' ); $dt->set_formatter( $formatter ); =head1 DESCRIPTION DateTime is a class for the representation of date/time combinations, and is part of the Perl DateTime project. For details on this project please see L. The DateTime site has a FAQ which may help answer many "how do I do X?" questions. The FAQ is at L. It represents the Gregorian calendar, extended backwards in time before its creation (in 1582). This is sometimes known as the "proleptic Gregorian calendar". In this calendar, the first day of the calendar (the epoch), is the first day of year 1, which corresponds to the date which was (incorrectly) believed to be the birth of Jesus Christ. The calendar represented does have a year 0, and in that way differs from how dates are often written using "BCE/CE" or "BC/AD". For infinite datetimes, please see the L module. =head1 USAGE =head2 0-based Versus 1-based Numbers The DateTime.pm module follows a simple consistent logic for determining whether or not a given number is 0-based or 1-based. Month, day of month, day of week, and day of year are 1-based. Any method that is 1-based also has an equivalent 0-based method ending in "_0". So for example, this class provides both C and C methods. The C method still treats Monday as the first day of the week. All I