Time-ParseDate-2015.103/0000755000175000017500000000000012615001713013217 5ustar muirmuirTime-ParseDate-2015.103/Changes0000644000175000017500000001716412615001475014530 0ustar muirmuirRevision history for Perl module Time::ParseDate 2015.1030 2015-10-30 - Not requirement for Time::Piece for tests. 2015.0925 2015-09-25 - https://rt.cpan.org/Ticket/Display.html?id=96453 fix epoch second 0 with timezone. 2015.0925 2015-09-25 - apply patch from bug https://rt.cpan.org/Ticket/Display.html?id=90367 use Time::Piece in place of POSIX tzset for better compatibility with Windows. 2015.0925 2015-09-25 - apply patch from bug https://rt.cpan.org/Ticket/Display.html?id=96031 manpage typo patch 2013.1113 2013-11-13 - fix bug https://rt.cpan.org/Ticket/Display.html?id=90343 "Month day, year" wasn't parsing correctly. 2013.0920 2013-09-20 - Skip tests when tzset isn't available - Type-o fixes 2013.0917 2013-09-17 - Replaced CHANGELOG with Changes file. 2013.0916 2013-09-16 - Module NAME changed to Time::ParseDate. Change requested by David Steinbrunner. 2013.0913 2013-09-13 - Changed date terminator to accept many more characters (not just whitespace. Fixing: https://rt.cpan.org/Ticket/Display.html?id=87828 - Added "Sept" as an abbr for September. Fixing: https://rt.cpan.org/Ticket/Display.html?id=87451 - Parse subsecond strings longer than six digits. Can only return about four digits though. https://rt.cpan.org/Ticket/Display.html?id=79740 2013.0912 2013-09-12 - Pulled fix from Adam Schobelock that removes timezone offset caching because it was creating incorrect behavor or Moscow. 2011.0517 2011-05-17 - Bugfix from Sophie Hamilton: call tzset() when changing timezones. - Bugfix: bail out of tests cleanly when tzset doesn't work. 2011.0505 2011-05-05 - Bugfix: make sure $ampm is defined so no undefined string warnings are issued. - Honor the GMT flag when parsing time specs. Patch from kris at shannon.id.au. - Bugfix: RT#31477 noon & midnight would match in the middle of strings. - Added %v conversion for Time::CTime - Added tests to disprove invalid bug reports. 2006.0814 2006-08-14 - A bugfix for negative offsets that overflowed (from Vernon Lyon ) - Add a few more timezones (from Peter Ludemann and Alex Bowley ) - Recognize fractional times counts like "1.5 minutes ago" (from Simon Wistow ) - Recognize Dow "before last" (from Ole Craig ) - Change various __DATA__ to __END__ (from Nick Ing-Simmons ) 2003.1125 2003-11-25 - Various folks have complained that JulianDay isn't correct. An errata section has been added to the documentation. - Mark Ivey add '@' as a synonym for 'at'. Fixed typos. - Bryan Henderson sent in a patch to allow NOW => 0 so that ParseDate can be used to parse relative times. - ewan@baremetal.com sent in a patch adding a bit of ISO 8601 support. - David Alban doesn't like allowing the hour 24:00. I agree. Gone if you have VALIDATE=>1. - Still to be done: the support the large number of ISO 8601 date formats: http://hydracen.com/dx/iso8601.htm 2003.0211 2003-02-11 - Mike Cramer sent a patch to Timezone to handle changes in $ENV{TZ}. - Rani Pinchuk sent in a definition for the CEST timezone. - On Phil.Moore@msdw.com's behalf the timezone 'MET DST' is now supported. 2002.1001 2002-10-01 - No real changes, just added a license. 101.062001 2001-06-20 - Paul Zimmer found that '7/17/01' with PREFER_FUTURE failed badly. Fixed. This was also submitted by Dana Burd . - Ben Daglish noted that array context was implying WHOLE and DATE_REQUIRED. Fixed. - Streppone Cosimo requested support for postgresql's date format ("dd/mm/yyyy hh:mn:ss +tzo") - Ameeth Linus Daniel found that IST wasn't a defined timezone. I've defined it as +0530, but I'm not positive that's correct. - Gautam Tripathi sent in a fix for timezone offset calculations making them consistent across all systems (no more problems with differing interpretations of negative modulus operations). - Mike Nerone requested the syntax "4 days ago". He says that that syntax is suppored by GNU date. This was also requested by Townsend, John E. . - Anton Berezin notice that ParseDate couldn't handle "Sunday, 06-Nov-94 08:49:37 GMT" and sent in a patch. 100.010301 2000-01-03 - W. Phillip Moore reproted a Y2K bug: it could not parse 'Jan 1 2000 10:30:30AM'. Fixed. This is embarassing beasue sent in a patch Dec 9th! 99.111701 1999-11-17 - Allen Smith noticed that VALIDATE wouldn't accept hours > 0... - Hugh C Kennedy contributed patches to parse months like `Jan.' in additon to `Jan' and `January'. 99.062401 1999-06-24: - Randy Kobes sent in a fix for Timezone.pm that allows all tests to pass on MSWin32. 99.062301: - Eric Prestemon noticed that %y would print "0" in 2000, not "00" as it should. Fixed. - Parsedate() now checks for wantarray() and returns what remains of its input when called from array context. - Added another parsing option: VALIDATE. When VALIDATE is set, silly values for hours, months, etc will be rejected. Like the 32nd of December will no longer be new years day. 99.062201 1999-06-22 - Optionally return fractional seconds from ParseDate (including the SYBASE formatted ones). Provide for printing fractional seconds in CTime. Changes from Douglas Wegscheid 99.061601 1999-06-16 - More attempts to support systems whose time function isn't centered around Jan 1, 1970 midnight GMT. 99.061501 1999-05-15 - Fixed a couple of compiler warnings. Did extensive testing with dates beyond 2000 and before 1970. Quite a few code changes. Old code would have worked in many > 2000 cases but broke terribly for dates < 1970. New code should work until year 10k. Well, there's one problem: unix time format is only 32 bits, signed. 98.112901 1998-11-29 - Slight change to avoid an "Use of uninitialized value" error pointed out by Mike Coffin . 98.112801 1998-11-12 - It turns out that Sybase emits time values like "3:09:59:000PM". The last three digits are milliseconds. Such times are now recognized but the milliseconds are ignored. Change requested by ryanmcleish . - Corrected the documenation on strftime conversions for %d and %e. The code and the documentation now agree: %d - 01 to 31 %e - 1 to 31 98.052201 1998-05-22 - Minor bugfix: didn't recognize 5/18/1998. 97.092101 1997-09-21 - Fix a 5.004 warning. - Add support for "June 4, 1997" 96.110801 1996-11-08 - Added support for negative relative times. - Bugfix: "now" by itself was ignored. - Bugfix: could not combine "now" with time offsets (only date offsets) 96.032801 1996-03-28 - Added support for "TZN 96.032702 1996-03-27 - This is the first release to use the Makefile.PL packaging. There are many changes with repect to previous releases. All modules now running with -w and use strict. - CTime.pm: should be faster - ParseDate.pm: core logic changed, more dates parsed. - datetime.t: more tests - Timezone.pm: ripped out tzset code and replaced it with code from Graham Barr Time-ParseDate-2015.103/README0000644000175000017500000000113406627747026014122 0ustar muirmuir This package contains the following perl5 modules: Time::CTime.pm ctime, strftime, and asctime Time::JulianDay.pm Julian Day conversions Time::ParseDate.pm Reverses strftime and also understands relative times Time::Timezone.pm Time::DaysInMonth.pm To install these modules, cd to the directory that this README file is in and type the following: perl Makefile.PL make make test make install Documentation for these modules is part of the files themselves using the pod (Plain Old Documentation) format. This documentation will be installed as part of the installation process. Time-ParseDate-2015.103/META.yml0000644000175000017500000000104512615001713014470 0ustar muirmuir--- abstract: 'Parse and format time values' author: - 'David Muir Sharnoff ' build_requires: Time::Piece: 0 configure_requires: ExtUtils::MakeMaker: 0 dynamic_config: 1 generated_by: 'ExtUtils::MakeMaker version 6.62, CPAN::Meta::Converter version 2.112150' license: unknown meta-spec: url: http://module-build.sourceforge.net/META-spec-v1.4.html version: 1.4 name: Time-ParseDate no_index: directory: - t - inc requires: {} resources: repository: http://github.com/muir/Time-modules version: 2015.103 Time-ParseDate-2015.103/lib/0000755000175000017500000000000012615001713013765 5ustar muirmuirTime-ParseDate-2015.103/lib/Time/0000755000175000017500000000000012615001713014663 5ustar muirmuirTime-ParseDate-2015.103/lib/Time/Timezone.pm0000644000175000017500000002264412615000530017017 0ustar muirmuirpackage Time::Timezone; require 5.002; require Exporter; @ISA = qw(Exporter); @EXPORT = qw(tz2zone tz_local_offset tz_offset tz_name); @EXPORT_OK = qw(); use Carp; use strict; # Parts stolen from code by Paul Foley use vars qw($VERSION); $VERSION = 2015.0925; sub tz2zone { my($TZ, $time, $isdst) = @_; use vars qw(%tzn_cache); $TZ = defined($ENV{'TZ'}) ? ( $ENV{'TZ'} ? $ENV{'TZ'} : 'GMT' ) : '' unless $TZ; # Hack to deal with 'PST8PDT' format of TZ # Note that this can't deal with all the esoteric forms, but it # does recognize the most common: [:]STDoff[DST[off][,rule]] if (! defined $isdst) { my $j; $time = time() unless defined $time; ($j, $j, $j, $j, $j, $j, $j, $j, $isdst) = localtime($time); } if (defined $tzn_cache{$TZ}->[$isdst]) { return $tzn_cache{$TZ}->[$isdst]; } if ($TZ =~ /^ ( [^:\d+\-,] {3,} ) ( [+-] ? \d {1,2} ( : \d {1,2} ) {0,2} ) ( [^\d+\-,] {3,} )? /x ) { $TZ = $isdst ? $4 : $1; $tzn_cache{$TZ} = [ $1, $4 ]; } else { $tzn_cache{$TZ} = [ $TZ, $TZ ]; } return $TZ; } sub tz_local_offset { my ($time) = @_; $time = time() unless defined $time; return &calc_off($time); } sub calc_off { my ($time) = @_; my (@l) = localtime($time); my (@g) = gmtime($time); my $off; $off = $l[0] - $g[0] + ($l[1] - $g[1]) * 60 + ($l[2] - $g[2]) * 3600; # subscript 7 is yday. if ($l[7] == $g[7]) { # done } elsif ($l[7] == $g[7] + 1) { $off += 86400; } elsif ($l[7] == $g[7] - 1) { $off -= 86400; } elsif ($l[7] < $g[7]) { # crossed over a year boundary! # localtime is beginning of year, gmt is end # therefore local is ahead $off += 86400; } else { $off -= 86400; } return $off; } # constants # The rest of the file originally comes from Graham Barr # # Some references: # http://www.weltzeituhr.com/laender/zeitzonen_e.shtml # http://www.worldtimezone.com/wtz-names/timezonenames.html # http://www.timegenie.com/timezones.php CONFIG: { use vars qw(%dstZone %zoneOff %dstZoneOff %Zone); %dstZone = ( "brst" => -2*3600, # Brazil Summer Time (East Daylight) "adt" => -3*3600, # Atlantic Daylight "edt" => -4*3600, # Eastern Daylight "cdt" => -5*3600, # Central Daylight "mdt" => -6*3600, # Mountain Daylight "pdt" => -7*3600, # Pacific Daylight "ydt" => -8*3600, # Yukon Daylight "hdt" => -9*3600, # Hawaii Daylight "bst" => +1*3600, # British Summer "mest" => +2*3600, # Middle European Summer "met dst" => +2*3600, # Middle European Summer "sst" => +2*3600, # Swedish Summer "fst" => +2*3600, # French Summer "eest" => +3*3600, # Eastern European Summer "cest" => +2*3600, # Central European Daylight "wadt" => +8*3600, # West Australian Daylight "kdt" => +10*3600, # Korean Daylight # "cadt" => +10*3600+1800, # Central Australian Daylight "eadt" => +11*3600, # Eastern Australian Daylight "nzdt" => +13*3600, # New Zealand Daylight ); # not included due to ambiguity: # IST Indian Standard Time +5.5 # Ireland Standard Time 0 # Israel Standard Time +2 # IDT Ireland Daylight Time +1 # Israel Daylight Time +3 # AMST Amazon Standard Time / -3 # Armenia Standard Time +8 # BST Brazil Standard -3 %Zone = ( "gmt" => 0, # Greenwich Mean "ut" => 0, # Universal (Coordinated) "utc" => 0, "wet" => 0, # Western European "wat" => -1*3600, # West Africa "azost" => -1*3600, # Azores Standard Time "cvt" => -1*3600, # Cape Verde Time "at" => -2*3600, # Azores "fnt" => -2*3600, # Brazil Time (Extreme East - Fernando Noronha) "ndt" => -2*3600-1800,# Newfoundland Daylight "art" => -3*3600, # Argentina Time # For completeness. BST is also British Summer, and GST is also Guam Standard. # "gst" => -3*3600, # Greenland Standard "nft" => -3*3600-1800,# Newfoundland # "nst" => -3*3600-1800,# Newfoundland Standard "mnt" => -4*3600, # Brazil Time (West Standard - Manaus) "ewt" => -4*3600, # U.S. Eastern War Time "ast" => -4*3600, # Atlantic Standard "bot" => -4*3600, # Bolivia Time "vet" => -4*3600, # Venezuela Time "est" => -5*3600, # Eastern Standard "cot" => -5*3600, # Colombia Time "act" => -5*3600, # Brazil Time (Extreme West - Acre) "pet" => -5*3600, # Peru Time "cst" => -6*3600, # Central Standard "cest" => +2*3600, # Central European Summer "mst" => -7*3600, # Mountain Standard "pst" => -8*3600, # Pacific Standard "yst" => -9*3600, # Yukon Standard "hst" => -10*3600, # Hawaii Standard "cat" => -10*3600, # Central Alaska "ahst" => -10*3600, # Alaska-Hawaii Standard "taht" => -10*3600, # Tahiti Time "nt" => -11*3600, # Nome "idlw" => -12*3600, # International Date Line West "cet" => +1*3600, # Central European "mez" => +1*3600, # Central European (German) "met" => +1*3600, # Middle European "mewt" => +1*3600, # Middle European Winter "swt" => +1*3600, # Swedish Winter "set" => +1*3600, # Seychelles "fwt" => +1*3600, # French Winter "west" => +1*3600, # Western Europe Summer Time "eet" => +2*3600, # Eastern Europe, USSR Zone 1 "ukr" => +2*3600, # Ukraine "sast" => +2*3600, # South Africa Standard Time "bt" => +3*3600, # Baghdad, USSR Zone 2 "eat" => +3*3600, # East Africa Time # "it" => +3*3600+1800,# Iran "irst" => +3*3600+1800,# Iran Standard Time "zp4" => +4*3600, # USSR Zone 3 "msd" => +4*3600, # Moscow Daylight Time "sct" => +4*3600, # Seychelles Time "zp5" => +5*3600, # USSR Zone 4 "azst" => +5*3600, # Azerbaijan Summer Time "mvt" => +5*3600, # Maldives Time "uzt" => +5*3600, # Uzbekistan Time "ist" => +5*3600+1800,# Indian Standard "zp6" => +6*3600, # USSR Zone 5 "lkt" => +6*3600, # Sri Lanka Time "pkst" => +6*3600, # Pakistan Summer Time "yekst" => +6*3600, # Yekaterinburg Summer Time # For completeness. NST is also Newfoundland Stanard, and SST is also Swedish Summer. # "nst" => +6*3600+1800,# North Sumatra # "sst" => +7*3600, # South Sumatra, USSR Zone 6 "wast" => +7*3600, # West Australian Standard "ict" => +7*3600, # Indochina Time "wit" => +7*3600, # Western Indonesia Time # "jt" => +7*3600+1800,# Java (3pm in Cronusland!) "cct" => +8*3600, # China Coast, USSR Zone 7 "wst" => +8*3600, # West Australian Standard "hkt" => +8*3600, # Hong Kong "bnt" => +8*3600, # Brunei Darussalam Time "cit" => +8*3600, # Central Indonesia Time "myt" => +8*3600, # Malaysia Time "pht" => +8*3600, # Philippines Time "sgt" => +8*3600, # Singapore Time "jst" => +9*3600, # Japan Standard, USSR Zone 8 "kst" => +9*3600, # Korean Standard # "cast" => +9*3600+1800,# Central Australian Standard "east" => +10*3600, # Eastern Australian Standard "gst" => +10*3600, # Guam Standard, USSR Zone 9 "nct" => +11*3600, # New Caledonia Time "nzt" => +12*3600, # New Zealand "nzst" => +12*3600, # New Zealand Standard "fjt" => +12*3600, # Fiji Time "idle" => +12*3600, # International Date Line East ); %zoneOff = reverse(%Zone); %dstZoneOff = reverse(%dstZone); # Preferences $zoneOff{0} = 'gmt'; $dstZoneOff{3600} = 'bst'; } sub tz_offset { my ($zone, $time) = @_; return &tz_local_offset() unless($zone); $time = time() unless defined $time; my(@l) = localtime($time); my $dst = $l[8]; $zone = lc $zone; if ($zone =~ /^([\-\+]\d{3,4})$/) { my $sign = $1 < 0 ? -1 : 1 ; my $v = abs(0 + $1); return $sign * 60 * (int($v / 100) * 60 + ($v % 100)); } elsif (exists $dstZone{$zone} && ($dst || !exists $Zone{$zone})) { return $dstZone{$zone}; } elsif(exists $Zone{$zone}) { return $Zone{$zone}; } undef; } sub tz_name { my ($off, $time) = @_; $time = time() unless defined $time; my(@l) = localtime($time); my $dst = $l[8]; if (exists $dstZoneOff{$off} && ($dst || !exists $zoneOff{$off})) { return $dstZoneOff{$off}; } elsif (exists $zoneOff{$off}) { return $zoneOff{$off}; } sprintf("%+05d", int($off / 60) * 100 + $off % 60); } 1; __END__ =head1 NAME Time::Timezone -- miscellaneous timezone manipulations routines =head1 SYNOPSIS use Time::Timezone; print tz2zone(); print tz2zone($ENV{'TZ'}); print tz2zone($ENV{'TZ'}, time()); print tz2zone($ENV{'TZ'}, undef, $isdst); $offset = tz_local_offset(); $offset = tz_offset($TZ); =head1 DESCRIPTION This is a collection of miscellaneous timezone manipulation routines. C parses the TZ environment variable and returns a timezone string suitable for inclusion in L-like output. It optionally takes a timezone string, a time, and a is-dst flag. C determines the offset from GMT time in seconds. It only does the calculation once. C determines the offset from GMT in seconds of a specified timezone. C determines the name of the timezone based on its offset =head1 AUTHORS Graham Barr David Muir Sharnoff Paul Foley =head1 LICENSE David Muir Sharnoff disclaims any copyright and puts his contribution to this module in the public domain. Time-ParseDate-2015.103/lib/Time/JulianDay.pm0000644000175000017500000001346411560653647017132 0ustar muirmuirpackage Time::JulianDay; require 5.000; use Carp; use Time::Timezone; @ISA = qw(Exporter); @EXPORT = qw(julian_day inverse_julian_day day_of_week jd_secondsgm jd_secondslocal jd_timegm jd_timelocal gm_julian_day local_julian_day ); @EXPORT_OK = qw($brit_jd); use strict; use integer; # constants use vars qw($brit_jd $jd_epoch $jd_epoch_remainder $VERSION); $VERSION = 2011.0505; # calculate the julian day, given $year, $month and $day sub julian_day { my($year, $month, $day) = @_; my($tmp); use Carp; # confess() unless defined $day; $tmp = $day - 32075 + 1461 * ( $year + 4800 - ( 14 - $month ) / 12 )/4 + 367 * ( $month - 2 + ( ( 14 - $month ) / 12 ) * 12 ) / 12 - 3 * ( ( $year + 4900 - ( 14 - $month ) / 12 ) / 100 ) / 4 ; return($tmp); } sub gm_julian_day { my($secs) = @_; my($sec, $min, $hour, $mon, $year, $day, $month); ($sec, $min, $hour, $day, $mon, $year) = gmtime($secs); $month = $mon + 1; $year += 1900; return julian_day($year, $month, $day) } sub local_julian_day { my($secs) = @_; my($sec, $min, $hour, $mon, $year, $day, $month); ($sec, $min, $hour, $day, $mon, $year) = localtime($secs); $month = $mon + 1; $year += 1900; return julian_day($year, $month, $day) } sub day_of_week { my ($jd) = @_; return (($jd + 1) % 7); # calculate weekday (0=Sun,6=Sat) } # The following defines the first day that the Gregorian calendar was used # in the British Empire (Sep 14, 1752). The previous day was Sep 2, 1752 # by the Julian Calendar. The year began at March 25th before this date. $brit_jd = 2361222; # Usage: ($year,$month,$day) = &inverse_julian_day($julian_day) sub inverse_julian_day { my($jd) = @_; my($jdate_tmp); my($m,$d,$y); carp("warning: julian date $jd pre-dates British use of Gregorian calendar\n") if ($jd < $brit_jd); $jdate_tmp = $jd - 1721119; $y = (4 * $jdate_tmp - 1)/146097; $jdate_tmp = 4 * $jdate_tmp - 1 - 146097 * $y; $d = $jdate_tmp/4; $jdate_tmp = (4 * $d + 3)/1461; $d = 4 * $d + 3 - 1461 * $jdate_tmp; $d = ($d + 4)/4; $m = (5 * $d - 3)/153; $d = 5 * $d - 3 - 153 * $m; $d = ($d + 5) / 5; $y = 100 * $y + $jdate_tmp; if($m < 10) { $m += 3; } else { $m -= 9; ++$y; } return ($y, $m, $d); } { my($sec, $min, $hour, $day, $mon, $year) = gmtime(0); $year += 1900; if ($year == 1970 && $mon == 0 && $day == 1) { # standard unix time format $jd_epoch = 2440588; } else { $jd_epoch = julian_day($year, $mon+1, $day); } $jd_epoch_remainder = $hour*3600 + $min*60 + $sec; } sub jd_secondsgm { my($jd, $hr, $min, $sec) = @_; my($r) = (($jd - $jd_epoch) * 86400 + $hr * 3600 + $min * 60 - $jd_epoch_remainder); no integer; return ($r + $sec); use integer; } sub jd_secondslocal { my($jd, $hr, $min, $sec) = @_; my $jds = jd_secondsgm($jd, $hr, $min, $sec); return $jds - tz_local_offset($jds); } # this uses a 0-11 month to correctly reverse localtime() sub jd_timelocal { my ($sec,$min,$hours,$mday,$mon,$year) = @_; $year += 1900 unless $year > 1000; my $jd = julian_day($year, $mon+1, $mday); my $jds = jd_secondsgm($jd, $hours, $min, $sec); return $jds - tz_local_offset($jds); } # this uses a 0-11 month to correctly reverse gmtime() sub jd_timegm { my ($sec,$min,$hours,$mday,$mon,$year) = @_; $year += 1900 unless $year > 1000; my $jd = julian_day($year, $mon+1, $mday); return jd_secondsgm($jd, $hours, $min, $sec); } 1; __END__ =head1 NAME Time::JulianDay -- Julian calendar manipulations =head1 SYNOPSIS use Time::JulianDay $jd = julian_day($year, $month_1_to_12, $day) $jd = local_julian_day($seconds_since_1970); $jd = gm_julian_day($seconds_since_1970); ($year, $month_1_to_12, $day) = inverse_julian_day($jd) $dow = day_of_week($jd) print (Sun,Mon,Tue,Wed,Thu,Fri,Sat)[$dow]; $seconds_since_jan_1_1970 = jd_secondslocal($jd, $hour, $min, $sec) $seconds_since_jan_1_1970 = jd_secondsgm($jd, $hour, $min, $sec) $seconds_since_jan_1_1970 = jd_timelocal($sec,$min,$hours,$mday,$month_0_to_11,$year) $seconds_since_jan_1_1970 = jd_timegm($sec,$min,$hours,$mday,$month_0_to_11,$year) =head1 DESCRIPTION JulianDay is a package that manipulates dates as number of days since some time a long time ago. It's easy to add and subtract time using julian days... The day_of_week returned by day_of_week() is 0 for Sunday, and 6 for Saturday and everything else is in between. =head1 ERRATA Time::JulianDay is not a correct implementation. There are two problems. The first problem is that Time::JulianDay only works with integers. Julian Day can be fractional to represent time within a day. If you call inverse_julian_day() with a non-integer time, it will often give you an incorrect result. The second problem is that Julian Days start at noon rather than midnight. The julian_day() function returns results that are too large by 0.5. What to do about these problems is currently open for debate. I'm tempted to leave the current functions alone and add a second set with more accurate behavior. There is another implementation in Astro::Time that may be more accurate. =head1 GENESIS Written by David Muir Sharnoff with help from previous work by Kurt Jaeger aka PI based on postings from: Ian Miller ; Gary Puckering based on Collected Algorithms of the ACM ?; and the unknown-to-me author of Time::Local. =head1 LICENSE Copyright (C) 1996-1999 David Muir Sharnoff. License hereby granted for anyone to use, modify or redistribute this module at their own risk. Please feed useful changes back to cpan@dave.sharnoff.org. Time-ParseDate-2015.103/lib/Time/DaysInMonth.pm0000644000175000017500000000246210774266050017435 0ustar muirmuirpackage Time::DaysInMonth; use Carp; require 5.000; @ISA = qw(Exporter); @EXPORT = qw(days_in is_leap); @EXPORT_OK = qw(%mltable); use strict; use vars qw($VERSION %mltable); $VERSION = 99.1117; CONFIG: { %mltable = qw( 1 31 3 31 4 30 5 31 6 30 7 31 8 31 9 30 10 31 11 30 12 31); } sub days_in { # Month is 1..12 my ($year, $month) = @_; return $mltable{$month+0} unless $month == 2; return 28 unless &is_leap($year); return 29; } sub is_leap { my ($year) = @_; return 0 unless $year % 4 == 0; return 1 unless $year % 100 == 0; return 0 unless $year % 400 == 0; return 1; } 1; __END__ =head1 NAME Time::DaysInMonth -- simply report the number of days in a month =head1 SYNOPSIS use Time::DaysInMonth; $days = days_in($year, $month_1_to_12); $leapyear = is_leap($year); =head1 DESCRIPTION DaysInMonth is simply a package to report the number of days in a month. That's all it does. Really! =head1 AUTHOR David Muir Sharnoff =head1 BUGS This only deals with the "modern" calendar. Look elsewhere for historical time and date support. =head1 LICENSE Copyright (C) 1996-1999 David Muir Sharnoff. License hereby granted for anyone to use, modify or redistribute this module at their own risk. Please feed useful changes back to muir@idiom.org. Time-ParseDate-2015.103/lib/Time/CTime.pm0000644000175000017500000001322412217066574016242 0ustar muirmuirpackage Time::CTime; require 5.000; use Time::Timezone; use Time::CTime; require Exporter; @ISA = qw(Exporter); @EXPORT = qw(ctime asctime strftime); @EXPORT_OK = qw(asctime_n ctime_n @DoW @MoY @DayOfWeek @MonthOfYear); use strict; # constants use vars qw(@DoW @DayOfWeek @MoY @MonthOfYear %strftime_conversion $VERSION); use vars qw($template $sec $min $hour $mday $mon $year $wday $yday $isdst); $VERSION = 2011.0505; CONFIG: { @DoW = qw(Sun Mon Tue Wed Thu Fri Sat); @DayOfWeek = qw(Sunday Monday Tuesday Wednesday Thursday Friday Saturday); @MoY = qw(Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec); @MonthOfYear = qw(January February March April May June July August September October November December); %strftime_conversion = ( '%', sub { '%' }, 'a', sub { $DoW[$wday] }, 'A', sub { $DayOfWeek[$wday] }, 'b', sub { $MoY[$mon] }, 'B', sub { $MonthOfYear[$mon] }, 'c', sub { asctime_n($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst, "") }, 'd', sub { sprintf("%02d", $mday); }, 'D', sub { sprintf("%02d/%02d/%02d", $mon+1, $mday, $year%100) }, 'e', sub { sprintf("%2d", $mday); }, 'f', sub { fracprintf ("%3.3f", $sec); }, 'F', sub { fracprintf ("%6.6f", $sec); }, 'h', sub { $MoY[$mon] }, 'H', sub { sprintf("%02d", $hour) }, 'I', sub { sprintf("%02d", $hour % 12 || 12) }, 'j', sub { sprintf("%03d", $yday + 1) }, 'k', sub { sprintf("%2d", $hour); }, 'l', sub { sprintf("%2d", $hour % 12 || 12) }, 'm', sub { sprintf("%02d", $mon+1); }, 'M', sub { sprintf("%02d", $min) }, 'n', sub { "\n" }, 'o', sub { sprintf("%d%s", $mday, (($mday < 20 && $mday > 3) ? 'th' : ($mday%10 == 1 ? "st" : ($mday%10 == 2 ? "nd" : ($mday%10 == 3 ? "rd" : "th"))))) }, 'p', sub { $hour > 11 ? "PM" : "AM" }, 'r', sub { sprintf("%02d:%02d:%02d %s", $hour % 12 || 12, $min, $sec, $hour > 11 ? 'PM' : 'AM') }, 'R', sub { sprintf("%02d:%02d", $hour, $min) }, 'S', sub { sprintf("%02d", $sec) }, 't', sub { "\t" }, 'T', sub { sprintf("%02d:%02d:%02d", $hour, $min, $sec) }, 'U', sub { wkyr(0, $wday, $yday) }, 'v', sub { sprintf("%2d-%s-%4d", $mday, $MoY[$mon], $year+1900) }, 'w', sub { $wday }, 'W', sub { wkyr(1, $wday, $yday) }, 'y', sub { sprintf("%02d",$year%100) }, 'Y', sub { $year + 1900 }, 'x', sub { sprintf("%02d/%02d/%02d", $mon + 1, $mday, $year%100) }, 'X', sub { sprintf("%02d:%02d:%02d", $hour, $min, $sec) }, 'Z', sub { &tz2zone(undef,undef,$isdst) } # z sprintf("%+03d%02d", $offset / 3600, ($offset % 3600)/60); ); } sub fracprintf { my($t,$s) = @_; my($p) = sprintf($t, $s-int($s)); $p=~s/^0+//; $p; } sub asctime_n { my($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst, $TZname) = @_; ($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst, $TZname) = localtime($sec) unless defined $min; $year += 1900; $TZname .= ' ' if $TZname; sprintf("%s %s %2d %2d:%02d:%02d %s%4d", $DoW[$wday], $MoY[$mon], $mday, $hour, $min, $sec, $TZname, $year); } sub asctime { return asctime_n(@_)."\n"; } # is this formula right? sub wkyr { my($wstart, $wday, $yday) = @_; $wday = ($wday + 7 - $wstart) % 7; return int(($yday - $wday + 13) / 7 - 1); } # ctime($time) sub ctime { my($time) = @_; asctime(localtime($time), &tz2zone(undef,$time)); } sub ctime_n { my($time) = @_; asctime_n(localtime($time), &tz2zone(undef,$time)); } # strftime($template, @time_struct) # # Does not support locales sub strftime { local ($template, $sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst) = @_; undef $@; $template =~ s/%([%aAbBcdDefFhHIjklmMnopQrRStTUvwWxXyYZ])/&{$Time::CTime::strftime_conversion{$1}}()/egs; die $@ if $@; return $template; } 1; __END__ =head1 NAME Time::CTime -- format times ala POSIX asctime =head1 SYNOPSIS use Time::CTime print ctime(time); print asctime(localtime(time)); print strftime(template, localtime(time)); =head2 strftime conversions %% PERCENT %a day of the week abbr %A day of the week %b month abbr %B month %c ctime format: Sat Nov 19 21:05:57 1994 %d DD %D MM/DD/YY %e numeric day of the month %f floating point seconds (milliseconds): .314 %F floating point seconds (microseconds): .314159 %h month abbr %H hour, 24 hour clock, leading 0's) %I hour, 12 hour clock, leading 0's) %j day of the year %k hour %l hour, 12 hour clock %m month number, starting with 1, leading 0's %M minute, leading 0's %n NEWLINE %o ornate day of month -- "1st", "2nd", "25th", etc. %p AM or PM %r time format: 09:05:57 PM %R time format: 21:05 %S seconds, leading 0's %t TAB %T time format: 21:05:57 %U week number, Sunday as first day of week %v DD-Mon-Year %w day of the week, numerically, Sunday == 0 %W week number, Monday as first day of week %x date format: 11/19/94 %X time format: 21:05:57 %y year (2 digits) %Y year (4 digits) %Z timezone in ascii. eg: PST =head1 DESCRIPTION This module provides routines to format dates. They correspond to the libc routines. &strftime() supports a pretty good set of conversions -- more than most C libraries. strftime supports a pretty good set of conversions. The POSIX module has very similar functionality. You should consider using it instead if you do not have allergic reactions to system libraries. =head1 GENESIS Written by David Muir Sharnoff . The starting point for this package was a posting by Paul Foley =head1 LICENSE Copyright (C) 1996-2010 David Muir Sharnoff. Copyright (C) 2011 Google, Inc. License hereby granted for anyone to use, modify or redistribute this module at their own risk. Please feed useful changes back to cpan@dave.sharnoff.org. Time-ParseDate-2015.103/lib/Time/ParseDate.pm0000644000175000017500000007232112615001514017075 0ustar muirmuirpackage Time::ParseDate; require 5.000; use Carp; use Time::Timezone; use Time::JulianDay; require Exporter; @ISA = qw(Exporter); @EXPORT = qw(parsedate); @EXPORT_OK = qw(pd_raw %mtable %umult %wdays); use strict; #use diagnostics; # constants use vars qw(%mtable %umult %wdays $VERSION); $VERSION = 2015.1030; # globals use vars qw($debug); # dynamically-scoped use vars qw($parse); my %mtable; my %umult; my %wdays; my $y2k; CONFIG: { %mtable = qw( Jan 1 Jan. 1 January 1 Feb 2 Feb. 2 February 2 Mar 3 Mar. 3 March 3 Apr 4 Apr. 4 April 4 May 5 Jun 6 Jun. 6 June 6 Jul 7 Jul. 7 July 7 Aug 8 Aug. 8 August 8 Sep 9 Sep. 9 September 9 Sept 9 Oct 10 Oct. 10 October 10 Nov 11 Nov. 11 November 11 Dec 12 Dec. 12 December 12 ); %umult = qw( sec 1 second 1 min 60 minute 60 hour 3600 day 86400 week 604800 fortnight 1209600); %wdays = qw( sun 0 sunday 0 mon 1 monday 1 tue 2 tuesday 2 wed 3 wednesday 3 thu 4 thursday 4 fri 5 friday 5 sat 6 saturday 6 ); $y2k = 946684800; # turn of the century } my $break = qr{(?:\s+|\Z|\b(?![-:.,/]\d))}; sub parsedate { my ($t, %options) = @_; my ($y, $m, $d); # year, month - 1..12, day my ($H, $M, $S); # hour, minute, second my $tz; # timezone my $tzo; # timezone offset my ($rd, $rs); # relative days, relative seconds my $rel; # time&|date is relative my $isspec; my $now = defined($options{NOW}) ? $options{NOW} : time; my $passes = 0; my $uk = defined($options{UK}) ? $options{UK} : 0; local $parse = ''; # will be dynamically scoped. if ($t =~ s#^ ([ \d]\d) / (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec) / (\d\d\d\d) : (\d\d) : (\d\d) : (\d\d) (?: [ ] ([-+] \d\d\d\d) (?: \("?(?:(?:[A-Z]{1,4}[TCW56])|IDLE)\))? )? $break ##xi) { #"emacs # [ \d]/Mon/yyyy:hh:mm:ss [-+]\d\d\d\d # This is the format for www server logging. ($d, $m, $y, $H, $M, $S, $tzo) = ($1, $mtable{"\u\L$2"}, $3, $4, $5, $6, $7 ? &mkoff($7) : ($tzo || undef)); $parse .= " ".__LINE__ if $debug; } elsif ($t =~ s#^(\d\d)/(\d\d)/(\d\d)\.(\d\d)\:(\d\d)($break)##) { # yy/mm/dd.hh:mm # I support this format because it's used by wbak/rbak # on Apollo Domain OS. Silly, but historical. ($y, $m, $d, $H, $M, $S) = ($1, $2, $3, $4, $5, 0); $parse .= " ".__LINE__ if $debug; } else { while(1) { if (! defined $m and ! defined $rd and ! defined $y and ! ($passes == 0 and $options{'TIMEFIRST'})) { # no month defined. if (&parse_date_only(\$t, \$y, \$m, \$d, $uk)) { $parse .= " ".__LINE__ if $debug; next; } } if (! defined $H and ! defined $rs) { if (&parse_time_only(\$t, \$H, \$M, \$S, \$tz, %options)) { $parse .= " ".__LINE__ if $debug; next; } } next if $passes == 0 and $options{'TIMEFIRST'}; if (! defined $y) { if (&parse_year_only(\$t, \$y, $now, %options)) { $parse .= " ".__LINE__ if $debug; next; } } if (! defined $tz and ! defined $tzo and ! defined $rs and (defined $m or defined $H)) { if (&parse_tz_only(\$t, \$tz, \$tzo)) { $parse .= " ".__LINE__ if $debug; next; } } if (! defined $H and ! defined $rs) { if (&parse_time_offset(\$t, \$rs, %options)) { $rel = 1; $parse .= " ".__LINE__ if $debug; next; } } if (! defined $m and ! defined $rd and ! defined $y) { if (&parse_date_offset(\$t, $now, \$y, \$m, \$d, \$rd, \$rs, %options)) { $rel = 1; $parse .= " ".__LINE__ if $debug; next; } } if (defined $M or defined $rd) { if ($t =~ s/^\s*(?:at|\@|\+)($break)//x) { $rel = 1; $parse .= " ".__LINE__ if $debug; next; } } last; } continue { $passes++; &debug_display($tz, $tzo, $H, $M, $S, $m, $d, $y, $rs, $rd, $rel, $passes, $parse, $t) if $debug; } if ($passes == 0) { print "nothing matched\n" if $debug; return (undef, "no match on time/date") if wantarray(); return undef; } } &debug_display($tz, $tzo, $H, $M, $S, $m, $d, $y, $rs, $rd, $rel, $passes, $parse, $t) if $debug; $t =~ s/^\s+//; if ($t ne '') { # we didn't manage to eat the string print "NOT WHOLE\n" if $debug; if ($options{WHOLE}) { return (undef, "characters left over after parse") if wantarray(); return undef } } # define a date if there isn't one already if (! defined $y and ! defined $m and ! defined $rd) { print "no date defined, trying to find one." if $debug; if (defined $rs or defined $H) { # we do have a time. if ($options{DATE_REQUIRED}) { return (undef, "no date specified") if wantarray(); return undef; } if (defined $rs) { print "simple offset: $rs\n" if $debug; my $rv = $now + $rs; return ($rv, $t) if wantarray(); return $rv; } $rd = 0; } else { print "no time either!\n" if $debug; return (undef, "no time specified") if wantarray(); return undef; } } if ($options{TIME_REQUIRED} && ! defined($rs) && ! defined($H) && ! defined($rd)) { return (undef, "no time found") if wantarray(); return undef; } my $secs; my $jd; if (defined $rd) { if (defined $rs || ! (defined($H) || defined($M) || defined($S))) { print "fully relative\n" if $debug; my ($j, $in, $it); my $definedrs = defined($rs) ? $rs : 0; my ($isdst_now, $isdst_then); my $r = $now + $rd * 86400 + $definedrs; # # It's possible that there was a timezone shift # during the time specified. If so, keep the # hours the "same". # $isdst_now = (localtime($r))[8]; $isdst_then = (localtime($now))[8]; if (($isdst_now == $isdst_then) || $options{GMT}) { return ($r, $t) if wantarray(); return $r } print "localtime changed DST during time period!\n" if $debug; } print "relative date\n" if $debug; $jd = $options{GMT} ? gm_julian_day($now) : local_julian_day($now); print "jd($now) = $jd\n" if $debug; $jd += $rd; } else { unless (defined $y) { if ($options{PREFER_PAST}) { my ($day, $mon011); ($day, $mon011, $y) = (&righttime($now))[3,4,5]; print "calc year -past $day-$d $mon011-$m $y\n" if $debug; $y -= 1 if ($mon011+1 < $m) || (($mon011+1 == $m) && ($day < $d)); } elsif ($options{PREFER_FUTURE}) { print "calc year -future\n" if $debug; my ($day, $mon011); ($day, $mon011, $y) = (&righttime($now))[3,4,5]; $y += 1 if ($mon011 >= $m) || (($mon011+1 == $m) && ($day > $d)); } else { print "calc year -this\n" if $debug; $y = (localtime($now))[5]; } $y += 1900; } $y = expand_two_digit_year($y, $now, %options) if $y < 100; if ($options{VALIDATE}) { require Time::DaysInMonth; my $dim = Time::DaysInMonth::days_in($y, $m); if ($y < 1000 or $m < 1 or $d < 1 or $y > 9999 or $m > 12 or $d > $dim) { return (undef, "illegal YMD: $y, $m, $d") if wantarray(); return undef; } } $jd = julian_day($y, $m, $d); print "jd($y, $m, $d) = $jd\n" if $debug; } # put time into HMS if (! defined($H)) { if (defined($rd) || defined($rs)) { ($S, $M, $H) = &righttime($now, %options); print "HMS set to $H $M $S\n" if $debug; } } my $carry; print "before ", (defined($rs) ? "$rs" : ""), " $jd $H $M $S\n" if $debug; # # add in relative seconds. Do it this way because we want to # preserve the localtime across DST changes. # $S = 0 unless $S; # -w $M = 0 unless $M; # -w $H = 0 unless $H; # -w if ($options{VALIDATE} and ($S < 0 or $M < 0 or $H < 0 or $S > 59 or $M > 59 or $H > 23)) { return (undef, "illegal HMS: $H, $M, $S") if wantarray(); return undef; } $S += $rs if defined $rs; $carry = int($S / 60) - ($S < 0 && $S % 60 && 1); $S -= $carry * 60; $M += $carry; $carry = int($M / 60) - ($M < 0 && $M % 60 && 1); $M %= 60; $H += $carry; $carry = int($H / 24) - ($H < 0 && $H % 24 && 1); $H %= 24; $jd += $carry; print "after rs $jd $H $M $S\n" if $debug; $secs = jd_secondsgm($jd, $H, $M, $S); print "jd_secondsgm($jd, $H, $M, $S) = $secs\n" if $debug; # # If we see something link 3pm CST then and we want to end # up with a GMT seconds, then we convert the 3pm to GMT and # subtract in the offset for CST. We subtract because we # are converting from CST to GMT. # my $tzadj; if ($tz) { $tzadj = tz_offset($tz, $secs); if (defined $tzadj) { print "adjusting secs for $tz: $tzadj\n" if $debug; $tzadj = tz_offset($tz, $secs-$tzadj); $secs -= $tzadj; } else { print "unknown timezone: $tz\n" if $debug; undef $secs; undef $t; } } elsif (defined $tzo) { print "adjusting time for offset: $tzo\n" if $debug; $secs -= $tzo; } else { unless ($options{GMT}) { if ($options{ZONE}) { $tzadj = tz_offset($options{ZONE}, $secs) || 0; $tzadj = tz_offset($options{ZONE}, $secs-$tzadj); unless (defined($tzadj)) { return (undef, "could not convert '$options{ZONE}' to time offset") if wantarray(); return undef; } print "adjusting secs for $options{ZONE}: $tzadj\n" if $debug; $secs -= $tzadj; } else { $tzadj = tz_local_offset($secs); print "adjusting secs for local offset: $tzadj\n" if $debug; # # Just in case we are very close to a time # change... # $tzadj = tz_local_offset($secs-$tzadj); $secs -= $tzadj; } } } print "returning $secs.\n" if $debug; return ($secs, $t) if wantarray(); return $secs; } sub mkoff { my($offset) = @_; if (defined $offset and $offset =~ s#^([-+])(\d\d):?(\d\d)$##) { return ($1 eq '+' ? 3600 * $2 + 60 * $3 : -3600 * $2 + -60 * $3 ); } return undef; } sub parse_tz_only { my($tr, $tz, $tzo) = @_; $$tr =~ s#^\s+##; my $o; if ($$tr =~ s#^ ([-+]\d\d:?\d\d) \s+ \( "? (?: (?: [A-Z]{1,4}[TCW56] ) | IDLE ) \) $break ##x) { #"emacs $$tzo = &mkoff($1); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^GMT\s*([-+]\d{1,2})($break)##x) { $o = $1; if ($o < 24 and $o !~ /^0/) { # probably hours. printf "adjusted at %d. ($o 00)\n", __LINE__ if $debug; $o = "${o}00"; } $o =~ s/\b(\d\d\d)/0$1/; $$tzo = &mkoff($o); printf "matched at %d. ($$tzo, $o)\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?:GMT\s*)?([-+]\d\d:?\d\d)($break)##x) { $o = $1; $$tzo = &mkoff($o); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^"?((?:[A-Z]{1,4}[TCW56])|IDLE)$break##x) { #" $$tz = $1; $$tz .= " DST" if $$tz eq 'MET' && $$tr =~ s#^DST$break##x; printf "matched at %d: '$$tz'.\n", __LINE__ if $debug; return 1; } return 0; } sub parse_date_only { my ($tr, $yr, $mr, $dr, $uk) = @_; $$tr =~ s#^\s+##; if ($$tr =~ s#^(\d\d\d\d)([-./])(\d\d?)\2(\d\d?)(T|$break)##) { # yyyy/mm/dd ($$yr, $$mr, $$dr) = ($1, $3, $4); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(\d\d?)([-./])(\d\d?)\2(\d\d\d\d?)($break)##) { # mm/dd/yyyy - is this safe? No. # -- or dd/mm/yyyy! If $1>12, then it's unambiguous. # Otherwise check option UK for UK style date. if ($uk || $1>12) { ($$yr, $$mr, $$dr) = ($4, $3, $1); } else { ($$yr, $$mr, $$dr) = ($4, $1, $3); } printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(\d\d\d\d)/(\d\d?)$break##x) { # yyyy/mm ($$yr, $$mr, $$dr) = ($1, $2, 1); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (?: (?:Mon|Monday|Tue|Tuesday|Wed|Wednesday| Thu|Thursday|Fri|Friday| Sat|Saturday|Sun|Sunday),? \s+ )? (\d\d?) (\s+ | - | \. | /) (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\.? (?: \2 (\d\d (?:\d\d)? ) )? $break ##) { # [Dow,] dd Mon [yy[yy]] ($$yr, $$mr, $$dr) = ($4, $mtable{"\u\L$3"}, $1); printf "%d: %s - %s - %s\n", __LINE__, $1, $2, $3 if $debug; print "y undef\n" if ($debug && ! defined($$yr)); return 1; } elsif ($$tr =~ s#^(?xi) (?: (?:Mon|Monday|Tue|Tuesday|Wed|Wednesday| Thu|Thursday|Fri|Friday| Sat|Saturday|Sun|Sunday),? \s+ )? (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\.? ((\s)+ | - | \. | /) (\d\d?) ,? (?: (?: \2|\3+) (\d\d (?: \d\d)?) )? $break ##) { # [Dow,] Mon dd [yyyy] # [Dow,] Mon d, [yy] ($$yr, $$mr, $$dr) = ($5, $mtable{"\u\L$1"}, $4); printf "%d: %s - %s - %s\n", __LINE__, $1, $2, $4 if $debug; print "y undef\n" if ($debug && ! defined($$yr)); return 1; } elsif ($$tr =~ s#^(?xi) (January|Jan\.?|February|Feb\.?|March|Mar\.?|April|Apr\.?|May| June|Jun\.?|July|Jul\.?|August|Aug\.?|September|Sep\.?| October|Oct\.?|November|Nov\.?|December|Dec\.?) \s+ (\d+) (?:st|nd|rd|th)? \,? (?: \s+ (?: (\d\d\d\d) |(?:\' (\d\d)) ) )? $break ##) { # Month day{st,nd,rd,th}, 'yy # Month day{st,nd,rd,th}, year # Month day, year # Mon. day, year ($$yr, $$mr, $$dr) = ($3 || $4, $mtable{"\u\L$1"}, $2); printf "%d: %s - %s - %s - %s\n", __LINE__, $1, $2, $3, $4 if $debug; print "y undef\n" if ($debug && ! defined($$yr)); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(\d\d?)([-/.])(\d\d?)\2(\d\d?)($break)##x) { if ($1 > 31 || (!$uk && $1 > 12 && $4 < 32)) { # yy/mm/dd ($$yr, $$mr, $$dr) = ($1, $3, $4); } elsif ($1 > 12 || $uk) { # dd/mm/yy ($$yr, $$mr, $$dr) = ($4, $3, $1); } else { # mm/dd/yy ($$yr, $$mr, $$dr) = ($4, $1, $3); } printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(\d\d?)/(\d\d?)($break)##x) { if ($1 > 31 || (!$uk && $1 > 12)) { # yy/mm ($$yr, $$mr, $$dr) = ($1, $2, 1); } elsif ($2 > 31 || ($uk && $2 > 12)) { # mm/yy ($$yr, $$mr, $$dr) = ($2, $1, 1); } elsif ($1 > 12 || $uk) { # dd/mm ($$mr, $$dr) = ($2, $1); } else { # mm/dd ($$mr, $$dr) = ($1, $2); } printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(\d\d)(\d\d)(\d\d)($break)##x) { if ($1 > 31 || (!$uk && $1 > 12)) { # YYMMDD ($$yr, $$mr, $$dr) = ($1, $2, $3); } elsif ($1 > 12 || $uk) { # DDMMYY ($$yr, $$mr, $$dr) = ($3, $2, $1); } else { # MMDDYY ($$yr, $$mr, $$dr) = ($3, $1, $2); } printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (\d{1,2}) (\s+ | - | \. | /) (January|Jan\.?|February|Feb\.?|March|Mar\.?|April|Apr\.?|May| June|Jun\.?|July|Jul\.?|August|Aug\.?|September|Sep\.?| October|Oct\.?|November|Nov\.?|December|Dec\.?) (?: \2 ( \d\d (?:\d\d)? ) ) $break ##) { # dd Month [yr] ($$yr, $$mr, $$dr) = ($4, $mtable{"\u\L$3"}, $1); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (\d+) (?:st|nd|rd|th)? \s+ (January|Jan\.?|February|Feb\.?|March|Mar\.?|April|Apr\.?|May| June|Jun\.?|July|Jul\.?|August|Aug\.?|September|Sep\.?| October|Oct\.?|November|Nov\.?|December|Dec\.?) (?: \,? \s+ (\d\d\d\d) )? $break ##) { # day{st,nd,rd,th}, Month year ($$yr, $$mr, $$dr) = ($3, $mtable{"\u\L$2"}, $1); printf "%d: %s - %s - %s - %s\n", __LINE__, $1, $2, $3, $4 if $debug; print "y undef\n" if ($debug && ! defined($$yr)); printf "matched at %d.\n", __LINE__ if $debug; return 1; } return 0; } sub parse_time_only { my ($tr, $hr, $mr, $sr, $tzr, %options) = @_; $$tr =~ s#^\s+##; if ($$tr =~ s!^(?x) (?: (?: ([012]\d) (?# $1) (?: ([0-5]\d) (?# $2) (?: ([0-5]\d) (?# $3) )? ) \s* ([apAP][mM])? (?# $4) ) | (?: (\d{1,2}) (?# $5) (?: \: (\d\d) (?# $6) (?: \: (\d\d) (?# $7) ( (?# don't barf on database sub-second timings) [:.,] \d+ )? (?# $8) )? ) \s* ([apAP][mM])? (?# $9) ) | (?: (\d{1,2}) (?# $10) ([apAP][mM]) (?# ${11}) ) ) (?: \s+ "? ( (?# ${12}) (?: [A-Z]{1,4}[TCW56] ) | IDLE ) )? $break !!) { #"emacs # HH[[:]MM[:SS]]meridian [zone] my $ampm; $$hr = $1 || $5 || $10 || 0; # 10 is undef, but 5 is defined.. $$mr = $2 || $6 || 0; $$sr = $3 || $7 || 0; if (defined($8) && exists($options{SUBSECOND}) && $options{SUBSECOND}) { my($frac) = $8; substr($frac,0,1) = '.'; $$sr += $frac; } print "S = $$sr\n" if $debug; $ampm = $4 || $9 || $11 || ''; $$tzr = $12; $$hr += 12 if $ampm and "\U$ampm" eq "PM" && $$hr != 12; $$hr = 0 if $$hr == 12 && "\U$ampm" eq "AM"; printf "matched at %d, rem = %s.\n", __LINE__, $$tr if $debug; return 1; } elsif ($$tr =~ s#^noon$break##ix) { # noon ($$hr, $$mr, $$sr) = (12, 0, 0); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^midnight$break##ix) { # midnight ($$hr, $$mr, $$sr) = (0, 0, 0); printf "matched at %d.\n", __LINE__ if $debug; return 1; } return 0; } sub parse_time_offset { my ($tr, $rsr, %options) = @_; $$tr =~ s/^\s+//; return 0 if $options{NO_RELATIVE}; if ($$tr =~ s{^(?xi) (?: (-) (?# 1) | [+] )? \s* (?: (\d+(?:\.\d+)?) (?# 2) | (?:(\d+)\s+(\d+)/(\d+)) (?# 3 4/5) ) \s* (sec|second|min|minute|hour)s? (?# 6) ( \s+ ago (?# 7) )? $break }{}) { # count units $$rsr = 0 unless defined $$rsr; return 0 if defined($5) && $5 == 0; my $num = defined($2) ? $2 : $3 + $4/$5; $num = -$num if $1; $$rsr += $umult{"\L$6"} * $num; $$rsr = -$$rsr if $7 || $$tr =~ /\b(day|mon|month|year)s?\s*ago\b/; printf "matched at %d.\n", __LINE__ if $debug; return 1; } return 0; } # # What to you do with a date that has a two-digit year? # There's not much that can be done except make a guess. # # Some example situations to handle: # # now year # # 1999 01 # 1999 71 # 2010 71 # 2110 09 # sub expand_two_digit_year { my ($yr, $now, %options) = @_; return $yr if $yr > 100; my ($y) = (&righttime($now, %options))[5]; $y += 1900; my $century = int($y / 100) * 100; my $within = $y % 100; my $r = $yr + $century; if ($options{PREFER_PAST}) { if ($yr > $within) { $r = $yr + $century - 100; } } elsif ($options{PREFER_FUTURE}) { # being strict here would be silly if ($yr < $within-20) { # it's 2019 and the date is '08' $r = $yr + $century + 100; } } elsif ($options{UNAMBIGUOUS}) { # we really shouldn't guess return undef; } else { # prefer the current century in most cases if ($within > 80 && $within - $yr > 60) { $r = $yr + $century + 100; } if ($within < 30 && $yr - $within > 59) { $r = $yr + $century - 100; } } print "two digit year '$yr' expanded into $r\n" if $debug; return $r; } sub calc { my ($rsr, $yr, $mr, $dr, $rdr, $now, $units, $count, %options) = @_; confess unless $units; $units = "\L$units"; print "calc based on $units\n" if $debug; if ($units eq 'day') { $$rdr = $count; } elsif ($units eq 'week') { $$rdr = $count * 7; } elsif ($umult{$units}) { $$rsr = $count * $umult{$units}; } elsif ($units eq 'mon' || $units eq 'month') { ($$yr, $$mr, $$dr) = &monthoff($now, $count, %options); $$rsr = 0 unless $$rsr; } elsif ($units eq 'year') { ($$yr, $$mr, $$dr) = &monthoff($now, $count * 12, %options); $$rsr = 0 unless $$rsr; } else { carp "interal error"; } print "calced rsr $$rsr rdr $$rdr, yr $$yr mr $$mr dr $$dr.\n" if $debug; } sub monthoff { my ($now, $months, %options) = @_; # months are 0..11 my ($d, $m11, $y) = (&righttime($now, %options)) [ 3,4,5 ] ; $y += 1900; print "m11 = $m11 + $months, y = $y\n" if $debug; $m11 += $months; print "m11 = $m11, y = $y\n" if $debug; if ($m11 > 11 || $m11 < 0) { $y -= 1 if $m11 < 0 && ($m11 % 12 != 0); $y += int($m11/12); # this is required to work around a bug in perl 5.003 no integer; $m11 %= 12; } print "m11 = $m11, y = $y\n" if $debug; # # What is "1 month from January 31st?" # I think the answer is February 28th most years. # # Similarly, what is one year from February 29th, 1980? # I think it's February 28th, 1981. # # If you disagree, change the following code. # if ($d > 30 or ($d > 28 && $m11 == 1)) { require Time::DaysInMonth; my $dim = Time::DaysInMonth::days_in($y, $m11+1); print "dim($y,$m11+1)= $dim\n" if $debug; $d = $dim if $d > $dim; } return ($y, $m11+1, $d); } sub righttime { my ($time, %options) = @_; if ($options{GMT}) { return gmtime($time); } else { return localtime($time); } } sub parse_year_only { my ($tr, $yr, $now, %options) = @_; $$tr =~ s#^\s+##; if ($$tr =~ s#^(\d\d\d\d)$break##) { $$yr = $1; printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#\'(\d\d)$break##) { $$yr = expand_two_digit_year($1, $now, %options); printf "matched at %d.\n", __LINE__ if $debug; return 1; } return 0; } sub parse_date_offset { my ($tr, $now, $yr, $mr, $dr, $rdr, $rsr, %options) = @_; return 0 if $options{NO_RELATIVE}; # now - current seconds_since_epoch # yr - year return # mr - month return # dr - day return # rdr - relative day return # rsr - relative second return my $j; my $wday = (&righttime($now, %options))[6]; $$tr =~ s#^\s+##; if ($$tr =~ s#^(?xi) \s* (\d+) \s* (day|week|month|year)s? ( \s+ ago )? $break ##) { my $amt = $1 + 0; my $units = $2; $amt = -$amt if $3 || $$tr =~ m#\b(sec|second|min|minute|hour)s?\s*ago\b#; &calc($rsr, $yr, $mr, $dr, $rdr, $now, $units, $amt, %options); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (?: (?: now \s+ )? (\+ | \-) \s* )? (\d+) \s* (day|week|month|year)s? $break ##) { my $one = $1 || ''; my $two = $2 || ''; my $amt = "$one$two"+0; &calc($rsr, $yr, $mr, $dr, $rdr, $now, $3, $amt, %options); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) \s+ after \s+ next $break ##) { # Dow "after next" $$rdr = $wdays{"\L$1"} - $wday + ( $wdays{"\L$1"} > $wday ? 7 : 14); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) \s+ before \s+ last $break ##) { # Dow "before last" $$rdr = $wdays{"\L$1"} - $wday - ( $wdays{"\L$1"} < $wday ? 7 : 14); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) next\s+ (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) $break ##) { # "next" Dow $$rdr = $wdays{"\L$1"} - $wday + ( $wdays{"\L$1"} > $wday ? 0 : 7); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^(?xi) last\s+ (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) $break##) { # "last" Dow printf "c %d - %d + ( %d < %d ? 0 : -7 \n", $wdays{"\L$1"}, $wday, $wdays{"\L$1"}, $wday if $debug; $$rdr = $wdays{"\L$1"} - $wday + ( $wdays{"\L$1"} < $wday ? 0 : -7); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($options{PREFER_PAST} and $$tr =~ s#^(?xi) (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) $break##) { # Dow printf "c %d - %d + ( %d < %d ? 0 : -7 \n", $wdays{"\L$1"}, $wday, $wdays{"\L$1"}, $wday if $debug; $$rdr = $wdays{"\L$1"} - $wday + ( $wdays{"\L$1"} < $wday ? 0 : -7); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($options{PREFER_FUTURE} and $$tr =~ s#^(?xi) (Mon|Tue|Wed|Thu|Fri|Sat|Sun|Monday|Tuesday |Wednesday|Thursday|Friday|Saturday|Sunday) $break ##) { # Dow $$rdr = $wdays{"\L$1"} - $wday + ( $wdays{"\L$1"} > $wday ? 0 : 7); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^today$break##xi) { # today $$rdr = 0; printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^tomorrow$break##xi) { $$rdr = 1; printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^yesterday$break##xi) { $$rdr = -1; printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^last\s+(week|month|year)$break##xi) { &calc($rsr, $yr, $mr, $dr, $rdr, $now, $1, -1, %options); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^next\s+(week|month|year)$break##xi) { &calc($rsr, $yr, $mr, $dr, $rdr, $now, $1, 1, %options); printf "matched at %d.\n", __LINE__ if $debug; return 1; } elsif ($$tr =~ s#^now $break##x) { $$rdr = 0; return 1; } return 0; } sub debug_display { my ($tz, $tzo, $H, $M, $S, $m, $d, $y, $rs, $rd, $rel, $passes, $parse, $t) = @_; print "---------<<\n"; print defined($tz) ? "tz: $tz.\n" : "no tz\n"; print defined($tzo) ? "tzo: $tzo.\n" : "no tzo\n"; print "HMS: "; print defined($H) ? "$H, " : "no H, "; print defined($M) ? "$M, " : "no M, "; print defined($S) ? "$S\n" : "no S.\n"; print "mdy: "; print defined($m) ? "$m, " : "no m, "; print defined($d) ? "$d, " : "no d, "; print defined($y) ? "$y\n" : "no y.\n"; print defined($rs) ? "rs: $rs.\n" : "no rs\n"; print defined($rd) ? "rd: $rd.\n" : "no rd\n"; print $rel ? "relative\n" : "not relative\n"; print "passes: $passes\n"; print "parse:$parse\n"; print "t: $t.\n"; print "--------->>\n"; } 1; __END__ =head1 NAME Time::ParseDate -- date parsing both relative and absolute =head1 SYNOPSIS use Time::ParseDate; $seconds_since_jan1_1970 = parsedate("12/11/94 2pm", NO_RELATIVE => 1) $seconds_since_jan1_1970 = parsedate("12/11/94 2pm", %options) =head1 OPTIONS Date parsing can also use options. The options are as follows: FUZZY -> it's okay not to parse the entire date string NOW -> the "current" time for relative times (defaults to time()) ZONE -> local timezone (defaults to $ENV{TZ}) WHOLE -> the whole input string must be parsed GMT -> input time is assumed to be GMT, not localtime UK -> prefer UK style dates (dd/mm over mm/dd) DATE_REQUIRED -> do not default the date TIME_REQUIRED -> do not default the time NO_RELATIVE -> input time is not relative to NOW TIMEFIRST -> try parsing time before date [not default] PREFER_PAST -> when year or day of week is ambiguous, assume past PREFER_FUTURE -> when year or day of week is ambiguous, assume future SUBSECOND -> parse fraction seconds VALIDATE -> only accept normal values for HHMMSS, YYMMDD. Otherwise days like -1 might give the last day of the previous month. =head1 DATE FORMATS RECOGNIZED =head2 Absolute date formats Dow, dd Mon yy Dow, dd Mon yyyy Dow, dd Mon dd Mon yy dd Mon yyyy Month day{st,nd,rd,th}, year Month day{st,nd,rd,th} Mon dd yyyy yyyy/mm/dd yyyy-mm-dd (usually the best date specification syntax) yyyy/mm mm/dd/yy mm/dd/yyyy mm/yy yy/mm (only if year > 12, or > 31 if UK) yy/mm/dd (only if year > 12 and day < 32, or year > 31 if UK) dd/mm/yy (only if UK, or an invalid mm/dd/yy or yy/mm/dd) dd/mm/yyyy (only if UK, or an invalid mm/dd/yyyy) dd/mm (only if UK, or an invalid mm/dd) =head2 Relative date formats: count "days" count "weeks" count "months" count "years" Dow "after next" Dow "before last" Dow (requires PREFER_PAST or PREFER_FUTURE) "next" Dow "tomorrow" "today" "yesterday" "last" dow "last week" "now" "now" "+" count units "now" "-" count units "+" count units "-" count units count units "ago" =head2 Absolute time formats: hh:mm:ss[.ddd] hh:mm hh:mm[AP]M hh[AP]M hhmmss[[AP]M] "noon" "midnight" =head2 Relative time formats: count "minutes" (count can be franctional "1.5" or "1 1/2") count "seconds" count "hours" "+" count units "+" count "-" count units "-" count count units "ago" =head2 Timezone formats: [+-]dddd GMT[+-]d+ [+-]dddd (TZN) TZN =head2 Special formats: [ d]d/Mon/yyyy:hh:mm:ss [[+-]dddd] yy/mm/dd.hh:mm =head1 DESCRIPTION This module recognizes the above date/time formats. Usually a date and a time are specified. There are numerous options for controlling what is recognized and what is not. The return code is always the time in seconds since January 1st, 1970 or undef if it was unable to parse the time. If a timezone is specified it must be after the time. Year specifications can be tacked onto the end of absolute times. If C is called from array context, then it will return two elements. On successful parses, it will return the seconds and what remains of its input string. On unsuccessful parses, it will return C and an error string. =head1 EXAMPLES $seconds = parsedate("Mon Jan 2 04:24:27 1995"); $seconds = parsedate("Tue Apr 4 00:22:12 PDT 1995"); $seconds = parsedate("04.04.95 00:22", ZONE => PDT); $seconds = parsedate("Jan 1 1999 11:23:34.578", SUBSECOND => 1); $seconds = parsedate("122212 950404", ZONE => PDT, TIMEFIRST => 1); $seconds = parsedate("+3 secs", NOW => 796978800); $seconds = parsedate("2 months", NOW => 796720932); $seconds = parsedate("last Tuesday"); $seconds = parsedate("Sunday before last"); ($seconds, $remaining) = parsedate("today is the day"); ($seconds, $error) = parsedate("today is", WHOLE=>1); =head1 LICENSE Copyright (C) 1996-2010 David Muir Sharnoff. Copyright (C) 2011 Google, Inc. License hereby granted for anyone to use, modify or redistribute this module at their own risk. Please feed useful changes back to cpan@dave.sharnoff.org. Time-ParseDate-2015.103/META.json0000644000175000017500000000167112615001713014645 0ustar muirmuir{ "abstract" : "Parse and format time values", "author" : [ "David Muir Sharnoff " ], "dynamic_config" : 1, "generated_by" : "ExtUtils::MakeMaker version 6.62, CPAN::Meta::Converter version 2.112150", "license" : [ "unknown" ], "meta-spec" : { "url" : "http://search.cpan.org/perldoc?CPAN::Meta::Spec", "version" : "2" }, "name" : "Time-ParseDate", "no_index" : { "directory" : [ "t", "inc" ] }, "prereqs" : { "build" : { "requires" : { "Time::Piece" : 0 } }, "configure" : { "requires" : { "ExtUtils::MakeMaker" : 0 } }, "runtime" : { "requires" : {} } }, "release_status" : "stable", "resources" : { "repository" : { "url" : "http://github.com/muir/Time-modules" } }, "version" : "2015.103" } Time-ParseDate-2015.103/MANIFEST0000644000175000017500000000054112615001714014351 0ustar muirmuirMANIFEST Changes Makefile.PL README lib/Time/CTime.pm lib/Time/DaysInMonth.pm lib/Time/JulianDay.pm lib/Time/ParseDate.pm lib/Time/Timezone.pm t/datetime.t t/metdate.t t/order1.t t/order2.t META.yml Module meta-data (added by MakeMaker) META.json Module JSON meta-data (added by MakeMaker) Time-ParseDate-2015.103/Makefile.PL0000644000175000017500000000074212615001414015172 0ustar muirmuir use ExtUtils::MakeMaker; WriteMakefile( VERSION_FROM => 'lib/Time/ParseDate.pm', NAME => 'Time::ParseDate', ($] >= 5.005 ? ( ABSTRACT => 'Parse and format time values', AUTHOR => 'David Muir Sharnoff ', META_MERGE => { resources => { repository => 'http://github.com/muir/Time-modules', }, }, ) : () ), BUILD_REQUIRES => { 'Time::Piece' => 0, }, dist => { COMPRESS=>"gzip", SUFFIX=>"gz" }, ); Time-ParseDate-2015.103/t/0000755000175000017500000000000012615001713013462 5ustar muirmuirTime-ParseDate-2015.103/t/metdate.t0000644000175000017500000000331112615000530015264 0ustar muirmuir#!/usr/bin/perl -I. -w use strict; use warnings; use Test::More; use Time::ParseDate; use Time::CTime; #-use POSIX qw(tzset); use Time::Piece; my $finished; END { ok($finished, 'finished') if defined $finished } $ENV{'LANG'} = 'C'; $ENV{'TZ'} = 'PST8PDT'; my @x = localtime(785307957); my @y = gmtime(785307957); my $hd = $y[2] - $x[2]; $hd += 24 if $hd < 0; $hd %= 24; if ($hd != 8) { plan skip_all => "It seems localtime() does not honor \$ENV{TZ} when set in the test script."; exit 0; } $ENV{'TZ'} = 'MET'; @x = localtime(785307957); @y = gmtime(785307957); $hd = $y[2] - $x[2]; $hd += 24 if $hd < 0; $hd %= 24; if ($hd != 23) { plan skip_all => "It seems localtime() does not honor \$ENV{TZ} when set in the test script."; exit 0; } plan 'no_plan'; $finished = 0; $ENV{TZ} = 'MET'; my $t0 = parsedate("2009-10-25 02:55:00"); my $t1 = parsedate("+ 1 hour", NOW => scalar(parsedate("2009-10-25 02:55:00"))); my $lt1 = scalar(localtime($t1)); is($t0, 1256435700, "testing TZ=MET seconds"); is($t1, 1256439300, "testing TZ=MET seconds +1 h"); is($lt1, "Sun Oct 25 03:55:00 2009", "testing TZ=MET +1 h localtime"); $ENV{TZ} = "PST8PDT"; my $p0 = parsedate("2009-11-01 01:55:00"); my $p1 = parsedate("+ 1 hour", NOW => scalar(parsedate("2009-11-01 01:55:00"))); my $lp0 = scalar(localtime($p0)); my $lp1 = scalar(localtime($p1)); my $lpz0 = strftime("%R %Z",localtime($p0)); my $lpz1 = strftime("%R %Z",localtime($p1)); is($p0, 1257065700, "testing PST8PDT"); is($lp0, "Sun Nov 1 01:55:00 2009", "testing PST8PDT localtime"); is($p1, 1257069300, "testing PST8PDT"); is($lp1, "Sun Nov 1 01:55:00 2009", "testing PST8PDT localtime"); is($lpz0, "01:55 PDT", "zone 0"); is($lpz1, "01:55 PST", "zone 1"); $finished = 1; Time-ParseDate-2015.103/t/order1.t0000644000175000017500000000156712615000530015050 0ustar muirmuir#!/usr/bin/perl -I. -w use strict; use warnings; use Test::More; use Time::ParseDate; #use POSIX qw(tzset); use Time::Piece; my $finished; END { ok($finished, 'finished') if defined $finished } $ENV{'LANG'} = 'C'; $ENV{'TZ'} = 'PST8PDT'; my @x = localtime(785307957); my @y = gmtime(785307957); my $hd = $y[2] - $x[2]; $hd += 24 if $hd < 0; $hd %= 24; if ($hd != 8) { plan skip_all => "It seems localtime() does not honor \$ENV{TZ} when set in the test script. Please set the TZ environment variable to PST8PDT and rerun."; exit 0; } plan qw(no_plan); $finished = 0; is(parsedate('1918/2/18'), -1636819200, "year 1918"); is(parsedate('2009/7/7'), 1246950000, "year 2009"); $ENV{'TZ'} = 'Europe/Moscow'; is(parsedate('2009-11-01'), 1257022800, 'Europe/Moscow, DST permanent 2009'); is(parsedate('2013-05-30'), 1369857600, 'Europe/Moscow, DST permanent 2013'); $finished = 1; Time-ParseDate-2015.103/t/order2.t0000644000175000017500000000152012615000530015036 0ustar muirmuir#!/usr/bin/perl -I. -w use strict; use warnings; use Time::ParseDate; use Test::More; my $finished; END { ok($finished, 'finished') if defined $finished } $ENV{'LANG'} = 'C'; $ENV{'TZ'} = 'PST8PDT'; my @x = localtime(785307957); my @y = gmtime(785307957); my $hd = $y[2] - $x[2]; $hd += 24 if $hd < 0; $hd %= 24; if ($hd != 8) { plan skip_all => "It seems localtime() does not honor \$ENV{TZ} when set in the test script. Please set the TZ environment variable to PST8PDT and rerun."; exit 0; } plan qw(no_plan); $finished = 0; is(parsedate('2009/7/7'), 1246950000, "year 2009"); is(parsedate('1918/2/18'), -1636819200, "year 1918"); $ENV{'TZ'} = 'Europe/Moscow'; is(parsedate('2013-05-30'), 1369857600, 'Europe/Moscow, DST permanent 2013'); is(parsedate('2009-11-01'), 1257022800, 'Europe/Moscow, DST permanent 2009'); $finished = 1; Time-ParseDate-2015.103/t/datetime.t0000755000175000017500000004740112615000530015450 0ustar muirmuir#!/usr/bin/perl -I. -w # find out why it died if not running under make $debug = 0; $Time::ParseDate::debug = $debug; BEGIN { $okat = 12; $ENV{'LANG'} = 'C'; $ENV{'TZ'} = 'PST8PDT'; %k = ( '%' => '%', 'a' => 'Sat', 'A' => 'Saturday', 'b' => 'Nov', 'h' => 'Nov', 'B' => 'November', 'c' => "Sat Nov 19 21:05:57 1994", 'd' => '19', 'D' => '11/19/94', 'e' => '19', 'f' => '.500', 'F' => '.500000', 'H' => '21', 'I' => '09', 'j' => '323', 'k' => '21', 'l' => ' 9', 'm' => '11', 'M' => '05', 'n' => "\n", 'o' => '19th', 'p' => "PM", 'r' => "09:05:57 PM", 'R' => "21:05", 'S' => "57", 't' => "\t", 'T' => "21:05:57", 'U' => "46", 'v' => "19-Nov-1994", 'w' => "6", 'W' => "46", 'x' => "11/19/94", 'y' => "94", 'Y' => "1994", 'X' => "21:05:57", 'Z' => "PST" ); $sdt_start_line = __LINE__+2; @sdt = ( 796969332, ['950404 00:22:12 "EDT'], 796969332, ['950404 00:22:12.500 "EDT'], 796969332.5, ['950404 00:22:12.500 "EDT', SUBSECOND => 1], 786437763, ['Fri Dec 2 22:56:03 1994', NOW => 785300000], 786437763, ['Fri Dec 2 22:56:03 1994,', NOW => 785300000, WHOLE => 0], 786408963, ['Fri Dec 2 22:56:03 GMT+0 1994', NOW => 785300000], 786408963, ['Fri Dec 2 22:56:03 GMT+0 1994,', NOW => 785300000, WHOLE => 0], 786408963, ['Fri Dec 2 22:56:03.500 GMT+0 1994', NOW => 785300000], 786408963.5, ['Fri Dec 2 22:56:03.500 GMT+0 1994', SUBSECOND => 1, NOW => 785300000], 786437763, ['Fri Dec 2 22:56:03 GMT-8 1994', NOW => 785300000], 786437763, ['Fri Dec 2 22:56:03 GMT-8 1994, stuff', NOW => 785300000, WHOLE => 0], 786437760, ['94/12/02.22:56', NOW => 785300000], 786437760, ['1994/12/02 10:56Pm', NOW => 785300000], 786437760, ['1994/12/2 10:56 PM', NOW => 785300000], 786437760, ['12/02/94 22:56', NOW => 785300000], 786437760, ['12/02/94 22:56.', NOW => 785300000, WHOLE => 0], 786437760, ['12/2/94 10:56Pm', NOW => 785300000], 786437760, ['94/12/2 10:56 pm', NOW => 785300000], 786437763, ['94/12/02 22:56:03', NOW => 785300000], 786437763, ['94/12/02 22:56:03.500', NOW => 785300000], 786437763.5, ['94/12/02 22:56:03.500', SUBSECOND => 1, NOW => 785300000], 786437763, ['94/12/02 10:56:03:500PM', NOW => 785300000], 786437763.5, ['94/12/02 10:56:03:500PM', SUBSECOND => 1, NOW => 785300000], 786437760, ['10:56Pm 94/12/02', NOW => 785300000], 786437763, ['22:56:03 1994/12/02', NOW => 785300000], 786437763, ['22:56:03.5 1994/12/02', NOW => 785300000], 786437763.5, ['22:56:03.5 1994/12/02', SUBSECOND => 1, NOW => 785300000], 786437760, ['22:56 1994/12/2', NOW => 785300000], 786437760, ['10:56PM 12/02/94', NOW => 785300000], 786437760, ['10:56 pm 12/2/94', NOW => 785300000], # 786437760, ['10:56 pm 12/2/94, when', NOW => 785300000, WHOLE => 0], 786437760, ['22:56 94/12/2', NOW => 785300000], 786437760, ['10:56Pm 94/12/02', NOW => 785300000], 796980132, ['Tue Apr 4 00:22:12 PDT 1995'], 796980132, ['April 4th 1995 12:22:12AM', ZONE => PDT], 827878812, ['Tue Mar 26 14:20:12 1996'], 827878812, ['Tue Mar 26 14:20:12 1996', SUBSECOND => 1], 827878812, ['Tue Mar 26 14:20:12.5 1996, and then', WHOLE => 0], 827878812.5, ['Tue Mar 26 14:20:12.5 1996', SUBSECOND => 1], 827878812, ['Tue Mar 26 14:20:12 GMT-0800 1996'], 827878812, ['Tue Mar 26 17:20:12 EST 1996'], 827878812, ['Tue Mar 26 17:20:12 EST 1996, before Joe', WHOLE => 0], 827878812, ['Tue Mar 26 17:20:12 GMT-0500 1996'], 827878812, ['Tue Mar 26 22:20:12 GMT 1996'], 827878812, ['Tue Mar 26 22:20:12 +0000 (GMT) 1996'], 827878812, ['Tue, 26 Mar 22:20:12 +0000 (GMT) 1996'], 784394917, ['Wed, 9 Nov 1994 7:28:37'], 784394917, ['Wed, 9 Nov 1994 7:28:37: Seven', WHOLE => 0], 784887518, ['Tue, 15 Nov 1994 0:18:38'], 788058300, ['21 dec 17:05', NOW => 785300000], 802940400, ['06/12/1995'], 802940400, ['12/06/1995', UK => 1], 802940400, ['12/06/95', UK => 1], 802940400, ['06.12.1995'], 802940400, ['06.12.1995, Fred', WHOLE => 0], 803026800, ['13/06/1995'], 803026800, ['13/06/95'], 784394917, ['Wed, 9 Nov 1994 15:28:37 +0000 (GMT)'], 827878812, ['Tue Mar 26 23:20:12 GMT+0100 1996'], 827878812, ['Wed Mar 27 05:20:12 GMT+0700 1996'], 827878812, ['Wed Mar 27 05:20:12 +0700 1996'], 827878812, ['Wed Mar 27 05:20:12 +07:00 1996'], 827878812, ['Wed Mar 27 05:20:12 +0700 (EST) 1996'], 796980132, ['1995/04/04 00:22:12 PDT'], 796720932, ['1995/04 00:22:12 PDT'], 796980132, ['1995/04/04 00:22:12 PDT'], 796980132, ['Tue, 4 Apr 95 00:22:12 PDT'], 796980132, ['Tue 4 Apr 1995 00:22:12 PDT'], 796980132, ['04 Apr 1995 00:22:12 PDT'], 796980132, ['4 Apr 1995 00:22:12 PDT'], 796980132, ['Tue, 04 Apr 00:22:12 PDT', NOW => 796980132], 796980132, ['Tue 04 Apr 00:22:12 PDT', NOW => 796980132], 796980132, ['04 Apr 00:22:12 PDT', NOW => 796980132], 796980132, ['Apr 04 00:22:12 PDT', NOW => 796980132], 796980132, ['Apr 4 00:22:12 PDT', NOW => 796980132], 796980132, ['Tue, Apr 4 00:22:12 PDT', NOW => 796980132], 796980132, ['Apr 4 1995 00:22:12 PDT'], 796980132, ['April 4th 1995 00:22:12 PDT'], 796980132, ["April 4th, '95 00:22:12 PDT"], 796980132, ["April 4th 00:22:12 PDT", NOW => 796980132], 796980132, ['95/04/04 00:22:12 PDT'], 796980132, ['04/04/95 00:22:12 PDT'], 796720932, ['95/04 00:22:12 PDT'], 796720932, ['04/95 00:22:12 PDT'], 796980132, ['04/04 00:22:12 PDT', NOW => 796980132], 796980132, ['040495 00:22:12 PDT'], 796980132, ['950404 00:22:12 PDT'], 796969332, ['950404 00:22:12 EDT'], 796980132, ['04.04.95 00:22:12', ZONE => PDT], 796980120, ['04.04.95 00:22', ZONE => PDT], 796978800, ['04.04.95 12AM', ZONE => PDT], 796978800, ['04.04.95 12am', ZONE => PDT], 796980120, ['04.04.95 0022', ZONE => PDT], 796980132, ['04.04.95 12:22:12am', ZONE => PDT], 797023332, ['950404 122212', ZONE => PDT], 797023332, ['122212 950404', ZONE => PDT, TIMEFIRST => 1], 796980120, ['04.04.95 12:22AM', ZONE => PDT], 796978800, ['95/04/04 midnight', ZONE => PDT], 796978800, ['95/04/04 Midnight', ZONE => PDT], 797022000, ['95/04/04 Noon', ZONE => PDT], 797022000, ['95/04/04 noon', ZONE => PDT], 797022000, ['95/04/04 12Pm', ZONE => PDT], 796978803, ['+3 secs', NOW => 796978800], 796979600, ['+0800 seconds', NOW => 796978800], 796979600, ['+0800 seconds, Nothing', NOW => 796978800, WHOLE => 0], 796986000, ['+2 hour', NOW => 796978800], 796979400, ['+10min', NOW => 796978800], 796979400, ['+10 minutes', NOW => 796978800], 797011203, ['95/04/04 +3 secs', ZONE => EDT, NOW => 796935600], 797062935, ['4 day +3 secs', ZONE => PDT, NOW => 796720932], 797062935, ['now + 4 days +3 secs', ZONE => PDT, NOW => 796720932], 797062935, ['now +4 days +3 secs', ZONE => PDT, NOW => 796720932], 796720932, ['now', ZONE => PDT, NOW => 796720932], 796720936, ['now +4 secs', ZONE => PDT, NOW => 796720932], 796735332, ['now +4 hours', ZONE => PDT, NOW => 796720932], 797062935, ['+4 days +3 secs', ZONE => PDT, NOW => 796720932], 797062935, ['+ 4 days +3 secs', ZONE => PDT, NOW => 796720932], 797062929, ['4 day -3 secs', ZONE => PDT, NOW => 796720932], 796375329, ['-4 day -3 secs', ZONE => PDT, NOW => 796720932], 796375329, ['now - 4 days -3 secs', ZONE => PDT, NOW => 796720932], 796375329, ['now -4 days -3 secs', ZONE => PDT, NOW => 796720932], 796720928, ['now -4 secs', ZONE => PDT, NOW => 796720932], 796706532, ['now -4 hours', ZONE => PDT, NOW => 796720932], 796375329, ['-4 days -3 secs', ZONE => PDT, NOW => 796720932], 796375329, ['- 4 days -3 secs', ZONE => PDT, NOW => 796720932], 797322132, ['1 week', NOW => 796720932], 801987732, ['2 month', NOW => 796720932], 804579732, ['3 months', NOW => 796720932], 804579732, ['3 months, 7 days', NOW => 796720932, WHOLE => 0], # perhaps this is wrong 859879332, ['2 years', NOW => 796720932], 797671332, ['Wed after next', NOW => 796980132], 797498532, ['next monday', NOW => 796980132], 797584932, ['next tuesday', NOW => 796980132], 797584932, ['next tuesday, the 9th', NOW => 796980132, WHOLE => 0], # perhaps this is wrong 797066532, ['next wEd', NOW => 796980132], 796378932, ['last tuesday', NOW => 796980132], 796465332, ['last wednesday', NOW => 796980132], 796893732, ['last monday', NOW => 796980132], 797036400, ['today at 4pm', NOW => 796980132], 797080932, ['tomorrow +4hours', NOW => 796980132], 796950000, ['yesterday at 4pm', NOW => 796980132], 796378932, ['last week', NOW => 796980132], 794305332, ['last month', NOW => 796980132], 765444132, ['last year', NOW => 796980132], 797584932, ['next week', NOW => 796980132], 799572132, ['next month', NOW => 796980132], 828606132, ['next year', NOW => 796980132], 836391600, ['July 3rd, 4:00AM 1996 ', DATE_REQUIRED =>1, TIME_REQUIRED=>1, NO_RELATIVE=>1, NOW=>796980132], 783718105, ['Tue, 01 Nov 1994 11:28:25 -0800'], 202779300, ['5:35 pm june 4th CST 1976'], 236898000, ['5pm EDT 4th july 1977'], 236898000, ['5pm EDT 4 july 1977'], 819594300, ['21-dec 17:05', NOW => 796980132], 788058300, ['21-dec 17:05', NOW => 796980132, PREFER_PAST => 1], 819594300, ['21-dec 17:05', NOW => 796980132, PREFER_FUTURE => 1], 793415100, ['21-feb 17:05', NOW => 796980132, PREFER_PAST => 1], 824951100, ['21-feb 17:05', NOW => 796980132, PREFER_FUTURE => 1], 819594300, ['21/dec 17:05', NOW => 796980132], 756522300, ['21/dec/93 17:05'], 788058300, ['dec 21 1994 17:05'], 788058300, ['dec 21 94 17:05'], 788058300, ['dec 21 94 17:05'], 796465332, ['Wednesday', NOW => 796980132, PREFER_PAST => 1], 796378932, ['Tuesday', NOW => 796980132, PREFER_PAST => 1], 796893732, ['Monday', NOW => 796980132, PREFER_PAST => 1], 797066532, ['Wednesday', NOW => 796980132, PREFER_FUTURE => 1], 797584932, ['Tuesday', NOW => 796980132, PREFER_FUTURE => 1], 797498532, ['Monday', NOW => 796980132, PREFER_FUTURE => 1], 802915200, ['06/12/1995', ZONE => GMT], 828860438, ['06/Apr/1996:23:00:38 -0800'], 828860438, ['06/Apr/1996:23:00:38'], 828943238, ['07/Apr/1996:23:00:38 -0700'], 828878618, ['07/Apr/1996:12:03:38', ZONE => GMT], 828856838, ['06/Apr/1996:23:00:38 -0700'], 828946838, ['07/Apr/1996:23:00:38 -0800'], 895474800, ['5/18/1998'], 796980132, ['04/Apr/1995:00:22:12', ZONE => PDT], 796983732, ['04/Apr/1995:00:22:12 -0800'], 796983732, ['04/Apr/1995:00:22:12', ZONE => PST], 202772100, ['5:35 pm june 4th 1976 EDT'], 796892400, ['04/03', NOW => 796980132, PREFER_PAST => 1], 765702000, ['04/07', NOW => 796980132, PREFER_PAST => 1], 883641600, ['1/1/1998', VALIDATE => 1], 852105600, ['1/1/1997'], 852105600, ['last year', NOW => 883641600], 820483200, ['-2 years', NOW => 883641600], 832402800, ['-2 years', NOW => 895474800], 891864000, ['+3 days', NOW => 891608400], 891777600, ['+2 days', NOW => 891608400], 902938515, ['1998-08-12 12:15:15', ZONE => 'EDT'], 946684800, ['2000-01-01 00:00:00', ZONE => GMT], 1262304000, ['2010-01-01 00:00:00', ZONE => GMT], 757065600, ['12/28/93', NOW => 1262304000], 1924675200, ['12/28/30', NOW => 1262304000], 946751430, ['Jan 1 2000 10:30:30AM'], 946722083, ['Sat Jan 1 02:21:23 2000'], 946774740, ['Jan 1 2000 4:59PM', WHOLE => 1], 946774740, ['Jan 1 2000 4:59PM', WHOLE => 1], 0, ['1970/01/01 00:00:00', ZONE => GMT], 796980132, ['Tue 4 Apr 1995 00:22:12 PDT 8', WHOLE => 0], 789008700, ['dec 32 94 17:05'], 796983072, ['1995/04/04 00:71:12 PDT'], undef, ['1995/04/04 00:71:12 PDT', VALIDATE => 1], undef, ['38/38/21', VALIDATE => 1], undef, ['dec 32 94 17:05', VALIDATE => 1], undef, ['Tue 4 Apr 1995 00:22:12 PDT 8', WHOLE => 1], undef, ['Tue 4 Apr 199 00:22:12 PDT'], 1924675200, ['12/28/30', NOW => 1262304000, PREFUR_FUTURE => 1], 1924675200, ['28/12/30', NOW => 1262304000, PREFUR_FUTURE => 1, UK => 1], -1578240000, ['12/28/19', NOW => 902938515, PREFER_PAST => 1], -347155200, ['1959-01-01 00:00:00', ZONE => GMT], -158083200, ['12/28/64', NOW => 902938515], -1231084800, ['12/28/30', NOW => 1262304000, PREFER_PAST => 1], -345600, ['1969-12-28 00:00:00', ZONE => GMT], -1231084800, ['28/12/30', NOW => 1262304000, PREFER_PAST => 1, UK => 1], 1577520000, ['12/28/19', NOW => 902938515, PREFER_FUTURE => 1], 1766908800, ['12/28/25', NOW => 902938515], 958521600, ['17 May 2000 00:00:00 GMT'], 979718400, ['1/17/01', NOW => 993067736], 995353200, ['7/17/01', NOW => 993067736], 995353200, ['7/17/01', NOW => 993067736, PREFER_FUTURE => 1], 995366188, ['17/07/2001 18:36:28 +0800', WHOLE => 1], 995366188, ['17/07/2001 18:36:28+0800', WHOLE => 1], 995330188, ['17/07/2001 0:36:28+0000', WHOLE => 1], 995416588, ['17/07/2001 24:36:28+0000', WHOLE => 1], undef, ['17/07/2001 24:36:28+0000', WHOLE => 1, VALIDATE => 1], 995330188, ['17/07/2001 0:36:28+0000', WHOLE => 1, VALIDATE => 1], 796375332, ['4 days ago', WHOLE =>1, ZONE => PDT, NOW => 796720932], 796720931, ['1 second ago', WHOLE =>1, ZONE => PDT, NOW => 796720932], 796375331, ['4 days 1 second ago', WHOLE =>1, ZONE => PDT, NOW => 796720932], 796375331, ['1 second 4 days ago', WHOLE =>1, ZONE => PDT, NOW => 796720932], 953467299, ['Sun Mar 19 17:31:39 IST 2000'], 784111777, ['Sunday, 06-Nov-94 08:49:37 GMT' ], 954933672, ['Wed Apr 5 13:21:12 MET DST 2000' ], 729724230, ['1993-02-14T13:10:30', NOW => 796980132], #ISO8601 729724230, ['19930214T131030', NOW => 796980132], 14400, ['+4 hours', NOW => 0], 345600, ['+4 days', NOW => 0], 957744000, ['Sunday before last', NOW => 958521600], 957139200, ['Sunday before last', NOW => 958348800], 796720930.5, ['1.5 second ago', WHOLE =>1.5, ZONE => PDT, NOW => 796720932], 796720930.5, ['1 1/2 second ago', WHOLE =>1.5, ZONE => PDT, NOW => 796720932], 5, ['5 seconds', UK => 1, NOW => 0], 6, ['5 seconds', UK => 1, NOW => 1], 1078876800, ['2004-03-10 00:00:00 GMT'], 1081551599, ['-1 second +1 month', NOW => 1078876800, ZONE => 'PDT'], 1081526399, ['-1 second +1 month', NOW => 1078876800, ZONE => 'GMT'], 1304661600, ['11pm', NOW => 1304611460], 1304636400, ['11pm', NOW => 1304611460, GMT => 1], 1304557200, ['1am', NOW => 1304611460, GMT => 1], 1246950000, ['2009/7/7'], -1636819200, ['1918/2/18'], 1246950000, ['2009/7/7'], 1256435700, ['2009-10-25 02:55:00', ZONE => 'MET'], 1256439300, ['+ 1 hour', NOW => 1256435700, ZONE => 'MET'], 1256464500, ['2009-10-25 02:55:00', ZONE => 'PDT'], 1256468100, ['+ 1 hour', NOW => 1256464500, ZONE => 'PDT'], 1256468100, ['2009-10-25 02:55:00', ZONE => 'PST'], 1256471700, ['+ 1 hour', NOW => 1256468100, ZONE => 'PST'], [1304622000, 'Foo'], ['12pm Foo', NOW => 1304611460, WHOLE => 0], undef, ['Foo 12pm', NOW => 1304611460, WHOLE => 0], undef, ['Foo noon', NOW => 1304611460, WHOLE => 0], undef, ['Foo midnight', NOW => 1304611460, WHOLE => 0], 1011252345, ['Wed Jan 16 23:25:45 2002'], 1012550400, ['Feb 1', NOW => 1011252345], 1012550400, ['Feb 1', NOW => 1011252345, FUZZY => 1, PREFER_FUTURE => 1], 1012550400, ['2/1/02', NOW => 1011252345, FUZZY => 1, PREFER_FUTURE => 1], 1011247200, ['6am', GMT => 1, NOW => 1011252345], 1256435700, ['2009-10-25 02:55:00', ZONE => 'MEZ'], 1348073459, ['2012-09-19 09:50:59'], 1348073459.344702843, ['2012-09-19 09:50:59.344702843', SUBSECOND => 1], 1304233200, ['May 1, 2011', WHOLE => 1], 1304233200, ['May 1, 2011', WHOLE => 0], 1301641200, ['April 1, 2011', WHOLE => 0], 1301641200, ['April 1, 2011', WHOLE => 1], ); %tztests = ( "YDT" => -8*3600, # Yukon Daylight "HDT" => -9*3600, # Hawaii Daylight "BST" => +1*3600, # British Summer "MEST" => +2*3600 # Middle European Summer ); } use Time::CTime; use Time::JulianDay; use Time::ParseDate; use Time::Local; use Time::Timezone; #use POSIX qw(tzset); #-use POSIX qw(tzset); # - -eval { tzset }; # Might not be implemented everywhere +use Time::Piece; #eval { tzset }; # Might not be implemented everywhere use Time::Piece; my @x = localtime(785307957); my @y = gmtime(785307957); my $hd = $y[2] - $x[2]; $hd += 24 if $hd < 0; $hd %= 24; if ($hd != 8) { print "1..0 # Skipped: It seems localtime() does not honor \$ENV{TZ} when set in the test script. Please set the TZ environment variable to PST8PDT and rerun."; print "hd = $hd, x = @x, y = @y\n" if $debug || -t STDOUT; exit 0; } my $before_big = $okat-1+scalar(keys %k)+scalar(keys %tztests); printf "1..%d\n", $before_big + scalar(grep(ref($_), @sdt)); print "ok 1\n"; $epoch = ($Time::JulianDay::jd_epoch - 2440588) * 86400 + $Time::JulianDay::jd_epoch_remainder; print STDERR "\nEpoch = $epoch\n" if $epoch; $etime = 785307957.5 - $epoch; eval " 1/0; "; # tests a bug in ctime! $x = ctime($etime); print $x eq "Sat Nov 19 21:05:57 PST 1994\n" ? "ok 2\n" : "not ok 2\n"; print julian_day(1994,11,19) == 2449676 ? "ok 3\n" : "not ok 3\n"; @x = inverse_julian_day(2449676); print (($x[0] == 1994 and $x[1] == 11 and $x[2] == 19) ? "ok 4\n" : "not ok 4\n"); print "ok 5\n"; print day_of_week(2449676) == 6 ? "ok 6\n" : "not ok 6\n"; $bs = 786439995 - $epoch; use vars qw($isdst $wday $yday); ($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst) = gmtime($bs); $jdtgm = jd_timegm($sec,$min,$hour,$mday,$mon,$year); $jdtl = jd_timelocal($sec,$min,$hour,$mday,$mon,$year); $tltl = timelocal($sec,$min,$hour,$mday,$mon,$year); $year += 100 if $year < 70; $jd = julian_day($year+1900, $mon+1, $mday); $s = jd_secondsgm($jd, $hour, $min, $sec); $lo = tz_local_offset($bs); print <<"" if $debug; s = $s bs = $bs jdtgm = $jdtgm jdtl = $jdtl tltl = $tltl lo = $lo print $s == $bs ? "ok 7\n" : "not ok 7\n"; print $jdtgm == $bs ? "ok 8\n" : "not ok 8\n"; print $jdtl == $bs+8*3600 ? "ok 9\n" : "not ok 9\n"; print $tltl == $bs+8*3600 ? "ok 10\n" : "not ok 10\n"; print $lo == - 28800 ? "ok 11\n" : "no ok 11\n"; ################### make these last... $c = $okat; @lt = localtime($etime); $lt[0] += ($etime - int($etime)); foreach $i (sort keys %k) { $x = strftime("-%$i-", @lt); print $x eq "-$k{$i}-" ? "ok $c # $i - $k{$i}\n" : "not ok $c # $i - $k{$i}: $x\n"; if ($debug && $x ne "-$k{$i}-") { print "strftime(\"-%$i-\") = $x.\n\tshould be: $k{$i}.\n"; exit(0); } $c++; } foreach $i (keys %tztests) { $tzo = tz_offset($i,799572132); print $tzo eq $tztests{$i} ? "ok $c\n" : "not ok $c\n"; if (($debug || -t STDOUT) && $tzo ne $tztests{$i}) { print "tz_offset($i) = $tzo != $tztests{$i}\n"; exit(0); } $c++; } while (@sdt) { $es = shift(@sdt); my $eremaining; if (ref($es)) { $eremaining = $es->[1]; $es = $es->[0]; } $es -= $epoch if defined($es); $ar = shift(@sdt); $toparse = shift(@$ar); %opts = @$ar; if (defined $opts{NOW}) { $opts{NOW} -= $epoch; } $opts{WHOLE} = 1 unless defined $opts{WHOLE}; my $remaining; if (defined $eremaining) { ($s, $remaining) = parsedate($toparse, %opts); } else { $s = parsedate($toparse, %opts); } if (! defined($es) && ! defined($s)) { print "ok $c # $toparse\n"; } elsif (defined($es) && defined($s) && ($es == $s || "$es" eq "$s")) { print "ok $c # $toparse\n"; } else { print "not ok $c # $toparse\n"; if (-t STDOUT || $debug) { if (defined($es)) { print strftime("Expected($es): %c %Z\n", localtime($es)); } else { print "Expected undef\n"; } $s = 0 unless defined $s; print strftime("\tGot($s): %c %Z", localtime($s)); print strftime(" (%m/%d %I:%M %p GMT)\n", gmtime($s)); print "\tInput: $toparse\n"; for my $zk (keys %opts) { my $zv = $opts{$zk}; if ($zk eq 'NOW') { print strftime("\t\tNOW => %c %Z\n", localtime($zv)); } else { print "\t\t$zk => $zv\n"; } } if (-t STDOUT) { print "The parse...\n"; $Time::ParseDate::debug = 1; &parsedate($toparse, %opts); printf "Test that failed was on line %d\n", $c-$before_big+$sdt_start_line-1; exit(0); } } } if (defined($eremaining)) { $c++; if ($remaining eq $eremaining) { print "ok $c # remaining = '$eremaining'\n"; } else { print "not ok $c # remaining = '$eremaining'\n"; if (-t STDOUT || $debug) { print "# got '$remaining' instead\n"; } } } $c++; }