#!./perl BEGIN { if ($ENV{PERL_CORE}){ chdir('t') if -d 't'; @INC = ('.', '../lib'); } } use strict; use Config; use Test; use Time::Local; # Set up time values to test my @time = ( #year,mon,day,hour,min,sec [1970, 1, 2, 00, 00, 00], [1980, 2, 28, 12, 00, 00], [1980, 2, 29, 12, 00, 00], [1999, 12, 31, 23, 59, 59], [2000, 1, 1, 00, 00, 00], [2010, 10, 12, 14, 13, 12], # leap day [2020, 2, 29, 12, 59, 59], [2030, 7, 4, 17, 07, 06], # The following test fails on a surprising number of systems # so it is commented out. The end of the Epoch for a 32-bit signed # implementation of time_t should be Jan 19, 2038 03:14:07 UTC. # [2038, 1, 17, 23, 59, 59], # last full day in any tz ); my @bad_time = ( # month too large [1995, 13, 01, 01, 01, 01], # day too large [1995, 02, 30, 01, 01, 01], # hour too large [1995, 02, 10, 25, 01, 01], # minute too large [1995, 02, 10, 01, 60, 01], # second too large [1995, 02, 10, 01, 01, 60], ); my @neg_time = ( # test negative epochs for systems that handle it [ 1969, 12, 31, 16, 59, 59 ], [ 1950, 04, 12, 9, 30, 31 ], ); # Use 3 days before the start of the epoch because with Borland on # Win32 it will work for -3600 _if_ your time zone is +01:00 (or # greater). my $neg_epoch_ok = defined ((localtime(-259200))[0]) ? 1 : 0; # use vmsish 'time' makes for oddness around the Unix epoch if ($^O eq 'VMS') { $time[0][2]++; $neg_epoch_ok = 0; # time_t is unsigned } my $tests = (@time * 12); $tests += @neg_time * 12; $tests += @bad_time; $tests += 6; $tests += 2 if $ENV{PERL_CORE}; $tests += 6 if $ENV{MAINTAINER}; plan tests => $tests; for (@time, @neg_time) { my($year, $mon, $mday, $hour, $min, $sec) = @$_; $year -= 1900; $mon--; if ($^O eq 'vos' && $year == 70) { skip(1, "skipping 1970 test on VOS.\n") for 1..6; } elsif ($year < 70 && ! $neg_epoch_ok) { skip(1, "skipping negative epoch.\n") for 1..6; } else { my $year_in = $year < 70 ? $year + 1900 : $year; my $time = timelocal($sec,$min,$hour,$mday,$mon,$year_in); my($s,$m,$h,$D,$M,$Y) = localtime($time); ok($s, $sec, "timelocal second for @$_"); ok($m, $min, "timelocal minute for @$_"); ok($h, $hour, "timelocal hour for @$_"); ok($D, $mday, "timelocal day for @$_"); ok($M, $mon, "timelocal month for @$_"); ok($Y, $year, "timelocal year for @$_"); } if ($^O eq 'vos' && $year == 70) { skip(1, "skipping 1970 test on VOS.\n") for 1..6; } elsif ($year < 70 && ! $neg_epoch_ok) { skip(1, "skipping negative epoch.\n") for 1..6; } else { my $year_in = $year < 70 ? $year + 1900 : $year; my $time = timegm($sec,$min,$hour,$mday,$mon,$year_in); my($s,$m,$h,$D,$M,$Y) = gmtime($time); ok($s, $sec, "timegm second for @$_"); ok($m, $min, "timegm minute for @$_"); ok($h, $hour, "timegm hour for @$_"); ok($D, $mday, "timegm day for @$_"); ok($M, $mon, "timegm month for @$_"); ok($Y, $year, "timegm year for @$_"); } } for (@bad_time) { my($year, $mon, $mday, $hour, $min, $sec) = @$_; $year -= 1900; $mon--; eval { timegm($sec,$min,$hour,$mday,$mon,$year) }; ok($@, qr/.*out of range.*/, 'invalid time caused an error'); } ok(timelocal(0,0,1,1,0,90) - timelocal(0,0,0,1,0,90), 3600, 'one hour difference between two calls to timelocal'); ok(timelocal(1,2,3,1,0,100) - timelocal(1,2,3,31,11,99), 24 * 3600, 'one day difference between two calls to timelocal'); # Diff beween Jan 1, 1980 and Mar 1, 1980 = (31 + 29 = 60 days) ok(timegm(0,0,0, 1, 2, 80) - timegm(0,0,0, 1, 0, 80), 60 * 24 * 3600, '60 day difference between two calls to timegm'); # bugid #19393 # At a DST transition, the clock skips forward, eg from 01:59:59 to # 03:00:00. In this case, 02:00:00 is an invalid time, and should be # treated like 03:00:00 rather than 01:00:00 - negative zone offsets used # to do the latter { my $hour = (localtime(timelocal(0, 0, 2, 7, 3, 102)))[2]; # testers in US/Pacific should get 3, # other testers should get 2 ok($hour == 2 || $hour == 3, 1, 'hour should be 2 or 3'); } if ($neg_epoch_ok) { eval { timegm(0,0,0,29,1,1900) }; ok($@, qr/Day '29' out of range 1\.\.28/); eval { timegm(0,0,0,29,1,1904) }; ok($@, ''); } else { skip(1, "skipping negative epoch.\n") for 1..2; } if ($ENV{MAINTAINER}) { eval { require POSIX; POSIX::tzset() }; if ($@) { skip( 1, "Cannot call POSIX::tzset() on this platform\n" ) for 1..3; } else { local $ENV{TZ} = 'Europe/Vienna'; POSIX::tzset(); # 2001-10-28 02:30:00 - could be either summer or standard time, # prefer earlier of the two, in this case summer my $time = timelocal(0, 30, 2, 28, 9, 101); ok($time, 1004229000, 'timelocal prefers earlier epoch in the presence of a DST change'); local $ENV{TZ} = 'America/Chicago'; POSIX::tzset(); # Same local time in America/Chicago. There is a transition # here as well. $time = timelocal(0, 30, 1, 28, 9, 101); ok($time, 1004250600, 'timelocal prefers earlier epoch in the presence of a DST change'); $time = timelocal(0, 30, 2, 1, 3, 101); ok($time, 986113800, 'timelocal for non-existent time gives you the time one hour later'); local $ENV{TZ} = 'Australia/Sydney'; POSIX::tzset(); # 2001-03-25 02:30:00 in Australia/Sydney. This is the transition # _to_ summer time. The southern hemisphere transitions are # opposite those of the northern. $time = timelocal(0, 30, 2, 25, 2, 101); ok($time, 985447800, 'timelocal prefers earlier epoch in the presence of a DST change'); $time = timelocal(0, 30, 2, 28, 9, 101); ok($time, 1004200200, 'timelocal for non-existent time gives you the time one hour later'); local $ENV{TZ} = 'Europe/London'; POSIX::tzset(); $time = timelocal( localtime(1111917720) ); ok($time, 1111917720, 'timelocal for round trip bug on date of DST change for Europe/London'); } } if ($ENV{PERL_CORE}) { package test; require 'timelocal.pl'; # need to get ok() from main package ::ok(timegm(0,0,0,1,0,80), main::timegm(0,0,0,1,0,80), 'timegm in timelocal.pl'); ::ok(timelocal(1,2,3,4,5,88), main::timelocal(1,2,3,4,5,88), 'timelocal in timelocal.pl'); }