package
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;