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Temporal.pm
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Temporal.pm
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use v6;
role Dateish {
has Int $.year;
has Int $.month = 1;
has Int $.day = 1;
multi method is-leap-year($y = $!year) {
$y %% 4 and not $y %% 100 or $y %% 400
}
multi method days-in-month($year = $!year, $month = $!month) {
$month == 2 ?? self.is-leap-year($year) ?? 29 !! 28
!! $month == 4|6|9|11 ?? 30
!! 31
}
method daycount-from-ymd($y is copy, $m is copy, $d) {
# taken from <http://www.merlyn.demon.co.uk/daycount.htm>
$y .= Int;
$m .= Int;
if $m < 3 {
$m += 12;
--$y;
}
-678973 + $d + (153 * $m - 2) div 5
+ 365 * $y + $y div 4
- $y div 100 + $y div 400;
}
method ymd-from-daycount($daycount) {
# taken from <http://www.merlyn.demon.co.uk/daycount.htm>
my $day = $daycount.Int + 678881;
my $t = (4 * ($day + 36525)) div 146097 - 1;
my $year = 100 * $t;
$day -= 36524 * $t + ($t +> 2);
$t = (4 * ($day + 366)) div 1461 - 1;
$year += $t;
$day -= 365 * $t + ($t +> 2);
my $month = (5 * $day + 2) div 153;
$day -= (2 + $month * 153) div 5 - 1;
if ($month > 9) {
$month -= 12;
$year++;
}
($year, $month + 3, $day)
}
multi method get-daycount {
self.daycount-from-ymd($.year, $.month, $.day)
}
method day-of-month() { $.day }
method day-of-week($daycount = self.get-daycount) {
($daycount + 2) % 7 + 1
}
multi method week() { # algorithm from Claus Tøndering
my $a = $.year - ($.month <= 2).floor;
my $b = $a div 4 - $a div 100 + $a div 400;
my $c = ($a - 1) div 4 - ($a - 1) div 100 + ($a - 1) div 400;
my $s = $b - $c;
my $e = $.month <= 2 ?? 0 !! $s + 1;
my $f = $.day + do $.month <= 2
?? 31*($.month - 1) - 1
!! (153*($.month - 3) + 2) div 5 + 58 + $s;
my $g = ($a + $b) % 7;
my $d = ($f + $g - $e) % 7;
my $n = $f + 3 - $d;
$n < 0 ?? ($.year - 1, 53 - ($g - $s) div 5)
!! $n > 364 + $s ?? ($.year + 1, 1)
!! ($.year, $n div 7 + 1);
}
multi method week-year() {
self.week.[0]
}
multi method week-number() {
self.week.[1]
}
multi method weekday-of-month {
($.day - 1) div 7 + 1
}
multi method day-of-year() {
[+] $.day, map { self.days-in-month($.year, $^m) }, 1 ..^ $.month
}
method check-value($val is rw, $name, $range, :$allow-nonint) {
$val = $allow-nonint ?? +$val !! $val.Int;
$val ~~ $range or
or die "$name must be in {$range.perl}\n";
}
method check-date {
# Asserts the validity of and numifies $!year, $!month, and $!day.
$!year .= Int;
self.check-value($!month, 'month', 1 .. 12);
self.check-value($!day, "day of $!year/$!month",
1 .. self.days-in-month);
}
method truncate-parts($unit, %parts is copy = ()) {
# Helper for DateTime.truncated-to and Date.truncated-to.
if $unit eq 'week' {
my $dc = self.get-daycount;
my $new-dc = $dc - self.day-of-week($dc) + 1;
%parts<year month day> =
self.ymd-from-daycount($new-dc);
} else { # $unit eq 'month'|'year'
%parts<day> = 1;
$unit eq 'year' and %parts<month> = 1;
}
%parts;
}
}
sub default-formatter(::DateTime $dt, Bool :$subseconds) {
# ISO 8601 timestamp (well, not strictly ISO 8601 if $subseconds
# is true)
my $o = $dt.offset;
$o %% 60
or warn "Default DateTime formatter: offset $o not divisible by 60.\n";
sprintf '%04d-%02d-%02dT%02d:%02d:%s%s',
$dt.year, $dt.month, $dt.day, $dt.hour, $dt.minute,
$subseconds
?? $dt.second.fmt('%09.6f')
!! $dt.whole-second.fmt('%02d'),
do $o
?? sprintf '%s%02d%02d',
$o < 0 ?? '-' !! '+',
($o.abs / 60 / 60).floor,
($o.abs / 60 % 60).floor
!! 'Z';
}
class DateTime-local-timezone does Callable {
method Str { '<local time zone>' }
method perl { '$*TZ' }
method postcircumfix:<( )>($args) { self.offset(|$args) }
method offset($dt, $to-utc) {
# We construct local and UTC DateTimes, calculate POSIX times
# (pretending the local DateTime is actually in UTC), and
# return the difference. Surprisingly, this actually works!
if $to-utc { Q:PIR {
.local pmc dt, a
dt = find_lex '$dt'
# Create an array for encodelocaltime.
a = new 'FixedIntegerArray'
a = 9
$P0 = dt.'whole-second'()
a[0] = $P0
$P0 = getattribute dt, '$!minute'
a[1] = $P0
$P0 = getattribute dt, '$!hour'
a[2] = $P0
$P0 = getattribute dt, '$!day'
a[3] = $P0
$P0 = getattribute dt, '$!month'
a[4] = $P0
$P0 = getattribute dt, '$!year'
a[5] = $P0
a[8] = -1
# Indefinite Daylight-Saving state. This leaves it up
# to whatever C library we're using to decide how to
# interpret an ambiguous time.
# Use encodelocaltime to get a POSIX time, and
# subtract this from $dt's POSIX time.
$I0 = encodelocaltime a
$P0 = find_lex '$dt'
$P0 = $P0.'posix'(true)
$I1 = $P0
$I0 = $I1 - $I0
$P0 = $I0
%r = $P0
}; } else {
my $p = $dt.posix;
my ($year, $month, $day, $hour, $minute, $second);
# Use decodelocaltime to build a local DateTime.
Q:PIR {
$P0 = find_lex '$p'
$I0 = $P0
.local pmc a
a = decodelocaltime $I0
$P0 = find_lex '$second'
$I0 = a[0]
'&infix:<=>'($P0, $I0)
$P0 = find_lex '$minute'
$I0 = a[1]
'&infix:<=>'($P0, $I0)
$P0 = find_lex '$hour'
$I0 = a[2]
'&infix:<=>'($P0, $I0)
$P0 = find_lex '$day'
$I0 = a[3]
'&infix:<=>'($P0, $I0)
$P0 = find_lex '$month'
$I0 = a[4]
'&infix:<=>'($P0, $I0)
$P0 = find_lex '$year'
$I0 = a[5]
'&infix:<=>'($P0, $I0)
};
::DateTime\
.new(:$year, :$month, :$day, :$hour, :$minute, :$second)\
.posix - $p;
}
}
}
class DateTime does Dateish {
has Int $.hour = 0;
has Int $.minute = 0;
has $.second = 0.0;
has $.timezone = 0; # UTC
has &.formatter; # = &default-formatter; # Doesn't work (not in scope?).
has Int $!saved-offset;
# Not an optimization but a necessity to ensure that
# $dt.utc.local.utc is equivalent to $dt.utc. Otherwise,
# DST-induced ambiguity could ruin our day.
multi method new(Int :$year!, :&formatter=&default-formatter, *%_) {
my $dt = self.bless(*, :$year, :&formatter, |%_);
$dt.check-date;
$dt.check-time;
$dt;
}
method check-time {
# Asserts the validity of and numifies $!hour, $!minute, and $!second.
self.check-value($!hour, 'hour', 0 ..^ 24);
self.check-value($!minute, 'minute', 0 ..^ 60);
self.check-value($!second, 'second', 0 ..^ 62, :allow-nonint);
if $!second >= 60 {
# Ensure this is an actual leap second.
self.second < 61
or die 'No second 61 has yet been defined';
my $dt = self.utc;
$dt.hour == 23 && $dt.minute == 59
or die 'A leap second can occur only at hour 23 and minute 59 UTC';
my $date = sprintf '%04d-%02d-%02d',
$dt.year, $dt.month, $dt.day;
$date eq any(tai-utc::leap-second-dates)
or die "There is no leap second on UTC $date";
}
}
multi method new(::Date :$date!, *%_) {
self.new(year => $date.year, month => $date.month,
day => $date.day, |%_)
}
multi method new(Instant $i, :$timezone=0, :&formatter=&default-formatter) {
my ($p, $leap-second) = $i.to-posix;
my $dt = self.new: floor($p - $leap-second), :&formatter;
$dt.clone(second => $dt.second + $p % 1 + $leap-second
).in-timezone($timezone);
}
multi method new(Int $time is copy, :$timezone=0, :&formatter=&default-formatter) {
# Interpret $time as a POSIX time.
my $second = $time % 60; $time = $time div 60;
my $minute = $time % 60; $time = $time div 60;
my $hour = $time % 24; $time = $time div 24;
# Day month and leap year arithmetic, based on Gregorian day #.
# 2000-01-01 noon UTC == 2451558.0 Julian == 2451545.0 Gregorian
$time += 2440588; # because 2000-01-01 == Unix epoch day 10957
my $a = $time + 32044; # date algorithm from Claus Tøndering
my $b = (4 * $a + 3) div 146097; # 146097 = days in 400 years
my $c = $a - (146097 * $b) div 4;
my $d = (4 * $c + 3) div 1461; # 1461 = days in 4 years
my $e = $c - ($d * 1461) div 4;
my $m = (5 * $e + 2) div 153; # 153 = days in Mar-Jul Aug-Dec
my $day = $e - (153 * $m + 2) div 5 + 1;
my $month = $m + 3 - 12 * ($m div 10);
my $year = $b * 100 + $d - 4800 + $m div 10;
self.bless(*, :$year, :$month, :$day,
:$hour, :$minute, :$second,
:&formatter).in-timezone($timezone);
}
multi method new(Str $format, :$timezone is copy = 0, :&formatter=&default-formatter) {
$format ~~ /^ (\d**4) '-' (\d\d) '-' (\d\d) T (\d\d) ':' (\d\d) ':' (\d\d) (Z || (<[\-\+]>) (\d\d)(\d\d))? $/
or die 'Invalid DateTime string; please an ISO 8601 timestamp';
my $year = (+$0).Int;
my $month = (+$1).Int;
my $day = (+$2).Int;
my $hour = (+$3).Int;
my $minute = (+$4).Int;
my $second = +$5;
if $6 {
$timezone
and die "DateTime.new(Str): :timezone argument not allowed with a timestamp offset";
if $6 eq 'Z' {
$timezone = 0;
} else {
$timezone = (($6[0][1]*60 + $6[0][2]) * 60).Int;
# RAKUDO: .Int is needed to avoid to avoid the nasty '-0'.
$6[0][0] eq '-' and $timezone = -$timezone;
}
}
self.new(:$year, :$month, :$day, :$hour, :$minute,
:$second, :$timezone, :&formatter);
}
multi method now(:$timezone=$*TZ, :&formatter=&default-formatter) {
self.new(now, :$timezone, :&formatter)
}
multi method clone(*%_) {
self.new(:$!year, :$!month, :$!day,
:$!hour, :$!minute, :$!second,
timezone => $!timezone,
formatter => &!formatter,
|%_)
}
multi method clone-without-validating(*%_) { # A premature optimization.
self.bless(*, :$!year, :$!month, :$!day,
:$!hour, :$!minute, :$!second,
timezone => $!timezone,
formatter => &!formatter,
|%_)
}
multi method Instant() {
Instant.from-posix: self.posix + $.second % 1, $.second >= 60;
}
multi method posix($ignore-timezone?) {
$ignore-timezone or self.offset == 0
or return self.utc.posix;
# algorithm from Claus Tøndering
my $a = (14 - $.month.Int) div 12;
my $y = $.year.Int + 4800 - $a;
my $m = $.month.Int + 12 * $a - 3;
my $jd = $.day + (153 * $m + 2) div 5 + 365 * $y
+ $y div 4 - $y div 100 + $y div 400 - 32045;
($jd - 2440588) * 24 * 60 * 60
+ 60*(60*$.hour + $.minute) + self.whole-second;
}
method offset {
$!saved-offset or
$!timezone ~~ Callable
?? $!timezone(self, True)
!! $!timezone
}
multi method truncated-to(*%args) {
%args.keys == 1
or die 'DateTime.truncated-to: exactly one named argument needed';
my $unit = %args.keys[0];
$unit eq any(<second minute hour day week month year>)
or die "DateTime.truncated-to: Unknown truncation unit '$unit'";
my %parts;
given $unit {
%parts<second> = self.whole-second;
when 'second' {}
%parts<second> = 0;
when 'minute' {}
%parts<minute> = 0;
when 'hour' {}
%parts<hour> = 0;
when 'day' {}
# Fall through to Dateish.
%parts = self.truncate-parts($unit, %parts);
}
self.clone-without-validating(|%parts);
}
multi method whole-second() {
floor $.second
}
method in-timezone($timezone) {
$timezone eqv $!timezone and return self;
my $old-offset = self.offset;
my $new-offset = $timezone ~~ Callable
?? $timezone(self.utc, False)
!! $timezone;
my %parts;
# Is the logic for handling leap seconds right?
# I don't know, but it passes the tests!
my $a = ($!second >= 60 ?? 59 !! $!second)
+ $new-offset - $old-offset;
%parts<second> = $!second >= 60 ?? $!second !! $a % 60;
my $b = $!minute + floor $a / 60;
%parts<minute> = $b % 60;
my $c = $!hour + floor $b / 60;
%parts<hour> = $c % 24;
# Let Dateish handle any further rollover.
floor $c / 24 and %parts<year month day> =
self.ymd-from-daycount\
(self.get-daycount + floor $c / 24);
self.clone-without-validating:
:$timezone, saved-offset => $new-offset, |%parts;
}
method utc() {
self.in-timezone(0)
}
method local() {
self.in-timezone($*TZ)
}
method Date() {
::Date.new(self)
}
method Str() {
&!formatter(self)
}
multi method perl() {
sprintf 'DateTime.new(%s)', join ', ', map { "{.key} => {.value}" }, do
:$.year, :$.month, :$.day, :$.hour, :$.minute,
second => $.second.perl,
(timezone => $.timezone.perl
unless $.timezone === 0),
(:$!saved-offset
if $!saved-offset and $.timezone ~~ Callable),
(formatter => $.formatter.perl
unless &.formatter eqv &default-formatter)
}
}
class Date does Dateish {
has Int $.daycount;
method !set-daycount($dc) { $!daycount = $dc }
multi method get-daycount { $!daycount }
multi method new(:$year!, :$month, :$day) {
my $d = self.bless(*, :$year, :$month, :$day);
$d.check-date;
$d!set-daycount(self.daycount-from-ymd($year,$month,$day));
$d;
}
multi method new($year, $month, $day) {
self.new(:$year, :$month, :$day);
}
multi method new(Str $date) {
$date ~~ /^ \d\d\d\d '-' \d\d '-' \d\d $/
or die 'Invalid Date string; please use the format "yyyy-mm-dd"';
self.new(|$date.split('-').map(*.Int));
}
multi method new(::DateTime $dt) {
self.bless(*,
:year($dt.year), :month($dt.month), :day($dt.day),
:daycount(self.daycount-from-ymd($dt.year,$dt.month,$dt.day))
);
}
multi method new-from-daycount($daycount) {
my ($year, $month, $day) = self.ymd-from-daycount($daycount);
self.bless(*, :$daycount, :$year, :$month, :$day);
}
multi method today() {
self.new(::DateTime.now);
}
multi method truncated-to(*%args) {
%args.keys == 1
or die "Date.truncated-to: exactly one named argument needed.";
my $unit = %args.keys[0];
$unit eq any(<week month year>)
or die "DateTime.truncated-to: Unknown truncation unit '$unit'";
self.clone(|self.truncate-parts($unit));
}
multi method clone(*%_) {
self.new(:$!year, :$!month, :$!day, |%_)
}
multi method succ() {
Date.new-from-daycount($!daycount + 1);
}
multi method pred() {
Date.new-from-daycount($!daycount - 1);
}
multi method Str() {
sprintf '%04d-%02d-%02d', $.year, $.month, $.day;
}
multi method perl() {
"Date.new($.year.perl(), $.month.perl(), $.day.perl())";
}
}
multi infix:<+>(Date $d, Int $x) is export {
Date.new-from-daycount($d.daycount + $x)
}
multi infix:<+>(Int $x, Date $d) is export {
Date.new-from-daycount($d.daycount + $x)
}
multi infix:<->(Date $d, Int $x) is export {
Date.new-from-daycount($d.daycount - $x)
}
multi infix:<->(Date $a, Date $b) is export {
$a.daycount - $b.daycount;
}
multi infix:<cmp>(Date $a, Date $b) is export {
$a.daycount cmp $b.daycount
}
multi infix:«<=>»(Date $a, Date $b) is export {
$a.daycount <=> $b.daycount
}
multi infix:<==>(Date $a, Date $b) is export {
$a.daycount == $b.daycount
}
multi infix:<!=>(Date $a, Date $b) is export {
$a.daycount != $b.daycount
}
multi infix:«<=»(Date $a, Date $b) is export {
$a.daycount <= $b.daycount
}
multi infix:«<»(Date $a, Date $b) is export {
$a.daycount < $b.daycount
}
multi infix:«>=»(Date $a, Date $b) is export {
$a.daycount >= $b.daycount
}
multi infix:«>»(Date $a, Date $b) is export {
$a.daycount > $b.daycount
}
=begin pod
=head1 SEE ALSO
Perl 6 spec <S32-Temporal|http://perlcabal.org/syn/S32/Temporal.html>.
The Perl 5 DateTime Project home page L<http://datetime.perl.org>.
Perl 5 perldoc L<doc:DateTime> and L<doc:Time::Local>.
The best yet seen explanation of calendars, by Claus Tøndering
L<Calendar FAQ|http://www.tondering.dk/claus/calendar.html>.
Similar algorithms at L<http://www.hermetic.ch/cal_stud/jdn.htm>
and L<http://www.merlyn.demon.co.uk/daycount.htm>.
<ISO 8601|http://en.wikipedia.org/wiki/ISO_8601>
<Time zones|http://en.wikipedia.org/wiki/List_of_time_zones>
As per the recommendation, the strftime() method has bee moved into a
loadable module called DateTime::strftime.
=end pod