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* lib/date.rb, lib/date/format.rb: introduced some constants

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(for internal use) and aliases (minute and second).

	* sample/cal.rb: trivial adjustments.


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@14903 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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tadf 2008-01-06 00:38:22 +00:00
parent dbc78facbc
commit 352d72719b
4 changed files with 94 additions and 62 deletions
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7
ChangeLog
View file

@ -1,3 +1,10 @@
Sun Jan 6 09:32:58 2008 Tadayoshi Funaba <tadf@dotrb.org>
* lib/date.rb, lib/date/format.rb: introduced some constants
(for internal use) and aliases (minute and second).
* sample/cal.rb: trivial adjustments.
Sun Jan 6 01:38:07 2008 Tanaka Akira <akr@fsij.org>
* re.c (rb_reg_initialize_str): /\x80/n is not an error even if script

89
lib/date.rb
View file

@ -1,12 +1,12 @@
#
# date.rb - date and time library
#
# Author: Tadayoshi Funaba 1998-2007
# Author: Tadayoshi Funaba 1998-2008
#
# Documentation: William Webber <william@williamwebber.com>
#
#--
# $Id: date.rb,v 2.34 2007-12-30 21:45:27+09 tadf Exp $
# $Id: date.rb,v 2.35 2008-01-06 08:42:17+09 tadf Exp $
#++
#
# == Overview
@ -313,7 +313,20 @@ class Date
# Gregorian calendar.
GREGORIAN = -Infinity.new
UNIXEPOCH = 2440588 # 1970-01-01 :nodoc:
HALF_DAYS_IN_DAY = Rational(1, 2) # :nodoc:
HOURS_IN_DAY = Rational(1, 24) # :nodoc:
MINUTES_IN_DAY = Rational(1, 1440) # :nodoc:
SECONDS_IN_DAY = Rational(1, 86400) # :nodoc:
MILLISECONDS_IN_DAY = Rational(1, 86400*10**3) # :nodoc:
NANOSECONDS_IN_DAY = Rational(1, 86400*10**9) # :nodoc:
MILLISECONDS_IN_SECOND = Rational(1, 10**3) # :nodoc:
NANOSECONDS_IN_SECOND = Rational(1, 10**9) # :nodoc:
MJD_EPOCH_IN_AJD = Rational(4800001, 2) # 1858-11-17 # :nodoc:
UNIX_EPOCH_IN_AJD = Rational(4881175, 2) # 1970-01-01 # :nodoc:
MJD_EPOCH_IN_CJD = 2400001 # :nodoc:
UNIX_EPOCH_IN_CJD = 2440588 # :nodoc:
LD_EPOCH_IN_CJD = 2299160 # :nodoc:
t = Module.new do
@ -487,7 +500,7 @@ class Date
#
# Returns the (civil) Julian Day Number as [day_number,
# fraction] where +fraction+ is always 1/2.
def ajd_to_jd(ajd, of=0) (ajd + of + 1.to_r/2).divmod(1) end # :nodoc:
def ajd_to_jd(ajd, of=0) (ajd + of + HALF_DAYS_IN_DAY).divmod(1) end # :nodoc:
# Convert a (civil) Julian Day Number to an Astronomical Julian
# Day Number.
@ -498,46 +511,54 @@ class Date
#
# Returns the Astronomical Julian Day Number as a single
# numeric value.
def jd_to_ajd(jd, fr, of=0) jd + fr - of - 1.to_r/2 end # :nodoc:
def jd_to_ajd(jd, fr, of=0) jd + fr - of - HALF_DAYS_IN_DAY end # :nodoc:
# Convert a fractional day +fr+ to [hours, minutes, seconds,
# fraction_of_a_second]
def day_fraction_to_time(fr) # :nodoc:
h, fr = fr.divmod(1.to_r/24)
min, fr = fr.divmod(1.to_r/1440)
s, fr = fr.divmod(1.to_r/86400)
h, fr = fr.divmod(HOURS_IN_DAY)
min, fr = fr.divmod(MINUTES_IN_DAY)
s, fr = fr.divmod(SECONDS_IN_DAY)
return h, min, s, fr * 86400
end
# Convert an +h+ hour, +min+ minutes, +s+ seconds period
# to a fractional day.
def time_to_day_fraction(h, min, s) # :nodoc:
h.to_r/24 + min.to_r/1440 + s.to_r/86400
begin
Rational(Rational(1, 2), 2) # a challenge
def time_to_day_fraction(h, min, s) # :nodoc:
Rational(h, 24) + Rational(min, 1440) + Rational(s, 86400)
end
rescue
def time_to_day_fraction(h, min, s) # :nodoc:
h.to_r/24 + min.to_r/1440 + s.to_r/86400
end
end
# Convert an Astronomical Modified Julian Day Number to an
# Astronomical Julian Day Number.
def amjd_to_ajd(amjd) amjd + 4800001.to_r/2 end # :nodoc:
def amjd_to_ajd(amjd) amjd + MJD_EPOCH_IN_AJD end # :nodoc:
# Convert an Astronomical Julian Day Number to an
# Astronomical Modified Julian Day Number.
def ajd_to_amjd(ajd) ajd - 4800001.to_r/2 end # :nodoc:
def ajd_to_amjd(ajd) ajd - MJD_EPOCH_IN_AJD end # :nodoc:
# Convert a Modified Julian Day Number to a Julian
# Day Number.
def mjd_to_jd(mjd) mjd + 2400001 end # :nodoc:
def mjd_to_jd(mjd) mjd + MJD_EPOCH_IN_CJD end # :nodoc:
# Convert a Julian Day Number to a Modified Julian Day
# Number.
def jd_to_mjd(jd) jd - 2400001 end # :nodoc:
def jd_to_mjd(jd) jd - MJD_EPOCH_IN_CJD end # :nodoc:
# Convert a count of the number of days since the adoption
# of the Gregorian Calendar (in Italy) to a Julian Day Number.
def ld_to_jd(ld) ld + 2299160 end # :nodoc:
def ld_to_jd(ld) ld + LD_EPOCH_IN_CJD end # :nodoc:
# Convert a Julian Day Number to the number of days since
# the adoption of the Gregorian Calendar (in Italy).
def jd_to_ld(jd) jd - 2299160 end # :nodoc:
def jd_to_ld(jd) jd - LD_EPOCH_IN_CJD end # :nodoc:
# Convert a Julian Day Number to the day of the week.
#
@ -835,7 +856,7 @@ class Date
h, fr = fr.divmod(3600)
min, fr = fr.divmod(60)
s, fr = fr.divmod(1)
elem[:jd] = UNIXEPOCH + d
elem[:jd] = UNIX_EPOCH_IN_CJD + d
elem[:hour] = h
elem[:min] = min
elem[:sec] = s
@ -1194,7 +1215,12 @@ class Date
# Get the fraction-of-a-second of this date.
def sec_fraction() time[3] end
private :hour, :min, :sec, :sec_fraction
alias_method :minute, :min
alias_method :second, :sec
alias_method :second_fraction, :sec_fraction
private :hour, :min, :sec, :sec_fraction,
:minute, :second, :second_fraction
def zone() strftime('%:z') end
@ -1285,7 +1311,7 @@ class Date
def new_offset(of=0)
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
self.class.new!(@ajd, of, @sg)
end
@ -1522,7 +1548,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1547,7 +1573,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1572,7 +1598,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1600,7 +1626,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1611,7 +1637,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1624,7 +1650,7 @@ class DateTime < Date
raise ArgumentError, 'invalid date'
end
if String === of
of = (zone_to_diff(of) || 0).to_r/86400
of = Rational(zone_to_diff(of) || 0, 86400)
end
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1638,10 +1664,8 @@ class DateTime < Date
(fr = valid_time_frags?(elem))
raise ArgumentError, 'invalid date'
end
sf = (elem[:sec_fraction] || 0)
fr += sf/86400
of = (elem[:offset] || 0)
of = of.to_r/86400
fr += (elem[:sec_fraction] || 0) / 86400
of = Rational(elem[:offset] || 0, 86400)
new!(jd_to_ajd(jd, fr, of), of, sg)
end
@ -1718,7 +1742,8 @@ class DateTime < Date
new_by_frags(elem, sg)
end
public :hour, :min, :sec, :sec_fraction, :zone, :offset, :new_offset
public :hour, :min, :sec, :sec_fraction, :zone, :offset, :new_offset,
:minute, :second, :second_fraction
end
@ -1734,8 +1759,8 @@ class Time
def to_datetime
jd = DateTime.__send__(:civil_to_jd, year, mon, mday, DateTime::ITALY)
fr = DateTime.__send__(:time_to_day_fraction, hour, min, [sec, 59].min) +
nsec.to_r/86400_000_000_000
of = utc_offset.to_r/86400
Rational(nsec, 86400_000_000_000)
of = Rational(utc_offset, 86400)
DateTime.new!(DateTime.__send__(:jd_to_ajd, jd, fr, of),
of, DateTime::ITALY)
end

52
lib/date/format.rb
View file

@ -1,5 +1,5 @@
# format.rb: Written by Tadayoshi Funaba 1999-2007
# $Id: format.rb,v 2.40 2007-09-09 08:28:03+09 tadf Exp $
# format.rb: Written by Tadayoshi Funaba 1999-2008
# $Id: format.rb,v 2.41 2008-01-06 08:42:17+09 tadf Exp $
require 'rational'
@ -257,25 +257,23 @@ class Date
when 'j'; emit_n(yday, 3, f)
when 'k'; emit_a(hour, 2, f)
when 'L'
emit_n((sec_fraction / (1.to_r/(10**3))).round, 3, f)
emit_n((sec_fraction / MILLISECONDS_IN_SECOND).round, 3, f)
when 'l'; emit_a((hour % 12).nonzero? || 12, 2, f)
when 'M', 'OM'; emit_n(min, 2, f)
when 'm', 'Om'; emit_n(mon, 2, f)
when 'N'
emit_n((sec_fraction / (1.to_r/(10**9))).round, 9, f)
emit_n((sec_fraction / NANOSECONDS_IN_SECOND).round, 9, f)
when 'n'; "\n"
when 'P'; emit_ad(strftime('%p').downcase, 0, f)
when 'p'; emit_au(if hour < 12 then 'AM' else 'PM' end, 0, f)
when 'Q'
d = ajd - jd_to_ajd(self.class::UNIXEPOCH, 0)
s = (d * 86400*10**3).to_i
s = ((ajd - UNIX_EPOCH_IN_AJD) / MILLISECONDS_IN_DAY).round
emit_sn(s, 1, f)
when 'R'; emit_a(strftime('%H:%M'), 0, f)
when 'r'; emit_a(strftime('%I:%M:%S %p'), 0, f)
when 'S', 'OS'; emit_n(sec, 2, f)
when 's'
d = ajd - jd_to_ajd(self.class::UNIXEPOCH, 0)
s = (d * 86400).to_i
s = ((ajd - UNIX_EPOCH_IN_AJD) / SECONDS_IN_DAY).round
emit_sn(s, 1, f)
when 'T'
if m == '%T'
@ -299,9 +297,9 @@ class Date
t = $1.size
sign = if offset < 0 then -1 else +1 end
fr = offset.abs
hh, fr = fr.divmod(1.to_r/24)
mm, fr = fr.divmod(1.to_r/1440)
ss, fr = fr.divmod(1.to_r/86400)
hh, fr = fr.divmod(HOURS_IN_DAY)
mm, fr = fr.divmod(MINUTES_IN_DAY)
ss, fr = fr.divmod(SECONDS_IN_DAY)
if t == 3
if ss.nonzero? then t = 2
elsif mm.nonzero? then t = 1
@ -372,12 +370,12 @@ class Date
=begin
def beat(n=0)
i, f = (new_offset(1.to_r/24).day_fraction * 1000).divmod(1)
i, f = (new_offset(HOURS_IN_DAY).day_fraction * 1000).divmod(1)
('@%03d' % i) +
if n < 1
''
else
'.%0*d' % [n, (f / (1.to_r/(10**n))).round]
'.%0*d' % [n, (f / Rational(1, 10**n)).round]
end
end
=end
@ -456,8 +454,8 @@ class Date
then /\A([-+]?\d{1,3})/
else /\A([-+]?\d{1,})/
end, '')
# val = $1.to_i.to_r / (10**3)
val = $1.to_i.to_r / (10**$1.size)
# val = Rational($1.to_i, 10**3)
val = Rational($1.to_i, 10**$1.size)
e.sec_fraction = val
when 'M', 'OM'
return unless str.sub!(/\A(\d{1,2})/, '')
@ -474,8 +472,8 @@ class Date
then /\A([-+]?\d{1,9})/
else /\A([-+]?\d{1,})/
end, '')
# val = $1.to_i.to_r / (10**9)
val = $1.to_i.to_r / (10**$1.size)
# val = Rational($1.to_i, 10**9)
val = Rational($1.to_i, 10**$1.size)
e.sec_fraction = val
when 'n', 't'
return unless _strptime_i(str, "\s", e)
@ -484,7 +482,7 @@ class Date
e._merid = if $1.downcase == 'a' then 0 else 12 end
when 'Q'
return unless str.sub!(/\A(-?\d{1,})/, '')
val = $1.to_i.to_r / 10**3
val = Rational($1.to_i, 10**3)
e.seconds = val
when 'R'
return unless _strptime_i(str, '%H:%M', e)
@ -723,7 +721,7 @@ class Date
e.hour = $1.to_i
e.min = $2.to_i if $2
e.sec = $3.to_i if $3
e.sec_fraction = $4.to_i.to_r / (10**$4.size) if $4
e.sec_fraction = Rational($4.to_i, 10**$4.size) if $4
if $5
e.hour %= 12
@ -738,9 +736,9 @@ class Date
=begin
def self._parse_beat(str, e) # :nodoc:
if str.sub!(/@\s*(\d+)(?:[,.](\d*))?/, ' ')
beat = $1.to_i.to_r
beat += $2.to_i.to_r / (10**$2.size) if $2
secs = beat.to_r / 1000
beat = Rational($1.to_i)
beat += Rational($2.to_i, 10**$2.size) if $2
secs = Rational(beat, 1000)
h, min, s, fr = self.day_fraction_to_time(secs)
e.hour = h
e.min = min
@ -1063,7 +1061,7 @@ class Date
end
end
if $4
e.sec_fraction = $4.to_i.to_r / (10**$4.size)
e.sec_fraction = Rational($4.to_i, 10**$4.size)
end
if $5
e.zone = $5
@ -1280,7 +1278,7 @@ class Date
e.hour = $4.to_i if $4
e.min = $5.to_i if $5
e.sec = $6.to_i if $6
e.sec_fraction = $7.to_i.to_r / (10**$7.size) if $7
e.sec_fraction = Rational($7.to_i, 10**$7.size) if $7
if $8
e.zone = $8
e.offset = zone_to_diff($8)
@ -1292,7 +1290,7 @@ class Date
e.hour = $1.to_i if $1
e.min = $2.to_i if $2
e.sec = $3.to_i if $3
e.sec_fraction = $4.to_i.to_r / (10**$4.size) if $4
e.sec_fraction = Rational($4.to_i, 10**$4.size) if $4
if $5
e.zone = $5
e.offset = zone_to_diff($5)
@ -1390,7 +1388,7 @@ class Date
hour, min, sec, = zone.split(':')
elsif zone.include?(',') || zone.include?('.')
hour, fr, = zone.split(/[,.]/)
min = fr.to_i.to_r / (10**fr.size) * 60
min = Rational(fr.to_i, 10**fr.size) * 60
else
case zone.size
when 3
@ -1430,7 +1428,7 @@ class DateTime < Date
if n < 1
''
else
'.%0*d' % [n, (sec_fraction / (1.to_r/(10**n))).round]
'.%0*d' % [n, (sec_fraction / Rational(1, 10**n)).round]
end +
'%:z')
end

8
sample/cal.rb
View file

@ -1,7 +1,7 @@
#! /usr/bin/env ruby
# cal.rb: Written by Tadayoshi Funaba 1998-2004,2006
# $Id: cal.rb,v 2.10 2006-12-30 21:44:44+09 tadf Exp $
# cal.rb: Written by Tadayoshi Funaba 1998-2004,2006,2008
# $Id: cal.rb,v 2.11 2008-01-06 08:42:17+09 tadf Exp $
require 'date'
@ -53,7 +53,7 @@ class Cal
end
def pict(y, m)
d = (1..31).detect{|d| Date.valid_date?(y, m, d, @start)}
d = (1..31).detect{|x| Date.valid_date?(y, m, x, @start)}
fi = Date.new(y, m, d, @start)
fi -= (fi.jd - @k + 1) % 7
@ -162,3 +162,5 @@ if __FILE__ == $0
print cal.print(y, m)
end
# See Bird & Wadler's Introduction to functional programming 4.5.