ruby/lib/date.rb

570 строки
13 KiB
Ruby

# date.rb: Written by Tadayoshi Funaba 1998-2002
# $Id: date.rb,v 2.8 2002-06-08 00:39:51+09 tadf Exp $
require 'rational'
require 'date/format'
class Date
include Comparable
MONTHNAMES = [nil] + %w(January February March April May June July
August September October November December)
DAYNAMES = %w(Sunday Monday Tuesday Wednesday Thursday Friday Saturday)
ABBR_MONTHNAMES = [nil] + %w(Jan Feb Mar Apr May Jun
Jul Aug Sep Oct Nov Dec)
ABBR_DAYNAMES = %w(Sun Mon Tue Wed Thu Fri Sat)
ITALY = 2299161 # 1582-10-15
ENGLAND = 2361222 # 1752-09-14
JULIAN = false
GREGORIAN = true
def self.os? (jd, sg)
case sg
when Numeric; jd < sg
else; not sg
end
end
def self.ns? (jd, sg) not os?(jd, sg) end
def self.civil_to_jd(y, m, d, sg=GREGORIAN)
if m <= 2
y -= 1
m += 12
end
a = (y / 100.0).floor
b = 2 - a + (a / 4.0).floor
jd = (365.25 * (y + 4716)).floor +
(30.6001 * (m + 1)).floor +
d + b - 1524
if os?(jd, sg)
jd -= b
end
jd
end
def self.jd_to_civil(jd, sg=GREGORIAN)
if os?(jd, sg)
a = jd
else
x = ((jd - 1867216.25) / 36524.25).floor
a = jd + 1 + x - (x / 4.0).floor
end
b = a + 1524
c = ((b - 122.1) / 365.25).floor
d = (365.25 * c).floor
e = ((b - d) / 30.6001).floor
dom = b - d - (30.6001 * e).floor
if e <= 13
m = e - 1
y = c - 4716
else
m = e - 13
y = c - 4715
end
return y, m, dom
end
def self.ordinal_to_jd(y, d, sg=GREGORIAN)
civil_to_jd(y, 1, d, sg)
end
def self.jd_to_ordinal(jd, sg=GREGORIAN)
y = jd_to_civil(jd, sg)[0]
doy = jd - civil_to_jd(y - 1, 12, 31, ns?(jd, sg))
return y, doy
end
def self.jd_to_commercial(jd, sg=GREGORIAN)
ns = ns?(jd, sg)
a = jd_to_civil(jd - 3, ns)[0]
y = if jd >= commercial_to_jd(a + 1, 1, 1, ns) then a + 1 else a end
w = 1 + (jd - commercial_to_jd(y, 1, 1, ns)) / 7
d = (jd + 1) % 7
if d.zero? then d = 7 end
return y, w, d
end
def self.commercial_to_jd(y, w, d, ns=GREGORIAN)
jd = civil_to_jd(y, 1, 4, ns)
(jd - (((jd - 1) + 1) % 7)) +
7 * (w - 1) +
(d - 1)
end
%w(self.clfloor clfloor).each do |name|
module_eval <<-"end;"
def #{name}(x, y=1)
q, r = x.divmod(y)
q = q.to_i
return q, r
end
end;
end
private_class_method :clfloor
private :clfloor
def self.ajd_to_jd(ajd, of=0) clfloor(ajd + of + 1.to_r/2) end
def self.jd_to_ajd(jd, fr, of=0) jd + fr - of - 1.to_r/2 end
def self.day_fraction_to_time(fr)
h, fr = clfloor(fr, 1.to_r/24)
min, fr = clfloor(fr, 1.to_r/1440)
s, fr = clfloor(fr, 1.to_r/86400)
return h, min, s, fr
end
def self.time_to_day_fraction(h, min, s)
h.to_r/24 + min.to_r/1440 + s.to_r/86400
end
def self.amjd_to_ajd(amjd) amjd + 4800001.to_r/2 end
def self.ajd_to_amjd(ajd) ajd - 4800001.to_r/2 end
def self.mjd_to_jd(mjd) mjd + 2400001 end
def self.jd_to_mjd(jd) jd - 2400001 end
def self.ld_to_jd(ld) ld + 2299160 end
def self.jd_to_ld(jd) jd - 2299160 end
def self.jd_to_wday(jd) (jd + 1) % 7 end
def self.julian_leap? (y) y % 4 == 0 end
def self.gregorian_leap? (y) y % 4 == 0 and y % 100 != 0 or y % 400 == 0 end
class << self; alias_method :leap?, :gregorian_leap? end
class << self; alias_method :new0, :new end
def self.valid_jd? (jd, sg=ITALY) jd end
def self.jd(jd=0, sg=ITALY)
jd = valid_jd?(jd, sg)
new0(jd_to_ajd(jd, 0, 0), 0, sg)
end
def self.valid_ordinal? (y, d, sg=ITALY)
if d < 0
ny, = clfloor(y + 1, 1)
jd = ordinal_to_jd(ny, d + 1, sg)
ns = ns?(jd, sg)
return unless [y] == jd_to_ordinal(jd, sg)[0..0]
return unless [ny, 1] == jd_to_ordinal(jd - d, ns)
else
jd = ordinal_to_jd(y, d, sg)
return unless [y, d] == jd_to_ordinal(jd, sg)
end
jd
end
def self.ordinal(y=-4712, d=1, sg=ITALY)
unless jd = valid_ordinal?(y, d, sg)
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, 0, 0), 0, sg)
end
def self.valid_civil? (y, m, d, sg=ITALY)
if m < 0
m += 13
end
if d < 0
ny, nm = clfloor(y * 12 + m, 12)
nm, = clfloor(nm + 1, 1)
jd = civil_to_jd(ny, nm, d + 1, sg)
ns = ns?(jd, sg)
return unless [y, m] == jd_to_civil(jd, sg)[0..1]
return unless [ny, nm, 1] == jd_to_civil(jd - d, ns)
else
jd = civil_to_jd(y, m, d, sg)
return unless [y, m, d] == jd_to_civil(jd, sg)
end
jd
end
class << self; alias_method :valid_date?, :valid_civil? end
def self.civil(y=-4712, m=1, d=1, sg=ITALY)
unless jd = valid_civil?(y, m, d, sg)
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, 0, 0), 0, sg)
end
class << self; alias_method :new, :civil end
def self.valid_commercial? (y, w, d, sg=ITALY)
if d < 0
d += 8
end
if w < 0
w = jd_to_commercial(commercial_to_jd(y + 1, 1, 1) + w * 7)[1]
end
jd = commercial_to_jd(y, w, d)
return unless ns?(jd, sg)
return unless [y, w, d] == jd_to_commercial(jd)
jd
end
def self.commercial(y=1582, w=41, d=5, sg=ITALY)
unless jd = valid_commercial?(y, w, d, sg)
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, 0, 0), 0, sg)
end
def self.new_with_hash(elem, sg)
elem ||= {}
y, m, d = elem.select(:year, :mon, :mday)
if [y, m, d].include? nil
raise ArgumentError, 'invalid date'
else
civil(y, m, d, sg)
end
end
private_class_method :new_with_hash
def self.strptime(str='-4712-01-01', fmt='%F', sg=ITALY)
elem = _strptime(str, fmt)
new_with_hash(elem, sg)
end
def self.parse(str='-4712-01-01', comp=false, sg=ITALY)
elem = _parse(str, comp)
new_with_hash(elem, sg)
end
def self.today(sg=ITALY)
jd = civil_to_jd(*(Time.now.to_a[3..5].reverse << sg))
new0(jd_to_ajd(jd, 0, 0), 0, sg)
end
class << self
def once(*ids)
for id in ids
module_eval <<-"end;"
alias_method :__#{id.to_i}__, :#{id.to_s}
private :__#{id.to_i}__
def #{id.to_s}(*args, &block)
(@__#{id.to_i}__ ||= [__#{id.to_i}__(*args, &block)])[0]
end
end;
end
end
private :once
end
def initialize(ajd=0, of=0, sg=ITALY) @ajd, @of, @sg = ajd, of, sg end
def ajd() @ajd end
def amjd() self.class.ajd_to_amjd(@ajd) end
once :amjd
def jd() self.class.ajd_to_jd(@ajd, @of)[0] end
def day_fraction() self.class.ajd_to_jd(@ajd, @of)[1] end
def mjd() self.class.jd_to_mjd(jd) end
def ld() self.class.jd_to_ld(jd) end
once :jd, :day_fraction, :mjd, :ld
def civil() self.class.jd_to_civil(jd, @sg) end
def ordinal() self.class.jd_to_ordinal(jd, @sg) end
def commercial() self.class.jd_to_commercial(jd, @sg) end
once :civil, :ordinal, :commercial
private :civil, :ordinal, :commercial
def year() civil[0] end
def yday() ordinal[1] end
def mon() civil[1] end
def mday() civil[2] end
alias_method :month, :mon
alias_method :day, :mday
def time() self.class.day_fraction_to_time(day_fraction) end
once :time
private :time
def hour() time[0] end
def min() time[1] end
def sec() time[2] end
def sec_fraction() time[3] end
private :hour, :min, :sec, :sec_fraction
def zone
['Z',
format('%+.2d%02d',
(@of / (1.to_r/24)).to_i,
(@of.abs % (1.to_r/24) / (1.to_r/1440)).to_i)
][@of<=>0]
end
private :zone
def cwyear() commercial[0] end
def cweek() commercial[1] end
def cwday() commercial[2] end
def wday() self.class.jd_to_wday(jd) end
once :wday
def os? () self.class.os?(jd, @sg) end
def ns? () self.class.ns?(jd, @sg) end
once :os?, :ns?
def leap?
self.class.jd_to_civil(self.class.civil_to_jd(year, 3, 1, ns?) - 1,
ns?)[-1] == 29
end
once :leap?
def start() @sg end
def new_start(sg=self.class::ITALY) self.class.new0(@ajd, @of, sg) end
def italy() new_start(self.class::ITALY) end
def england() new_start(self.class::ENGLAND) end
def julian() new_start(self.class::JULIAN) end
def gregorian() new_start(self.class::GREGORIAN) end
def offset() @of end
def new_offset(of=0) self.class.new0(@ajd, of, @sg) end
private :offset, :new_offset
def + (n)
case n
when Numeric; return self.class.new0(@ajd + n, @of, @sg)
end
raise TypeError, 'expected numeric'
end
def - (x)
case x
when Numeric; return self.class.new0(@ajd - x, @of, @sg)
when Date; return @ajd - x.ajd
end
raise TypeError, 'expected numeric or date'
end
def <=> (other)
case other
when Numeric; return @ajd <=> other
when Date; return @ajd <=> other.ajd
end
raise TypeError, 'expected numeric or date'
end
def === (other)
case other
when Numeric; return jd == other
when Date; return jd == other.jd
end
raise TypeError, 'expected numeric or date'
end
def >> (n)
y, m = clfloor(year * 12 + (mon - 1) + n, 12)
m, = clfloor(m + 1, 1)
d = mday
d -= 1 until jd2 = self.class.valid_civil?(y, m, d, ns?)
self + (jd2 - jd)
end
def << (n) self >> -n end
def step(limit, step)
da = self
op = [:-,:<=,:>=][step<=>0]
while da.__send__(op, limit)
yield da
da += step
end
self
end
def upto(max, &block) step(max, +1, &block) end
def downto(min, &block) step(min, -1, &block) end
def succ() self + 1 end
alias_method :next, :succ
def eql? (other) Date === other and self == other end
def hash() @ajd.hash end
def inspect() format('#<%s: %s,%s,%s>', self.class, @ajd, @of, @sg) end
def to_s() strftime end
def _dump(limit) Marshal.dump([@ajd, @of, @sg], -1) end
# def self._load(str) new0(*Marshal.load(str)) end
def self._load(str)
a = Marshal.load(str)
if a.size == 2
ajd, sg = a
of = 0
ajd -= 1.to_r/2
else
ajd, of, sg = a
end
new0(ajd, of, sg)
end
end
class DateTime < Date
def self.valid_time? (h, min, s)
h += 24 if h < 0
min += 60 if min < 0
s += 60 if s < 0
return unless (0..24) === h and
(0..59) === min and
(0..59) === s
time_to_day_fraction(h, min, s)
end
def self.jd(jd=0, h=0, min=0, s=0, of=0, sg=ITALY)
unless (jd = valid_jd?(jd, sg)) and
(fr = valid_time?(h, min, s))
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, fr, of), of, sg)
end
def self.ordinal(y=-4712, d=1, h=0, min=0, s=0, of=0, sg=ITALY)
unless (jd = valid_ordinal?(y, d, sg)) and
(fr = valid_time?(h, min, s))
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, fr, of), of, sg)
end
def self.civil(y=-4712, m=1, d=1, h=0, min=0, s=0, of=0, sg=ITALY)
unless (jd = valid_civil?(y, m, d, sg)) and
(fr = valid_time?(h, min, s))
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, fr, of), of, sg)
end
class << self; alias_method :new, :civil end
def self.commercial(y=1582, w=41, d=5, h=0, min=0, s=0, of=0, sg=ITALY)
unless (jd = valid_commercial?(y, w, d, sg)) and
(fr = valid_time?(h, min, s))
raise ArgumentError, 'invalid date'
end
new0(jd_to_ajd(jd, fr, of), of, sg)
end
def self.new_with_hash(elem, sg)
elem ||= {}
y, m, d, h, min, s, of =
elem.select(:year, :mon, :mday, :hour, :min, :sec, :offset)
h ||= 0
min ||= 0
s ||= 0
of ||= 0
if [y, m, d].include? nil
raise ArgumentError, 'invalid date'
else
civil(y, m, d, h, min, s, of.to_r/86400, sg)
end
end
private_class_method :new_with_hash
def self.strptime(str='-4712-01-01T00:00:00Z', fmt='%FT%T%Z', sg=ITALY)
elem = _strptime(str, fmt)
new_with_hash(elem, sg)
end
def self.parse(str='-4712-01-01T00:00:00Z', comp=false, sg=ITALY)
elem = _parse(str, comp)
new_with_hash(elem, sg)
end
class << self; undef_method :today end
def self.now(sg=ITALY)
i = Time.now
a = i.to_a[0..5].reverse
jd = civil_to_jd(*(a[0,3] << sg))
fr = time_to_day_fraction(*(a[3,3])) + i.usec.to_r/86400000000
d = Time.gm(*i.to_a).to_i - i.to_i
d += d / d.abs if d.nonzero?
of = (d / 60).to_r/1440
new0(jd_to_ajd(jd, fr, of), of, sg)
end
public :hour, :min, :sec, :sec_fraction, :zone, :offset, :new_offset
end
class Date
[ %w(exist1? valid_jd?),
%w(exist2? valid_ordinal?),
%w(exist3? valid_date?),
%w(exist? valid_date?),
%w(existw? valid_commercial?),
%w(new1 jd),
%w(new2 ordinal),
%w(new3 new),
%w(neww commercial)
].each do |old, new|
module_eval <<-"end;"
def self.#{old}(*args, &block)
if $VERBOSE
$stderr.puts("\#{caller.shift.sub(/:in .*/, '')}: " \
"warning: \#{self}::#{old} is deprecated; " \
"use \#{self}::#{new}")
end
#{new}(*args, &block)
end
end;
end
[ %w(sg start),
%w(newsg new_start),
%w(of offset),
%w(newof new_offset)
].each do |old, new|
module_eval <<-"end;"
def #{old}(*args, &block)
if $VERBOSE
$stderr.puts("\#{caller.shift.sub(/:in .*/, '')}: " \
"warning: \#{self.class}\##{old} is deprecated; " \
"use \#{self.class}\##{new}")
end
#{new}(*args, &block)
end
end;
end
private :of, :newof
end
class DateTime < Date
public :of, :newof
end