# frozen_string_literal: true
require "yaml"
require "active_support/duration"
require "active_support/values/time_zone"
require "active_support/core_ext/object/acts_like"
require "active_support/core_ext/date_and_time/compatibility"
module ActiveSupport
# = Active Support \Time With Zone
#
# A Time-like class that can represent a time in any time zone. Necessary
# because standard Ruby Time instances are limited to UTC and the
# system's <tt>ENV['TZ']</tt> zone.
#
# You shouldn't ever need to create a TimeWithZone instance directly via +new+.
# Instead use methods +local+, +parse+, +at+, and +now+ on TimeZone instances,
# and +in_time_zone+ on Time and DateTime instances.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# Time.zone.local(2007, 2, 10, 15, 30, 45) # => Sat, 10 Feb 2007 15:30:45.000000000 EST -05:00
# Time.zone.parse('2007-02-10 15:30:45') # => Sat, 10 Feb 2007 15:30:45.000000000 EST -05:00
# Time.zone.at(1171139445) # => Sat, 10 Feb 2007 15:30:45.000000000 EST -05:00
# Time.zone.now # => Sun, 18 May 2008 13:07:55.754107581 EDT -04:00
# Time.utc(2007, 2, 10, 20, 30, 45).in_time_zone # => Sat, 10 Feb 2007 15:30:45.000000000 EST -05:00
#
# See Time and TimeZone for further documentation of these methods.
#
# TimeWithZone instances implement the same API as Ruby Time instances, so
# that Time and TimeWithZone instances are interchangeable.
#
# t = Time.zone.now # => Sun, 18 May 2008 13:27:25.031505668 EDT -04:00
# t.hour # => 13
# t.dst? # => true
# t.utc_offset # => -14400
# t.zone # => "EDT"
# t.to_fs(:rfc822) # => "Sun, 18 May 2008 13:27:25 -0400"
# t + 1.day # => Mon, 19 May 2008 13:27:25.031505668 EDT -04:00
# t.beginning_of_year # => Tue, 01 Jan 2008 00:00:00.000000000 EST -05:00
# t > Time.utc(1999) # => true
# t.is_a?(Time) # => true
# t.is_a?(ActiveSupport::TimeWithZone) # => true
class TimeWithZone
PRECISIONS = Hash.new { |h, n| h[n] = "%FT%T.%#{n}N" }
PRECISIONS[0] = "%FT%T"
include Comparable, DateAndTime::Compatibility
attr_reader :time_zone
def initialize(utc_time, time_zone, local_time = nil, period = nil)
@utc = utc_time ? transfer_time_values_to_utc_constructor(utc_time) : nil
@time_zone, @time = time_zone, local_time
@period = @utc ? period : get_period_and_ensure_valid_local_time(period)
end
# Returns a <tt>Time</tt> instance that represents the time in +time_zone+.
def time
@time ||= incorporate_utc_offset(@utc, utc_offset)
end
# Returns a <tt>Time</tt> instance of the simultaneous time in the UTC timezone.
def utc
@utc ||= incorporate_utc_offset(@time, -utc_offset)
end
alias_method :comparable_time, :utc
alias_method :getgm, :utc
alias_method :getutc, :utc
alias_method :gmtime, :utc
# Returns the underlying +TZInfo::TimezonePeriod+.
def period
@period ||= time_zone.period_for_utc(@utc)
end
# Returns the simultaneous time in <tt>Time.zone</tt>, or the specified zone.
def in_time_zone(new_zone = ::Time.zone)
return self if time_zone == new_zone
utc.in_time_zone(new_zone)
end
# Returns a <tt>Time</tt> instance of the simultaneous time in the system timezone.
def localtime(utc_offset = nil)
utc.getlocal(utc_offset)
end
alias_method :getlocal, :localtime
# Returns true if the current time is within Daylight Savings Time for the
# specified time zone.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# Time.zone.parse("2012-5-30").dst? # => true
# Time.zone.parse("2012-11-30").dst? # => false
def dst?
period.dst?
end
alias_method :isdst, :dst?
# Returns true if the current time zone is set to UTC.
#
# Time.zone = 'UTC' # => 'UTC'
# Time.zone.now.utc? # => true
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# Time.zone.now.utc? # => false
def utc?
zone == "UTC" || zone == "UCT"
end
alias_method :gmt?, :utc?
# Returns the offset from current time to UTC time in seconds.
def utc_offset
period.observed_utc_offset
end
alias_method :gmt_offset, :utc_offset
alias_method :gmtoff, :utc_offset
# Returns a formatted string of the offset from UTC, or an alternative
# string if the time zone is already UTC.
#
# Time.zone = 'Eastern Time (US & Canada)' # => "Eastern Time (US & Canada)"
# Time.zone.now.formatted_offset(true) # => "-05:00"
# Time.zone.now.formatted_offset(false) # => "-0500"
# Time.zone = 'UTC' # => "UTC"
# Time.zone.now.formatted_offset(true, "0") # => "0"
def formatted_offset(colon = true, alternate_utc_string = nil)
utc? && alternate_utc_string || TimeZone.seconds_to_utc_offset(utc_offset, colon)
end
# Returns the time zone abbreviation.
#
# Time.zone = 'Eastern Time (US & Canada)' # => "Eastern Time (US & Canada)"
# Time.zone.now.zone # => "EST"
def zone
period.abbreviation
end
# Returns a string of the object's date, time, zone, and offset from UTC.
#
# Time.zone.now.inspect # => "Thu, 04 Dec 2014 11:00:25.624541392 EST -05:00"
def inspect
"#{time.strftime('%a, %d %b %Y %H:%M:%S.%9N')} #{zone} #{formatted_offset}"
end
# Returns a string of the object's date and time in the ISO 8601 standard
# format.
#
# Time.zone.now.xmlschema # => "2014-12-04T11:02:37-05:00"
def xmlschema(fraction_digits = 0)
"#{time.strftime(PRECISIONS[fraction_digits.to_i])}#{formatted_offset(true, 'Z')}"
end
alias_method :iso8601, :xmlschema
alias_method :rfc3339, :xmlschema
# Coerces time to a string for JSON encoding. The default format is ISO 8601.
# You can get %Y/%m/%d %H:%M:%S +offset style by setting
# <tt>ActiveSupport::JSON::Encoding.use_standard_json_time_format</tt>
# to +false+.
#
# # With ActiveSupport::JSON::Encoding.use_standard_json_time_format = true
# Time.utc(2005,2,1,15,15,10).in_time_zone("Hawaii").to_json
# # => "2005-02-01T05:15:10.000-10:00"
#
# # With ActiveSupport::JSON::Encoding.use_standard_json_time_format = false
# Time.utc(2005,2,1,15,15,10).in_time_zone("Hawaii").to_json
# # => "2005/02/01 05:15:10 -1000"
def as_json(options = nil)
if ActiveSupport::JSON::Encoding.use_standard_json_time_format
xmlschema(ActiveSupport::JSON::Encoding.time_precision)
else
%(#{time.strftime("%Y/%m/%d %H:%M:%S")} #{formatted_offset(false)})
end
end
def init_with(coder) # :nodoc:
initialize(coder["utc"], coder["zone"], coder["time"])
end
def encode_with(coder) # :nodoc:
coder.map = { "utc" => utc, "zone" => time_zone, "time" => time }
end
# Returns a string of the object's date and time in the format used by
# HTTP requests.
#
# Time.zone.now.httpdate # => "Tue, 01 Jan 2013 04:39:43 GMT"
def httpdate
utc.httpdate
end
# Returns a string of the object's date and time in the RFC 2822 standard
# format.
#
# Time.zone.now.rfc2822 # => "Tue, 01 Jan 2013 04:51:39 +0000"
def rfc2822
to_fs(:rfc822)
end
alias_method :rfc822, :rfc2822
# Returns a string of the object's date and time.
def to_s
"#{time.strftime("%Y-%m-%d %H:%M:%S")} #{formatted_offset(false, 'UTC')}" # mimicking Ruby Time#to_s format
end
# Returns a string of the object's date and time.
#
# This method is aliased to <tt>to_formatted_s</tt>.
#
# Accepts an optional <tt>format</tt>:
# * <tt>:default</tt> - default value, mimics Ruby Time#to_s format.
# * <tt>:db</tt> - format outputs time in UTC :db time. See Time#to_fs(:db).
# * Any key in +Time::DATE_FORMATS+ can be used. See active_support/core_ext/time/conversions.rb.
def to_fs(format = :default)
if format == :db
utc.to_fs(format)
elsif formatter = ::Time::DATE_FORMATS[format]
formatter.respond_to?(:call) ? formatter.call(self).to_s : strftime(formatter)
else
# Change to to_s when deprecation is gone.
"#{time.strftime("%Y-%m-%d %H:%M:%S")} #{formatted_offset(false, 'UTC')}"
end
end
alias_method :to_formatted_s, :to_fs
# Replaces <tt>%Z</tt> directive with +zone before passing to Time#strftime,
# so that zone information is correct.
def strftime(format)
format = format.gsub(/((?:\A|[^%])(?:%%)*)%Z/, "\\1#{zone}")
getlocal(utc_offset).strftime(format)
end
# Use the time in UTC for comparisons.
def <=>(other)
utc <=> other
end
alias_method :before?, :<
alias_method :after?, :>
# Returns true if the current object's time is within the specified
# +min+ and +max+ time.
def between?(min, max)
utc.between?(min, max)
end
# Returns true if the current object's time is in the past.
def past?
utc.past?
end
# Returns true if the current object's time falls within
# the current day.
def today?
time.today?
end
# Returns true if the current object's time falls within
# the next day (tomorrow).
def tomorrow?
time.tomorrow?
end
alias :next_day? :tomorrow?
# Returns true if the current object's time falls within
# the previous day (yesterday).
def yesterday?
time.yesterday?
end
alias :prev_day? :yesterday?
# Returns true if the current object's time is in the future.
def future?
utc.future?
end
# Returns +true+ if +other+ is equal to current object.
def eql?(other)
other.eql?(utc)
end
def hash
utc.hash
end
# Adds an interval of time to the current object's time and returns that
# value as a new TimeWithZone object.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# now = Time.zone.now # => Sun, 02 Nov 2014 01:26:28.725182881 EDT -04:00
# now + 1000 # => Sun, 02 Nov 2014 01:43:08.725182881 EDT -04:00
#
# If we're adding a Duration of variable length (i.e., years, months, days),
# move forward from #time, otherwise move forward from #utc, for accuracy
# when moving across DST boundaries.
#
# For instance, a time + 24.hours will advance exactly 24 hours, while a
# time + 1.day will advance 23-25 hours, depending on the day.
#
# now + 24.hours # => Mon, 03 Nov 2014 00:26:28.725182881 EST -05:00
# now + 1.day # => Mon, 03 Nov 2014 01:26:28.725182881 EST -05:00
def +(other)
if duration_of_variable_length?(other)
method_missing(:+, other)
else
result = utc.acts_like?(:date) ? utc.since(other) : utc + other rescue utc.since(other)
result.in_time_zone(time_zone)
end
end
alias_method :since, :+
alias_method :in, :+
# Subtracts an interval of time and returns a new TimeWithZone object unless
# the other value +acts_like?+ time. In which case, it will subtract the
# other time and return the difference in seconds as a Float.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# now = Time.zone.now # => Mon, 03 Nov 2014 00:26:28.725182881 EST -05:00
# now - 1000 # => Mon, 03 Nov 2014 00:09:48.725182881 EST -05:00
#
# If subtracting a Duration of variable length (i.e., years, months, days),
# move backward from #time, otherwise move backward from #utc, for accuracy
# when moving across DST boundaries.
#
# For instance, a time - 24.hours will go subtract exactly 24 hours, while a
# time - 1.day will subtract 23-25 hours, depending on the day.
#
# now - 24.hours # => Sun, 02 Nov 2014 01:26:28.725182881 EDT -04:00
# now - 1.day # => Sun, 02 Nov 2014 00:26:28.725182881 EDT -04:00
#
# If both the TimeWithZone object and the other value act like Time, a Float
# will be returned.
#
# Time.zone.now - 1.day.ago # => 86399.999967
#
def -(other)
if other.acts_like?(:time)
to_time - other.to_time
elsif duration_of_variable_length?(other)
method_missing(:-, other)
else
result = utc.acts_like?(:date) ? utc.ago(other) : utc - other rescue utc.ago(other)
result.in_time_zone(time_zone)
end
end
# Subtracts an interval of time from the current object's time and returns
# the result as a new TimeWithZone object.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# now = Time.zone.now # => Mon, 03 Nov 2014 00:26:28.725182881 EST -05:00
# now.ago(1000) # => Mon, 03 Nov 2014 00:09:48.725182881 EST -05:00
#
# If we're subtracting a Duration of variable length (i.e., years, months,
# days), move backward from #time, otherwise move backward from #utc, for
# accuracy when moving across DST boundaries.
#
# For instance, <tt>time.ago(24.hours)</tt> will move back exactly 24 hours,
# while <tt>time.ago(1.day)</tt> will move back 23-25 hours, depending on
# the day.
#
# now.ago(24.hours) # => Sun, 02 Nov 2014 01:26:28.725182881 EDT -04:00
# now.ago(1.day) # => Sun, 02 Nov 2014 00:26:28.725182881 EDT -04:00
def ago(other)
since(-other)
end
# Returns a new +ActiveSupport::TimeWithZone+ where one or more of the elements have
# been changed according to the +options+ parameter. The time options (<tt>:hour</tt>,
# <tt>:min</tt>, <tt>:sec</tt>, <tt>:usec</tt>, <tt>:nsec</tt>) reset cascadingly,
# so if only the hour is passed, then minute, sec, usec, and nsec is set to 0. If the
# hour and minute is passed, then sec, usec, and nsec is set to 0. The +options+
# parameter takes a hash with any of these keys: <tt>:year</tt>, <tt>:month</tt>,
# <tt>:day</tt>, <tt>:hour</tt>, <tt>:min</tt>, <tt>:sec</tt>, <tt>:usec</tt>,
# <tt>:nsec</tt>, <tt>:offset</tt>, <tt>:zone</tt>. Pass either <tt>:usec</tt>
# or <tt>:nsec</tt>, not both. Similarly, pass either <tt>:zone</tt> or
# <tt>:offset</tt>, not both.
#
# t = Time.zone.now # => Fri, 14 Apr 2017 11:45:15.116992711 EST -05:00
# t.change(year: 2020) # => Tue, 14 Apr 2020 11:45:15.116992711 EST -05:00
# t.change(hour: 12) # => Fri, 14 Apr 2017 12:00:00.116992711 EST -05:00
# t.change(min: 30) # => Fri, 14 Apr 2017 11:30:00.116992711 EST -05:00
# t.change(offset: "-10:00") # => Fri, 14 Apr 2017 11:45:15.116992711 HST -10:00
# t.change(zone: "Hawaii") # => Fri, 14 Apr 2017 11:45:15.116992711 HST -10:00
def change(options)
if options[:zone] && options[:offset]
raise ArgumentError, "Can't change both :offset and :zone at the same time: #{options.inspect}"
end
new_time = time.change(options)
if options[:zone]
new_zone = ::Time.find_zone(options[:zone])
elsif options[:offset]
new_zone = ::Time.find_zone(new_time.utc_offset)
end
new_zone ||= time_zone
periods = new_zone.periods_for_local(new_time)
self.class.new(nil, new_zone, new_time, periods.include?(period) ? period : nil)
end
# Uses Date to provide precise Time calculations for years, months, and days
# according to the proleptic Gregorian calendar. The result is returned as a
# new TimeWithZone object.
#
# The +options+ parameter takes a hash with any of these keys:
# <tt>:years</tt>, <tt>:months</tt>, <tt>:weeks</tt>, <tt>:days</tt>,
# <tt>:hours</tt>, <tt>:minutes</tt>, <tt>:seconds</tt>.
#
# If advancing by a value of variable length (i.e., years, weeks, months,
# days), move forward from #time, otherwise move forward from #utc, for
# accuracy when moving across DST boundaries.
#
# Time.zone = 'Eastern Time (US & Canada)' # => 'Eastern Time (US & Canada)'
# now = Time.zone.now # => Sun, 02 Nov 2014 01:26:28.558049687 EDT -04:00
# now.advance(seconds: 1) # => Sun, 02 Nov 2014 01:26:29.558049687 EDT -04:00
# now.advance(minutes: 1) # => Sun, 02 Nov 2014 01:27:28.558049687 EDT -04:00
# now.advance(hours: 1) # => Sun, 02 Nov 2014 01:26:28.558049687 EST -05:00
# now.advance(days: 1) # => Mon, 03 Nov 2014 01:26:28.558049687 EST -05:00
# now.advance(weeks: 1) # => Sun, 09 Nov 2014 01:26:28.558049687 EST -05:00
# now.advance(months: 1) # => Tue, 02 Dec 2014 01:26:28.558049687 EST -05:00
# now.advance(years: 1) # => Mon, 02 Nov 2015 01:26:28.558049687 EST -05:00
def advance(options)
# If we're advancing a value of variable length (i.e., years, weeks, months, days), advance from #time,
# otherwise advance from #utc, for accuracy when moving across DST boundaries
if options.values_at(:years, :weeks, :months, :days).any?
method_missing(:advance, options)
else
utc.advance(options).in_time_zone(time_zone)
end
end
%w(year mon month day mday wday yday hour min sec usec nsec to_date).each do |method_name|
class_eval <<-EOV, __FILE__, __LINE__ + 1
def #{method_name} # def month
time.#{method_name} # time.month
end # end
EOV
end
# Returns Array of parts of Time in sequence of
# [seconds, minutes, hours, day, month, year, weekday, yearday, dst?, zone].
#
# now = Time.zone.now # => Tue, 18 Aug 2015 02:29:27.485278555 UTC +00:00
# now.to_a # => [27, 29, 2, 18, 8, 2015, 2, 230, false, "UTC"]
def to_a
[time.sec, time.min, time.hour, time.day, time.mon, time.year, time.wday, time.yday, dst?, zone]
end
# Returns the object's date and time as a floating-point number of seconds
# since the Epoch (January 1, 1970 00:00 UTC).
#
# Time.zone.now.to_f # => 1417709320.285418
def to_f
utc.to_f
end
# Returns the object's date and time as an integer number of seconds
# since the Epoch (January 1, 1970 00:00 UTC).
#
# Time.zone.now.to_i # => 1417709320
def to_i
utc.to_i
end
alias_method :tv_sec, :to_i
# Returns the object's date and time as a rational number of seconds
# since the Epoch (January 1, 1970 00:00 UTC).
#
# Time.zone.now.to_r # => (708854548642709/500000)
def to_r
utc.to_r
end
# Returns an instance of DateTime with the timezone's UTC offset
#
# Time.zone.now.to_datetime # => Tue, 18 Aug 2015 02:32:20 +0000
# Time.current.in_time_zone('Hawaii').to_datetime # => Mon, 17 Aug 2015 16:32:20 -1000
def to_datetime
@to_datetime ||= utc.to_datetime.new_offset(Rational(utc_offset, 86_400))
end
# Returns an instance of +Time+, either with the same UTC offset
# as +self+ or in the local system timezone depending on the setting
# of +ActiveSupport.to_time_preserves_timezone+.
def to_time
if preserve_timezone
@to_time_with_instance_offset ||= getlocal(utc_offset)
else
@to_time_with_system_offset ||= getlocal
end
end
# So that +self+ <tt>acts_like?(:time)</tt>.
def acts_like_time?
true
end
# Say we're a Time to thwart type checking.
def is_a?(klass)
klass == ::Time || super
end
alias_method :kind_of?, :is_a?
# An instance of ActiveSupport::TimeWithZone is never blank
def blank?
false
end
def freeze
# preload instance variables before freezing
period; utc; time; to_datetime; to_time
super
end
def marshal_dump
[utc, time_zone.name, time]
end
def marshal_load(variables)
initialize(variables[0].utc, ::Time.find_zone(variables[1]), variables[2].utc)
end
# respond_to_missing? is not called in some cases, such as when type conversion is
# performed with Kernel#String
def respond_to?(sym, include_priv = false)
# ensure that we're not going to throw and rescue from NoMethodError in method_missing which is slow
return false if sym.to_sym == :to_str
super
end
# Ensure proxy class responds to all methods that underlying time instance
# responds to.
def respond_to_missing?(sym, include_priv)
return false if sym.to_sym == :acts_like_date?
time.respond_to?(sym, include_priv)
end
# Send the missing method to +time+ instance, and wrap result in a new
# TimeWithZone with the existing +time_zone+.
def method_missing(...)
wrap_with_time_zone time.__send__(...)
rescue NoMethodError => e
raise e, e.message.sub(time.inspect, inspect).sub("Time", "ActiveSupport::TimeWithZone"), e.backtrace
end
private
SECONDS_PER_DAY = 86400
def incorporate_utc_offset(time, offset)
if time.kind_of?(Date)
time + Rational(offset, SECONDS_PER_DAY)
else
time + offset
end
end
def get_period_and_ensure_valid_local_time(period)
# we don't want a Time.local instance enforcing its own DST rules as well,
# so transfer time values to a utc constructor if necessary
@time = transfer_time_values_to_utc_constructor(@time) unless @time.utc?
begin
period || @time_zone.period_for_local(@time)
rescue ::TZInfo::PeriodNotFound
# time is in the "spring forward" hour gap, so we're moving the time forward one hour and trying again
@time += 1.hour
retry
end
end
def transfer_time_values_to_utc_constructor(time)
# avoid creating another Time object if possible
return time if time.instance_of?(::Time) && time.utc?
::Time.utc(time.year, time.month, time.day, time.hour, time.min, time.sec + time.subsec)
end
def duration_of_variable_length?(obj)
ActiveSupport::Duration === obj && obj.variable?
end
def wrap_with_time_zone(time)
if time.acts_like?(:time)
periods = time_zone.periods_for_local(time)
self.class.new(nil, time_zone, time, periods.include?(period) ? period : nil)
elsif time.is_a?(Range)
wrap_with_time_zone(time.begin)..wrap_with_time_zone(time.end)
else
time
end
end
end
end
# These prevent Psych from calling `ActiveSupport::TimeWithZone.name`
# and triggering the deprecation warning about the change in Rails 7.1.
YAML.load_tags["!ruby/object:ActiveSupport::TimeWithZone"] = "ActiveSupport::TimeWithZone"
YAML.dump_tags[ActiveSupport::TimeWithZone] = "!ruby/object:ActiveSupport::TimeWithZone"