# frozen_string_literal: true
require "active_support/duration"
require "active_support/core_ext/time/conversions"
require "active_support/time_with_zone"
require "active_support/core_ext/time/zones"
require "active_support/core_ext/date_and_time/calculations"
require "active_support/core_ext/date/calculations"
require "active_support/core_ext/module/remove_method"
class Time
include DateAndTime::Calculations
COMMON_YEAR_DAYS_IN_MONTH = [nil, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
class << self
# Overriding case equality method so that it returns true for ActiveSupport::TimeWithZone instances
def ===(other)
super || (self == Time && other.is_a?(ActiveSupport::TimeWithZone))
end
# Returns the number of days in the given month.
# If no year is specified, it will use the current year.
def days_in_month(month, year = current.year)
if month == 2 && ::Date.gregorian_leap?(year)
29
else
COMMON_YEAR_DAYS_IN_MONTH[month]
end
end
# Returns the number of days in the given year.
# If no year is specified, it will use the current year.
def days_in_year(year = current.year)
days_in_month(2, year) + 337
end
# Returns Time.zone.now when Time.zone or config.time_zone are set, otherwise just returns Time.now.
def current
::Time.zone ? ::Time.zone.now : ::Time.now
end
# Layers additional behavior on Time.at so that ActiveSupport::TimeWithZone and DateTime
# instances can be used when called with a single argument
def at_with_coercion(time_or_number, *args)
if args.empty?
if time_or_number.is_a?(ActiveSupport::TimeWithZone)
at_without_coercion(time_or_number.to_r).getlocal
elsif time_or_number.is_a?(DateTime)
at_without_coercion(time_or_number.to_f).getlocal
else
at_without_coercion(time_or_number)
end
else
at_without_coercion(time_or_number, *args)
end
end
ruby2_keywords :at_with_coercion
alias_method :at_without_coercion, :at
alias_method :at, :at_with_coercion
# Creates a +Time+ instance from an RFC 3339 string.
#
# Time.rfc3339('1999-12-31T14:00:00-10:00') # => 2000-01-01 00:00:00 -1000
#
# If the time or offset components are missing then an +ArgumentError+ will be raised.
#
# Time.rfc3339('1999-12-31') # => ArgumentError: invalid date
def rfc3339(str)
parts = Date._rfc3339(str)
raise ArgumentError, "invalid date" if parts.empty?
Time.new(
parts.fetch(:year),
parts.fetch(:mon),
parts.fetch(:mday),
parts.fetch(:hour),
parts.fetch(:min),
parts.fetch(:sec) + parts.fetch(:sec_fraction, 0),
parts.fetch(:offset)
)
end
end
# Returns the number of seconds since 00:00:00.
#
# Time.new(2012, 8, 29, 0, 0, 0).seconds_since_midnight # => 0.0
# Time.new(2012, 8, 29, 12, 34, 56).seconds_since_midnight # => 45296.0
# Time.new(2012, 8, 29, 23, 59, 59).seconds_since_midnight # => 86399.0
def seconds_since_midnight
to_i - change(hour: 0).to_i + (usec / 1.0e+6)
end
# Returns the number of seconds until 23:59:59.
#
# Time.new(2012, 8, 29, 0, 0, 0).seconds_until_end_of_day # => 86399
# Time.new(2012, 8, 29, 12, 34, 56).seconds_until_end_of_day # => 41103
# Time.new(2012, 8, 29, 23, 59, 59).seconds_until_end_of_day # => 0
def seconds_until_end_of_day
end_of_day.to_i - to_i
end
# Returns the fraction of a second as a +Rational+
#
# Time.new(2012, 8, 29, 0, 0, 0.5).sec_fraction # => (1/2)
def sec_fraction
subsec
end
# Returns a new Time where one or more of the elements have been changed according
# to the +options+ parameter. The time options (:hour, :min,
# :sec, :usec, :nsec) 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: :year, :month, :day,
# :hour, :min, :sec, :usec, :nsec,
# :offset. Pass either :usec or :nsec, not both.
#
# Time.new(2012, 8, 29, 22, 35, 0).change(day: 1) # => Time.new(2012, 8, 1, 22, 35, 0)
# Time.new(2012, 8, 29, 22, 35, 0).change(year: 1981, day: 1) # => Time.new(1981, 8, 1, 22, 35, 0)
# Time.new(2012, 8, 29, 22, 35, 0).change(year: 1981, hour: 0) # => Time.new(1981, 8, 29, 0, 0, 0)
def change(options)
new_year = options.fetch(:year, year)
new_month = options.fetch(:month, month)
new_day = options.fetch(:day, day)
new_hour = options.fetch(:hour, hour)
new_min = options.fetch(:min, options[:hour] ? 0 : min)
new_sec = options.fetch(:sec, (options[:hour] || options[:min]) ? 0 : sec)
new_offset = options.fetch(:offset, nil)
if new_nsec = options[:nsec]
raise ArgumentError, "Can't change both :nsec and :usec at the same time: #{options.inspect}" if options[:usec]
new_usec = Rational(new_nsec, 1000)
else
new_usec = options.fetch(:usec, (options[:hour] || options[:min] || options[:sec]) ? 0 : Rational(nsec, 1000))
end
raise ArgumentError, "argument out of range" if new_usec >= 1000000
new_sec += Rational(new_usec, 1000000)
if new_offset
::Time.new(new_year, new_month, new_day, new_hour, new_min, new_sec, new_offset)
elsif utc?
::Time.utc(new_year, new_month, new_day, new_hour, new_min, new_sec)
elsif zone.respond_to?(:utc_to_local)
new_time = ::Time.new(new_year, new_month, new_day, new_hour, new_min, new_sec, zone)
# When there are two occurrences of a nominal time due to DST ending,
# `Time.new` chooses the first chronological occurrence (the one with a
# larger UTC offset). However, for `change`, we want to choose the
# occurrence that matches this time's UTC offset.
#
# If the new time's UTC offset is larger than this time's UTC offset, the
# new time might be a first chronological occurrence. So we add the offset
# difference to fast-forward the new time, and check if the result has the
# desired UTC offset (i.e. is the second chronological occurrence).
offset_difference = new_time.utc_offset - utc_offset
if offset_difference > 0 && (new_time_2 = new_time + offset_difference).utc_offset == utc_offset
new_time_2
else
new_time
end
elsif zone
::Time.local(new_sec, new_min, new_hour, new_day, new_month, new_year, nil, nil, isdst, nil)
else
::Time.new(new_year, new_month, new_day, new_hour, new_min, new_sec, utc_offset)
end
end
# Uses Date to provide precise Time calculations for years, months, and days
# according to the proleptic Gregorian calendar. The +options+ parameter
# takes a hash with any of these keys: :years, :months,
# :weeks, :days, :hours, :minutes,
# :seconds.
#
# Time.new(2015, 8, 1, 14, 35, 0).advance(seconds: 1) # => 2015-08-01 14:35:01 -0700
# Time.new(2015, 8, 1, 14, 35, 0).advance(minutes: 1) # => 2015-08-01 14:36:00 -0700
# Time.new(2015, 8, 1, 14, 35, 0).advance(hours: 1) # => 2015-08-01 15:35:00 -0700
# Time.new(2015, 8, 1, 14, 35, 0).advance(days: 1) # => 2015-08-02 14:35:00 -0700
# Time.new(2015, 8, 1, 14, 35, 0).advance(weeks: 1) # => 2015-08-08 14:35:00 -0700
#
# Just like Date#advance, increments are applied in order of time units from
# largest to smallest. This order can affect the result around the end of a
# month.
def advance(options)
unless options[:weeks].nil?
options[:weeks], partial_weeks = options[:weeks].divmod(1)
options[:days] = options.fetch(:days, 0) + 7 * partial_weeks
end
unless options[:days].nil?
options[:days], partial_days = options[:days].divmod(1)
options[:hours] = options.fetch(:hours, 0) + 24 * partial_days
end
d = to_date.gregorian.advance(options)
time_advanced_by_date = change(year: d.year, month: d.month, day: d.day)
seconds_to_advance = \
options.fetch(:seconds, 0) +
options.fetch(:minutes, 0) * 60 +
options.fetch(:hours, 0) * 3600
if seconds_to_advance.zero?
time_advanced_by_date
else
time_advanced_by_date.since(seconds_to_advance)
end
end
# Returns a new Time representing the time a number of seconds ago, this is basically a wrapper around the Numeric extension
def ago(seconds)
since(-seconds)
end
# Returns a new Time representing the time a number of seconds since the instance time
def since(seconds)
self + seconds
rescue
to_datetime.since(seconds)
end
alias :in :since
# Returns a new Time representing the start of the day (0:00)
def beginning_of_day
change(hour: 0)
end
alias :midnight :beginning_of_day
alias :at_midnight :beginning_of_day
alias :at_beginning_of_day :beginning_of_day
# Returns a new Time representing the middle of the day (12:00)
def middle_of_day
change(hour: 12)
end
alias :midday :middle_of_day
alias :noon :middle_of_day
alias :at_midday :middle_of_day
alias :at_noon :middle_of_day
alias :at_middle_of_day :middle_of_day
# Returns a new Time representing the end of the day, 23:59:59.999999
def end_of_day
change(
hour: 23,
min: 59,
sec: 59,
usec: Rational(999999999, 1000)
)
end
alias :at_end_of_day :end_of_day
# Returns a new Time representing the start of the hour (x:00)
def beginning_of_hour
change(min: 0)
end
alias :at_beginning_of_hour :beginning_of_hour
# Returns a new Time representing the end of the hour, x:59:59.999999
def end_of_hour
change(
min: 59,
sec: 59,
usec: Rational(999999999, 1000)
)
end
alias :at_end_of_hour :end_of_hour
# Returns a new Time representing the start of the minute (x:xx:00)
def beginning_of_minute
change(sec: 0)
end
alias :at_beginning_of_minute :beginning_of_minute
# Returns a new Time representing the end of the minute, x:xx:59.999999
def end_of_minute
change(
sec: 59,
usec: Rational(999999999, 1000)
)
end
alias :at_end_of_minute :end_of_minute
def plus_with_duration(other) # :nodoc:
if ActiveSupport::Duration === other
other.since(self)
else
plus_without_duration(other)
end
end
alias_method :plus_without_duration, :+
alias_method :+, :plus_with_duration
def minus_with_duration(other) # :nodoc:
if ActiveSupport::Duration === other
other.until(self)
else
minus_without_duration(other)
end
end
alias_method :minus_without_duration, :-
alias_method :-, :minus_with_duration
# Time#- can also be used to determine the number of seconds between two Time instances.
# We're layering on additional behavior so that ActiveSupport::TimeWithZone instances
# are coerced into values that Time#- will recognize
def minus_with_coercion(other)
other = other.comparable_time if other.respond_to?(:comparable_time)
other.is_a?(DateTime) ? to_f - other.to_f : minus_without_coercion(other)
end
alias_method :minus_without_coercion, :-
alias_method :-, :minus_with_coercion # rubocop:disable Lint/DuplicateMethods
# Layers additional behavior on Time#<=> so that DateTime and ActiveSupport::TimeWithZone instances
# can be chronologically compared with a Time
def compare_with_coercion(other)
# we're avoiding Time#to_datetime and Time#to_time because they're expensive
if other.class == Time
compare_without_coercion(other)
elsif other.is_a?(Time)
compare_without_coercion(other.to_time)
else
to_datetime <=> other
end
end
alias_method :compare_without_coercion, :<=>
alias_method :<=>, :compare_with_coercion
# Layers additional behavior on Time#eql? so that ActiveSupport::TimeWithZone instances
# can be eql? to an equivalent Time
def eql_with_coercion(other)
# if other is an ActiveSupport::TimeWithZone, coerce a Time instance from it so we can do eql? comparison
other = other.comparable_time if other.respond_to?(:comparable_time)
eql_without_coercion(other)
end
alias_method :eql_without_coercion, :eql?
alias_method :eql?, :eql_with_coercion
# Returns a new time the specified number of days ago.
def prev_day(days = 1)
advance(days: -days)
end
# Returns a new time the specified number of days in the future.
def next_day(days = 1)
advance(days: days)
end
# Returns a new time the specified number of months ago.
def prev_month(months = 1)
advance(months: -months)
end
# Returns a new time the specified number of months in the future.
def next_month(months = 1)
advance(months: months)
end
# Returns a new time the specified number of years ago.
def prev_year(years = 1)
advance(years: -years)
end
# Returns a new time the specified number of years in the future.
def next_year(years = 1)
advance(years: years)
end
end