Provides accurate date and time measurements using Date#advance
and Time#advance
, respectively. It mainly supports the methods on Numeric
.
1.month.ago # equivalent to Time.now.advance(months: -1)
- #
- A
- B
- E
- F
- H
- I
- P
- S
- T
- U
PARTS | = | [:years, :months, :weeks, :days, :hours, :minutes, :seconds].freeze |
PARTS_IN_SECONDS | = | { seconds: 1, minutes: SECONDS_PER_MINUTE, hours: SECONDS_PER_HOUR, days: SECONDS_PER_DAY, weeks: SECONDS_PER_WEEK, months: SECONDS_PER_MONTH, years: SECONDS_PER_YEAR }.freeze |
SECONDS_PER_DAY | = | 86400 |
SECONDS_PER_HOUR | = | 3600 |
SECONDS_PER_MINUTE | = | 60 |
SECONDS_PER_MONTH | = | 2629746 |
SECONDS_PER_WEEK | = | 604800 |
SECONDS_PER_YEAR | = | 31556952 |
[RW] | parts | |
[RW] | value |
Creates a new Duration
from a seconds value that is converted to the individual parts:
ActiveSupport::Duration.build(31556952).parts # => {:years=>1}
ActiveSupport::Duration.build(2716146).parts # => {:months=>1, :days=>1}
# File activesupport/lib/active_support/duration.rb, line 183 def build(value) parts = {} remainder = value.round(9) PARTS.each do |part| unless part == :seconds part_in_seconds = PARTS_IN_SECONDS[part] parts[part] = remainder.div(part_in_seconds) remainder %= part_in_seconds end end unless value == 0 parts[:seconds] = remainder new(value, parts) end
# File activesupport/lib/active_support/duration.rb, line 257 def *(other) if Scalar === other || Duration === other Duration.new(value * other.value, parts.map { |type, number| [type, number * other.value] }) elsif Numeric === other Duration.new(value * other, parts.map { |type, number| [type, number * other] }) else raise_type_error(other) end end
# File activesupport/lib/active_support/duration.rb, line 237 def +(other) if Duration === other parts = @parts.dup other.parts.each do |(key, value)| parts[key] += value end Duration.new(value + other.value, parts) else seconds = @parts[:seconds] + other Duration.new(value + other, @parts.merge(seconds: seconds)) end end
# File activesupport/lib/active_support/duration.rb, line 268 def /(other) if Scalar === other Duration.new(value / other.value, parts.map { |type, number| [type, number / other.value] }) elsif Duration === other value / other.value elsif Numeric === other Duration.new(value / other, parts.map { |type, number| [type, number / other] }) else raise_type_error(other) end end
Returns true
if other
is also a Duration
instance with the same value
, or if other == value
.
Returns true
if other
is also a Duration
instance, which has the same parts as this one.
Build ISO 8601 Duration
string for this duration. The precision
parameter can be used to limit seconds' precision of duration.
Returns the number of seconds that this Duration
represents.
1.minute.to_i # => 60
1.hour.to_i # => 3600
1.day.to_i # => 86400
Note that this conversion makes some assumptions about the duration of some periods, e.g. months are always 1/12 of year and years are 365.2425 days:
# equivalent to (1.year / 12).to_i
1.month.to_i # => 2629746
# equivalent to 365.2425.days.to_i
1.year.to_i # => 31556952
In such cases, Ruby's core Date and Time should be used for precision date and time arithmetic.