# frozen_string_literal: true require "active_support/core_ext/array/conversions" require "active_support/core_ext/module/delegation" require "active_support/core_ext/object/acts_like" require "active_support/core_ext/string/filters" module ActiveSupport # 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) class Duration class Scalar < Numeric #:nodoc: attr_reader :value delegate :to_i, :to_f, :to_s, to: :value def initialize(value) @value = value end def coerce(other) [Scalar.new(other), self] end def -@ Scalar.new(-value) end def <=>(other) if Scalar === other || Duration === other value <=> other.value elsif Numeric === other value <=> other else nil end end def +(other) if Duration === other seconds = value + other.parts[:seconds] new_parts = other.parts.merge(seconds: seconds) new_value = value + other.value Duration.new(new_value, new_parts) else calculate(:+, other) end end def -(other) if Duration === other seconds = value - other.parts[:seconds] new_parts = other.parts.map { |part, other_value| [part, -other_value] }.to_h new_parts = new_parts.merge(seconds: seconds) new_value = value - other.value Duration.new(new_value, new_parts) else calculate(:-, other) end end def *(other) if Duration === other new_parts = other.parts.map { |part, other_value| [part, value * other_value] }.to_h new_value = value * other.value Duration.new(new_value, new_parts) else calculate(:*, other) end end def /(other) if Duration === other value / other.value else calculate(:/, other) end end def %(other) if Duration === other Duration.build(value % other.value) else calculate(:%, other) end end private def calculate(op, other) if Scalar === other Scalar.new(value.public_send(op, other.value)) elsif Numeric === other Scalar.new(value.public_send(op, other)) else raise_type_error(other) end end def raise_type_error(other) raise TypeError, "no implicit conversion of #{other.class} into #{self.class}" end end SECONDS_PER_MINUTE = 60 SECONDS_PER_HOUR = 3600 SECONDS_PER_DAY = 86400 SECONDS_PER_WEEK = 604800 SECONDS_PER_MONTH = 2629746 # 1/12 of a gregorian year SECONDS_PER_YEAR = 31556952 # length of a gregorian year (365.2425 days) 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 PARTS = [:years, :months, :weeks, :days, :hours, :minutes, :seconds].freeze attr_accessor :value, :parts autoload :ISO8601Parser, "active_support/duration/iso8601_parser" autoload :ISO8601Serializer, "active_support/duration/iso8601_serializer" class << self # Creates a new Duration from string formatted according to ISO 8601 Duration. # # See {ISO 8601}[https://en.wikipedia.org/wiki/ISO_8601#Durations] for more information. # This method allows negative parts to be present in pattern. # If invalid string is provided, it will raise +ActiveSupport::Duration::ISO8601Parser::ParsingError+. def parse(iso8601duration) parts = ISO8601Parser.new(iso8601duration).parse! new(calculate_total_seconds(parts), parts) end def ===(other) #:nodoc: other.is_a?(Duration) rescue ::NoMethodError false end def seconds(value) #:nodoc: new(value, [[:seconds, value]]) end def minutes(value) #:nodoc: new(value * SECONDS_PER_MINUTE, [[:minutes, value]]) end def hours(value) #:nodoc: new(value * SECONDS_PER_HOUR, [[:hours, value]]) end def days(value) #:nodoc: new(value * SECONDS_PER_DAY, [[:days, value]]) end def weeks(value) #:nodoc: new(value * SECONDS_PER_WEEK, [[:weeks, value]]) end def months(value) #:nodoc: new(value * SECONDS_PER_MONTH, [[:months, value]]) end def years(value) #:nodoc: new(value * SECONDS_PER_YEAR, [[:years, value]]) end # 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} # def build(value) parts = {} remainder = value.to_f PARTS.each do |part| unless part == :seconds part_in_seconds = PARTS_IN_SECONDS[part] parts[part] = remainder.div(part_in_seconds) remainder = (remainder % part_in_seconds).round(9) end end parts[:seconds] = remainder new(value, parts) end private def calculate_total_seconds(parts) parts.inject(0) do |total, (part, value)| total + value * PARTS_IN_SECONDS[part] end end end def initialize(value, parts) #:nodoc: @value, @parts = value, parts.to_h @parts.default = 0 @parts.reject! { |k, v| v.zero? } end def coerce(other) #:nodoc: case other when Scalar [other, self] when Duration [Scalar.new(other.value), self] else [Scalar.new(other), self] end end # Compares one Duration with another or a Numeric to this Duration. # Numeric values are treated as seconds. def <=>(other) if Duration === other value <=> other.value elsif Numeric === other value <=> other end end # Adds another Duration or a Numeric to this Duration. Numeric values # are treated as seconds. 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 # Subtracts another Duration or a Numeric from this Duration. Numeric # values are treated as seconds. def -(other) self + (-other) end # Multiplies this Duration by a Numeric and returns a new Duration. 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 # Divides this Duration by a Numeric and returns a new Duration. 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 the modulo of this Duration by another Duration or Numeric. # Numeric values are treated as seconds. def %(other) if Duration === other || Scalar === other Duration.build(value % other.value) elsif Numeric === other Duration.build(value % other) else raise_type_error(other) end end def -@ #:nodoc: Duration.new(-value, parts.map { |type, number| [type, -number] }) end def is_a?(klass) #:nodoc: Duration == klass || value.is_a?(klass) end alias :kind_of? :is_a? def instance_of?(klass) # :nodoc: Duration == klass || value.instance_of?(klass) end # Returns +true+ if +other+ is also a Duration instance with the # same +value+, or if other == value. def ==(other) if Duration === other other.value == value else other == value end end # Returns the amount of seconds a duration covers as a string. # For more information check to_i method. # # 1.day.to_s # => "86400" def to_s @value.to_s end # 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[https://ruby-doc.org/stdlib/libdoc/date/rdoc/Date.html] and # Time[https://ruby-doc.org/stdlib/libdoc/time/rdoc/Time.html] should be used for precision # date and time arithmetic. def to_i @value.to_i end # Returns +true+ if +other+ is also a Duration instance, which has the # same parts as this one. def eql?(other) Duration === other && other.value.eql?(value) end def hash @value.hash end # Calculates a new Time or Date that is as far in the future # as this Duration represents. def since(time = ::Time.current) sum(1, time) end alias :from_now :since alias :after :since # Calculates a new Time or Date that is as far in the past # as this Duration represents. def ago(time = ::Time.current) sum(-1, time) end alias :until :ago alias :before :ago def inspect #:nodoc: return "0 seconds" if parts.empty? parts. sort_by { |unit, _ | PARTS.index(unit) }. map { |unit, val| "#{val} #{val == 1 ? unit.to_s.chop : unit.to_s}" }. to_sentence(locale: ::I18n.default_locale) end def as_json(options = nil) #:nodoc: to_i end def init_with(coder) #:nodoc: initialize(coder["value"], coder["parts"]) end def encode_with(coder) #:nodoc: coder.map = { "value" => @value, "parts" => @parts } end # Build ISO 8601 Duration string for this duration. # The +precision+ parameter can be used to limit seconds' precision of duration. def iso8601(precision: nil) ISO8601Serializer.new(self, precision: precision).serialize end private def sum(sign, time = ::Time.current) parts.inject(time) do |t, (type, number)| if t.acts_like?(:time) || t.acts_like?(:date) if type == :seconds t.since(sign * number) elsif type == :minutes t.since(sign * number * 60) elsif type == :hours t.since(sign * number * 3600) else t.advance(type => sign * number) end else raise ::ArgumentError, "expected a time or date, got #{time.inspect}" end end end def respond_to_missing?(method, _) value.respond_to?(method) end def method_missing(method, *args, &block) value.public_send(method, *args, &block) end def raise_type_error(other) raise TypeError, "no implicit conversion of #{other.class} into #{self.class}" end end end