rf-web/vendor/bundle/gems/concurrent-ruby-1.1.5/lib/concurrent/scheduled_task.rb

require 'concurrent/constants'
require 'concurrent/errors'
require 'concurrent/configuration'
require 'concurrent/ivar'
require 'concurrent/collection/copy_on_notify_observer_set'
require 'concurrent/utility/monotonic_time'

require 'concurrent/options'

module Concurrent

  # `ScheduledTask` is a close relative of `Concurrent::Future` but with one
  # important difference: A `Future` is set to execute as soon as possible
  # whereas a `ScheduledTask` is set to execute after a specified delay. This
  # implementation is loosely based on Java's
  # [ScheduledExecutorService](http://docs.oracle.com/javase/7/docs/api/java/util/concurrent/ScheduledExecutorService.html).
  # It is a more feature-rich variant of {Concurrent.timer}.
  #
  # The *intended* schedule time of task execution is set on object construction
  # with the `delay` argument. The delay is a numeric (floating point or integer)
  # representing a number of seconds in the future. Any other value or a numeric
  # equal to or less than zero will result in an exception. The *actual* schedule
  # time of task execution is set when the `execute` method is called.
  #
  # The constructor can also be given zero or more processing options. Currently
  # the only supported options are those recognized by the
  # [Dereferenceable](Dereferenceable) module.
  #
  # The final constructor argument is a block representing the task to be performed.
  # If no block is given an `ArgumentError` will be raised.
  #
  # **States**
  #
  # `ScheduledTask` mixes in the  [Obligation](Obligation) module thus giving it
  # "future" behavior. This includes the expected lifecycle states. `ScheduledTask`
  # has one additional state, however. While the task (block) is being executed the
  # state of the object will be `:processing`. This additional state is necessary
  # because it has implications for task cancellation.
  #
  # **Cancellation**
  #
  # A `:pending` task can be cancelled using the `#cancel` method. A task in any
  # other state, including `:processing`, cannot be cancelled. The `#cancel`
  # method returns a boolean indicating the success of the cancellation attempt.
  # A cancelled `ScheduledTask` cannot be restarted. It is immutable.
  #
  # **Obligation and Observation**
  #
  # The result of a `ScheduledTask` can be obtained either synchronously or
  # asynchronously. `ScheduledTask` mixes in both the [Obligation](Obligation)
  # module and the
  # [Observable](http://ruby-doc.org/stdlib-2.0/libdoc/observer/rdoc/Observable.html)
  # module from the Ruby standard library. With one exception `ScheduledTask`
  # behaves identically to [Future](Observable) with regard to these modules.
  #
  # @!macro copy_options
  #
  # @example Basic usage
  #
  #   require 'concurrent'
  #   require 'thread'   # for Queue
  #   require 'open-uri' # for open(uri)
  #
  #   class Ticker
  #     def get_year_end_closing(symbol, year)
  #       uri = "http://ichart.finance.yahoo.com/table.csv?s=#{symbol}&a=11&b=01&c=#{year}&d=11&e=31&f=#{year}&g=m"
  #       data = open(uri) {|f| f.collect{|line| line.strip } }
  #       data[1].split(',')[4].to_f
  #     end
  #   end
  #
  #   # Future
  #   price = Concurrent::Future.execute{ Ticker.new.get_year_end_closing('TWTR', 2013) }
  #   price.state #=> :pending
  #   sleep(1)    # do other stuff
  #   price.value #=> 63.65
  #   price.state #=> :fulfilled
  #
  #   # ScheduledTask
  #   task = Concurrent::ScheduledTask.execute(2){ Ticker.new.get_year_end_closing('INTC', 2013) }
  #   task.state #=> :pending
  #   sleep(3)   # do other stuff
  #   task.value #=> 25.96
  #
  # @example Successful task execution
  #
  #   task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }
  #   task.state         #=> :unscheduled
  #   task.execute
  #   task.state         #=> pending
  #
  #   # wait for it...
  #   sleep(3)
  #
  #   task.unscheduled? #=> false
  #   task.pending?     #=> false
  #   task.fulfilled?   #=> true
  #   task.rejected?    #=> false
  #   task.value        #=> 'What does the fox say?'
  #
  # @example One line creation and execution
  #
  #   task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }.execute
  #   task.state         #=> pending
  #
  #   task = Concurrent::ScheduledTask.execute(2){ 'What do you get when you multiply 6 by 9?' }
  #   task.state         #=> pending
  #
  # @example Failed task execution
  #
  #   task = Concurrent::ScheduledTask.execute(2){ raise StandardError.new('Call me maybe?') }
  #   task.pending?      #=> true
  #
  #   # wait for it...
  #   sleep(3)
  #
  #   task.unscheduled? #=> false
  #   task.pending?     #=> false
  #   task.fulfilled?   #=> false
  #   task.rejected?    #=> true
  #   task.value        #=> nil
  #   task.reason       #=> #<StandardError: Call me maybe?>
  #
  # @example Task execution with observation
  #
  #   observer = Class.new{
  #     def update(time, value, reason)
  #       puts "The task completed at #{time} with value '#{value}'"
  #     end
  #   }.new
  #
  #   task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }
  #   task.add_observer(observer)
  #   task.execute
  #   task.pending?      #=> true
  #
  #   # wait for it...
  #   sleep(3)
  #
  #   #>> The task completed at 2013-11-07 12:26:09 -0500 with value 'What does the fox say?'
  #
  # @!macro monotonic_clock_warning
  #
  # @see Concurrent.timer
  class ScheduledTask < IVar
    include Comparable

    # The executor on which to execute the task.
    # @!visibility private
    attr_reader :executor

    # Schedule a task for execution at a specified future time.
    #
    # @param [Float] delay the number of seconds to wait for before executing the task
    #
    # @yield the task to be performed
    #
    # @!macro executor_and_deref_options
    #
    # @option opts [object, Array] :args zero or more arguments to be passed the task
    #   block on execution
    #
    # @raise [ArgumentError] When no block is given
    # @raise [ArgumentError] When given a time that is in the past
    def initialize(delay, opts = {}, &task)
      raise ArgumentError.new('no block given') unless block_given?
      raise ArgumentError.new('seconds must be greater than zero') if delay.to_f < 0.0

      super(NULL, opts, &nil)

      synchronize do
        ns_set_state(:unscheduled)
        @parent = opts.fetch(:timer_set, Concurrent.global_timer_set)
        @args = get_arguments_from(opts)
        @delay = delay.to_f
        @task = task
        @time = nil
        @executor = Options.executor_from_options(opts) || Concurrent.global_io_executor
        self.observers = Collection::CopyOnNotifyObserverSet.new
      end
    end

    # The `delay` value given at instanciation.
    #
    # @return [Float] the initial delay.
    def initial_delay
      synchronize { @delay }
    end

    # The monotonic time at which the the task is scheduled to be executed.
    #
    # @return [Float] the schedule time or nil if `unscheduled`
    def schedule_time
      synchronize { @time }
    end

    # Comparator which orders by schedule time.
    #
    # @!visibility private
    def <=>(other)
      schedule_time <=> other.schedule_time
    end

    # Has the task been cancelled?
    #
    # @return [Boolean] true if the task is in the given state else false
    def cancelled?
      synchronize { ns_check_state?(:cancelled) }
    end

    # In the task execution in progress?
    #
    # @return [Boolean] true if the task is in the given state else false
    def processing?
      synchronize { ns_check_state?(:processing) }
    end

    # Cancel this task and prevent it from executing. A task can only be
    # cancelled if it is pending or unscheduled.
    #
    # @return [Boolean] true if successfully cancelled else false
    def cancel
      if compare_and_set_state(:cancelled, :pending, :unscheduled)
        complete(false, nil, CancelledOperationError.new)
        # To avoid deadlocks this call must occur outside of #synchronize
        # Changing the state above should prevent redundant calls
        @parent.send(:remove_task, self)
      else
        false
      end
    end

    # Reschedule the task using the original delay and the current time.
    # A task can only be reset while it is `:pending`.
    #
    # @return [Boolean] true if successfully rescheduled else false
    def reset
      synchronize{ ns_reschedule(@delay) }
    end

    # Reschedule the task using the given delay and the current time.
    # A task can only be reset while it is `:pending`.
    #
    # @param [Float] delay the number of seconds to wait for before executing the task
    #
    # @return [Boolean] true if successfully rescheduled else false
    #
    # @raise [ArgumentError] When given a time that is in the past
    def reschedule(delay)
      delay = delay.to_f
      raise ArgumentError.new('seconds must be greater than zero') if delay < 0.0
      synchronize{ ns_reschedule(delay) }
    end

    # Execute an `:unscheduled` `ScheduledTask`. Immediately sets the state to `:pending`
    # and starts counting down toward execution. Does nothing if the `ScheduledTask` is
    # in any state other than `:unscheduled`.
    #
    # @return [ScheduledTask] a reference to `self`
    def execute
      if compare_and_set_state(:pending, :unscheduled)
        synchronize{ ns_schedule(@delay) }
      end
      self
    end

    # Create a new `ScheduledTask` object with the given block, execute it, and return the
    # `:pending` object.
    #
    # @param [Float] delay the number of seconds to wait for before executing the task
    #
    # @!macro executor_and_deref_options
    #
    # @return [ScheduledTask] the newly created `ScheduledTask` in the `:pending` state
    #
    # @raise [ArgumentError] if no block is given
    def self.execute(delay, opts = {}, &task)
      new(delay, opts, &task).execute
    end

    # Execute the task.
    #
    # @!visibility private
    def process_task
      safe_execute(@task, @args)
    end

    protected :set, :try_set, :fail, :complete

    protected

    # Schedule the task using the given delay and the current time.
    #
    # @param [Float] delay the number of seconds to wait for before executing the task
    #
    # @return [Boolean] true if successfully rescheduled else false
    #
    # @!visibility private
    def ns_schedule(delay)
      @delay = delay
      @time = Concurrent.monotonic_time + @delay
      @parent.send(:post_task, self)
    end

    # Reschedule the task using the given delay and the current time.
    # A task can only be reset while it is `:pending`.
    #
    # @param [Float] delay the number of seconds to wait for before executing the task
    #
    # @return [Boolean] true if successfully rescheduled else false
    #
    # @!visibility private
    def ns_reschedule(delay)
      return false unless ns_check_state?(:pending)
      @parent.send(:remove_task, self) && ns_schedule(delay)
    end
  end
end
initialise repo with jekyll 2019-10-21 08:18:17 +00:00			`require 'concurrent/constants'`
			`require 'concurrent/errors'`
			`require 'concurrent/configuration'`
			`require 'concurrent/ivar'`
			`require 'concurrent/collection/copy_on_notify_observer_set'`
			`require 'concurrent/utility/monotonic_time'`

			`require 'concurrent/options'`

			`module Concurrent`

			# `ScheduledTask` is a close relative of `Concurrent::Future` but with one
			# important difference: A `Future` is set to execute as soon as possible
			# whereas a `ScheduledTask` is set to execute after a specified delay. This
			`# implementation is loosely based on Java's`
			`# [ScheduledExecutorService](http://docs.oracle.com/javase/7/docs/api/java/util/concurrent/ScheduledExecutorService.html).`
			`# It is a more feature-rich variant of {Concurrent.timer}.`
			`#`
			`# The intended schedule time of task execution is set on object construction`
			# with the `delay` argument. The delay is a numeric (floating point or integer)
			`# representing a number of seconds in the future. Any other value or a numeric`
			`# equal to or less than zero will result in an exception. The actual schedule`
			# time of task execution is set when the `execute` method is called.
			`#`
			`# The constructor can also be given zero or more processing options. Currently`
			`# the only supported options are those recognized by the`
			`# [Dereferenceable](Dereferenceable) module.`
			`#`
			`# The final constructor argument is a block representing the task to be performed.`
			# If no block is given an `ArgumentError` will be raised.
			`#`
			`# States`
			`#`
			# `ScheduledTask` mixes in the [Obligation](Obligation) module thus giving it
			# "future" behavior. This includes the expected lifecycle states. `ScheduledTask`
			`# has one additional state, however. While the task (block) is being executed the`
			# state of the object will be `:processing`. This additional state is necessary
			`# because it has implications for task cancellation.`
			`#`
			`# Cancellation`
			`#`
			# A `:pending` task can be cancelled using the `#cancel` method. A task in any
			# other state, including `:processing`, cannot be cancelled. The `#cancel`
			`# method returns a boolean indicating the success of the cancellation attempt.`
			# A cancelled `ScheduledTask` cannot be restarted. It is immutable.
			`#`
			`# Obligation and Observation`
			`#`
			# The result of a `ScheduledTask` can be obtained either synchronously or
			# asynchronously. `ScheduledTask` mixes in both the [Obligation](Obligation)
			`# module and the`
			`# [Observable](http://ruby-doc.org/stdlib-2.0/libdoc/observer/rdoc/Observable.html)`
			# module from the Ruby standard library. With one exception `ScheduledTask`
			`# behaves identically to [Future](Observable) with regard to these modules.`
			`#`
			`# @!macro copy_options`
			`#`
			`# @example Basic usage`
			`#`
			`# require 'concurrent'`
			`# require 'thread' # for Queue`
			`# require 'open-uri' # for open(uri)`
			`#`
			`# class Ticker`
			`# def get_year_end_closing(symbol, year)`
			`# uri = "http://ichart.finance.yahoo.com/table.csv?s=#{symbol}&a=11&b=01&c=#{year}&d=11&e=31&f=#{year}&g=m"`
			`# data = open(uri) {\|f\| f.collect{\|line\| line.strip } }`
			`# data[1].split(',')[4].to_f`
			`# end`
			`# end`
			`#`
			`# # Future`
			`# price = Concurrent::Future.execute{ Ticker.new.get_year_end_closing('TWTR', 2013) }`
			`# price.state #=> :pending`
			`# sleep(1) # do other stuff`
			`# price.value #=> 63.65`
			`# price.state #=> :fulfilled`
			`#`
			`# # ScheduledTask`
			`# task = Concurrent::ScheduledTask.execute(2){ Ticker.new.get_year_end_closing('INTC', 2013) }`
			`# task.state #=> :pending`
			`# sleep(3) # do other stuff`
			`# task.value #=> 25.96`
			`#`
			`# @example Successful task execution`
			`#`
			`# task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }`
			`# task.state #=> :unscheduled`
			`# task.execute`
			`# task.state #=> pending`
			`#`
			`# # wait for it...`
			`# sleep(3)`
			`#`
			`# task.unscheduled? #=> false`
			`# task.pending? #=> false`
			`# task.fulfilled? #=> true`
			`# task.rejected? #=> false`
			`# task.value #=> 'What does the fox say?'`
			`#`
			`# @example One line creation and execution`
			`#`
			`# task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }.execute`
			`# task.state #=> pending`
			`#`
			`# task = Concurrent::ScheduledTask.execute(2){ 'What do you get when you multiply 6 by 9?' }`
			`# task.state #=> pending`
			`#`
			`# @example Failed task execution`
			`#`
			`# task = Concurrent::ScheduledTask.execute(2){ raise StandardError.new('Call me maybe?') }`
			`# task.pending? #=> true`
			`#`
			`# # wait for it...`
			`# sleep(3)`
			`#`
			`# task.unscheduled? #=> false`
			`# task.pending? #=> false`
			`# task.fulfilled? #=> false`
			`# task.rejected? #=> true`
			`# task.value #=> nil`
			`# task.reason #=> #<StandardError: Call me maybe?>`
			`#`
			`# @example Task execution with observation`
			`#`
			`# observer = Class.new{`
			`# def update(time, value, reason)`
			`# puts "The task completed at #{time} with value '#{value}'"`
			`# end`
			`# }.new`
			`#`
			`# task = Concurrent::ScheduledTask.new(2){ 'What does the fox say?' }`
			`# task.add_observer(observer)`
			`# task.execute`
			`# task.pending? #=> true`
			`#`
			`# # wait for it...`
			`# sleep(3)`
			`#`
			`# #>> The task completed at 2013-11-07 12:26:09 -0500 with value 'What does the fox say?'`
			`#`
			`# @!macro monotonic_clock_warning`
			`#`
			`# @see Concurrent.timer`
			`class ScheduledTask < IVar`
			`include Comparable`

			`# The executor on which to execute the task.`
			`# @!visibility private`
			`attr_reader :executor`

			`# Schedule a task for execution at a specified future time.`
			`#`
			`# @param [Float] delay the number of seconds to wait for before executing the task`
			`#`
			`# @yield the task to be performed`
			`#`
			`# @!macro executor_and_deref_options`
			`#`
			`# @option opts [object, Array] :args zero or more arguments to be passed the task`
			`# block on execution`
			`#`
			`# @raise [ArgumentError] When no block is given`
			`# @raise [ArgumentError] When given a time that is in the past`
			`def initialize(delay, opts = {}, &task)`
			`raise ArgumentError.new('no block given') unless block_given?`
			`raise ArgumentError.new('seconds must be greater than zero') if delay.to_f < 0.0`

			`super(NULL, opts, &nil)`

			`synchronize do`
			`ns_set_state(:unscheduled)`
			`@parent = opts.fetch(:timer_set, Concurrent.global_timer_set)`
			`@args = get_arguments_from(opts)`
			`@delay = delay.to_f`
			`@task = task`
			`@time = nil`
			`@executor = Options.executor_from_options(opts) \|\| Concurrent.global_io_executor`
			`self.observers = Collection::CopyOnNotifyObserverSet.new`
			`end`
			`end`

			# The `delay` value given at instanciation.
			`#`
			`# @return [Float] the initial delay.`
			`def initial_delay`
			`synchronize { @delay }`
			`end`

			`# The monotonic time at which the the task is scheduled to be executed.`
			`#`
			# @return [Float] the schedule time or nil if `unscheduled`
			`def schedule_time`
			`synchronize { @time }`
			`end`

			`# Comparator which orders by schedule time.`
			`#`
			`# @!visibility private`
			`def <=>(other)`
			`schedule_time <=> other.schedule_time`
			`end`

			`# Has the task been cancelled?`
			`#`
			`# @return [Boolean] true if the task is in the given state else false`
			`def cancelled?`
			`synchronize { ns_check_state?(:cancelled) }`
			`end`

			`# In the task execution in progress?`
			`#`
			`# @return [Boolean] true if the task is in the given state else false`
			`def processing?`
			`synchronize { ns_check_state?(:processing) }`
			`end`

			`# Cancel this task and prevent it from executing. A task can only be`
			`# cancelled if it is pending or unscheduled.`
			`#`
			`# @return [Boolean] true if successfully cancelled else false`
			`def cancel`
			`if compare_and_set_state(:cancelled, :pending, :unscheduled)`
			`complete(false, nil, CancelledOperationError.new)`
			`# To avoid deadlocks this call must occur outside of #synchronize`
			`# Changing the state above should prevent redundant calls`
			`@parent.send(:remove_task, self)`
			`else`
			`false`
			`end`
			`end`

			`# Reschedule the task using the original delay and the current time.`
			# A task can only be reset while it is `:pending`.
			`#`
			`# @return [Boolean] true if successfully rescheduled else false`
			`def reset`
			`synchronize{ ns_reschedule(@delay) }`
			`end`

			`# Reschedule the task using the given delay and the current time.`
			# A task can only be reset while it is `:pending`.
			`#`
			`# @param [Float] delay the number of seconds to wait for before executing the task`
			`#`
			`# @return [Boolean] true if successfully rescheduled else false`
			`#`
			`# @raise [ArgumentError] When given a time that is in the past`
			`def reschedule(delay)`
			`delay = delay.to_f`
			`raise ArgumentError.new('seconds must be greater than zero') if delay < 0.0`
			`synchronize{ ns_reschedule(delay) }`
			`end`

			# Execute an `:unscheduled` `ScheduledTask`. Immediately sets the state to `:pending`
			# and starts counting down toward execution. Does nothing if the `ScheduledTask` is
			# in any state other than `:unscheduled`.
			`#`
			# @return [ScheduledTask] a reference to `self`
			`def execute`
			`if compare_and_set_state(:pending, :unscheduled)`
			`synchronize{ ns_schedule(@delay) }`
			`end`
			`self`
			`end`

			# Create a new `ScheduledTask` object with the given block, execute it, and return the
			# `:pending` object.
			`#`
			`# @param [Float] delay the number of seconds to wait for before executing the task`
			`#`
			`# @!macro executor_and_deref_options`
			`#`
			# @return [ScheduledTask] the newly created `ScheduledTask` in the `:pending` state
			`#`
			`# @raise [ArgumentError] if no block is given`
			`def self.execute(delay, opts = {}, &task)`
			`new(delay, opts, &task).execute`
			`end`

			`# Execute the task.`
			`#`
			`# @!visibility private`
			`def process_task`
			`safe_execute(@task, @args)`
			`end`

			`protected :set, :try_set, :fail, :complete`

			`protected`

			`# Schedule the task using the given delay and the current time.`
			`#`
			`# @param [Float] delay the number of seconds to wait for before executing the task`
			`#`
			`# @return [Boolean] true if successfully rescheduled else false`
			`#`
			`# @!visibility private`
			`def ns_schedule(delay)`
			`@delay = delay`
			`@time = Concurrent.monotonic_time + @delay`
			`@parent.send(:post_task, self)`
			`end`

			`# Reschedule the task using the given delay and the current time.`
			# A task can only be reset while it is `:pending`.
			`#`
			`# @param [Float] delay the number of seconds to wait for before executing the task`
			`#`
			`# @return [Boolean] true if successfully rescheduled else false`
			`#`
			`# @!visibility private`
			`def ns_reschedule(delay)`
			`return false unless ns_check_state?(:pending)`
			`@parent.send(:remove_task, self) && ns_schedule(delay)`
			`end`
			`end`
			`end`