Class: Concurrent::Atom
- Inherits:
-
Synchronization::Object
- Object
- Synchronization::AbstractObject
- Synchronization::Object
- Concurrent::Atom
- Includes:
- Concern::Observable
- Defined in:
- lib/concurrent-ruby/concurrent/atom.rb
Overview
Atoms provide a way to manage shared, synchronous, independent state.
An atom is initialized with an initial value and an optional validation proc. At any time the value of the atom can be synchronously and safely changed. If a validator is given at construction then any new value will be checked against the validator and will be rejected if the validator returns false or raises an exception.
There are two ways to change the value of an atom: #compare_and_set and #swap. The former will set the new value if and only if it validates and the current value matches the new value. The latter will atomically set the new value to the result of running the given block if and only if that value validates.
## Example
“‘ def next_fibonacci(set = nil)
return [0, 1] if set.nil?
set + [set[-2..-1].reduce{|sum,x| sum + x }]
end
# create an atom with an initial value atom = Concurrent::Atom.new(next_fibonacci)
# send a few update requests 5.times do
atom.swap{|set| next_fibonacci(set) }
end
# get the current value atom.value #=> [0, 1, 1, 2, 3, 5, 8] “‘
## Observation
Atoms support observers through the Observable mixin module. Notification of observers occurs every time the value of the Atom changes. When notified the observer will receive three arguments: ‘time`, `old_value`, and `new_value`. The `time` argument is the time at which the value change occurred. The `old_value` is the value of the Atom when the change began The `new_value` is the value to which the Atom was set when the change completed. Note that `old_value` and `new_value` may be the same. This is not an error. It simply means that the change operation returned the same value.
Unlike in Clojure, ‘Atom` cannot participate in TVar transactions.
## Thread-safe Variable Classes
Each of the thread-safe variable classes is designed to solve a different problem. In general:
-
*Agent:* Shared, mutable variable providing independent, uncoordinated, asynchronous change of individual values. Best used when the value will undergo frequent, complex updates. Suitable when the result of an update does not need to be known immediately.
-
*Atom:* Shared, mutable variable providing independent, uncoordinated, synchronous change of individual values. Best used when the value will undergo frequent reads but only occasional, though complex, updates. Suitable when the result of an update must be known immediately.
-
*AtomicReference:* A simple object reference that can be updated atomically. Updates are synchronous but fast. Best used when updates a simple set operations. Not suitable when updates are complex. AtomicBoolean and AtomicFixnum are similar but optimized for the given data type.
-
*Exchanger:* Shared, stateless synchronization point. Used when two or more threads need to exchange data. The threads will pair then block on each other until the exchange is complete.
-
*MVar:* Shared synchronization point. Used when one thread must give a value to another, which must take the value. The threads will block on each other until the exchange is complete.
-
*ThreadLocalVar:* Shared, mutable, isolated variable which holds a different value for each thread which has access. Often used as an instance variable in objects which must maintain different state for different threads.
-
*TVar:* Shared, mutable variables which provide coordinated, synchronous, change of many stated. Used when multiple value must change together, in an all-or-nothing transaction.
Instance Method Summary collapse
-
#compare_and_set(old_value, new_value) ⇒ Boolean
Atomically sets the value of atom to the new value if and only if the current value of the atom is identical to the old value and the new value successfully validates against the (optional) validator given at construction.
-
#initialize(value, opts = {}) ⇒ Atom
constructor
Create a new atom with the given initial value.
-
#reset(new_value) ⇒ Object
Atomically sets the value of atom to the new value without regard for the current value so long as the new value successfully validates against the (optional) validator given at construction.
-
#swap(*args) {|value, args| ... } ⇒ Object
Atomically swaps the value of atom using the given block.
-
#value ⇒ Object
(also: #deref)
The current value of the atom.
Methods included from Concern::Observable
#add_observer, #count_observers, #delete_observer, #delete_observers, #with_observer
Constructor Details
#initialize(value, opts = {}) ⇒ Atom
Create a new atom with the given initial value.
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# File 'lib/concurrent-ruby/concurrent/atom.rb', line 121 def initialize(value, opts = {}) super() @Validator = opts.fetch(:validator, -> v { true }) self.observers = Collection::CopyOnNotifyObserverSet.new self.value = value end |
Instance Method Details
#compare_and_set(old_value, new_value) ⇒ Boolean
Atomically sets the value of atom to the new value if and only if the current value of the atom is identical to the old value and the new value successfully validates against the (optional) validator given at construction.
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# File 'lib/concurrent-ruby/concurrent/atom.rb', line 181 def compare_and_set(old_value, new_value) if valid?(new_value) && compare_and_set_value(old_value, new_value) observers.notify_observers(Time.now, old_value, new_value) true else false end end |
#reset(new_value) ⇒ Object
Atomically sets the value of atom to the new value without regard for the current value so long as the new value successfully validates against the (optional) validator given at construction.
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# File 'lib/concurrent-ruby/concurrent/atom.rb', line 198 def reset(new_value) old_value = value if valid?(new_value) self.value = new_value observers.notify_observers(Time.now, old_value, new_value) new_value else old_value end end |
#swap(*args) {|value, args| ... } ⇒ Object
The given block may be called multiple times, and thus should be free of side effects.
Atomically swaps the value of atom using the given block. The current value will be passed to the block, as will any arguments passed as arguments to the function. The new value will be validated against the (optional) validator proc given at construction. If validation fails the value will not be changed.
Internally, #swap reads the current value, applies the block to it, and attempts to compare-and-set it in. Since another thread may have changed the value in the intervening time, it may have to retry, and does so in a spin loop. The net effect is that the value will always be the result of the application of the supplied block to a current value, atomically. However, because the block might be called multiple times, it must be free of side effects.
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# File 'lib/concurrent-ruby/concurrent/atom.rb', line 157 def swap(*args) raise ArgumentError.new('no block given') unless block_given? loop do old_value = value new_value = yield(old_value, *args) begin break old_value unless valid?(new_value) break new_value if compare_and_set(old_value, new_value) rescue break old_value end end end |
#value ⇒ Object Also known as: deref
The current value of the atom.
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# File 'lib/concurrent-ruby/concurrent/atom.rb', line 104
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