Class: Concurrent::Agent
- Inherits:
-
Synchronization::LockableObject
- Object
- Synchronization::LockableObject
- Concurrent::Agent
- Includes:
- Concern::Observable
- Defined in:
- lib/concurrent-ruby/concurrent/agent.rb
Overview
‘Agent` is inspired by Clojure’s [agent](clojure.org/agents) function. An agent is a 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. ‘Agent` is (mostly) functionally equivalent to Clojure’s agent, except where the runtime prevents parity.
Agents are reactive, not autonomous - there is no imperative message loop and no blocking receive. The state of an Agent should be itself immutable and the ‘#value` of an Agent is always immediately available for reading by any thread without any messages, i.e. observation does not require cooperation or coordination.
Agent action dispatches are made using the various ‘#send` methods. These methods always return immediately. At some point later, in another thread, the following will happen:
-
The given ‘action` will be applied to the state of the Agent and the `args`, if any were supplied.
-
The return value of ‘action` will be passed to the validator lambda, if one has been set on the Agent.
-
If the validator succeeds or if no validator was given, the return value of the given ‘action` will become the new `#value` of the Agent. See `#initialize` for details.
-
If any observers were added to the Agent, they will be notified. See ‘#add_observer` for details.
-
If during the ‘action` execution any other dispatches are made (directly or indirectly), they will be held until after the `#value` of the Agent has been changed.
If any exceptions are thrown by an action function, no nested dispatches will occur, and the exception will be cached in the Agent itself. When an Agent has errors cached, any subsequent interactions will immediately throw an exception, until the agent’s errors are cleared. Agent errors can be examined with ‘#error` and the agent restarted with `#restart`.
The actions of all Agents get interleaved amongst threads in a thread pool. At any point in time, at most one action for each Agent is being executed. Actions dispatched to an agent from another single agent or thread will occur in the order they were sent, potentially interleaved with actions dispatched to the same agent from other sources. The ‘#send` method should be used for actions that are CPU limited, while the `#send_off` method is appropriate for actions that may block on IO.
Unlike in Clojure, ‘Agent` cannot participate in `Concurrent::TVar` transactions.
## Example
“‘ def next_fibonacci(set = nil)
return [0, 1] if set.nil?
set + [set[-2..-1].reduce{|sum,x| sum + x }]
end
# create an agent with an initial value agent = Concurrent::Agent.new(next_fibonacci)
# send a few update requests 5.times do
agent.send{|set| next_fibonacci(set) }
end
# wait for them to complete agent.await
# get the current value agent.value #=> [0, 1, 1, 2, 3, 5, 8] “‘
## Observation
Agents support observers through the Observable mixin module. Notification of observers occurs every time an action dispatch returns and the new value is successfully validated. Observation will not occur if the action raises an exception, if validation fails, or when a #restart occurs.
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 Agent when the action began processing. The `new_value` is the value to which the Agent was set when the action completed. Note that `old_value` and `new_value` may be the same. This is not an error. It simply means that the action returned the same value.
## Nested Actions
It is possible for an Agent action to post further actions back to itself. The nested actions will be enqueued normally then processed after the outer action completes, in the order they were sent, possibly interleaved with action dispatches from other threads. Nested actions never deadlock with one another and a failure in a nested action will never affect the outer action.
Nested actions can be called using the Agent reference from the enclosing scope or by passing the reference in as a “send” argument. Nested actions cannot be post using ‘self` from within the action block/proc/lambda; `self` in this context will not reference the Agent. The preferred method for dispatching nested actions is to pass the Agent as an argument. This allows Ruby to more effectively manage the closing scope.
Prefer this:
“‘ agent = Concurrent::Agent.new(0) agent.send(agent) do |value, this|
this.send {|v| v + 42 }
3.14
end agent.value #=> 45.14 “‘
Over this:
“‘ agent = Concurrent::Agent.new(0) agent.send do |value|
agent.send {|v| v + 42 }
3.14
end “‘
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
## 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.
Defined Under Namespace
Classes: Error, ValidationError
Instance Attribute Summary collapse
-
#error_mode ⇒ Object
readonly
The error mode this Agent is operating in.
Class Method Summary collapse
-
.await(*agents) ⇒ Boolean
Blocks the current thread (indefinitely!) until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred.
-
.await_for(timeout, *agents) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred, or the timeout (in seconds) has elapsed.
-
.await_for!(timeout, *agents) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred, or the timeout (in seconds) has elapsed.
Instance Method Summary collapse
-
#<<(action) ⇒ Concurrent::Agent
Dispatches an action to the Agent and returns immediately.
-
#await ⇒ Boolean
Blocks the current thread (indefinitely!) until all actions dispatched thus far, from this thread or nested by the Agent, have occurred.
-
#await_for(timeout) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed.
-
#await_for!(timeout) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed.
-
#error ⇒ nil, Error
(also: #reason)
When #failed? and #error_mode is ‘:fail`, returns the error object which caused the failure, else `nil`.
-
#failed? ⇒ Boolean
(also: #stopped?)
Is the Agent in a failed state?.
-
#initialize(initial, opts = {}) ⇒ Agent
constructor
Create a new ‘Agent` with the given initial value and options.
- #restart(new_value, opts = {}) ⇒ Boolean
-
#send(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately.
-
#send!(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately.
-
#send_off(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
(also: #post)
Dispatches an action to the Agent and returns immediately.
-
#send_off!(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately.
-
#send_via(executor, *args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately.
-
#send_via!(executor, *args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately.
-
#value ⇒ Object
(also: #deref)
The current value (state) of the Agent, irrespective of any pending or in-progress actions.
-
#wait(timeout = nil) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed.
Methods included from Concern::Observable
#add_observer, #count_observers, #delete_observer, #delete_observers, #with_observer
Constructor Details
#initialize(initial, opts = {}) ⇒ Agent
Create a new ‘Agent` with the given initial value and options.
The ‘:validator` option must be `nil` or a side-effect free proc/lambda which takes one argument. On any intended value change the validator, if provided, will be called. If the new value is invalid the validator should return `false` or raise an error.
The ‘:error_handler` option must be `nil` or a proc/lambda which takes two arguments. When an action raises an error or validation fails, either by returning false or raising an error, the error handler will be called. The arguments to the error handler will be a reference to the agent itself and the error object which was raised.
The ‘:error_mode` may be either `:continue` (the default if an error handler is given) or `:fail` (the default if error handler nil or not given).
If an action being run by the agent throws an error or doesn’t pass validation the error handler, if present, will be called. After the handler executes if the error mode is ‘:continue` the Agent will continue as if neither the action that caused the error nor the error itself ever happened.
If the mode is ‘:fail` the Agent will become #failed? and will stop accepting new action dispatches. Any previously queued actions will be held until #restart is called. The #value method will still work, returning the value of the Agent before the error.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 220 def initialize(initial, opts = {}) super() synchronize { ns_initialize(initial, opts) } end |
Instance Attribute Details
#error_mode ⇒ Object (readonly)
The error mode this Agent is operating in. See #initialize for details.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 184 def error_mode @error_mode end |
Class Method Details
.await(*agents) ⇒ Boolean
Blocks the current thread (indefinitely!) until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred. Will block when any of the agents are failed. Will never return if a failed Agent is restart with ‘:clear_actions` true.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 449 def await(*agents) agents.each { |agent| agent.await } true end |
.await_for(timeout, *agents) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred, or the timeout (in seconds) has elapsed.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 463 def await_for(timeout, *agents) end_at = Concurrent.monotonic_time + timeout.to_f ok = agents.length.times do |i| break false if (delay = end_at - Concurrent.monotonic_time) < 0 break false unless agents[i].await_for(delay) end !!ok end |
.await_for!(timeout, *agents) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far to all the given Agents, from this thread or nested by the given Agents, have occurred, or the timeout (in seconds) has elapsed.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 482 def await_for!(timeout, *agents) raise Concurrent::TimeoutError unless await_for(timeout, *agents) true end |
Instance Method Details
#<<(action) ⇒ Concurrent::Agent
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Appropriate for actions that may block on IO.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 331 def <<(action) send_off(&action) self end |
#await ⇒ Boolean
Blocks the current thread (indefinitely!) until all actions dispatched thus far, from this thread or nested by the Agent, have occurred. Will block when #failed?. Will never return if a failed Agent is #restart with ‘:clear_actions` true.
Returns a reference to ‘self` to support method chaining:
“‘ current_value = agent.await.value “`
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 350 def await wait(nil) self end |
#await_for(timeout) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 363 def await_for(timeout) wait(timeout.to_f) end |
#await_for!(timeout) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 377 def await_for!(timeout) raise Concurrent::TimeoutError unless wait(timeout.to_f) true end |
#error ⇒ nil, Error Also known as: reason
When #failed? and #error_mode is ‘:fail`, returns the error object which caused the failure, else `nil`. When #error_mode is `:continue` will always return `nil`.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 240 def error @error.value end |
#failed? ⇒ Boolean Also known as: stopped?
Is the Agent in a failed state?
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 402 def failed? !@error.value.nil? end |
#restart(new_value, opts = {}) ⇒ Boolean
When an Agent is #failed?, changes the Agent #value to ‘new_value` then un-fails the Agent so that action dispatches are allowed again. If the `:clear_actions` option is give and true, any actions queued on the Agent that were being held while it was failed will be discarded, otherwise those held actions will proceed. The `new_value` must pass the validator if any, or `restart` will raise an exception and the Agent will remain failed with its old #value and #error. Observers, if any, will not be notified of the new state.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 424 def restart(new_value, opts = {}) clear_actions = opts.fetch(:clear_actions, false) synchronize do raise Error.new('agent is not failed') unless failed? raise ValidationError unless ns_validate(new_value) @current.value = new_value @error.value = nil @queue.clear if clear_actions ns_post_next_job unless @queue.empty? end true end |
#send(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 278 def send(*args, &action) enqueue_action_job(action, args, Concurrent.global_fast_executor) end |
#send!(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 287 def send!(*args, &action) raise Error.new unless send(*args, &action) true end |
#send_off(*args, &action) {|agent, value, *args| ... } ⇒ Boolean Also known as: post
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 294 def send_off(*args, &action) enqueue_action_job(action, args, Concurrent.global_io_executor) end |
#send_off!(*args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 302 def send_off!(*args, &action) raise Error.new unless send_off(*args, &action) true end |
#send_via(executor, *args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 311 def send_via(executor, *args, &action) enqueue_action_job(action, args, executor) end |
#send_via!(executor, *args, &action) {|agent, value, *args| ... } ⇒ Boolean
Dispatches an action to the Agent and returns immediately. Subsequently, in a thread from a thread pool, the #value will be set to the return value of the action. Action dispatches are only allowed when the Agent is not #failed?.
The action must be a block/proc/lambda which takes 1 or more arguments. The first argument is the current #value of the Agent. Any arguments passed to the send method via the ‘args` parameter will be passed to the action as the remaining arguments. The action must return the new value of the Agent.
-
#send and #send! should be used for actions that are CPU limited
-
#send_off, #send_off!, and #<< are appropriate for actions that may block on IO
-
#send_via and #send_via! are used when a specific executor is to be used for the action
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 319 def send_via!(executor, *args, &action) raise Error.new unless send_via(executor, *args, &action) true end |
#value ⇒ Object Also known as: deref
The current value (state) of the Agent, irrespective of any pending or in-progress actions. The value is always available and is non-blocking.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 229 def value @current.value # TODO (pitr 12-Sep-2015): broken unsafe read? end |
#wait(timeout = nil) ⇒ Boolean
Blocks the current thread until all actions dispatched thus far, from this thread or nested by the Agent, have occurred, or the timeout (in seconds) has elapsed. Will block indefinitely when timeout is nil or not given.
Provided mainly for consistency with other classes in this library. Prefer the various ‘await` methods instead.
NOTE Never, *under any circumstances*, call any of the “await” methods (#await, #await_for, #await_for!, and #wait) from within an action block/proc/lambda. The call will block the Agent and will always fail. Calling either #await or #wait (with a timeout of ‘nil`) will hopelessly deadlock the Agent with no possibility of recovery.
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# File 'lib/concurrent-ruby/concurrent/agent.rb', line 393 def wait(timeout = nil) latch = Concurrent::CountDownLatch.new(1) enqueue_await_job(latch) latch.wait(timeout) end |