Module: Concurrent
- Defined in:
- lib/concurrent.rb,
lib/concurrent/map.rb,
lib/concurrent/set.rb,
lib/concurrent/atom.rb,
lib/concurrent/hash.rb,
lib/concurrent/ivar.rb,
lib/concurrent/mvar.rb,
lib/concurrent/tvar.rb,
lib/concurrent/agent.rb,
lib/concurrent/array.rb,
lib/concurrent/async.rb,
lib/concurrent/delay.rb,
lib/concurrent/maybe.rb,
lib/concurrent/tuple.rb,
lib/concurrent/errors.rb,
lib/concurrent/future.rb,
lib/concurrent/options.rb,
lib/concurrent/promise.rb,
lib/concurrent/version.rb,
lib/concurrent/dataflow.rb,
lib/concurrent/promises.rb,
lib/concurrent/constants.rb,
lib/concurrent/exchanger.rb,
lib/concurrent/re_include.rb,
lib/concurrent/timer_task.rb,
lib/concurrent/atomic/event.rb,
lib/concurrent/configuration.rb,
lib/concurrent/mutable_struct.rb,
lib/concurrent/scheduled_task.rb,
lib/concurrent/utility/engine.rb,
lib/concurrent/concern/logging.rb,
lib/concurrent/settable_struct.rb,
lib/concurrent/synchronization.rb,
lib/concurrent/utility/at_exit.rb,
lib/concurrent/atomic/semaphore.rb,
lib/concurrent/immutable_struct.rb,
lib/concurrent/thread_safe/util.rb,
lib/concurrent/concern/obligation.rb,
lib/concurrent/concern/observable.rb,
lib/concurrent/executor/timer_set.rb,
lib/concurrent/concern/deprecation.rb,
lib/concurrent/atomic/atomic_fixnum.rb,
lib/concurrent/synchronization/lock.rb,
lib/concurrent/atomic/atomic_boolean.rb,
lib/concurrent/atomic/cyclic_barrier.rb,
lib/concurrent/atomic/mutex_semaphore.rb,
lib/concurrent/atomic/read_write_lock.rb,
lib/concurrent/synchronization/object.rb,
lib/concurrent/thread_safe/util/adder.rb,
lib/concurrent/utility/monotonic_time.rb,
lib/concurrent/utility/native_integer.rb,
lib/concurrent/atomic/atomic_reference.rb,
lib/concurrent/atomic/count_down_latch.rb,
lib/concurrent/atomic/thread_local_var.rb,
lib/concurrent/concern/dereferenceable.rb,
lib/concurrent/synchronization/volatile.rb,
lib/concurrent/executor/executor_service.rb,
lib/concurrent/synchronization/condition.rb,
lib/concurrent/thread_safe/util/volatile.rb,
lib/concurrent/utility/processor_counter.rb,
lib/concurrent/atomic/mutex_atomic_fixnum.rb,
lib/concurrent/collection/lock_free_stack.rb,
lib/concurrent/executor/fixed_thread_pool.rb,
lib/concurrent/synchronization/mri_object.rb,
lib/concurrent/synchronization/rbx_object.rb,
lib/concurrent/thread_safe/util/striped64.rb,
lib/concurrent/atomic/mutex_atomic_boolean.rb,
lib/concurrent/executor/cached_thread_pool.rb,
lib/concurrent/executor/immediate_executor.rb,
lib/concurrent/executor/safe_task_executor.rb,
lib/concurrent/atomic/java_count_down_latch.rb,
lib/concurrent/atomic/java_thread_local_var.rb,
lib/concurrent/atomic/ruby_thread_local_var.rb,
lib/concurrent/synchronization/jruby_object.rb,
lib/concurrent/atomic/mutex_count_down_latch.rb,
lib/concurrent/atomic_reference/mutex_atomic.rb,
lib/concurrent/executor/serialized_execution.rb,
lib/concurrent/executor/thread_pool_executor.rb,
lib/concurrent/collection/map/mri_map_backend.rb,
lib/concurrent/executor/java_executor_service.rb,
lib/concurrent/executor/ruby_executor_service.rb,
lib/concurrent/executor/single_thread_executor.rb,
lib/concurrent/synchronization/abstract_object.rb,
lib/concurrent/synchronization/abstract_struct.rb,
lib/concurrent/synchronization/lockable_object.rb,
lib/concurrent/thread_safe/util/cheap_lockable.rb,
lib/concurrent/utility/native_extension_loader.rb,
lib/concurrent/atomic/abstract_thread_local_var.rb,
lib/concurrent/atomic/atomic_markable_reference.rb,
lib/concurrent/atomic/reentrant_read_write_lock.rb,
lib/concurrent/executor/serial_executor_service.rb,
lib/concurrent/executor/simple_executor_service.rb,
lib/concurrent/thread_safe/util/data_structures.rb,
lib/concurrent/thread_safe/util/xor_shift_random.rb,
lib/concurrent/executor/abstract_executor_service.rb,
lib/concurrent/executor/java_thread_pool_executor.rb,
lib/concurrent/executor/ruby_thread_pool_executor.rb,
lib/concurrent/synchronization/truffleruby_object.rb,
lib/concurrent/thread_safe/synchronized_delegator.rb,
lib/concurrent/synchronization/rbx_lockable_object.rb,
lib/concurrent/thread_safe/util/power_of_two_tuple.rb,
lib/concurrent/atomic_reference/numeric_cas_wrapper.rb,
lib/concurrent/executor/indirect_immediate_executor.rb,
lib/concurrent/executor/java_single_thread_executor.rb,
lib/concurrent/executor/ruby_single_thread_executor.rb,
lib/concurrent/collection/copy_on_write_observer_set.rb,
lib/concurrent/synchronization/jruby_lockable_object.rb,
lib/concurrent/synchronization/mutex_lockable_object.rb,
lib/concurrent/collection/copy_on_notify_observer_set.rb,
lib/concurrent/collection/map/synchronized_map_backend.rb,
lib/concurrent/executor/serialized_execution_delegator.rb,
lib/concurrent/collection/non_concurrent_priority_queue.rb,
lib/concurrent/synchronization/abstract_lockable_object.rb,
lib/concurrent/collection/map/non_concurrent_map_backend.rb,
lib/concurrent/collection/map/atomic_reference_map_backend.rb,
lib/concurrent/collection/java_non_concurrent_priority_queue.rb,
lib/concurrent/collection/ruby_non_concurrent_priority_queue.rb,
lib-edge/concurrent/edge.rb,
lib-edge/concurrent/actor.rb,
lib-edge/concurrent/channel.rb,
lib-edge/concurrent/actor/core.rb,
lib-edge/concurrent/actor/root.rb,
lib-edge/concurrent/actor/utils.rb,
lib-edge/concurrent/actor/errors.rb,
lib-edge/concurrent/channel/tick.rb,
lib-edge/concurrent/edge/channel.rb,
lib-edge/concurrent/edge/version.rb,
lib-edge/concurrent/actor/context.rb,
lib-edge/concurrent/edge/promises.rb,
lib-edge/concurrent/edge/throttle.rb,
lib-edge/concurrent/lazy_register.rb,
lib-edge/concurrent/actor/envelope.rb,
lib-edge/concurrent/actor/behaviour.rb,
lib-edge/concurrent/actor/reference.rb,
lib-edge/concurrent/actor/type_check.rb,
lib-edge/concurrent/actor/utils/pool.rb,
lib-edge/concurrent/channel/selector.rb,
lib-edge/concurrent/edge/cancellation.rb,
lib-edge/concurrent/edge/erlang_actor.rb,
lib-edge/concurrent/actor/utils/ad_hoc.rb,
lib-edge/concurrent/channel/buffer/base.rb,
lib-edge/concurrent/actor/utils/balancer.rb,
lib-edge/concurrent/channel/buffer/timer.rb,
lib-edge/concurrent/edge/lock_free_queue.rb,
lib-edge/concurrent/actor/utils/broadcast.rb,
lib-edge/concurrent/channel/buffer/ticker.rb,
lib-edge/concurrent/edge/processing_actor.rb,
lib-edge/concurrent/actor/behaviour/awaits.rb,
lib-edge/concurrent/actor/behaviour/buffer.rb,
lib-edge/concurrent/channel/buffer/sliding.rb,
lib-edge/concurrent/actor/behaviour/linking.rb,
lib-edge/concurrent/actor/behaviour/pausing.rb,
lib-edge/concurrent/channel/buffer/buffered.rb,
lib-edge/concurrent/channel/buffer/dropping.rb,
lib-edge/concurrent/actor/behaviour/abstract.rb,
lib-edge/concurrent/actor/public_delegations.rb,
lib-edge/concurrent/channel/buffer/unbuffered.rb,
lib-edge/concurrent/edge/lock_free_linked_set.rb,
lib-edge/concurrent/actor/internal_delegations.rb,
lib-edge/concurrent/actor/behaviour/supervising.rb,
lib-edge/concurrent/actor/behaviour/termination.rb,
lib-edge/concurrent/channel/selector/put_clause.rb,
lib-edge/concurrent/actor/behaviour/sets_results.rb,
lib-edge/concurrent/channel/selector/take_clause.rb,
lib-edge/concurrent/edge/old_channel_integration.rb,
lib-edge/concurrent/actor/behaviour/removes_child.rb,
lib-edge/concurrent/channel/selector/after_clause.rb,
lib-edge/concurrent/channel/selector/error_clause.rb,
lib-edge/concurrent/edge/lock_free_linked_set/node.rb,
lib-edge/concurrent/channel/selector/default_clause.rb,
lib-edge/concurrent/actor/behaviour/executes_context.rb,
lib-edge/concurrent/edge/lock_free_linked_set/window.rb,
lib-edge/concurrent/actor/default_dead_letter_handler.rb,
lib-edge/concurrent/actor/behaviour/errors_on_unknown_message.rb
Overview
Edge Features are under active development and may change frequently.
- Deprecations are not added before incompatible changes.
- Edge version: major is always 0, minor bump means incompatible change, patch bump means compatible change.
- Edge features may also lack tests and documentation.
- Features developed in
concurrent-ruby-edge
are expected to move toconcurrent-ruby
when finalised.
Defined Under Namespace
Modules: Actor, Async, Concern, Edge, ErlangActor, ImmutableStruct, MutableStruct, Promises, ReInclude, SettableStruct, Synchronization, Utility Classes: Agent, Array, Atom, AtomicBoolean, AtomicFixnum, AtomicMarkableReference, AtomicReference, CachedThreadPool, Cancellation, Channel, ConcurrentUpdateError, CountDownLatch, CyclicBarrier, Delay, Event, Exchanger, FixedThreadPool, Future, Hash, IVar, ImmediateExecutor, IndirectImmediateExecutor, LazyRegister, LockFreeStack, MVar, Map, Maybe, MultipleAssignmentError, MultipleErrors, ProcessingActor, Promise, ReadWriteLock, ReentrantReadWriteLock, SafeTaskExecutor, ScheduledTask, Semaphore, SerializedExecution, SerializedExecutionDelegator, Set, SimpleExecutorService, SingleThreadExecutor, TVar, ThreadLocalVar, ThreadPoolExecutor, Throttle, TimerSet, TimerTask, Transaction, Tuple
Constant Summary collapse
- Error =
Class.new(StandardError)
- ConfigurationError =
Raised when errors occur during configuration.
Class.new(Error)
- CancelledOperationError =
Raised when an asynchronous operation is cancelled before execution.
Class.new(Error)
- LifecycleError =
Raised when a lifecycle method (such as
stop
) is called in an improper sequence or when the object is in an inappropriate state. Class.new(Error)
- ImmutabilityError =
Raised when an attempt is made to violate an immutability guarantee.
Class.new(Error)
- IllegalOperationError =
Raised when an operation is attempted which is not legal given the receiver's current state
Class.new(Error)
- InitializationError =
Raised when an object's methods are called when it has not been properly initialized.
Class.new(Error)
- MaxRestartFrequencyError =
Raised when an object with a start/stop lifecycle has been started an excessive number of times. Often used in conjunction with a restart policy or strategy.
Class.new(Error)
- RejectedExecutionError =
Raised by an
Executor
when it is unable to process a given task, possibly because of a reject policy or other internal error. Class.new(Error)
- ResourceLimitError =
Raised when any finite resource, such as a lock counter, exceeds its maximum limit/threshold.
Class.new(Error)
- TimeoutError =
Raised when an operation times out.
Class.new(Error)
- PromiseExecutionError =
Class.new(StandardError)
- VERSION =
'1.1.5'
- NULL_LOGGER =
Suppresses all output when used for logging.
lambda { |level, progname, = nil, &block| }
- EDGE_VERSION =
'0.5.0'
Class Method Summary collapse
-
.abort_transaction ⇒ undocumented
Abort a currently running transaction - see
Concurrent::atomically
. -
.atomically ⇒ undocumented
Run a block that reads and writes
TVar
s as a single atomic transaction. - .call_dataflow(method, executor, *inputs, &block) ⇒ undocumented
-
.create_simple_logger(level = Logger::FATAL, output = $stderr) ⇒ Logger
Logger with provided level and output.
- .create_stdlib_logger(level = Logger::FATAL, output = $stderr) ⇒ Logger deprecated Deprecated.
-
.dataflow(*inputs) {|inputs| ... } ⇒ Object
Dataflow allows you to create a task that will be scheduled when all of its data dependencies are available.
- .dataflow!(*inputs, &block) ⇒ undocumented
- .dataflow_with(executor, *inputs, &block) ⇒ undocumented
- .dataflow_with!(executor, *inputs, &block) ⇒ undocumented
-
.disable_at_exit_handlers! ⇒ undocumented
Disables AtExit handlers including pool auto-termination handlers.
-
.executor(executor_identifier) ⇒ Executor
General access point to global executors.
-
.global_fast_executor ⇒ ThreadPoolExecutor
Global thread pool optimized for short, fast operations.
- .global_immediate_executor ⇒ undocumented
-
.global_io_executor ⇒ ThreadPoolExecutor
Global thread pool optimized for long, blocking (IO) tasks.
- .global_logger ⇒ undocumented
- .global_logger=(value) ⇒ undocumented
-
.global_timer_set ⇒ Concurrent::TimerSet
Global thread pool user for global timers.
-
.leave_transaction ⇒ undocumented
Leave a transaction without committing or aborting - see
Concurrent::atomically
. -
.monotonic_time ⇒ Float
Returns the current time a tracked by the application monotonic clock.
- .new_fast_executor(opts = {}) ⇒ undocumented
- .new_io_executor(opts = {}) ⇒ undocumented
- .physical_processor_count ⇒ undocumented
- .processor_count ⇒ undocumented
-
.use_simple_logger(level = Logger::FATAL, output = $stderr) ⇒ undocumented
Use logger created by #create_simple_logger to log concurrent-ruby messages.
- .use_stdlib_logger(level = Logger::FATAL, output = $stderr) ⇒ undocumented deprecated Deprecated.
Instance Method Summary collapse
-
#exchange(value, timeout = nil) ⇒ Object
Waits for another thread to arrive at this exchange point (unless the current thread is interrupted), and then transfers the given object to it, receiving its object in return.
-
#exchange!(value, timeout = nil) ⇒ Object
Waits for another thread to arrive at this exchange point (unless the current thread is interrupted), and then transfers the given object to it, receiving its object in return.
-
#initialize(opts = {}) ⇒ undocumented
Create a new thread pool.
-
#try_exchange(value, timeout = nil) ⇒ Concurrent::Maybe
Waits for another thread to arrive at this exchange point (unless the current thread is interrupted), and then transfers the given object to it, receiving its object in return.
Class Method Details
.abort_transaction ⇒ undocumented
Abort a currently running transaction - see Concurrent::atomically
.
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# File 'lib/concurrent/tvar.rb', line 150 def abort_transaction raise Transaction::AbortError.new end |
.atomically ⇒ undocumented
Run a block that reads and writes TVar
s as a single atomic transaction.
With respect to the value of TVar
objects, the transaction is atomic, in
that it either happens or it does not, consistent, in that the TVar
objects involved will never enter an illegal state, and isolated, in that
transactions never interfere with each other. You may recognise these
properties from database transactions.
There are some very important and unusual semantics that you must be aware of:
Most importantly, the block that you pass to atomically may be executed more than once. In most cases your code should be free of side-effects, except for via TVar.
If an exception escapes an atomically block it will abort the transaction.
It is undefined behaviour to use callcc or Fiber with atomically.
If you create a new thread within an atomically, it will not be part of the transaction. Creating a thread counts as a side-effect.
Transactions within transactions are flattened to a single transaction.
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# File 'lib/concurrent/tvar.rb', line 93 def atomically raise ArgumentError.new('no block given') unless block_given? # Get the current transaction transaction = Transaction::current # Are we not already in a transaction (not nested)? if transaction.nil? # New transaction begin # Retry loop loop do # Create a new transaction transaction = Transaction.new Transaction::current = transaction # Run the block, aborting on exceptions begin result = yield rescue Transaction::AbortError => e transaction.abort result = Transaction::ABORTED rescue Transaction::LeaveError => e transaction.abort break result rescue => e transaction.abort raise e end # If we can commit, break out of the loop if result != Transaction::ABORTED if transaction.commit break result end end end ensure # Clear the current transaction Transaction::current = nil end else # Nested transaction - flatten it and just run the block yield end end |
.call_dataflow(method, executor, *inputs, &block) ⇒ undocumented
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# File 'lib/concurrent/dataflow.rb', line 56 def call_dataflow(method, executor, *inputs, &block) raise ArgumentError.new('an executor must be provided') if executor.nil? raise ArgumentError.new('no block given') unless block_given? unless inputs.all? { |input| input.is_a? IVar } raise ArgumentError.new("Not all dependencies are IVars.\nDependencies: #{ inputs.inspect }") end result = Future.new(executor: executor) do values = inputs.map { |input| input.send(method) } block.call(*values) end if inputs.empty? result.execute else counter = DependencyCounter.new(inputs.size) { result.execute } inputs.each do |input| input.add_observer counter end end result end |
.create_simple_logger(level = Logger::FATAL, output = $stderr) ⇒ Logger
Returns Logger with provided level and output.
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# File 'lib/concurrent/configuration.rb', line 19 def self.create_simple_logger(level = Logger::FATAL, output = $stderr) # TODO (pitr-ch 24-Dec-2016): figure out why it had to be replaced, stdlogger was deadlocking lambda do |severity, progname, = nil, &block| return false if severity < level = block ? block.call : = case when String when Exception format "%s (%s)\n%s", ., .class, (.backtrace || []).join("\n") else .inspect end output.print format "[%s] %5s -- %s: %s\n", Time.now.strftime('%Y-%m-%d %H:%M:%S.%L'), Logger::SEV_LABEL[severity], progname, true end end |
.create_stdlib_logger(level = Logger::FATAL, output = $stderr) ⇒ Logger
Returns Logger with provided level and output.
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# File 'lib/concurrent/configuration.rb', line 51 def self.create_stdlib_logger(level = Logger::FATAL, output = $stderr) logger = Logger.new(output) logger.level = level logger.formatter = lambda do |severity, datetime, progname, msg| = case msg when String msg when Exception format "%s (%s)\n%s", msg., msg.class, (msg.backtrace || []).join("\n") else msg.inspect end format "[%s] %5s -- %s: %s\n", datetime.strftime('%Y-%m-%d %H:%M:%S.%L'), severity, progname, end lambda do |loglevel, progname, = nil, &block| logger.add loglevel, , progname, &block end end |
.dataflow(*inputs) {|inputs| ... } ⇒ Object
Dataflow allows you to create a task that will be scheduled when all of its data dependencies are available.
Data dependencies are Future
values. The dataflow task itself is also a Future
value, so you can build up a graph of these tasks, each of which is run when all the data and other tasks it depends on are available or completed.
Our syntax is somewhat related to that of Akka's flow
and Habanero Java's DataDrivenFuture
. However unlike Akka we don't schedule a task at all until it is ready to run, and unlike Habanero Java we pass the data values into the task instead of dereferencing them again in the task.
The theory of dataflow goes back to the 70s. In the terminology of the literature, our implementation is coarse-grained, in that each task can be many instructions, and dynamic in that you can create more tasks within other tasks.
Example
A dataflow task is created with the dataflow
method, passing in a block.
task = Concurrent::dataflow { 14 }
This produces a simple Future
value. The task will run immediately, as it has no dependencies. We can also specify Future
values that must be available before a task will run. When we do this we get the value of those futures passed to our block.
a = Concurrent::dataflow { 1 }
b = Concurrent::dataflow { 2 }
c = Concurrent::dataflow(a, b) { |av, bv| av + bv }
Using the dataflow
method you can build up a directed acyclic graph (DAG) of tasks that depend on each other, and have the tasks run as soon as their dependencies are ready and there is CPU capacity to schedule them. This can help you create a program that uses more of the CPU resources available to you.
Derivation
This section describes how we could derive dataflow from other primitives in this library.
Consider a naive fibonacci calculator.
def fib(n)
if n < 2
n
else
fib(n - 1) + fib(n - 2)
end
end
puts fib(14) #=> 377
We could modify this to use futures.
def fib(n)
if n < 2
Concurrent::Future.new { n }
else
n1 = fib(n - 1).execute
n2 = fib(n - 2).execute
Concurrent::Future.new { n1.value + n2.value }
end
end
f = fib(14) #=> #f.execute #=> #
sleep(0.5)
puts f.value #=> 377
One of the drawbacks of this approach is that all the futures start, and then most of them immediately block on their dependencies. We know that there's no point executing those futures until their dependencies are ready, so let's not execute each future until all their dependencies are ready.
To do this we'll create an object that counts the number of times it observes a future finishing before it does something - and for us that something will be to execute the next future.
class CountingObserver
def initialize(count, &block)
@count = count
@block = block
end
def update(time, value, reason)
@count -= 1
if @count <= 0
@block.call()
end
end
end
def fib(n)
if n < 2
Concurrent::Future.new { n }.execute
else
n1 = fib(n - 1)
n2 = fib(n - 2)
result = Concurrent::Future.new { n1.value + n2.value }
= CountingObserver.new(2) { result.execute }
n1.add_observer
n2.add_observer
n1.execute
n2.execute
result
end
end
We can wrap this up in a dataflow utility.
f = fib(14) #=> #sleep(0.5)
puts f.value #=> 377
def dataflow(*inputs, &block)
result = Concurrent::Future.new(&block)
if inputs.empty?
result.execute
else
= CountingObserver.new(inputs.size) { result.execute }
inputs.each do |input|
input.add_observer
end
end
result
end
def fib(n)
if n < 2
dataflow { n }
else
n1 = fib(n - 1)
n2 = fib(n - 2)
dataflow(n1, n2) { n1.value + n2.value }
end
end
f = fib(14) #=> #sleep(0.5)
puts f.value #=> 377
Since we know that the futures the dataflow computation depends on are already going to be available when the future is executed, we might as well pass the values into the block so we don't have to reference the futures inside the block. This allows us to write the dataflow block as straight non-concurrent code without reference to futures.
def dataflow(*inputs, &block)
result = Concurrent::Future.new do
values = inputs.map { |input| input.value }
block.call(*values)
end
if inputs.empty?
result.execute
else
= CountingObserver.new(inputs.size) { result.execute }
inputs.each do |input|
input.add_observer
end
end
result
end
def fib(n)
if n < 2
Concurrent::dataflow { n }
else
n1 = fib(n - 1)
n2 = fib(n - 2)
Concurrent::dataflow(n1, n2) { |v1, v2| v1 + v2 }
end
end
f = fib(14) #=> #sleep(0.5)
puts f.value #=> 377
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# File 'lib/concurrent/dataflow.rb', line 34 def dataflow(*inputs, &block) dataflow_with(Concurrent.global_io_executor, *inputs, &block) end |
.dataflow!(*inputs, &block) ⇒ undocumented
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# File 'lib/concurrent/dataflow.rb', line 44 def dataflow!(*inputs, &block) dataflow_with!(Concurrent.global_io_executor, *inputs, &block) end |
.dataflow_with(executor, *inputs, &block) ⇒ undocumented
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# File 'lib/concurrent/dataflow.rb', line 39 def dataflow_with(executor, *inputs, &block) call_dataflow(:value, executor, *inputs, &block) end |
.dataflow_with!(executor, *inputs, &block) ⇒ undocumented
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# File 'lib/concurrent/dataflow.rb', line 49 def dataflow_with!(executor, *inputs, &block) call_dataflow(:value!, executor, *inputs, &block) end |
.disable_at_exit_handlers! ⇒ undocumented
this option should be needed only because of at_exit
ordering
issues which may arise when running some of the testing frameworks.
E.g. Minitest's test-suite runs itself in at_exit
callback which
executes after the pools are already terminated. Then auto termination
needs to be disabled and called manually after test-suite ends.
This method should never be called from within a gem. It should only be used from within the main application and even then it should be used only when necessary.
Disables AtExit handlers including pool auto-termination handlers. When disabled it will be the application programmer's responsibility to ensure that the handlers are shutdown properly prior to application exit by calling AtExit.run method.
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# File 'lib/concurrent/configuration.rb', line 129 def self.disable_at_exit_handlers! AtExit.enabled = false end |
.executor(executor_identifier) ⇒ Executor
General access point to global executors.
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# File 'lib/concurrent/configuration.rb', line 164 def self.executor(executor_identifier) Options.executor(executor_identifier) end |
.global_fast_executor ⇒ ThreadPoolExecutor
Global thread pool optimized for short, fast operations.
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# File 'lib/concurrent/configuration.rb', line 136 def self.global_fast_executor GLOBAL_FAST_EXECUTOR.value end |
.global_immediate_executor ⇒ undocumented
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# File 'lib/concurrent/configuration.rb', line 147 def self.global_immediate_executor GLOBAL_IMMEDIATE_EXECUTOR end |
.global_io_executor ⇒ ThreadPoolExecutor
Global thread pool optimized for long, blocking (IO) tasks.
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# File 'lib/concurrent/configuration.rb', line 143 def self.global_io_executor GLOBAL_IO_EXECUTOR.value end |
.global_logger ⇒ undocumented
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# File 'lib/concurrent/configuration.rb', line 91 def self.global_logger GLOBAL_LOGGER.value end |
.global_logger=(value) ⇒ undocumented
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# File 'lib/concurrent/configuration.rb', line 95 def self.global_logger=(value) GLOBAL_LOGGER.value = value end |
.global_timer_set ⇒ Concurrent::TimerSet
Global thread pool user for global timers.
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# File 'lib/concurrent/configuration.rb', line 154 def self.global_timer_set GLOBAL_TIMER_SET.value end |
.leave_transaction ⇒ undocumented
Leave a transaction without committing or aborting - see Concurrent::atomically
.
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# File 'lib/concurrent/tvar.rb', line 155 def leave_transaction raise Transaction::LeaveError.new end |
.monotonic_time ⇒ Float
Time calculations on all platforms and languages are sensitive to changes to the system clock. To alleviate the potential problems associated with changing the system clock while an application is running, most modern operating systems provide a monotonic clock that operates independently of the system clock. A monotonic clock cannot be used to determine human-friendly clock times. A monotonic clock is used exclusively for calculating time intervals. Not all Ruby platforms provide access to an operating system monotonic clock. On these platforms a pure-Ruby monotonic clock will be used as a fallback. An operating system monotonic clock is both faster and more reliable than the pure-Ruby implementation. The pure-Ruby implementation should be fast and reliable enough for most non-realtime operations. At this time the common Ruby platforms that provide access to an operating system monotonic clock are MRI 2.1 and above and JRuby (all versions).
Returns the current time a tracked by the application monotonic clock.
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# File 'lib/concurrent/utility/monotonic_time.rb', line 53 def monotonic_time GLOBAL_MONOTONIC_CLOCK.get_time end |
.new_fast_executor(opts = {}) ⇒ undocumented
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# File 'lib/concurrent/configuration.rb', line 168 def self.new_fast_executor(opts = {}) FixedThreadPool.new( [2, Concurrent.processor_count].max, auto_terminate: opts.fetch(:auto_terminate, true), idletime: 60, # 1 minute max_queue: 0, # unlimited fallback_policy: :abort # shouldn't matter -- 0 max queue ) end |
.new_io_executor(opts = {}) ⇒ undocumented
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# File 'lib/concurrent/configuration.rb', line 178 def self.new_io_executor(opts = {}) CachedThreadPool.new( auto_terminate: opts.fetch(:auto_terminate, true), fallback_policy: :abort # shouldn't matter -- 0 max queue ) end |
.physical_processor_count ⇒ undocumented
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# File 'lib/concurrent/utility/processor_counter.rb', line 155 def self.physical_processor_count processor_counter.physical_processor_count end |
.processor_count ⇒ undocumented
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# File 'lib/concurrent/utility/processor_counter.rb', line 151 def self.processor_count processor_counter.processor_count end |
.use_simple_logger(level = Logger::FATAL, output = $stderr) ⇒ undocumented
Use logger created by #create_simple_logger to log concurrent-ruby messages.
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# File 'lib/concurrent/configuration.rb', line 45 def self.use_simple_logger(level = Logger::FATAL, output = $stderr) Concurrent.global_logger = create_simple_logger level, output end |
.use_stdlib_logger(level = Logger::FATAL, output = $stderr) ⇒ undocumented
Use logger created by #create_stdlib_logger to log concurrent-ruby messages.
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# File 'lib/concurrent/configuration.rb', line 78 def self.use_stdlib_logger(level = Logger::FATAL, output = $stderr) Concurrent.global_logger = create_stdlib_logger level, output end |
Instance Method Details
#exchange(value, timeout = nil) ⇒ Object
Waits for another thread to arrive at this exchange point (unless the
current thread is interrupted), and then transfers the given object to
it, receiving its object in return. The timeout value indicates the
approximate number of seconds the method should block while waiting
for the exchange. When the timeout value is nil
the method will
block indefinitely.
In some edge cases when a timeout
is given a return value of nil
may be
ambiguous. Specifically, if nil
is a valid value in the exchange it will
be impossible to tell whether nil
is the actual return value or if it
signifies timeout. When nil
is a valid value in the exchange consider
using #exchange! or #try_exchange instead.
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# File 'lib/concurrent/exchanger.rb', line 340
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#exchange!(value, timeout = nil) ⇒ Object
Waits for another thread to arrive at this exchange point (unless the
current thread is interrupted), and then transfers the given object to
it, receiving its object in return. The timeout value indicates the
approximate number of seconds the method should block while waiting
for the exchange. When the timeout value is nil
the method will
block indefinitely.
On timeout a TimeoutError exception will be raised.
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# File 'lib/concurrent/exchanger.rb', line 344
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#initialize(opts = {}) ⇒ undocumented
Create a new thread pool.
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# File 'lib/concurrent/exchanger.rb', line 337
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#try_exchange(value, timeout = nil) ⇒ Concurrent::Maybe
Waits for another thread to arrive at this exchange point (unless the
current thread is interrupted), and then transfers the given object to
it, receiving its object in return. The timeout value indicates the
approximate number of seconds the method should block while waiting
for the exchange. When the timeout value is nil
the method will
block indefinitely.
The return value will be a Maybe set to Just
on success or
Nothing
on timeout.
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# File 'lib/concurrent/exchanger.rb', line 348
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