243 lines
7.2 KiB
Ruby
243 lines
7.2 KiB
Ruby
require 'concurrent/concern/dereferenceable'
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require 'concurrent/synchronization'
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module Concurrent
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# An `MVar` is a synchronized single element container. They are empty or
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# contain one item. Taking a value from an empty `MVar` blocks, as does
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# putting a value into a full one. You can either think of them as blocking
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# queue of length one, or a special kind of mutable variable.
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#
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# On top of the fundamental `#put` and `#take` operations, we also provide a
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# `#mutate` that is atomic with respect to operations on the same instance.
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# These operations all support timeouts.
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#
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# We also support non-blocking operations `#try_put!` and `#try_take!`, a
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# `#set!` that ignores existing values, a `#value` that returns the value
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# without removing it or returns `MVar::EMPTY`, and a `#modify!` that yields
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# `MVar::EMPTY` if the `MVar` is empty and can be used to set `MVar::EMPTY`.
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# You shouldn't use these operations in the first instance.
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#
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# `MVar` is a [Dereferenceable](Dereferenceable).
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#
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# `MVar` is related to M-structures in Id, `MVar` in Haskell and `SyncVar` in Scala.
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#
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# Note that unlike the original Haskell paper, our `#take` is blocking. This is how
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# Haskell and Scala do it today.
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#
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# @!macro copy_options
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#
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# ## See Also
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#
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# 1. P. Barth, R. Nikhil, and Arvind. [M-Structures: Extending a parallel, non- strict, functional language with state](http://dl.acm.org/citation.cfm?id=652538). In Proceedings of the 5th
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# ACM Conference on Functional Programming Languages and Computer Architecture (FPCA), 1991.
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#
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# 2. S. Peyton Jones, A. Gordon, and S. Finne. [Concurrent Haskell](http://dl.acm.org/citation.cfm?id=237794).
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# In Proceedings of the 23rd Symposium on Principles of Programming Languages
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# (PoPL), 1996.
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class MVar < Synchronization::Object
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include Concern::Dereferenceable
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safe_initialization!
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# Unique value that represents that an `MVar` was empty
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EMPTY = ::Object.new
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# Unique value that represents that an `MVar` timed out before it was able
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# to produce a value.
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TIMEOUT = ::Object.new
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# Create a new `MVar`, either empty or with an initial value.
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#
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# @param [Hash] opts the options controlling how the future will be processed
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#
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# @!macro deref_options
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def initialize(value = EMPTY, opts = {})
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@value = value
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@mutex = Mutex.new
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@empty_condition = ConditionVariable.new
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@full_condition = ConditionVariable.new
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set_deref_options(opts)
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end
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# Remove the value from an `MVar`, leaving it empty, and blocking if there
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# isn't a value. A timeout can be set to limit the time spent blocked, in
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# which case it returns `TIMEOUT` if the time is exceeded.
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# @return [Object] the value that was taken, or `TIMEOUT`
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def take(timeout = nil)
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@mutex.synchronize do
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wait_for_full(timeout)
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# If we timed out we'll still be empty
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if unlocked_full?
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value = @value
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@value = EMPTY
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@empty_condition.signal
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apply_deref_options(value)
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else
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TIMEOUT
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end
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end
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end
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# acquires lock on the from an `MVAR`, yields the value to provided block,
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# and release lock. A timeout can be set to limit the time spent blocked,
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# in which case it returns `TIMEOUT` if the time is exceeded.
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# @return [Object] the value returned by the block, or `TIMEOUT`
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def borrow(timeout = nil)
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@mutex.synchronize do
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wait_for_full(timeout)
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# if we timeoud out we'll still be empty
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if unlocked_full?
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yield @value
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else
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TIMEOUT
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end
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end
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end
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# Put a value into an `MVar`, blocking if there is already a value until
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# it is empty. A timeout can be set to limit the time spent blocked, in
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# which case it returns `TIMEOUT` if the time is exceeded.
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# @return [Object] the value that was put, or `TIMEOUT`
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def put(value, timeout = nil)
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@mutex.synchronize do
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wait_for_empty(timeout)
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# If we timed out we won't be empty
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if unlocked_empty?
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@value = value
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@full_condition.signal
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apply_deref_options(value)
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else
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TIMEOUT
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end
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end
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end
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# Atomically `take`, yield the value to a block for transformation, and then
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# `put` the transformed value. Returns the transformed value. A timeout can
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# be set to limit the time spent blocked, in which case it returns `TIMEOUT`
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# if the time is exceeded.
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# @return [Object] the transformed value, or `TIMEOUT`
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def modify(timeout = nil)
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raise ArgumentError.new('no block given') unless block_given?
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@mutex.synchronize do
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wait_for_full(timeout)
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# If we timed out we'll still be empty
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if unlocked_full?
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value = @value
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@value = yield value
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@full_condition.signal
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apply_deref_options(value)
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else
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TIMEOUT
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end
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end
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end
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# Non-blocking version of `take`, that returns `EMPTY` instead of blocking.
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def try_take!
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@mutex.synchronize do
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if unlocked_full?
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value = @value
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@value = EMPTY
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@empty_condition.signal
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apply_deref_options(value)
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else
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EMPTY
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end
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end
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end
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# Non-blocking version of `put`, that returns whether or not it was successful.
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def try_put!(value)
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@mutex.synchronize do
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if unlocked_empty?
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@value = value
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@full_condition.signal
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true
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else
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false
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end
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end
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end
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# Non-blocking version of `put` that will overwrite an existing value.
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def set!(value)
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@mutex.synchronize do
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old_value = @value
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@value = value
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@full_condition.signal
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apply_deref_options(old_value)
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end
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end
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# Non-blocking version of `modify` that will yield with `EMPTY` if there is no value yet.
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def modify!
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raise ArgumentError.new('no block given') unless block_given?
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@mutex.synchronize do
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value = @value
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@value = yield value
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if unlocked_empty?
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@empty_condition.signal
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else
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@full_condition.signal
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end
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apply_deref_options(value)
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end
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end
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# Returns if the `MVar` is currently empty.
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def empty?
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@mutex.synchronize { @value == EMPTY }
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end
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# Returns if the `MVar` currently contains a value.
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def full?
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!empty?
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end
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protected
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def synchronize(&block)
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@mutex.synchronize(&block)
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end
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private
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def unlocked_empty?
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@value == EMPTY
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end
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def unlocked_full?
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! unlocked_empty?
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end
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def wait_for_full(timeout)
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wait_while(@full_condition, timeout) { unlocked_empty? }
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end
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def wait_for_empty(timeout)
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wait_while(@empty_condition, timeout) { unlocked_full? }
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end
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def wait_while(condition, timeout)
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if timeout.nil?
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while yield
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condition.wait(@mutex)
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end
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else
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stop = Concurrent.monotonic_time + timeout
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while yield && timeout > 0.0
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condition.wait(@mutex, timeout)
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timeout = stop - Concurrent.monotonic_time
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end
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end
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end
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end
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end
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