The Java platform supports condition variables, see the documentation for java.util.concurrent.locks.Condition
.
The example from the above page translates easily into Clojure:
;;; based on the example in java.util.concurrent.locks.Condition
;;; documentation for JDK 1.7, see the link above
(defprotocol PBoundedBuffer
(-put [buf x])
(-take [buf]))
(import (java.util.concurrent.locks ReentrantLock Condition))
(deftype BoundedBuffer [^ReentrantLock lock
^Condition not-full?
^Condition not-empty?
^objects items
^:unsynchronized-mutable ^int putptr
^:unsynchronized-mutable ^int takeptr
^:unsynchronized-mutable ^int cnt]
PBoundedBuffer
(-put [buf x]
(.lock lock)
(try
(while (== cnt (alength items))
(.await not-full?))
(aset items putptr x)
(set! putptr (unchecked-inc-int putptr))
(if (== putptr (alength items))
(set! putptr (int 0)))
(set! cnt (unchecked-inc-int cnt))
(.signal not-empty?)
(finally
(.unlock lock))))
(-take [buf]
(.lock lock)
(try
(while (zero? cnt)
(.await not-empty?))
(let [x (aget items takeptr)]
(set! takeptr (unchecked-inc-int takeptr))
(if (== takeptr (alength items))
(set! takeptr (int 0)))
(set! cnt (unchecked-dec-int cnt))
(.signal not-full?)
x)
(finally
(.unlock lock)))))
(defn bounded-buffer [capacity]
(let [lock (java.util.concurrent.locks.ReentrantLock.)]
(BoundedBuffer. lock
(.newCondition lock)
(.newCondition lock)
(object-array capacity)
0
0
0)))
A test drive at the REPL:
(def bb (bounded-buffer 3))
(-put bb 1)
(-put bb 2)
(-put bb 3)
(future (-put bb 4) (println :foo))
(-take bb)
As desired, the future blocks, then prints :foo
after the final call to -take
.
(chan 1)
, putting this where appropriate -- and put the resource on the channel; (2) use(<!! the-channel)
to ask for exclusive hold on the resource (blocking); (3) when done, return the resource with>!!
.