(Promise-based approach at the top, core.async-based approach lower down. Both short-circuit on first falsey value.)
Here's a version making use of the fact that a single promise can be delivered multiple times (although only the first delivery will succeed in setting its value; subsequent deliveries simply return nil
with no side effects).
(defn thread-and
"Computes logical conjunction of return values of fs, each of which
is called in a future. Short-circuits (cancelling the remaining
futures) on first falsey value."
[& fs]
(let [done (promise)
ret (atom true)
fps (promise)]
(deliver fps (doall (for [f fs]
(let [p (promise)]
[(future
(if-not (swap! ret #(and %1 %2) (f))
(deliver done true))
(locking fps
(deliver p true)
(when (every? realized? (map peek @fps))
(deliver done true))))
p]))))
@done
(doseq [[fut] @fps]
(future-cancel fut))
@ret))
Some tests:
(thread-and (constantly true) (constantly true))
;;= true
(thread-and (constantly true) (constantly false))
;;= false
(every? false?
(repeatedly 100000
#(thread-and (constantly true) (constantly false))))
;;= true
;; prints :foo, but not :bar
(thread-and #(do (Thread/sleep 1000) (println :foo))
#(do (Thread/sleep 3000) (println :bar)))
Putting Arthur's and A. Webb's ideas together, you could use core.async to and the results together while short-circuiting on the first falsey value returned:
(defn thread-and
"Call each of the fs on a separate thread. Return logical
conjunction of the results. Short-circuit (and cancel the calls
to remaining fs) on first falsey value returned."
[& fs]
(let [futs-and-cs
(doall (for [f fs]
(let [c (chan)]
[(future (>!! c (f))) c])))]
(loop [futs-and-cs futs-and-cs]
(if (seq futs-and-cs)
(let [[result c] (alts!! (map peek futs-and-cs))]
(if result
(recur (remove #(identical? (peek %) c)
futs-and-cs))
(do (doseq [fut (map first futs-and-cs)]
(future-cancel fut))
false)))
true))))
Test with (constantly false)
and (constantly true)
:
(thread-and (constantly true) (constantly true))
;= true
(thread-and (constantly true) (constantly false))
;= false
;;; etc.
Also note that short-circuiting does indeed work:
;;; prints :foo before returning false
(thread-and #(do (Thread/sleep 3000) false)
#(do (Thread/sleep 1000) (println :foo)))
;;; does not print :foo
(thread-and #(do (Thread/sleep 3000) false)
#(do (Thread/sleep 7000) (println :foo)))
and
short-circuits. It doesn't cancel the one it doesn't use, but that's a separate concern (and you could cancel it, if you wanted to).