def test_spawn_multiple(): capture = Capture() pool = DAGPool(dict(a=1, b=2, c=3)) events = {} for k in "defg": events[k] = eventlet.event.Event() pool.spawn(k, (), observe, capture, events[k]) # Now for a greenthread that depends on ALL the above. events["h"] = eventlet.event.Event() # trigger the last event right away: we only care about dependencies events["h"].send("hval") pool.spawn("h", "bcdefg", observe, capture, events["h"]) # let all the spawned greenthreads get as far as they can spin() capture.step() # but none of them has yet produced a result for k in "defgh": assert_equals(pool.get(k), None) assert_equals(set(pool.keys()), set("abc")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3)) assert_equals(pool.running(), 5) assert_equals(set(pool.running_keys()), set("defgh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for(), dict(h=set("defg"))) assert_equals(pool.waiting_for("d"), set()) assert_equals(pool.waiting_for("c"), set()) with assert_raises(KeyError): pool.waiting_for("j") assert_equals(pool.waiting_for("h"), set("defg")) # let one of the upstream greenthreads complete events["f"].send("fval") spin() capture.step() assert_equals(pool.get("f"), "fval") assert_equals(set(pool.keys()), set("abcf")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3, f="fval")) assert_equals(pool.running(), 4) assert_equals(set(pool.running_keys()), set("degh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for("h"), set("deg")) # now two others events["e"].send("eval") events["g"].send("gval") spin() capture.step() assert_equals(pool.get("e"), "eval") assert_equals(pool.get("g"), "gval") assert_equals(set(pool.keys()), set("abcefg")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3, e="eval", f="fval", g="gval")) assert_equals(pool.running(), 2) assert_equals(set(pool.running_keys()), set("dh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for("h"), set("d")) # last one events["d"].send("dval") # make sure both pool greenthreads get a chance to run spin() capture.step() assert_equals(pool.get("d"), "dval") assert_equals(set(pool.keys()), set("abcdefgh")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3, d="dval", e="eval", f="fval", g="gval", h="hval")) assert_equals(pool.running(), 0) assert_false(pool.running_keys()) assert_equals(pool.waiting(), 0) assert_equals(pool.waiting_for("h"), set()) capture.validate([ ["h got b", "h got c"], ["f returning fval", "h got f"], ["e returning eval", "g returning gval", "h got e", "h got g"], ["d returning dval", "h got d", "h returning hval"], [], ])
def test_spawn_multiple(): capture = Capture() pool = DAGPool(dict(a=1, b=2, c=3)) events = {} for k in "defg": events[k] = eventlet.event.Event() pool.spawn(k, (), observe, capture, events[k]) # Now for a greenthread that depends on ALL the above. events["h"] = eventlet.event.Event() # trigger the last event right away: we only care about dependencies events["h"].send("hval") pool.spawn("h", "bcdefg", observe, capture, events["h"]) # let all the spawned greenthreads get as far as they can spin() capture.step() # but none of them has yet produced a result for k in "defgh": assert_equals(pool.get(k), None) assert_equals(set(pool.keys()), set("abc")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3)) assert_equals(pool.running(), 5) assert_equals(set(pool.running_keys()), set("defgh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for(), dict(h=set("defg"))) assert_equals(pool.waiting_for("d"), set()) assert_equals(pool.waiting_for("c"), set()) with assert_raises(KeyError): pool.waiting_for("j") assert_equals(pool.waiting_for("h"), set("defg")) # let one of the upstream greenthreads complete events["f"].send("fval") spin() capture.step() assert_equals(pool.get("f"), "fval") assert_equals(set(pool.keys()), set("abcf")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3, f="fval")) assert_equals(pool.running(), 4) assert_equals(set(pool.running_keys()), set("degh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for("h"), set("deg")) # now two others events["e"].send("eval") events["g"].send("gval") spin() capture.step() assert_equals(pool.get("e"), "eval") assert_equals(pool.get("g"), "gval") assert_equals(set(pool.keys()), set("abcefg")) assert_equals(dict(pool.items()), dict(a=1, b=2, c=3, e="eval", f="fval", g="gval")) assert_equals(pool.running(), 2) assert_equals(set(pool.running_keys()), set("dh")) assert_equals(pool.waiting(), 1) assert_equals(pool.waiting_for("h"), set("d")) # last one events["d"].send("dval") # make sure both pool greenthreads get a chance to run spin() capture.step() assert_equals(pool.get("d"), "dval") assert_equals(set(pool.keys()), set("abcdefgh")) assert_equals( dict(pool.items()), dict(a=1, b=2, c=3, d="dval", e="eval", f="fval", g="gval", h="hval")) assert_equals(pool.running(), 0) assert_false(pool.running_keys()) assert_equals(pool.waiting(), 0) assert_equals(pool.waiting_for("h"), set()) capture.validate([ ["h got b", "h got c"], ["f returning fval", "h got f"], ["e returning eval", "g returning gval", "h got e", "h got g"], ["d returning dval", "h got d", "h returning hval"], [], ])