final class Worker { // not serializable
final int me; // my index in the lifeline graph
final int prev; // index of the predecessor in the lifeline graph
final int next; // index of the successor in the lifeline graph
final Random random;
final MessageDigest md = UTS.encoder();
final UTS bag = new UTS(64);
// pending requests from thieves
final ConcurrentLinkedQueue<Integer> thieves = new ConcurrentLinkedQueue<>();
final AtomicBoolean lifeline; // pending lifeline request?
int state = -2; // -3: abort, -2: inactive, -1: running, p: stealing from p
Worker(int id, int size, int ratio) {
me = (group.indexOf(here()) << power) + id;
random = new Random(me);
prev = (me + (group.size() << power) - 1) % (group.size() << power);
next = (me + 1) % (group.size() << power);
lifeline = new AtomicBoolean(((next % ratio) != 0) || ((next / ratio) >= size));
}
synchronized void abort() {
if (state == -3) {
throw new DeadPlaceException(here());
}
}
public void run() throws DigestException {
try {
System.err.println(me + " starting");
synchronized (this) {
abort();
state = -1;
}
while (bag.size > 0) {
while (bag.size > 0) {
for (int n = 500; (n > 0) && (bag.size > 0); --n) {
bag.expand(md);
}
abort();
distribute();
}
if (resilient) {
map.set(me, bag.trim());
}
steal();
}
synchronized (this) {
abort();
state = -2;
}
distribute();
lifelinesteal();
} finally {
System.err.println(me + " stopping");
}
}
void lifelinesteal() {
if (group.size() == 1 && power == 0) {
return;
}
myUncountedAsyncAt(prev, w -> w.lifeline.set(true));
}
void steal() {
if (group.size() == 1 && power == 0) {
return;
}
final int me = this.me;
int p = random.nextInt((group.size() << power) - 1);
if (p >= me) {
p++;
}
synchronized (this) {
abort();
state = p;
}
myUncountedAsyncAt(p, w -> w.request(me));
synchronized (this) {
while (state >= 0) {
try {
wait();
} catch (final InterruptedException e) {
}
}
}
}
void request(int thief) {
synchronized (this) {
if (state == -3) {
return;
}
if (state == -1) {
thieves.add(thief);
return;
}
}
myUncountedAsyncAt(thief, w -> w.deal(null));
}
void lifelinedeal(UTS b) throws DigestException {
bag.merge(b);
run();
}
synchronized void deal(UTS loot) {
if (state == -3) {
return;
}
if (loot != null) {
bag.merge(loot);
}
state = -1;
notifyAll();
}
synchronized void unblock(Place p) {
state = -3;
notifyAll();
}
void transfer(int thief, UTS loot) {
final UTS bag = this.bag.trim();
final int me = this.me;
final int wave = ResilientUTS.this.wave;
hz.executeTransaction(
(TransactionalTaskContext context) -> {
final TransactionalMap<Integer, UTS> map = context.getMap("map" + wave);
map.set(me, bag);
final UTS old = map.getForUpdate(thief);
loot.count = old == null ? 0 : old.count;
map.set(thief, loot);
return null;
});
}
void distribute() {
if (group.size() == 1 && power == 0) {
return;
}
Integer thief;
while ((thief = thieves.poll()) != null) {
final UTS loot = bag.split();
if (loot != null && resilient) {
transfer(thief, loot);
}
myUncountedAsyncAt(thief, w -> w.deal(loot));
}
if (bag.size > 0 && lifeline.get()) {
final UTS loot = bag.split();
if (loot != null) {
thief = next;
if (resilient) {
transfer(thief, loot);
}
lifeline.set(false);
myAsyncAt(next, w -> w.lifelinedeal(loot));
}
}
}
}
public static void main(String[] args) {
int depth = 13;
try {
depth = Integer.parseInt(args[0]);
} catch (final Exception e) {
}
int _power = 1;
try {
_power = Integer.parseInt(args[1]);
} catch (final Exception e) {
}
final int power = _power;
if (System.getProperty(Configuration.APGAS_PLACES) == null) {
System.setProperty(Configuration.APGAS_PLACES, "2");
}
System.setProperty(Configuration.APGAS_THREADS, "" + ((1 << power) + 1));
final boolean resilient = Boolean.getBoolean(Configuration.APGAS_RESILIENT);
final int maxPlaces = places().size();
final MessageDigest md = UTS.encoder();
System.out.println("Warmup...");
final UTS tmp = new UTS(64);
tmp.seed(md, 19, depth - 2);
finish(() -> ResilientUTS.step(explode(tmp), -1, power, resilient));
System.out.println("Starting...");
Long time = -System.nanoTime();
final UTS bag = new UTS(64);
bag.seed(md, 19, depth);
List<UTS> bags = explode(bag);
int wave = 0;
while (bags.get(0).size > 0) {
final int w = wave++;
final List<UTS> b = bags;
System.out.println("Wave: " + w);
try {
bags = finish(() -> ResilientUTS.step(b, w, power, resilient));
} catch (final DeadPlacesException e) {
}
}
time += System.nanoTime();
System.out.println("Finished.");
System.out.println(
"Depth: "
+ depth
+ ", Places: "
+ maxPlaces
+ ", Waves: "
+ wave
+ ", Performance: "
+ bags.get(0).count
+ "/"
+ UTS.sub("" + time / 1e9, 0, 6)
+ " = "
+ UTS.sub("" + (bags.get(0).count / (time / 1e3)), 0, 6)
+ "M nodes/s");
}