Пример #1
0
        def _broadcast(v):
           def _deliver(j):
               buffers[j].put((i,v))

           for j in range(N):
               greenletPacker(Greenlet(_deliver, j),
                   'random_delay_acs._deliver', (N, t, inputs)).start_later(random.random()*maxdelay)
Пример #2
0
        def _broadcast(v):
            def _deliver(j):
                buffers[j].put((i, v))

            for j in range(N):
                greenletPacker(
                    Greenlet(_deliver, j), 'random_delay_acs._deliver',
                    (N, t, inputs)).start_later(random.random() * maxdelay)
Пример #3
0
def random_delay_acs(N, t, inputs):

    assert (isinstance(inputs, list))

    maxdelay = 0.01

    # Instantiate the "broadcast" instruction
    def makeBroadcast(i):
        def _broadcast(v):
            def _deliver(j):
                buffers[j].put((i, v))

            for j in range(N):
                greenletPacker(
                    Greenlet(_deliver, j), 'random_delay_acs._deliver',
                    (N, t, inputs)).start_later(random.random() * maxdelay)

        return _broadcast

    def modifyMonitoredInt(monitoredInt):
        monitoredInt.data = 1

    while True:
        initBeforeBinaryConsensus()
        buffers = map(lambda _: Queue(1), range(N))
        ts = []
        for i in range(N):
            bc = makeBroadcast(i)
            recv = buffers[i].get
            input_clone = [MonitoredInt() for _ in range(N)]
            for j in range(N):
                greenletPacker(Greenlet(modifyMonitoredInt, input_clone[j]),
                               'random_delay_acs.modifyMonitoredInt',
                               (N, t, inputs)).start_later(maxdelay *
                                                           random.random())
            th = greenletPacker(Greenlet(acs, i, N, t, input_clone, bc, recv),
                                'random_delay_acs.acs', (N, t, inputs))
            th.start(
            )  # start_later(random.random() * maxdelay) is not necessary here
            ts.append(th)

        #if True:
        try:
            gevent.joinall(ts)
            break
        except gevent.hub.LoopExit:  # Manual fix for early stop
            print "End"
Пример #4
0
def random_delay_acs(N, t, inputs):

    assert(isinstance(inputs, list))

    maxdelay = 0.01

    # Instantiate the "broadcast" instruction
    def makeBroadcast(i):
        def _broadcast(v):
           def _deliver(j):
               buffers[j].put((i,v))

           for j in range(N):
               greenletPacker(Greenlet(_deliver, j),
                   'random_delay_acs._deliver', (N, t, inputs)).start_later(random.random()*maxdelay)

        return _broadcast

    def modifyMonitoredInt(monitoredInt):
        monitoredInt.data = 1

    while True:
        initBeforeBinaryConsensus()
        buffers = map(lambda _: Queue(1), range(N))
        ts = []
        for i in range(N):
            bc = makeBroadcast(i)
            recv = buffers[i].get
            input_clone = [MonitoredInt() for _ in range(N)]
            for j in range(N):
                greenletPacker(Greenlet(modifyMonitoredInt, input_clone[j]),
                    'random_delay_acs.modifyMonitoredInt', (N, t, inputs)).start_later(maxdelay * random.random())
            th = greenletPacker(Greenlet(acs, i, N, t, input_clone, bc, recv), 'random_delay_acs.acs', (N, t, inputs))
            th.start() # start_later(random.random() * maxdelay) is not necessary here
            ts.append(th)

        #if True:
        try:
            gevent.joinall(ts)
            break
        except gevent.hub.LoopExit: # Manual fix for early stop
            print "End"