break; case PHASED_BACK_OFF_WAIT: waitStrategy = PhasedBackoffWaitStrategy.withLiteLock(1000, 1000, TimeUnit.NANOSECONDS); break; case SLEEPING_WAIT:
break; case PHASED_BACK_OFF_WAIT: waitStrategy = PhasedBackoffWaitStrategy.withLiteLock(1000, 1000, TimeUnit.NANOSECONDS); break; case SLEEPING_WAIT:
protected WaitStrategy createWaitStrategy() { switch (cpuConsumption()) { case LOW: return new BlockingWaitStrategy(); case NORMAL: return new SleepingWaitStrategy(); case HIGH: return new YieldingWaitStrategy(); case PHASED: return PhasedBackoffWaitStrategy.withLiteLock((int) 2.5e5, (int) 8.5e5, TimeUnit.NANOSECONDS); } return null; }
break; case PHASED_BACK_OFF_WAIT: waitStrategy = PhasedBackoffWaitStrategy.withLiteLock(1000, 1000, TimeUnit.NANOSECONDS); break; case SLEEPING_WAIT:
break; case PHASED_BACK_OFF_WAIT: waitStrategy = PhasedBackoffWaitStrategy.withLiteLock(1000, 1000, TimeUnit.NANOSECONDS); break; case SLEEPING_WAIT: