private long getNanoRate() { return NanoTimer.millisToNanos(getSampleRate()); }
private long getNanoRate() { return NanoTimer.millisToNanos(getSampleRate()); }
long remainingNanos = nanosToDelay - now; if (remainingNanos <= 0) { remainingNanos = NanoTimer.millisToNanos(MIN_MS_SLEEP);
long remainingNanos = nanosToDelay - now; if (remainingNanos <= 0) { remainingNanos = NanoTimer.millisToNanos(MIN_MS_SLEEP);
st1_1.incLong("long_counter_3", 3); timeStamp += NanoTimer.millisToNanos(1000); sampleCollector.sample(timeStamp); timeStamp += NanoTimer.millisToNanos(1000); sampleCollector.sample(timeStamp); st1_2.incLong("long_counter_3", 2); timeStamp += NanoTimer.millisToNanos(1000); sampleCollector.sample(timeStamp); timeStamp += NanoTimer.millisToNanos(1000); sampleCollector.sample(timeStamp);
sampleTime += NanoTimer.millisToNanos(1000); this.sampleCollector.sample(sampleTime); sampleTime += NanoTimer.millisToNanos(1000); this.sampleCollector.sample(sampleTime); sampleTime += NanoTimer.millisToNanos(1000); this.sampleCollector.sample(sampleTime);