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package com.sun.enterprise.admin.monitor.stats;
import org.glassfish.j2ee.statistics.Statistic;
import org.glassfish.j2ee.statistics.BoundedRangeStatistic;
/** An implementation of AverageRangeStatistic that provides ways to change the state externally through mutators.
* Convenience class that is useful for components that gather the statistical data.
* By merely changing the count (which is a mandatory measurement), rest of the statistical
* information could be deduced.
* @author Larry White
* @author Kedar Mhaswade
* @see AverageRangeStatisticImpl for an immutable implementation
* @since S1AS8.1
* @version 1.0
*/
/**
*
* @author lwhite
*/
public class MutableAverageRangeStatisticImpl implements AverageRangeStatistic, MutableCountStatistic {
/** DEFAULT_UPPER_BOUND is maximum value Long can attain */
public static final long DEFAULT_MAX_BOUND = java.lang.Long.MAX_VALUE;
private MutableBoundedRangeStatisticImpl mutableBoundedRangeStat = null;
private long numberOfSamples;
private long runningTotal;
private String description = null;
/** Constructs an instance of MutableAverageRangeStatisticImpl that encapsulates the given Statistic.
* The only parameter denotes the initial state of this statistic. It is
* guaranteed that the initial state is preserved internally, so that one
* can reset to the initial state.
* @param initial an instance of BoundedRangeStatistic that represents initial state
*/
public MutableAverageRangeStatisticImpl(BoundedRangeStatistic initial) {
mutableBoundedRangeStat = new MutableBoundedRangeStatisticImpl(initial);
numberOfSamples = 0L;
runningTotal = 0L;
description = initial.getDescription();
}
public Statistic modifiableView() {
return this;
}
public Statistic unmodifiableView() {
return ( new AverageRangeStatisticImpl(
this.getCurrent(), // this is the actual changing statistic
this.getHighWaterMark(), // highWaterMark may change per current
this.getLowWaterMark(), // lowWaterMark may change per current
mutableBoundedRangeStat.getUpperBound(), // upperBound is not designed to change
mutableBoundedRangeStat.getLowerBound(), // lowerBound is not designed to change
mutableBoundedRangeStat.getName(), // name does not change
mutableBoundedRangeStat.getUnit(), // unit does not change
mutableBoundedRangeStat.getDescription(), // description does not change
this.getLastSampleTime(), // changes all the time!
this.getStartTime(), // changes if reset is called earlier
this.numberOfSamples, // this is the current number of samples
this.runningTotal // this is the current running total
));
}
public void reset() {
mutableBoundedRangeStat.reset();
this.resetAverageStats();
}
private void resetAverageStats() {
numberOfSamples = 0L;
runningTotal = 0L;
}
public void setCount(long current) {
mutableBoundedRangeStat.setCount(current);
if(DEFAULT_MAX_BOUND - runningTotal < current) {
this.resetAverageStats();
}
numberOfSamples++;
runningTotal += current;
}
public long getAverage() {
if(numberOfSamples == 0) {
return -1;
} else {
return runningTotal / numberOfSamples;
}
}
public long getCurrent() {
return mutableBoundedRangeStat.getCurrent();
}
public String getDescription() {
return description;
//return mutableBoundedRangeStat.getDescription();
}
public long getHighWaterMark() {
return mutableBoundedRangeStat.getHighWaterMark();
}
public long getLastSampleTime() {
return mutableBoundedRangeStat.getLastSampleTime();
}
public long getLowWaterMark() {
long result = mutableBoundedRangeStat.getLowWaterMark();
if(result == DEFAULT_MAX_BOUND) {
result = 0L;
}
return result;
}
public String getName() {
return mutableBoundedRangeStat.getName();
}
public long getStartTime() {
return mutableBoundedRangeStat.getStartTime();
}
public String getUnit() {
return mutableBoundedRangeStat.getUnit();
}
}