use of com.infiniteautomation.mango.util.datetime.NextTimePeriodAdjuster in project ma-core-public by infiniteautomation.
the class AnalogStatisticsQuantizerTest method testNoStartValueOneValuePerPeriod.
@Test
public void testNoStartValueOneValuePerPeriod() throws IOException {
// Generate data at 12 noon for every day in the period
NextTimePeriodAdjuster adjuster = new NextTimePeriodAdjuster(TimePeriods.DAYS, 1);
time = ZonedDateTime.of(2017, 01, 01, 12, 00, 00, 0, zoneId);
List<IdPointValueTime> data = new ArrayList<>();
double value = 1.0;
while (time.toInstant().isBefore(to.toInstant())) {
data.add(new IdPointValueTime(1, new NumericValue(value), time.toInstant().toEpochMilli()));
time = (ZonedDateTime) adjuster.adjustInto(time);
}
// Reset time to track periods
time = ZonedDateTime.of(2017, 01, 01, 00, 00, 00, 0, zoneId);
MutableInt counter = new MutableInt(0);
BucketCalculator bc = new TimePeriodBucketCalculator(from, to, TimePeriods.DAYS, 1);
AnalogStatisticsQuantizer quantizer = new AnalogStatisticsQuantizer(bc, new StatisticsGeneratorQuantizerCallback<AnalogStatistics>() {
@Override
public void quantizedStatistics(AnalogStatistics statisticsGenerator) throws IOException {
counter.increment();
AnalogStatistics stats = (AnalogStatistics) statisticsGenerator;
// Test periodStart
Assert.assertEquals(time.toInstant().toEpochMilli(), stats.getPeriodStartTime());
// Test periiodEnd
Assert.assertEquals(time.plusDays(1).toInstant().toEpochMilli(), stats.getPeriodEndTime());
ZonedDateTime sampleTime = time.plusHours(12);
// Test Minimum
Assert.assertEquals(1.0, stats.getMinimumValue(), 0.0001);
// Test Maximum
Assert.assertEquals(1.0, stats.getMaximumValue(), 0.0001);
if (counter.getValue() == 1) {
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getMinimumTime());
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getMaximumTime());
} else {
// Period start if there was a start value
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMinimumTime());
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMaximumTime());
}
// Test Average
Assert.assertEquals(1.0d, stats.getAverage(), 0.0001);
// Test Integral
if (counter.getValue() == 1) {
double integral = 1.0d * 12 * 60 * 60;
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
} else {
// 24Hrs
double integral = 1.0d * 24 * 60 * 60;
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
}
// Test sum
Assert.assertEquals(1.0d, stats.getSum(), 0.0001);
// Test first
Assert.assertEquals(1.0d, stats.getFirstValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getFirstTime());
// Test last
Assert.assertEquals(1.0d, stats.getLastValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getLastTime());
// Test start (the first start value will be null
if (counter.getValue() == 1)
Assert.assertEquals(null, stats.getStartValue());
else
Assert.assertEquals(1.0, stats.getStartValue(), 0.0001);
// Test count
Assert.assertEquals(1, stats.getCount());
// Test delta
Assert.assertEquals(0.0, stats.getDelta(), 0.0001);
// Move to next period time
time = (ZonedDateTime) adjuster.adjustInto(time);
}
});
quantizer.firstValue(null, 0, true);
for (int count = 0; count < data.size(); count++) quantizer.row(data.get(count), count + 1);
quantizer.lastValue(data.get(data.size() - 1), data.size() + 1, true);
quantizer.done();
Assert.assertEquals(new Integer(31), counter.getValue());
}
use of com.infiniteautomation.mango.util.datetime.NextTimePeriodAdjuster in project ma-core-public by infiniteautomation.
the class AnalogStatisticsQuantizerTest method testStartValueAtPeriodStartNoPeriodValues.
@Test
public void testStartValueAtPeriodStartNoPeriodValues() throws IOException {
// Generate data at 12 noon for every day in the period
NextTimePeriodAdjuster adjuster = new NextTimePeriodAdjuster(TimePeriods.DAYS, 1);
// Reset time to track periods
time = ZonedDateTime.of(2017, 01, 01, 00, 00, 00, 0, zoneId);
MutableInt counter = new MutableInt(0);
BucketCalculator bc = new TimePeriodBucketCalculator(from, to, TimePeriods.DAYS, 1);
AnalogStatisticsQuantizer quantizer = new AnalogStatisticsQuantizer(bc, new StatisticsGeneratorQuantizerCallback<AnalogStatistics>() {
@Override
public void quantizedStatistics(AnalogStatistics statisticsGenerator) throws IOException {
counter.increment();
AnalogStatistics stats = (AnalogStatistics) statisticsGenerator;
// Test periodStart
Assert.assertEquals(time.toInstant().toEpochMilli(), stats.getPeriodStartTime());
// Test periodEnd
Assert.assertEquals(time.plusDays(1).toInstant().toEpochMilli(), stats.getPeriodEndTime());
ZonedDateTime sampleTime = time;
if (counter.getValue() == 1) {
// Test Minimum
Assert.assertEquals(1.0, stats.getMinimumValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getMinimumTime());
// Test Maximum
Assert.assertEquals(1.0, stats.getMaximumValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getMaximumTime());
// Test Average
Assert.assertEquals(1.0d, stats.getAverage(), 0.0001);
// Test Integral
// 24Hrs
double integral = 1.0d * 24 * 60 * 60;
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
// Test sum
Assert.assertEquals(1.0d, stats.getSum(), 0.0001);
// Test first
Assert.assertEquals(1.0d, stats.getFirstValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getFirstTime());
// Test last
Assert.assertEquals(1.0d, stats.getLastValue(), 0.0001);
Assert.assertEquals((long) sampleTime.toInstant().toEpochMilli(), (long) stats.getLastTime());
// Test start
Assert.assertEquals(1.0, stats.getStartValue(), 0.0001);
// Test count
Assert.assertEquals(1, stats.getCount());
// Test delta
Assert.assertEquals(0.0, stats.getDelta(), 0.0001);
} else {
// No data in other periods
// Test Minimum
Assert.assertEquals(1.0, stats.getMinimumValue(), 0.0001);
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMinimumTime());
// Test Maximum
Assert.assertEquals(1.0, stats.getMaximumValue(), 0.0001);
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMaximumTime());
// Test Average
Assert.assertEquals(1.0, stats.getAverage(), 0.0001);
// Test Integral
double integral = 1.0 * 24 * 60 * 60;
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
// Test sum
Assert.assertEquals(0.0d, stats.getSum(), 0.0001);
// Test first
Assert.assertEquals(null, stats.getFirstValue());
Assert.assertEquals(null, stats.getFirstTime());
// Test last
Assert.assertEquals(null, stats.getLastValue());
Assert.assertEquals(null, stats.getLastTime());
// Test start
Assert.assertEquals(1.0, stats.getStartValue(), 0.0001);
// Test count
Assert.assertEquals(0, stats.getCount());
// Test delta
Assert.assertEquals(0.0d, stats.getDelta(), 0.0001);
}
// Move to next period time
time = (ZonedDateTime) adjuster.adjustInto(time);
}
});
quantizer.firstValue(new IdPointValueTime(1, new NumericValue(1.0), time.toInstant().toEpochMilli()), 0, false);
quantizer.done();
Assert.assertEquals(new Integer(31), counter.getValue());
}
use of com.infiniteautomation.mango.util.datetime.NextTimePeriodAdjuster in project ma-core-public by infiniteautomation.
the class AnalogStatisticsQuantizerTest method testStartValueAtStartManyValuesPerPeriod.
@Test
public void testStartValueAtStartManyValuesPerPeriod() throws IOException {
// Generate data at 12 noon for every day in the period
NextTimePeriodAdjuster adjuster = new NextTimePeriodAdjuster(TimePeriods.DAYS, 1);
NextTimePeriodAdjuster hourlyAdjuster = new NextTimePeriodAdjuster(TimePeriods.HOURS, 1);
time = ZonedDateTime.of(2017, 01, 01, 12, 00, 00, 0, zoneId);
List<IdPointValueTime> data = new ArrayList<>();
while (time.toInstant().isBefore(to.toInstant())) {
// Insert 10 values per day
double value = 1.0;
ZonedDateTime daily = ZonedDateTime.ofInstant(time.toInstant(), zoneId);
for (int i = 0; i < 10; i++) {
data.add(new IdPointValueTime(1, new NumericValue(value), daily.toInstant().toEpochMilli()));
daily = (ZonedDateTime) hourlyAdjuster.adjustInto(daily);
value = value + 1.0d;
}
time = (ZonedDateTime) adjuster.adjustInto(time);
}
// Reset time to track periods
time = ZonedDateTime.of(2017, 01, 01, 00, 00, 00, 0, zoneId);
MutableInt counter = new MutableInt(0);
BucketCalculator bc = new TimePeriodBucketCalculator(from, to, TimePeriods.DAYS, 1);
AnalogStatisticsQuantizer quantizer = new AnalogStatisticsQuantizer(bc, new StatisticsGeneratorQuantizerCallback<AnalogStatistics>() {
@Override
public void quantizedStatistics(AnalogStatistics statisticsGenerator) throws IOException {
counter.increment();
AnalogStatistics stats = (AnalogStatistics) statisticsGenerator;
// Test periodStart
Assert.assertEquals(time.toInstant().toEpochMilli(), stats.getPeriodStartTime());
// Test periiodEnd
Assert.assertEquals(time.plusDays(1).toInstant().toEpochMilli(), stats.getPeriodEndTime());
// Test Minimum
if (counter.getValue() == 1) {
Assert.assertEquals(1.0, stats.getMinimumValue(), 0.0001);
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMinimumTime());
// Test Maximum
Assert.assertEquals(10.0, stats.getMaximumValue(), 0.0001);
Assert.assertEquals(time.plusHours(12).plusHours(9).toInstant().toEpochMilli(), (long) stats.getMaximumTime());
} else {
Assert.assertEquals(1.0, stats.getMinimumValue(), 0.0001);
Assert.assertEquals(time.plusHours(12).toInstant().toEpochMilli(), (long) stats.getMinimumTime());
// Test Maximum
Assert.assertEquals(10.0, stats.getMaximumValue(), 0.0001);
Assert.assertEquals(time.toInstant().toEpochMilli(), (long) stats.getMaximumTime());
}
// 1-9 for 1hr each, 10 for 12hrs at the start and 2hrs at the end
if (counter.getValue() == 1) {
double integral = 1d * 13 * 60d * 60d + 2d * 60 * 60 + 3d * 60 * 60 + 4d * 60 * 60 + 5d * 60 * 60 + 6d * 60 * 60 + 7d * 60 * 60 + 8d * 60 * 60 + 9d * 60 * 60;
integral = integral + 10d * 3d * 60 * 60;
double average = integral / (24d * 60d * 60d);
Assert.assertEquals(average, stats.getAverage(), 0.0001);
// Test Integral
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
} else {
double integral = 1d * 60d * 60d + 2d * 60 * 60 + 3d * 60 * 60 + 4d * 60 * 60 + 5d * 60 * 60 + 6d * 60 * 60 + 7d * 60 * 60 + 8d * 60 * 60 + 9d * 60 * 60;
integral = integral + 10d * 15d * 60 * 60;
double average = integral / (24d * 60d * 60d);
Assert.assertEquals(average, stats.getAverage(), 0.0001);
// Test Integral
Assert.assertEquals(integral, stats.getIntegral(), 0.0001);
}
// Test sum
if (counter.getValue() == 1) {
Assert.assertEquals(56d, stats.getSum(), 0.0001);
// Test first
Assert.assertEquals(1.0d, stats.getFirstValue(), 0.0001);
Assert.assertEquals((long) time.toInstant().toEpochMilli(), (long) stats.getFirstTime());
} else {
Assert.assertEquals(55d, stats.getSum(), 0.0001);
// Test first
Assert.assertEquals(1.0d, stats.getFirstValue(), 0.0001);
Assert.assertEquals((long) time.plusHours(12).toInstant().toEpochMilli(), (long) stats.getFirstTime());
}
// Test last
Assert.assertEquals(10.0d, stats.getLastValue(), 0.0001);
Assert.assertEquals((long) time.plusHours(12).plusHours(9).toInstant().toEpochMilli(), (long) stats.getLastTime());
if (counter.getValue() == 1) {
// Test start (the first start value will be null
Assert.assertEquals(1.0, stats.getStartValue(), 0.0001);
// Test count
Assert.assertEquals(11, stats.getCount());
} else {
// Test start (the first start value will be null
Assert.assertEquals(10.0, stats.getStartValue(), 0.0001);
// Test count
Assert.assertEquals(10, stats.getCount());
}
// Test delta
if (counter.getValue() == 1) {
// 1 to 10
Assert.assertEquals(9.0, stats.getDelta(), 0.0001);
} else {
Assert.assertEquals(0.0, stats.getDelta(), 0.0001);
}
// Move to next period time
time = (ZonedDateTime) adjuster.adjustInto(time);
}
});
quantizer.firstValue(new IdPointValueTime(1, new NumericValue(1.0), time.toInstant().toEpochMilli()), 0, false);
for (int count = 0; count < data.size(); count++) quantizer.row(data.get(count), count + 1);
quantizer.lastValue(data.get(data.size() - 1), data.size() + 1, true);
quantizer.done();
Assert.assertEquals(new Integer(31), counter.getValue());
}
use of com.infiniteautomation.mango.util.datetime.NextTimePeriodAdjuster in project ma-core-public by infiniteautomation.
the class StartsAndRuntimeListQuantizerTest method testNoStartValueManyValuesPerPeriod.
@Test
public void testNoStartValueManyValuesPerPeriod() throws IOException {
// Generate data at 12 noon for every day in the period
NextTimePeriodAdjuster adjuster = new NextTimePeriodAdjuster(TimePeriods.DAYS, 1);
NextTimePeriodAdjuster hourlyAdjuster = new NextTimePeriodAdjuster(TimePeriods.HOURS, 1);
time = ZonedDateTime.of(2017, 01, 01, 12, 00, 00, 0, zoneId);
List<IdPointValueTime> data = new ArrayList<>();
while (time.toInstant().isBefore(to.toInstant())) {
// Insert 10 values per day
int value = 1;
ZonedDateTime daily = ZonedDateTime.ofInstant(time.toInstant(), zoneId);
for (int i = 0; i < 10; i++) {
data.add(new IdPointValueTime(1, new MultistateValue(value), daily.toInstant().toEpochMilli()));
daily = (ZonedDateTime) hourlyAdjuster.adjustInto(daily);
value = value + 1;
}
time = (ZonedDateTime) adjuster.adjustInto(time);
}
// Reset time to track periods
time = ZonedDateTime.of(2017, 01, 01, 00, 00, 00, 0, zoneId);
MutableInt counter = new MutableInt(0);
BucketCalculator bc = new TimePeriodBucketCalculator(from, to, TimePeriods.DAYS, 1);
StartsAndRuntimeListQuantizer quantizer = new StartsAndRuntimeListQuantizer(bc, new StatisticsGeneratorQuantizerCallback<StartsAndRuntimeList>() {
@Override
public void quantizedStatistics(StartsAndRuntimeList statisticsGenerator) throws IOException {
counter.increment();
StartsAndRuntimeList stats = (StartsAndRuntimeList) statisticsGenerator;
// Test periodStart
Assert.assertEquals(time.toInstant().toEpochMilli(), stats.getPeriodStartTime());
// Test periiodEnd
Assert.assertEquals(time.plusDays(1).toInstant().toEpochMilli(), stats.getPeriodEndTime());
// Test first
Assert.assertEquals(1, stats.getFirstValue().getIntegerValue());
Assert.assertEquals((long) time.plusHours(12).toInstant().toEpochMilli(), (long) stats.getFirstTime());
// Test last
Assert.assertEquals(10, stats.getLastValue().getIntegerValue());
Assert.assertEquals((long) time.plusHours(12).plusHours(9).toInstant().toEpochMilli(), (long) stats.getLastTime());
// Test start (the first start value will be null
if (counter.getValue() == 1)
Assert.assertEquals(null, stats.getStartValue());
else
Assert.assertEquals(10, stats.getStartValue().getIntegerValue());
// Test count
Assert.assertEquals(10, stats.getCount());
// Ensure data
if (counter.getValue() == 1) {
// 1 to 10, was 10 for last 3 hrs of day
Assert.assertEquals(10, stats.getStartsAndRuntime().size());
for (StartsAndRuntime value : stats.getData()) {
switch((Integer) value.getValue()) {
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (1d / 12d), value.getPercentage(), 0.0001);
Assert.assertEquals(1d / 12d, value.getProportion(), 0.0001);
Assert.assertEquals(60 * 60 * 1000, value.getRuntime());
break;
case 10:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (3d / 12d), value.getPercentage(), 0.0001);
Assert.assertEquals(3d / 12d, value.getProportion(), 0.0001);
Assert.assertEquals(3 * 60 * 60 * 1000, value.getRuntime());
break;
}
}
} else {
// Start in state 10 for 12 hrs more
Assert.assertEquals(10, stats.getStartsAndRuntime().size());
for (StartsAndRuntime value : stats.getData()) {
switch((Integer) value.getValue()) {
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (1d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(1d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(60 * 60 * 1000, value.getRuntime());
break;
case 10:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (15d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(15d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(15 * 60 * 60 * 1000, value.getRuntime());
break;
}
}
}
// Move to next period time
time = (ZonedDateTime) adjuster.adjustInto(time);
}
});
quantizer.firstValue(null, 0, true);
for (int count = 0; count < data.size(); count++) quantizer.row(data.get(count), count + 1);
quantizer.lastValue(data.get(data.size() - 1), data.size() + 1, true);
quantizer.done();
Assert.assertEquals(new Integer(31), counter.getValue());
}
use of com.infiniteautomation.mango.util.datetime.NextTimePeriodAdjuster in project ma-core-public by infiniteautomation.
the class StartsAndRuntimeListQuantizerTest method testStartValueManyValuesPerPeriod.
@Test
public void testStartValueManyValuesPerPeriod() throws IOException {
// Generate data at 12 noon for every day in the period
NextTimePeriodAdjuster adjuster = new NextTimePeriodAdjuster(TimePeriods.DAYS, 1);
NextTimePeriodAdjuster hourlyAdjuster = new NextTimePeriodAdjuster(TimePeriods.HOURS, 1);
time = ZonedDateTime.of(2017, 01, 01, 12, 00, 00, 0, zoneId);
List<IdPointValueTime> data = new ArrayList<>();
while (time.toInstant().isBefore(to.toInstant())) {
// Insert 10 values per day
int value = 1;
ZonedDateTime daily = ZonedDateTime.ofInstant(time.toInstant(), zoneId);
for (int i = 0; i < 10; i++) {
data.add(new IdPointValueTime(1, new MultistateValue(value), daily.toInstant().toEpochMilli()));
daily = (ZonedDateTime) hourlyAdjuster.adjustInto(daily);
value = value + 1;
}
time = (ZonedDateTime) adjuster.adjustInto(time);
}
// Reset time to track periods
time = ZonedDateTime.of(2017, 01, 01, 00, 00, 00, 0, zoneId);
MutableInt counter = new MutableInt(0);
BucketCalculator bc = new TimePeriodBucketCalculator(from, to, TimePeriods.DAYS, 1);
StartsAndRuntimeListQuantizer quantizer = new StartsAndRuntimeListQuantizer(bc, new StatisticsGeneratorQuantizerCallback<StartsAndRuntimeList>() {
@Override
public void quantizedStatistics(StartsAndRuntimeList statisticsGenerator) throws IOException {
counter.increment();
StartsAndRuntimeList stats = (StartsAndRuntimeList) statisticsGenerator;
// Test periodStart
Assert.assertEquals(time.toInstant().toEpochMilli(), stats.getPeriodStartTime());
// Test periiodEnd
Assert.assertEquals(time.plusDays(1).toInstant().toEpochMilli(), stats.getPeriodEndTime());
// Test first
Assert.assertEquals(1, stats.getFirstValue().getIntegerValue());
Assert.assertEquals((long) time.plusHours(12).toInstant().toEpochMilli(), (long) stats.getFirstTime());
// Test last
Assert.assertEquals(10, stats.getLastValue().getIntegerValue());
Assert.assertEquals((long) time.plusHours(12).plusHours(9).toInstant().toEpochMilli(), (long) stats.getLastTime());
// Test start (the first start value will be null
if (counter.getValue() == 1)
Assert.assertEquals(1, stats.getStartValue().getIntegerValue());
else
Assert.assertEquals(10, stats.getStartValue().getIntegerValue());
// Test count
Assert.assertEquals(10, stats.getCount());
// Ensure data
if (counter.getValue() == 1) {
// 1 to 10, was 10 for last 3 hrs of day
Assert.assertEquals(10, stats.getStartsAndRuntime().size());
for (StartsAndRuntime value : stats.getData()) {
switch((Integer) value.getValue()) {
case 1:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (13d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(13d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(13 * 60 * 60 * 1000, value.getRuntime());
break;
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (1d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(1d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(60 * 60 * 1000, value.getRuntime());
break;
case 10:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (3d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(3d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(3 * 60 * 60 * 1000, value.getRuntime());
break;
}
}
} else {
// Start in state 10 for 12 hrs more
Assert.assertEquals(10, stats.getStartsAndRuntime().size());
for (StartsAndRuntime value : stats.getData()) {
switch((Integer) value.getValue()) {
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (1d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(1d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(60 * 60 * 1000, value.getRuntime());
break;
case 10:
Assert.assertEquals(1, value.getStarts());
Assert.assertEquals(100d * (15d / 24d), value.getPercentage(), 0.0001);
Assert.assertEquals(15d / 24d, value.getProportion(), 0.0001);
Assert.assertEquals(15 * 60 * 60 * 1000, value.getRuntime());
break;
}
}
}
// Move to next period time
time = (ZonedDateTime) adjuster.adjustInto(time);
}
});
quantizer.firstValue(new IdPointValueTime(1, new MultistateValue(1), time.minusHours(3).toInstant().toEpochMilli()), 0, true);
for (int count = 0; count < data.size(); count++) quantizer.row(data.get(count), count + 1);
quantizer.lastValue(data.get(data.size() - 1), data.size() + 1, true);
quantizer.done();
Assert.assertEquals(new Integer(31), counter.getValue());
}
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