use of org.apache.hyracks.dataflow.common.data.accessors.IFrameTupleReference in project asterixdb by apache.
the class UUIDDescriptor method createEvaluatorFactory.
@Override
public IScalarEvaluatorFactory createEvaluatorFactory(IScalarEvaluatorFactory[] args) {
return new IScalarEvaluatorFactory() {
private static final long serialVersionUID = 1L;
@SuppressWarnings("unchecked")
private final ISerializerDeserializer<AUUID> uuidSerDe = SerializerDeserializerProvider.INSTANCE.getSerializerDeserializer(BuiltinType.AUUID);
@Override
public IScalarEvaluator createScalarEvaluator(IHyracksTaskContext ctx) throws HyracksDataException {
return new IScalarEvaluator() {
private final ArrayBackedValueStorage resultStorage = new ArrayBackedValueStorage();
private final DataOutput output = resultStorage.getDataOutput();
private final AGeneratedUUID uuid = new AGeneratedUUID();
@Override
public void evaluate(IFrameTupleReference tuple, IPointable result) throws HyracksDataException {
uuid.nextUUID();
resultStorage.reset();
uuidSerDe.serialize(uuid, output);
result.set(resultStorage);
}
};
}
};
}
use of org.apache.hyracks.dataflow.common.data.accessors.IFrameTupleReference in project asterixdb by apache.
the class DateFromUnixTimeInDaysDescriptor method createEvaluatorFactory.
@Override
public IScalarEvaluatorFactory createEvaluatorFactory(final IScalarEvaluatorFactory[] args) {
return new IScalarEvaluatorFactory() {
private static final long serialVersionUID = 1L;
@Override
public IScalarEvaluator createScalarEvaluator(final IHyracksTaskContext ctx) throws HyracksDataException {
return new IScalarEvaluator() {
private ArrayBackedValueStorage resultStorage = new ArrayBackedValueStorage();
private DataOutput out = resultStorage.getDataOutput();
private IPointable argPtr = new VoidPointable();
private IScalarEvaluator eval = args[0].createScalarEvaluator(ctx);
private AMutableDate aDate = new AMutableDate(0);
// possible returning types
@SuppressWarnings("unchecked")
private ISerializerDeserializer<ADate> dateSerde = SerializerDeserializerProvider.INSTANCE.getSerializerDeserializer(BuiltinType.ADATE);
@Override
public void evaluate(IFrameTupleReference tuple, IPointable result) throws HyracksDataException {
resultStorage.reset();
eval.evaluate(tuple, argPtr);
aDate.setValue(ATypeHierarchy.getIntegerValue(getIdentifier().getName(), 0, argPtr.getByteArray(), argPtr.getStartOffset()));
dateSerde.serialize(aDate, out);
result.set(resultStorage);
}
};
}
};
}
use of org.apache.hyracks.dataflow.common.data.accessors.IFrameTupleReference in project asterixdb by apache.
the class FirstElementEvalFactory method createAggregateEvaluator.
@Override
public IAggregateEvaluator createAggregateEvaluator(final IHyracksTaskContext ctx) throws HyracksDataException {
return new IAggregateEvaluator() {
private boolean first = true;
// Needs to copy the bytes from inputVal to outputVal because the byte space of inputVal could be re-used
// by consequent tuples.
private ArrayBackedValueStorage outputVal = new ArrayBackedValueStorage();
private IPointable inputVal = new VoidPointable();
private IScalarEvaluator eval = args[0].createScalarEvaluator(ctx);
private final byte[] nullBytes = new byte[] { ATypeTag.SERIALIZED_NULL_TYPE_TAG };
private final byte[] systemNullBytes = new byte[] { ATypeTag.SERIALIZED_SYSTEM_NULL_TYPE_TAG };
@Override
public void init() throws HyracksDataException {
first = true;
}
@Override
public void step(IFrameTupleReference tuple) throws HyracksDataException {
if (!first) {
return;
}
eval.evaluate(tuple, inputVal);
byte typeTagByte = inputVal.getByteArray()[inputVal.getStartOffset()];
if (typeTagByte == ATypeTag.SERIALIZED_SYSTEM_NULL_TYPE_TAG) {
// Ignores SYSTEM_NULLs generated by local-first-element.
return;
}
outputVal.assign(inputVal);
first = false;
}
@Override
public void finish(IPointable result) throws HyracksDataException {
if (first) {
result.set(isLocal ? systemNullBytes : nullBytes, 0, 1);
return;
}
result.set(outputVal);
}
@Override
public void finishPartial(IPointable result) throws HyracksDataException {
finish(result);
}
};
}
use of org.apache.hyracks.dataflow.common.data.accessors.IFrameTupleReference in project asterixdb by apache.
the class MillisecondsFromDayTimeDurationDescriptor method createEvaluatorFactory.
@Override
public IScalarEvaluatorFactory createEvaluatorFactory(final IScalarEvaluatorFactory[] args) {
return new IScalarEvaluatorFactory() {
private static final long serialVersionUID = 1L;
@Override
public IScalarEvaluator createScalarEvaluator(final IHyracksTaskContext ctx) throws HyracksDataException {
return new IScalarEvaluator() {
private ArrayBackedValueStorage resultStorage = new ArrayBackedValueStorage();
private DataOutput out = resultStorage.getDataOutput();
private IPointable argPtr0 = new VoidPointable();
private IScalarEvaluator eval0 = args[0].createScalarEvaluator(ctx);
@SuppressWarnings("unchecked")
private ISerializerDeserializer<AInt64> int64Serde = SerializerDeserializerProvider.INSTANCE.getSerializerDeserializer(BuiltinType.AINT64);
AMutableInt64 aInt64 = new AMutableInt64(0);
@Override
public void evaluate(IFrameTupleReference tuple, IPointable result) throws HyracksDataException {
resultStorage.reset();
eval0.evaluate(tuple, argPtr0);
byte[] bytes = argPtr0.getByteArray();
int offset = argPtr0.getStartOffset();
if (bytes[offset] != ATypeTag.SERIALIZED_DAY_TIME_DURATION_TYPE_TAG) {
throw new TypeMismatchException(getIdentifier(), 0, bytes[offset], ATypeTag.SERIALIZED_DAY_TIME_DURATION_TYPE_TAG);
}
aInt64.setValue(ADayTimeDurationSerializerDeserializer.getDayTime(bytes, offset + 1));
int64Serde.serialize(aInt64, out);
result.set(resultStorage);
}
};
}
};
}
use of org.apache.hyracks.dataflow.common.data.accessors.IFrameTupleReference in project asterixdb by apache.
the class OverlapBinsDescriptor method createEvaluatorFactory.
@Override
public IScalarEvaluatorFactory createEvaluatorFactory(final IScalarEvaluatorFactory[] args) {
return new IScalarEvaluatorFactory() {
private static final long serialVersionUID = 1L;
@Override
public IScalarEvaluator createScalarEvaluator(final IHyracksTaskContext ctx) throws HyracksDataException {
return new IScalarEvaluator() {
private final ArrayBackedValueStorage resultStorage = new ArrayBackedValueStorage();
private final DataOutput out = resultStorage.getDataOutput();
private final IPointable argPtr0 = new VoidPointable();
private final IPointable argPtr1 = new VoidPointable();
private final IPointable argPtr2 = new VoidPointable();
private final IScalarEvaluator eval0 = args[0].createScalarEvaluator(ctx);
private final IScalarEvaluator eval1 = args[1].createScalarEvaluator(ctx);
private final IScalarEvaluator eval2 = args[2].createScalarEvaluator(ctx);
// for output
private OrderedListBuilder listBuilder = new OrderedListBuilder();
private ArrayBackedValueStorage listStorage = new ArrayBackedValueStorage();
protected final AOrderedListType intListType = new AOrderedListType(BuiltinType.AINTERVAL, null);
private final AMutableInterval aInterval = new AMutableInterval(0, 0, (byte) -1);
@SuppressWarnings("unchecked")
private final ISerializerDeserializer<AInterval> intervalSerde = SerializerDeserializerProvider.INSTANCE.getSerializerDeserializer(BuiltinType.AINTERVAL);
private final GregorianCalendarSystem gregCalSys = GregorianCalendarSystem.getInstance();
@Override
public void evaluate(IFrameTupleReference tuple, IPointable result) throws HyracksDataException {
resultStorage.reset();
eval0.evaluate(tuple, argPtr0);
eval1.evaluate(tuple, argPtr1);
eval2.evaluate(tuple, argPtr2);
byte[] bytes0 = argPtr0.getByteArray();
int offset0 = argPtr0.getStartOffset();
ATypeTag type0 = EnumDeserializer.ATYPETAGDESERIALIZER.deserialize(bytes0[offset0]);
long intervalStart;
long intervalEnd;
byte intervalTypeTag;
if (type0 == ATypeTag.INTERVAL) {
intervalStart = AIntervalSerializerDeserializer.getIntervalStart(bytes0, offset0 + 1);
intervalEnd = AIntervalSerializerDeserializer.getIntervalEnd(bytes0, offset0 + 1);
intervalTypeTag = AIntervalSerializerDeserializer.getIntervalTimeType(bytes0, offset0 + 1);
if (intervalTypeTag == ATypeTag.SERIALIZED_DATE_TYPE_TAG) {
intervalStart = intervalStart * GregorianCalendarSystem.CHRONON_OF_DAY;
}
} else {
throw new TypeMismatchException(getIdentifier(), 0, bytes0[offset0], ATypeTag.SERIALIZED_INTERVAL_TYPE_TAG);
}
// get the anchor instance time
byte[] bytes1 = argPtr1.getByteArray();
int offset1 = argPtr1.getStartOffset();
ATypeTag type1 = EnumDeserializer.ATYPETAGDESERIALIZER.deserialize(bytes1[offset1]);
if (intervalTypeTag != bytes1[offset1]) {
throw new IncompatibleTypeException(getIdentifier(), intervalTypeTag, bytes1[offset1]);
}
long anchorTime;
switch(type1) {
case DATE:
anchorTime = ADateSerializerDeserializer.getChronon(bytes1, offset1 + 1) * GregorianCalendarSystem.CHRONON_OF_DAY;
break;
case TIME:
anchorTime = ATimeSerializerDeserializer.getChronon(bytes1, offset1 + 1);
break;
case DATETIME:
anchorTime = ADateTimeSerializerDeserializer.getChronon(bytes1, offset1 + 1);
break;
default:
throw new TypeMismatchException(getIdentifier(), 1, bytes1[offset1], ATypeTag.SERIALIZED_DATE_TYPE_TAG, ATypeTag.SERIALIZED_TIME_TYPE_TAG, ATypeTag.SERIALIZED_DATETIME_TYPE_TAG);
}
byte[] bytes2 = argPtr2.getByteArray();
int offset2 = argPtr2.getStartOffset();
ATypeTag type2 = EnumDeserializer.ATYPETAGDESERIALIZER.deserialize(bytes2[offset2]);
int yearMonth = 0;
long dayTime = 0;
long firstBinIndex;
switch(type2) {
case YEARMONTHDURATION:
yearMonth = AYearMonthDurationSerializerDeserializer.getYearMonth(bytes2, offset2 + 1);
int yearStart = gregCalSys.getYear(anchorTime);
int monthStart = gregCalSys.getMonthOfYear(anchorTime, yearStart);
int yearToBin = gregCalSys.getYear(intervalStart);
int monthToBin = gregCalSys.getMonthOfYear(intervalStart, yearToBin);
int totalMonths = (yearToBin - yearStart) * 12 + (monthToBin - monthStart);
firstBinIndex = totalMonths / yearMonth + ((totalMonths < 0 && totalMonths % yearMonth != 0) ? -1 : 0);
if (firstBinIndex > Integer.MAX_VALUE) {
throw new OverflowException(getIdentifier());
}
if (firstBinIndex < Integer.MIN_VALUE) {
throw new UnderflowException(getIdentifier());
}
break;
case DAYTIMEDURATION:
dayTime = ADayTimeDurationSerializerDeserializer.getDayTime(bytes2, offset2 + 1);
long totalChronon = intervalStart - anchorTime;
firstBinIndex = totalChronon / dayTime + ((totalChronon < 0 && totalChronon % dayTime != 0) ? -1 : 0);
break;
default:
throw new TypeMismatchException(getIdentifier(), 2, bytes2[offset2], ATypeTag.SERIALIZED_YEAR_MONTH_DURATION_TYPE_TAG, ATypeTag.SERIALIZED_DAY_TIME_DURATION_TYPE_TAG);
}
long binStartChronon;
long binEndChronon;
int binOffset;
listBuilder.reset(intListType);
try {
if (intervalTypeTag == ATypeTag.SERIALIZED_DATE_TYPE_TAG) {
binOffset = 0;
do {
binStartChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * (int) (firstBinIndex + binOffset), dayTime * (firstBinIndex + binOffset), false);
binEndChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * ((int) (firstBinIndex + binOffset) + 1), dayTime * ((firstBinIndex + binOffset) + 1), false);
binStartChronon = binStartChronon / GregorianCalendarSystem.CHRONON_OF_DAY + ((binStartChronon < 0 && binStartChronon % GregorianCalendarSystem.CHRONON_OF_DAY != 0) ? -1 : 0);
binEndChronon = binEndChronon / GregorianCalendarSystem.CHRONON_OF_DAY + ((binEndChronon < 0 && binEndChronon % GregorianCalendarSystem.CHRONON_OF_DAY != 0) ? -1 : 0);
aInterval.setValue(binStartChronon, binEndChronon, intervalTypeTag);
listStorage.reset();
intervalSerde.serialize(aInterval, listStorage.getDataOutput());
listBuilder.addItem(listStorage);
binOffset++;
} while (binEndChronon < intervalEnd);
} else if (intervalTypeTag == ATypeTag.SERIALIZED_TIME_TYPE_TAG) {
if (yearMonth != 0) {
throw new InvalidDataFormatException(getIdentifier(), ATypeTag.SERIALIZED_INTERVAL_TYPE_TAG);
}
binOffset = 0;
binStartChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * (int) (firstBinIndex + binOffset), dayTime * (firstBinIndex + binOffset), true);
binEndChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * ((int) (firstBinIndex + binOffset) + 1), dayTime * ((firstBinIndex + binOffset) + 1), true);
if (binStartChronon < 0 || binStartChronon >= GregorianCalendarSystem.CHRONON_OF_DAY) {
// avoid the case where a time bin is before 00:00:00 or no early than 24:00:00
throw new InvalidDataFormatException(getIdentifier(), ATypeTag.SERIALIZED_INTERVAL_TYPE_TAG);
}
while (!((binStartChronon < intervalStart && binEndChronon <= intervalStart) || (binStartChronon >= intervalEnd && binEndChronon > intervalEnd))) {
aInterval.setValue(binStartChronon, binEndChronon, intervalTypeTag);
listStorage.reset();
intervalSerde.serialize(aInterval, listStorage.getDataOutput());
listBuilder.addItem(listStorage);
binOffset++;
binStartChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * (int) (firstBinIndex + binOffset), dayTime * (firstBinIndex + binOffset), true);
binEndChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * ((int) (firstBinIndex + binOffset) + 1), dayTime * ((firstBinIndex + binOffset) + 1), true);
if (binStartChronon == GregorianCalendarSystem.CHRONON_OF_DAY) {
break;
}
if (binEndChronon < binStartChronon) {
throw new InvalidDataFormatException(getIdentifier(), ATypeTag.SERIALIZED_INTERVAL_TYPE_TAG);
}
}
} else if (intervalTypeTag == ATypeTag.SERIALIZED_DATETIME_TYPE_TAG) {
binOffset = 0;
do {
binStartChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * (int) (firstBinIndex + binOffset), dayTime * (firstBinIndex + binOffset), false);
binEndChronon = DurationArithmeticOperations.addDuration(anchorTime, yearMonth * ((int) (firstBinIndex + binOffset) + 1), dayTime * ((firstBinIndex + binOffset) + 1), false);
aInterval.setValue(binStartChronon, binEndChronon, intervalTypeTag);
listStorage.reset();
intervalSerde.serialize(aInterval, listStorage.getDataOutput());
listBuilder.addItem(listStorage);
binOffset++;
} while (binEndChronon < intervalEnd);
} else {
throw new TypeMismatchException(getIdentifier(), 0, bytes0[offset0], ATypeTag.SERIALIZED_DATE_TYPE_TAG, ATypeTag.SERIALIZED_TIME_TYPE_TAG, ATypeTag.SERIALIZED_DATETIME_TYPE_TAG);
}
listBuilder.write(out, true);
} catch (IOException e1) {
throw new HyracksDataException(e1);
}
result.set(resultStorage);
}
};
}
};
}
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