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apache / asterixdb / f2660a24e726e365bab62e20b9b03e275bde642d / . / asterix-runtime / src / main / java / edu / uci / ics / asterix / runtime / aggregates / serializable / std / SerializableLocalAvgAggregateDescriptor.java
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/*
* Copyright 2009-2013 by The Regents of the University of California
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* you may obtain a copy of the License from
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package edu.uci.ics.asterix.runtime.aggregates.serializable.std;
import java.io.DataOutput;
import java.io.DataOutputStream;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
import edu.uci.ics.asterix.common.exceptions.AsterixException;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.ADoubleSerializerDeserializer;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.AFloatSerializerDeserializer;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.AInt16SerializerDeserializer;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.AInt32SerializerDeserializer;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.AInt64SerializerDeserializer;
import edu.uci.ics.asterix.dataflow.data.nontagged.serde.AInt8SerializerDeserializer;
import edu.uci.ics.asterix.formats.nontagged.AqlSerializerDeserializerProvider;
import edu.uci.ics.asterix.om.base.ADouble;
import edu.uci.ics.asterix.om.base.AInt64;
import edu.uci.ics.asterix.om.base.AMutableDouble;
import edu.uci.ics.asterix.om.base.AMutableInt64;
import edu.uci.ics.asterix.om.base.ANull;
import edu.uci.ics.asterix.om.functions.AsterixBuiltinFunctions;
import edu.uci.ics.asterix.om.functions.IFunctionDescriptor;
import edu.uci.ics.asterix.om.functions.IFunctionDescriptorFactory;
import edu.uci.ics.asterix.om.types.ARecordType;
import edu.uci.ics.asterix.om.types.ATypeTag;
import edu.uci.ics.asterix.om.types.AUnionType;
import edu.uci.ics.asterix.om.types.BuiltinType;
import edu.uci.ics.asterix.om.types.EnumDeserializer;
import edu.uci.ics.asterix.om.types.IAType;
import edu.uci.ics.asterix.runtime.aggregates.base.AbstractSerializableAggregateFunctionDynamicDescriptor;
import edu.uci.ics.asterix.runtime.evaluators.common.AccessibleByteArrayEval;
import edu.uci.ics.asterix.runtime.evaluators.common.ClosedRecordConstructorEvalFactory.ClosedRecordConstructorEval;
import edu.uci.ics.hyracks.algebricks.common.exceptions.AlgebricksException;
import edu.uci.ics.hyracks.algebricks.common.exceptions.NotImplementedException;
import edu.uci.ics.hyracks.algebricks.core.algebra.functions.FunctionIdentifier;
import edu.uci.ics.hyracks.algebricks.runtime.base.ICopyEvaluator;
import edu.uci.ics.hyracks.algebricks.runtime.base.ICopyEvaluatorFactory;
import edu.uci.ics.hyracks.algebricks.runtime.base.ICopySerializableAggregateFunction;
import edu.uci.ics.hyracks.algebricks.runtime.base.ICopySerializableAggregateFunctionFactory;
import edu.uci.ics.hyracks.api.dataflow.value.ISerializerDeserializer;
import edu.uci.ics.hyracks.data.std.util.ArrayBackedValueStorage;
import edu.uci.ics.hyracks.data.std.util.ByteArrayAccessibleOutputStream;
import edu.uci.ics.hyracks.dataflow.common.data.accessors.IFrameTupleReference;
public class SerializableLocalAvgAggregateDescriptor extends AbstractSerializableAggregateFunctionDynamicDescriptor {
private static final long serialVersionUID = 1L;
public static final IFunctionDescriptorFactory FACTORY = new IFunctionDescriptorFactory() {
public IFunctionDescriptor createFunctionDescriptor() {
return new SerializableLocalAvgAggregateDescriptor();
}
};
@Override
public FunctionIdentifier getIdentifier() {
return AsterixBuiltinFunctions.SERIAL_LOCAL_AVG;
}
@Override
public ICopySerializableAggregateFunctionFactory createSerializableAggregateFunctionFactory(
ICopyEvaluatorFactory[] args) throws AlgebricksException {
final ICopyEvaluatorFactory[] evals = args;
List<IAType> unionList = new ArrayList<IAType>();
unionList.add(BuiltinType.ANULL);
unionList.add(BuiltinType.ADOUBLE);
ARecordType tmpRecType;
try {
tmpRecType = new ARecordType(null, new String[] { "sum", "count" }, new IAType[] {
new AUnionType(unionList, "OptionalDouble"), BuiltinType.AINT64 }, true);
} catch (AsterixException e) {
throw new AlgebricksException(e);
}
final ARecordType recType = tmpRecType;
return new ICopySerializableAggregateFunctionFactory() {
private static final long serialVersionUID = 1L;
public ICopySerializableAggregateFunction createAggregateFunction() throws AlgebricksException {
return new ICopySerializableAggregateFunction() {
private ArrayBackedValueStorage inputVal = new ArrayBackedValueStorage();
private ICopyEvaluator eval = evals[0].createEvaluator(inputVal);
private ClosedRecordConstructorEval recordEval;
private AMutableDouble aDouble = new AMutableDouble(0);
private AMutableInt64 aInt64 = new AMutableInt64(0);
@SuppressWarnings("unchecked")
private ISerializerDeserializer<ADouble> doubleSerde = AqlSerializerDeserializerProvider.INSTANCE
.getSerializerDeserializer(BuiltinType.ADOUBLE);
@SuppressWarnings("unchecked")
private ISerializerDeserializer<AInt64> int64Serde = AqlSerializerDeserializerProvider.INSTANCE
.getSerializerDeserializer(BuiltinType.AINT64);
@SuppressWarnings("unchecked")
private ISerializerDeserializer<ANull> nullSerde = AqlSerializerDeserializerProvider.INSTANCE
.getSerializerDeserializer(BuiltinType.ANULL);
private ArrayBackedValueStorage avgBytes = new ArrayBackedValueStorage();
private ByteArrayAccessibleOutputStream sumBytes = new ByteArrayAccessibleOutputStream();
private DataOutput sumBytesOutput = new DataOutputStream(sumBytes);
private ByteArrayAccessibleOutputStream countBytes = new ByteArrayAccessibleOutputStream();
private DataOutput countBytesOutput = new DataOutputStream(countBytes);
private ICopyEvaluator evalSum = new AccessibleByteArrayEval(avgBytes.getDataOutput(), sumBytes);
private ICopyEvaluator evalCount = new AccessibleByteArrayEval(avgBytes.getDataOutput(), countBytes);
@Override
public void init(DataOutput state) throws AlgebricksException {
try {
state.writeDouble(0.0);
state.writeLong(0);
state.writeByte(ATypeTag.SYSTEM_NULL.serialize());
} catch (IOException e) {
throw new AlgebricksException(e);
}
}
@Override
public void step(IFrameTupleReference tuple, byte[] state, int start, int len)
throws AlgebricksException {
inputVal.reset();
eval.evaluate(tuple);
double sum = BufferSerDeUtil.getDouble(state, start);
long count = BufferSerDeUtil.getLong(state, start + 8);
ATypeTag typeTag = EnumDeserializer.ATYPETAGDESERIALIZER
.deserialize(inputVal.getByteArray()[0]);
ATypeTag aggType = EnumDeserializer.ATYPETAGDESERIALIZER.deserialize(state[start + 16]);
if (typeTag == ATypeTag.NULL || aggType == ATypeTag.NULL) {
aggType = ATypeTag.NULL;
return;
} else if (aggType == ATypeTag.SYSTEM_NULL) {
aggType = typeTag;
} else if (typeTag != ATypeTag.SYSTEM_NULL && typeTag != aggType) {
throw new AlgebricksException("Unexpected type " + typeTag
+ " in aggregation input stream. Expected type " + aggType + ".");
}
++count;
switch (typeTag) {
case INT8: {
byte val = AInt8SerializerDeserializer.getByte(inputVal.getByteArray(), 1);
sum += val;
break;
}
case INT16: {
short val = AInt16SerializerDeserializer.getShort(inputVal.getByteArray(), 1);
sum += val;
break;
}
case INT32: {
int val = AInt32SerializerDeserializer.getInt(inputVal.getByteArray(), 1);
sum += val;
break;
}
case INT64: {
long val = AInt64SerializerDeserializer.getLong(inputVal.getByteArray(), 1);
sum += val;
break;
}
case FLOAT: {
float val = AFloatSerializerDeserializer.getFloat(inputVal.getByteArray(), 1);
sum += val;
break;
}
case DOUBLE: {
double val = ADoubleSerializerDeserializer.getDouble(inputVal.getByteArray(), 1);
sum += val;
break;
}
case NULL: {
break;
}
default: {
throw new NotImplementedException("Cannot compute AVG for values of type " + typeTag);
}
}
BufferSerDeUtil.writeDouble(sum, state, start);
BufferSerDeUtil.writeLong(count, state, start + 8);
state[start + 16] = aggType.serialize();
}
@Override
public void finish(byte[] state, int start, int len, DataOutput result) throws AlgebricksException {
double sum = BufferSerDeUtil.getDouble(state, start);
long count = BufferSerDeUtil.getLong(state, start + 8);
ATypeTag aggType = EnumDeserializer.ATYPETAGDESERIALIZER.deserialize(state[start + 16]);
if (recordEval == null) {
recordEval = new ClosedRecordConstructorEval(recType, new ICopyEvaluator[] { evalSum,
evalCount }, avgBytes, result);
}
try {
if (count == 0) {
result.writeByte(ATypeTag.SYSTEM_NULL.serialize());
return;
}
if (aggType == ATypeTag.NULL) {
sumBytes.reset();
nullSerde.serialize(ANull.NULL, sumBytesOutput);
} else {
sumBytes.reset();
aDouble.setValue(sum);
doubleSerde.serialize(aDouble, sumBytesOutput);
}
countBytes.reset();
aInt64.setValue(count);
int64Serde.serialize(aInt64, countBytesOutput);
recordEval.evaluate(null);
} catch (IOException e) {
throw new AlgebricksException(e);
}
}
@Override
public void finishPartial(byte[] state, int start, int len, DataOutput partialResult)
throws AlgebricksException {
finish(state, start, len, partialResult);
}
};
}
};
}
}