asterix-runtime/src/main/java/edu/uci/ics/asterix/runtime/aggregates/std/MinAggregateDescriptor.java - asterixdb - Git at Google

 package edu.uci.ics.asterix.runtime.aggregates.std;

 import java.io.DataOutput;
 import java.io.IOException;

 import edu.uci.ics.asterix.common.config.GlobalConfig;
 import edu.uci.ics.asterix.common.functions.FunctionConstants;
 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.formats.nontagged.AqlSerializerDeserializerProvider;
 import edu.uci.ics.asterix.om.base.AMutableDouble;
 import edu.uci.ics.asterix.om.base.AMutableFloat;
 import edu.uci.ics.asterix.om.base.AMutableInt16;
 import edu.uci.ics.asterix.om.base.AMutableInt32;
 import edu.uci.ics.asterix.om.base.AMutableInt64;
 import edu.uci.ics.asterix.om.base.ANull;
 import edu.uci.ics.asterix.om.types.ATypeTag;
 import edu.uci.ics.asterix.om.types.BuiltinType;
 import edu.uci.ics.asterix.om.types.EnumDeserializer;
 import edu.uci.ics.asterix.runtime.aggregates.base.AbstractAggregateFunctionDynamicDescriptor;
 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.IAggregateFunction;
 import edu.uci.ics.hyracks.algebricks.runtime.base.IAggregateFunctionFactory;
 import edu.uci.ics.hyracks.algebricks.runtime.base.IEvaluator;
 import edu.uci.ics.hyracks.algebricks.runtime.base.IEvaluatorFactory;
 import edu.uci.ics.hyracks.api.dataflow.value.ISerializerDeserializer;
 import edu.uci.ics.hyracks.dataflow.common.data.accessors.ArrayBackedValueStorage;
 import edu.uci.ics.hyracks.dataflow.common.data.accessors.IDataOutputProvider;
 import edu.uci.ics.hyracks.dataflow.common.data.accessors.IFrameTupleReference;

 public class MinAggregateDescriptor extends AbstractAggregateFunctionDynamicDescriptor {

     private static final long serialVersionUID = 1L;
     private final static FunctionIdentifier FID = new FunctionIdentifier(FunctionConstants.ASTERIX_NS, "agg-min", 1,
             true);

     @Override
     public FunctionIdentifier getIdentifier() {
         return FID;
     }

     @SuppressWarnings("unchecked")
     @Override
     public IAggregateFunctionFactory createAggregateFunctionFactory(final IEvaluatorFactory[] args)
             throws AlgebricksException {
         return new IAggregateFunctionFactory() {
             private static final long serialVersionUID = 1L;

             @Override
             public IAggregateFunction createAggregateFunction(final IDataOutputProvider provider)
                     throws AlgebricksException {

                 return new IAggregateFunction() {

                     private DataOutput out = provider.getDataOutput();
                     private ArrayBackedValueStorage inputVal = new ArrayBackedValueStorage();
                     private IEvaluator eval = args[0].createEvaluator(inputVal);
                     private boolean metInt8s, metInt16s, metInt32s, metInt64s, metFloats, metDoubles, metNull;

                     private short shortVal = Short.MAX_VALUE;
                     private int intVal = Integer.MAX_VALUE;
                     private long longVal = Long.MAX_VALUE;
                     private float floatVal = Float.MAX_VALUE;
                     private double doubleVal = Double.MAX_VALUE;

                     private AMutableDouble aDouble = new AMutableDouble(0);
                     private AMutableFloat aFloat = new AMutableFloat(0);
                     private AMutableInt64 aInt64 = new AMutableInt64(0);
                     private AMutableInt32 aInt32 = new AMutableInt32(0);
                     private AMutableInt16 aInt16 = new AMutableInt16((short) 0);
                     private ISerializerDeserializer serde;

                     @Override
                     public void init() {
                         shortVal = Short.MAX_VALUE;
                         intVal = Integer.MAX_VALUE;
                         longVal = Long.MAX_VALUE;
                         floatVal = Float.MAX_VALUE;
                         doubleVal = Double.MAX_VALUE;

                         metInt8s = false;
                         metInt16s = false;
                         metInt32s = false;
                         metInt64s = false;
                         metFloats = false;
                         metDoubles = false;
                         metNull = false;
                     }

                     @Override
                     public void step(IFrameTupleReference tuple) throws AlgebricksException {
                         inputVal.reset();
                         eval.evaluate(tuple);
                         if (inputVal.getLength() > 0) {
                             ATypeTag typeTag = EnumDeserializer.ATYPETAGDESERIALIZER
                                     .deserialize(inputVal.getBytes()[0]);
                             switch (typeTag) {
                                 case INT8: {
                                     metInt8s = true;
                                     throw new NotImplementedException("no implementation for int8's comparator");
                                 }
                                 case INT16: {
                                     metInt16s = true;
                                     short val = AInt16SerializerDeserializer.getShort(inputVal.getBytes(), 1);
                                     if (val < shortVal)
                                         shortVal = val;
                                     throw new NotImplementedException("no implementation for int16's comparator");
                                 }
                                 case INT32: {
                                     metInt32s = true;
                                     int val = AInt32SerializerDeserializer.getInt(inputVal.getBytes(), 1);
                                     if (val < intVal)
                                         intVal = val;
                                     break;
                                 }
                                 case INT64: {
                                     metInt64s = true;
                                     long val = AInt64SerializerDeserializer.getLong(inputVal.getBytes(), 1);
                                     if (val < longVal)
                                         longVal = val;
                                     break;
                                 }
                                 case FLOAT: {
                                     metFloats = true;
                                     float val = AFloatSerializerDeserializer.getFloat(inputVal.getBytes(), 1);
                                     if (val < floatVal)
                                         floatVal = val;
                                     break;
                                 }
                                 case DOUBLE: {
                                     metDoubles = true;
                                     double val = ADoubleSerializerDeserializer.getDouble(inputVal.getBytes(), 1);
                                     if (val < doubleVal)
                                         doubleVal = val;
                                     break;
                                 }
                                 case NULL: {
                                     metNull = true;
                                     break;
                                 }
                                 default: {
                                     throw new NotImplementedException("Cannot compute SUM for values of type "
                                             + typeTag);
                                 }
                             }
                         }
                     }

                     @Override
                     public void finish() throws AlgebricksException {
                         try {
                             if (metNull) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.ANULL);
                                 serde.serialize(ANull.NULL, out);
                             } else if (metDoubles) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.ADOUBLE);
                                 aDouble.setValue(doubleVal);
                                 serde.serialize(aDouble, out);
                             } else if (metFloats) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.AFLOAT);
                                 aFloat.setValue(floatVal);
                                 serde.serialize(aFloat, out);
                             } else if (metInt64s) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.AINT64);
                                 aInt64.setValue(longVal);
                                 serde.serialize(aInt64, out);
                             } else if (metInt32s) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.AINT32);
                                 aInt32.setValue(intVal);
                                 serde.serialize(aInt32, out);
                             } else if (metInt16s) {
                                 serde = AqlSerializerDeserializerProvider.INSTANCE
                                         .getSerializerDeserializer(BuiltinType.AINT16);
                                 aInt16.setValue(shortVal);
                                 serde.serialize(aInt16, out);
                             } else if (metInt8s) {
                                 throw new NotImplementedException("no implementation for int8's comparator");
                             } else {
                                 GlobalConfig.ASTERIX_LOGGER.fine("SUM aggregate ran over empty input.");
                             }
                         } catch (IOException e) {
                             throw new AlgebricksException(e);
                         }

                     }

                     @Override
                     public void finishPartial() throws AlgebricksException {
                         finish();
                     }
                 };
             }
         };
     }

 }
	package edu.uci.ics.asterix.runtime.aggregates.std;

	import java.io.DataOutput;
	import java.io.IOException;

	import edu.uci.ics.asterix.common.config.GlobalConfig;
	import edu.uci.ics.asterix.common.functions.FunctionConstants;
	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.formats.nontagged.AqlSerializerDeserializerProvider;
	import edu.uci.ics.asterix.om.base.AMutableDouble;
	import edu.uci.ics.asterix.om.base.AMutableFloat;
	import edu.uci.ics.asterix.om.base.AMutableInt16;
	import edu.uci.ics.asterix.om.base.AMutableInt32;
	import edu.uci.ics.asterix.om.base.AMutableInt64;
	import edu.uci.ics.asterix.om.base.ANull;
	import edu.uci.ics.asterix.om.types.ATypeTag;
	import edu.uci.ics.asterix.om.types.BuiltinType;
	import edu.uci.ics.asterix.om.types.EnumDeserializer;
	import edu.uci.ics.asterix.runtime.aggregates.base.AbstractAggregateFunctionDynamicDescriptor;
	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.IAggregateFunction;
	import edu.uci.ics.hyracks.algebricks.runtime.base.IAggregateFunctionFactory;
	import edu.uci.ics.hyracks.algebricks.runtime.base.IEvaluator;
	import edu.uci.ics.hyracks.algebricks.runtime.base.IEvaluatorFactory;
	import edu.uci.ics.hyracks.api.dataflow.value.ISerializerDeserializer;
	import edu.uci.ics.hyracks.dataflow.common.data.accessors.ArrayBackedValueStorage;
	import edu.uci.ics.hyracks.dataflow.common.data.accessors.IDataOutputProvider;
	import edu.uci.ics.hyracks.dataflow.common.data.accessors.IFrameTupleReference;

	public class MinAggregateDescriptor extends AbstractAggregateFunctionDynamicDescriptor {

	private static final long serialVersionUID = 1L;
	private final static FunctionIdentifier FID = new FunctionIdentifier(FunctionConstants.ASTERIX_NS, "agg-min", 1,
	true);

	@Override
	public FunctionIdentifier getIdentifier() {
	return FID;
	}

	@SuppressWarnings("unchecked")
	@Override
	public IAggregateFunctionFactory createAggregateFunctionFactory(final IEvaluatorFactory[] args)
	throws AlgebricksException {
	return new IAggregateFunctionFactory() {
	private static final long serialVersionUID = 1L;

	@Override
	public IAggregateFunction createAggregateFunction(final IDataOutputProvider provider)
	throws AlgebricksException {

	return new IAggregateFunction() {

	private DataOutput out = provider.getDataOutput();
	private ArrayBackedValueStorage inputVal = new ArrayBackedValueStorage();
	private IEvaluator eval = args[0].createEvaluator(inputVal);
	private boolean metInt8s, metInt16s, metInt32s, metInt64s, metFloats, metDoubles, metNull;

	private short shortVal = Short.MAX_VALUE;
	private int intVal = Integer.MAX_VALUE;
	private long longVal = Long.MAX_VALUE;
	private float floatVal = Float.MAX_VALUE;
	private double doubleVal = Double.MAX_VALUE;

	private AMutableDouble aDouble = new AMutableDouble(0);
	private AMutableFloat aFloat = new AMutableFloat(0);
	private AMutableInt64 aInt64 = new AMutableInt64(0);
	private AMutableInt32 aInt32 = new AMutableInt32(0);
	private AMutableInt16 aInt16 = new AMutableInt16((short) 0);
	private ISerializerDeserializer serde;

	@Override
	public void init() {
	shortVal = Short.MAX_VALUE;
	intVal = Integer.MAX_VALUE;
	longVal = Long.MAX_VALUE;
	floatVal = Float.MAX_VALUE;
	doubleVal = Double.MAX_VALUE;

	metInt8s = false;
	metInt16s = false;
	metInt32s = false;
	metInt64s = false;
	metFloats = false;
	metDoubles = false;
	metNull = false;
	}

	@Override
	public void step(IFrameTupleReference tuple) throws AlgebricksException {
	inputVal.reset();
	eval.evaluate(tuple);
	if (inputVal.getLength() > 0) {
	ATypeTag typeTag = EnumDeserializer.ATYPETAGDESERIALIZER
	.deserialize(inputVal.getBytes()[0]);
	switch (typeTag) {
	case INT8: {
	metInt8s = true;
	throw new NotImplementedException("no implementation for int8's comparator");
	}
	case INT16: {
	metInt16s = true;
	short val = AInt16SerializerDeserializer.getShort(inputVal.getBytes(), 1);
	if (val < shortVal)
	shortVal = val;
	throw new NotImplementedException("no implementation for int16's comparator");
	}
	case INT32: {
	metInt32s = true;
	int val = AInt32SerializerDeserializer.getInt(inputVal.getBytes(), 1);
	if (val < intVal)
	intVal = val;
	break;
	}
	case INT64: {
	metInt64s = true;
	long val = AInt64SerializerDeserializer.getLong(inputVal.getBytes(), 1);
	if (val < longVal)
	longVal = val;
	break;
	}
	case FLOAT: {
	metFloats = true;
	float val = AFloatSerializerDeserializer.getFloat(inputVal.getBytes(), 1);
	if (val < floatVal)
	floatVal = val;
	break;
	}
	case DOUBLE: {
	metDoubles = true;
	double val = ADoubleSerializerDeserializer.getDouble(inputVal.getBytes(), 1);
	if (val < doubleVal)
	doubleVal = val;
	break;
	}
	case NULL: {
	metNull = true;
	break;
	}
	default: {
	throw new NotImplementedException("Cannot compute SUM for values of type "
	+ typeTag);
	}
	}
	}
	}

	@Override
	public void finish() throws AlgebricksException {
	try {
	if (metNull) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.ANULL);
	serde.serialize(ANull.NULL, out);
	} else if (metDoubles) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.ADOUBLE);
	aDouble.setValue(doubleVal);
	serde.serialize(aDouble, out);
	} else if (metFloats) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.AFLOAT);
	aFloat.setValue(floatVal);
	serde.serialize(aFloat, out);
	} else if (metInt64s) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.AINT64);
	aInt64.setValue(longVal);
	serde.serialize(aInt64, out);
	} else if (metInt32s) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.AINT32);
	aInt32.setValue(intVal);
	serde.serialize(aInt32, out);
	} else if (metInt16s) {
	serde = AqlSerializerDeserializerProvider.INSTANCE
	.getSerializerDeserializer(BuiltinType.AINT16);
	aInt16.setValue(shortVal);
	serde.serialize(aInt16, out);
	} else if (metInt8s) {
	throw new NotImplementedException("no implementation for int8's comparator");
	} else {
	GlobalConfig.ASTERIX_LOGGER.fine("SUM aggregate ran over empty input.");
	}
	} catch (IOException e) {
	throw new AlgebricksException(e);
	}

	}

	@Override
	public void finishPartial() throws AlgebricksException {
	finish();
	}
	};
	}
	};
	}

	}