hyracks/hyracks-dataflow-std/src/main/java/edu/uci/ics/hyracks/dataflow/std/connectors/MToNPartitioningMergingConnectorDescriptor.java - asterixdb - Git at Google

 /*
  * Copyright 2009-2010 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.hyracks.dataflow.std.connectors;

 import java.util.BitSet;

 import edu.uci.ics.hyracks.api.comm.IFrameReader;
 import edu.uci.ics.hyracks.api.comm.IFrameWriter;
 import edu.uci.ics.hyracks.api.comm.IPartitionCollector;
 import edu.uci.ics.hyracks.api.comm.IPartitionWriterFactory;
 import edu.uci.ics.hyracks.api.context.IHyracksTaskContext;
 import edu.uci.ics.hyracks.api.dataflow.value.IBinaryComparator;
 import edu.uci.ics.hyracks.api.dataflow.value.IBinaryComparatorFactory;
 import edu.uci.ics.hyracks.api.dataflow.value.ITuplePartitionComputerFactory;
 import edu.uci.ics.hyracks.api.dataflow.value.RecordDescriptor;
 import edu.uci.ics.hyracks.api.exceptions.HyracksDataException;
 import edu.uci.ics.hyracks.api.job.IConnectorDescriptorRegistry;
 import edu.uci.ics.hyracks.dataflow.std.base.AbstractMToNConnectorDescriptor;
 import edu.uci.ics.hyracks.dataflow.std.collectors.IPartitionBatchManager;
 import edu.uci.ics.hyracks.dataflow.std.collectors.NonDeterministicPartitionBatchManager;
 import edu.uci.ics.hyracks.dataflow.std.collectors.PartitionCollector;
 import edu.uci.ics.hyracks.dataflow.std.collectors.SortMergeFrameReader;

 public class MToNPartitioningMergingConnectorDescriptor extends AbstractMToNConnectorDescriptor {
     private static final long serialVersionUID = 1L;

     private final ITuplePartitionComputerFactory tpcf;
     private final int[] sortFields;
     private final IBinaryComparatorFactory[] comparatorFactories;
     private final boolean stable;

     public MToNPartitioningMergingConnectorDescriptor(IConnectorDescriptorRegistry spec, ITuplePartitionComputerFactory tpcf,
             int[] sortFields, IBinaryComparatorFactory[] comparatorFactories) {
         this(spec, tpcf, sortFields, comparatorFactories, false);
     }

     public MToNPartitioningMergingConnectorDescriptor(IConnectorDescriptorRegistry spec, ITuplePartitionComputerFactory tpcf,
             int[] sortFields, IBinaryComparatorFactory[] comparatorFactories, boolean stable) {
         super(spec);
         this.tpcf = tpcf;
         this.sortFields = sortFields;
         this.comparatorFactories = comparatorFactories;
         this.stable = stable;
     }

     @Override
     public IFrameWriter createPartitioner(IHyracksTaskContext ctx, RecordDescriptor recordDesc,
             IPartitionWriterFactory edwFactory, int index, int nProducerPartitions, int nConsumerPartitions)
             throws HyracksDataException {
         final PartitionDataWriter hashWriter = new PartitionDataWriter(ctx, nConsumerPartitions, edwFactory,
                 recordDesc, tpcf.createPartitioner());
         return hashWriter;
     }

     @Override
     public IPartitionCollector createPartitionCollector(IHyracksTaskContext ctx, RecordDescriptor recordDesc,
             int index, int nProducerPartitions, int nConsumerPartitions) throws HyracksDataException {
         IBinaryComparator[] comparators = new IBinaryComparator[comparatorFactories.length];
         for (int i = 0; i < comparatorFactories.length; ++i) {
             comparators[i] = comparatorFactories[i].createBinaryComparator();
         }
         IPartitionBatchManager pbm = new NonDeterministicPartitionBatchManager(nProducerPartitions);
         IFrameReader sortMergeFrameReader = new SortMergeFrameReader(ctx, nProducerPartitions, nProducerPartitions,
                 sortFields, comparators, recordDesc, pbm);
         BitSet expectedPartitions = new BitSet();
         expectedPartitions.set(0, nProducerPartitions);
         return new PartitionCollector(ctx, getConnectorId(), index, expectedPartitions, sortMergeFrameReader, pbm);
     }
 }
	/*
	* Copyright 2009-2010 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.hyracks.dataflow.std.connectors;

	import java.util.BitSet;

	import edu.uci.ics.hyracks.api.comm.IFrameReader;
	import edu.uci.ics.hyracks.api.comm.IFrameWriter;
	import edu.uci.ics.hyracks.api.comm.IPartitionCollector;
	import edu.uci.ics.hyracks.api.comm.IPartitionWriterFactory;
	import edu.uci.ics.hyracks.api.context.IHyracksTaskContext;
	import edu.uci.ics.hyracks.api.dataflow.value.IBinaryComparator;
	import edu.uci.ics.hyracks.api.dataflow.value.IBinaryComparatorFactory;
	import edu.uci.ics.hyracks.api.dataflow.value.ITuplePartitionComputerFactory;
	import edu.uci.ics.hyracks.api.dataflow.value.RecordDescriptor;
	import edu.uci.ics.hyracks.api.exceptions.HyracksDataException;
	import edu.uci.ics.hyracks.api.job.IConnectorDescriptorRegistry;
	import edu.uci.ics.hyracks.dataflow.std.base.AbstractMToNConnectorDescriptor;
	import edu.uci.ics.hyracks.dataflow.std.collectors.IPartitionBatchManager;
	import edu.uci.ics.hyracks.dataflow.std.collectors.NonDeterministicPartitionBatchManager;
	import edu.uci.ics.hyracks.dataflow.std.collectors.PartitionCollector;
	import edu.uci.ics.hyracks.dataflow.std.collectors.SortMergeFrameReader;

	public class MToNPartitioningMergingConnectorDescriptor extends AbstractMToNConnectorDescriptor {
	private static final long serialVersionUID = 1L;

	private final ITuplePartitionComputerFactory tpcf;
	private final int[] sortFields;
	private final IBinaryComparatorFactory[] comparatorFactories;
	private final boolean stable;

	public MToNPartitioningMergingConnectorDescriptor(IConnectorDescriptorRegistry spec, ITuplePartitionComputerFactory tpcf,
	int[] sortFields, IBinaryComparatorFactory[] comparatorFactories) {
	this(spec, tpcf, sortFields, comparatorFactories, false);
	}

	public MToNPartitioningMergingConnectorDescriptor(IConnectorDescriptorRegistry spec, ITuplePartitionComputerFactory tpcf,
	int[] sortFields, IBinaryComparatorFactory[] comparatorFactories, boolean stable) {
	super(spec);
	this.tpcf = tpcf;
	this.sortFields = sortFields;
	this.comparatorFactories = comparatorFactories;
	this.stable = stable;
	}

	@Override
	public IFrameWriter createPartitioner(IHyracksTaskContext ctx, RecordDescriptor recordDesc,
	IPartitionWriterFactory edwFactory, int index, int nProducerPartitions, int nConsumerPartitions)
	throws HyracksDataException {
	final PartitionDataWriter hashWriter = new PartitionDataWriter(ctx, nConsumerPartitions, edwFactory,
	recordDesc, tpcf.createPartitioner());
	return hashWriter;
	}

	@Override
	public IPartitionCollector createPartitionCollector(IHyracksTaskContext ctx, RecordDescriptor recordDesc,
	int index, int nProducerPartitions, int nConsumerPartitions) throws HyracksDataException {
	IBinaryComparator[] comparators = new IBinaryComparator[comparatorFactories.length];
	for (int i = 0; i < comparatorFactories.length; ++i) {
	comparators[i] = comparatorFactories[i].createBinaryComparator();
	}
	IPartitionBatchManager pbm = new NonDeterministicPartitionBatchManager(nProducerPartitions);
	IFrameReader sortMergeFrameReader = new SortMergeFrameReader(ctx, nProducerPartitions, nProducerPartitions,
	sortFields, comparators, recordDesc, pbm);
	BitSet expectedPartitions = new BitSet();
	expectedPartitions.set(0, nProducerPartitions);
	return new PartitionCollector(ctx, getConnectorId(), index, expectedPartitions, sortMergeFrameReader, pbm);
	}
	}