/**
* (C) Copyright IBM Corp. 2010, 2015
*
* 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 at
*
* 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 com.ibm.bi.dml.lops;
import com.ibm.bi.dml.hops.AggBinaryOp.SparkAggType;
import com.ibm.bi.dml.lops.LopProperties.ExecLocation;
import com.ibm.bi.dml.lops.LopProperties.ExecType;
import com.ibm.bi.dml.lops.compile.JobType;
import com.ibm.bi.dml.parser.Expression.*;
/**
* Lop to perform cross product operation
*/
public class MMCJ extends Lop
{
public enum MMCJType {
AGG,
NO_AGG,
}
//optional attribute for mr exec type
private MMCJType _type = MMCJType.AGG;
//optional attribute for spark exec type
private SparkAggType _aggtype = SparkAggType.MULTI_BLOCK;
/**
* Constructor to perform a cross product operation.
* @param et
* @param input
* @param op
*/
public MMCJ(Lop input1, Lop input2, DataType dt, ValueType vt, MMCJType type, ExecType et)
{
super(Lop.Type.MMCJ, dt, vt);
this.addInput(input1);
this.addInput(input2);
input1.addOutput(this);
input2.addOutput(this);
_type = type;
if( et == ExecType.MR )
{
boolean breaksAlignment = true;
boolean aligner = false;
boolean definesMRJob = true;
lps.addCompatibility(JobType.MMCJ);
this.lps.setProperties( inputs, ExecType.MR, ExecLocation.MapAndReduce, breaksAlignment, aligner, definesMRJob );
this.lps.setProducesIntermediateOutput(true);
}
else //if( et == ExecType.SPARK )
{
boolean breaksAlignment = false;
boolean aligner = false;
boolean definesMRJob = false;
lps.addCompatibility(JobType.INVALID);
lps.setProperties( inputs, et, ExecLocation.ControlProgram, breaksAlignment, aligner, definesMRJob );
}
}
/**
*
* @param input1
* @param input2
* @param dt
* @param vt
* @param aggtype
* @param et
*/
public MMCJ(Lop input1, Lop input2, DataType dt, ValueType vt, SparkAggType aggtype, ExecType et)
{
this(input1, input2, dt, vt, MMCJType.NO_AGG, et);
_aggtype = aggtype;
}
@Override
public String toString() {
return "Operation = MMCJ";
}
//MR instruction generation
@Override
public String getInstructions(int input_index1, int input_index2, int output_index)
{
StringBuilder sb = new StringBuilder();
sb.append( getExecType() );
sb.append( Lop.OPERAND_DELIMITOR );
sb.append( "cpmm" );
sb.append( OPERAND_DELIMITOR );
sb.append( getInputs().get(0).prepInputOperand(input_index1));
sb.append( OPERAND_DELIMITOR );
sb.append( getInputs().get(1).prepInputOperand(input_index2));
sb.append( OPERAND_DELIMITOR );
sb.append( this.prepOutputOperand(output_index));
sb.append( OPERAND_DELIMITOR );
sb.append( _type );
return sb.toString();
}
//SPARK instruction generation
@Override
public String getInstructions(String input1, String input2, String output)
{
StringBuilder sb = new StringBuilder();
sb.append( getExecType() );
sb.append( Lop.OPERAND_DELIMITOR );
sb.append( "cpmm" );
sb.append( OPERAND_DELIMITOR );
sb.append( getInputs().get(0).prepInputOperand(input1) );
sb.append( OPERAND_DELIMITOR );
sb.append( getInputs().get(1).prepInputOperand(input2) );
sb.append( OPERAND_DELIMITOR );
sb.append( this.prepOutputOperand(output) );
sb.append( OPERAND_DELIMITOR );
sb.append( _aggtype );
return sb.toString();
}
}