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Declarative Machine Learning
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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 org.apache.sysml.lops;
import org.apache.sysml.lops.LopProperties.ExecLocation;
import org.apache.sysml.lops.LopProperties.ExecType;
import org.apache.sysml.lops.compile.JobType;
import org.apache.sysml.parser.Expression.DataType;
import org.apache.sysml.parser.Expression.ValueType;
public class MapMultChain extends Lop
{
public static final String OPCODE = "mapmmchain";
public static final String OPCODE_CP = "mmchain";
public enum ChainType {
XtXv, //(t(X) %*% (X %*% v))
XtwXv, //(t(X) %*% (w * (X %*% v)))
XtXvy, //(t(X) %*% ((X %*% v) - y))
NONE,
}
private ChainType _chainType = null;
private int _numThreads = 1;
/**
* Constructor to setup a map mult chain without weights
*
* @param input
* @param op
* @return
* @throws LopsException
*/
public MapMultChain(Lop input1, Lop input2, DataType dt, ValueType vt, ExecType et)
throws LopsException
{
super(Lop.Type.MapMultChain, dt, vt);
addInput(input1); //X
addInput(input2); //v
input1.addOutput(this);
input2.addOutput(this);
//setup mapmult parameters
_chainType = ChainType.XtXv;
setupLopProperties(et);
}
/**
* Constructor to setup a map mult chain with weights
*
* @param input
* @param op
* @return
* @throws LopsException
*/
public MapMultChain(Lop input1, Lop input2, Lop input3, ChainType chain, DataType dt, ValueType vt, ExecType et)
throws LopsException
{
super(Lop.Type.MapMultChain, dt, vt);
addInput(input1); //X
addInput(input2); //w
addInput(input3); //v
input1.addOutput(this);
input2.addOutput(this);
input3.addOutput(this);
//setup mapmult parameters
_chainType = chain;
setupLopProperties(et);
}
/**
*
* @param et
*/
private void setupLopProperties( ExecType et )
{
if( et == ExecType.MR )
{
//setup MR parameters
boolean breaksAlignment = true;
boolean aligner = false;
boolean definesMRJob = false;
lps.addCompatibility(JobType.GMR);
lps.addCompatibility(JobType.DATAGEN);
lps.setProperties( inputs, ExecType.MR, ExecLocation.Map, breaksAlignment, aligner, definesMRJob );
}
else //Spark/CP
{
//setup Spark parameters
boolean breaksAlignment = false;
boolean aligner = false;
boolean definesMRJob = false;
lps.addCompatibility(JobType.INVALID);
lps.setProperties( inputs, et, ExecLocation.ControlProgram, breaksAlignment, aligner, definesMRJob );
}
}
public void setNumThreads(int k) {
_numThreads = k;
}
public String toString() {
return "Operation = MapMMChain";
}
@Override
public String getInstructions(int input_index1, int input_index2, int output_index)
{
//MR instruction XtXv
StringBuilder sb = new StringBuilder();
sb.append(getExecType());
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(OPCODE);
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(0).prepInputOperand(input_index1));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(1).prepInputOperand(input_index2));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( this.prepOutputOperand(output_index));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(_chainType);
return sb.toString();
}
@Override
public String getInstructions(int input_index1, int input_index2, int input_index3, int output_index)
{
//MR instruction XtwXv
StringBuilder sb = new StringBuilder();
sb.append(getExecType());
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(OPCODE);
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(0).prepInputOperand(input_index1));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(1).prepInputOperand(input_index2));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(2).prepInputOperand(input_index3));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( this.prepOutputOperand(output_index));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(_chainType);
return sb.toString();
}
@Override
public String getInstructions(String input1, String input2, String output)
{
//Spark instruction XtXv
StringBuilder sb = new StringBuilder();
sb.append(getExecType());
sb.append(Lop.OPERAND_DELIMITOR);
if( getExecType()==ExecType.CP )
sb.append(OPCODE_CP);
else
sb.append(OPCODE);
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(0).prepInputOperand(input1));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(1).prepInputOperand(input2));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( this.prepOutputOperand(output));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(_chainType);
//append degree of parallelism for matrix multiplications
if( getExecType()==ExecType.CP ) {
sb.append( OPERAND_DELIMITOR );
sb.append( _numThreads );
}
return sb.toString();
}
@Override
public String getInstructions(String input1, String input2, String input3, String output)
{
//Spark instruction XtwXv
StringBuilder sb = new StringBuilder();
sb.append(getExecType());
sb.append(Lop.OPERAND_DELIMITOR);
if( getExecType()==ExecType.CP )
sb.append(OPCODE_CP);
else
sb.append(OPCODE);
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(0).prepInputOperand(input1));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(1).prepInputOperand(input2));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( getInputs().get(2).prepInputOperand(input3));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append( this.prepOutputOperand(output));
sb.append(Lop.OPERAND_DELIMITOR);
sb.append(_chainType);
//append degree of parallelism for matrix multiplications
if( getExecType()==ExecType.CP ) {
sb.append( OPERAND_DELIMITOR );
sb.append( _numThreads );
}
return sb.toString();
}
@Override
public boolean usesDistributedCache()
{
return true;
}
@Override
public int[] distributedCacheInputIndex()
{
if( _chainType == ChainType.XtXv )
return new int[]{2};
else if( _chainType == ChainType.XtwXv || _chainType == ChainType.XtXvy )
return new int[]{2,3};
//error
return new int[]{-1};
}
}