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Oracle Coherence Community Edition
/*
* Copyright (c) 2000, 2022, Oracle and/or its affiliates.
*
* Licensed under the Universal Permissive License v 1.0 as shown at
* https://oss.oracle.com/licenses/upl.
*/
package com.tangosol.util.processor;
import com.tangosol.io.pof.PofReader;
import com.tangosol.io.pof.PofWriter;
import com.tangosol.util.ExternalizableHelper;
import com.tangosol.util.InvocableMap;
import com.tangosol.util.ValueManipulator;
import java.io.DataInput;
import java.io.DataOutput;
import java.io.IOException;
import java.math.BigDecimal;
import java.math.BigInteger;
import jakarta.json.bind.annotation.JsonbProperty;
/**
* The NumberMultiplier entry processor is used to multiply a property value
* of a {@link Number} type. Supported types are: Byte, Short, Integer, Long,
* Float, Double, BigInteger and BigDecimal.
*
* @author gg 2005.10.31
* @since Coherence 3.1
*/
public class NumberMultiplier
extends PropertyProcessor
{
// ----- constructors ---------------------------------------------------
/**
* Default constructor (necessary for the ExternalizableLite interface).
*/
public NumberMultiplier()
{
}
/**
* Construct an NumberMultiplier processor that will multiply a property
* value by a specified factor, returning either the old or the new value
* as specified. The Java type of the original property value will
* dictate the way the specified factor is interpreted. For example,
* applying a factor of Double(0.5) to a property value of Integer(4) will
* result in a new property value of Integer(2).
*
* If the original property value is null, the Java type of the numFactor
* parameter will dictate the Java type of the new value.
*
* @param sName the property name
* @param numFactor the Number representing the magnitude and sign of
* the multiplier
* @param fPostFactor pass true to return the value as it was before
* it was multiplied, or pass false to return the
* value as it is after it is multiplied
*/
public NumberMultiplier(String sName, N numFactor, boolean fPostFactor)
{
super(sName);
azzert(numFactor != null);
m_numFactor = numFactor;
m_fPostFactor = fPostFactor;
}
/**
* Construct an NumberMultiplier processor that will multiply a property
* value by a specified factor, returning either the old or the new value
* as specified. The Java type of the original property value will
* dictate the way the specified factor is interpreted. For example,
* applying a factor of Double(0.5) to a property value of Integer(4) will
* result in a new property value of Integer(2).
*
* If the original property value is null, the Java type of the numFactor
* parameter will dictate the Java type of the new value.
*
* @param manipulator the ValueManipulator; could be null
* @param numFactor the Number representing the magnitude and sign of
* the multiplier
* @param fPostFactor pass true to return the value as it was before
* it was multiplied, or pass false to return the
* value as it is after it is multiplied
*/
public NumberMultiplier(ValueManipulator manipulator,
N numFactor, boolean fPostFactor)
{
super(manipulator);
azzert(numFactor != null);
m_numFactor = numFactor;
m_fPostFactor = fPostFactor;
}
// ----- EntryProcessor interface ---------------------------------------
/**
* {@inheritDoc}
*/
public N process(InvocableMap.Entry entry)
{
if (!entry.isPresent())
{
return null;
}
Number numFactor = m_numFactor;
Number numOld = get(entry);
if (numOld == null)
{
numOld = numFactor instanceof Integer ? NumberIncrementor.INTEGER_ZERO
: numFactor instanceof Long ? NumberIncrementor.LONG_ZERO
: numFactor instanceof Double ? NumberIncrementor.DOUBLE_ZERO
: numFactor instanceof Float ? NumberIncrementor.FLOAT_ZERO
: numFactor instanceof BigInteger ? NumberIncrementor.BIGINTEGER_ZERO
: numFactor instanceof BigDecimal ? NumberIncrementor.BIGDECIMAL_ZERO
: numFactor instanceof Short ? NumberIncrementor.SHORT_ZERO
: numFactor instanceof Byte ? NumberIncrementor.BYTE_ZERO
: null;
}
Number numNew;
if (numOld instanceof Integer)
{
int iNew = numOld.intValue();
if (numFactor instanceof Double || numFactor instanceof Float)
{
iNew = (int) (iNew * numFactor.doubleValue());
}
else
{
iNew *= numFactor.intValue();
}
numNew = iNew;
}
else if (numOld instanceof Long)
{
long lNew = numOld.longValue();
if (numFactor instanceof Double || numFactor instanceof Float)
{
lNew = (long) (lNew * numFactor.doubleValue());
}
else
{
lNew *= numFactor.longValue();
}
numNew = lNew;
}
else if (numOld instanceof Double)
{
numNew = numOld.doubleValue() * numFactor.doubleValue();
}
else if (numOld instanceof Float)
{
numNew = numOld.floatValue() * numFactor.floatValue();
}
else if (numOld instanceof BigInteger)
{
numNew = ((BigInteger) numOld).multiply((BigInteger) numFactor);
}
else if (numOld instanceof BigDecimal)
{
numNew = ((BigDecimal) numOld).multiply((BigDecimal) numFactor);
}
else if (numOld instanceof Short)
{
short iNew = numOld.shortValue();
if (numFactor instanceof Double || numFactor instanceof Float)
{
iNew = (short) (iNew * numFactor.doubleValue());
}
else
{
iNew *= numFactor.shortValue();
}
numNew = iNew;
}
else if (numOld instanceof Byte)
{
byte bNew = numOld.byteValue();
if (numFactor instanceof Double || numFactor instanceof Float)
{
bNew = (byte) (bNew * numFactor.doubleValue());
}
else
{
bNew *= numFactor.byteValue();
}
numNew = bNew;
}
else
{
throw new RuntimeException("Unsupported type:" + (numOld == null ?
numFactor.getClass().getName() : numOld.getClass().getName()));
}
if (!numNew.equals(numOld))
{
set(entry, (N) numNew);
}
return (N) (m_fPostFactor ? numOld : numNew);
}
// ----- helpers --------------------------------------------------------
/**
* {@inheritDoc}
*/
protected String getDescription()
{
return (m_fPostFactor ? ", post" : ", pre") + "-factor=" + m_numFactor;
}
// ----- ExternalizableLite interface -----------------------------------
/**
* {@inheritDoc}
*/
public void readExternal(DataInput in)
throws IOException
{
super.readExternal(in);
m_numFactor = (N) ExternalizableHelper.readObject(in);
m_fPostFactor = in.readBoolean();
}
/**
* {@inheritDoc}
*/
public void writeExternal(DataOutput out)
throws IOException
{
super.writeExternal(out);
ExternalizableHelper.writeObject(out, m_numFactor);
out.writeBoolean(m_fPostFactor);
}
// ----- PortableObject interface ---------------------------------------
/**
* {@inheritDoc}
*/
public void readExternal(PofReader in)
throws IOException
{
super.readExternal(in);
m_numFactor = (N) in.readObject(1);
m_fPostFactor = in.readBoolean(2);
}
/**
* {@inheritDoc}
*/
public void writeExternal(PofWriter out)
throws IOException
{
super.writeExternal(out);
out.writeObject(1, m_numFactor);
out.writeBoolean(2, m_fPostFactor);
}
// ----- accessors ------------------------------------------------------
/**
* Returns the number to multiply by.
* @return the number to multiply by
*/
public N getNumFactor()
{
return m_numFactor;
}
/**
* Returns whether to return the value before it was multiplied.
*
* @return whether to return the value before it was multiplied
*/
public boolean getPostFactor()
{
return m_fPostFactor;
}
// ----- data members ---------------------------------------------------
/**
* The number to multiply by.
*/
@JsonbProperty("multiplier")
private N m_numFactor;
/**
* Whether to return the value before it was multiplied ("post-factor") or
* after it is multiplied ("pre-factor").
*/
@JsonbProperty("postMultiplication")
private boolean m_fPostFactor;
}