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apache / drill / 1.0.0 / . / exec / java-exec / src / main / codegen / templates / Decimal / CastDecimalDenseDecimalSparse.java
blob: 4713041b666e1e9c6fd1665cd7d79a891421670d [file] [log] [blame]
/**
* 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.
*/
<@pp.dropOutputFile />
<#list cast.types as type>
<#if type.major == "DecimalDenseDecimalSparse">
<@pp.changeOutputFile name="/org/apache/drill/exec/expr/fn/impl/gcast/Cast${type.from}${type.to}.java" />
<#include "/@includes/license.ftl" />
package org.apache.drill.exec.expr.fn.impl.gcast;
<#include "/@includes/vv_imports.ftl" />
import org.apache.drill.exec.expr.DrillSimpleFunc;
import org.apache.drill.exec.expr.annotations.FunctionTemplate;
import org.apache.drill.exec.expr.annotations.FunctionTemplate.NullHandling;
import org.apache.drill.exec.expr.annotations.Output;
import org.apache.drill.exec.expr.annotations.Param;
import org.apache.drill.exec.expr.holders.*;
import org.apache.drill.exec.record.RecordBatch;
import org.apache.drill.exec.expr.annotations.Workspace;
import io.netty.buffer.ByteBuf;
import io.netty.buffer.DrillBuf;
import java.nio.ByteBuffer;
@SuppressWarnings("unused")
@FunctionTemplate(name = "cast${type.to?upper_case}", scope = FunctionTemplate.FunctionScope.DECIMAL_CAST, nulls=NullHandling.NULL_IF_NULL)
public class Cast${type.from}${type.to} implements DrillSimpleFunc{
@Param ${type.from}Holder in;
@Inject DrillBuf buffer;
@Param BigIntHolder precision;
@Param BigIntHolder scale;
@Output ${type.to}Holder out;
public void setup() {
int size = (${type.arraySize} * (org.apache.drill.exec.util.DecimalUtility.integerSize));
buffer = buffer.reallocIfNeeded(size);
}
public void eval() {
out.buffer = buffer;
out.start = 0;
// Re initialize the buffer everytime
for (int i = 0; i < ${type.arraySize}; i++) {
out.setInteger(i, 0, out.start, out.buffer);
}
out.scale = (int) scale.value;
out.precision = (int) precision.value;
out.setSign(in.getSign(in.start, in.buffer), out.start, out.buffer);
/* We store base 1 Billion integers in our representation, which requires
* 30 bits, but a typical integer requires 32 bits. In our dense representation
* we shift bits around to utilize the two available bits, to get back to our sparse
* representation rearrange the bits so that we use 32 bits represent the digits.
*/
byte[] intermediateBytes = new byte[(in.nDecimalDigits * org.apache.drill.exec.util.DecimalUtility.integerSize) + 1];
int[] mask = {0x03, 0x0F, 0x3F, 0xFF};
int[] reverseMask = {0xFC, 0xF0, 0xC0, 0x00};
<#if (type.from == "Decimal38Dense")>
int maskIndex = 0;
int shiftOrder = 6;
byte shiftBits = 0x00;
intermediateBytes[0] = (byte) (in.buffer.getByte(0) & 0x7F);
<#elseif (type.from == "Decimal28Dense")>
int maskIndex = 1;
int shiftOrder = 4;
byte shiftBits = (byte) ((in.buffer.getByte(0) & 0x03) << shiftOrder);
intermediateBytes[0] = (byte) (((in.buffer.getByte(0) & 0x3C) & 0xFF) >>> 2);
</#if>
int intermediateIndex = 1;
int inputIndex = in.start + 1;
while (intermediateIndex < in.WIDTH) {
intermediateBytes[intermediateIndex] = (byte) ((shiftBits) | (((in.buffer.getByte(inputIndex) & reverseMask[maskIndex]) & 0xFF) >>> (8 - shiftOrder)));
shiftBits = (byte) ((in.buffer.getByte(inputIndex) & mask[maskIndex]) << shiftOrder);
inputIndex++;
intermediateIndex++;
if (((intermediateIndex - 1) % org.apache.drill.exec.util.DecimalUtility.integerSize) == 0) {
shiftBits = (byte) ((shiftBits & 0xFF) >>> 2);
maskIndex++;
shiftOrder -= 2;
}
}
/* copy the last byte */
intermediateBytes[intermediateIndex] = shiftBits;
/* We have shifted the bits around and now each digit is represented by 32 digits
* Now we transfer the bytes into a integer array and separate out the scale and
* integer part of the decimal. Also pad the scale part with zeroes if needed
*/
int[] intermediate = new int[(intermediateBytes.length/org.apache.drill.exec.util.DecimalUtility.integerSize) + 1];
java.nio.ByteBuffer wrapper = java.nio.ByteBuffer.wrap(intermediateBytes);
intermediate[0] = wrapper.get(0);
int intermediateIdx = 1;
for (int i = 1; i < intermediate.length; i++) {
intermediate[i] = wrapper.getInt(intermediateIdx);
intermediateIdx += 4;
}
int actualDigits;
int srcIndex = intermediate.length - 1;
int dstIndex = out.nDecimalDigits - 1;
// break the scale and integer part and pad zeroes
if (in.scale > 0 && (actualDigits = (in.scale % org.apache.drill.exec.util.DecimalUtility.MAX_DIGITS)) > 0) {
int paddedDigits = org.apache.drill.exec.util.DecimalUtility.MAX_DIGITS - actualDigits;
int padding = (int) (Math.pow(10, paddedDigits));
int transferDigitMask = (int) (Math.pow(10, actualDigits));
/* copy the remaining scale over to the last deciml digit */
out.setInteger(dstIndex, ((intermediate[srcIndex] % transferDigitMask) * (padding)), out.start, out.buffer);
dstIndex--;
while (srcIndex > 0) {
out.setInteger(dstIndex, ((intermediate[srcIndex]/transferDigitMask) + ((intermediate[srcIndex - 1] % transferDigitMask) * padding)), out.start, out.buffer);
dstIndex--;
srcIndex--;
}
out.setInteger(dstIndex, (intermediate[0]/transferDigitMask), out.start, out.buffer);
} else {
for (; srcIndex >= 0; srcIndex--, dstIndex--)
out.setInteger(dstIndex, intermediate[srcIndex], out.start, out.buffer);
}
}
}
</#if>
</#list>