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Prefix Tree Data Block Encoder
/*
* 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.hadoop.hbase.codec.prefixtree;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.nio.ByteBuffer;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
import org.apache.hadoop.hbase.codec.prefixtree.encode.other.LongEncoder;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.vint.UVIntTool;
import org.apache.hadoop.hbase.util.vint.UVLongTool;
/**
* Information about the block. Stored at the beginning of the byte[]. Contains things
* like minimum timestamp and width of FInts in the row tree.
*
* Most fields stored in VInts that get decoded on the first access of each new block.
*/
@InterfaceAudience.Private
public class PrefixTreeBlockMeta {
/******************* static fields ********************/
public static final int VERSION = 0;
public static final int MAX_FAMILY_LENGTH = Byte.MAX_VALUE;// hard-coded in KeyValue
public static final int
NUM_LONGS = 2,
NUM_INTS = 28,
NUM_SHORTS = 0,//keyValueTypeWidth not persisted
NUM_SINGLE_BYTES = 2,
MAX_BYTES = Bytes.SIZEOF_LONG * NUM_LONGS
+ Bytes.SIZEOF_SHORT * NUM_SHORTS
+ Bytes.SIZEOF_INT * NUM_INTS
+ NUM_SINGLE_BYTES;
/**************** transient fields *********************/
protected int arrayOffset;
protected int bufferOffset;
/**************** persisted fields **********************/
// PrefixTree version to allow future format modifications
protected int version;
protected int numMetaBytes;
protected int numKeyValueBytes;
protected boolean includesMvccVersion;//probably don't need this explicitly, but only 1 byte
// split the byte[] into 6 sections for the different data types
protected int numRowBytes;
protected int numFamilyBytes;
protected int numQualifierBytes;
protected int numTimestampBytes;
protected int numMvccVersionBytes;
protected int numValueBytes;
protected int numTagsBytes;
// number of bytes in each section of fixed width FInts
protected int nextNodeOffsetWidth;
protected int familyOffsetWidth;
protected int qualifierOffsetWidth;
protected int timestampIndexWidth;
protected int mvccVersionIndexWidth;
protected int valueOffsetWidth;
protected int valueLengthWidth;
protected int tagsOffsetWidth;
// used to pre-allocate structures for reading
protected int rowTreeDepth;
protected int maxRowLength;
protected int maxQualifierLength;
protected int maxTagsLength;
// the timestamp from which the deltas are calculated
protected long minTimestamp;
protected int timestampDeltaWidth;
protected long minMvccVersion;
protected int mvccVersionDeltaWidth;
protected boolean allSameType;
protected byte allTypes;
protected int numUniqueRows;
protected int numUniqueFamilies;
protected int numUniqueQualifiers;
protected int numUniqueTags;
/***************** constructors ********************/
public PrefixTreeBlockMeta() {
}
public PrefixTreeBlockMeta(InputStream is) throws IOException{
this.version = VERSION;
this.arrayOffset = 0;
this.bufferOffset = 0;
readVariableBytesFromInputStream(is);
}
/**
* @param buffer positioned at start of PtBlockMeta
*/
public PrefixTreeBlockMeta(ByteBuffer buffer) {
initOnBlock(buffer);
}
public void initOnBlock(ByteBuffer buffer) {
arrayOffset = buffer.arrayOffset();
bufferOffset = buffer.position();
readVariableBytesFromArray(buffer.array(), arrayOffset + bufferOffset);
}
/**************** operate on each field **********************/
public int calculateNumMetaBytes(){
int numBytes = 0;
numBytes += UVIntTool.numBytes(version);
numBytes += UVLongTool.numBytes(numMetaBytes);
numBytes += UVIntTool.numBytes(numKeyValueBytes);
++numBytes;//os.write(getIncludesMvccVersion());
numBytes += UVIntTool.numBytes(numRowBytes);
numBytes += UVIntTool.numBytes(numFamilyBytes);
numBytes += UVIntTool.numBytes(numQualifierBytes);
numBytes += UVIntTool.numBytes(numTagsBytes);
numBytes += UVIntTool.numBytes(numTimestampBytes);
numBytes += UVIntTool.numBytes(numMvccVersionBytes);
numBytes += UVIntTool.numBytes(numValueBytes);
numBytes += UVIntTool.numBytes(nextNodeOffsetWidth);
numBytes += UVIntTool.numBytes(familyOffsetWidth);
numBytes += UVIntTool.numBytes(qualifierOffsetWidth);
numBytes += UVIntTool.numBytes(tagsOffsetWidth);
numBytes += UVIntTool.numBytes(timestampIndexWidth);
numBytes += UVIntTool.numBytes(mvccVersionIndexWidth);
numBytes += UVIntTool.numBytes(valueOffsetWidth);
numBytes += UVIntTool.numBytes(valueLengthWidth);
numBytes += UVIntTool.numBytes(rowTreeDepth);
numBytes += UVIntTool.numBytes(maxRowLength);
numBytes += UVIntTool.numBytes(maxQualifierLength);
numBytes += UVIntTool.numBytes(maxTagsLength);
numBytes += UVLongTool.numBytes(minTimestamp);
numBytes += UVIntTool.numBytes(timestampDeltaWidth);
numBytes += UVLongTool.numBytes(minMvccVersion);
numBytes += UVIntTool.numBytes(mvccVersionDeltaWidth);
++numBytes;//os.write(getAllSameTypeByte());
++numBytes;//os.write(allTypes);
numBytes += UVIntTool.numBytes(numUniqueRows);
numBytes += UVIntTool.numBytes(numUniqueFamilies);
numBytes += UVIntTool.numBytes(numUniqueQualifiers);
numBytes += UVIntTool.numBytes(numUniqueTags);
return numBytes;
}
public void writeVariableBytesToOutputStream(OutputStream os) throws IOException{
UVIntTool.writeBytes(version, os);
UVIntTool.writeBytes(numMetaBytes, os);
UVIntTool.writeBytes(numKeyValueBytes, os);
os.write(getIncludesMvccVersionByte());
UVIntTool.writeBytes(numRowBytes, os);
UVIntTool.writeBytes(numFamilyBytes, os);
UVIntTool.writeBytes(numQualifierBytes, os);
UVIntTool.writeBytes(numTagsBytes, os);
UVIntTool.writeBytes(numTimestampBytes, os);
UVIntTool.writeBytes(numMvccVersionBytes, os);
UVIntTool.writeBytes(numValueBytes, os);
UVIntTool.writeBytes(nextNodeOffsetWidth, os);
UVIntTool.writeBytes(familyOffsetWidth, os);
UVIntTool.writeBytes(qualifierOffsetWidth, os);
UVIntTool.writeBytes(tagsOffsetWidth, os);
UVIntTool.writeBytes(timestampIndexWidth, os);
UVIntTool.writeBytes(mvccVersionIndexWidth, os);
UVIntTool.writeBytes(valueOffsetWidth, os);
UVIntTool.writeBytes(valueLengthWidth, os);
UVIntTool.writeBytes(rowTreeDepth, os);
UVIntTool.writeBytes(maxRowLength, os);
UVIntTool.writeBytes(maxQualifierLength, os);
UVIntTool.writeBytes(maxTagsLength, os);
UVLongTool.writeBytes(minTimestamp, os);
UVIntTool.writeBytes(timestampDeltaWidth, os);
UVLongTool.writeBytes(minMvccVersion, os);
UVIntTool.writeBytes(mvccVersionDeltaWidth, os);
os.write(getAllSameTypeByte());
os.write(allTypes);
UVIntTool.writeBytes(numUniqueRows, os);
UVIntTool.writeBytes(numUniqueFamilies, os);
UVIntTool.writeBytes(numUniqueQualifiers, os);
UVIntTool.writeBytes(numUniqueTags, os);
}
public void readVariableBytesFromInputStream(InputStream is) throws IOException{
version = UVIntTool.getInt(is);
numMetaBytes = UVIntTool.getInt(is);
numKeyValueBytes = UVIntTool.getInt(is);
setIncludesMvccVersion((byte) is.read());
numRowBytes = UVIntTool.getInt(is);
numFamilyBytes = UVIntTool.getInt(is);
numQualifierBytes = UVIntTool.getInt(is);
numTagsBytes = UVIntTool.getInt(is);
numTimestampBytes = UVIntTool.getInt(is);
numMvccVersionBytes = UVIntTool.getInt(is);
numValueBytes = UVIntTool.getInt(is);
nextNodeOffsetWidth = UVIntTool.getInt(is);
familyOffsetWidth = UVIntTool.getInt(is);
qualifierOffsetWidth = UVIntTool.getInt(is);
tagsOffsetWidth = UVIntTool.getInt(is);
timestampIndexWidth = UVIntTool.getInt(is);
mvccVersionIndexWidth = UVIntTool.getInt(is);
valueOffsetWidth = UVIntTool.getInt(is);
valueLengthWidth = UVIntTool.getInt(is);
rowTreeDepth = UVIntTool.getInt(is);
maxRowLength = UVIntTool.getInt(is);
maxQualifierLength = UVIntTool.getInt(is);
maxTagsLength = UVIntTool.getInt(is);
minTimestamp = UVLongTool.getLong(is);
timestampDeltaWidth = UVIntTool.getInt(is);
minMvccVersion = UVLongTool.getLong(is);
mvccVersionDeltaWidth = UVIntTool.getInt(is);
setAllSameType((byte) is.read());
allTypes = (byte) is.read();
numUniqueRows = UVIntTool.getInt(is);
numUniqueFamilies = UVIntTool.getInt(is);
numUniqueQualifiers = UVIntTool.getInt(is);
numUniqueTags = UVIntTool.getInt(is);
}
public void readVariableBytesFromArray(byte[] bytes, int offset) {
int position = offset;
version = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(version);
numMetaBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numMetaBytes);
numKeyValueBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numKeyValueBytes);
setIncludesMvccVersion(bytes[position]);
++position;
numRowBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numRowBytes);
numFamilyBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numFamilyBytes);
numQualifierBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numQualifierBytes);
numTagsBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numTagsBytes);
numTimestampBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numTimestampBytes);
numMvccVersionBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numMvccVersionBytes);
numValueBytes = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numValueBytes);
nextNodeOffsetWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(nextNodeOffsetWidth);
familyOffsetWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(familyOffsetWidth);
qualifierOffsetWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(qualifierOffsetWidth);
tagsOffsetWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(tagsOffsetWidth);
timestampIndexWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(timestampIndexWidth);
mvccVersionIndexWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(mvccVersionIndexWidth);
valueOffsetWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(valueOffsetWidth);
valueLengthWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(valueLengthWidth);
rowTreeDepth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(rowTreeDepth);
maxRowLength = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(maxRowLength);
maxQualifierLength = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(maxQualifierLength);
maxTagsLength = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(maxTagsLength);
minTimestamp = UVLongTool.getLong(bytes, position);
position += UVLongTool.numBytes(minTimestamp);
timestampDeltaWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(timestampDeltaWidth);
minMvccVersion = UVLongTool.getLong(bytes, position);
position += UVLongTool.numBytes(minMvccVersion);
mvccVersionDeltaWidth = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(mvccVersionDeltaWidth);
setAllSameType(bytes[position]);
++position;
allTypes = bytes[position];
++position;
numUniqueRows = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numUniqueRows);
numUniqueFamilies = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numUniqueFamilies);
numUniqueQualifiers = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numUniqueQualifiers);
numUniqueTags = UVIntTool.getInt(bytes, position);
position += UVIntTool.numBytes(numUniqueTags);
}
//TODO method that can read directly from ByteBuffer instead of InputStream
/*************** methods *************************/
public int getKeyValueTypeWidth() {
return allSameType ? 0 : 1;
}
public byte getIncludesMvccVersionByte() {
return includesMvccVersion ? (byte) 1 : (byte) 0;
}
public void setIncludesMvccVersion(byte includesMvccVersionByte) {
includesMvccVersion = includesMvccVersionByte != 0;
}
public byte getAllSameTypeByte() {
return allSameType ? (byte) 1 : (byte) 0;
}
public void setAllSameType(byte allSameTypeByte) {
allSameType = allSameTypeByte != 0;
}
public boolean isAllSameTimestamp() {
return timestampIndexWidth == 0;
}
public boolean isAllSameMvccVersion() {
return mvccVersionIndexWidth == 0;
}
public void setTimestampFields(LongEncoder encoder){
this.minTimestamp = encoder.getMin();
this.timestampIndexWidth = encoder.getBytesPerIndex();
this.timestampDeltaWidth = encoder.getBytesPerDelta();
this.numTimestampBytes = encoder.getTotalCompressedBytes();
}
public void setMvccVersionFields(LongEncoder encoder){
this.minMvccVersion = encoder.getMin();
this.mvccVersionIndexWidth = encoder.getBytesPerIndex();
this.mvccVersionDeltaWidth = encoder.getBytesPerDelta();
this.numMvccVersionBytes = encoder.getTotalCompressedBytes();
}
/*************** Object methods *************************/
/**
* Generated by Eclipse
*/
@Override
public boolean equals(Object obj) {
if (this == obj)
return true;
if (obj == null)
return false;
if (getClass() != obj.getClass())
return false;
PrefixTreeBlockMeta other = (PrefixTreeBlockMeta) obj;
if (allSameType != other.allSameType)
return false;
if (allTypes != other.allTypes)
return false;
if (arrayOffset != other.arrayOffset)
return false;
if (bufferOffset != other.bufferOffset)
return false;
if (valueLengthWidth != other.valueLengthWidth)
return false;
if (valueOffsetWidth != other.valueOffsetWidth)
return false;
if (familyOffsetWidth != other.familyOffsetWidth)
return false;
if (includesMvccVersion != other.includesMvccVersion)
return false;
if (maxQualifierLength != other.maxQualifierLength)
return false;
if (maxTagsLength != other.maxTagsLength)
return false;
if (maxRowLength != other.maxRowLength)
return false;
if (mvccVersionDeltaWidth != other.mvccVersionDeltaWidth)
return false;
if (mvccVersionIndexWidth != other.mvccVersionIndexWidth)
return false;
if (minMvccVersion != other.minMvccVersion)
return false;
if (minTimestamp != other.minTimestamp)
return false;
if (nextNodeOffsetWidth != other.nextNodeOffsetWidth)
return false;
if (numValueBytes != other.numValueBytes)
return false;
if (numFamilyBytes != other.numFamilyBytes)
return false;
if (numMvccVersionBytes != other.numMvccVersionBytes)
return false;
if (numMetaBytes != other.numMetaBytes)
return false;
if (numQualifierBytes != other.numQualifierBytes)
return false;
if (numTagsBytes != other.numTagsBytes)
return false;
if (numRowBytes != other.numRowBytes)
return false;
if (numTimestampBytes != other.numTimestampBytes)
return false;
if (numUniqueFamilies != other.numUniqueFamilies)
return false;
if (numUniqueQualifiers != other.numUniqueQualifiers)
return false;
if (numUniqueTags != other.numUniqueTags)
return false;
if (numUniqueRows != other.numUniqueRows)
return false;
if (numKeyValueBytes != other.numKeyValueBytes)
return false;
if (qualifierOffsetWidth != other.qualifierOffsetWidth)
return false;
if(tagsOffsetWidth != other.tagsOffsetWidth)
return false;
if (rowTreeDepth != other.rowTreeDepth)
return false;
if (timestampDeltaWidth != other.timestampDeltaWidth)
return false;
if (timestampIndexWidth != other.timestampIndexWidth)
return false;
if (version != other.version)
return false;
return true;
}
/**
* Generated by Eclipse
*/
@Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + (allSameType ? 1231 : 1237);
result = prime * result + allTypes;
result = prime * result + arrayOffset;
result = prime * result + bufferOffset;
result = prime * result + valueLengthWidth;
result = prime * result + valueOffsetWidth;
result = prime * result + familyOffsetWidth;
result = prime * result + (includesMvccVersion ? 1231 : 1237);
result = prime * result + maxQualifierLength;
result = prime * result + maxTagsLength;
result = prime * result + maxRowLength;
result = prime * result + mvccVersionDeltaWidth;
result = prime * result + mvccVersionIndexWidth;
result = prime * result + (int) (minMvccVersion ^ (minMvccVersion >>> 32));
result = prime * result + (int) (minTimestamp ^ (minTimestamp >>> 32));
result = prime * result + nextNodeOffsetWidth;
result = prime * result + numValueBytes;
result = prime * result + numFamilyBytes;
result = prime * result + numMvccVersionBytes;
result = prime * result + numMetaBytes;
result = prime * result + numQualifierBytes;
result = prime * result + numTagsBytes;
result = prime * result + numRowBytes;
result = prime * result + numTimestampBytes;
result = prime * result + numUniqueFamilies;
result = prime * result + numUniqueQualifiers;
result = prime * result + numUniqueTags;
result = prime * result + numUniqueRows;
result = prime * result + numKeyValueBytes;
result = prime * result + qualifierOffsetWidth;
result = prime * result + tagsOffsetWidth;
result = prime * result + rowTreeDepth;
result = prime * result + timestampDeltaWidth;
result = prime * result + timestampIndexWidth;
result = prime * result + version;
return result;
}
/**
* Generated by Eclipse
*/
@Override
public String toString() {
StringBuilder builder = new StringBuilder();
builder.append("PtBlockMeta [arrayOffset=");
builder.append(arrayOffset);
builder.append(", bufferOffset=");
builder.append(bufferOffset);
builder.append(", version=");
builder.append(version);
builder.append(", numMetaBytes=");
builder.append(numMetaBytes);
builder.append(", numKeyValueBytes=");
builder.append(numKeyValueBytes);
builder.append(", includesMvccVersion=");
builder.append(includesMvccVersion);
builder.append(", numRowBytes=");
builder.append(numRowBytes);
builder.append(", numFamilyBytes=");
builder.append(numFamilyBytes);
builder.append(", numQualifierBytes=");
builder.append(numQualifierBytes);
builder.append(", numTimestampBytes=");
builder.append(numTimestampBytes);
builder.append(", numMvccVersionBytes=");
builder.append(numMvccVersionBytes);
builder.append(", numValueBytes=");
builder.append(numValueBytes);
builder.append(", numTagBytes=");
builder.append(numTagsBytes);
builder.append(", nextNodeOffsetWidth=");
builder.append(nextNodeOffsetWidth);
builder.append(", familyOffsetWidth=");
builder.append(familyOffsetWidth);
builder.append(", qualifierOffsetWidth=");
builder.append(qualifierOffsetWidth);
builder.append(", tagOffsetWidth=");
builder.append(tagsOffsetWidth);
builder.append(", timestampIndexWidth=");
builder.append(timestampIndexWidth);
builder.append(", mvccVersionIndexWidth=");
builder.append(mvccVersionIndexWidth);
builder.append(", valueOffsetWidth=");
builder.append(valueOffsetWidth);
builder.append(", valueLengthWidth=");
builder.append(valueLengthWidth);
builder.append(", rowTreeDepth=");
builder.append(rowTreeDepth);
builder.append(", maxRowLength=");
builder.append(maxRowLength);
builder.append(", maxQualifierLength=");
builder.append(maxQualifierLength);
builder.append(", maxTagLength=");
builder.append(maxTagsLength);
builder.append(", minTimestamp=");
builder.append(minTimestamp);
builder.append(", timestampDeltaWidth=");
builder.append(timestampDeltaWidth);
builder.append(", minMvccVersion=");
builder.append(minMvccVersion);
builder.append(", mvccVersionDeltaWidth=");
builder.append(mvccVersionDeltaWidth);
builder.append(", allSameType=");
builder.append(allSameType);
builder.append(", allTypes=");
builder.append(allTypes);
builder.append(", numUniqueRows=");
builder.append(numUniqueRows);
builder.append(", numUniqueFamilies=");
builder.append(numUniqueFamilies);
builder.append(", numUniqueQualifiers=");
builder.append(numUniqueQualifiers);
builder.append(", numUniqueTags=");
builder.append(numUniqueTags);
builder.append("]");
return builder.toString();
}
/************** absolute getters *******************/
public int getAbsoluteMetaOffset() {
return arrayOffset + bufferOffset;
}
public int getAbsoluteRowOffset() {
return getAbsoluteMetaOffset() + numMetaBytes;
}
public int getAbsoluteFamilyOffset() {
return getAbsoluteRowOffset() + numRowBytes;
}
public int getAbsoluteQualifierOffset() {
return getAbsoluteFamilyOffset() + numFamilyBytes;
}
public int getAbsoluteTagsOffset() {
return getAbsoluteQualifierOffset() + numQualifierBytes;
}
public int getAbsoluteTimestampOffset() {
return getAbsoluteTagsOffset() + numTagsBytes;
}
public int getAbsoluteMvccVersionOffset() {
return getAbsoluteTimestampOffset() + numTimestampBytes;
}
public int getAbsoluteValueOffset() {
return getAbsoluteMvccVersionOffset() + numMvccVersionBytes;
}
/*************** get/set ***************************/
public int getTimestampDeltaWidth() {
return timestampDeltaWidth;
}
public void setTimestampDeltaWidth(int timestampDeltaWidth) {
this.timestampDeltaWidth = timestampDeltaWidth;
}
public int getValueOffsetWidth() {
return valueOffsetWidth;
}
public int getTagsOffsetWidth() {
return tagsOffsetWidth;
}
public void setValueOffsetWidth(int dataOffsetWidth) {
this.valueOffsetWidth = dataOffsetWidth;
}
public void setTagsOffsetWidth(int dataOffsetWidth) {
this.tagsOffsetWidth = dataOffsetWidth;
}
public int getValueLengthWidth() {
return valueLengthWidth;
}
public void setValueLengthWidth(int dataLengthWidth) {
this.valueLengthWidth = dataLengthWidth;
}
public int getMaxRowLength() {
return maxRowLength;
}
public void setMaxRowLength(int maxRowLength) {
this.maxRowLength = maxRowLength;
}
public long getMinTimestamp() {
return minTimestamp;
}
public void setMinTimestamp(long minTimestamp) {
this.minTimestamp = minTimestamp;
}
public byte getAllTypes() {
return allTypes;
}
public void setAllTypes(byte allTypes) {
this.allTypes = allTypes;
}
public boolean isAllSameType() {
return allSameType;
}
public void setAllSameType(boolean allSameType) {
this.allSameType = allSameType;
}
public int getNextNodeOffsetWidth() {
return nextNodeOffsetWidth;
}
public void setNextNodeOffsetWidth(int nextNodeOffsetWidth) {
this.nextNodeOffsetWidth = nextNodeOffsetWidth;
}
public int getNumRowBytes() {
return numRowBytes;
}
public void setNumRowBytes(int numRowBytes) {
this.numRowBytes = numRowBytes;
}
public int getNumTimestampBytes() {
return numTimestampBytes;
}
public void setNumTimestampBytes(int numTimestampBytes) {
this.numTimestampBytes = numTimestampBytes;
}
public int getNumValueBytes() {
return numValueBytes;
}
public int getNumTagsBytes() {
return numTagsBytes;
}
public void setNumTagsBytes(int numTagBytes){
this.numTagsBytes = numTagBytes;
}
public void setNumValueBytes(int numValueBytes) {
this.numValueBytes = numValueBytes;
}
public int getNumMetaBytes() {
return numMetaBytes;
}
public void setNumMetaBytes(int numMetaBytes) {
this.numMetaBytes = numMetaBytes;
}
public int getArrayOffset() {
return arrayOffset;
}
public void setArrayOffset(int arrayOffset) {
this.arrayOffset = arrayOffset;
}
public int getBufferOffset() {
return bufferOffset;
}
public void setBufferOffset(int bufferOffset) {
this.bufferOffset = bufferOffset;
}
public int getNumKeyValueBytes() {
return numKeyValueBytes;
}
public void setNumKeyValueBytes(int numKeyValueBytes) {
this.numKeyValueBytes = numKeyValueBytes;
}
public int getRowTreeDepth() {
return rowTreeDepth;
}
public void setRowTreeDepth(int rowTreeDepth) {
this.rowTreeDepth = rowTreeDepth;
}
public int getNumMvccVersionBytes() {
return numMvccVersionBytes;
}
public void setNumMvccVersionBytes(int numMvccVersionBytes) {
this.numMvccVersionBytes = numMvccVersionBytes;
}
public int getMvccVersionDeltaWidth() {
return mvccVersionDeltaWidth;
}
public void setMvccVersionDeltaWidth(int mvccVersionDeltaWidth) {
this.mvccVersionDeltaWidth = mvccVersionDeltaWidth;
}
public long getMinMvccVersion() {
return minMvccVersion;
}
public void setMinMvccVersion(long minMvccVersion) {
this.minMvccVersion = minMvccVersion;
}
public int getNumFamilyBytes() {
return numFamilyBytes;
}
public void setNumFamilyBytes(int numFamilyBytes) {
this.numFamilyBytes = numFamilyBytes;
}
public int getFamilyOffsetWidth() {
return familyOffsetWidth;
}
public void setFamilyOffsetWidth(int familyOffsetWidth) {
this.familyOffsetWidth = familyOffsetWidth;
}
public int getNumUniqueRows() {
return numUniqueRows;
}
public void setNumUniqueRows(int numUniqueRows) {
this.numUniqueRows = numUniqueRows;
}
public int getNumUniqueFamilies() {
return numUniqueFamilies;
}
public void setNumUniqueFamilies(int numUniqueFamilies) {
this.numUniqueFamilies = numUniqueFamilies;
}
public int getNumUniqueQualifiers() {
return numUniqueQualifiers;
}
public void setNumUniqueQualifiers(int numUniqueQualifiers) {
this.numUniqueQualifiers = numUniqueQualifiers;
}
public void setNumUniqueTags(int numUniqueTags) {
this.numUniqueTags = numUniqueTags;
}
public int getNumUniqueTags() {
return numUniqueTags;
}
public int getNumQualifierBytes() {
return numQualifierBytes;
}
public void setNumQualifierBytes(int numQualifierBytes) {
this.numQualifierBytes = numQualifierBytes;
}
public int getQualifierOffsetWidth() {
return qualifierOffsetWidth;
}
public void setQualifierOffsetWidth(int qualifierOffsetWidth) {
this.qualifierOffsetWidth = qualifierOffsetWidth;
}
public int getMaxQualifierLength() {
return maxQualifierLength;
}
// TODO : decide on some max value for this ? INTEGER_MAX?
public void setMaxQualifierLength(int maxQualifierLength) {
this.maxQualifierLength = maxQualifierLength;
}
public int getMaxTagsLength() {
return this.maxTagsLength;
}
public void setMaxTagsLength(int maxTagLength) {
this.maxTagsLength = maxTagLength;
}
public int getTimestampIndexWidth() {
return timestampIndexWidth;
}
public void setTimestampIndexWidth(int timestampIndexWidth) {
this.timestampIndexWidth = timestampIndexWidth;
}
public int getMvccVersionIndexWidth() {
return mvccVersionIndexWidth;
}
public void setMvccVersionIndexWidth(int mvccVersionIndexWidth) {
this.mvccVersionIndexWidth = mvccVersionIndexWidth;
}
public int getVersion() {
return version;
}
public void setVersion(int version) {
this.version = version;
}
public boolean isIncludesMvccVersion() {
return includesMvccVersion;
}
public void setIncludesMvccVersion(boolean includesMvccVersion) {
this.includesMvccVersion = includesMvccVersion;
}
}