gemfire-core/src/main/java/com/gemstone/gemfire/internal/cache/VersionedThinRegionEntryOffHeapStringKey2.java - geode - Git at Google

 /*=========================================================================
  * Copyright (c) 2010-2014 Pivotal Software, Inc. All Rights Reserved.
  * This product is protected by U.S. and international copyright
  * and intellectual property laws. Pivotal products are covered by
  * one or more patents listed at http://www.pivotal.io/patents.
  *=========================================================================
  */
 package com.gemstone.gemfire.internal.cache;
 // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
 import java.util.concurrent.atomic.AtomicLongFieldUpdater;
 import com.gemstone.gemfire.cache.EntryEvent;
 import com.gemstone.gemfire.distributed.internal.membership.InternalDistributedMember;
 import com.gemstone.gemfire.internal.cache.versions.VersionSource;
 import com.gemstone.gemfire.internal.cache.versions.VersionStamp;
 import com.gemstone.gemfire.internal.cache.versions.VersionTag;
 import com.gemstone.gemfire.internal.offheap.OffHeapRegionEntryHelper;
 import com.gemstone.gemfire.internal.offheap.annotations.Released;
 import com.gemstone.gemfire.internal.offheap.annotations.Retained;
 import com.gemstone.gemfire.internal.offheap.annotations.Unretained;
 import com.gemstone.gemfire.internal.util.concurrent.CustomEntryConcurrentHashMap.HashEntry;
 // macros whose definition changes this class:
 // disk: DISK
 // lru: LRU
 // stats: STATS
 // versioned: VERSIONED
 // offheap: OFFHEAP
 // One of the following key macros must be defined:
 // key object: KEY_OBJECT
 // key int: KEY_INT
 // key long: KEY_LONG
 // key uuid: KEY_UUID
 // key string1: KEY_STRING1
 // key string2: KEY_STRING2
 /**
  * Do not modify this class. It was generated.
  * Instead modify LeafRegionEntry.cpp and then run
  * bin/generateRegionEntryClasses.sh from the directory
  * that contains your build.xml.
  */
 public class VersionedThinRegionEntryOffHeapStringKey2 extends VersionedThinRegionEntryOffHeap {
   public VersionedThinRegionEntryOffHeapStringKey2 (RegionEntryContext context, String key,
       @Retained
       Object value
       , boolean byteEncode
       ) {
     super(context,
           value
         );
     // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
     // caller has already confirmed that key.length <= MAX_INLINE_STRING_KEY
     long tmpBits1 = 0L;
     long tmpBits2 = 0L;
     if (byteEncode) {
       for (int i=key.length()-1; i >= 0; i--) {
         // Note: we know each byte is <= 0x7f so the "& 0xff" is not needed. But I added it in to keep findbugs happy.
         if (i < 7) {
           tmpBits1 |= (byte)key.charAt(i) & 0xff;
           tmpBits1 <<= 8;
         } else {
           tmpBits2 <<= 8;
           tmpBits2 |= (byte)key.charAt(i) & 0xff;
         }
       }
       tmpBits1 |= 1<<6;
     } else {
       for (int i=key.length()-1; i >= 0; i--) {
         if (i < 3) {
           tmpBits1 |= key.charAt(i);
           tmpBits1 <<= 16;
         } else {
           tmpBits2 <<= 16;
           tmpBits2 |= key.charAt(i);
         }
       }
     }
     tmpBits1 |= key.length();
     this.bits1 = tmpBits1;
     this.bits2 = tmpBits2;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   // common code
   protected int hash;
   private HashEntry<Object, Object> next;
   @SuppressWarnings("unused")
   private volatile long lastModified;
   private static final AtomicLongFieldUpdater<VersionedThinRegionEntryOffHeapStringKey2> lastModifiedUpdater
     = AtomicLongFieldUpdater.newUpdater(VersionedThinRegionEntryOffHeapStringKey2.class, "lastModified");
   /**
    * All access done using ohAddrUpdater so it is used even though the compiler can not tell it is.
    */
   @SuppressWarnings("unused")
   @Retained @Released private volatile long ohAddress;
   /**
    * I needed to add this because I wanted clear to call setValue which normally can only be called while the re is synced.
    * But if I sync in that code it causes a lock ordering deadlock with the disk regions because they also get a rw lock in clear.
    * Some hardware platforms do not support CAS on a long. If gemfire is run on one of those the AtomicLongFieldUpdater does a sync
    * on the re and we will once again be deadlocked.
    * I don't know if we support any of the hardware platforms that do not have a 64bit CAS. If we do then we can expect deadlocks
    * on disk regions.
    */
   private final static AtomicLongFieldUpdater<VersionedThinRegionEntryOffHeapStringKey2> ohAddrUpdater = AtomicLongFieldUpdater.newUpdater(VersionedThinRegionEntryOffHeapStringKey2.class, "ohAddress");
   @Override
   public Token getValueAsToken() {
     return OffHeapRegionEntryHelper.getValueAsToken(this);
   }
   @Override
   protected Object getValueField() {
     return OffHeapRegionEntryHelper._getValue(this);
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   @Override
   @Unretained
   protected void setValueField(@Unretained Object v) {
     OffHeapRegionEntryHelper.setValue(this, v);
   }
   @Override
   @Retained
   public Object _getValueRetain(RegionEntryContext context, boolean decompress) {
     return OffHeapRegionEntryHelper._getValueRetain(this, decompress, context);
   }
   @Override
   public long getAddress() {
     return ohAddrUpdater.get(this);
   }
   @Override
   public boolean setAddress(long expectedAddr, long newAddr) {
     return ohAddrUpdater.compareAndSet(this, expectedAddr, newAddr);
   }
   @Override
   @Released
   public void release() {
     OffHeapRegionEntryHelper.releaseEntry(this);
   }
   @Override
   public void returnToPool() {
     // Deadcoded for now; never was working
 //    if (this instanceof VMThinRegionEntryLongKey) {
 //      factory.returnToPool((VMThinRegionEntryLongKey)this);
 //    }
   }
   protected long getlastModifiedField() {
     return lastModifiedUpdater.get(this);
   }
   protected boolean compareAndSetLastModifiedField(long expectedValue, long newValue) {
     return lastModifiedUpdater.compareAndSet(this, expectedValue, newValue);
   }
   /**
    * @see HashEntry#getEntryHash()
    */
   public final int getEntryHash() {
     return this.hash;
   }
   protected void setEntryHash(int v) {
     this.hash = v;
   }
   /**
    * @see HashEntry#getNextEntry()
    */
   public final HashEntry<Object, Object> getNextEntry() {
     return this.next;
   }
   /**
    * @see HashEntry#setNextEntry
    */
   public final void setNextEntry(final HashEntry<Object, Object> n) {
     this.next = n;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   // versioned code
   private VersionSource memberID;
   private short entryVersionLowBytes;
   private short regionVersionHighBytes;
   private int regionVersionLowBytes;
   private byte entryVersionHighByte;
   private byte distributedSystemId;
   public int getEntryVersion() {
     return ((entryVersionHighByte << 16) & 0xFF0000) | (entryVersionLowBytes & 0xFFFF);
   }
   public long getRegionVersion() {
     return (((long)regionVersionHighBytes) << 32) | (regionVersionLowBytes & 0x00000000FFFFFFFFL);
   }
   public long getVersionTimeStamp() {
     return getLastModified();
   }
   public void setVersionTimeStamp(long time) {
     setLastModified(time);
   }
   public VersionSource getMemberID() {
     return this.memberID;
   }
   public int getDistributedSystemId() {
     return this.distributedSystemId;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   public void setVersions(VersionTag tag) {
     this.memberID = tag.getMemberID();
     int eVersion = tag.getEntryVersion();
     this.entryVersionLowBytes = (short)(eVersion & 0xffff);
     this.entryVersionHighByte = (byte)((eVersion & 0xff0000) >> 16);
     this.regionVersionHighBytes = tag.getRegionVersionHighBytes();
     this.regionVersionLowBytes = tag.getRegionVersionLowBytes();
     if (!(tag.isGatewayTag()) && this.distributedSystemId == tag.getDistributedSystemId()) {
       if (getVersionTimeStamp() <= tag.getVersionTimeStamp()) {
         setVersionTimeStamp(tag.getVersionTimeStamp());
       } else {
         tag.setVersionTimeStamp(getVersionTimeStamp());
       }
     } else {
       setVersionTimeStamp(tag.getVersionTimeStamp());
     }
     this.distributedSystemId = (byte)(tag.getDistributedSystemId() & 0xff);
   }
   public void setMemberID(VersionSource memberID) {
     this.memberID = memberID;
   }
   @Override
   public VersionStamp getVersionStamp() {
     return this;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   public VersionTag asVersionTag() {
     VersionTag tag = VersionTag.create(memberID);
     tag.setEntryVersion(getEntryVersion());
     tag.setRegionVersion(this.regionVersionHighBytes, this.regionVersionLowBytes);
     tag.setVersionTimeStamp(getVersionTimeStamp());
     tag.setDistributedSystemId(this.distributedSystemId);
     return tag;
   }
   public void processVersionTag(LocalRegion r, VersionTag tag,
       boolean isTombstoneFromGII, boolean hasDelta,
       VersionSource thisVM, InternalDistributedMember sender, boolean checkForConflicts) {
     basicProcessVersionTag(r, tag, isTombstoneFromGII, hasDelta, thisVM, sender, checkForConflicts);
   }
   @Override
   public void processVersionTag(EntryEvent cacheEvent) {
     // this keeps Eclipse happy.  without it the sender chain becomes confused
     // while browsing this code
     super.processVersionTag(cacheEvent);
   }
   /** get rvv internal high byte.  Used by region entries for transferring to storage */
   public short getRegionVersionHighBytes() {
     return this.regionVersionHighBytes;
   }
   /** get rvv internal low bytes.  Used by region entries for transferring to storage */
   public int getRegionVersionLowBytes() {
     return this.regionVersionLowBytes;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   // key code
   // strlen is encoded in lowest 6 bits (max strlen is 63)
   // character encoding info is in bits 7 and 8
   // The other bits are used to encoded character data.
   private final long bits1;
   // bits2 encodes character data
   private final long bits2;
   private int getKeyLength() {
     return (int) (this.bits1 & 0x003fL);
   }
   private int getEncoding() {
     // 0 means encoded as char
     // 1 means encoded as bytes that are all <= 0x7f;
     return (int) (this.bits1 >> 6) & 0x03;
   }
   @Override
   public final Object getKey() {
     int keylen = getKeyLength();
     char[] chars = new char[keylen];
     long tmpBits1 = this.bits1;
     long tmpBits2 = this.bits2;
     if (getEncoding() == 1) {
       for (int i=0; i < keylen; i++) {
         if (i < 7) {
           tmpBits1 >>= 8;
           chars[i] = (char) (tmpBits1 & 0x00ff);
         } else {
           chars[i] = (char) (tmpBits2 & 0x00ff);
           tmpBits2 >>= 8;
         }
       }
     } else {
       for (int i=0; i < keylen; i++) {
         if (i < 3) {
           tmpBits1 >>= 16;
         chars[i] = (char) (tmpBits1 & 0x00FFff);
         } else {
           chars[i] = (char) (tmpBits2 & 0x00FFff);
           tmpBits2 >>= 16;
         }
       }
     }
     return new String(chars);
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
   @Override
   public boolean isKeyEqual(Object k) {
     if (k instanceof String) {
       String str = (String)k;
       int keylen = getKeyLength();
       if (str.length() == keylen) {
         long tmpBits1 = this.bits1;
         long tmpBits2 = this.bits2;
         if (getEncoding() == 1) {
           for (int i=0; i < keylen; i++) {
             char c;
             if (i < 7) {
               tmpBits1 >>= 8;
               c = (char) (tmpBits1 & 0x00ff);
             } else {
               c = (char) (tmpBits2 & 0x00ff);
               tmpBits2 >>= 8;
             }
             if (str.charAt(i) != c) {
               return false;
             }
           }
         } else {
           for (int i=0; i < keylen; i++) {
             char c;
             if (i < 3) {
               tmpBits1 >>= 16;
               c = (char) (tmpBits1 & 0x00FFff);
             } else {
               c = (char) (tmpBits2 & 0x00FFff);
               tmpBits2 >>= 16;
             }
             if (str.charAt(i) != c) {
               return false;
             }
           }
         }
         return true;
       }
     }
     return false;
   }
   // DO NOT modify this class. It was generated from LeafRegionEntry.cpp
 }
	/*=========================================================================
	* Copyright (c) 2010-2014 Pivotal Software, Inc. All Rights Reserved.
	* This product is protected by U.S. and international copyright
	* and intellectual property laws. Pivotal products are covered by
	* one or more patents listed at http://www.pivotal.io/patents.
	*=========================================================================
	*/
	package com.gemstone.gemfire.internal.cache;
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	import java.util.concurrent.atomic.AtomicLongFieldUpdater;
	import com.gemstone.gemfire.cache.EntryEvent;
	import com.gemstone.gemfire.distributed.internal.membership.InternalDistributedMember;
	import com.gemstone.gemfire.internal.cache.versions.VersionSource;
	import com.gemstone.gemfire.internal.cache.versions.VersionStamp;
	import com.gemstone.gemfire.internal.cache.versions.VersionTag;
	import com.gemstone.gemfire.internal.offheap.OffHeapRegionEntryHelper;
	import com.gemstone.gemfire.internal.offheap.annotations.Released;
	import com.gemstone.gemfire.internal.offheap.annotations.Retained;
	import com.gemstone.gemfire.internal.offheap.annotations.Unretained;
	import com.gemstone.gemfire.internal.util.concurrent.CustomEntryConcurrentHashMap.HashEntry;
	// macros whose definition changes this class:
	// disk: DISK
	// lru: LRU
	// stats: STATS
	// versioned: VERSIONED
	// offheap: OFFHEAP
	// One of the following key macros must be defined:
	// key object: KEY_OBJECT
	// key int: KEY_INT
	// key long: KEY_LONG
	// key uuid: KEY_UUID
	// key string1: KEY_STRING1
	// key string2: KEY_STRING2
	/**
	* Do not modify this class. It was generated.
	* Instead modify LeafRegionEntry.cpp and then run
	* bin/generateRegionEntryClasses.sh from the directory
	* that contains your build.xml.
	*/
	public class VersionedThinRegionEntryOffHeapStringKey2 extends VersionedThinRegionEntryOffHeap {
	public VersionedThinRegionEntryOffHeapStringKey2 (RegionEntryContext context, String key,
	@Retained
	Object value
	, boolean byteEncode
	) {
	super(context,
	value
	);
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	// caller has already confirmed that key.length <= MAX_INLINE_STRING_KEY
	long tmpBits1 = 0L;
	long tmpBits2 = 0L;
	if (byteEncode) {
	for (int i=key.length()-1; i >= 0; i--) {
	// Note: we know each byte is <= 0x7f so the "& 0xff" is not needed. But I added it in to keep findbugs happy.
	if (i < 7) {
	tmpBits1 \|= (byte)key.charAt(i) & 0xff;
	tmpBits1 <<= 8;
	} else {
	tmpBits2 <<= 8;
	tmpBits2 \|= (byte)key.charAt(i) & 0xff;
	}
	}
	tmpBits1 \|= 1<<6;
	} else {
	for (int i=key.length()-1; i >= 0; i--) {
	if (i < 3) {
	tmpBits1 \|= key.charAt(i);
	tmpBits1 <<= 16;
	} else {
	tmpBits2 <<= 16;
	tmpBits2 \|= key.charAt(i);
	}
	}
	}
	tmpBits1 \|= key.length();
	this.bits1 = tmpBits1;
	this.bits2 = tmpBits2;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	// common code
	protected int hash;
	private HashEntry<Object, Object> next;
	@SuppressWarnings("unused")
	private volatile long lastModified;
	private static final AtomicLongFieldUpdater<VersionedThinRegionEntryOffHeapStringKey2> lastModifiedUpdater
	= AtomicLongFieldUpdater.newUpdater(VersionedThinRegionEntryOffHeapStringKey2.class, "lastModified");
	/**
	* All access done using ohAddrUpdater so it is used even though the compiler can not tell it is.
	*/
	@SuppressWarnings("unused")
	@Retained @Released private volatile long ohAddress;
	/**
	* I needed to add this because I wanted clear to call setValue which normally can only be called while the re is synced.
	* But if I sync in that code it causes a lock ordering deadlock with the disk regions because they also get a rw lock in clear.
	* Some hardware platforms do not support CAS on a long. If gemfire is run on one of those the AtomicLongFieldUpdater does a sync
	* on the re and we will once again be deadlocked.
	* I don't know if we support any of the hardware platforms that do not have a 64bit CAS. If we do then we can expect deadlocks
	* on disk regions.
	*/
	private final static AtomicLongFieldUpdater<VersionedThinRegionEntryOffHeapStringKey2> ohAddrUpdater = AtomicLongFieldUpdater.newUpdater(VersionedThinRegionEntryOffHeapStringKey2.class, "ohAddress");
	@Override
	public Token getValueAsToken() {
	return OffHeapRegionEntryHelper.getValueAsToken(this);
	}
	@Override
	protected Object getValueField() {
	return OffHeapRegionEntryHelper._getValue(this);
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	@Override
	@Unretained
	protected void setValueField(@Unretained Object v) {
	OffHeapRegionEntryHelper.setValue(this, v);
	}
	@Override
	@Retained
	public Object _getValueRetain(RegionEntryContext context, boolean decompress) {
	return OffHeapRegionEntryHelper._getValueRetain(this, decompress, context);
	}
	@Override
	public long getAddress() {
	return ohAddrUpdater.get(this);
	}
	@Override
	public boolean setAddress(long expectedAddr, long newAddr) {
	return ohAddrUpdater.compareAndSet(this, expectedAddr, newAddr);
	}
	@Override
	@Released
	public void release() {
	OffHeapRegionEntryHelper.releaseEntry(this);
	}
	@Override
	public void returnToPool() {
	// Deadcoded for now; never was working
	// if (this instanceof VMThinRegionEntryLongKey) {
	// factory.returnToPool((VMThinRegionEntryLongKey)this);
	// }
	}
	protected long getlastModifiedField() {
	return lastModifiedUpdater.get(this);
	}
	protected boolean compareAndSetLastModifiedField(long expectedValue, long newValue) {
	return lastModifiedUpdater.compareAndSet(this, expectedValue, newValue);
	}
	/**
	* @see HashEntry#getEntryHash()
	*/
	public final int getEntryHash() {
	return this.hash;
	}
	protected void setEntryHash(int v) {
	this.hash = v;
	}
	/**
	* @see HashEntry#getNextEntry()
	*/
	public final HashEntry<Object, Object> getNextEntry() {
	return this.next;
	}
	/**
	* @see HashEntry#setNextEntry
	*/
	public final void setNextEntry(final HashEntry<Object, Object> n) {
	this.next = n;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	// versioned code
	private VersionSource memberID;
	private short entryVersionLowBytes;
	private short regionVersionHighBytes;
	private int regionVersionLowBytes;
	private byte entryVersionHighByte;
	private byte distributedSystemId;
	public int getEntryVersion() {
	return ((entryVersionHighByte << 16) & 0xFF0000) \| (entryVersionLowBytes & 0xFFFF);
	}
	public long getRegionVersion() {
	return (((long)regionVersionHighBytes) << 32) \| (regionVersionLowBytes & 0x00000000FFFFFFFFL);
	}
	public long getVersionTimeStamp() {
	return getLastModified();
	}
	public void setVersionTimeStamp(long time) {
	setLastModified(time);
	}
	public VersionSource getMemberID() {
	return this.memberID;
	}
	public int getDistributedSystemId() {
	return this.distributedSystemId;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	public void setVersions(VersionTag tag) {
	this.memberID = tag.getMemberID();
	int eVersion = tag.getEntryVersion();
	this.entryVersionLowBytes = (short)(eVersion & 0xffff);
	this.entryVersionHighByte = (byte)((eVersion & 0xff0000) >> 16);
	this.regionVersionHighBytes = tag.getRegionVersionHighBytes();
	this.regionVersionLowBytes = tag.getRegionVersionLowBytes();
	if (!(tag.isGatewayTag()) && this.distributedSystemId == tag.getDistributedSystemId()) {
	if (getVersionTimeStamp() <= tag.getVersionTimeStamp()) {
	setVersionTimeStamp(tag.getVersionTimeStamp());
	} else {
	tag.setVersionTimeStamp(getVersionTimeStamp());
	}
	} else {
	setVersionTimeStamp(tag.getVersionTimeStamp());
	}
	this.distributedSystemId = (byte)(tag.getDistributedSystemId() & 0xff);
	}
	public void setMemberID(VersionSource memberID) {
	this.memberID = memberID;
	}
	@Override
	public VersionStamp getVersionStamp() {
	return this;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	public VersionTag asVersionTag() {
	VersionTag tag = VersionTag.create(memberID);
	tag.setEntryVersion(getEntryVersion());
	tag.setRegionVersion(this.regionVersionHighBytes, this.regionVersionLowBytes);
	tag.setVersionTimeStamp(getVersionTimeStamp());
	tag.setDistributedSystemId(this.distributedSystemId);
	return tag;
	}
	public void processVersionTag(LocalRegion r, VersionTag tag,
	boolean isTombstoneFromGII, boolean hasDelta,
	VersionSource thisVM, InternalDistributedMember sender, boolean checkForConflicts) {
	basicProcessVersionTag(r, tag, isTombstoneFromGII, hasDelta, thisVM, sender, checkForConflicts);
	}
	@Override
	public void processVersionTag(EntryEvent cacheEvent) {
	// this keeps Eclipse happy. without it the sender chain becomes confused
	// while browsing this code
	super.processVersionTag(cacheEvent);
	}
	/** get rvv internal high byte. Used by region entries for transferring to storage */
	public short getRegionVersionHighBytes() {
	return this.regionVersionHighBytes;
	}
	/** get rvv internal low bytes. Used by region entries for transferring to storage */
	public int getRegionVersionLowBytes() {
	return this.regionVersionLowBytes;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	// key code
	// strlen is encoded in lowest 6 bits (max strlen is 63)
	// character encoding info is in bits 7 and 8
	// The other bits are used to encoded character data.
	private final long bits1;
	// bits2 encodes character data
	private final long bits2;
	private int getKeyLength() {
	return (int) (this.bits1 & 0x003fL);
	}
	private int getEncoding() {
	// 0 means encoded as char
	// 1 means encoded as bytes that are all <= 0x7f;
	return (int) (this.bits1 >> 6) & 0x03;
	}
	@Override
	public final Object getKey() {
	int keylen = getKeyLength();
	char[] chars = new char[keylen];
	long tmpBits1 = this.bits1;
	long tmpBits2 = this.bits2;
	if (getEncoding() == 1) {
	for (int i=0; i < keylen; i++) {
	if (i < 7) {
	tmpBits1 >>= 8;
	chars[i] = (char) (tmpBits1 & 0x00ff);
	} else {
	chars[i] = (char) (tmpBits2 & 0x00ff);
	tmpBits2 >>= 8;
	}
	}
	} else {
	for (int i=0; i < keylen; i++) {
	if (i < 3) {
	tmpBits1 >>= 16;
	chars[i] = (char) (tmpBits1 & 0x00FFff);
	} else {
	chars[i] = (char) (tmpBits2 & 0x00FFff);
	tmpBits2 >>= 16;
	}
	}
	}
	return new String(chars);
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	@Override
	public boolean isKeyEqual(Object k) {
	if (k instanceof String) {
	String str = (String)k;
	int keylen = getKeyLength();
	if (str.length() == keylen) {
	long tmpBits1 = this.bits1;
	long tmpBits2 = this.bits2;
	if (getEncoding() == 1) {
	for (int i=0; i < keylen; i++) {
	char c;
	if (i < 7) {
	tmpBits1 >>= 8;
	c = (char) (tmpBits1 & 0x00ff);
	} else {
	c = (char) (tmpBits2 & 0x00ff);
	tmpBits2 >>= 8;
	}
	if (str.charAt(i) != c) {
	return false;
	}
	}
	} else {
	for (int i=0; i < keylen; i++) {
	char c;
	if (i < 3) {
	tmpBits1 >>= 16;
	c = (char) (tmpBits1 & 0x00FFff);
	} else {
	c = (char) (tmpBits2 & 0x00FFff);
	tmpBits2 >>= 16;
	}
	if (str.charAt(i) != c) {
	return false;
	}
	}
	}
	return true;
	}
	}
	return false;
	}
	// DO NOT modify this class. It was generated from LeafRegionEntry.cpp
	}