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/*
 * 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
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 */

package org.apache.hadoop.hbase.util;

import org.apache.yetus.audience.InterfaceAudience;

/**
 * Lightweight, reusable class for specifying ranges of byte[]'s.
 * 

* {@code ByteRange} maintains an underlying byte[] and a viewport into that * byte[] as a range of bytes. The {@code ByteRange} is a mutable, reusable * object, so the underlying byte[] can be modified after instantiation. This * is done using the {@link #set(byte[])} and {@link #unset()} methods. Direct * access to the byte[] is also available via {@link #getBytes()}. The viewport * is defined by an {@code offset} into the byte[] and a {@code length}. The * range of bytes is 0-indexed, and is accessed by index via the * {@link #get(int)} and {@link #put(int, byte)} methods. *

*

* This interface differs from ByteBuffer: *

*
    *
  • On-heap bytes only
  • *
  • Raw {@code byte} access only; does not encode other primitives.
  • *
  • Implements {@code equals(Object)}, {@code #hashCode()}, and * {@code #compareTo(ByteRange)} so that it can be used in standard java * Collections. Comparison operations are lexicographic, which is native to * HBase.
  • *
  • Allows the addition of simple core methods like the deep and shallow * copy methods.
  • *
  • Can be reused in tight loops like a major compaction which can save * significant amounts of garbage. (Without reuse, we throw off garbage like * this thing.)
  • *
*

* Mutable, and always evaluates {@code #equals(Object)}, {@code #hashCode()}, * and {@code #compareTo(ByteRange)} based on the current contents. *

*

* Can contain convenience methods for comparing, printing, cloning, spawning * new arrays, copying to other arrays, etc. Please place non-core methods into * {@link ByteRangeUtils}. *

*/ @InterfaceAudience.Public public interface ByteRange extends Comparable { /** * The underlying byte[]. */ public byte[] getBytes(); /** * Nullifies this ByteRange. That is, it becomes a husk, being a range over * no byte[] whatsoever. * @return this */ public ByteRange unset(); /** * Reuse this {@code ByteRange} over a new byte[]. {@code offset} is set to * 0 and {@code length} is set to {@code capacity}. * @param capacity the size of a new byte[]. * @return this */ public ByteRange set(int capacity); /** * Reuse this {@code ByteRange} over a new byte[]. {@code offset} is set to * 0 and {@code length} is set to {@code bytes.length}. A null {@code bytes} * IS supported, in which case this method will behave equivalently to * {@link #unset()}. * @param bytes the array to wrap. * @return this */ public ByteRange set(byte[] bytes); /** * Reuse this {@code ByteRange} over a new byte[]. A null {@code bytes} IS * supported, in which case this method will behave equivalently to * {@link #unset()}, regardless of the values of {@code offset} and * {@code length}. * @param bytes The array to wrap. * @param offset The offset into {@code bytes} considered the beginning of * this range. * @param length The length of this range. * @return this. */ public ByteRange set(byte[] bytes, int offset, int length); /** * The offset, the index into the underlying byte[] at which this range * begins. * @see #getBytes() */ public int getOffset(); /** * Update the beginning of this range. {@code offset + length} may not be * greater than {@code bytes.length}. * @param offset the new start of this range. * @return this. */ public ByteRange setOffset(int offset); /** * The length of the range. */ public int getLength(); /** * Update the length of this range. {@code offset + length} should not be * greater than {@code bytes.length}. * @param length The new length of this range. * @return this. */ public ByteRange setLength(int length); /** * @return true when this range is of zero length, false otherwise. */ public boolean isEmpty(); /** * Retrieve the byte at {@code index}. * @param index zero-based index into this range. * @return single byte at index. */ public byte get(int index); /** * Retrieve the short value at {@code index} * @param index zero-based index into this range * @return the short value at {@code index} */ public short getShort(int index); /** * Retrieve the int value at {@code index} * @param index zero-based index into this range * @return the int value at {@code index} */ public int getInt(int index); /** * Retrieve the long value at {@code index} * @param index zero-based index into this range * @return the long value at {@code index} */ public long getLong(int index); /** * Retrieve the long value at {@code index} which is stored as VLong * @param index zero-based index into this range * @return the long value at {@code index} which is stored as VLong */ public long getVLong(int index); /** * Fill {@code dst} with bytes from the range, starting from {@code index}. * @param index zero-based index into this range. * @param dst the destination of the copy. * @return this. */ public ByteRange get(int index, byte[] dst); /** * Fill {@code dst} with bytes from the range, starting from {@code index}. * {@code length} bytes are copied into {@code dst}, starting at {@code offset}. * @param index zero-based index into this range. * @param dst the destination of the copy. * @param offset the offset into {@code dst} to start the copy. * @param length the number of bytes to copy into {@code dst}. * @return this. */ public ByteRange get(int index, byte[] dst, int offset, int length); /** * Store {@code val} at {@code index}. * @param index the index in the range where {@code val} is stored. * @param val the value to store. * @return this. */ public ByteRange put(int index, byte val); /** * Store the short value at {@code index} * @param index the index in the range where {@code val} is stored * @param val the value to store * @return this */ public ByteRange putShort(int index, short val); /** * Store the int value at {@code index} * @param index the index in the range where {@code val} is stored * @param val the value to store * @return this */ public ByteRange putInt(int index, int val); /** * Store the long value at {@code index} * @param index the index in the range where {@code val} is stored * @param val the value to store * @return this */ public ByteRange putLong(int index, long val); /** * Store the long value at {@code index} as a VLong * @param index the index in the range where {@code val} is stored * @param val the value to store * @return number of bytes written */ public int putVLong(int index, long val); /** * Store {@code val} at {@code index}. * @param index the index in the range where {@code val} is stored. * @param val the value to store. * @return this. */ public ByteRange put(int index, byte[] val); /** * Store {@code length} bytes from {@code val} into this range, starting at * {@code index}. Bytes from {@code val} are copied starting at {@code offset} * into the range. * @param index position in this range to start the copy. * @param val the value to store. * @param offset the offset in {@code val} from which to start copying. * @param length the number of bytes to copy from {@code val}. * @return this. */ public ByteRange put(int index, byte[] val, int offset, int length); /** * Instantiate a new byte[] with exact length, which is at least 24 bytes + * length. Copy the contents of this range into it. * @return The newly cloned byte[]. */ public byte[] deepCopyToNewArray(); /** * Create a new {@code ByteRange} with new backing byte[] containing a copy * of the content from {@code this} range's window. * @return Deep copy */ public ByteRange deepCopy(); /** * Wrapper for System.arraycopy. Copy the contents of this range into the * provided array. * @param destination Copy to this array * @param destinationOffset First index in the destination array. */ public void deepCopyTo(byte[] destination, int destinationOffset); /** * Wrapper for System.arraycopy. Copy the contents of this range into the * provided array. * @param innerOffset Start copying from this index in this source * ByteRange. First byte copied is bytes[offset + innerOffset] * @param copyLength Copy this many bytes * @param destination Copy to this array * @param destinationOffset First index in the destination array. */ public void deepCopySubRangeTo(int innerOffset, int copyLength, byte[] destination, int destinationOffset); /** * Create a new {@code ByteRange} that points at this range's byte[]. * Modifying the shallowCopy will modify the bytes in this range's array. * Pass over the hash code if it is already cached. * @return new {@code ByteRange} object referencing this range's byte[]. */ public ByteRange shallowCopy(); /** * Create a new {@code ByteRange} that points at this range's byte[]. The new * range can have different values for offset and length, but modifying the * shallowCopy will modify the bytes in this range's array. Pass over the * hash code if it is already cached. * @param innerOffset First byte of clone will be this.offset + copyOffset. * @param copyLength Number of bytes in the clone. * @return new {@code ByteRange} object referencing this range's byte[]. */ public ByteRange shallowCopySubRange(int innerOffset, int copyLength); }




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