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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
 * limitations under the License.
 */
package org.apache.hadoop.hbase.util;

import java.io.ByteArrayOutputStream;
import java.io.DataInput;
import java.io.DataInputStream;
import java.io.DataOutput;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.nio.ByteBuffer;
import java.util.Arrays;
import org.apache.hadoop.hbase.io.ByteBufferWriter;
import org.apache.hadoop.hbase.io.util.StreamUtils;
import org.apache.hadoop.hbase.nio.ByteBuff;
import org.apache.hadoop.hbase.unsafe.HBasePlatformDependent;
import org.apache.hadoop.io.IOUtils;
import org.apache.hadoop.io.WritableUtils;
import org.apache.yetus.audience.InterfaceAudience;

/**
 * Utility functions for working with byte buffers, such as reading/writing variable-length long
 * numbers.
 * @deprecated This class will become IA.Private in HBase 3.0. Downstream folks shouldn't use it.
 */
@Deprecated
@InterfaceAudience.Public
public final class ByteBufferUtils {
  // "Compressed integer" serialization helper constants.
  public final static int VALUE_MASK = 0x7f;
  public final static int NEXT_BIT_SHIFT = 7;
  public final static int NEXT_BIT_MASK = 1 << 7;
  @InterfaceAudience.Private
  final static boolean UNSAFE_AVAIL = HBasePlatformDependent.isUnsafeAvailable();
  public final static boolean UNSAFE_UNALIGNED = HBasePlatformDependent.unaligned();

  private ByteBufferUtils() {
  }

  static abstract class Comparer {
    abstract int compareTo(byte[] buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2);

    abstract int compareTo(ByteBuffer buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2);
  }

  static abstract class Converter {
    abstract short toShort(ByteBuffer buffer, int offset);

    abstract int toInt(ByteBuffer buffer);

    abstract int toInt(ByteBuffer buffer, int offset);

    abstract long toLong(ByteBuffer buffer, int offset);

    abstract void putInt(ByteBuffer buffer, int val);

    abstract int putInt(ByteBuffer buffer, int index, int val);

    abstract void putShort(ByteBuffer buffer, short val);

    abstract int putShort(ByteBuffer buffer, int index, short val);

    abstract void putLong(ByteBuffer buffer, long val);

    abstract int putLong(ByteBuffer buffer, int index, long val);
  }

  static class ComparerHolder {
    static final String UNSAFE_COMPARER_NAME = ComparerHolder.class.getName() + "$UnsafeComparer";

    static final Comparer BEST_COMPARER = getBestComparer();

    static Comparer getBestComparer() {
      try {
        Class theClass =
          Class.forName(UNSAFE_COMPARER_NAME).asSubclass(Comparer.class);

        return theClass.getConstructor().newInstance();
      } catch (Throwable t) { // ensure we really catch *everything*
        return PureJavaComparer.INSTANCE;
      }
    }

    static final class PureJavaComparer extends Comparer {
      static final PureJavaComparer INSTANCE = new PureJavaComparer();

      private PureJavaComparer() {
      }

      @Override
      public int compareTo(byte[] buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) {
        int end1 = o1 + l1;
        int end2 = o2 + l2;
        for (int i = o1, j = o2; i < end1 && j < end2; i++, j++) {
          int a = buf1[i] & 0xFF;
          int b = buf2.get(j) & 0xFF;
          if (a != b) {
            return a - b;
          }
        }
        return l1 - l2;
      }

      @Override
      public int compareTo(ByteBuffer buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) {
        int end1 = o1 + l1;
        int end2 = o2 + l2;
        for (int i = o1, j = o2; i < end1 && j < end2; i++, j++) {
          int a = buf1.get(i) & 0xFF;
          int b = buf2.get(j) & 0xFF;
          if (a != b) {
            return a - b;
          }
        }
        return l1 - l2;
      }
    }

    static final class UnsafeComparer extends Comparer {

      public UnsafeComparer() {
      }

      static {
        if (!UNSAFE_UNALIGNED) {
          throw new Error();
        }
      }

      @Override
      public int compareTo(byte[] buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) {
        long offset2Adj;
        Object refObj2 = null;
        if (buf2.isDirect()) {
          offset2Adj = o2 + UnsafeAccess.directBufferAddress(buf2);
        } else {
          offset2Adj = o2 + buf2.arrayOffset() + UnsafeAccess.BYTE_ARRAY_BASE_OFFSET;
          refObj2 = buf2.array();
        }
        return compareToUnsafe(buf1, o1 + UnsafeAccess.BYTE_ARRAY_BASE_OFFSET, l1, refObj2,
          offset2Adj, l2);
      }

      @Override
      public int compareTo(ByteBuffer buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) {
        long offset1Adj, offset2Adj;
        Object refObj1 = null, refObj2 = null;
        if (buf1.isDirect()) {
          offset1Adj = o1 + UnsafeAccess.directBufferAddress(buf1);
        } else {
          offset1Adj = o1 + buf1.arrayOffset() + UnsafeAccess.BYTE_ARRAY_BASE_OFFSET;
          refObj1 = buf1.array();
        }
        if (buf2.isDirect()) {
          offset2Adj = o2 + UnsafeAccess.directBufferAddress(buf2);
        } else {
          offset2Adj = o2 + buf2.arrayOffset() + UnsafeAccess.BYTE_ARRAY_BASE_OFFSET;
          refObj2 = buf2.array();
        }
        return compareToUnsafe(refObj1, offset1Adj, l1, refObj2, offset2Adj, l2);
      }
    }
  }

  static class ConverterHolder {
    static final String UNSAFE_CONVERTER_NAME =
      ConverterHolder.class.getName() + "$UnsafeConverter";
    static final Converter BEST_CONVERTER = getBestConverter();

    static Converter getBestConverter() {
      try {
        Class theClass =
          Class.forName(UNSAFE_CONVERTER_NAME).asSubclass(Converter.class);

        // yes, UnsafeComparer does implement Comparer
        return theClass.getConstructor().newInstance();
      } catch (Throwable t) { // ensure we really catch *everything*
        return PureJavaConverter.INSTANCE;
      }
    }

    static final class PureJavaConverter extends Converter {
      static final PureJavaConverter INSTANCE = new PureJavaConverter();

      private PureJavaConverter() {
      }

      @Override
      short toShort(ByteBuffer buffer, int offset) {
        return buffer.getShort(offset);
      }

      @Override
      int toInt(ByteBuffer buffer) {
        return buffer.getInt();
      }

      @Override
      int toInt(ByteBuffer buffer, int offset) {
        return buffer.getInt(offset);
      }

      @Override
      long toLong(ByteBuffer buffer, int offset) {
        return buffer.getLong(offset);
      }

      @Override
      void putInt(ByteBuffer buffer, int val) {
        buffer.putInt(val);
      }

      @Override
      int putInt(ByteBuffer buffer, int index, int val) {
        buffer.putInt(index, val);
        return index + Bytes.SIZEOF_INT;
      }

      @Override
      void putShort(ByteBuffer buffer, short val) {
        buffer.putShort(val);
      }

      @Override
      int putShort(ByteBuffer buffer, int index, short val) {
        buffer.putShort(index, val);
        return index + Bytes.SIZEOF_SHORT;
      }

      @Override
      void putLong(ByteBuffer buffer, long val) {
        buffer.putLong(val);
      }

      @Override
      int putLong(ByteBuffer buffer, int index, long val) {
        buffer.putLong(index, val);
        return index + Bytes.SIZEOF_LONG;
      }
    }

    static final class UnsafeConverter extends Converter {

      public UnsafeConverter() {
      }

      static {
        if (!UNSAFE_UNALIGNED) {
          throw new Error();
        }
      }

      @Override
      short toShort(ByteBuffer buffer, int offset) {
        return UnsafeAccess.toShort(buffer, offset);
      }

      @Override
      int toInt(ByteBuffer buffer) {
        int i = UnsafeAccess.toInt(buffer, buffer.position());
        buffer.position(buffer.position() + Bytes.SIZEOF_INT);
        return i;
      }

      @Override
      int toInt(ByteBuffer buffer, int offset) {
        return UnsafeAccess.toInt(buffer, offset);
      }

      @Override
      long toLong(ByteBuffer buffer, int offset) {
        return UnsafeAccess.toLong(buffer, offset);
      }

      @Override
      void putInt(ByteBuffer buffer, int val) {
        int newPos = UnsafeAccess.putInt(buffer, buffer.position(), val);
        buffer.position(newPos);
      }

      @Override
      int putInt(ByteBuffer buffer, int index, int val) {
        return UnsafeAccess.putInt(buffer, index, val);
      }

      @Override
      void putShort(ByteBuffer buffer, short val) {
        int newPos = UnsafeAccess.putShort(buffer, buffer.position(), val);
        buffer.position(newPos);
      }

      @Override
      int putShort(ByteBuffer buffer, int index, short val) {
        return UnsafeAccess.putShort(buffer, index, val);
      }

      @Override
      void putLong(ByteBuffer buffer, long val) {
        int newPos = UnsafeAccess.putLong(buffer, buffer.position(), val);
        buffer.position(newPos);
      }

      @Override
      int putLong(ByteBuffer buffer, int index, long val) {
        return UnsafeAccess.putLong(buffer, index, val);
      }
    }
  }

  /**
   * Similar to {@link WritableUtils#writeVLong(java.io.DataOutput, long)}, but writes to a
   * {@link ByteBuffer}.
   */
  public static void writeVLong(ByteBuffer out, long i) {
    if (i >= -112 && i <= 127) {
      out.put((byte) i);
      return;
    }

    int len = -112;
    if (i < 0) {
      i ^= -1L; // take one's complement
      len = -120;
    }

    long tmp = i;
    while (tmp != 0) {
      tmp = tmp >> 8;
      len--;
    }

    out.put((byte) len);

    len = (len < -120) ? -(len + 120) : -(len + 112);

    for (int idx = len; idx != 0; idx--) {
      int shiftbits = (idx - 1) * 8;
      long mask = 0xFFL << shiftbits;
      out.put((byte) ((i & mask) >> shiftbits));
    }
  }

  private interface ByteVisitor {
    byte get();
  }

  private static long readVLong(ByteVisitor visitor) {
    byte firstByte = visitor.get();
    int len = WritableUtils.decodeVIntSize(firstByte);
    if (len == 1) {
      return firstByte;
    }
    long i = 0;
    for (int idx = 0; idx < len - 1; idx++) {
      byte b = visitor.get();
      i = i << 8;
      i = i | (b & 0xFF);
    }
    return (WritableUtils.isNegativeVInt(firstByte) ? (i ^ -1L) : i);
  }

  /**
   * Similar to {@link WritableUtils#readVLong(DataInput)} but reads from a {@link ByteBuffer}.
   */
  public static long readVLong(ByteBuffer in) {
    return readVLong(in::get);
  }

  /**
   * Similar to {@link WritableUtils#readVLong(java.io.DataInput)} but reads from a
   * {@link ByteBuff}.
   */
  public static long readVLong(ByteBuff in) {
    return readVLong(in::get);
  }

  /**
   * Put in buffer integer using 7 bit encoding. For each written byte: 7 bits are used to store
   * value 1 bit is used to indicate whether there is next bit.
   * @param value Int to be compressed.
   * @param out   Where to put compressed data
   * @return Number of bytes written.
   * @throws IOException on stream error
   */
  public static int putCompressedInt(OutputStream out, final int value) throws IOException {
    int i = 0;
    int tmpvalue = value;
    do {
      byte b = (byte) (tmpvalue & VALUE_MASK);
      tmpvalue >>>= NEXT_BIT_SHIFT;
      if (tmpvalue != 0) {
        b |= (byte) NEXT_BIT_MASK;
      }
      out.write(b);
      i++;
    } while (tmpvalue != 0);
    return i;
  }

  /**
   * Put in output stream 32 bit integer (Big Endian byte order).
   * @param out   Where to put integer.
   * @param value Value of integer.
   * @throws IOException On stream error.
   */
  public static void putInt(OutputStream out, final int value) throws IOException {
    // We have writeInt in ByteBufferOutputStream so that it can directly write
    // int to underlying
    // ByteBuffer in one step.
    if (out instanceof ByteBufferWriter) {
      ((ByteBufferWriter) out).writeInt(value);
    } else {
      StreamUtils.writeInt(out, value);
    }
  }

  public static byte toByte(ByteBuffer buffer, int offset) {
    if (UNSAFE_AVAIL) {
      return UnsafeAccess.toByte(buffer, offset);
    } else {
      return buffer.get(offset);
    }
  }

  /**
   * Copy the data to the output stream and update position in buffer.
   * @param out    the stream to write bytes to
   * @param in     the buffer to read bytes from
   * @param length the number of bytes to copy
   */
  public static void moveBufferToStream(OutputStream out, ByteBuffer in, int length)
    throws IOException {
    copyBufferToStream(out, in, in.position(), length);
    skip(in, length);
  }

  /**
   * Copy data from a buffer to an output stream. Does not update the position in the buffer.
   * @param out    the stream to write bytes to
   * @param in     the buffer to read bytes from
   * @param offset the offset in the buffer (from the buffer's array offset) to start copying bytes
   *               from
   * @param length the number of bytes to copy
   */
  public static void copyBufferToStream(OutputStream out, ByteBuffer in, int offset, int length)
    throws IOException {
    if (out instanceof ByteBufferWriter) {
      ((ByteBufferWriter) out).write(in, offset, length);
    } else if (in.hasArray()) {
      out.write(in.array(), in.arrayOffset() + offset, length);
    } else {
      for (int i = 0; i < length; ++i) {
        out.write(toByte(in, offset + i));
      }
    }
  }

  /**
   * Copy data from a buffer to an output stream. Does not update the position in the buffer.
   * @param out    the output stream to write bytes to
   * @param in     the buffer to read bytes from
   * @param offset the offset in the buffer (from the buffer's array offset) to start copying bytes
   *               from
   * @param length the number of bytes to copy
   */
  public static void copyBufferToStream(DataOutput out, ByteBuffer in, int offset, int length)
    throws IOException {
    if (out instanceof ByteBufferWriter) {
      ((ByteBufferWriter) out).write(in, offset, length);
    } else if (in.hasArray()) {
      out.write(in.array(), in.arrayOffset() + offset, length);
    } else {
      for (int i = 0; i < length; ++i) {
        out.write(toByte(in, offset + i));
      }
    }
  }

  public static int putLong(OutputStream out, final long value, final int fitInBytes)
    throws IOException {
    long tmpValue = value;
    for (int i = 0; i < fitInBytes; ++i) {
      out.write((byte) (tmpValue & 0xff));
      tmpValue >>>= 8;
    }
    return fitInBytes;
  }

  public static int putByte(ByteBuffer buffer, int offset, byte b) {
    if (UNSAFE_AVAIL) {
      return UnsafeAccess.putByte(buffer, offset, b);
    } else {
      buffer.put(offset, b);
      return offset + 1;
    }
  }

  /**
   * Check how many bytes are required to store value.
   * @param value Value which size will be tested.
   * @return How many bytes are required to store value.
   */
  public static int longFitsIn(final long value) {
    if (value < 0) {
      return 8;
    }

    if (value < (1L << (4 * 8))) {
      // no more than 4 bytes
      if (value < (1L << (2 * 8))) {
        if (value < (1L << (1 * 8))) {
          return 1;
        }
        return 2;
      }
      if (value < (1L << (3 * 8))) {
        return 3;
      }
      return 4;
    }
    // more than 4 bytes
    if (value < (1L << (6 * 8))) {
      if (value < (1L << (5 * 8))) {
        return 5;
      }
      return 6;
    }
    if (value < (1L << (7 * 8))) {
      return 7;
    }
    return 8;
  }

  /**
   * Check how many bytes is required to store value.
   * @param value Value which size will be tested.
   * @return How many bytes are required to store value.
   */
  public static int intFitsIn(final int value) {
    if (value < 0) {
      return 4;
    }

    if (value < (1 << (2 * 8))) {
      if (value < (1 << (1 * 8))) {
        return 1;
      }
      return 2;
    }
    if (value <= (1 << (3 * 8))) {
      return 3;
    }
    return 4;
  }

  /**
   * Read integer from stream coded in 7 bits and increment position.
   * @return the integer that has been read n
   */
  public static int readCompressedInt(InputStream input) throws IOException {
    int result = 0;
    int i = 0;
    byte b;
    do {
      b = (byte) input.read();
      result += (b & VALUE_MASK) << (NEXT_BIT_SHIFT * i);
      i++;
      if (i > Bytes.SIZEOF_INT + 1) {
        throw new IllegalStateException(
          "Corrupted compressed int (too long: " + (i + 1) + " bytes)");
      }
    } while (0 != (b & NEXT_BIT_MASK));
    return result;
  }

  /**
   * Read integer from buffer coded in 7 bits and increment position.
   * @return Read integer.
   */
  public static int readCompressedInt(ByteBuffer buffer) {
    byte b = buffer.get();
    if ((b & NEXT_BIT_MASK) != 0) {
      return (b & VALUE_MASK) + (readCompressedInt(buffer) << NEXT_BIT_SHIFT);
    }
    return b & VALUE_MASK;
  }

  /**
   * Read long which was written to fitInBytes bytes and increment position.
   * @param fitInBytes In how many bytes given long is stored.
   * @return The value of parsed long. n
   */
  public static long readLong(InputStream in, final int fitInBytes) throws IOException {
    long tmpLong = 0;
    for (int i = 0; i < fitInBytes; ++i) {
      tmpLong |= (in.read() & 0xffL) << (8 * i);
    }
    return tmpLong;
  }

  /**
   * Read long which was written to fitInBytes bytes and increment position.
   * @param fitInBytes In how many bytes given long is stored.
   * @return The value of parsed long.
   */
  public static long readLong(ByteBuffer in, final int fitInBytes) {
    long tmpLength = 0;
    for (int i = 0; i < fitInBytes; ++i) {
      tmpLength |= (in.get() & 0xffL) << (8L * i);
    }
    return tmpLength;
  }

  /**
   * Copy the given number of bytes from the given stream and put it at the current position of the
   * given buffer, updating the position in the buffer.
   * @param out    the buffer to write data to
   * @param in     the stream to read data from
   * @param length the number of bytes to read/write
   */
  public static void copyFromStreamToBuffer(ByteBuffer out, DataInputStream in, int length)
    throws IOException {
    if (out.hasArray()) {
      in.readFully(out.array(), out.position() + out.arrayOffset(), length);
      skip(out, length);
    } else {
      for (int i = 0; i < length; ++i) {
        out.put(in.readByte());
      }
    }
  }

  /**
   * Copy from the InputStream to a new heap ByteBuffer until the InputStream is exhausted.
   */
  public static ByteBuffer drainInputStreamToBuffer(InputStream is) throws IOException {
    ByteArrayOutputStream baos = new ByteArrayOutputStream(4096);
    IOUtils.copyBytes(is, baos, 4096, true);
    ByteBuffer buffer = ByteBuffer.wrap(baos.toByteArray());
    buffer.rewind();
    return buffer;
  }

  /**
   * Copy one buffer's whole data to another. Write starts at the current position of 'out' buffer.
   * Note : This will advance the position marker of {@code out} and also change the position maker
   * for {@code in}.
   * @param in  source buffer
   * @param out destination buffer
   */
  public static void copyFromBufferToBuffer(ByteBuffer in, ByteBuffer out) {
    if (in.hasArray() && out.hasArray()) {
      int length = in.remaining();
      System.arraycopy(in.array(), in.arrayOffset(), out.array(), out.arrayOffset(), length);
      out.position(out.position() + length);
      in.position(in.limit());
    } else if (UNSAFE_AVAIL) {
      int length = in.remaining();
      UnsafeAccess.copy(in, in.position(), out, out.position(), length);
      out.position(out.position() + length);
      in.position(in.limit());
    } else {
      out.put(in);
    }
  }

  /**
   * Copy from one buffer to another from given offset. This will be absolute positional copying and
   * won't affect the position of any of the buffers. nnnnn
   */
  public static void copyFromBufferToBuffer(ByteBuffer in, ByteBuffer out, int sourceOffset,
    int destinationOffset, int length) {
    if (in.hasArray() && out.hasArray()) {
      System.arraycopy(in.array(), sourceOffset + in.arrayOffset(), out.array(),
        out.arrayOffset() + destinationOffset, length);
    } else if (UNSAFE_AVAIL) {
      UnsafeAccess.copy(in, sourceOffset, out, destinationOffset, length);
    } else {
      ByteBuffer outDup = out.duplicate();
      outDup.position(destinationOffset);
      ByteBuffer inDup = in.duplicate();
      inDup.position(sourceOffset).limit(sourceOffset + length);
      outDup.put(inDup);
    }
    // We used to return a result but disabled; return destinationOffset + length;
  }

  /**
   * Copy from one buffer to another from given offset.
   * 

* Note : This will advance the position marker of {@code out} but not change the position maker * for {@code in} * @param in source buffer * @param out destination buffer * @param sourceOffset offset in the source buffer * @param length how many bytes to copy */ public static void copyFromBufferToBuffer(ByteBuffer in, ByteBuffer out, int sourceOffset, int length) { if (in.hasArray() && out.hasArray()) { System.arraycopy(in.array(), sourceOffset + in.arrayOffset(), out.array(), out.position() + out.arrayOffset(), length); skip(out, length); } else if (UNSAFE_AVAIL) { UnsafeAccess.copy(in, sourceOffset, out, out.position(), length); skip(out, length); } else { ByteBuffer inDup = in.duplicate(); inDup.position(sourceOffset).limit(sourceOffset + length); out.put(inDup); } } /** * Find length of common prefix of two parts in the buffer * @param buffer Where parts are located. * @param offsetLeft Offset of the first part. * @param offsetRight Offset of the second part. * @param limit Maximal length of common prefix. * @return Length of prefix. */ @SuppressWarnings("unused") public static int findCommonPrefix(ByteBuffer buffer, int offsetLeft, int offsetRight, int limit) { int prefix = 0; for (; prefix < limit; ++prefix) { if (buffer.get(offsetLeft + prefix) != buffer.get(offsetRight + prefix)) { break; } } return prefix; } /** * Find length of common prefix in two arrays. * @param left Array to be compared. * @param leftOffset Offset in left array. * @param leftLength Length of left array. * @param right Array to be compared. * @param rightOffset Offset in right array. * @param rightLength Length of right array. */ public static int findCommonPrefix(byte[] left, int leftOffset, int leftLength, byte[] right, int rightOffset, int rightLength) { int length = Math.min(leftLength, rightLength); int result = 0; while (result < length && left[leftOffset + result] == right[rightOffset + result]) { result++; } return result; } /** * Find length of common prefix in two arrays. * @param left ByteBuffer to be compared. * @param leftOffset Offset in left ByteBuffer. * @param leftLength Length of left ByteBuffer. * @param right ByteBuffer to be compared. * @param rightOffset Offset in right ByteBuffer. * @param rightLength Length of right ByteBuffer. */ public static int findCommonPrefix(ByteBuffer left, int leftOffset, int leftLength, ByteBuffer right, int rightOffset, int rightLength) { int length = Math.min(leftLength, rightLength); int result = 0; while ( result < length && ByteBufferUtils.toByte(left, leftOffset + result) == ByteBufferUtils.toByte(right, rightOffset + result) ) { result++; } return result; } /** * Check whether two parts in the same buffer are equal. * @param buffer In which buffer there are parts * @param offsetLeft Beginning of first part. * @param lengthLeft Length of the first part. * @param offsetRight Beginning of the second part. * @param lengthRight Length of the second part. * @return True if equal */ public static boolean arePartsEqual(ByteBuffer buffer, int offsetLeft, int lengthLeft, int offsetRight, int lengthRight) { if (lengthLeft != lengthRight) { return false; } if (buffer.hasArray()) { return 0 == Bytes.compareTo(buffer.array(), buffer.arrayOffset() + offsetLeft, lengthLeft, buffer.array(), buffer.arrayOffset() + offsetRight, lengthRight); } for (int i = 0; i < lengthRight; ++i) { if (buffer.get(offsetLeft + i) != buffer.get(offsetRight + i)) { return false; } } return true; } /** * Increment position in buffer. * @param buffer In this buffer. * @param length By that many bytes. */ public static void skip(ByteBuffer buffer, int length) { buffer.position(buffer.position() + length); } public static void extendLimit(ByteBuffer buffer, int numBytes) { buffer.limit(buffer.limit() + numBytes); } /** * Copy the bytes from position to limit into a new byte[] of the exact length and sets the * position and limit back to their original values (though not thread safe). * @param buffer copy from here * @param startPosition put buffer.get(startPosition) into byte[0] * @return a new byte[] containing the bytes in the specified range */ public static byte[] toBytes(ByteBuffer buffer, int startPosition) { int originalPosition = buffer.position(); byte[] output = new byte[buffer.limit() - startPosition]; buffer.position(startPosition); buffer.get(output); buffer.position(originalPosition); return output; } /** * Copy the given number of bytes from specified offset into a new byte[] nnn * @return a new * byte[] containing the bytes in the specified range */ public static byte[] toBytes(ByteBuffer buffer, int offset, int length) { byte[] output = new byte[length]; for (int i = 0; i < length; i++) { output[i] = buffer.get(offset + i); } return output; } public static boolean equals(ByteBuffer buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) { if ((l1 == 0) || (l2 == 0)) { // both 0 length, return true, or else false return l1 == l2; } // Since we're often comparing adjacent sorted data, // it's usual to have equal arrays except for the very last byte // so check that first if (toByte(buf1, o1 + l1 - 1) != toByte(buf2, o2 + l2 - 1)) return false; return compareTo(buf1, o1, l1, buf2, o2, l2) == 0; } /** * n * ByteBuffer to hash n * offset to start from n * length to hash */ public static int hashCode(ByteBuffer buf, int offset, int length) { int hash = 1; for (int i = offset; i < offset + length; i++) { hash = (31 * hash) + (int) toByte(buf, i); } return hash; } public static int compareTo(ByteBuffer buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) { return ComparerHolder.BEST_COMPARER.compareTo(buf1, o1, l1, buf2, o2, l2); } public static boolean equals(ByteBuffer buf1, int o1, int l1, byte[] buf2, int o2, int l2) { if ((l1 == 0) || (l2 == 0)) { // both 0 length, return true, or else false return l1 == l2; } // Since we're often comparing adjacent sorted data, // it's usual to have equal arrays except for the very last byte // so check that first if (toByte(buf1, o1 + l1 - 1) != buf2[o2 + l2 - 1]) return false; return compareTo(buf1, o1, l1, buf2, o2, l2) == 0; } // The below two methods show up in lots of places. Versions of them in commons util and in // Cassandra. In guava too? They are copied from ByteBufferUtils. They are here as static // privates. Seems to make code smaller and make Hotspot happier (comes of compares and study // of compiled code via jitwatch). public static int compareTo(byte[] buf1, int o1, int l1, ByteBuffer buf2, int o2, int l2) { return ComparerHolder.BEST_COMPARER.compareTo(buf1, o1, l1, buf2, o2, l2); } public static int compareTo(ByteBuffer buf1, int o1, int l1, byte[] buf2, int o2, int l2) { return compareTo(buf2, o2, l2, buf1, o1, l1) * -1; } static int compareToUnsafe(Object obj1, long o1, int l1, Object obj2, long o2, int l2) { final int stride = 8; final int minLength = Math.min(l1, l2); int strideLimit = minLength & ~(stride - 1); int i; /* * Compare 8 bytes at a time. Benchmarking shows comparing 8 bytes at a time is no slower than * comparing 4 bytes at a time even on 32-bit. On the other hand, it is substantially faster on * 64-bit. */ for (i = 0; i < strideLimit; i += stride) { long lw = HBasePlatformDependent.getLong(obj1, o1 + (long) i); long rw = HBasePlatformDependent.getLong(obj2, o2 + (long) i); if (lw != rw) { if (!UnsafeAccess.LITTLE_ENDIAN) { return ((lw + Long.MIN_VALUE) < (rw + Long.MIN_VALUE)) ? -1 : 1; } /* * We want to compare only the first index where left[index] != right[index]. This * corresponds to the least significant nonzero byte in lw ^ rw, since lw and rw are * little-endian. Long.numberOfTrailingZeros(diff) tells us the least significant nonzero * bit, and zeroing out the first three bits of L.nTZ gives us the shift to get that least * significant nonzero byte. This comparison logic is based on UnsignedBytes from guava v21 */ int n = Long.numberOfTrailingZeros(lw ^ rw) & ~0x7; return ((int) ((lw >>> n) & 0xFF)) - ((int) ((rw >>> n) & 0xFF)); } } // The epilogue to cover the last (minLength % stride) elements. for (; i < minLength; i++) { int il = (HBasePlatformDependent.getByte(obj1, o1 + i) & 0xFF); int ir = (HBasePlatformDependent.getByte(obj2, o2 + i) & 0xFF); if (il != ir) { return il - ir; } } return l1 - l2; } /** * Reads a short value at the given buffer's offset. nn * @return short value at offset */ public static short toShort(ByteBuffer buffer, int offset) { return ConverterHolder.BEST_CONVERTER.toShort(buffer, offset); } /** * Reads an int value at the given buffer's current position. Also advances the buffer's position */ public static int toInt(ByteBuffer buffer) { return ConverterHolder.BEST_CONVERTER.toInt(buffer); } /** * Reads an int value at the given buffer's offset. nn * @return int value at offset */ public static int toInt(ByteBuffer buffer, int offset) { return ConverterHolder.BEST_CONVERTER.toInt(buffer, offset); } /** * Converts a ByteBuffer to an int value * @param buf The ByteBuffer * @param offset Offset to int value * @param length Number of bytes used to store the int value. * @return the int value n * if there's not enough bytes left in the buffer after the given offset */ public static int readAsInt(ByteBuffer buf, int offset, final int length) { if (offset + length > buf.limit()) { throw new IllegalArgumentException("offset (" + offset + ") + length (" + length + ") exceed the" + " limit of the buffer: " + buf.limit()); } int n = 0; for (int i = offset; i < (offset + length); i++) { n <<= 8; n ^= toByte(buf, i) & 0xFF; } return n; } /** * Reads a long value at the given buffer's offset. nn * @return long value at offset */ public static long toLong(ByteBuffer buffer, int offset) { return ConverterHolder.BEST_CONVERTER.toLong(buffer, offset); } /** * Put an int value out to the given ByteBuffer's current position in big-endian format. This also * advances the position in buffer by int size. * @param buffer the ByteBuffer to write to * @param val int to write out */ public static void putInt(ByteBuffer buffer, int val) { ConverterHolder.BEST_CONVERTER.putInt(buffer, val); } public static int putInt(ByteBuffer buffer, int index, int val) { return ConverterHolder.BEST_CONVERTER.putInt(buffer, index, val); } /** * Reads a double value at the given buffer's offset. n * @param offset offset where double is * @return double value at offset */ public static double toDouble(ByteBuffer buffer, int offset) { return Double.longBitsToDouble(toLong(buffer, offset)); } /** * Reads a BigDecimal value at the given buffer's offset. nn * @return BigDecimal value at offset */ public static BigDecimal toBigDecimal(ByteBuffer buffer, int offset, int length) { if (buffer == null || length < Bytes.SIZEOF_INT + 1 || (offset + length > buffer.limit())) { return null; } int scale = toInt(buffer, offset); byte[] tcBytes = new byte[length - Bytes.SIZEOF_INT]; copyFromBufferToArray(tcBytes, buffer, offset + Bytes.SIZEOF_INT, 0, length - Bytes.SIZEOF_INT); return new BigDecimal(new BigInteger(tcBytes), scale); } /** * Put a short value out to the given ByteBuffer's current position in big-endian format. This * also advances the position in buffer by short size. * @param buffer the ByteBuffer to write to * @param val short to write out */ public static void putShort(ByteBuffer buffer, short val) { ConverterHolder.BEST_CONVERTER.putShort(buffer, val); } public static int putShort(ByteBuffer buffer, int index, short val) { return ConverterHolder.BEST_CONVERTER.putShort(buffer, index, val); } public static int putAsShort(ByteBuffer buf, int index, int val) { buf.put(index + 1, (byte) val); val >>= 8; buf.put(index, (byte) val); return index + Bytes.SIZEOF_SHORT; } /** * Put a long value out to the given ByteBuffer's current position in big-endian format. This also * advances the position in buffer by long size. * @param buffer the ByteBuffer to write to * @param val long to write out */ public static void putLong(ByteBuffer buffer, long val) { ConverterHolder.BEST_CONVERTER.putLong(buffer, val); } public static int putLong(ByteBuffer buffer, int index, long val) { return ConverterHolder.BEST_CONVERTER.putLong(buffer, index, val); } /** * Copies the bytes from given array's offset to length part into the given buffer. Puts the bytes * to buffer's current position. This also advances the position in the 'out' buffer by 'length' * nnnn */ public static void copyFromArrayToBuffer(ByteBuffer out, byte[] in, int inOffset, int length) { if (out.hasArray()) { System.arraycopy(in, inOffset, out.array(), out.arrayOffset() + out.position(), length); // Move the position in out by length out.position(out.position() + length); } else if (UNSAFE_AVAIL) { UnsafeAccess.copy(in, inOffset, out, out.position(), length); // Move the position in out by length out.position(out.position() + length); } else { out.put(in, inOffset, length); } } /** * Copies bytes from given array's offset to length part into the given buffer. Puts the bytes to * buffer's given position. This doesn't affact the position of buffer. nnnn */ public static void copyFromArrayToBuffer(ByteBuffer out, int outOffset, byte[] in, int inOffset, int length) { if (out.hasArray()) { System.arraycopy(in, inOffset, out.array(), out.arrayOffset() + outOffset, length); } else if (UNSAFE_AVAIL) { UnsafeAccess.copy(in, inOffset, out, outOffset, length); } else { ByteBuffer outDup = out.duplicate(); outDup.position(outOffset); outDup.put(in, inOffset, length); } } /** * Copies specified number of bytes from given offset of 'in' ByteBuffer to the array. This * doesn't affact the position of buffer. nnnnn */ public static void copyFromBufferToArray(byte[] out, ByteBuffer in, int sourceOffset, int destinationOffset, int length) { if (in.hasArray()) { System.arraycopy(in.array(), sourceOffset + in.arrayOffset(), out, destinationOffset, length); } else if (UNSAFE_AVAIL) { UnsafeAccess.copy(in, sourceOffset, out, destinationOffset, length); } else { ByteBuffer inDup = in.duplicate(); inDup.position(sourceOffset); inDup.get(out, destinationOffset, length); } } /** * Similar to {@link Arrays#copyOfRange(byte[], int, int)} * @param original the buffer from which the copy has to happen * @param from the starting index * @param to the ending index * @return a byte[] created out of the copy */ public static byte[] copyOfRange(ByteBuffer original, int from, int to) { int newLength = to - from; if (newLength < 0) throw new IllegalArgumentException(from + " > " + to); byte[] copy = new byte[newLength]; ByteBufferUtils.copyFromBufferToArray(copy, original, from, 0, newLength); return copy; } // For testing purpose public static String toStringBinary(final ByteBuffer b, int off, int len) { StringBuilder result = new StringBuilder(); // Just in case we are passed a 'len' that is > buffer length... if (off >= b.capacity()) return result.toString(); if (off + len > b.capacity()) len = b.capacity() - off; for (int i = off; i < off + len; ++i) { int ch = b.get(i) & 0xFF; if ( (ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'Z') || (ch >= 'a' && ch <= 'z') || " `~!@#$%^&*()-_=+[]{}|;:'\",.<>/?".indexOf(ch) >= 0 ) { result.append((char) ch); } else { result.append(String.format("\\x%02X", ch)); } } return result.toString(); } public static String toStringBinary(final ByteBuffer b) { return toStringBinary(b, 0, b.capacity()); } /** * Find index of passed delimiter. * @return Index of delimiter having started from start of b moving rightward. */ public static int searchDelimiterIndex(ByteBuffer b, int offset, final int length, final int delimiter) { for (int i = offset, n = offset + length; i < n; i++) { if (b.get(i) == delimiter) { return i; } } return -1; } /** * Find index of passed delimiter walking from end of buffer backwards. * @return Index of delimiter */ public static int searchDelimiterIndexInReverse(ByteBuffer b, int offset, int length, int delimiter) { for (int i = offset + length - 1; i >= offset; i--) { if (b.get(i) == delimiter) { return i; } } return -1; } }





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