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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.io;

import java.io.*;
import java.util.*;

import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.util.ReflectionUtils;

/** A Comparator for {@link WritableComparable}s.
 *
 * 

This base implemenation uses the natural ordering. To define alternate * orderings, override {@link #compare(WritableComparable,WritableComparable)}. * *

One may optimize compare-intensive operations by overriding * {@link #compare(byte[],int,int,byte[],int,int)}. Static utility methods are * provided to assist in optimized implementations of this method. */ @InterfaceAudience.Public @InterfaceStability.Stable public class WritableComparator implements RawComparator { private static HashMap comparators = new HashMap(); // registry /** Get a comparator for a {@link WritableComparable} implementation. */ public static synchronized WritableComparator get(Class c) { WritableComparator comparator = comparators.get(c); if (comparator == null) { // force the static initializers to run forceInit(c); // look to see if it is defined now comparator = comparators.get(c); // if not, use the generic one if (comparator == null) { comparator = new WritableComparator(c, true); } } return comparator; } /** * Force initialization of the static members. * As of Java 5, referencing a class doesn't force it to initialize. Since * this class requires that the classes be initialized to declare their * comparators, we force that initialization to happen. * @param cls the class to initialize */ private static void forceInit(Class cls) { try { Class.forName(cls.getName(), true, cls.getClassLoader()); } catch (ClassNotFoundException e) { throw new IllegalArgumentException("Can't initialize class " + cls, e); } } /** Register an optimized comparator for a {@link WritableComparable} * implementation. Comparators registered with this method must be * thread-safe. */ public static synchronized void define(Class c, WritableComparator comparator) { comparators.put(c, comparator); } private final Class keyClass; private final WritableComparable key1; private final WritableComparable key2; private final DataInputBuffer buffer; /** Construct for a {@link WritableComparable} implementation. */ protected WritableComparator(Class keyClass) { this(keyClass, false); } protected WritableComparator(Class keyClass, boolean createInstances) { this.keyClass = keyClass; if (createInstances) { key1 = newKey(); key2 = newKey(); buffer = new DataInputBuffer(); } else { key1 = key2 = null; buffer = null; } } /** Returns the WritableComparable implementation class. */ public Class getKeyClass() { return keyClass; } /** Construct a new {@link WritableComparable} instance. */ public WritableComparable newKey() { return ReflectionUtils.newInstance(keyClass, null); } /** Optimization hook. Override this to make SequenceFile.Sorter's scream. * *

The default implementation reads the data into two {@link * WritableComparable}s (using {@link * Writable#readFields(DataInput)}, then calls {@link * #compare(WritableComparable,WritableComparable)}. */ public int compare(byte[] b1, int s1, int l1, byte[] b2, int s2, int l2) { try { buffer.reset(b1, s1, l1); // parse key1 key1.readFields(buffer); buffer.reset(b2, s2, l2); // parse key2 key2.readFields(buffer); } catch (IOException e) { throw new RuntimeException(e); } return compare(key1, key2); // compare them } /** Compare two WritableComparables. * *

The default implementation uses the natural ordering, calling {@link * Comparable#compareTo(Object)}. */ @SuppressWarnings("unchecked") public int compare(WritableComparable a, WritableComparable b) { return a.compareTo(b); } public int compare(Object a, Object b) { return compare((WritableComparable)a, (WritableComparable)b); } /** Lexicographic order of binary data. */ public static int compareBytes(byte[] b1, int s1, int l1, byte[] b2, int s2, int l2) { int end1 = s1 + l1; int end2 = s2 + l2; for (int i = s1, j = s2; i < end1 && j < end2; i++, j++) { int a = (b1[i] & 0xff); int b = (b2[j] & 0xff); if (a != b) { return a - b; } } return l1 - l2; } /** Compute hash for binary data. */ public static int hashBytes(byte[] bytes, int offset, int length) { int hash = 1; for (int i = offset; i < offset + length; i++) hash = (31 * hash) + (int)bytes[i]; return hash; } /** Compute hash for binary data. */ public static int hashBytes(byte[] bytes, int length) { return hashBytes(bytes, 0, length); } /** Parse an unsigned short from a byte array. */ public static int readUnsignedShort(byte[] bytes, int start) { return (((bytes[start] & 0xff) << 8) + ((bytes[start+1] & 0xff))); } /** Parse an integer from a byte array. */ public static int readInt(byte[] bytes, int start) { return (((bytes[start ] & 0xff) << 24) + ((bytes[start+1] & 0xff) << 16) + ((bytes[start+2] & 0xff) << 8) + ((bytes[start+3] & 0xff))); } /** Parse a float from a byte array. */ public static float readFloat(byte[] bytes, int start) { return Float.intBitsToFloat(readInt(bytes, start)); } /** Parse a long from a byte array. */ public static long readLong(byte[] bytes, int start) { return ((long)(readInt(bytes, start)) << 32) + (readInt(bytes, start+4) & 0xFFFFFFFFL); } /** Parse a double from a byte array. */ public static double readDouble(byte[] bytes, int start) { return Double.longBitsToDouble(readLong(bytes, start)); } /** * Reads a zero-compressed encoded long from a byte array and returns it. * @param bytes byte array with decode long * @param start starting index * @throws java.io.IOException * @return deserialized long */ public static long readVLong(byte[] bytes, int start) throws IOException { int len = bytes[start]; if (len >= -112) { return len; } boolean isNegative = (len < -120); len = isNegative ? -(len + 120) : -(len + 112); if (start+1+len>bytes.length) throw new IOException( "Not enough number of bytes for a zero-compressed integer"); long i = 0; for (int idx = 0; idx < len; idx++) { i = i << 8; i = i | (bytes[start+1+idx] & 0xFF); } return (isNegative ? (i ^ -1L) : i); } /** * Reads a zero-compressed encoded integer from a byte array and returns it. * @param bytes byte array with the encoded integer * @param start start index * @throws java.io.IOException * @return deserialized integer */ public static int readVInt(byte[] bytes, int start) throws IOException { return (int) readVLong(bytes, start); } }





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