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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.commons.codec.digest;

import static java.lang.Integer.rotateLeft;

import java.util.zip.Checksum;

/**
 * Implementation of the xxhash32 hash algorithm.
 *
 * 

* Copied from Commons Compress 1.14 https://git-wip-us.apache.org/repos/asf?p=commons-compress.git;a=blob;f=src/main/java/org/apache/commons/compress/compressors/lz4/XXHash32.java;h=a406ffc197449be594d46f0d2712b2d4786a1e68;hb=HEAD *

*

* NotThreadSafe *

* * @see xxHash * @since 1.11 */ public class XXHash32 implements Checksum { private static final int BUF_SIZE = 16; private static final int ROTATE_BITS = 13; private static final int PRIME1 = (int) 2654435761l; private static final int PRIME2 = (int) 2246822519l; private static final int PRIME3 = (int) 3266489917l; private static final int PRIME4 = 668265263; private static final int PRIME5 = 374761393; private final byte[] oneByte = new byte[1]; private final int[] state = new int[4]; // Note: the code used to use ByteBuffer but the manual method is 50% faster // See: http://git-wip-us.apache.org/repos/asf/commons-compress/diff/2f56fb5c private final byte[] buffer = new byte[BUF_SIZE]; private final int seed; private int totalLen; private int pos; /** Set to true when the state array has been updated since the last reset. */ private boolean stateUpdated; /** * Creates an XXHash32 instance with a seed of 0. */ public XXHash32() { this(0); } /** * Creates an XXHash32 instance. * @param seed the seed to use */ public XXHash32(final int seed) { this.seed = seed; initializeState(); } @Override public void reset() { initializeState(); totalLen = 0; pos = 0; stateUpdated = false; } @Override public void update(final int b) { oneByte[0] = (byte) (b & 0xff); update(oneByte, 0, 1); } @Override public void update(final byte[] b, int off, final int len) { if (len <= 0) { return; } totalLen += len; final int end = off + len; // Check if the unprocessed bytes and new bytes can fill a block of 16. // Make this overflow safe in the event that len is Integer.MAX_VALUE. // Equivalent to: (pos + len < BUF_SIZE) if (pos + len - BUF_SIZE < 0) { System.arraycopy(b, off, buffer, pos, len); pos += len; return; } // Process left-over bytes with new bytes if (pos > 0) { final int size = BUF_SIZE - pos; System.arraycopy(b, off, buffer, pos, size); process(buffer, 0); off += size; } final int limit = end - BUF_SIZE; while (off <= limit) { process(b, off); off += BUF_SIZE; } // Handle left-over bytes if (off < end) { pos = end - off; System.arraycopy(b, off, buffer, 0, pos); } else { pos = 0; } } @Override public long getValue() { int hash; if (stateUpdated) { // Hash with the state hash = rotateLeft(state[0], 1) + rotateLeft(state[1], 7) + rotateLeft(state[2], 12) + rotateLeft(state[3], 18); } else { // Hash using the original seed from position 2 hash = state[2] + PRIME5; } hash += totalLen; int idx = 0; final int limit = pos - 4; for (; idx <= limit; idx += 4) { hash = rotateLeft(hash + getInt(buffer, idx) * PRIME3, 17) * PRIME4; } while (idx < pos) { hash = rotateLeft(hash + (buffer[idx++] & 0xff) * PRIME5, 11) * PRIME1; } hash ^= hash >>> 15; hash *= PRIME2; hash ^= hash >>> 13; hash *= PRIME3; hash ^= hash >>> 16; return hash & 0xffffffffl; } /** * Gets the little-endian int from 4 bytes starting at the specified index. * * @param buffer The data * @param idx The index * @return The little-endian int */ private static int getInt(final byte[] buffer, final int idx) { return ((buffer[idx ] & 0xff) ) | ((buffer[idx + 1] & 0xff) << 8) | ((buffer[idx + 2] & 0xff) << 16) | ((buffer[idx + 3] & 0xff) << 24); } private void initializeState() { state[0] = seed + PRIME1 + PRIME2; state[1] = seed + PRIME2; state[2] = seed; state[3] = seed - PRIME1; } private void process(final byte[] b, final int offset) { // local shadows for performance int s0 = state[0]; int s1 = state[1]; int s2 = state[2]; int s3 = state[3]; s0 = rotateLeft(s0 + getInt(b, offset) * PRIME2, ROTATE_BITS) * PRIME1; s1 = rotateLeft(s1 + getInt(b, offset + 4) * PRIME2, ROTATE_BITS) * PRIME1; s2 = rotateLeft(s2 + getInt(b, offset + 8) * PRIME2, ROTATE_BITS) * PRIME1; s3 = rotateLeft(s3 + getInt(b, offset + 12) * PRIME2, ROTATE_BITS) * PRIME1; state[0] = s0; state[1] = s1; state[2] = s2; state[3] = s3; stateUpdated = true; } }




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