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Builds the guava lib. Requires the jsr305 be built first.
// Copyright 2011 Google Inc. All Rights Reserved.
package com.google.common.hash;
import static com.google.common.base.Preconditions.checkPositionIndexes;
import static com.google.common.hash.LittleEndianByteArray.load64;
import static com.google.common.hash.LittleEndianByteArray.load64Safely;
import static java.lang.Long.rotateRight;
import com.google.common.annotations.VisibleForTesting;
/**
* Implementation of Geoff Pike's fingerprint2011 hash function. See {@link Hashing#fingerprint2011}
* for information on the behaviour of the algorithm.
*
* On Intel Core2 2.66, on 1000 bytes, fingerprint2011 takes 0.9 microseconds compared to
* fingerprint at 4.0 microseconds and md5 at 4.5 microseconds.
*
*
Note to maintainers: This implementation relies on signed arithmetic being bit-wise equivalent
* to unsigned arithmetic in all cases except:
*
*
* - comparisons (signed values can be negative)
*
- division (avoided here)
*
- shifting (right shift must be unsigned)
*
*
* @author [email protected] (Kyle Maddison)
* @author [email protected] (Geoff Pike)
*/
@ElementTypesAreNonnullByDefault
final class Fingerprint2011 extends AbstractNonStreamingHashFunction {
static final HashFunction FINGERPRINT_2011 = new Fingerprint2011();
// Some primes between 2^63 and 2^64 for various uses.
private static final long K0 = 0xa5b85c5e198ed849L;
private static final long K1 = 0x8d58ac26afe12e47L;
private static final long K2 = 0xc47b6e9e3a970ed3L;
private static final long K3 = 0xc6a4a7935bd1e995L;
@Override
public HashCode hashBytes(byte[] input, int off, int len) {
checkPositionIndexes(off, off + len, input.length);
return HashCode.fromLong(fingerprint(input, off, len));
}
@Override
public int bits() {
return 64;
}
@Override
public String toString() {
return "Hashing.fingerprint2011()";
}
// End of public functions.
@VisibleForTesting
static long fingerprint(byte[] bytes, int offset, int length) {
long result;
if (length <= 32) {
result = murmurHash64WithSeed(bytes, offset, length, K0 ^ K1 ^ K2);
} else if (length <= 64) {
result = hashLength33To64(bytes, offset, length);
} else {
result = fullFingerprint(bytes, offset, length);
}
long u = length >= 8 ? load64(bytes, offset) : K0;
long v = length >= 9 ? load64(bytes, offset + length - 8) : K0;
result = hash128to64(result + v, u);
return result == 0 || result == 1 ? result + ~1 : result;
}
private static long shiftMix(long val) {
return val ^ (val >>> 47);
}
/** Implementation of Hash128to64 from util/hash/hash128to64.h */
@VisibleForTesting
static long hash128to64(long high, long low) {
long a = (low ^ high) * K3;
a ^= (a >>> 47);
long b = (high ^ a) * K3;
b ^= (b >>> 47);
b *= K3;
return b;
}
/**
* Computes intermediate hash of 32 bytes of byte array from the given offset. Results are
* returned in the output array - this is 12% faster than allocating new arrays every time.
*/
private static void weakHashLength32WithSeeds(
byte[] bytes, int offset, long seedA, long seedB, long[] output) {
long part1 = load64(bytes, offset);
long part2 = load64(bytes, offset + 8);
long part3 = load64(bytes, offset + 16);
long part4 = load64(bytes, offset + 24);
seedA += part1;
seedB = rotateRight(seedB + seedA + part4, 51);
long c = seedA;
seedA += part2;
seedA += part3;
seedB += rotateRight(seedA, 23);
output[0] = seedA + part4;
output[1] = seedB + c;
}
/*
* Compute an 8-byte hash of a byte array of length greater than 64 bytes.
*/
private static long fullFingerprint(byte[] bytes, int offset, int length) {
// For lengths over 64 bytes we hash the end first, and then as we
// loop we keep 56 bytes of state: v, w, x, y, and z.
long x = load64(bytes, offset);
long y = load64(bytes, offset + length - 16) ^ K1;
long z = load64(bytes, offset + length - 56) ^ K0;
long[] v = new long[2];
long[] w = new long[2];
weakHashLength32WithSeeds(bytes, offset + length - 64, length, y, v);
weakHashLength32WithSeeds(bytes, offset + length - 32, length * K1, K0, w);
z += shiftMix(v[1]) * K1;
x = rotateRight(z + x, 39) * K1;
y = rotateRight(y, 33) * K1;
// Decrease length to the nearest multiple of 64, and operate on 64-byte chunks.
length = (length - 1) & ~63;
do {
x = rotateRight(x + y + v[0] + load64(bytes, offset + 16), 37) * K1;
y = rotateRight(y + v[1] + load64(bytes, offset + 48), 42) * K1;
x ^= w[1];
y ^= v[0];
z = rotateRight(z ^ w[0], 33);
weakHashLength32WithSeeds(bytes, offset, v[1] * K1, x + w[0], v);
weakHashLength32WithSeeds(bytes, offset + 32, z + w[1], y, w);
long tmp = z;
z = x;
x = tmp;
offset += 64;
length -= 64;
} while (length != 0);
return hash128to64(hash128to64(v[0], w[0]) + shiftMix(y) * K1 + z, hash128to64(v[1], w[1]) + x);
}
private static long hashLength33To64(byte[] bytes, int offset, int length) {
long z = load64(bytes, offset + 24);
long a = load64(bytes, offset) + (length + load64(bytes, offset + length - 16)) * K0;
long b = rotateRight(a + z, 52);
long c = rotateRight(a, 37);
a += load64(bytes, offset + 8);
c += rotateRight(a, 7);
a += load64(bytes, offset + 16);
long vf = a + z;
long vs = b + rotateRight(a, 31) + c;
a = load64(bytes, offset + 16) + load64(bytes, offset + length - 32);
z = load64(bytes, offset + length - 8);
b = rotateRight(a + z, 52);
c = rotateRight(a, 37);
a += load64(bytes, offset + length - 24);
c += rotateRight(a, 7);
a += load64(bytes, offset + length - 16);
long wf = a + z;
long ws = b + rotateRight(a, 31) + c;
long r = shiftMix((vf + ws) * K2 + (wf + vs) * K0);
return shiftMix(r * K0 + vs) * K2;
}
@VisibleForTesting
static long murmurHash64WithSeed(byte[] bytes, int offset, int length, long seed) {
long mul = K3;
int topBit = 0x7;
int lengthAligned = length & ~topBit;
int lengthRemainder = length & topBit;
long hash = seed ^ (length * mul);
for (int i = 0; i < lengthAligned; i += 8) {
long loaded = load64(bytes, offset + i);
long data = shiftMix(loaded * mul) * mul;
hash ^= data;
hash *= mul;
}
if (lengthRemainder != 0) {
long data = load64Safely(bytes, offset + lengthAligned, lengthRemainder);
hash ^= data;
hash *= mul;
}
hash = shiftMix(hash) * mul;
hash = shiftMix(hash);
return hash;
}
}