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metrohash64.cpp
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metrohash64.cpp
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// metrohash64.cpp
//
// The MIT License (MIT)
//
// Copyright (c) 2015 J. Andrew Rogers
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//
#include <string.h>
#include "platform.h"
#include "metrohash64.h"
const char * MetroHash64::test_string = "012345678901234567890123456789012345678901234567890123456789012";
const uint8_t MetroHash64::test_seed_0[8] = { 0x6B, 0x75, 0x3D, 0xAE, 0x06, 0x70, 0x4B, 0xAD };
const uint8_t MetroHash64::test_seed_1[8] = { 0x3B, 0x0D, 0x48, 0x1C, 0xF4, 0xB9, 0xB8, 0xDF };
MetroHash64::MetroHash64(const uint64_t seed)
{
Initialize(seed);
}
void MetroHash64::Initialize(const uint64_t seed)
{
vseed = (static_cast<uint64_t>(seed) + k2) * k0;
// initialize internal hash registers
state.v[0] = vseed;
state.v[1] = vseed;
state.v[2] = vseed;
state.v[3] = vseed;
// initialize total length of input
bytes = 0;
}
void MetroHash64::Update(const uint8_t * const buffer, const uint64_t length)
{
const uint8_t * ptr = reinterpret_cast<const uint8_t*>(buffer);
const uint8_t * const end = ptr + length;
// input buffer may be partially filled
if (bytes % 32)
{
uint64_t fill = 32 - (bytes % 32);
if (fill > length)
fill = length;
memcpy(input.b + (bytes % 32), ptr, fill);
ptr += fill;
bytes += fill;
// input buffer is still partially filled
if ((bytes % 32) != 0) return;
// process full input buffer
state.v[0] += read_u64(&input.b[ 0]) * k0; state.v[0] = rotate_right(state.v[0],29) + state.v[2];
state.v[1] += read_u64(&input.b[ 8]) * k1; state.v[1] = rotate_right(state.v[1],29) + state.v[3];
state.v[2] += read_u64(&input.b[16]) * k2; state.v[2] = rotate_right(state.v[2],29) + state.v[0];
state.v[3] += read_u64(&input.b[24]) * k3; state.v[3] = rotate_right(state.v[3],29) + state.v[1];
}
// bulk update
bytes += (end - ptr);
while (ptr <= (end - 32))
{
// process directly from the source, bypassing the input buffer
state.v[0] += read_u64(ptr) * k0; ptr += 8; state.v[0] = rotate_right(state.v[0],29) + state.v[2];
state.v[1] += read_u64(ptr) * k1; ptr += 8; state.v[1] = rotate_right(state.v[1],29) + state.v[3];
state.v[2] += read_u64(ptr) * k2; ptr += 8; state.v[2] = rotate_right(state.v[2],29) + state.v[0];
state.v[3] += read_u64(ptr) * k3; ptr += 8; state.v[3] = rotate_right(state.v[3],29) + state.v[1];
}
// store remaining bytes in input buffer
if (ptr < end)
memcpy(input.b, ptr, end - ptr);
}
void MetroHash64::Finalize(uint8_t * const hash)
{
// finalize bulk loop, if used
if (bytes >= 32)
{
state.v[2] ^= rotate_right(((state.v[0] + state.v[3]) * k0) + state.v[1], 37) * k1;
state.v[3] ^= rotate_right(((state.v[1] + state.v[2]) * k1) + state.v[0], 37) * k0;
state.v[0] ^= rotate_right(((state.v[0] + state.v[2]) * k0) + state.v[3], 37) * k1;
state.v[1] ^= rotate_right(((state.v[1] + state.v[3]) * k1) + state.v[2], 37) * k0;
state.v[0] = vseed + (state.v[0] ^ state.v[1]);
}
// process any bytes remaining in the input buffer
const uint8_t * ptr = reinterpret_cast<const uint8_t*>(input.b);
const uint8_t * const end = ptr + (bytes % 32);
if ((end - ptr) >= 16)
{
state.v[1] = state.v[0] + (read_u64(ptr) * k2); ptr += 8; state.v[1] = rotate_right(state.v[1],29) * k3;
state.v[2] = state.v[0] + (read_u64(ptr) * k2); ptr += 8; state.v[2] = rotate_right(state.v[2],29) * k3;
state.v[1] ^= rotate_right(state.v[1] * k0, 21) + state.v[2];
state.v[2] ^= rotate_right(state.v[2] * k3, 21) + state.v[1];
state.v[0] += state.v[2];
}
if ((end - ptr) >= 8)
{
state.v[0] += read_u64(ptr) * k3; ptr += 8;
state.v[0] ^= rotate_right(state.v[0], 55) * k1;
}
if ((end - ptr) >= 4)
{
state.v[0] += read_u32(ptr) * k3; ptr += 4;
state.v[0] ^= rotate_right(state.v[0], 26) * k1;
}
if ((end - ptr) >= 2)
{
state.v[0] += read_u16(ptr) * k3; ptr += 2;
state.v[0] ^= rotate_right(state.v[0], 48) * k1;
}
if ((end - ptr) >= 1)
{
state.v[0] += read_u8 (ptr) * k3;
state.v[0] ^= rotate_right(state.v[0], 37) * k1;
}
state.v[0] ^= rotate_right(state.v[0], 28);
state.v[0] *= k0;
state.v[0] ^= rotate_right(state.v[0], 29);
bytes = 0;
// do any endian conversion here
memcpy(hash, state.v, 8);
}
void MetroHash64::Hash(const uint8_t * buffer, const uint64_t length, uint8_t * const hash, const uint64_t seed)
{
const uint8_t * ptr = reinterpret_cast<const uint8_t*>(buffer);
const uint8_t * const end = ptr + length;
uint64_t h = (static_cast<uint64_t>(seed) + k2) * k0;
if (length >= 32)
{
uint64_t v[4];
v[0] = h;
v[1] = h;
v[2] = h;
v[3] = h;
do
{
v[0] += read_u64(ptr) * k0; ptr += 8; v[0] = rotate_right(v[0],29) + v[2];
v[1] += read_u64(ptr) * k1; ptr += 8; v[1] = rotate_right(v[1],29) + v[3];
v[2] += read_u64(ptr) * k2; ptr += 8; v[2] = rotate_right(v[2],29) + v[0];
v[3] += read_u64(ptr) * k3; ptr += 8; v[3] = rotate_right(v[3],29) + v[1];
}
while (ptr <= (end - 32));
v[2] ^= rotate_right(((v[0] + v[3]) * k0) + v[1], 37) * k1;
v[3] ^= rotate_right(((v[1] + v[2]) * k1) + v[0], 37) * k0;
v[0] ^= rotate_right(((v[0] + v[2]) * k0) + v[3], 37) * k1;
v[1] ^= rotate_right(((v[1] + v[3]) * k1) + v[2], 37) * k0;
h += v[0] ^ v[1];
}
if ((end - ptr) >= 16)
{
uint64_t v0 = h + (read_u64(ptr) * k2); ptr += 8; v0 = rotate_right(v0,29) * k3;
uint64_t v1 = h + (read_u64(ptr) * k2); ptr += 8; v1 = rotate_right(v1,29) * k3;
v0 ^= rotate_right(v0 * k0, 21) + v1;
v1 ^= rotate_right(v1 * k3, 21) + v0;
h += v1;
}
if ((end - ptr) >= 8)
{
h += read_u64(ptr) * k3; ptr += 8;
h ^= rotate_right(h, 55) * k1;
}
if ((end - ptr) >= 4)
{
h += read_u32(ptr) * k3; ptr += 4;
h ^= rotate_right(h, 26) * k1;
}
if ((end - ptr) >= 2)
{
h += read_u16(ptr) * k3; ptr += 2;
h ^= rotate_right(h, 48) * k1;
}
if ((end - ptr) >= 1)
{
h += read_u8 (ptr) * k3;
h ^= rotate_right(h, 37) * k1;
}
h ^= rotate_right(h, 28);
h *= k0;
h ^= rotate_right(h, 29);
memcpy(hash, &h, 8);
}
bool MetroHash64::ImplementationVerified()
{
uint8_t hash[8];
const uint8_t * key = reinterpret_cast<const uint8_t *>(MetroHash64::test_string);
// verify one-shot implementation
MetroHash64::Hash(key, strlen(MetroHash64::test_string), hash, 0);
if (memcmp(hash, MetroHash64::test_seed_0, 8) != 0) return false;
MetroHash64::Hash(key, strlen(MetroHash64::test_string), hash, 1);
if (memcmp(hash, MetroHash64::test_seed_1, 8) != 0) return false;
// verify incremental implementation
MetroHash64 metro;
metro.Initialize(0);
metro.Update(reinterpret_cast<const uint8_t *>(MetroHash64::test_string), strlen(MetroHash64::test_string));
metro.Finalize(hash);
if (memcmp(hash, MetroHash64::test_seed_0, 8) != 0) return false;
metro.Initialize(1);
metro.Update(reinterpret_cast<const uint8_t *>(MetroHash64::test_string), strlen(MetroHash64::test_string));
metro.Finalize(hash);
if (memcmp(hash, MetroHash64::test_seed_1, 8) != 0) return false;
return true;
}
void metrohash64_1(const uint8_t * key, uint64_t len, uint32_t seed, uint8_t * out)
{
static const uint64_t k0 = 0xC83A91E1;
static const uint64_t k1 = 0x8648DBDB;
static const uint64_t k2 = 0x7BDEC03B;
static const uint64_t k3 = 0x2F5870A5;
const uint8_t * ptr = reinterpret_cast<const uint8_t*>(key);
const uint8_t * const end = ptr + len;
uint64_t hash = ((static_cast<uint64_t>(seed) + k2) * k0) + len;
if (len >= 32)
{
uint64_t v[4];
v[0] = hash;
v[1] = hash;
v[2] = hash;
v[3] = hash;
do
{
v[0] += read_u64(ptr) * k0; ptr += 8; v[0] = rotate_right(v[0],29) + v[2];
v[1] += read_u64(ptr) * k1; ptr += 8; v[1] = rotate_right(v[1],29) + v[3];
v[2] += read_u64(ptr) * k2; ptr += 8; v[2] = rotate_right(v[2],29) + v[0];
v[3] += read_u64(ptr) * k3; ptr += 8; v[3] = rotate_right(v[3],29) + v[1];
}
while (ptr <= (end - 32));
v[2] ^= rotate_right(((v[0] + v[3]) * k0) + v[1], 33) * k1;
v[3] ^= rotate_right(((v[1] + v[2]) * k1) + v[0], 33) * k0;
v[0] ^= rotate_right(((v[0] + v[2]) * k0) + v[3], 33) * k1;
v[1] ^= rotate_right(((v[1] + v[3]) * k1) + v[2], 33) * k0;
hash += v[0] ^ v[1];
}
if ((end - ptr) >= 16)
{
uint64_t v0 = hash + (read_u64(ptr) * k0); ptr += 8; v0 = rotate_right(v0,33) * k1;
uint64_t v1 = hash + (read_u64(ptr) * k1); ptr += 8; v1 = rotate_right(v1,33) * k2;
v0 ^= rotate_right(v0 * k0, 35) + v1;
v1 ^= rotate_right(v1 * k3, 35) + v0;
hash += v1;
}
if ((end - ptr) >= 8)
{
hash += read_u64(ptr) * k3; ptr += 8;
hash ^= rotate_right(hash, 33) * k1;
}
if ((end - ptr) >= 4)
{
hash += read_u32(ptr) * k3; ptr += 4;
hash ^= rotate_right(hash, 15) * k1;
}
if ((end - ptr) >= 2)
{
hash += read_u16(ptr) * k3; ptr += 2;
hash ^= rotate_right(hash, 13) * k1;
}
if ((end - ptr) >= 1)
{
hash += read_u8 (ptr) * k3;
hash ^= rotate_right(hash, 25) * k1;
}
hash ^= rotate_right(hash, 33);
hash *= k0;
hash ^= rotate_right(hash, 33);
memcpy(out, &hash, 8);
}
void metrohash64_2(const uint8_t * key, uint64_t len, uint32_t seed, uint8_t * out)
{
static const uint64_t k0 = 0xD6D018F5;
static const uint64_t k1 = 0xA2AA033B;
static const uint64_t k2 = 0x62992FC1;
static const uint64_t k3 = 0x30BC5B29;
const uint8_t * ptr = reinterpret_cast<const uint8_t*>(key);
const uint8_t * const end = ptr + len;
uint64_t hash = ((static_cast<uint64_t>(seed) + k2) * k0) + len;
if (len >= 32)
{
uint64_t v[4];
v[0] = hash;
v[1] = hash;
v[2] = hash;
v[3] = hash;
do
{
v[0] += read_u64(ptr) * k0; ptr += 8; v[0] = rotate_right(v[0],29) + v[2];
v[1] += read_u64(ptr) * k1; ptr += 8; v[1] = rotate_right(v[1],29) + v[3];
v[2] += read_u64(ptr) * k2; ptr += 8; v[2] = rotate_right(v[2],29) + v[0];
v[3] += read_u64(ptr) * k3; ptr += 8; v[3] = rotate_right(v[3],29) + v[1];
}
while (ptr <= (end - 32));
v[2] ^= rotate_right(((v[0] + v[3]) * k0) + v[1], 30) * k1;
v[3] ^= rotate_right(((v[1] + v[2]) * k1) + v[0], 30) * k0;
v[0] ^= rotate_right(((v[0] + v[2]) * k0) + v[3], 30) * k1;
v[1] ^= rotate_right(((v[1] + v[3]) * k1) + v[2], 30) * k0;
hash += v[0] ^ v[1];
}
if ((end - ptr) >= 16)
{
uint64_t v0 = hash + (read_u64(ptr) * k2); ptr += 8; v0 = rotate_right(v0,29) * k3;
uint64_t v1 = hash + (read_u64(ptr) * k2); ptr += 8; v1 = rotate_right(v1,29) * k3;
v0 ^= rotate_right(v0 * k0, 34) + v1;
v1 ^= rotate_right(v1 * k3, 34) + v0;
hash += v1;
}
if ((end - ptr) >= 8)
{
hash += read_u64(ptr) * k3; ptr += 8;
hash ^= rotate_right(hash, 36) * k1;
}
if ((end - ptr) >= 4)
{
hash += read_u32(ptr) * k3; ptr += 4;
hash ^= rotate_right(hash, 15) * k1;
}
if ((end - ptr) >= 2)
{
hash += read_u16(ptr) * k3; ptr += 2;
hash ^= rotate_right(hash, 15) * k1;
}
if ((end - ptr) >= 1)
{
hash += read_u8 (ptr) * k3;
hash ^= rotate_right(hash, 23) * k1;
}
hash ^= rotate_right(hash, 28);
hash *= k0;
hash ^= rotate_right(hash, 29);
memcpy(out, &hash, 8);
}