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match_hasher.h
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match_hasher.h
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// This file is not GPL. It may be used for educational purposes only.
#pragma once
#include <algorithm>
template<int _NumHash, bool _DualHash>
class MatchHasher {
public:
MatchHasher() {}
enum {
NumHash = _NumHash,
DualHash = _DualHash,
};
~MatchHasher() {
free(malloced_ptr_);
}
void AllocateHash(int bits, int k) {
hash_bits_ = bits;
hash_mask_ = (1 << bits) - NumHash;
k = std::max(std::min(k > 0 ? k : 4, 8), 1);
hashmult_ = 0xCF1BBCDCB7A56463ull << (8 * (8 - k));
malloced_ptr_ = malloc(sizeof(uint32) * (1 << bits) + 64);
hash_ptr_ = (uint32*)(((uintptr_t)malloced_ptr_ + 63) & ~63);
memset(hash_ptr_, 0, sizeof(uint32) * (1 << bits));
}
struct HashPos {
uint32 *ptr1, *ptr2;
uint32 pos, hi;
};
HashPos GetHashPos(const uint8 *src) {
HashPos hp = {hashentry_ptr_next_, hashentry2_ptr_next_, (uint32)(src - src_base_), hashtable_high_bits_};
return hp;
}
void SetBaseWithoutPreload(const uint8 *src_base) {
src_base_ = src_base;
}
void SetBaseAndPreload(const uint8 *src_base, const uint8 *src_start, int max_preload_len) {
src_base_ = src_base;
if (src_base == src_start)
return;
int preload_len = src_start - src_base;
const uint8 *src = src_base;
assert(preload_len > 0);
if (preload_len > max_preload_len) {
preload_len = max_preload_len;
src = src_start - preload_len;
}
int step = std::max(preload_len >> 18, 2);
int rounds_until_next_step = (preload_len >> 1) / step;
SetHashPos(src);
for (;;) {
if (--rounds_until_next_step <= 0) {
if (src >= src_start)
break;
step >>= 1;
assert(step >= 1);
rounds_until_next_step = (src_start - src) / step;
if (step > 1)
rounds_until_next_step >>= 1;
}
HashPos hp = GetHashPos(src);
src += step;
SetHashPos(src);
Insert(hp);
}
}
static uint32 MakeHashValue(uint32 cur_high, uint32 cur_pos) {
return (cur_high & ~0x3FFFFFF) | (cur_pos & 0x3FFFFFF);
}
inline void InsertOne(uint32 *h, uint32 hval) {
if (NumHash == 1) {
h[0] = hval;
} else if (NumHash == 2) {
h[1] = h[0];
h[0] = hval;
} else if (NumHash == 4) {
uint32 a = h[2], b = h[1], c = h[0];
h[3] = a;
h[2] = b;
h[1] = c;
h[0] = hval;
} else if (NumHash == 16) {
__m128i a0 = _mm_load_si128((__m128i*)h);
__m128i a1 = _mm_loadu_si128((__m128i*)(h + 3));
__m128i a2 = _mm_loadu_si128((__m128i*)(h + 7));
__m128i a3 = _mm_loadu_si128((__m128i*)(h + 11));
_mm_storeu_si128((__m128i*)(h + 1), a0);
_mm_store_si128((__m128i*)(h + 4), a1);
_mm_store_si128((__m128i*)(h + 8), a2);
_mm_store_si128((__m128i*)(h + 12), a3);
h[0] = hval;
} else {
assert(0);
}
}
inline void Insert(uint32 *h, uint32 *h2, uint32 he) {
InsertOne(h, he);
if (DualHash)
InsertOne(h2, he);
}
inline void Insert(const HashPos &hp) {
Insert(hp.ptr1, hp.ptr2, MakeHashValue(hp.hi, hp.pos));
}
inline void SetHashPos(const uint8 *p) {
src_cur_ = p;
uint64 at_src = *(uint64*)p;
uint32 hash1 = Rol32((uint32)((hashmult_ * at_src) >> 32), hash_bits_);
hashtable_high_bits_ = hash1;
hashentry_ptr_next_ = &hash_ptr_[hash1 & hash_mask_];
if (DualHash) {
uint32 hash2 = (0xCF1BBCDCB7A56463ull * at_src) >> (64 - hash_bits_);
hashentry2_ptr_next_ = &hash_ptr_[hash2 & ~(NumHash - 1)];
}
}
inline void SetHashPosPrefetch(const uint8 *p) {
SetHashPos(p);
_mm_prefetch((char*)hashentry_ptr_next_, _MM_HINT_T0);
if (DualHash)
_mm_prefetch((char*)hashentry2_ptr_next_, _MM_HINT_T0);
}
void Reset(const uint8 *p) {
memset(hash_ptr_, 0, sizeof(uint32) * (1 << hash_bits_));
src_base_ = p;
}
void InsertRange(const uint8 *p, size_t len) {
if (src_cur_ < p + len) {
const uint8 *src_base = src_base_;
Insert(hashentry_ptr_next_, hashentry2_ptr_next_, MakeHashValue(hashtable_high_bits_, src_cur_ - src_base));
for (int i = src_cur_ - p + 1; i < len; i *= 2) {
uint32 hash = Rol32((uint32)((hashmult_ * *(uint64*)(p + i)) >> 32), hash_bits_);
InsertOne(&hash_ptr_[hash & hash_mask_], MakeHashValue(hash, p + i - src_base));
}
SetHashPos(p + len);
} else if (src_cur_ != p + len) {
SetHashPos(p + len);
}
}
public:
void *malloced_ptr_ = 0;
uint32 *hash_ptr_ = 0;
int hash_bits_;
uint32 hash_mask_;
const uint8 *src_base_ = 0;
const uint8 *src_cur_ = 0;
uint32 *hashentry_ptr_next_ = 0;
uint32 *hashentry2_ptr_next_ = 0;
uint64 hashmult_;
uint32 hashtable_high_bits_;
};
class MatchHasher2 {
public:
MatchHasher2() {}
~MatchHasher2() {
delete[] firsthash_;
delete[] longhash_;
delete[] nexthash_;
}
void AllocateHash(int bits, int min_match_len) {
int a_bits = bits, b_bits = bits, c_bits = 16;
firsthash_bits_ = a_bits = std::min(a_bits, 19);
longhash_bits_ = b_bits = std::min(b_bits, 19);
firsthash_mask_ = (1 << a_bits) - 1;
longhash_mask_ = (1 << b_bits) - 1;
nexthash_mask_ = (1 << c_bits) - 1;
firsthash_ = new uint32[1 << a_bits];
longhash_ = new uint32[1 << b_bits];
nexthash_ = new uint16[1 << c_bits];
memset(firsthash_, 0, sizeof(uint32) * (1 << a_bits));
memset(longhash_, 0, sizeof(uint32) * (1 << b_bits));
memset(nexthash_, 0, sizeof(uint16) * (1 << c_bits));
}
struct HashPos {
uint32 pos;
uint32 hash_a, hash_b, hash_b_hi;
const uint8 *next_p;
};
HashPos GetHashPos(const uint8 *src) {
uint64 at_src = *(uint64*)src;
uint32 hash_a = (uint32)((0xB7A5646300000000ull * at_src) >> 32);
uint32 hash_b = (uint32)((0xCF1BBCDCB7A56463ull * at_src) >> 32);
HashPos hp = { (uint32)(src - src_base_), hash_a >> (32 - firsthash_bits_), hash_b >> (32 - longhash_bits_), hash_b, src + 1 };
return hp;
}
void SetBaseWithoutPreload(const uint8 *src_base) {
src_base_ = src_base;
}
void SetBaseAndPreload(const uint8 *src_base, const uint8 *src_start, int max_preload_len) {
src_base_ = src_base;
if (src_base == src_start)
return;
int preload_len = src_start - src_base;
const uint8 *src = src_base;
assert(preload_len > 0);
if (preload_len > max_preload_len) {
preload_len = max_preload_len;
src = src_start - preload_len;
}
int step = std::max(preload_len >> 18, 2);
int rounds_until_next_step = (preload_len >> 1) / step;
SetHashPos(src);
for (;;) {
if (--rounds_until_next_step <= 0) {
if (src >= src_start)
break;
step >>= 1;
assert(step >= 1);
rounds_until_next_step = (src_start - src) / step;
if (step > 1)
rounds_until_next_step >>= 1;
}
HashPos hp = GetHashPos(src);
src += step;
SetHashPos(src);
firsthash_[hp.hash_a] = hp.pos;
longhash_[hp.hash_b] = (hp.hash_b_hi & 0x3F) | (hp.pos << 6);
}
}
static uint32 MakeHashValue(uint32 cur_high, uint32 cur_pos) {
return (cur_high & ~0x3FFFFFF) | (cur_pos & 0x3FFFFFF);
}
inline void Insert(const HashPos &hp) {
nexthash_[hp.pos & nexthash_mask_] = firsthash_[hp.hash_a];
firsthash_[hp.hash_a] = hp.pos;
src_cur_ = hp.next_p;
}
inline void SetHashPos(const uint8 *p) {
src_cur_ = p;
}
inline void SetHashPosPrefetch(const uint8 *p) {
HashPos hp = GetHashPos(p);
_mm_prefetch((char*)&firsthash_[hp.hash_a], _MM_HINT_T0);
_mm_prefetch((char*)&longhash_[hp.hash_b], _MM_HINT_T0);
}
void InsertRange(const uint8 *p, size_t len) {
for (int i = 0; i < len; i = 2 * i + 1) {
uint32 hash_b = (uint32)((0xCF1BBCDCB7A56463ull * *(uint64*)(p + i)) >> 32);
longhash_[hash_b >> (32 - longhash_bits_)] = (hash_b & 0x3F) | ((p + i - src_base_) << 6);
}
const uint8 *p_end = p + len;
while (src_cur_ < p_end) {
uint32 hash_a = (uint32)((0xB7A5646300000000ull * *(uint64*)src_cur_) >> 32) >> (32 - firsthash_bits_);
uint32 pos = src_cur_ - src_base_;
nexthash_[pos & nexthash_mask_] = firsthash_[hash_a];
firsthash_[hash_a] = pos;
src_cur_++;
}
}
public:
uint32 *firsthash_ = 0;
uint32 *longhash_ = 0;
uint16 *nexthash_ = 0;
const uint8 *src_base_ = 0;
const uint8 *src_cur_ = 0;
uint32 firsthash_mask_;
uint32 longhash_mask_;
uint32 nexthash_mask_;
uint8 firsthash_bits_;
uint8 longhash_bits_;
};
template<typename T>
class FastMatchHasher {
public:
typedef T ElemType;
void AllocateHash(int bits, int k) {
hash_bits_ = bits;
if (k == 0)
k = 4;
if (k >= 5 && k <= 8) {
hashmult_ = 0xCF1BBCDCB7A56463ull << (8 * (8 - k));
} else {
hashmult_ = 0x9E3779B100000000ull;
}
malloced_ptr_ = malloc(sizeof(T) * (1 << bits) + 64);
hash_ptr_ = (T*)(((uintptr_t)malloced_ptr_ + 63) & ~63);
memset(hash_ptr_, 0, sizeof(T) * (1 << bits));
}
void SetBaseWithoutPreload(const uint8 *p) {
src_base_ = p;
}
void SetBaseAndPreload(const uint8 *src_base, const uint8 *src_start, int max_preload_len) {
src_base_ = src_base;
if (src_base == src_start)
return;
const uint8 *src = src_base;
int preload_len = src_start - src_base;
assert(preload_len > 0);
if (preload_len > max_preload_len) {
preload_len = max_preload_len;
src = src_start - preload_len;
}
int step = std::max(preload_len >> 18, 2);
int rounds_until_next_step = (preload_len >> 1) / step;
T *hash_ptr = hash_ptr_;
uint64 hashmult = hashmult_;
int hashshift = 64 - hash_bits_;
for (;;) {
if (--rounds_until_next_step <= 0) {
if (src >= src_start)
break;
step >>= 1;
assert(step >= 1);
rounds_until_next_step = (src_start - src) / step;
if (step > 1)
rounds_until_next_step >>= 1;
}
hash_ptr[(size_t)(*(uint64*)src * hashmult >> hashshift)] = src - src_base;
src += step;
}
}
void *malloced_ptr_ = NULL;
T *hash_ptr_ = NULL;
const uint8 *src_base_;
uint64 hashmult_;
int hash_bits_;
};