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mir-reduce.h
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mir-reduce.h
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/* This file is a part of MIR project.
Copyright (C) 2018-2024 Vladimir Makarov <[email protected]>.
*/
#ifndef MIR_REDUCE_H
#define MIR_REDUCE_H
/* Data compression. Major goals are simplicity, fast decompression
speed, moderate compression speed. The algorithm is tuned for
binary MIR compression and close to LZ4. Only we use a bit
different format and offsets in symbol numbers instead of just
offsets.
A better compression (on par with LZ4) could be achieved by adding
elements for all positions (now positions inside referenced symbols
are excluded) or/and increasing the buffer or/and increasing the
table. But it would slow down the compression or/and increase the
used memory.
Functions reduce_encode, reduce_decode, reduce_encode_start,
reduce_encode_put, reduce_encode_finish, reduce_decode_start,
reduce_decode_get, reduce_decode_finish are the only interface
functions.
Format of compressed data: "MIR", elements*, zero byte, 8-byte check hash in little endian form
Format of element:
o 8 bits tag
(N bits for symbol length; 0 means no sym, 2^N -1 means symbol length as uint present;
(8-N) bits for reference length; 0 means no ref, 2^(8-N) - 1 means length as uint present)
o [uint for symbol lenght]*, symbol string,
o [uint for ref len]*, symbol number as uint */
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "mir-hash.h"
#include "mir-alloc.h"
#define FALSE 0
#define TRUE 1
#define _REDUCE_DATA_PREFIX "MIR" /* first chars of compressed data */
#define _REDUCE_SYMB_TAG_LEN 3 /* for some application could be 4 */
#define _REDUCE_SYMB_TAG_LONG ((1 << _REDUCE_SYMB_TAG_LEN) - 1) /* should be not changed */
#define _REDUCE_REF_TAG_LEN (8 - _REDUCE_SYMB_TAG_LEN)
#define _REDUCE_REF_TAG_LONG ((1 << _REDUCE_REF_TAG_LEN) - 1) /* should be not changed */
#define _REDUCE_START_LEN 4 /* Should be at least 4 */
#define _REDUCE_BUF_LEN (1 << 18)
/* The following should be power of two. There will be no space saving if it is less than 1/4 of buf
length. */
#define _REDUCE_TABLE_SIZE (_REDUCE_BUF_LEN / 4)
#define _REDUCE_MAX_SYMB_LEN (2047)
typedef size_t (*reduce_reader_t) (void *start, size_t len, void *aux_data);
typedef size_t (*reduce_writer_t) (const void *start, size_t len, void *aux_data);
struct _reduce_el {
uint32_t pos, num, next, head;
};
struct _reduce_encode_data {
reduce_writer_t writer;
uint32_t el_free;
uint32_t curr_symb_len;
uint8_t curr_symb[_REDUCE_MAX_SYMB_LEN];
struct _reduce_el table[_REDUCE_TABLE_SIZE]; /* hash -> el */
};
struct _reduce_decode_data {
uint8_t eof_p;
uint32_t buf_get_pos;
reduce_reader_t reader;
uint32_t ind2pos[_REDUCE_BUF_LEN];
};
struct reduce_data {
union {
struct _reduce_encode_data encode;
struct _reduce_decode_data decode;
} u;
void *aux_data;
uint8_t ok_p;
uint64_t check_hash;
uint32_t curr_num, buf_bound;
uint8_t buf[_REDUCE_BUF_LEN];
};
static inline uint32_t _reduce_min (uint32_t a, uint32_t b) { return a < b ? a : b; }
static inline uint32_t _reduce_get_new_el (struct reduce_data *data) {
struct _reduce_encode_data *encode_data = &data->u.encode;
uint32_t res = encode_data->el_free;
if (res != UINT32_MAX) encode_data->el_free = encode_data->table[res].next;
return res;
}
static inline void _reduce_put (struct reduce_data *data, int byte) {
uint8_t u = byte;
if (data->u.encode.writer (&u, 1, data->aux_data) != 1) data->ok_p = FALSE;
}
static inline int _reduce_get (reduce_reader_t reader, void *aux_data) {
uint8_t u;
if (reader (&u, 1, aux_data) != 1) return -1;
return u;
}
static inline uint32_t _reduce_ref_offset_size (uint32_t offset) {
return offset < (1 << 7) ? 1 : offset < (1 << 14) ? 2 : offset < (1 << 21) ? 3 : 4;
}
static inline uint32_t _reduce_ref_size (uint32_t len, uint32_t offset) {
assert (len >= _REDUCE_START_LEN);
len -= _REDUCE_START_LEN - 1;
return ((len < _REDUCE_REF_TAG_LONG ? 0 : _reduce_ref_offset_size (len))
+ _reduce_ref_offset_size (offset));
}
static inline void _reduce_uint_write (struct reduce_data *data, uint32_t u) {
int n;
assert (u < (1 << 7 * 4));
for (n = 1; n <= 4 && u >= (1u << 7 * n); n++)
;
_reduce_put (data, (1 << (8 - n)) | ((u >> (n - 1) * 8) & 0xff)); /* tag */
for (int i = 2; i <= n; i++) _reduce_put (data, (u >> (n - i) * 8) & 0xff);
}
static inline int64_t _reduce_uint_read (reduce_reader_t reader, void *aux_data) {
int i, n, r = _reduce_get (reader, aux_data);
uint32_t u, v;
if (r < 0) return -1;
for (u = (uint32_t) r, n = 1; n <= 4 && (u >> (8 - n)) != 1; n++)
;
assert ((u >> (8 - n)) == 1);
v = u & (0xff >> n);
for (i = 1; i < n; i++) {
if ((r = _reduce_get (reader, aux_data)) < 0) return -1;
v = v * 256 + (uint32_t) r;
}
return v;
}
static inline void _reduce_hash_write (struct reduce_data *data, uint64_t h) {
_reduce_put (data, 0); /* 0 tag */
for (size_t i = 0; i < sizeof (uint64_t); i++) _reduce_put (data, (h >> i * 8) & 0xff);
}
static inline uint64_t _reduce_str2hash (const uint8_t *s) {
uint64_t h = 0;
for (size_t i = 0; i < sizeof (uint64_t); i++) h |= (uint64_t) s[i] << i * 8;
return h;
}
static inline int _reduce_symb_flush (struct reduce_data *data, int ref_tag) {
uint8_t u;
struct _reduce_encode_data *encode_data = &data->u.encode;
uint32_t len = encode_data->curr_symb_len;
if (len == 0 && ref_tag == 0) return FALSE;
u = ((len < _REDUCE_SYMB_TAG_LONG ? len : _REDUCE_SYMB_TAG_LONG) << _REDUCE_REF_TAG_LEN)
| ref_tag;
encode_data->writer (&u, 1, data->aux_data);
if (len >= _REDUCE_SYMB_TAG_LONG) _reduce_uint_write (data, len);
encode_data->writer (encode_data->curr_symb, len, data->aux_data);
encode_data->curr_symb_len = 0;
return TRUE;
}
static inline void _reduce_output_byte (struct reduce_data *data, uint32_t pos) {
struct _reduce_encode_data *encode_data = &data->u.encode;
if (encode_data->curr_symb_len + 1 > _REDUCE_MAX_SYMB_LEN) {
_reduce_symb_flush (data, 0);
encode_data->curr_symb_len = 0;
}
encode_data->curr_symb[encode_data->curr_symb_len++] = data->buf[pos];
}
static inline void _reduce_output_ref (struct reduce_data *data, uint32_t offset, uint32_t len) {
uint32_t ref_tag;
assert (len >= _REDUCE_START_LEN);
len -= _REDUCE_START_LEN - 1;
ref_tag = len < _REDUCE_REF_TAG_LONG ? len : _REDUCE_REF_TAG_LONG;
_reduce_symb_flush (data, ref_tag);
if (len >= _REDUCE_REF_TAG_LONG) _reduce_uint_write (data, len);
_reduce_uint_write (data, offset);
}
#define _REDUCE_HASH_SEED 24
static inline uint32_t _reduce_dict_find_longest (struct reduce_data *data, uint32_t pos,
uint32_t *dict_pos) {
uint32_t len, best_len, len_bound;
uint64_t hash;
uint32_t off, ref_size, best_ref_size = 0;
uint32_t curr, next;
const uint8_t *s1, *s2;
struct _reduce_el *el, *best_el = NULL;
struct _reduce_encode_data *encode_data = &data->u.encode;
if (pos + _REDUCE_START_LEN > data->buf_bound) return 0;
/* To have the same compressed output independently of the target
and the used compiler, use strict hash even if it decreases
compression speed by 10%. */
hash
= mir_hash_strict (&data->buf[pos], _REDUCE_START_LEN, _REDUCE_HASH_SEED) % _REDUCE_TABLE_SIZE;
best_len = 0; /* to remove a warning */
for (curr = encode_data->table[hash].head; curr != UINT32_MAX; curr = next) {
next = encode_data->table[curr].next;
el = &encode_data->table[curr];
len_bound = _reduce_min (data->buf_bound - pos, pos - el->pos);
if (len_bound < _REDUCE_START_LEN) continue;
s1 = &data->buf[el->pos];
s2 = &data->buf[pos];
#if MIR_HASH_UNALIGNED_ACCESS
assert (_REDUCE_START_LEN >= 4);
if (*(uint32_t *) &s1[0] != *(uint32_t *) &s2[0]) continue;
len = 4;
#else
len = 0;
#endif
for (; len < len_bound; len++)
if (s1[len] != s2[len]) break;
#if !MIR_HASH_UNALIGNED_ACCESS
if (len < _REDUCE_START_LEN) continue;
#endif
off = data->curr_num - el->num;
if (best_el == NULL) {
best_len = len;
best_el = el;
best_ref_size = _reduce_ref_size (len, off);
continue;
}
ref_size = _reduce_ref_size (len, off);
if (best_len + ref_size < len + best_ref_size) {
best_len = len;
best_el = el;
best_ref_size = ref_size;
}
}
if (best_el == NULL) return 0;
*dict_pos = best_el->num;
return best_len;
}
static inline void _reduce_dict_add (struct reduce_data *data, uint32_t pos) {
uint64_t hash;
uint32_t prev, curr, num = data->curr_num++;
struct _reduce_encode_data *encode_data = &data->u.encode;
if (pos + _REDUCE_START_LEN > data->buf_bound) return;
hash
= mir_hash_strict (&data->buf[pos], _REDUCE_START_LEN, _REDUCE_HASH_SEED) % _REDUCE_TABLE_SIZE;
if ((curr = _reduce_get_new_el (data)) == UINT32_MAX) { /* rare case: use last if any */
for (prev = UINT32_MAX, curr = encode_data->table[hash].head;
curr != UINT32_MAX && encode_data->table[curr].next != UINT32_MAX;
prev = curr, curr = encode_data->table[curr].next)
;
if (curr == UINT32_MAX) return; /* no more free els */
if (prev != UINT32_MAX)
encode_data->table[prev].next = encode_data->table[curr].next;
else
encode_data->table[hash].head = encode_data->table[curr].next;
}
encode_data->table[curr].pos = pos;
encode_data->table[curr].num = num;
encode_data->table[curr].next = encode_data->table[hash].head;
encode_data->table[hash].head = curr;
}
static void _reduce_reset_next (struct reduce_data *data) {
struct _reduce_encode_data *encode_data = &data->u.encode;
for (uint32_t i = 0; i < _REDUCE_TABLE_SIZE; i++) {
encode_data->table[i].next = i + 1;
encode_data->table[i].head = UINT32_MAX;
}
encode_data->table[_REDUCE_TABLE_SIZE - 1].next = UINT32_MAX;
encode_data->el_free = 0;
}
#define _REDUCE_CHECK_HASH_SEED 42
static inline struct reduce_data *reduce_encode_start (MIR_alloc_t alloc, reduce_writer_t writer,
void *aux_data) {
struct reduce_data *data = MIR_malloc (alloc, sizeof (struct reduce_data));
char prefix[] = _REDUCE_DATA_PREFIX;
size_t prefix_size = strlen (prefix);
if (data == NULL) return data;
data->u.encode.writer = writer;
data->aux_data = aux_data;
data->check_hash = _REDUCE_CHECK_HASH_SEED;
data->buf_bound = 0;
data->ok_p = writer (prefix, prefix_size, aux_data) == prefix_size;
return data;
}
static inline void _reduce_encode_buf (struct reduce_data *data) {
uint32_t dict_len, dict_pos, base;
if (data->buf_bound == 0) return;
data->check_hash = mir_hash_strict (data->buf, data->buf_bound, data->check_hash);
data->curr_num = data->u.encode.curr_symb_len = 0;
_reduce_reset_next (data);
for (uint32_t pos = 0; pos < data->buf_bound;) {
dict_len = _reduce_dict_find_longest (data, pos, &dict_pos);
base = data->curr_num;
if (dict_len == 0) {
_reduce_output_byte (data, pos);
_reduce_dict_add (data, pos);
pos++;
continue;
}
_reduce_output_ref (data, base - dict_pos, dict_len);
_reduce_dict_add (data, pos); /* replace */
pos += dict_len;
}
_reduce_symb_flush (data, 0);
}
static inline void reduce_encode_put (struct reduce_data *data, int c) {
if (data->buf_bound < _REDUCE_BUF_LEN) {
data->buf[data->buf_bound++] = c;
return;
}
_reduce_encode_buf (data);
data->buf_bound = 0;
data->buf[data->buf_bound++] = c;
}
static inline int reduce_encode_finish (MIR_alloc_t alloc, struct reduce_data *data) {
int ok_p;
_reduce_encode_buf (data);
_reduce_hash_write (data, data->check_hash);
ok_p = data->ok_p;
MIR_free (alloc, data);
return ok_p;
}
static inline struct reduce_data *reduce_decode_start (MIR_alloc_t alloc, reduce_reader_t reader,
void *aux_data) {
struct reduce_data *data = MIR_malloc (alloc, sizeof (struct reduce_data));
struct _reduce_decode_data *decode_data = &data->u.decode;
char prefix[] = _REDUCE_DATA_PREFIX, str[sizeof (prefix)];
size_t prefix_size = strlen (prefix);
if (data == NULL) return data;
decode_data->reader = reader;
data->aux_data = aux_data;
data->check_hash = _REDUCE_CHECK_HASH_SEED;
decode_data->buf_get_pos = data->buf_bound = 0;
data->ok_p
= reader (str, prefix_size, aux_data) == prefix_size && memcmp (prefix, str, prefix_size) == 0;
decode_data->eof_p = FALSE;
return data;
}
static inline int reduce_decode_get (struct reduce_data *data) {
uint8_t tag, hash_str[sizeof (uint64_t)];
uint32_t sym_len, ref_len, ref_ind, sym_pos, pos = 0, curr_ind = 0;
int64_t r;
struct _reduce_decode_data *decode_data = &data->u.decode;
reduce_reader_t reader = decode_data->reader;
if (decode_data->buf_get_pos < data->buf_bound) return data->buf[decode_data->buf_get_pos++];
if (decode_data->eof_p) return -1;
for (;;) {
if (reader (&tag, 1, data->aux_data) == 0) break;
if (tag == 0) { /* check hash */
if (reader (hash_str, sizeof (hash_str), data->aux_data) != sizeof (hash_str)
|| reader (&tag, 1, data->aux_data) != 0)
break;
if (pos != 0) data->check_hash = mir_hash_strict (data->buf, pos, data->check_hash);
if (_reduce_str2hash (hash_str) != data->check_hash) break;
decode_data->eof_p = TRUE;
decode_data->buf_get_pos = 0;
data->buf_bound = pos;
return pos == 0 ? -1 : data->buf[decode_data->buf_get_pos++];
}
sym_len = tag >> _REDUCE_REF_TAG_LEN;
if (sym_len != 0) {
if (sym_len == _REDUCE_SYMB_TAG_LONG) {
if ((r = _reduce_uint_read (reader, data->aux_data)) < 0) break;
sym_len = (uint32_t) r;
}
if (sym_len > _REDUCE_MAX_SYMB_LEN || pos + sym_len > _REDUCE_BUF_LEN) break;
if (reader (&data->buf[pos], sym_len, data->aux_data) != sym_len) break;
for (uint32_t i = 0; i < sym_len; i++, pos++, curr_ind++)
decode_data->ind2pos[curr_ind] = pos;
}
ref_len = tag & _REDUCE_REF_TAG_LONG;
if (ref_len != 0) {
if (ref_len == _REDUCE_REF_TAG_LONG) {
if ((r = _reduce_uint_read (reader, data->aux_data)) < 0) break;
ref_len = (uint32_t) r;
}
ref_len += _REDUCE_START_LEN - 1;
if ((r = _reduce_uint_read (reader, data->aux_data)) < 0) break;
ref_ind = (uint32_t) r;
if (curr_ind < ref_ind) break;
sym_pos = decode_data->ind2pos[curr_ind - ref_ind];
if (sym_pos + ref_len > _REDUCE_BUF_LEN) break;
memcpy (&data->buf[pos], &data->buf[sym_pos], ref_len);
decode_data->ind2pos[curr_ind++] = pos;
pos += ref_len;
}
if (pos >= _REDUCE_BUF_LEN) {
assert (pos == _REDUCE_BUF_LEN);
data->check_hash = mir_hash_strict (data->buf, pos, data->check_hash);
data->buf_bound = _REDUCE_BUF_LEN;
decode_data->buf_get_pos = 0;
return data->buf[decode_data->buf_get_pos++];
}
}
data->ok_p = FALSE;
return -1;
}
static inline int reduce_decode_finish (MIR_alloc_t alloc, struct reduce_data *data) {
uint8_t tag;
int ok_p
= data->ok_p && data->u.decode.eof_p && data->u.decode.reader (&tag, 1, data->aux_data) == 0;
MIR_free (alloc, data);
return ok_p;
}
#define _REDUCE_WRITE_IO_LEN 256
static inline int reduce_encode (MIR_alloc_t alloc, reduce_reader_t reader, reduce_writer_t writer,
void *aux_data) {
size_t i, size;
uint8_t buf[_REDUCE_WRITE_IO_LEN];
struct reduce_data *data = reduce_encode_start (alloc, writer, aux_data);
if (data == NULL) return FALSE;
for (;;) {
if ((size = reader (buf, _REDUCE_WRITE_IO_LEN, data->aux_data)) == 0) break;
for (i = 0; i < size; i++) reduce_encode_put (data, buf[i]);
}
return reduce_encode_finish (alloc, data);
}
static inline int reduce_decode (MIR_alloc_t alloc, reduce_reader_t reader, reduce_writer_t writer,
void *aux_data) {
int c, i;
uint8_t buf[_REDUCE_WRITE_IO_LEN];
struct reduce_data *data = reduce_decode_start (alloc, reader, aux_data);
if (data == NULL) return FALSE;
for (;;) {
for (i = 0; i < _REDUCE_WRITE_IO_LEN && (c = reduce_decode_get (data)) >= 0; i++) buf[i] = c;
if (i != 0) writer (buf, i, aux_data);
if (c < 0) break;
}
return reduce_decode_finish (alloc, data);
}
#endif /* #ifndef MIR_REDUCE_H */