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match_tpl.h
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match_tpl.h
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/* match_tpl.h -- find longest match template for compare256 variants
*
* Copyright (C) 1995-2013 Jean-loup Gailly and Mark Adler
* For conditions of distribution and use, see copyright notice in zlib.h
*
* Portions copyright (C) 2014-2021 Konstantin Nosov
* Fast-zlib optimized longest_match
* https://github.com/gildor2/fast_zlib
*/
#ifndef MATCH_TPL_H
#define MATCH_TPL_H
#define EARLY_EXIT_TRIGGER_LEVEL 5
#endif
/* Set match_start to the longest match starting at the given string and
* return its length. Matches shorter or equal to prev_length are discarded,
* in which case the result is equal to prev_length and match_start is garbage.
*
* IN assertions: cur_match is the head of the hash chain for the current
* string (strstart) and its distance is <= MAX_DIST, and prev_length >=1
* OUT assertion: the match length is not greater than s->lookahead
*/
Z_INTERNAL uint32_t LONGEST_MATCH(deflate_state *const s, Pos cur_match) {
unsigned int strstart = s->strstart;
const unsigned wmask = s->w_mask;
unsigned char *window = s->window;
unsigned char *scan = window + strstart;
Z_REGISTER unsigned char *mbase_start = window;
Z_REGISTER unsigned char *mbase_end;
const Pos *prev = s->prev;
Pos limit;
#ifdef LONGEST_MATCH_SLOW
Pos limit_base;
#else
int32_t early_exit;
#endif
uint32_t chain_length, nice_match, best_len, offset;
uint32_t lookahead = s->lookahead;
Pos match_offset = 0;
#ifdef UNALIGNED_OK
uint8_t scan_start[8];
#endif
uint8_t scan_end[8];
#define GOTO_NEXT_CHAIN \
if (--chain_length && (cur_match = prev[cur_match & wmask]) > limit) \
continue; \
return best_len;
/* The code is optimized for STD_MAX_MATCH-2 multiple of 16. */
Assert(STD_MAX_MATCH == 258, "Code too clever");
best_len = s->prev_length ? s->prev_length : STD_MIN_MATCH-1;
/* Calculate read offset which should only extend an extra byte
* to find the next best match length.
*/
offset = best_len-1;
#ifdef UNALIGNED_OK
if (best_len >= sizeof(uint32_t)) {
offset -= 2;
#ifdef UNALIGNED64_OK
if (best_len >= sizeof(uint64_t))
offset -= 4;
#endif
}
#endif
#ifdef UNALIGNED64_OK
memcpy(scan_start, scan, sizeof(uint64_t));
memcpy(scan_end, scan+offset, sizeof(uint64_t));
#elif defined(UNALIGNED_OK)
memcpy(scan_start, scan, sizeof(uint32_t));
memcpy(scan_end, scan+offset, sizeof(uint32_t));
#else
scan_end[0] = *(scan+offset);
scan_end[1] = *(scan+offset+1);
#endif
mbase_end = (mbase_start+offset);
/* Do not waste too much time if we already have a good match */
chain_length = s->max_chain_length;
if (best_len >= s->good_match)
chain_length >>= 2;
nice_match = (uint32_t)s->nice_match;
/* Stop when cur_match becomes <= limit. To simplify the code,
* we prevent matches with the string of window index 0
*/
limit = strstart > MAX_DIST(s) ? (Pos)(strstart - MAX_DIST(s)) : 0;
#ifdef LONGEST_MATCH_SLOW
limit_base = limit;
if (best_len >= STD_MIN_MATCH) {
/* We're continuing search (lazy evaluation). */
uint32_t i, hash;
Pos pos;
/* Find a most distant chain starting from scan with index=1 (index=0 corresponds
* to cur_match). We cannot use s->prev[strstart+1,...] immediately, because
* these strings are not yet inserted into the hash table.
*/
hash = s->update_hash(s, 0, scan[1]);
hash = s->update_hash(s, hash, scan[2]);
for (i = 3; i <= best_len; i++) {
hash = s->update_hash(s, hash, scan[i]);
/* If we're starting with best_len >= 3, we can use offset search. */
pos = s->head[hash];
if (pos < cur_match) {
match_offset = (Pos)(i - 2);
cur_match = pos;
}
}
/* Update offset-dependent variables */
limit = limit_base+match_offset;
if (cur_match <= limit)
goto break_matching;
mbase_start -= match_offset;
mbase_end -= match_offset;
}
#else
early_exit = s->level < EARLY_EXIT_TRIGGER_LEVEL;
#endif
Assert((unsigned long)strstart <= s->window_size - MIN_LOOKAHEAD, "need lookahead");
for (;;) {
if (cur_match >= strstart)
break;
/* Skip to next match if the match length cannot increase or if the match length is
* less than 2. Note that the checks below for insufficient lookahead only occur
* occasionally for performance reasons.
* Therefore uninitialized memory will be accessed and conditional jumps will be made
* that depend on those values. However the length of the match is limited to the
* lookahead, so the output of deflate is not affected by the uninitialized values.
*/
#ifdef UNALIGNED_OK
if (best_len < sizeof(uint32_t)) {
for (;;) {
if (zng_memcmp_2(mbase_end+cur_match, scan_end) == 0 &&
zng_memcmp_2(mbase_start+cur_match, scan_start) == 0)
break;
GOTO_NEXT_CHAIN;
}
# ifdef UNALIGNED64_OK
} else if (best_len >= sizeof(uint64_t)) {
for (;;) {
if (zng_memcmp_8(mbase_end+cur_match, scan_end) == 0 &&
zng_memcmp_8(mbase_start+cur_match, scan_start) == 0)
break;
GOTO_NEXT_CHAIN;
}
# endif
} else {
for (;;) {
if (zng_memcmp_4(mbase_end+cur_match, scan_end) == 0 &&
zng_memcmp_4(mbase_start+cur_match, scan_start) == 0)
break;
GOTO_NEXT_CHAIN;
}
}
#else
for (;;) {
if (mbase_end[cur_match] == scan_end[0] && mbase_end[cur_match+1] == scan_end[1] &&
mbase_start[cur_match] == scan[0] && mbase_start[cur_match+1] == scan[1])
break;
GOTO_NEXT_CHAIN;
}
#endif
uint32_t len = COMPARE256(scan+2, mbase_start+cur_match+2) + 2;
Assert(scan+len <= window+(unsigned)(s->window_size-1), "wild scan");
if (len > best_len) {
uint32_t match_start = cur_match - match_offset;
s->match_start = match_start;
/* Do not look for matches beyond the end of the input. */
if (len > lookahead)
return lookahead;
best_len = len;
if (best_len >= nice_match)
return best_len;
offset = best_len-1;
#ifdef UNALIGNED_OK
if (best_len >= sizeof(uint32_t)) {
offset -= 2;
#ifdef UNALIGNED64_OK
if (best_len >= sizeof(uint64_t))
offset -= 4;
#endif
}
#endif
#ifdef UNALIGNED64_OK
memcpy(scan_end, scan+offset, sizeof(uint64_t));
#elif defined(UNALIGNED_OK)
memcpy(scan_end, scan+offset, sizeof(uint32_t));
#else
scan_end[0] = *(scan+offset);
scan_end[1] = *(scan+offset+1);
#endif
#ifdef LONGEST_MATCH_SLOW
/* Look for a better string offset */
if (UNLIKELY(len > STD_MIN_MATCH && match_start + len < strstart)) {
Pos pos, next_pos;
uint32_t i, hash;
unsigned char *scan_endstr;
/* Go back to offset 0 */
cur_match -= match_offset;
match_offset = 0;
next_pos = cur_match;
for (i = 0; i <= len - STD_MIN_MATCH; i++) {
pos = prev[(cur_match + i) & wmask];
if (pos < next_pos) {
/* Hash chain is more distant, use it */
if (pos <= limit_base + i)
goto break_matching;
next_pos = pos;
match_offset = (Pos)i;
}
}
/* Switch cur_match to next_pos chain */
cur_match = next_pos;
/* Try hash head at len-(STD_MIN_MATCH-1) position to see if we could get
* a better cur_match at the end of string. Using (STD_MIN_MATCH-1) lets
* us include one more byte into hash - the byte which will be checked
* in main loop now, and which allows to grow match by 1.
*/
scan_endstr = scan + len - (STD_MIN_MATCH+1);
hash = s->update_hash(s, 0, scan_endstr[0]);
hash = s->update_hash(s, hash, scan_endstr[1]);
hash = s->update_hash(s, hash, scan_endstr[2]);
pos = s->head[hash];
if (pos < cur_match) {
match_offset = (Pos)(len - (STD_MIN_MATCH+1));
if (pos <= limit_base + match_offset)
goto break_matching;
cur_match = pos;
}
/* Update offset-dependent variables */
limit = limit_base+match_offset;
mbase_start = window-match_offset;
mbase_end = (mbase_start+offset);
continue;
}
#endif
mbase_end = (mbase_start+offset);
}
#ifndef LONGEST_MATCH_SLOW
else if (UNLIKELY(early_exit)) {
/* The probability of finding a match later if we here is pretty low, so for
* performance it's best to outright stop here for the lower compression levels
*/
break;
}
#endif
GOTO_NEXT_CHAIN;
}
return best_len;
#ifdef LONGEST_MATCH_SLOW
break_matching:
if (best_len < s->lookahead)
return best_len;
return s->lookahead;
#endif
}
#undef LONGEST_MATCH_SLOW
#undef LONGEST_MATCH
#undef COMPARE256