reactos/sdk/tools/hhpcomp/lzx_compress/lz_nonslide.c

395 lines
11 KiB
C

/*
File lz_nonslide.c, part of lzxcomp library
Copyright (C) 2002 Matthew T. Russotto
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; version 2.1 only
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
* Document here
*/
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#if defined(_WIN32)
#define WIN32_LEAN_AND_MEAN
#include <string.h>
#include <windows.h>
#else
#include <string.h>
#include <strings.h>
#ifdef DEBUG_PERF
#include <sys/time.h>
#include <sys/resource.h>
#endif
#endif
#include "lz_nonslide.h"
#define MAX_MATCH 253
#define MIN_MATCH 2
void lz_init(lz_info *lzi, int wsize, int max_dist,
int max_match, int min_match,
int frame_size,
get_chars_t get_chars,
output_match_t output_match,
output_literal_t output_literal, void *user_data)
{
/* the reason for the separate max_dist value is LZX can't reach the
first three characters in its nominal window. But using a smaller
window results in inefficiency when dealing with reset intervals
which are the length of the nominal window */
lzi->wsize = wsize;
if (max_match > wsize)
lzi->max_match = wsize;
else
lzi->max_match = max_match;
lzi->min_match = min_match;
if (lzi->min_match < 3) lzi->min_match = 3;
lzi->max_dist = max_dist;
lzi->block_buf_size = wsize + lzi->max_dist;
lzi->block_buf = malloc(lzi->block_buf_size);
lzi->block_bufe = lzi->block_buf + lzi->block_buf_size;
assert(lzi->block_buf != NULL);
lzi->cur_loc = 0;
lzi->block_loc = 0;
lzi->chars_in_buf = 0;
lzi->eofcount = 0;
lzi->get_chars = get_chars;
lzi->output_match = output_match;
lzi->output_literal = output_literal;
lzi->user_data = user_data;
lzi->frame_size = frame_size;
lzi->lentab = calloc(sizeof(int), lzi->block_buf_size);
lzi->prevtab = calloc(sizeof(u_char *), lzi->block_buf_size);
lzi->analysis_valid = 0;
}
void lz_release(lz_info *lzi)
{
free(lzi->block_buf);
free(lzi->lentab);
free(lzi->prevtab);
}
void lz_reset(lz_info *lzi)
{
int residual = lzi->chars_in_buf - lzi->block_loc;
memmove(lzi->block_buf, lzi->block_buf + lzi->block_loc, residual);
lzi->chars_in_buf = residual;
lzi->block_loc = 0;
lzi->analysis_valid = 0;
}
#ifdef LZNONSLIDE_MAIN
typedef struct lz_user_data
{
FILE *infile;
FILE *outfile;
int R0, R1, R2;
} lz_user_data;
int tmp_get_chars(lz_info *lzi, int n, u_char *buf)
{
lz_user_data *lzud = (lz_user_data *)lzi->user_data;
return fread(buf, 1, n, lzud->infile);
}
int tmp_output_match(lz_info *lzi, int match_pos, int match_len)
{
lz_user_data *lzud = (lz_user_data *)lzi->user_data;
int mod_match_loc;
mod_match_loc = match_pos;
fprintf(lzud->outfile, "(%d, %d)(%d)\n", match_pos, match_len, mod_match_loc);
return 0;
}
void tmp_output_literal(lz_info *lzi, u_char ch)
{
lz_user_data *lzud = (lz_user_data *)lzi->user_data;
fprintf(lzud->outfile, "'%c'", ch);
}
int main(int argc, char *argv[])
{
int wsize = atoi(argv[1]);
lz_info lzi;
lz_user_data lzu = {stdin, stdout, 1, 1, 1};
lz_init(&lzi, wsize, wsize, MAX_MATCH, MIN_MATCH, 8192, tmp_get_chars, tmp_output_match, tmp_output_literal,&lzu);
lz_compress(&lzi);
return 0;
}
#endif
int lz_left_to_process(lz_info *lzi)
{
return lzi->chars_in_buf - lzi->block_loc;
}
static void
fill_blockbuf(lz_info *lzi, int maxchars)
{
int toread;
u_char *readhere;
int nread;
if (lzi->eofcount) return;
maxchars -= lz_left_to_process(lzi);
toread = lzi->block_buf_size - lzi->chars_in_buf;
if (toread > maxchars) toread = maxchars;
readhere = lzi->block_buf + lzi->chars_in_buf;
nread = lzi->get_chars(lzi, toread, readhere);
lzi->chars_in_buf += nread;
if (nread != toread)
lzi->eofcount++;
}
static void lz_analyze_block(lz_info *lzi)
{
int *lentab, *lenp;
u_char **prevtab, **prevp;
u_char *bbp, *bbe;
u_char *chartab[256];
u_char *cursor;
int prevlen;
int ch;
int maxlen;
long wasinc;
int max_dist = lzi->max_dist;
#ifdef DEBUG_ANALYZE_BLOCK
static short n = 0;
#endif
#ifdef DEBUG_PERF
struct rusage innerloop;
struct timeval innertime, tmptime;
struct rusage outerloop;
struct timeval outertime;
struct rusage initialloop;
struct timeval initialtime;
struct rusage totalloop;
struct timeval totaltime;
#endif
#ifdef DEBUG_ANALYZE_BLOCK
fprintf(stderr, "Analyzing block %d, cur_loc = %06x\n", n, lzi->cur_loc);
#endif
memset(chartab, 0, sizeof(chartab));
prevtab = prevp = lzi->prevtab;
lentab = lenp = lzi->lentab;
memset(prevtab, 0, sizeof(*prevtab) * lzi->chars_in_buf);
memset(lentab, 0, sizeof(*prevtab) * lzi->chars_in_buf);
#ifdef DEBUG_PERF
memset(&innertime, 0, sizeof(innertime));
memset(&outertime, 0, sizeof(outertime));
getrusage(RUSAGE_SELF, &initialloop);
totalloop = initialloop;
#endif
bbp = lzi->block_buf;
bbe = bbp + lzi->chars_in_buf;
while (bbp < bbe) {
if (chartab[ch = *bbp]) {
*prevp = chartab[ch];
*lenp = 1;
}
chartab[ch] = bbp;
bbp++;
prevp++;
lenp++;
}
#ifdef DEBUG_PERF
initialtime = initialloop.ru_utime;
getrusage(RUSAGE_SELF, &initialloop);
timersub(&initialloop.ru_utime, &initialtime, &initialtime);
#endif
wasinc = 1;
for (maxlen = 1; wasinc && (maxlen < lzi->max_match); maxlen++) {
#ifdef DEBUG_PERF
getrusage(RUSAGE_SELF, &outerloop);
#endif
bbp = bbe - maxlen - 1;
lenp = lentab + lzi->chars_in_buf - maxlen - 1;
prevp = prevtab + lzi->chars_in_buf - maxlen - 1;
wasinc = 0;
while (bbp > lzi->block_buf) {
if (*lenp == maxlen) {
#ifdef DEBUG_PERF
getrusage(RUSAGE_SELF, &innerloop);
#endif
ch = bbp[maxlen];
cursor = *prevp;
while(cursor && ((bbp - cursor) <= max_dist)) {
prevlen = *(cursor - lzi->block_buf + lentab);
if (cursor[maxlen] == ch) {
*prevp = cursor;
(*lenp)++;
wasinc++;
break;
}
if (prevlen != maxlen) break;
cursor = *(cursor - lzi->block_buf + prevtab);
}
#ifdef DEBUG_PERF
tmptime = innerloop.ru_utime;
getrusage(RUSAGE_SELF, &innerloop);
timersub(&innerloop.ru_utime, &tmptime, &tmptime);
timeradd(&tmptime, &innertime, &innertime);
#endif
}
bbp--;
prevp--;
lenp--;
}
#ifdef DEBUG_PERF
tmptime = outerloop.ru_utime;
getrusage(RUSAGE_SELF, &outerloop);
timersub(&outerloop.ru_utime, &tmptime, &tmptime);
timeradd(&tmptime, &outertime, &outertime);
#endif
// fprintf(stderr, "maxlen = %d, wasinc = %ld\n", maxlen, wasinc);
}
#ifdef DEBUG_PERF
totaltime = totalloop.ru_utime;
getrusage(RUSAGE_SELF, &totalloop);
timersub(&totalloop.ru_utime, &totaltime, &totaltime);
fprintf(stderr, "Time spend in initial loop = %f\n", initialtime.tv_sec + initialtime.tv_usec/(double)1E6);
fprintf(stderr, "Time spend in outer loop = %f\n", outertime.tv_sec + outertime.tv_usec/(double)1E6);
fprintf(stderr, "Time spend in inner loop = %f\n", innertime.tv_sec + innertime.tv_usec/(double)1E6);
fprintf(stderr, "Time spend in all loops = %f\n", totaltime.tv_sec + totaltime.tv_usec/(double)1E6);
#endif
lzi->analysis_valid = 1;
#ifdef DEBUG_ANALYZE_BLOCK
fprintf(stderr, "Done analyzing block %d, cur_loc = %06x\n", n++, lzi->cur_loc);
#endif
}
void lz_stop_compressing(lz_info *lzi)
{
lzi->stop = 1;
/* fprintf(stderr, "Stopping...\n");*/
}
int lz_compress(lz_info *lzi, int nchars)
{
u_char *bbp, *bbe;
int *lentab, *lenp;
u_char **prevtab, **prevp;
int len;
int holdback;
short trimmed;
lzi->stop = 0;
while ((lz_left_to_process(lzi) || !lzi->eofcount) && !lzi->stop && nchars > 0) {
#if 1
if (!lzi->analysis_valid ||
(!lzi->eofcount &&
((lzi->chars_in_buf- lzi->block_loc) < nchars))) {
int residual = lzi->chars_in_buf - lzi->block_loc;
int bytes_to_move = lzi->max_dist + residual;
if (bytes_to_move > lzi->chars_in_buf)
bytes_to_move = lzi->chars_in_buf;
#ifdef DEBUG_ANALYZE_BLOCK
fprintf(stderr, "Moving %06x, chars_in_buf %06x, residual = %06x, nchars= %06x block_loc = %06x\n", bytes_to_move, lzi->chars_in_buf, residual, nchars, lzi->block_loc);
#endif
memmove(lzi->block_buf, lzi->block_buf + lzi->chars_in_buf - bytes_to_move,
bytes_to_move);
lzi->block_loc = bytes_to_move - residual;
lzi->chars_in_buf = bytes_to_move;
#ifdef DEBUG_ANALYZE_BLOCK
fprintf(stderr, "New chars_in_buf %06x, new block_loc = %06x, eof = %1d\n", lzi->chars_in_buf, lzi->block_loc, lzi->eofcount);
#endif
fill_blockbuf(lzi, nchars);
#ifdef DEBUG_ANALYZE_BLOCK
fprintf(stderr, "Really new chars_in_buf %06x, new block_loc = %06x, eof = %1d\n", lzi->chars_in_buf, lzi->block_loc, lzi->eofcount);
#endif
lz_analyze_block(lzi);
}
#else
if (!lzi->analysis_valid ||
(lzi->block_loc - lzi->chars_in_buf) == 0) {
lzi->block_loc = 0;
lzi->chars_in_buf = 0;
fill_blockbuf(lzi, nchars);
lz_analyze_block(lzi);
}
#endif
prevtab = prevp = lzi->prevtab + lzi->block_loc;
lentab = lenp = lzi->lentab + lzi->block_loc;
bbp = lzi->block_buf + lzi->block_loc;
holdback = lzi->max_match;
if (lzi->eofcount) holdback = 0;
if (lzi->chars_in_buf < (nchars + lzi->block_loc))
bbe = lzi->block_buf + lzi->chars_in_buf - holdback;
else
bbe = bbp + nchars;
while ((bbp < bbe) && (!lzi->stop)) {
trimmed = 0;
len = *lenp;
if (lzi->frame_size && (len > (lzi->frame_size - lzi->cur_loc % lzi->frame_size))) {
#ifdef DEBUG_TRIMMING
fprintf(stderr, "Trim for framing: %06x %d %d\n", lzi->cur_loc,len, (lzi->frame_size - lzi->cur_loc % lzi->frame_size));
#endif
trimmed = 1;
len = (lzi->frame_size - lzi->cur_loc % lzi->frame_size);
}
if (len > nchars) {
#ifdef DEBUG_TRIMMING
fprintf(stderr, "Trim for blocking: %06x %d %d\n", lzi->cur_loc,len, nchars);
#endif
trimmed = 1;
len = nchars;
}
if (len >= lzi->min_match) {
#ifdef LAZY
if ((bbp < bbe -1) && !trimmed &&
((lenp[1] > (len + 1)) /* || ((lenp[1] == len) && (prevp[1] > prevp[0])) */)) {
len = 1;
/* this is the lazy eval case */
}
else
#endif
if (lzi->output_match(lzi, (*prevp - lzi->block_buf) - lzi->block_loc,
len) < 0) {
// fprintf(stderr, "Match rejected: %06x %d\n", lzi->cur_loc, len);
len = 1; /* match rejected */
}
}
else
len = 1;
if (len < lzi->min_match) {
assert(len == 1);
lzi->output_literal(lzi, *bbp);
}
// fprintf(stderr, "len = %3d, *lenp = %3d, cur_loc = %06x, block_loc = %06x\n", len, *lenp, lzi->cur_loc, lzi->block_loc);
bbp += len;
prevp += len;
lenp += len;
lzi->cur_loc += len;
lzi->block_loc += len;
assert(nchars >= len);
nchars -= len;
}
}
return 0;
}