pcompress/adaptive_compress.c

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/*
* This file is a part of Pcompress, a chunked parallel multi-
* algorithm lossless compression and decompression program.
*
* Copyright (C) 2012 Moinak Ghosh. All rights reserved.
* Use is subject to license terms.
*
* 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; either
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* version 3 of the License, or (at your option) any later version.
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*
* 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.
*
* moinakg@belenix.org, http://moinakg.wordpress.com/
*
* This program includes partly-modified public domain source
* code from the LZMA SDK: http://www.7-zip.org/sdk.html
*/
#include <sys/types.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <strings.h>
#if defined(sun) || defined(__sun)
#include <sys/byteorder.h>
#else
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#include <byteswap.h>
#endif
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#include <utils.h>
#include <pcompress.h>
#include <allocator.h>
#define FIFTY_PCT(x) (((x)/10) * 5)
#define FORTY_PCT(x) (((x)/10) * 4)
#define ONE_PCT(x) ((x)/100)
static unsigned int lzma_count = 0;
static unsigned int bzip2_count = 0;
static unsigned int bsc_count = 0;
static unsigned int ppmd_count = 0;
extern int lzma_compress(void *src, uint64_t srclen, void *dst,
uint64_t *destlen, int level, uchar_t chdr, void *data);
extern int bzip2_compress(void *src, uint64_t srclen, void *dst,
uint64_t *destlen, int level, uchar_t chdr, void *data);
extern int ppmd_compress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
extern int libbsc_compress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
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extern int lzma_decompress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
extern int bzip2_decompress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
extern int ppmd_decompress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
extern int libbsc_decompress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data);
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extern int lzma_init(void **data, int *level, int nthreads, uint64_t chunksize,
int file_version, compress_op_t op);
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extern int lzma_deinit(void **data);
extern int ppmd_init(void **data, int *level, int nthreads, uint64_t chunksize,
int file_version, compress_op_t op);
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extern int ppmd_deinit(void **data);
extern int libbsc_init(void **data, int *level, int nthreads, uint64_t chunksize,
int file_version, compress_op_t op);
extern int libbsc_deinit(void **data);
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struct adapt_data {
void *lzma_data;
void *ppmd_data;
void *bsc_data;
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int adapt_mode;
};
void
adapt_stats(int show)
{
if (show) {
fprintf(stderr, "Adaptive mode stats:\n");
fprintf(stderr, " BZIP2 chunk count: %u\n", bzip2_count);
fprintf(stderr, " LIBBSC chunk count: %u\n", bsc_count);
fprintf(stderr, " PPMd chunk count: %u\n", ppmd_count);
fprintf(stderr, " LZMA chunk count: %u\n\n", lzma_count);
}
lzma_count = 0;
bzip2_count = 0;
bsc_count = 0;
ppmd_count = 0;
}
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void
adapt_props(algo_props_t *data, int level, uint64_t chunksize)
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{
data->delta2_span = 200;
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}
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int
adapt_init(void **data, int *level, int nthreads, uint64_t chunksize,
int file_version, compress_op_t op)
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{
struct adapt_data *adat = (struct adapt_data *)(*data);
int rv = 0;
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if (!adat) {
adat = (struct adapt_data *)slab_alloc(NULL, sizeof (struct adapt_data));
adat->adapt_mode = 1;
rv = ppmd_init(&(adat->ppmd_data), level, nthreads, chunksize, file_version, op);
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adat->lzma_data = NULL;
adat->bsc_data = NULL;
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*data = adat;
if (*level > 9) *level = 9;
}
lzma_count = 0;
bzip2_count = 0;
ppmd_count = 0;
bsc_count = 0;
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return (rv);
}
int
adapt2_init(void **data, int *level, int nthreads, uint64_t chunksize,
int file_version, compress_op_t op)
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{
struct adapt_data *adat = (struct adapt_data *)(*data);
int rv = 0, lv;
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if (!adat) {
adat = (struct adapt_data *)slab_alloc(NULL, sizeof (struct adapt_data));
adat->adapt_mode = 2;
adat->ppmd_data = NULL;
adat->bsc_data = NULL;
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lv = *level;
rv = ppmd_init(&(adat->ppmd_data), &lv, nthreads, chunksize, file_version, op);
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lv = *level;
if (rv == 0)
rv = lzma_init(&(adat->lzma_data), &lv, nthreads, chunksize, file_version, op);
lv = *level;
#ifdef ENABLE_PC_LIBBSC
if (rv == 0)
rv = libbsc_init(&(adat->bsc_data), &lv, nthreads, chunksize, file_version, op);
#endif
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*data = adat;
if (*level > 9) *level = 9;
}
lzma_count = 0;
bzip2_count = 0;
ppmd_count = 0;
bsc_count = 0;
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return (rv);
}
int
adapt_deinit(void **data)
{
struct adapt_data *adat = (struct adapt_data *)(*data);
int rv = 0;
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if (adat) {
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rv = ppmd_deinit(&(adat->ppmd_data));
if (adat->lzma_data)
rv += lzma_deinit(&(adat->lzma_data));
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slab_free(NULL, adat);
*data = NULL;
}
return (rv);
}
int
adapt_compress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data)
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{
struct adapt_data *adat = (struct adapt_data *)(data);
uchar_t *src1 = (uchar_t *)src;
uint64_t i, tot8b, tagcnt;
int rv = 0, tag;
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/*
* Count number of 8-bit binary bytes and XML tags in source.
*/
tot8b = 0;
tagcnt = 0;
for (i = 0; i < srclen; i++) {
tot8b += (src1[i] >> 7);
tag = ((src1[i] == '<') | (src1[i] == '>'));
tagcnt += tag;
}
/*
* Use PPMd if some percentage of source is 7-bit textual bytes, otherwise
* use Bzip2 or LZMA.
*/
if (adat->adapt_mode == 2 && tot8b > FORTY_PCT(srclen)) {
rv = lzma_compress(src, srclen, dst, dstlen, level, chdr, adat->lzma_data);
if (rv < 0)
return (rv);
rv = COMPRESS_LZMA;
lzma_count++;
} else if (adat->adapt_mode == 1 && tot8b > FIFTY_PCT(srclen)) {
rv = bzip2_compress(src, srclen, dst, dstlen, level, chdr, NULL);
if (rv < 0)
return (rv);
rv = COMPRESS_BZIP2;
bzip2_count++;
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} else {
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if (adat->bsc_data && tagcnt > ONE_PCT(srclen)) {
#ifdef ENABLE_PC_LIBBSC
rv = libbsc_compress(src, srclen, dst, dstlen, level, chdr, adat->bsc_data);
if (rv < 0)
return (rv);
rv = COMPRESS_BSC;
bsc_count++;
#endif
} else {
rv = ppmd_compress(src, srclen, dst, dstlen, level, chdr, adat->ppmd_data);
if (rv < 0)
return (rv);
rv = COMPRESS_PPMD;
ppmd_count++;
}
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}
return (rv);
}
int
adapt_decompress(void *src, uint64_t srclen, void *dst,
uint64_t *dstlen, int level, uchar_t chdr, void *data)
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{
struct adapt_data *adat = (struct adapt_data *)(data);
uchar_t cmp_flags;
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cmp_flags = (chdr>>4) & CHDR_ALGO_MASK;
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if (cmp_flags == COMPRESS_LZMA) {
return (lzma_decompress(src, srclen, dst, dstlen, level, chdr, adat->lzma_data));
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} else if (cmp_flags == COMPRESS_BZIP2) {
return (bzip2_decompress(src, srclen, dst, dstlen, level, chdr, NULL));
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} else if (cmp_flags == COMPRESS_PPMD) {
return (ppmd_decompress(src, srclen, dst, dstlen, level, chdr, adat->ppmd_data));
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} else if (cmp_flags == COMPRESS_BSC) {
#ifdef ENABLE_PC_LIBBSC
return (libbsc_decompress(src, srclen, dst, dstlen, level, chdr, adat->bsc_data));
#else
fprintf(stderr, "Cannot decompress chunk. Libbsc support not present.\n");
return (-1);
#endif
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} else {
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fprintf(stderr, "Unrecognized compression mode: %d, file corrupt.\n", cmp_flags);
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}
return (-1);
}