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/*
* Common bit i/o utils
* Copyright (c) 2000, 2001 Gerard Lantau.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#ifdef __FreeBSD__
#include <sys/param.h>
#endif
#include <netinet/in.h>
#include <math.h>
#include "common.h"
#define NDEBUG
#include <assert.h>
void init_put_bits(PutBitContext *s,
UINT8 *buffer, int buffer_size,
void *opaque,
void (*write_data)(void *, UINT8 *, int))
{
s->buf = buffer;
s->buf_ptr = s->buf;
s->buf_end = s->buf + buffer_size;
s->bit_cnt=0;
s->bit_buf=0;
s->data_out_size = 0;
s->write_data = write_data;
s->opaque = opaque;
}
static void flush_buffer(PutBitContext *s)
{
int size;
if (s->write_data) {
size = s->buf_ptr - s->buf;
if (size > 0)
s->write_data(s->opaque, s->buf, size);
s->buf_ptr = s->buf;
s->data_out_size += size;
}
}
void put_bits(PutBitContext *s, int n, unsigned int value)
{
unsigned int bit_buf;
int bit_cnt;
#ifdef STATS
st_out_bit_counts[st_current_index] += n;
#endif
// printf("put_bits=%d %x\n", n, value);
assert(n == 32 || value < (1U << n));
bit_buf = s->bit_buf;
bit_cnt = s->bit_cnt;
// printf("n=%d value=%x cnt=%d buf=%x\n", n, value, bit_cnt, bit_buf);
/* XXX: optimize */
if (n < (32-bit_cnt)) {
bit_buf |= value << (32 - n - bit_cnt);
bit_cnt+=n;
} else {
bit_buf |= value >> (n + bit_cnt - 32);
*(UINT32 *)s->buf_ptr = htonl(bit_buf);
//printf("bitbuf = %08x\n", bit_buf);
s->buf_ptr+=4;
if (s->buf_ptr >= s->buf_end)
flush_buffer(s);
bit_cnt=bit_cnt + n - 32;
if (bit_cnt == 0) {
bit_buf = 0;
} else {
bit_buf = value << (32 - bit_cnt);
}
}
s->bit_buf = bit_buf;
s->bit_cnt = bit_cnt;
}
/* return the number of bits output */
long long get_bit_count(PutBitContext *s)
{
return (s->buf_ptr - s->buf + s->data_out_size) * 8 + (long long)s->bit_cnt;
}
void align_put_bits(PutBitContext *s)
{
put_bits(s,(8 - s->bit_cnt) & 7,0);
}
/* pad the end of the output stream with zeros */
void flush_put_bits(PutBitContext *s)
{
while (s->bit_cnt > 0) {
/* XXX: should test end of buffer */
*s->buf_ptr++=s->bit_buf >> 24;
s->bit_buf<<=8;
s->bit_cnt-=8;
}
flush_buffer(s);
s->bit_cnt=0;
s->bit_buf=0;
}
/* for jpeg : espace 0xff with 0x00 after it */
void jput_bits(PutBitContext *s, int n, unsigned int value)
{
unsigned int bit_buf, b;
int bit_cnt, i;
assert(n == 32 || value < (1U << n));
bit_buf = s->bit_buf;
bit_cnt = s->bit_cnt;
//printf("n=%d value=%x cnt=%d buf=%x\n", n, value, bit_cnt, bit_buf);
/* XXX: optimize */
if (n < (32-bit_cnt)) {
bit_buf |= value << (32 - n - bit_cnt);
bit_cnt+=n;
} else {
bit_buf |= value >> (n + bit_cnt - 32);
/* handle escape */
for(i=0;i<4;i++) {
b = (bit_buf >> 24);
*(s->buf_ptr++) = b;
if (b == 0xff)
*(s->buf_ptr++) = 0;
bit_buf <<= 8;
}
/* we flush the buffer sooner to handle worst case */
if (s->buf_ptr >= (s->buf_end - 8))
flush_buffer(s);
bit_cnt=bit_cnt + n - 32;
if (bit_cnt == 0) {
bit_buf = 0;
} else {
bit_buf = value << (32 - bit_cnt);
}
}
s->bit_buf = bit_buf;
s->bit_cnt = bit_cnt;
}
/* pad the end of the output stream with zeros */
void jflush_put_bits(PutBitContext *s)
{
unsigned int b;
while (s->bit_cnt > 0) {
b = s->bit_buf >> 24;
*s->buf_ptr++ = b;
if (b == 0xff)
*s->buf_ptr++ = 0;
s->bit_buf<<=8;
s->bit_cnt-=8;
}
flush_buffer(s);
s->bit_cnt=0;
s->bit_buf=0;
}
/* bit input functions */
void init_get_bits(GetBitContext *s,
UINT8 *buffer, int buffer_size)
{
s->buf = buffer;
s->buf_ptr = buffer;
s->buf_end = buffer + buffer_size;
s->bit_cnt = 0;
s->bit_buf = 0;
while (s->buf_ptr < s->buf_end &&
s->bit_cnt < 32) {
s->bit_buf |= (*s->buf_ptr++ << (24 - s->bit_cnt));
s->bit_cnt += 8;
}
}
/* n must be >= 1 and <= 32 */
unsigned int get_bits(GetBitContext *s, int n)
{
unsigned int val;
int bit_cnt;
unsigned int bit_buf;
UINT8 *buf_ptr;
#ifdef STATS
st_bit_counts[st_current_index] += n;
#endif
bit_cnt = s->bit_cnt;
bit_buf = s->bit_buf;
bit_cnt -= n;
if (bit_cnt >= 0) {
/* most common case here */
val = bit_buf >> (32 - n);
bit_buf <<= n;
} else {
val = bit_buf >> (32 - n);
buf_ptr = s->buf_ptr;
buf_ptr += 4;
/* handle common case: we can read everything */
if (buf_ptr <= s->buf_end) {
bit_buf = (buf_ptr[-4] << 24) |
(buf_ptr[-3] << 16) |
(buf_ptr[-2] << 8) |
(buf_ptr[-1]);
} else {
buf_ptr -= 4;
bit_buf = 0;
if (buf_ptr < s->buf_end)
bit_buf |= *buf_ptr++ << 24;
if (buf_ptr < s->buf_end)
bit_buf |= *buf_ptr++ << 16;
if (buf_ptr < s->buf_end)
bit_buf |= *buf_ptr++ << 8;
if (buf_ptr < s->buf_end)
bit_buf |= *buf_ptr++;
}
s->buf_ptr = buf_ptr;
val |= bit_buf >> (32 + bit_cnt);
bit_buf <<= - bit_cnt;
bit_cnt += 32;
}
s->bit_buf = bit_buf;
s->bit_cnt = bit_cnt;
return val;
}
void align_get_bits(GetBitContext *s)
{
int n;
n = s->bit_cnt & 7;
if (n > 0) {
get_bits(s, n);
}
}
/* VLC decoding */
//#define DEBUG_VLC
#define GET_DATA(v, table, i, wrap, size) \
{\
UINT8 *ptr = (UINT8 *)table + i * wrap;\
switch(size) {\
case 1:\
v = *(UINT8 *)ptr;\
break;\
case 2:\
v = *(UINT16 *)ptr;\
break;\
default:\
v = *(UINT32 *)ptr;\
break;\
}\
}
static int alloc_table(VLC *vlc, int size)
{
int index;
index = vlc->table_size;
vlc->table_size += size;
if (vlc->table_size > vlc->table_allocated) {
vlc->table_allocated += (1 << vlc->bits);
vlc->table_bits = realloc(vlc->table_bits,
sizeof(INT8) * vlc->table_allocated);
vlc->table_codes = realloc(vlc->table_codes,
sizeof(INT16) * vlc->table_allocated);
if (!vlc->table_bits ||
!vlc->table_codes)
return -1;
}
return index;
}
static int build_table(VLC *vlc, int table_nb_bits,
int nb_codes,
const void *bits, int bits_wrap, int bits_size,
const void *codes, int codes_wrap, int codes_size,
UINT32 code_prefix, int n_prefix)
{
int i, j, k, n, table_size, table_index, nb, n1, index;
UINT32 code;
INT8 *table_bits;
INT16 *table_codes;
table_size = 1 << table_nb_bits;
table_index = alloc_table(vlc, table_size);
#ifdef DEBUG_VLC
printf("new table index=%d size=%d code_prefix=%x n=%d\n",
table_index, table_size, code_prefix, n_prefix);
#endif
if (table_index < 0)
return -1;
table_bits = &vlc->table_bits[table_index];
table_codes = &vlc->table_codes[table_index];
for(i=0;i<table_size;i++) {
table_bits[i] = 0;
table_codes[i] = -1;
}
/* first pass: map codes and compute auxillary table sizes */
for(i=0;i<nb_codes;i++) {
GET_DATA(n, bits, i, bits_wrap, bits_size);
GET_DATA(code, codes, i, codes_wrap, codes_size);
/* we accept tables with holes */
if (n <= 0)
continue;
#if defined(DEBUG_VLC) && 0
printf("i=%d n=%d code=0x%x\n", i, n, code);
#endif
/* if code matches the prefix, it is in the table */
n -= n_prefix;
if (n > 0 && (code >> n) == code_prefix) {
if (n <= table_nb_bits) {
/* no need to add another table */
j = (code << (table_nb_bits - n)) & (table_size - 1);
nb = 1 << (table_nb_bits - n);
for(k=0;k<nb;k++) {
#ifdef DEBUG_VLC
printf("%4x: code=%d n=%d\n",
j, i, n);
#endif
if (table_bits[j] != 0) {
fprintf(stderr, "incorrect codes\n");
exit(1);
}
table_bits[j] = n;
table_codes[j] = i;
j++;
}
} else {
n -= table_nb_bits;
j = (code >> n) & ((1 << table_nb_bits) - 1);
#ifdef DEBUG_VLC
printf("%4x: n=%d (subtable)\n",
j, n);
#endif
/* compute table size */
n1 = -table_bits[j];
if (n > n1)
n1 = n;
table_bits[j] = -n1;
}
}
}
/* second pass : fill auxillary tables recursively */
for(i=0;i<table_size;i++) {
n = table_bits[i];
if (n < 0) {
n = -n;
if (n > table_nb_bits) {
n = table_nb_bits;
table_bits[i] = -n;
}
index = build_table(vlc, n, nb_codes,
bits, bits_wrap, bits_size,
codes, codes_wrap, codes_size,
(code_prefix << table_nb_bits) | i,
n_prefix + table_nb_bits);
if (index < 0)
return -1;
/* note: realloc has been done, so reload tables */
table_bits = &vlc->table_bits[table_index];
table_codes = &vlc->table_codes[table_index];
table_codes[i] = index;
}
}
return table_index;
}
/* wrap and size allow to handle most types of storage. */
int init_vlc(VLC *vlc, int nb_bits, int nb_codes,
const void *bits, int bits_wrap, int bits_size,
const void *codes, int codes_wrap, int codes_size)
{
vlc->bits = nb_bits;
vlc->table_bits = NULL;
vlc->table_codes = NULL;
vlc->table_allocated = 0;
vlc->table_size = 0;
#ifdef DEBUG_VLC
printf("build table nb_codes=%d\n", nb_codes);
#endif
if (build_table(vlc, nb_bits, nb_codes,
bits, bits_wrap, bits_size,
codes, codes_wrap, codes_size,
0, 0) < 0) {
if (vlc->table_bits)
free(vlc->table_bits);
if (vlc->table_codes)
free(vlc->table_codes);
return -1;
}
return 0;
}
void free_vlc(VLC *vlc)
{
free(vlc->table_bits);
free(vlc->table_codes);
}
int get_vlc(GetBitContext *s, VLC *vlc)
{
int bit_cnt, code, n, nb_bits, index;
UINT32 bit_buf;
INT16 *table_codes;
INT8 *table_bits;
UINT8 *buf_ptr;
SAVE_BITS(s);
nb_bits = vlc->bits;
table_codes = vlc->table_codes;
table_bits = vlc->table_bits;
for(;;) {
SHOW_BITS(s, index, nb_bits);
code = table_codes[index];
n = table_bits[index];
if (n > 0) {
/* most common case */
FLUSH_BITS(n);
#ifdef STATS
st_bit_counts[st_current_index] += n;
#endif
break;
} else if (n == 0) {
return -1;
} else {
FLUSH_BITS(nb_bits);
#ifdef STATS
st_bit_counts[st_current_index] += nb_bits;
#endif
nb_bits = -n;
table_codes = vlc->table_codes + code;
table_bits = vlc->table_bits + code;
}
}
RESTORE_BITS(s);
return code;
}
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