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libavcodec
lzwenc.c
Go to the documentation of this file.
1
/*
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* LZW encoder
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* Copyright (c) 2007 Bartlomiej Wolowiec
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/**
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* @file
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* LZW encoder
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* @author Bartlomiej Wolowiec
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*/
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#include "
avcodec.h
"
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#include "
put_bits.h
"
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#include "
lzw.h
"
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#define LZW_MAXBITS 12
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#define LZW_SIZTABLE (1<<LZW_MAXBITS)
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#define LZW_HASH_SIZE 16411
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#define LZW_HASH_SHIFT 6
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#define LZW_PREFIX_EMPTY -1
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#define LZW_PREFIX_FREE -2
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/** One code in hash table */
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typedef
struct
Code
{
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/// Hash code of prefix, LZW_PREFIX_EMPTY if empty prefix, or LZW_PREFIX_FREE if no code
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int
hash_prefix
;
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int
code
;
///< LZW code
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uint8_t
suffix
;
///< Last character in code block
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}
Code
;
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/** LZW encode state */
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typedef
struct
LZWEncodeState
{
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int
clear_code
;
///< Value of clear code
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int
end_code
;
///< Value of end code
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Code
tab
[
LZW_HASH_SIZE
];
///< Hash table
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int
tabsize
;
///< Number of values in hash table
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int
bits
;
///< Actual bits code
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int
bufsize
;
///< Size of output buffer
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PutBitContext
pb
;
///< Put bit context for output
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int
maxbits
;
///< Max bits code
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int
maxcode
;
///< Max value of code
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int
output_bytes
;
///< Number of written bytes
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int
last_code
;
///< Value of last output code or LZW_PREFIX_EMPTY
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enum
FF_LZW_MODES
mode
;
///< TIFF or GIF
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void
(*
put_bits
)(
PutBitContext
*, int, unsigned);
///< GIF is LE while TIFF is BE
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}
LZWEncodeState
;
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const
int
ff_lzw_encode_state_size
=
sizeof
(
LZWEncodeState
);
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/**
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* Hash function adding character
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* @param head LZW code for prefix
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* @param add Character to add
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* @return New hash value
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*/
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static
inline
int
hash
(
int
head,
const
int
add)
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{
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head ^= (add <<
LZW_HASH_SHIFT
);
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if
(head >=
LZW_HASH_SIZE
)
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head -=
LZW_HASH_SIZE
;
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av_assert2
(head >= 0 && head <
LZW_HASH_SIZE
);
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return
head;
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}
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/**
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* Hash function calculates next hash value
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* @param head Actual hash code
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* @param offset Offset calculated by hashOffset
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* @return New hash value
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*/
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static
inline
int
hashNext
(
int
head,
const
int
offset
)
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{
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head -=
offset
;
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if
(head < 0)
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head +=
LZW_HASH_SIZE
;
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return
head;
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}
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/**
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* Hash function calculates hash offset
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* @param head Actual hash code
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* @return Hash offset
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*/
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static
inline
int
hashOffset
(
const
int
head)
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{
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return
head ?
LZW_HASH_SIZE
- head : 1;
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}
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/**
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* Write one code to stream
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* @param s LZW state
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* @param c code to write
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*/
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static
inline
void
writeCode
(
LZWEncodeState
*
s
,
int
c
)
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{
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av_assert2
(0 <= c && c < 1 << s->
bits
);
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s->
put_bits
(&s->
pb
, s->
bits
, c);
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}
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/**
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* Find LZW code for block
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* @param s LZW state
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* @param c Last character in block
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* @param hash_prefix LZW code for prefix
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* @return LZW code for block or -1 if not found in table
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*/
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static
inline
int
findCode
(
LZWEncodeState
*
s
,
uint8_t
c
,
int
hash_prefix)
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{
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int
h =
hash
(
FFMAX
(hash_prefix, 0), c);
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int
hash_offset =
hashOffset
(h);
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while
(s->
tab
[h].
hash_prefix
!=
LZW_PREFIX_FREE
) {
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if
((s->
tab
[h].
suffix
== c)
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&& (s->
tab
[h].
hash_prefix
== hash_prefix))
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return
h;
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h =
hashNext
(h, hash_offset);
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}
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return
h;
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}
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/**
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* Add block to LZW code table
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* @param s LZW state
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* @param c Last character in block
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* @param hash_prefix LZW code for prefix
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* @param hash_code LZW code for bytes block
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*/
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static
inline
void
addCode
(
LZWEncodeState
*
s
,
uint8_t
c
,
int
hash_prefix,
int
hash_code)
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{
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s->
tab
[hash_code].
code
= s->
tabsize
;
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s->
tab
[hash_code].
suffix
=
c
;
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s->
tab
[hash_code].
hash_prefix
= hash_prefix;
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s->
tabsize
++;
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if
(s->
tabsize
>= (1 << s->
bits
) + (s->
mode
==
FF_LZW_GIF
))
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s->
bits
++;
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}
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/**
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* Clear LZW code table
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* @param s LZW state
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*/
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static
void
clearTable
(
LZWEncodeState
*
s
)
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{
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int
i, h;
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writeCode
(s, s->
clear_code
);
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s->
bits
= 9;
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for
(i = 0; i <
LZW_HASH_SIZE
; i++) {
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s->
tab
[i].
hash_prefix
=
LZW_PREFIX_FREE
;
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}
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for
(i = 0; i < 256; i++) {
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h =
hash
(0, i);
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s->
tab
[h].
code
= i;
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s->
tab
[h].
suffix
= i;
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s->
tab
[h].
hash_prefix
=
LZW_PREFIX_EMPTY
;
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}
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s->
tabsize
= 258;
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}
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/**
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* Calculate number of bytes written
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* @param s LZW encode state
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* @return Number of bytes written
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*/
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static
int
writtenBytes
(
LZWEncodeState
*
s
){
188
int
ret
=
put_bits_count
(&s->
pb
) >> 3;
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ret -= s->
output_bytes
;
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s->
output_bytes
+=
ret
;
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return
ret
;
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}
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/**
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* Initialize LZW encoder. Please set s->clear_code, s->end_code and s->maxbits before run.
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* @param s LZW state
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* @param outbuf Output buffer
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* @param outsize Size of output buffer
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* @param maxbits Maximum length of code
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*/
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void
ff_lzw_encode_init
(
LZWEncodeState
*
s
,
uint8_t
*outbuf,
int
outsize,
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int
maxbits,
enum
FF_LZW_MODES
mode
,
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void
(*lzw_put_bits)(
PutBitContext
*,
int
,
unsigned
))
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{
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s->
clear_code
= 256;
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s->
end_code
= 257;
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s->
maxbits
= maxbits;
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init_put_bits
(&s->
pb
, outbuf, outsize);
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s->
bufsize
= outsize;
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av_assert0
(s->
maxbits
>= 9 && s->
maxbits
<=
LZW_MAXBITS
);
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s->
maxcode
= 1 << s->
maxbits
;
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s->
output_bytes
= 0;
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s->
last_code
=
LZW_PREFIX_EMPTY
;
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s->
bits
= 9;
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s->
mode
=
mode
;
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s->
put_bits
= lzw_put_bits;
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}
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/**
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* LZW main compress function
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* @param s LZW state
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* @param inbuf Input buffer
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* @param insize Size of input buffer
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* @return Number of bytes written or -1 on error
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*/
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int
ff_lzw_encode
(
LZWEncodeState
* s,
const
uint8_t
* inbuf,
int
insize)
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{
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int
i;
229
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if
(insize * 3 > (s->
bufsize
- s->
output_bytes
) * 2){
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return
-1;
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}
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if
(s->
last_code
==
LZW_PREFIX_EMPTY
)
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clearTable
(s);
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for
(i = 0; i < insize; i++) {
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uint8_t
c
= *inbuf++;
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int
code =
findCode
(s, c, s->
last_code
);
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if
(s->
tab
[code].
hash_prefix
==
LZW_PREFIX_FREE
) {
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writeCode
(s, s->
last_code
);
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addCode
(s, c, s->
last_code
, code);
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code=
hash
(0, c);
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}
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s->
last_code
= s->
tab
[code].
code
;
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if
(s->
tabsize
>= s->
maxcode
- 1) {
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clearTable
(s);
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}
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}
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return
writtenBytes
(s);
252
}
253
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/**
255
* Write end code and flush bitstream
256
* @param s LZW state
257
* @return Number of bytes written or -1 on error
258
*/
259
int
ff_lzw_encode_flush
(
LZWEncodeState
*s,
260
void
(*lzw_flush_put_bits)(
PutBitContext
*))
261
{
262
if
(s->
last_code
!= -1)
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writeCode
(s, s->
last_code
);
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writeCode
(s, s->
end_code
);
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if
(s->
mode
==
FF_LZW_GIF
)
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s->
put_bits
(&s->
pb
, 1, 0);
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lzw_flush_put_bits(&s->
pb
);
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s->
last_code
= -1;
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return
writtenBytes
(s);
272
}
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