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/*
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* Copyright ( C ) 2003 - 2004 the ffmpeg project
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*
* This library 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
* version 2 of the License , or ( at your option ) any later version .
*
* This library 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 library ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
*
*/
/**
* @ file vp3 . c
* On2 VP3 Video Decoder
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*
* VP3 Video Decoder by Mike Melanson ( mike at multimedia . cx )
* For more information about the VP3 coding process , visit :
* http : //multimedia.cx/
*
* Theora decoder by Alex Beregszaszi
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*/
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# include <unistd.h>
# include "common.h"
# include "avcodec.h"
# include "dsputil.h"
# include "mpegvideo.h"
# include "vp3data.h"
# define FRAGMENT_PIXELS 8
/*
* Debugging Variables
*
* Define one or more of the following compile - time variables to 1 to obtain
* elaborate information about certain aspects of the decoding process .
*
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* KEYFRAMES_ONLY : set this to 1 to only see keyframes ( VP3 slideshow mode )
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* DEBUG_VP3 : high - level decoding flow
* DEBUG_INIT : initialization parameters
* DEBUG_DEQUANTIZERS : display how the dequanization tables are built
* DEBUG_BLOCK_CODING : unpacking the superblock / macroblock / fragment coding
* DEBUG_MODES : unpacking the coding modes for individual fragments
* DEBUG_VECTORS : display the motion vectors
* DEBUG_TOKEN : display exhaustive information about each DCT token
* DEBUG_VLC : display the VLCs as they are extracted from the stream
* DEBUG_DC_PRED : display the process of reversing DC prediction
* DEBUG_IDCT : show every detail of the IDCT process
*/
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# define KEYFRAMES_ONLY 0
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# define DEBUG_VP3 0
# define DEBUG_INIT 0
# define DEBUG_DEQUANTIZERS 0
# define DEBUG_BLOCK_CODING 0
# define DEBUG_MODES 0
# define DEBUG_VECTORS 0
# define DEBUG_TOKEN 0
# define DEBUG_VLC 0
# define DEBUG_DC_PRED 0
# define DEBUG_IDCT 0
# if DEBUG_VP3
# define debug_vp3 printf
# else
static inline void debug_vp3 ( const char * format , . . . ) { }
# endif
# if DEBUG_INIT
# define debug_init printf
# else
static inline void debug_init ( const char * format , . . . ) { }
# endif
# if DEBUG_DEQUANTIZERS
# define debug_dequantizers printf
# else
static inline void debug_dequantizers ( const char * format , . . . ) { }
# endif
# if DEBUG_BLOCK_CODING
# define debug_block_coding printf
# else
static inline void debug_block_coding ( const char * format , . . . ) { }
# endif
# if DEBUG_MODES
# define debug_modes printf
# else
static inline void debug_modes ( const char * format , . . . ) { }
# endif
# if DEBUG_VECTORS
# define debug_vectors printf
# else
static inline void debug_vectors ( const char * format , . . . ) { }
# endif
# if DEBUG_TOKEN
# define debug_token printf
# else
static inline void debug_token ( const char * format , . . . ) { }
# endif
# if DEBUG_VLC
# define debug_vlc printf
# else
static inline void debug_vlc ( const char * format , . . . ) { }
# endif
# if DEBUG_DC_PRED
# define debug_dc_pred printf
# else
static inline void debug_dc_pred ( const char * format , . . . ) { }
# endif
# if DEBUG_IDCT
# define debug_idct printf
# else
static inline void debug_idct ( const char * format , . . . ) { }
# endif
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typedef struct Coeff {
struct Coeff * next ;
DCTELEM coeff ;
uint8_t index ;
} Coeff ;
//FIXME split things out into their own arrays
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typedef struct Vp3Fragment {
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Coeff * next_coeff ;
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/* address of first pixel taking into account which plane the fragment
* lives on as well as the plane stride */
int first_pixel ;
/* this is the macroblock that the fragment belongs to */
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uint16_t macroblock ;
uint8_t coding_method ;
uint8_t coeff_count ;
int8_t motion_x ;
int8_t motion_y ;
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} Vp3Fragment ;
# define SB_NOT_CODED 0
# define SB_PARTIALLY_CODED 1
# define SB_FULLY_CODED 2
# define MODE_INTER_NO_MV 0
# define MODE_INTRA 1
# define MODE_INTER_PLUS_MV 2
# define MODE_INTER_LAST_MV 3
# define MODE_INTER_PRIOR_LAST 4
# define MODE_USING_GOLDEN 5
# define MODE_GOLDEN_MV 6
# define MODE_INTER_FOURMV 7
# define CODING_MODE_COUNT 8
/* special internal mode */
# define MODE_COPY 8
/* There are 6 preset schemes, plus a free-form scheme */
static int ModeAlphabet [ 7 ] [ CODING_MODE_COUNT ] =
{
/* this is the custom scheme */
{ 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 } ,
/* scheme 1: Last motion vector dominates */
{ MODE_INTER_LAST_MV , MODE_INTER_PRIOR_LAST ,
MODE_INTER_PLUS_MV , MODE_INTER_NO_MV ,
MODE_INTRA , MODE_USING_GOLDEN ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
/* scheme 2 */
{ MODE_INTER_LAST_MV , MODE_INTER_PRIOR_LAST ,
MODE_INTER_NO_MV , MODE_INTER_PLUS_MV ,
MODE_INTRA , MODE_USING_GOLDEN ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
/* scheme 3 */
{ MODE_INTER_LAST_MV , MODE_INTER_PLUS_MV ,
MODE_INTER_PRIOR_LAST , MODE_INTER_NO_MV ,
MODE_INTRA , MODE_USING_GOLDEN ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
/* scheme 4 */
{ MODE_INTER_LAST_MV , MODE_INTER_PLUS_MV ,
MODE_INTER_NO_MV , MODE_INTER_PRIOR_LAST ,
MODE_INTRA , MODE_USING_GOLDEN ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
/* scheme 5: No motion vector dominates */
{ MODE_INTER_NO_MV , MODE_INTER_LAST_MV ,
MODE_INTER_PRIOR_LAST , MODE_INTER_PLUS_MV ,
MODE_INTRA , MODE_USING_GOLDEN ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
/* scheme 6 */
{ MODE_INTER_NO_MV , MODE_USING_GOLDEN ,
MODE_INTER_LAST_MV , MODE_INTER_PRIOR_LAST ,
MODE_INTER_PLUS_MV , MODE_INTRA ,
MODE_GOLDEN_MV , MODE_INTER_FOURMV } ,
} ;
# define MIN_DEQUANT_VAL 2
typedef struct Vp3DecodeContext {
AVCodecContext * avctx ;
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int theora , theora_tables ;
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int version ;
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int width , height ;
AVFrame golden_frame ;
AVFrame last_frame ;
AVFrame current_frame ;
int keyframe ;
DSPContext dsp ;
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int flipped_image ;
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int quality_index ;
int last_quality_index ;
int superblock_count ;
int superblock_width ;
int superblock_height ;
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int y_superblock_width ;
int y_superblock_height ;
int c_superblock_width ;
int c_superblock_height ;
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int u_superblock_start ;
int v_superblock_start ;
unsigned char * superblock_coding ;
int macroblock_count ;
int macroblock_width ;
int macroblock_height ;
int fragment_count ;
int fragment_width ;
int fragment_height ;
Vp3Fragment * all_fragments ;
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Coeff * coeffs ;
Coeff * next_coeff ;
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int u_fragment_start ;
int v_fragment_start ;
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ScanTable scantable ;
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/* tables */
uint16_t coded_dc_scale_factor [ 64 ] ;
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uint32_t coded_ac_scale_factor [ 64 ] ;
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uint16_t coded_intra_y_dequant [ 64 ] ;
uint16_t coded_intra_c_dequant [ 64 ] ;
uint16_t coded_inter_dequant [ 64 ] ;
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/* this is a list of indices into the all_fragments array indicating
* which of the fragments are coded */
int * coded_fragment_list ;
int coded_fragment_list_index ;
int pixel_addresses_inited ;
VLC dc_vlc [ 16 ] ;
VLC ac_vlc_1 [ 16 ] ;
VLC ac_vlc_2 [ 16 ] ;
VLC ac_vlc_3 [ 16 ] ;
VLC ac_vlc_4 [ 16 ] ;
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VLC superblock_run_length_vlc ;
VLC fragment_run_length_vlc ;
VLC mode_code_vlc ;
VLC motion_vector_vlc ;
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/* these arrays need to be on 16-byte boundaries since SSE2 operations
* index into them */
int16_t __align16 intra_y_dequant [ 64 ] ;
int16_t __align16 intra_c_dequant [ 64 ] ;
int16_t __align16 inter_dequant [ 64 ] ;
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/* This table contains superblock_count * 16 entries. Each set of 16
* numbers corresponds to the fragment indices 0. .15 of the superblock .
* An entry will be - 1 to indicate that no entry corresponds to that
* index . */
int * superblock_fragments ;
/* This table contains superblock_count * 4 entries. Each set of 4
* numbers corresponds to the macroblock indices 0. .3 of the superblock .
* An entry will be - 1 to indicate that no entry corresponds to that
* index . */
int * superblock_macroblocks ;
/* This table contains macroblock_count * 6 entries. Each set of 6
* numbers corresponds to the fragment indices 0. .5 which comprise
* the macroblock ( 4 Y fragments and 2 C fragments ) . */
int * macroblock_fragments ;
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/* This is an array that indicates how a particular macroblock
* is coded . */
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unsigned char * macroblock_coding ;
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int first_coded_y_fragment ;
int first_coded_c_fragment ;
int last_coded_y_fragment ;
int last_coded_c_fragment ;
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uint8_t edge_emu_buffer [ 9 * 2048 ] ; //FIXME dynamic alloc
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uint8_t qscale_table [ 2048 ] ; //FIXME dynamic alloc (width+15)/16
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/* Huffman decode */
int hti ;
unsigned int hbits ;
int entries ;
int huff_code_size ;
uint16_t huffman_table [ 80 ] [ 32 ] [ 2 ] ;
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} Vp3DecodeContext ;
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static int theora_decode_comments ( AVCodecContext * avctx , GetBitContext gb ) ;
static int theora_decode_tables ( AVCodecContext * avctx , GetBitContext gb ) ;
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/************************************************************************
* VP3 specific functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* This function sets up all of the various blocks mappings :
* superblocks < - > fragments , macroblocks < - > fragments ,
* superblocks < - > macroblocks
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*
* Returns 0 is successful ; returns 1 if * anything * went wrong .
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*/
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static int init_block_mapping ( Vp3DecodeContext * s )
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{
int i , j ;
signed int hilbert_walk_y [ 16 ] ;
signed int hilbert_walk_c [ 16 ] ;
signed int hilbert_walk_mb [ 4 ] ;
int current_fragment = 0 ;
int current_width = 0 ;
int current_height = 0 ;
int right_edge = 0 ;
int bottom_edge = 0 ;
int superblock_row_inc = 0 ;
int * hilbert = NULL ;
int mapping_index = 0 ;
int current_macroblock ;
int c_fragment ;
signed char travel_width [ 16 ] = {
1 , 1 , 0 , - 1 ,
0 , 0 , 1 , 0 ,
1 , 0 , 1 , 0 ,
0 , - 1 , 0 , 1
} ;
signed char travel_height [ 16 ] = {
0 , 0 , 1 , 0 ,
1 , 1 , 0 , - 1 ,
0 , 1 , 0 , - 1 ,
- 1 , 0 , - 1 , 0
} ;
signed char travel_width_mb [ 4 ] = {
1 , 0 , 1 , 0
} ;
signed char travel_height_mb [ 4 ] = {
0 , 1 , 0 , - 1
} ;
debug_vp3 ( " vp3: initialize block mapping tables \n " ) ;
/* figure out hilbert pattern per these frame dimensions */
hilbert_walk_y [ 0 ] = 1 ;
hilbert_walk_y [ 1 ] = 1 ;
hilbert_walk_y [ 2 ] = s - > fragment_width ;
hilbert_walk_y [ 3 ] = - 1 ;
hilbert_walk_y [ 4 ] = s - > fragment_width ;
hilbert_walk_y [ 5 ] = s - > fragment_width ;
hilbert_walk_y [ 6 ] = 1 ;
hilbert_walk_y [ 7 ] = - s - > fragment_width ;
hilbert_walk_y [ 8 ] = 1 ;
hilbert_walk_y [ 9 ] = s - > fragment_width ;
hilbert_walk_y [ 10 ] = 1 ;
hilbert_walk_y [ 11 ] = - s - > fragment_width ;
hilbert_walk_y [ 12 ] = - s - > fragment_width ;
hilbert_walk_y [ 13 ] = - 1 ;
hilbert_walk_y [ 14 ] = - s - > fragment_width ;
hilbert_walk_y [ 15 ] = 1 ;
hilbert_walk_c [ 0 ] = 1 ;
hilbert_walk_c [ 1 ] = 1 ;
hilbert_walk_c [ 2 ] = s - > fragment_width / 2 ;
hilbert_walk_c [ 3 ] = - 1 ;
hilbert_walk_c [ 4 ] = s - > fragment_width / 2 ;
hilbert_walk_c [ 5 ] = s - > fragment_width / 2 ;
hilbert_walk_c [ 6 ] = 1 ;
hilbert_walk_c [ 7 ] = - s - > fragment_width / 2 ;
hilbert_walk_c [ 8 ] = 1 ;
hilbert_walk_c [ 9 ] = s - > fragment_width / 2 ;
hilbert_walk_c [ 10 ] = 1 ;
hilbert_walk_c [ 11 ] = - s - > fragment_width / 2 ;
hilbert_walk_c [ 12 ] = - s - > fragment_width / 2 ;
hilbert_walk_c [ 13 ] = - 1 ;
hilbert_walk_c [ 14 ] = - s - > fragment_width / 2 ;
hilbert_walk_c [ 15 ] = 1 ;
hilbert_walk_mb [ 0 ] = 1 ;
hilbert_walk_mb [ 1 ] = s - > macroblock_width ;
hilbert_walk_mb [ 2 ] = 1 ;
hilbert_walk_mb [ 3 ] = - s - > macroblock_width ;
/* iterate through each superblock (all planes) and map the fragments */
for ( i = 0 ; i < s - > superblock_count ; i + + ) {
debug_init ( " superblock %d (u starts @ %d, v starts @ %d) \n " ,
i , s - > u_superblock_start , s - > v_superblock_start ) ;
/* time to re-assign the limits? */
if ( i = = 0 ) {
/* start of Y superblocks */
right_edge = s - > fragment_width ;
bottom_edge = s - > fragment_height ;
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current_width = - 1 ;
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current_height = 0 ;
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superblock_row_inc = 3 * s - > fragment_width -
( s - > y_superblock_width * 4 - s - > fragment_width ) ;
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hilbert = hilbert_walk_y ;
/* the first operation for this variable is to advance by 1 */
current_fragment = - 1 ;
} else if ( i = = s - > u_superblock_start ) {
/* start of U superblocks */
right_edge = s - > fragment_width / 2 ;
bottom_edge = s - > fragment_height / 2 ;
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current_width = - 1 ;
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current_height = 0 ;
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superblock_row_inc = 3 * ( s - > fragment_width / 2 ) -
( s - > c_superblock_width * 4 - s - > fragment_width / 2 ) ;
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hilbert = hilbert_walk_c ;
/* the first operation for this variable is to advance by 1 */
current_fragment = s - > u_fragment_start - 1 ;
} else if ( i = = s - > v_superblock_start ) {
/* start of V superblocks */
right_edge = s - > fragment_width / 2 ;
bottom_edge = s - > fragment_height / 2 ;
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current_width = - 1 ;
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current_height = 0 ;
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superblock_row_inc = 3 * ( s - > fragment_width / 2 ) -
( s - > c_superblock_width * 4 - s - > fragment_width / 2 ) ;
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hilbert = hilbert_walk_c ;
/* the first operation for this variable is to advance by 1 */
current_fragment = s - > v_fragment_start - 1 ;
}
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if ( current_width > = right_edge - 1 ) {
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/* reset width and move to next superblock row */
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current_width = - 1 ;
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current_height + = 4 ;
/* fragment is now at the start of a new superblock row */
current_fragment + = superblock_row_inc ;
}
/* iterate through all 16 fragments in a superblock */
for ( j = 0 ; j < 16 ; j + + ) {
current_fragment + = hilbert [ j ] ;
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current_width + = travel_width [ j ] ;
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current_height + = travel_height [ j ] ;
/* check if the fragment is in bounds */
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if ( ( current_width < right_edge ) & &
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( current_height < bottom_edge ) ) {
s - > superblock_fragments [ mapping_index ] = current_fragment ;
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debug_init ( " mapping fragment %d to superblock %d, position %d (%d/%d x %d/%d) \n " ,
s - > superblock_fragments [ mapping_index ] , i , j ,
current_width , right_edge , current_height , bottom_edge ) ;
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} else {
s - > superblock_fragments [ mapping_index ] = - 1 ;
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debug_init ( " superblock %d, position %d has no fragment (%d/%d x %d/%d) \n " ,
i , j ,
current_width , right_edge , current_height , bottom_edge ) ;
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}
mapping_index + + ;
}
}
/* initialize the superblock <-> macroblock mapping; iterate through
* all of the Y plane superblocks to build this mapping */
right_edge = s - > macroblock_width ;
bottom_edge = s - > macroblock_height ;
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current_width = - 1 ;
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current_height = 0 ;
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superblock_row_inc = s - > macroblock_width -
( s - > y_superblock_width * 2 - s - > macroblock_width ) ; ;
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hilbert = hilbert_walk_mb ;
mapping_index = 0 ;
current_macroblock = - 1 ;
for ( i = 0 ; i < s - > u_superblock_start ; i + + ) {
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if ( current_width > = right_edge - 1 ) {
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/* reset width and move to next superblock row */
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current_width = - 1 ;
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current_height + = 2 ;
/* macroblock is now at the start of a new superblock row */
current_macroblock + = superblock_row_inc ;
}
/* iterate through each potential macroblock in the superblock */
for ( j = 0 ; j < 4 ; j + + ) {
current_macroblock + = hilbert_walk_mb [ j ] ;
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current_width + = travel_width_mb [ j ] ;
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current_height + = travel_height_mb [ j ] ;
/* check if the macroblock is in bounds */
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if ( ( current_width < right_edge ) & &
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( current_height < bottom_edge ) ) {
s - > superblock_macroblocks [ mapping_index ] = current_macroblock ;
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debug_init ( " mapping macroblock %d to superblock %d, position %d (%d/%d x %d/%d) \n " ,
s - > superblock_macroblocks [ mapping_index ] , i , j ,
current_width , right_edge , current_height , bottom_edge ) ;
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} else {
s - > superblock_macroblocks [ mapping_index ] = - 1 ;
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debug_init ( " superblock %d, position %d has no macroblock (%d/%d x %d/%d) \n " ,
i , j ,
current_width , right_edge , current_height , bottom_edge ) ;
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}
mapping_index + + ;
}
}
/* initialize the macroblock <-> fragment mapping */
current_fragment = 0 ;
current_macroblock = 0 ;
mapping_index = 0 ;
for ( i = 0 ; i < s - > fragment_height ; i + = 2 ) {
for ( j = 0 ; j < s - > fragment_width ; j + = 2 ) {
debug_init ( " macroblock %d contains fragments: " , current_macroblock ) ;
s - > all_fragments [ current_fragment ] . macroblock = current_macroblock ;
s - > macroblock_fragments [ mapping_index + + ] = current_fragment ;
debug_init ( " %d " , current_fragment ) ;
if ( j + 1 < s - > fragment_width ) {
s - > all_fragments [ current_fragment + 1 ] . macroblock = current_macroblock ;
s - > macroblock_fragments [ mapping_index + + ] = current_fragment + 1 ;
debug_init ( " %d " , current_fragment + 1 ) ;
} else
s - > macroblock_fragments [ mapping_index + + ] = - 1 ;
if ( i + 1 < s - > fragment_height ) {
s - > all_fragments [ current_fragment + s - > fragment_width ] . macroblock =
current_macroblock ;
s - > macroblock_fragments [ mapping_index + + ] =
current_fragment + s - > fragment_width ;
debug_init ( " %d " , current_fragment + s - > fragment_width ) ;
} else
s - > macroblock_fragments [ mapping_index + + ] = - 1 ;
if ( ( j + 1 < s - > fragment_width ) & & ( i + 1 < s - > fragment_height ) ) {
s - > all_fragments [ current_fragment + s - > fragment_width + 1 ] . macroblock =
current_macroblock ;
s - > macroblock_fragments [ mapping_index + + ] =
current_fragment + s - > fragment_width + 1 ;
debug_init ( " %d " , current_fragment + s - > fragment_width + 1 ) ;
} else
s - > macroblock_fragments [ mapping_index + + ] = - 1 ;
/* C planes */
c_fragment = s - > u_fragment_start +
( i * s - > fragment_width / 4 ) + ( j / 2 ) ;
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s - > all_fragments [ c_fragment ] . macroblock = s - > macroblock_count ;
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s - > macroblock_fragments [ mapping_index + + ] = c_fragment ;
debug_init ( " %d " , c_fragment ) ;
c_fragment = s - > v_fragment_start +
( i * s - > fragment_width / 4 ) + ( j / 2 ) ;
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s - > all_fragments [ c_fragment ] . macroblock = s - > macroblock_count ;
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s - > macroblock_fragments [ mapping_index + + ] = c_fragment ;
debug_init ( " %d " , c_fragment ) ;
debug_init ( " \n " ) ;
if ( j + 2 < = s - > fragment_width )
current_fragment + = 2 ;
else
current_fragment + + ;
current_macroblock + + ;
}
current_fragment + = s - > fragment_width ;
}
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return 0 ; /* successful path out */
2003-05-05 02:54:15 +00:00
}
/*
* This function unpacks a single token ( which should be in the range 0. .31 )
* and returns a zero run ( number of zero coefficients in current DCT matrix
* before next non - zero coefficient ) , the next DCT coefficient , and the
* number of consecutive , non - EOB ' d DCT blocks to EOB .
*/
static void unpack_token ( GetBitContext * gb , int token , int * zero_run ,
DCTELEM * coeff , int * eob_run )
{
int sign ;
* zero_run = 0 ;
* eob_run = 0 ;
* coeff = 0 ;
debug_token ( " vp3 token %d: " , token ) ;
switch ( token ) {
case 0 :
debug_token ( " DCT_EOB_TOKEN, EOB next block \n " ) ;
* eob_run = 1 ;
break ;
case 1 :
debug_token ( " DCT_EOB_PAIR_TOKEN, EOB next 2 blocks \n " ) ;
* eob_run = 2 ;
break ;
case 2 :
debug_token ( " DCT_EOB_TRIPLE_TOKEN, EOB next 3 blocks \n " ) ;
* eob_run = 3 ;
break ;
case 3 :
debug_token ( " DCT_REPEAT_RUN_TOKEN, " ) ;
* eob_run = get_bits ( gb , 2 ) + 4 ;
debug_token ( " EOB the next %d blocks \n " , * eob_run ) ;
break ;
case 4 :
debug_token ( " DCT_REPEAT_RUN2_TOKEN, " ) ;
* eob_run = get_bits ( gb , 3 ) + 8 ;
debug_token ( " EOB the next %d blocks \n " , * eob_run ) ;
break ;
case 5 :
debug_token ( " DCT_REPEAT_RUN3_TOKEN, " ) ;
* eob_run = get_bits ( gb , 4 ) + 16 ;
debug_token ( " EOB the next %d blocks \n " , * eob_run ) ;
break ;
case 6 :
debug_token ( " DCT_REPEAT_RUN4_TOKEN, " ) ;
* eob_run = get_bits ( gb , 12 ) ;
debug_token ( " EOB the next %d blocks \n " , * eob_run ) ;
break ;
case 7 :
debug_token ( " DCT_SHORT_ZRL_TOKEN, " ) ;
/* note that this token actually indicates that (3 extra bits) + 1 0s
* should be output ; this case specifies a run of ( 3 EBs ) 0 s and a
* coefficient of 0. */
* zero_run = get_bits ( gb , 3 ) ;
* coeff = 0 ;
debug_token ( " skip the next %d positions in output matrix \n " , * zero_run + 1 ) ;
break ;
case 8 :
debug_token ( " DCT_ZRL_TOKEN, " ) ;
/* note that this token actually indicates that (6 extra bits) + 1 0s
* should be output ; this case specifies a run of ( 6 EBs ) 0 s and a
* coefficient of 0. */
* zero_run = get_bits ( gb , 6 ) ;
* coeff = 0 ;
debug_token ( " skip the next %d positions in output matrix \n " , * zero_run + 1 ) ;
break ;
case 9 :
debug_token ( " ONE_TOKEN, output 1 \n " ) ;
* coeff = 1 ;
break ;
case 10 :
debug_token ( " MINUS_ONE_TOKEN, output -1 \n " ) ;
* coeff = - 1 ;
break ;
case 11 :
debug_token ( " TWO_TOKEN, output 2 \n " ) ;
* coeff = 2 ;
break ;
case 12 :
debug_token ( " MINUS_TWO_TOKEN, output -2 \n " ) ;
* coeff = - 2 ;
break ;
case 13 :
case 14 :
case 15 :
case 16 :
debug_token ( " LOW_VAL_TOKENS, " ) ;
if ( get_bits ( gb , 1 ) )
* coeff = - ( 3 + ( token - 13 ) ) ;
else
* coeff = 3 + ( token - 13 ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 17 :
debug_token ( " DCT_VAL_CATEGORY3, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 7 + get_bits ( gb , 1 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 18 :
debug_token ( " DCT_VAL_CATEGORY4, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 9 + get_bits ( gb , 2 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 19 :
debug_token ( " DCT_VAL_CATEGORY5, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 13 + get_bits ( gb , 3 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 20 :
debug_token ( " DCT_VAL_CATEGORY6, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 21 + get_bits ( gb , 4 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 21 :
debug_token ( " DCT_VAL_CATEGORY7, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 37 + get_bits ( gb , 5 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 22 :
debug_token ( " DCT_VAL_CATEGORY8, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 69 + get_bits ( gb , 9 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
debug_token ( " output %d \n " , * coeff ) ;
break ;
case 23 :
case 24 :
case 25 :
case 26 :
case 27 :
debug_token ( " DCT_RUN_CATEGORY1, " ) ;
* zero_run = token - 22 ;
if ( get_bits ( gb , 1 ) )
* coeff = - 1 ;
else
* coeff = 1 ;
debug_token ( " output %d 0s, then %d \n " , * zero_run , * coeff ) ;
break ;
case 28 :
debug_token ( " DCT_RUN_CATEGORY1B, " ) ;
if ( get_bits ( gb , 1 ) )
* coeff = - 1 ;
else
* coeff = 1 ;
* zero_run = 6 + get_bits ( gb , 2 ) ;
debug_token ( " output %d 0s, then %d \n " , * zero_run , * coeff ) ;
break ;
case 29 :
debug_token ( " DCT_RUN_CATEGORY1C, " ) ;
if ( get_bits ( gb , 1 ) )
* coeff = - 1 ;
else
* coeff = 1 ;
* zero_run = 10 + get_bits ( gb , 3 ) ;
debug_token ( " output %d 0s, then %d \n " , * zero_run , * coeff ) ;
break ;
case 30 :
debug_token ( " DCT_RUN_CATEGORY2, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 2 + get_bits ( gb , 1 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
* zero_run = 1 ;
debug_token ( " output %d 0s, then %d \n " , * zero_run , * coeff ) ;
break ;
case 31 :
debug_token ( " DCT_RUN_CATEGORY2, " ) ;
sign = get_bits ( gb , 1 ) ;
* coeff = 2 + get_bits ( gb , 1 ) ;
if ( sign )
* coeff = - ( * coeff ) ;
* zero_run = 2 + get_bits ( gb , 1 ) ;
debug_token ( " output %d 0s, then %d \n " , * zero_run , * coeff ) ;
break ;
default :
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av_log ( NULL , AV_LOG_ERROR , " vp3: help! Got a bad token: %d > 31 \n " , token ) ;
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break ;
}
}
/*
* This function wipes out all of the fragment data .
*/
static void init_frame ( Vp3DecodeContext * s , GetBitContext * gb )
{
int i ;
/* zero out all of the fragment information */
s - > coded_fragment_list_index = 0 ;
for ( i = 0 ; i < s - > fragment_count ; i + + ) {
s - > all_fragments [ i ] . coeff_count = 0 ;
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s - > all_fragments [ i ] . motion_x = 127 ;
s - > all_fragments [ i ] . motion_y = 127 ;
s - > all_fragments [ i ] . next_coeff = NULL ;
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s - > coeffs [ i ] . index =
s - > coeffs [ i ] . coeff = 0 ;
s - > coeffs [ i ] . next = NULL ;
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}
}
/*
* This function sets of the dequantization tables used for a particular
* frame .
*/
static void init_dequantizer ( Vp3DecodeContext * s )
{
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int ac_scale_factor = s - > coded_ac_scale_factor [ s - > quality_index ] ;
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int dc_scale_factor = s - > coded_dc_scale_factor [ s - > quality_index ] ;
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int i , j ;
debug_vp3 ( " vp3: initializing dequantization tables \n " ) ;
/*
* Scale dequantizers :
*
* quantizer * sf
* - - - - - - - - - - - - - -
* 100
*
* where sf = dc_scale_factor for DC quantizer
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* or ac_scale_factor for AC quantizer
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*
* Then , saturate the result to a lower limit of MIN_DEQUANT_VAL .
*/
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# define SCALER 4
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/* scale DC quantizers */
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s - > intra_y_dequant [ 0 ] = s - > coded_intra_y_dequant [ 0 ] * dc_scale_factor / 100 ;
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if ( s - > intra_y_dequant [ 0 ] < MIN_DEQUANT_VAL * 2 )
s - > intra_y_dequant [ 0 ] = MIN_DEQUANT_VAL * 2 ;
s - > intra_y_dequant [ 0 ] * = SCALER ;
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s - > intra_c_dequant [ 0 ] = s - > coded_intra_c_dequant [ 0 ] * dc_scale_factor / 100 ;
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if ( s - > intra_c_dequant [ 0 ] < MIN_DEQUANT_VAL * 2 )
s - > intra_c_dequant [ 0 ] = MIN_DEQUANT_VAL * 2 ;
s - > intra_c_dequant [ 0 ] * = SCALER ;
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s - > inter_dequant [ 0 ] = s - > coded_inter_dequant [ 0 ] * dc_scale_factor / 100 ;
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if ( s - > inter_dequant [ 0 ] < MIN_DEQUANT_VAL * 4 )
s - > inter_dequant [ 0 ] = MIN_DEQUANT_VAL * 4 ;
s - > inter_dequant [ 0 ] * = SCALER ;
/* scale AC quantizers, zigzag at the same time in preparation for
* the dequantization phase */
for ( i = 1 ; i < 64 ; i + + ) {
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int k = s - > scantable . scantable [ i ] ;
j = s - > scantable . permutated [ i ] ;
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2005-05-17 11:31:57 +00:00
s - > intra_y_dequant [ j ] = s - > coded_intra_y_dequant [ k ] * ac_scale_factor / 100 ;
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if ( s - > intra_y_dequant [ j ] < MIN_DEQUANT_VAL )
s - > intra_y_dequant [ j ] = MIN_DEQUANT_VAL ;
s - > intra_y_dequant [ j ] * = SCALER ;
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s - > intra_c_dequant [ j ] = s - > coded_intra_c_dequant [ k ] * ac_scale_factor / 100 ;
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if ( s - > intra_c_dequant [ j ] < MIN_DEQUANT_VAL )
s - > intra_c_dequant [ j ] = MIN_DEQUANT_VAL ;
s - > intra_c_dequant [ j ] * = SCALER ;
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s - > inter_dequant [ j ] = s - > coded_inter_dequant [ k ] * ac_scale_factor / 100 ;
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if ( s - > inter_dequant [ j ] < MIN_DEQUANT_VAL * 2 )
s - > inter_dequant [ j ] = MIN_DEQUANT_VAL * 2 ;
s - > inter_dequant [ j ] * = SCALER ;
}
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memset ( s - > qscale_table , ( FFMAX ( s - > intra_y_dequant [ 1 ] , s - > intra_c_dequant [ 1 ] ) + 8 ) / 16 , 512 ) ; //FIXME finetune
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/* print debug information as requested */
debug_dequantizers ( " intra Y dequantizers: \n " ) ;
for ( i = 0 ; i < 8 ; i + + ) {
for ( j = i * 8 ; j < i * 8 + 8 ; j + + ) {
debug_dequantizers ( " %4d, " , s - > intra_y_dequant [ j ] ) ;
}
debug_dequantizers ( " \n " ) ;
}
debug_dequantizers ( " \n " ) ;
debug_dequantizers ( " intra C dequantizers: \n " ) ;
for ( i = 0 ; i < 8 ; i + + ) {
for ( j = i * 8 ; j < i * 8 + 8 ; j + + ) {
debug_dequantizers ( " %4d, " , s - > intra_c_dequant [ j ] ) ;
}
debug_dequantizers ( " \n " ) ;
}
debug_dequantizers ( " \n " ) ;
debug_dequantizers ( " interframe dequantizers: \n " ) ;
for ( i = 0 ; i < 8 ; i + + ) {
for ( j = i * 8 ; j < i * 8 + 8 ; j + + ) {
debug_dequantizers ( " %4d, " , s - > inter_dequant [ j ] ) ;
}
debug_dequantizers ( " \n " ) ;
}
debug_dequantizers ( " \n " ) ;
}
/*
* This function is used to fetch runs of 1 s or 0 s from the bitstream for
* use in determining which superblocks are fully and partially coded .
*
* Codeword RunLength
* 0 1
* 10 x 2 - 3
* 110 x 4 - 5
* 1110 xx 6 - 9
* 11110 xxx 10 - 17
* 111110 xxxx 18 - 33
* 111111 xxxxxxxxxxxx 34 - 4129
*/
static int get_superblock_run_length ( GetBitContext * gb )
{
if ( get_bits ( gb , 1 ) = = 0 )
return 1 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 2 + get_bits ( gb , 1 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 4 + get_bits ( gb , 1 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 6 + get_bits ( gb , 2 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 10 + get_bits ( gb , 3 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 18 + get_bits ( gb , 4 ) ) ;
else
return ( 34 + get_bits ( gb , 12 ) ) ;
}
/*
* This function is used to fetch runs of 1 s or 0 s from the bitstream for
* use in determining which particular fragments are coded .
*
* Codeword RunLength
* 0 x 1 - 2
* 10 x 3 - 4
* 110 x 5 - 6
* 1110 xx 7 - 10
* 11110 xx 11 - 14
* 11111 xxxx 15 - 30
*/
static int get_fragment_run_length ( GetBitContext * gb )
{
if ( get_bits ( gb , 1 ) = = 0 )
return ( 1 + get_bits ( gb , 1 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 3 + get_bits ( gb , 1 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 5 + get_bits ( gb , 1 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 7 + get_bits ( gb , 2 ) ) ;
else if ( get_bits ( gb , 1 ) = = 0 )
return ( 11 + get_bits ( gb , 2 ) ) ;
else
return ( 15 + get_bits ( gb , 4 ) ) ;
}
/*
* This function decodes a VLC from the bitstream and returns a number
* that ranges from 0. .7 . The number indicates which of the 8 coding
* modes to use .
*
* VLC Number
* 0 0
* 10 1
* 110 2
* 1110 3
* 11110 4
* 111110 5
* 1111110 6
* 1111111 7
*
*/
static int get_mode_code ( GetBitContext * gb )
{
if ( get_bits ( gb , 1 ) = = 0 )
return 0 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 1 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 2 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 3 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 4 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 5 ;
else if ( get_bits ( gb , 1 ) = = 0 )
return 6 ;
else
return 7 ;
}
/*
* This function extracts a motion vector from the bitstream using a VLC
* scheme . 3 bits are fetched from the bitstream and 1 of 8 actions is
* taken depending on the value on those 3 bits :
*
* 0 : return 0
* 1 : return 1
* 2 : return - 1
* 3 : if ( next bit is 1 ) return - 2 , else return 2
* 4 : if ( next bit is 1 ) return - 3 , else return 3
* 5 : return 4 + ( next 2 bits ) , next bit is sign
* 6 : return 8 + ( next 3 bits ) , next bit is sign
* 7 : return 16 + ( next 4 bits ) , next bit is sign
*/
static int get_motion_vector_vlc ( GetBitContext * gb )
{
int bits ;
bits = get_bits ( gb , 3 ) ;
switch ( bits ) {
case 0 :
bits = 0 ;
break ;
case 1 :
bits = 1 ;
break ;
case 2 :
bits = - 1 ;
break ;
case 3 :
if ( get_bits ( gb , 1 ) = = 0 )
bits = 2 ;
else
bits = - 2 ;
break ;
case 4 :
if ( get_bits ( gb , 1 ) = = 0 )
bits = 3 ;
else
bits = - 3 ;
break ;
case 5 :
bits = 4 + get_bits ( gb , 2 ) ;
if ( get_bits ( gb , 1 ) = = 1 )
bits = - bits ;
break ;
case 6 :
bits = 8 + get_bits ( gb , 3 ) ;
if ( get_bits ( gb , 1 ) = = 1 )
bits = - bits ;
break ;
case 7 :
bits = 16 + get_bits ( gb , 4 ) ;
if ( get_bits ( gb , 1 ) = = 1 )
bits = - bits ;
break ;
}
return bits ;
}
/*
* This function fetches a 5 - bit number from the stream followed by
* a sign and calls it a motion vector .
*/
static int get_motion_vector_fixed ( GetBitContext * gb )
{
int bits ;
bits = get_bits ( gb , 5 ) ;
if ( get_bits ( gb , 1 ) = = 1 )
bits = - bits ;
return bits ;
}
/*
* This function unpacks all of the superblock / macroblock / fragment coding
* information from the bitstream .
*/
2003-05-10 21:46:17 +00:00
static int unpack_superblocks ( Vp3DecodeContext * s , GetBitContext * gb )
2003-05-05 02:54:15 +00:00
{
int bit = 0 ;
int current_superblock = 0 ;
int current_run = 0 ;
int decode_fully_flags = 0 ;
int decode_partial_blocks = 0 ;
2003-05-19 01:22:46 +00:00
int first_c_fragment_seen ;
2003-05-05 02:54:15 +00:00
int i , j ;
int current_fragment ;
debug_vp3 ( " vp3: unpacking superblock coding \n " ) ;
if ( s - > keyframe ) {
debug_vp3 ( " keyframe-- all superblocks are fully coded \n " ) ;
memset ( s - > superblock_coding , SB_FULLY_CODED , s - > superblock_count ) ;
} else {
/* unpack the list of partially-coded superblocks */
bit = get_bits ( gb , 1 ) ;
/* toggle the bit because as soon as the first run length is
* fetched the bit will be toggled again */
bit ^ = 1 ;
while ( current_superblock < s - > superblock_count ) {
2005-05-18 08:48:11 +00:00
if ( current_run - - = = 0 ) {
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bit ^ = 1 ;
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# if 1
current_run = get_vlc2 ( gb ,
2005-05-18 08:48:11 +00:00
s - > superblock_run_length_vlc . table , 6 , 2 ) ;
if ( current_run = = 33 )
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current_run + = get_bits ( gb , 12 ) ;
# else
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current_run = get_superblock_run_length ( gb ) ;
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# endif
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debug_block_coding ( " setting superblocks %d..%d to %s \n " ,
current_superblock ,
current_superblock + current_run - 1 ,
( bit ) ? " partially coded " : " not coded " ) ;
/* if any of the superblocks are not partially coded, flag
* a boolean to decode the list of fully - coded superblocks */
2003-05-31 07:56:58 +00:00
if ( bit = = 0 ) {
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decode_fully_flags = 1 ;
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} else {
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2003-05-31 07:56:58 +00:00
/* make a note of the fact that there are partially coded
* superblocks */
decode_partial_blocks = 1 ;
}
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}
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s - > superblock_coding [ current_superblock + + ] = bit ;
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}
/* unpack the list of fully coded superblocks if any of the blocks were
* not marked as partially coded in the previous step */
if ( decode_fully_flags ) {
current_superblock = 0 ;
current_run = 0 ;
bit = get_bits ( gb , 1 ) ;
/* toggle the bit because as soon as the first run length is
* fetched the bit will be toggled again */
bit ^ = 1 ;
while ( current_superblock < s - > superblock_count ) {
/* skip any superblocks already marked as partially coded */
if ( s - > superblock_coding [ current_superblock ] = = SB_NOT_CODED ) {
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if ( current_run - - = = 0 ) {
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bit ^ = 1 ;
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# if 1
current_run = get_vlc2 ( gb ,
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s - > superblock_run_length_vlc . table , 6 , 2 ) ;
if ( current_run = = 33 )
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current_run + = get_bits ( gb , 12 ) ;
# else
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current_run = get_superblock_run_length ( gb ) ;
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# endif
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}
debug_block_coding ( " setting superblock %d to %s \n " ,
current_superblock ,
( bit ) ? " fully coded " : " not coded " ) ;
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s - > superblock_coding [ current_superblock ] = 2 * bit ;
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}
current_superblock + + ;
}
}
/* if there were partial blocks, initialize bitstream for
* unpacking fragment codings */
if ( decode_partial_blocks ) {
current_run = 0 ;
bit = get_bits ( gb , 1 ) ;
/* toggle the bit because as soon as the first run length is
* fetched the bit will be toggled again */
bit ^ = 1 ;
}
}
/* figure out which fragments are coded; iterate through each
* superblock ( all planes ) */
s - > coded_fragment_list_index = 0 ;
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s - > next_coeff = s - > coeffs + s - > fragment_count ;
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s - > first_coded_y_fragment = s - > first_coded_c_fragment = 0 ;
s - > last_coded_y_fragment = s - > last_coded_c_fragment = - 1 ;
2003-05-19 01:22:46 +00:00
first_c_fragment_seen = 0 ;
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memset ( s - > macroblock_coding , MODE_COPY , s - > macroblock_count ) ;
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for ( i = 0 ; i < s - > superblock_count ; i + + ) {
/* iterate through all 16 fragments in a superblock */
for ( j = 0 ; j < 16 ; j + + ) {
/* if the fragment is in bounds, check its coding status */
current_fragment = s - > superblock_fragments [ i * 16 + j ] ;
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if ( current_fragment > = s - > fragment_count ) {
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av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_superblocks(): bad fragment number (%d >= %d) \n " ,
2003-05-10 21:46:17 +00:00
current_fragment , s - > fragment_count ) ;
return 1 ;
}
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if ( current_fragment ! = - 1 ) {
if ( s - > superblock_coding [ i ] = = SB_NOT_CODED ) {
/* copy all the fragments from the prior frame */
s - > all_fragments [ current_fragment ] . coding_method =
MODE_COPY ;
} else if ( s - > superblock_coding [ i ] = = SB_PARTIALLY_CODED ) {
/* fragment may or may not be coded; this is the case
* that cares about the fragment coding runs */
2005-05-18 08:48:11 +00:00
if ( current_run - - = = 0 ) {
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bit ^ = 1 ;
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# if 1
current_run = get_vlc2 ( gb ,
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s - > fragment_run_length_vlc . table , 5 , 2 ) ;
2005-05-17 23:39:23 +00:00
# else
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current_run = get_fragment_run_length ( gb ) ;
2005-05-17 23:39:23 +00:00
# endif
2003-05-05 02:54:15 +00:00
}
if ( bit ) {
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/* default mode; actual mode will be decoded in
* the next phase */
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s - > all_fragments [ current_fragment ] . coding_method =
MODE_INTER_NO_MV ;
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s - > all_fragments [ current_fragment ] . next_coeff = s - > coeffs + current_fragment ;
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s - > coded_fragment_list [ s - > coded_fragment_list_index ] =
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current_fragment ;
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if ( ( current_fragment > = s - > u_fragment_start ) & &
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( s - > last_coded_y_fragment = = - 1 ) & &
( ! first_c_fragment_seen ) ) {
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s - > first_coded_c_fragment = s - > coded_fragment_list_index ;
s - > last_coded_y_fragment = s - > first_coded_c_fragment - 1 ;
2003-05-19 01:22:46 +00:00
first_c_fragment_seen = 1 ;
2003-05-10 16:06:33 +00:00
}
s - > coded_fragment_list_index + + ;
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s - > macroblock_coding [ s - > all_fragments [ current_fragment ] . macroblock ] = MODE_INTER_NO_MV ;
2003-05-05 02:54:15 +00:00
debug_block_coding ( " superblock %d is partially coded, fragment %d is coded \n " ,
i , current_fragment ) ;
} else {
/* not coded; copy this fragment from the prior frame */
s - > all_fragments [ current_fragment ] . coding_method =
MODE_COPY ;
debug_block_coding ( " superblock %d is partially coded, fragment %d is not coded \n " ,
i , current_fragment ) ;
}
} else {
/* fragments are fully coded in this superblock; actual
* coding will be determined in next step */
s - > all_fragments [ current_fragment ] . coding_method =
MODE_INTER_NO_MV ;
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s - > all_fragments [ current_fragment ] . next_coeff = s - > coeffs + current_fragment ;
2003-05-10 16:06:33 +00:00
s - > coded_fragment_list [ s - > coded_fragment_list_index ] =
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current_fragment ;
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if ( ( current_fragment > = s - > u_fragment_start ) & &
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( s - > last_coded_y_fragment = = - 1 ) & &
( ! first_c_fragment_seen ) ) {
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s - > first_coded_c_fragment = s - > coded_fragment_list_index ;
s - > last_coded_y_fragment = s - > first_coded_c_fragment - 1 ;
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first_c_fragment_seen = 1 ;
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}
s - > coded_fragment_list_index + + ;
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s - > macroblock_coding [ s - > all_fragments [ current_fragment ] . macroblock ] = MODE_INTER_NO_MV ;
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debug_block_coding ( " superblock %d is fully coded, fragment %d is coded \n " ,
i , current_fragment ) ;
}
}
}
}
2003-05-10 16:06:33 +00:00
2003-05-19 01:22:46 +00:00
if ( ! first_c_fragment_seen )
/* only Y fragments coded in this frame */
2003-05-10 16:06:33 +00:00
s - > last_coded_y_fragment = s - > coded_fragment_list_index - 1 ;
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else
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/* end the list of coded C fragments */
2003-05-10 16:06:33 +00:00
s - > last_coded_c_fragment = s - > coded_fragment_list_index - 1 ;
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2003-05-10 16:06:33 +00:00
debug_block_coding ( " %d total coded fragments, y: %d -> %d, c: %d -> %d \n " ,
s - > coded_fragment_list_index ,
s - > first_coded_y_fragment ,
s - > last_coded_y_fragment ,
s - > first_coded_c_fragment ,
s - > last_coded_c_fragment ) ;
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return 0 ;
2003-05-05 02:54:15 +00:00
}
/*
* This function unpacks all the coding mode data for individual macroblocks
* from the bitstream .
*/
2003-05-10 21:46:17 +00:00
static int unpack_modes ( Vp3DecodeContext * s , GetBitContext * gb )
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{
int i , j , k ;
int scheme ;
int current_macroblock ;
int current_fragment ;
int coding_mode ;
debug_vp3 ( " vp3: unpacking encoding modes \n " ) ;
if ( s - > keyframe ) {
debug_vp3 ( " keyframe-- all blocks are coded as INTRA \n " ) ;
for ( i = 0 ; i < s - > fragment_count ; i + + )
s - > all_fragments [ i ] . coding_method = MODE_INTRA ;
} else {
/* fetch the mode coding scheme for this frame */
scheme = get_bits ( gb , 3 ) ;
debug_modes ( " using mode alphabet %d \n " , scheme ) ;
/* is it a custom coding scheme? */
if ( scheme = = 0 ) {
debug_modes ( " custom mode alphabet ahead: \n " ) ;
for ( i = 0 ; i < 8 ; i + + )
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ModeAlphabet [ scheme ] [ get_bits ( gb , 3 ) ] = i ;
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}
for ( i = 0 ; i < 8 ; i + + )
debug_modes ( " mode[%d][%d] = %d \n " , scheme , i ,
ModeAlphabet [ scheme ] [ i ] ) ;
/* iterate through all of the macroblocks that contain 1 or more
* coded fragments */
for ( i = 0 ; i < s - > u_superblock_start ; i + + ) {
for ( j = 0 ; j < 4 ; j + + ) {
current_macroblock = s - > superblock_macroblocks [ i * 4 + j ] ;
if ( ( current_macroblock = = - 1 ) | |
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( s - > macroblock_coding [ current_macroblock ] = = MODE_COPY ) )
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continue ;
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if ( current_macroblock > = s - > macroblock_count ) {
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av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_modes(): bad macroblock number (%d >= %d) \n " ,
2003-05-10 21:46:17 +00:00
current_macroblock , s - > macroblock_count ) ;
return 1 ;
}
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/* mode 7 means get 3 bits for each coding mode */
if ( scheme = = 7 )
coding_mode = get_bits ( gb , 3 ) ;
else
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{
# if 1
coding_mode = ModeAlphabet [ scheme ]
[ get_vlc2 ( gb , s - > mode_code_vlc . table , 3 , 3 ) ] ;
# else
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coding_mode = ModeAlphabet [ scheme ] [ get_mode_code ( gb ) ] ;
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# endif
}
2003-05-05 02:54:15 +00:00
2003-05-11 04:47:45 +00:00
s - > macroblock_coding [ current_macroblock ] = coding_mode ;
2003-05-05 02:54:15 +00:00
for ( k = 0 ; k < 6 ; k + + ) {
current_fragment =
s - > macroblock_fragments [ current_macroblock * 6 + k ] ;
2003-05-10 21:46:17 +00:00
if ( current_fragment = = - 1 )
continue ;
if ( current_fragment > = s - > fragment_count ) {
2003-11-03 13:26:22 +00:00
av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_modes(): bad fragment number (%d >= %d) \n " ,
2003-05-10 21:46:17 +00:00
current_fragment , s - > fragment_count ) ;
return 1 ;
}
2003-05-05 02:54:15 +00:00
if ( s - > all_fragments [ current_fragment ] . coding_method ! =
MODE_COPY )
s - > all_fragments [ current_fragment ] . coding_method =
coding_mode ;
}
debug_modes ( " coding method for macroblock starting @ fragment %d = %d \n " ,
s - > macroblock_fragments [ current_macroblock * 6 ] , coding_mode ) ;
}
}
}
2003-05-10 21:46:17 +00:00
return 0 ;
2003-05-07 02:30:37 +00:00
}
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/*
* This function unpacks all the motion vectors for the individual
* macroblocks from the bitstream .
*/
2003-05-10 21:46:17 +00:00
static int unpack_vectors ( Vp3DecodeContext * s , GetBitContext * gb )
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{
int i , j , k ;
int coding_mode ;
int motion_x [ 6 ] ;
int motion_y [ 6 ] ;
int last_motion_x = 0 ;
int last_motion_y = 0 ;
int prior_last_motion_x = 0 ;
int prior_last_motion_y = 0 ;
int current_macroblock ;
int current_fragment ;
debug_vp3 ( " vp3: unpacking motion vectors \n " ) ;
if ( s - > keyframe ) {
debug_vp3 ( " keyframe-- there are no motion vectors \n " ) ;
} else {
memset ( motion_x , 0 , 6 * sizeof ( int ) ) ;
memset ( motion_y , 0 , 6 * sizeof ( int ) ) ;
/* coding mode 0 is the VLC scheme; 1 is the fixed code scheme */
coding_mode = get_bits ( gb , 1 ) ;
debug_vectors ( " using %s scheme for unpacking motion vectors \n " ,
( coding_mode = = 0 ) ? " VLC " : " fixed-length " ) ;
/* iterate through all of the macroblocks that contain 1 or more
* coded fragments */
for ( i = 0 ; i < s - > u_superblock_start ; i + + ) {
for ( j = 0 ; j < 4 ; j + + ) {
current_macroblock = s - > superblock_macroblocks [ i * 4 + j ] ;
if ( ( current_macroblock = = - 1 ) | |
2003-05-11 04:47:45 +00:00
( s - > macroblock_coding [ current_macroblock ] = = MODE_COPY ) )
2003-05-05 02:54:15 +00:00
continue ;
2003-05-10 21:46:17 +00:00
if ( current_macroblock > = s - > macroblock_count ) {
2003-11-03 13:26:22 +00:00
av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_vectors(): bad macroblock number (%d >= %d) \n " ,
2003-05-10 21:46:17 +00:00
current_macroblock , s - > macroblock_count ) ;
return 1 ;
}
2003-05-05 02:54:15 +00:00
current_fragment = s - > macroblock_fragments [ current_macroblock * 6 ] ;
2003-05-10 21:46:17 +00:00
if ( current_fragment > = s - > fragment_count ) {
2003-11-03 13:26:22 +00:00
av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_vectors(): bad fragment number (%d >= %d \n " ,
2003-05-10 21:46:17 +00:00
current_fragment , s - > fragment_count ) ;
return 1 ;
}
2003-05-11 04:47:45 +00:00
switch ( s - > macroblock_coding [ current_macroblock ] ) {
2003-05-05 02:54:15 +00:00
case MODE_INTER_PLUS_MV :
case MODE_GOLDEN_MV :
/* all 6 fragments use the same motion vector */
if ( coding_mode = = 0 ) {
2005-05-18 17:14:59 +00:00
# if 1
2005-05-17 23:39:23 +00:00
motion_x [ 0 ] = motion_vector_table [ get_vlc2 ( gb , s - > motion_vector_vlc . table , 6 , 2 ) ] ;
motion_y [ 0 ] = motion_vector_table [ get_vlc2 ( gb , s - > motion_vector_vlc . table , 6 , 2 ) ] ;
# else
2003-05-05 02:54:15 +00:00
motion_x [ 0 ] = get_motion_vector_vlc ( gb ) ;
motion_y [ 0 ] = get_motion_vector_vlc ( gb ) ;
2005-05-17 23:39:23 +00:00
# endif
2003-05-05 02:54:15 +00:00
} else {
2005-05-21 01:12:41 +00:00
# if 1
motion_x [ 0 ] = fixed_motion_vector_table [ get_bits ( gb , 6 ) ] ;
motion_y [ 0 ] = fixed_motion_vector_table [ get_bits ( gb , 6 ) ] ;
# else
2003-05-05 02:54:15 +00:00
motion_x [ 0 ] = get_motion_vector_fixed ( gb ) ;
motion_y [ 0 ] = get_motion_vector_fixed ( gb ) ;
2005-05-21 01:12:41 +00:00
# endif
2003-05-05 02:54:15 +00:00
}
2005-05-21 01:12:41 +00:00
2003-05-05 02:54:15 +00:00
for ( k = 1 ; k < 6 ; k + + ) {
motion_x [ k ] = motion_x [ 0 ] ;
motion_y [ k ] = motion_y [ 0 ] ;
}
/* vector maintenance, only on MODE_INTER_PLUS_MV */
2003-05-31 07:56:58 +00:00
if ( s - > macroblock_coding [ current_macroblock ] = =
2003-05-05 02:54:15 +00:00
MODE_INTER_PLUS_MV ) {
prior_last_motion_x = last_motion_x ;
prior_last_motion_y = last_motion_y ;
last_motion_x = motion_x [ 0 ] ;
last_motion_y = motion_y [ 0 ] ;
}
break ;
case MODE_INTER_FOURMV :
/* fetch 4 vectors from the bitstream, one for each
* Y fragment , then average for the C fragment vectors */
motion_x [ 4 ] = motion_y [ 4 ] = 0 ;
for ( k = 0 ; k < 4 ; k + + ) {
if ( coding_mode = = 0 ) {
2005-05-18 17:14:59 +00:00
# if 1
motion_x [ k ] = motion_vector_table [ get_vlc2 ( gb , s - > motion_vector_vlc . table , 6 , 2 ) ] ;
motion_y [ k ] = motion_vector_table [ get_vlc2 ( gb , s - > motion_vector_vlc . table , 6 , 2 ) ] ;
2005-05-17 23:39:23 +00:00
# else
2003-05-05 02:54:15 +00:00
motion_x [ k ] = get_motion_vector_vlc ( gb ) ;
motion_y [ k ] = get_motion_vector_vlc ( gb ) ;
2005-05-17 23:39:23 +00:00
# endif
2003-05-05 02:54:15 +00:00
} else {
2005-05-21 01:12:41 +00:00
# if 1
motion_x [ k ] = fixed_motion_vector_table [ get_bits ( gb , 6 ) ] ;
motion_y [ k ] = fixed_motion_vector_table [ get_bits ( gb , 6 ) ] ;
# else
2003-05-05 02:54:15 +00:00
motion_x [ k ] = get_motion_vector_fixed ( gb ) ;
motion_y [ k ] = get_motion_vector_fixed ( gb ) ;
2005-05-21 01:12:41 +00:00
# endif
2003-05-05 02:54:15 +00:00
}
motion_x [ 4 ] + = motion_x [ k ] ;
motion_y [ 4 ] + = motion_y [ k ] ;
}
if ( motion_x [ 4 ] > = 0 )
motion_x [ 4 ] = ( motion_x [ 4 ] + 2 ) / 4 ;
else
motion_x [ 4 ] = ( motion_x [ 4 ] - 2 ) / 4 ;
motion_x [ 5 ] = motion_x [ 4 ] ;
if ( motion_y [ 4 ] > = 0 )
motion_y [ 4 ] = ( motion_y [ 4 ] + 2 ) / 4 ;
else
motion_y [ 4 ] = ( motion_y [ 4 ] - 2 ) / 4 ;
motion_y [ 5 ] = motion_y [ 4 ] ;
/* vector maintenance; vector[3] is treated as the
* last vector in this case */
prior_last_motion_x = last_motion_x ;
prior_last_motion_y = last_motion_y ;
last_motion_x = motion_x [ 3 ] ;
last_motion_y = motion_y [ 3 ] ;
break ;
case MODE_INTER_LAST_MV :
/* all 6 fragments use the last motion vector */
motion_x [ 0 ] = last_motion_x ;
motion_y [ 0 ] = last_motion_y ;
for ( k = 1 ; k < 6 ; k + + ) {
motion_x [ k ] = motion_x [ 0 ] ;
motion_y [ k ] = motion_y [ 0 ] ;
}
/* no vector maintenance (last vector remains the
* last vector ) */
break ;
case MODE_INTER_PRIOR_LAST :
/* all 6 fragments use the motion vector prior to the
* last motion vector */
motion_x [ 0 ] = prior_last_motion_x ;
motion_y [ 0 ] = prior_last_motion_y ;
for ( k = 1 ; k < 6 ; k + + ) {
motion_x [ k ] = motion_x [ 0 ] ;
motion_y [ k ] = motion_y [ 0 ] ;
}
/* vector maintenance */
prior_last_motion_x = last_motion_x ;
prior_last_motion_y = last_motion_y ;
last_motion_x = motion_x [ 0 ] ;
last_motion_y = motion_y [ 0 ] ;
break ;
2003-05-07 02:30:37 +00:00
default :
/* covers intra, inter without MV, golden without MV */
memset ( motion_x , 0 , 6 * sizeof ( int ) ) ;
memset ( motion_y , 0 , 6 * sizeof ( int ) ) ;
/* no vector maintenance */
break ;
2003-05-05 02:54:15 +00:00
}
/* assign the motion vectors to the correct fragments */
debug_vectors ( " vectors for macroblock starting @ fragment %d (coding method %d): \n " ,
current_fragment ,
2003-05-31 07:56:58 +00:00
s - > macroblock_coding [ current_macroblock ] ) ;
2003-05-05 02:54:15 +00:00
for ( k = 0 ; k < 6 ; k + + ) {
current_fragment =
s - > macroblock_fragments [ current_macroblock * 6 + k ] ;
2003-05-10 21:46:17 +00:00
if ( current_fragment = = - 1 )
continue ;
if ( current_fragment > = s - > fragment_count ) {
2003-11-03 13:26:22 +00:00
av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_vectors(): bad fragment number (%d >= %d) \n " ,
2003-05-10 21:46:17 +00:00
current_fragment , s - > fragment_count ) ;
return 1 ;
}
2003-05-05 02:54:15 +00:00
s - > all_fragments [ current_fragment ] . motion_x = motion_x [ k ] ;
2003-05-07 02:30:37 +00:00
s - > all_fragments [ current_fragment ] . motion_y = motion_y [ k ] ;
2003-05-31 07:56:58 +00:00
debug_vectors ( " vector %d: fragment %d = (%d, %d) \n " ,
k , current_fragment , motion_x [ k ] , motion_y [ k ] ) ;
2003-05-05 02:54:15 +00:00
}
}
}
}
2003-05-10 21:46:17 +00:00
return 0 ;
2003-05-05 02:54:15 +00:00
}
/*
* This function is called by unpack_dct_coeffs ( ) to extract the VLCs from
* the bitstream . The VLCs encode tokens which are used to unpack DCT
* data . This function unpacks all the VLCs for either the Y plane or both
* C planes , and is called for DC coefficients or different AC coefficient
* levels ( since different coefficient types require different VLC tables .
*
* This function returns a residual eob run . E . g , if a particular token gave
* instructions to EOB the next 5 fragments and there were only 2 fragments
* left in the current fragment range , 3 would be returned so that it could
* be passed into the next call to this same function .
*/
static int unpack_vlcs ( Vp3DecodeContext * s , GetBitContext * gb ,
VLC * table , int coeff_index ,
int first_fragment , int last_fragment ,
int eob_run )
{
int i ;
int token ;
2005-05-19 02:43:21 +00:00
int zero_run = 0 ;
DCTELEM coeff = 0 ;
2003-05-05 02:54:15 +00:00
Vp3Fragment * fragment ;
2005-05-17 11:31:57 +00:00
uint8_t * perm = s - > scantable . permutated ;
2005-05-19 02:43:21 +00:00
int bits_to_get ;
2003-05-05 02:54:15 +00:00
2003-05-19 01:22:46 +00:00
if ( ( first_fragment > = s - > fragment_count ) | |
2003-05-12 04:28:35 +00:00
( last_fragment > = s - > fragment_count ) ) {
2003-11-03 13:26:22 +00:00
av_log ( s - > avctx , AV_LOG_ERROR , " vp3:unpack_vlcs(): bad fragment number (%d -> %d ?) \n " ,
2003-05-12 04:28:35 +00:00
first_fragment , last_fragment ) ;
2003-05-19 01:22:46 +00:00
return 0 ;
2003-05-12 04:28:35 +00:00
}
2003-05-10 16:06:33 +00:00
for ( i = first_fragment ; i < = last_fragment ; i + + ) {
2003-05-05 02:54:15 +00:00
fragment = & s - > all_fragments [ s - > coded_fragment_list [ i ] ] ;
if ( fragment - > coeff_count > coeff_index )
continue ;
if ( ! eob_run ) {
/* decode a VLC into a token */
token = get_vlc2 ( gb , table - > table , 5 , 3 ) ;
debug_vlc ( " token = %2d, " , token ) ;
/* use the token to get a zero run, a coefficient, and an eob run */
2005-05-19 02:43:21 +00:00
# if 1
if ( token < = 6 ) {
eob_run = eob_run_base [ token ] ;
if ( eob_run_get_bits [ token ] )
eob_run + = get_bits ( gb , eob_run_get_bits [ token ] ) ;
coeff = zero_run = 0 ;
} else {
bits_to_get = coeff_get_bits [ token ] ;
if ( ! bits_to_get )
coeff = coeff_tables [ token ] [ 0 ] ;
else
coeff = coeff_tables [ token ] [ get_bits ( gb , bits_to_get ) ] ;
zero_run = zero_run_base [ token ] ;
if ( zero_run_get_bits [ token ] )
zero_run + = get_bits ( gb , zero_run_get_bits [ token ] ) ;
}
# else
2003-05-05 02:54:15 +00:00
unpack_token ( gb , token , & zero_run , & coeff , & eob_run ) ;
2005-05-19 02:43:21 +00:00
# endif
2003-05-05 02:54:15 +00:00
}
if ( ! eob_run ) {
fragment - > coeff_count + = zero_run ;
2005-05-19 10:48:36 +00:00
if ( fragment - > coeff_count < 64 ) {
fragment - > next_coeff - > coeff = coeff ;
fragment - > next_coeff - > index = perm [ fragment - > coeff_count + + ] ; //FIXME perm here already?
fragment - > next_coeff - > next = s - > next_coeff ;
s - > next_coeff - > next = NULL ;
fragment - > next_coeff = s - > next_coeff + + ;
}
2003-05-05 02:54:15 +00:00
debug_vlc ( " fragment %d coeff = %d \n " ,
2005-05-19 10:48:36 +00:00
s - > coded_fragment_list [ i ] , fragment - > next_coeff [ coeff_index ] ) ;
2003-05-05 02:54:15 +00:00
} else {
2005-05-19 10:48:36 +00:00
fragment - > coeff_count | = 128 ;
2003-05-05 02:54:15 +00:00
debug_vlc ( " fragment %d eob with %d coefficients \n " ,
2005-05-19 10:48:36 +00:00
s - > coded_fragment_list [ i ] , fragment - > coeff_count & 127 ) ;
2003-05-05 02:54:15 +00:00
eob_run - - ;
}
}
return eob_run ;
}
/*
* This function unpacks all of the DCT coefficient data from the
* bitstream .
*/
2003-05-10 21:46:17 +00:00
static int unpack_dct_coeffs ( Vp3DecodeContext * s , GetBitContext * gb )
2003-05-05 02:54:15 +00:00
{
int i ;
int dc_y_table ;
int dc_c_table ;
int ac_y_table ;
int ac_c_table ;
int residual_eob_run = 0 ;
/* fetch the DC table indices */
dc_y_table = get_bits ( gb , 4 ) ;
dc_c_table = get_bits ( gb , 4 ) ;
/* unpack the Y plane DC coefficients */
debug_vp3 ( " vp3: unpacking Y plane DC coefficients using table %d \n " ,
dc_y_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > dc_vlc [ dc_y_table ] , 0 ,
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s - > first_coded_y_fragment , s - > last_coded_y_fragment , residual_eob_run ) ;
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/* unpack the C plane DC coefficients */
debug_vp3 ( " vp3: unpacking C plane DC coefficients using table %d \n " ,
dc_c_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > dc_vlc [ dc_c_table ] , 0 ,
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s - > first_coded_c_fragment , s - > last_coded_c_fragment , residual_eob_run ) ;
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/* fetch the AC table indices */
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ac_y_table = get_bits ( gb , 4 ) ;
ac_c_table = get_bits ( gb , 4 ) ;
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/* unpack the group 1 AC coefficients (coeffs 1-5) */
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for ( i = 1 ; i < = 5 ; i + + ) {
debug_vp3 ( " vp3: unpacking level %d Y plane AC coefficients using table %d \n " ,
i , ac_y_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_1 [ ac_y_table ] , i ,
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s - > first_coded_y_fragment , s - > last_coded_y_fragment , residual_eob_run ) ;
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debug_vp3 ( " vp3: unpacking level %d C plane AC coefficients using table %d \n " ,
i , ac_c_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_1 [ ac_c_table ] , i ,
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s - > first_coded_c_fragment , s - > last_coded_c_fragment , residual_eob_run ) ;
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}
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/* unpack the group 2 AC coefficients (coeffs 6-14) */
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for ( i = 6 ; i < = 14 ; i + + ) {
debug_vp3 ( " vp3: unpacking level %d Y plane AC coefficients using table %d \n " ,
i , ac_y_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_2 [ ac_y_table ] , i ,
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s - > first_coded_y_fragment , s - > last_coded_y_fragment , residual_eob_run ) ;
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debug_vp3 ( " vp3: unpacking level %d C plane AC coefficients using table %d \n " ,
i , ac_c_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_2 [ ac_c_table ] , i ,
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s - > first_coded_c_fragment , s - > last_coded_c_fragment , residual_eob_run ) ;
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}
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/* unpack the group 3 AC coefficients (coeffs 15-27) */
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for ( i = 15 ; i < = 27 ; i + + ) {
debug_vp3 ( " vp3: unpacking level %d Y plane AC coefficients using table %d \n " ,
i , ac_y_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_3 [ ac_y_table ] , i ,
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s - > first_coded_y_fragment , s - > last_coded_y_fragment , residual_eob_run ) ;
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debug_vp3 ( " vp3: unpacking level %d C plane AC coefficients using table %d \n " ,
i , ac_c_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_3 [ ac_c_table ] , i ,
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s - > first_coded_c_fragment , s - > last_coded_c_fragment , residual_eob_run ) ;
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}
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/* unpack the group 4 AC coefficients (coeffs 28-63) */
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for ( i = 28 ; i < = 63 ; i + + ) {
debug_vp3 ( " vp3: unpacking level %d Y plane AC coefficients using table %d \n " ,
i , ac_y_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_4 [ ac_y_table ] , i ,
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s - > first_coded_y_fragment , s - > last_coded_y_fragment , residual_eob_run ) ;
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debug_vp3 ( " vp3: unpacking level %d C plane AC coefficients using table %d \n " ,
i , ac_c_table ) ;
residual_eob_run = unpack_vlcs ( s , gb , & s - > ac_vlc_4 [ ac_c_table ] , i ,
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s - > first_coded_c_fragment , s - > last_coded_c_fragment , residual_eob_run ) ;
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}
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return 0 ;
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}
/*
* This function reverses the DC prediction for each coded fragment in
* the frame . Much of this function is adapted directly from the original
* VP3 source code .
*/
# define COMPATIBLE_FRAME(x) \
( compatible_frame [ s - > all_fragments [ x ] . coding_method ] = = current_frame_type )
# define FRAME_CODED(x) (s->all_fragments[x].coding_method != MODE_COPY)
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# define DC_COEFF(u) (s->coeffs[u].index ? 0 : s->coeffs[u].coeff) //FIXME do somethin to simplify this
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static inline int iabs ( int x ) { return ( ( x < 0 ) ? - x : x ) ; }
static void reverse_dc_prediction ( Vp3DecodeContext * s ,
int first_fragment ,
int fragment_width ,
int fragment_height )
{
# define PUL 8
# define PU 4
# define PUR 2
# define PL 1
int x , y ;
int i = first_fragment ;
/*
* Fragment prediction groups :
*
* 32222222226
* 10000000004
* 10000000004
* 10000000004
* 10000000004
*
* Note : Groups 5 and 7 do not exist as it would mean that the
* fragment ' s x coordinate is both 0 and ( width - 1 ) at the same time .
*/
int predictor_group ;
short predicted_dc ;
/* validity flags for the left, up-left, up, and up-right fragments */
int fl , ful , fu , fur ;
/* DC values for the left, up-left, up, and up-right fragments */
int vl , vul , vu , vur ;
/* indices for the left, up-left, up, and up-right fragments */
int l , ul , u , ur ;
/*
* The 6 fields mean :
* 0 : up - left multiplier
* 1 : up multiplier
* 2 : up - right multiplier
* 3 : left multiplier
* 4 : mask
* 5 : right bit shift divisor ( e . g . , 7 means > > = 7 , a . k . a . div by 128 )
*/
int predictor_transform [ 16 ] [ 6 ] = {
{ 0 , 0 , 0 , 0 , 0 , 0 } ,
{ 0 , 0 , 0 , 1 , 0 , 0 } , // PL
{ 0 , 0 , 1 , 0 , 0 , 0 } , // PUR
{ 0 , 0 , 53 , 75 , 127 , 7 } , // PUR|PL
{ 0 , 1 , 0 , 0 , 0 , 0 } , // PU
{ 0 , 1 , 0 , 1 , 1 , 1 } , // PU|PL
{ 0 , 1 , 0 , 0 , 0 , 0 } , // PU|PUR
{ 0 , 0 , 53 , 75 , 127 , 7 } , // PU|PUR|PL
{ 1 , 0 , 0 , 0 , 0 , 0 } , // PUL
{ 0 , 0 , 0 , 1 , 0 , 0 } , // PUL|PL
{ 1 , 0 , 1 , 0 , 1 , 1 } , // PUL|PUR
{ 0 , 0 , 53 , 75 , 127 , 7 } , // PUL|PUR|PL
{ 0 , 1 , 0 , 0 , 0 , 0 } , // PUL|PU
{ - 26 , 29 , 0 , 29 , 31 , 5 } , // PUL|PU|PL
{ 3 , 10 , 3 , 0 , 15 , 4 } , // PUL|PU|PUR
{ - 26 , 29 , 0 , 29 , 31 , 5 } // PUL|PU|PUR|PL
} ;
/* This table shows which types of blocks can use other blocks for
* prediction . For example , INTRA is the only mode in this table to
* have a frame number of 0. That means INTRA blocks can only predict
* from other INTRA blocks . There are 2 golden frame coding types ;
* blocks encoding in these modes can only predict from other blocks
* that were encoded with these 1 of these 2 modes . */
unsigned char compatible_frame [ 8 ] = {
1 , /* MODE_INTER_NO_MV */
0 , /* MODE_INTRA */
1 , /* MODE_INTER_PLUS_MV */
1 , /* MODE_INTER_LAST_MV */
1 , /* MODE_INTER_PRIOR_MV */
2 , /* MODE_USING_GOLDEN */
2 , /* MODE_GOLDEN_MV */
1 /* MODE_INTER_FOUR_MV */
} ;
int current_frame_type ;
/* there is a last DC predictor for each of the 3 frame types */
short last_dc [ 3 ] ;
int transform = 0 ;
debug_vp3 ( " vp3: reversing DC prediction \n " ) ;
vul = vu = vur = vl = 0 ;
last_dc [ 0 ] = last_dc [ 1 ] = last_dc [ 2 ] = 0 ;
/* for each fragment row... */
for ( y = 0 ; y < fragment_height ; y + + ) {
/* for each fragment in a row... */
for ( x = 0 ; x < fragment_width ; x + + , i + + ) {
/* reverse prediction if this block was coded */
if ( s - > all_fragments [ i ] . coding_method ! = MODE_COPY ) {
current_frame_type =
compatible_frame [ s - > all_fragments [ i ] . coding_method ] ;
predictor_group = ( x = = 0 ) + ( ( y = = 0 ) < < 1 ) +
( ( x + 1 = = fragment_width ) < < 2 ) ;
debug_dc_pred ( " frag %d: group %d, orig DC = %d, " ,
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i , predictor_group , DC_COEFF ( i ) ) ;
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switch ( predictor_group ) {
case 0 :
/* main body of fragments; consider all 4 possible
* fragments for prediction */
/* calculate the indices of the predicting fragments */
ul = i - fragment_width - 1 ;
u = i - fragment_width ;
ur = i - fragment_width + 1 ;
l = i - 1 ;
/* fetch the DC values for the predicting fragments */
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vul = DC_COEFF ( ul ) ;
vu = DC_COEFF ( u ) ;
vur = DC_COEFF ( ur ) ;
vl = DC_COEFF ( l ) ;
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/* figure out which fragments are valid */
ful = FRAME_CODED ( ul ) & & COMPATIBLE_FRAME ( ul ) ;
fu = FRAME_CODED ( u ) & & COMPATIBLE_FRAME ( u ) ;
fur = FRAME_CODED ( ur ) & & COMPATIBLE_FRAME ( ur ) ;
fl = FRAME_CODED ( l ) & & COMPATIBLE_FRAME ( l ) ;
/* decide which predictor transform to use */
transform = ( fl * PL ) | ( fu * PU ) | ( ful * PUL ) | ( fur * PUR ) ;
break ;
case 1 :
/* left column of fragments, not including top corner;
* only consider up and up - right fragments */
/* calculate the indices of the predicting fragments */
u = i - fragment_width ;
ur = i - fragment_width + 1 ;
/* fetch the DC values for the predicting fragments */
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vu = DC_COEFF ( u ) ;
vur = DC_COEFF ( ur ) ;
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/* figure out which fragments are valid */
fur = FRAME_CODED ( ur ) & & COMPATIBLE_FRAME ( ur ) ;
fu = FRAME_CODED ( u ) & & COMPATIBLE_FRAME ( u ) ;
/* decide which predictor transform to use */
transform = ( fu * PU ) | ( fur * PUR ) ;
break ;
case 2 :
case 6 :
/* top row of fragments, not including top-left frag;
* only consider the left fragment for prediction */
/* calculate the indices of the predicting fragments */
l = i - 1 ;
/* fetch the DC values for the predicting fragments */
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vl = DC_COEFF ( l ) ;
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/* figure out which fragments are valid */
fl = FRAME_CODED ( l ) & & COMPATIBLE_FRAME ( l ) ;
/* decide which predictor transform to use */
transform = ( fl * PL ) ;
break ;
case 3 :
/* top-left fragment */
/* nothing to predict from in this case */
transform = 0 ;
break ;
case 4 :
/* right column of fragments, not including top corner;
* consider up - left , up , and left fragments for
* prediction */
/* calculate the indices of the predicting fragments */
ul = i - fragment_width - 1 ;
u = i - fragment_width ;
l = i - 1 ;
/* fetch the DC values for the predicting fragments */
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vul = DC_COEFF ( ul ) ;
vu = DC_COEFF ( u ) ;
vl = DC_COEFF ( l ) ;
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/* figure out which fragments are valid */
ful = FRAME_CODED ( ul ) & & COMPATIBLE_FRAME ( ul ) ;
fu = FRAME_CODED ( u ) & & COMPATIBLE_FRAME ( u ) ;
fl = FRAME_CODED ( l ) & & COMPATIBLE_FRAME ( l ) ;
/* decide which predictor transform to use */
transform = ( fl * PL ) | ( fu * PU ) | ( ful * PUL ) ;
break ;
}
debug_dc_pred ( " transform = %d, " , transform ) ;
if ( transform = = 0 ) {
/* if there were no fragments to predict from, use last
* DC saved */
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predicted_dc = last_dc [ current_frame_type ] ;
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debug_dc_pred ( " from last DC (%d) = %d \n " ,
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current_frame_type , DC_COEFF ( i ) ) ;
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} else {
/* apply the appropriate predictor transform */
predicted_dc =
( predictor_transform [ transform ] [ 0 ] * vul ) +
( predictor_transform [ transform ] [ 1 ] * vu ) +
( predictor_transform [ transform ] [ 2 ] * vur ) +
( predictor_transform [ transform ] [ 3 ] * vl ) ;
/* if there is a shift value in the transform, add
* the sign bit before the shift */
if ( predictor_transform [ transform ] [ 5 ] ! = 0 ) {
predicted_dc + = ( ( predicted_dc > > 15 ) &
predictor_transform [ transform ] [ 4 ] ) ;
predicted_dc > > = predictor_transform [ transform ] [ 5 ] ;
}
/* check for outranging on the [ul u l] and
* [ ul u ur l ] predictors */
if ( ( transform = = 13 ) | | ( transform = = 15 ) ) {
if ( iabs ( predicted_dc - vu ) > 128 )
predicted_dc = vu ;
else if ( iabs ( predicted_dc - vl ) > 128 )
predicted_dc = vl ;
else if ( iabs ( predicted_dc - vul ) > 128 )
predicted_dc = vul ;
}
debug_dc_pred ( " from pred DC = %d \n " ,
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DC_COEFF ( i ) ) ;
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}
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/* at long last, apply the predictor */
if ( s - > coeffs [ i ] . index ) {
* s - > next_coeff = s - > coeffs [ i ] ;
s - > coeffs [ i ] . index = 0 ;
s - > coeffs [ i ] . coeff = 0 ;
s - > coeffs [ i ] . next = s - > next_coeff + + ;
}
s - > coeffs [ i ] . coeff + = predicted_dc ;
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/* save the DC */
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last_dc [ current_frame_type ] = DC_COEFF ( i ) ;
if ( DC_COEFF ( i ) & & ! ( s - > all_fragments [ i ] . coeff_count & 127 ) ) {
s - > all_fragments [ i ] . coeff_count = 129 ;
// s->all_fragments[i].next_coeff= s->next_coeff;
s - > coeffs [ i ] . next = s - > next_coeff ;
( s - > next_coeff + + ) - > next = NULL ;
}
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}
}
}
}
/*
* This function performs the final rendering of each fragment ' s data
* onto the output frame .
*/
static void render_fragments ( Vp3DecodeContext * s ,
int first_fragment ,
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int width ,
int height ,
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int plane /* 0 = Y, 1 = U, 2 = V */ )
{
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int x , y ;
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int m , n ;
int i = first_fragment ;
int16_t * dequantizer ;
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DCTELEM __align16 block [ 64 ] ;
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unsigned char * output_plane ;
unsigned char * last_plane ;
unsigned char * golden_plane ;
int stride ;
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int motion_x = 0xdeadbeef , motion_y = 0xdeadbeef ;
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int upper_motion_limit , lower_motion_limit ;
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int motion_halfpel_index ;
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uint8_t * motion_source ;
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debug_vp3 ( " vp3: rendering final fragments for %s \n " ,
( plane = = 0 ) ? " Y plane " : ( plane = = 1 ) ? " U plane " : " V plane " ) ;
/* set up plane-specific parameters */
if ( plane = = 0 ) {
output_plane = s - > current_frame . data [ 0 ] ;
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last_plane = s - > last_frame . data [ 0 ] ;
golden_plane = s - > golden_frame . data [ 0 ] ;
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stride = s - > current_frame . linesize [ 0 ] ;
if ( ! s - > flipped_image ) stride = - stride ;
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upper_motion_limit = 7 * s - > current_frame . linesize [ 0 ] ;
lower_motion_limit = height * s - > current_frame . linesize [ 0 ] + width - 8 ;
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} else if ( plane = = 1 ) {
output_plane = s - > current_frame . data [ 1 ] ;
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last_plane = s - > last_frame . data [ 1 ] ;
golden_plane = s - > golden_frame . data [ 1 ] ;
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stride = s - > current_frame . linesize [ 1 ] ;
if ( ! s - > flipped_image ) stride = - stride ;
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upper_motion_limit = 7 * s - > current_frame . linesize [ 1 ] ;
lower_motion_limit = height * s - > current_frame . linesize [ 1 ] + width - 8 ;
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} else {
output_plane = s - > current_frame . data [ 2 ] ;
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last_plane = s - > last_frame . data [ 2 ] ;
golden_plane = s - > golden_frame . data [ 2 ] ;
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stride = s - > current_frame . linesize [ 2 ] ;
if ( ! s - > flipped_image ) stride = - stride ;
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upper_motion_limit = 7 * s - > current_frame . linesize [ 2 ] ;
lower_motion_limit = height * s - > current_frame . linesize [ 2 ] + width - 8 ;
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}
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if ( ABS ( stride ) > 2048 )
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return ; //various tables are fixed size
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/* for each fragment row... */
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for ( y = 0 ; y < height ; y + = 8 ) {
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/* for each fragment in a row... */
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for ( x = 0 ; x < width ; x + = 8 , i + + ) {
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if ( ( i < 0 ) | | ( i > = s - > fragment_count ) ) {
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av_log ( s - > avctx , AV_LOG_ERROR , " vp3:render_fragments(): bad fragment number (%d) \n " , i ) ;
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return ;
}
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/* transform if this block was coded */
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if ( ( s - > all_fragments [ i ] . coding_method ! = MODE_COPY ) & &
! ( ( s - > avctx - > flags & CODEC_FLAG_GRAY ) & & plane ) ) {
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if ( ( s - > all_fragments [ i ] . coding_method = = MODE_USING_GOLDEN ) | |
( s - > all_fragments [ i ] . coding_method = = MODE_GOLDEN_MV ) )
motion_source = golden_plane ;
else
motion_source = last_plane ;
motion_source + = s - > all_fragments [ i ] . first_pixel ;
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motion_halfpel_index = 0 ;
/* sort out the motion vector if this fragment is coded
* using a motion vector method */
if ( ( s - > all_fragments [ i ] . coding_method > MODE_INTRA ) & &
( s - > all_fragments [ i ] . coding_method ! = MODE_USING_GOLDEN ) ) {
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int src_x , src_y ;
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motion_x = s - > all_fragments [ i ] . motion_x ;
motion_y = s - > all_fragments [ i ] . motion_y ;
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if ( plane ) {
motion_x = ( motion_x > > 1 ) | ( motion_x & 1 ) ;
motion_y = ( motion_y > > 1 ) | ( motion_y & 1 ) ;
}
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src_x = ( motion_x > > 1 ) + x ;
src_y = ( motion_y > > 1 ) + y ;
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if ( ( motion_x = = 127 ) | | ( motion_y = = 127 ) )
av_log ( s - > avctx , AV_LOG_ERROR , " help! got invalid motion vector! (%X, %X) \n " , motion_x , motion_y ) ;
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motion_halfpel_index = motion_x & 0x01 ;
motion_source + = ( motion_x > > 1 ) ;
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motion_halfpel_index | = ( motion_y & 0x01 ) < < 1 ;
motion_source + = ( ( motion_y > > 1 ) * stride ) ;
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if ( src_x < 0 | | src_y < 0 | | src_x + 9 > = width | | src_y + 9 > = height ) {
uint8_t * temp = s - > edge_emu_buffer ;
if ( stride < 0 ) temp - = 9 * stride ;
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else temp + = 9 * stride ;
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ff_emulated_edge_mc ( temp , motion_source , stride , 9 , 9 , src_x , src_y , width , height ) ;
motion_source = temp ;
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}
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}
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/* first, take care of copying a block from either the
* previous or the golden frame */
if ( s - > all_fragments [ i ] . coding_method ! = MODE_INTRA ) {
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//Note, it is possible to implement all MC cases with put_no_rnd_pixels_l2 which would look more like the VP3 source but this would be slower as put_no_rnd_pixels_tab is better optimzed
if ( motion_halfpel_index ! = 3 ) {
s - > dsp . put_no_rnd_pixels_tab [ 1 ] [ motion_halfpel_index ] (
output_plane + s - > all_fragments [ i ] . first_pixel ,
motion_source , stride , 8 ) ;
} else {
int d = ( motion_x ^ motion_y ) > > 31 ; // d is 0 if motion_x and _y have the same sign, else -1
s - > dsp . put_no_rnd_pixels_l2 [ 1 ] (
output_plane + s - > all_fragments [ i ] . first_pixel ,
motion_source - d ,
motion_source + stride + 1 + d ,
stride , 8 ) ;
}
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dequantizer = s - > inter_dequant ;
} else {
if ( plane = = 0 )
dequantizer = s - > intra_y_dequant ;
else
dequantizer = s - > intra_c_dequant ;
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}
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/* dequantize the DCT coefficients */
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debug_idct ( " fragment %d, coding mode %d, DC = %d, dequant = %d: \n " ,
i , s - > all_fragments [ i ] . coding_method ,
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DC_COEFF ( i ) , dequantizer [ 0 ] ) ;
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if ( s - > avctx - > idct_algo = = FF_IDCT_VP3 ) {
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Coeff * coeff = s - > coeffs + i ;
memset ( block , 0 , sizeof ( block ) ) ;
while ( coeff - > next ) {
block [ coeff - > index ] = coeff - > coeff * dequantizer [ coeff - > index ] ;
coeff = coeff - > next ;
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}
} else {
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Coeff * coeff = s - > coeffs + i ;
memset ( block , 0 , sizeof ( block ) ) ;
while ( coeff - > next ) {
block [ coeff - > index ] = ( coeff - > coeff * dequantizer [ coeff - > index ] + 2 ) > > 2 ;
coeff = coeff - > next ;
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}
}
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/* invert DCT and place (or add) in final output */
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if ( s - > all_fragments [ i ] . coding_method = = MODE_INTRA ) {
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if ( s - > avctx - > idct_algo ! = FF_IDCT_VP3 )
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block [ 0 ] + = 128 < < 3 ;
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s - > dsp . idct_put (
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output_plane + s - > all_fragments [ i ] . first_pixel ,
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stride ,
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block ) ;
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} else {
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s - > dsp . idct_add (
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output_plane + s - > all_fragments [ i ] . first_pixel ,
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stride ,
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block ) ;
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}
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debug_idct ( " block after idct_%s(): \n " ,
( s - > all_fragments [ i ] . coding_method = = MODE_INTRA ) ?
" put " : " add " ) ;
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for ( m = 0 ; m < 8 ; m + + ) {
for ( n = 0 ; n < 8 ; n + + ) {
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debug_idct ( " %3d " , * ( output_plane +
s - > all_fragments [ i ] . first_pixel + ( m * stride + n ) ) ) ;
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}
debug_idct ( " \n " ) ;
}
debug_idct ( " \n " ) ;
} else {
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/* copy directly from the previous frame */
s - > dsp . put_pixels_tab [ 1 ] [ 0 ] (
output_plane + s - > all_fragments [ i ] . first_pixel ,
last_plane + s - > all_fragments [ i ] . first_pixel ,
stride , 8 ) ;
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}
}
}
emms_c ( ) ;
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}
static void horizontal_filter ( unsigned char * first_pixel , int stride ,
int * bounding_values )
{
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unsigned char * end ;
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int filter_value ;
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for ( end = first_pixel + 8 * stride ; first_pixel < end ; first_pixel + = stride ) {
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filter_value =
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( first_pixel [ - 2 ] - first_pixel [ 1 ] )
+ 3 * ( first_pixel [ 0 ] - first_pixel [ - 1 ] ) ;
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filter_value = bounding_values [ ( filter_value + 4 ) > > 3 ] ;
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first_pixel [ - 1 ] = clip_uint8 ( first_pixel [ - 1 ] + filter_value ) ;
first_pixel [ 0 ] = clip_uint8 ( first_pixel [ 0 ] - filter_value ) ;
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}
}
static void vertical_filter ( unsigned char * first_pixel , int stride ,
int * bounding_values )
{
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unsigned char * end ;
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int filter_value ;
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const int nstride = - stride ;
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for ( end = first_pixel + 8 ; first_pixel < end ; first_pixel + + ) {
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filter_value =
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( first_pixel [ 2 * nstride ] - first_pixel [ stride ] )
+ 3 * ( first_pixel [ 0 ] - first_pixel [ nstride ] ) ;
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filter_value = bounding_values [ ( filter_value + 4 ) > > 3 ] ;
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first_pixel [ nstride ] = clip_uint8 ( first_pixel [ nstride ] + filter_value ) ;
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first_pixel [ 0 ] = clip_uint8 ( first_pixel [ 0 ] - filter_value ) ;
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}
}
static void apply_loop_filter ( Vp3DecodeContext * s )
{
int x , y , plane ;
int width , height ;
int fragment ;
int stride ;
unsigned char * plane_data ;
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int bounding_values_array [ 256 ] ;
int * bounding_values = bounding_values_array + 127 ;
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int filter_limit ;
/* find the right loop limit value */
for ( x = 63 ; x > = 0 ; x - - ) {
if ( vp31_ac_scale_factor [ x ] > = s - > quality_index )
break ;
}
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filter_limit = vp31_filter_limit_values [ s - > quality_index ] ;
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/* set up the bounding values */
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memset ( bounding_values_array , 0 , 256 * sizeof ( int ) ) ;
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for ( x = 0 ; x < filter_limit ; x + + ) {
bounding_values [ - x - filter_limit ] = - filter_limit + x ;
bounding_values [ - x ] = - x ;
bounding_values [ x ] = x ;
bounding_values [ x + filter_limit ] = filter_limit - x ;
}
for ( plane = 0 ; plane < 3 ; plane + + ) {
if ( plane = = 0 ) {
/* Y plane parameters */
fragment = 0 ;
width = s - > fragment_width ;
height = s - > fragment_height ;
stride = s - > current_frame . linesize [ 0 ] ;
plane_data = s - > current_frame . data [ 0 ] ;
} else if ( plane = = 1 ) {
/* U plane parameters */
fragment = s - > u_fragment_start ;
width = s - > fragment_width / 2 ;
height = s - > fragment_height / 2 ;
stride = s - > current_frame . linesize [ 1 ] ;
plane_data = s - > current_frame . data [ 1 ] ;
} else {
/* V plane parameters */
fragment = s - > v_fragment_start ;
width = s - > fragment_width / 2 ;
height = s - > fragment_height / 2 ;
stride = s - > current_frame . linesize [ 2 ] ;
plane_data = s - > current_frame . data [ 2 ] ;
}
for ( y = 0 ; y < height ; y + + ) {
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for ( x = 0 ; x < width ; x + + ) {
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START_TIMER
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/* do not perform left edge filter for left columns frags */
if ( ( x > 0 ) & &
( s - > all_fragments [ fragment ] . coding_method ! = MODE_COPY ) ) {
horizontal_filter (
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plane_data + s - > all_fragments [ fragment ] . first_pixel - 7 * stride ,
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stride , bounding_values ) ;
}
/* do not perform top edge filter for top row fragments */
if ( ( y > 0 ) & &
( s - > all_fragments [ fragment ] . coding_method ! = MODE_COPY ) ) {
vertical_filter (
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plane_data + s - > all_fragments [ fragment ] . first_pixel + stride ,
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stride , bounding_values ) ;
}
/* do not perform right edge filter for right column
* fragments or if right fragment neighbor is also coded
* in this frame ( it will be filtered in next iteration ) */
if ( ( x < width - 1 ) & &
( s - > all_fragments [ fragment ] . coding_method ! = MODE_COPY ) & &
( s - > all_fragments [ fragment + 1 ] . coding_method = = MODE_COPY ) ) {
horizontal_filter (
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plane_data + s - > all_fragments [ fragment + 1 ] . first_pixel - 7 * stride ,
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stride , bounding_values ) ;
}
/* do not perform bottom edge filter for bottom row
* fragments or if bottom fragment neighbor is also coded
* in this frame ( it will be filtered in the next row ) */
if ( ( y < height - 1 ) & &
( s - > all_fragments [ fragment ] . coding_method ! = MODE_COPY ) & &
( s - > all_fragments [ fragment + width ] . coding_method = = MODE_COPY ) ) {
vertical_filter (
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plane_data + s - > all_fragments [ fragment + width ] . first_pixel + stride ,
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stride , bounding_values ) ;
}
fragment + + ;
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STOP_TIMER ( " loop filter " )
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}
}
}
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}
/*
* This function computes the first pixel addresses for each fragment .
* This function needs to be invoked after the first frame is allocated
* so that it has access to the plane strides .
*/
static void vp3_calculate_pixel_addresses ( Vp3DecodeContext * s )
{
int i , x , y ;
/* figure out the first pixel addresses for each of the fragments */
/* Y plane */
i = 0 ;
for ( y = s - > fragment_height ; y > 0 ; y - - ) {
for ( x = 0 ; x < s - > fragment_width ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 0 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 0 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
/* U plane */
i = s - > u_fragment_start ;
for ( y = s - > fragment_height / 2 ; y > 0 ; y - - ) {
for ( x = 0 ; x < s - > fragment_width / 2 ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 1 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 1 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
/* V plane */
i = s - > v_fragment_start ;
for ( y = s - > fragment_height / 2 ; y > 0 ; y - - ) {
for ( x = 0 ; x < s - > fragment_width / 2 ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 2 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 2 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
}
2003-11-23 18:43:09 +00:00
/* FIXME: this should be merged with the above! */
static void theora_calculate_pixel_addresses ( Vp3DecodeContext * s )
{
int i , x , y ;
/* figure out the first pixel addresses for each of the fragments */
/* Y plane */
i = 0 ;
for ( y = 1 ; y < = s - > fragment_height ; y + + ) {
for ( x = 0 ; x < s - > fragment_width ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 0 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 0 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
/* U plane */
i = s - > u_fragment_start ;
for ( y = 1 ; y < = s - > fragment_height / 2 ; y + + ) {
for ( x = 0 ; x < s - > fragment_width / 2 ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 1 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 1 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
/* V plane */
i = s - > v_fragment_start ;
for ( y = 1 ; y < = s - > fragment_height / 2 ; y + + ) {
for ( x = 0 ; x < s - > fragment_width / 2 ; x + + ) {
s - > all_fragments [ i + + ] . first_pixel =
s - > golden_frame . linesize [ 2 ] * y * FRAGMENT_PIXELS -
s - > golden_frame . linesize [ 2 ] +
x * FRAGMENT_PIXELS ;
debug_init ( " fragment %d, first pixel @ %d \n " ,
i - 1 , s - > all_fragments [ i - 1 ] . first_pixel ) ;
}
}
}
2003-05-05 02:54:15 +00:00
/*
* This is the ffmpeg / libavcodec API init function .
*/
static int vp3_decode_init ( AVCodecContext * avctx )
{
Vp3DecodeContext * s = avctx - > priv_data ;
int i ;
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int c_width ;
int c_height ;
int y_superblock_count ;
int c_superblock_count ;
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2003-12-08 11:32:06 +00:00
if ( avctx - > codec_tag = = MKTAG ( ' V ' , ' P ' , ' 3 ' , ' 0 ' ) )
s - > version = 0 ;
else
s - > version = 1 ;
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s - > avctx = avctx ;
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s - > width = ( avctx - > width + 15 ) & 0xFFFFFFF0 ;
s - > height = ( avctx - > height + 15 ) & 0xFFFFFFF0 ;
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avctx - > pix_fmt = PIX_FMT_YUV420P ;
avctx - > has_b_frames = 0 ;
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if ( avctx - > idct_algo = = FF_IDCT_AUTO )
avctx - > idct_algo = FF_IDCT_VP3 ;
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dsputil_init ( & s - > dsp , avctx ) ;
2005-05-17 11:31:57 +00:00
ff_init_scantable ( s - > dsp . idct_permutation , & s - > scantable , ff_zigzag_direct ) ;
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/* initialize to an impossible value which will force a recalculation
* in the first frame decode */
s - > quality_index = - 1 ;
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s - > y_superblock_width = ( s - > width + 31 ) / 32 ;
s - > y_superblock_height = ( s - > height + 31 ) / 32 ;
y_superblock_count = s - > y_superblock_width * s - > y_superblock_height ;
/* work out the dimensions for the C planes */
c_width = s - > width / 2 ;
c_height = s - > height / 2 ;
s - > c_superblock_width = ( c_width + 31 ) / 32 ;
s - > c_superblock_height = ( c_height + 31 ) / 32 ;
c_superblock_count = s - > c_superblock_width * s - > c_superblock_height ;
s - > superblock_count = y_superblock_count + ( c_superblock_count * 2 ) ;
s - > u_superblock_start = y_superblock_count ;
s - > v_superblock_start = s - > u_superblock_start + c_superblock_count ;
2003-05-05 02:54:15 +00:00
s - > superblock_coding = av_malloc ( s - > superblock_count ) ;
s - > macroblock_width = ( s - > width + 15 ) / 16 ;
s - > macroblock_height = ( s - > height + 15 ) / 16 ;
s - > macroblock_count = s - > macroblock_width * s - > macroblock_height ;
s - > fragment_width = s - > width / FRAGMENT_PIXELS ;
s - > fragment_height = s - > height / FRAGMENT_PIXELS ;
/* fragment count covers all 8x8 blocks for all 3 planes */
s - > fragment_count = s - > fragment_width * s - > fragment_height * 3 / 2 ;
s - > u_fragment_start = s - > fragment_width * s - > fragment_height ;
s - > v_fragment_start = s - > fragment_width * s - > fragment_height * 5 / 4 ;
2003-05-10 21:46:17 +00:00
debug_init ( " Y plane: %d x %d \n " , s - > width , s - > height ) ;
debug_init ( " C plane: %d x %d \n " , c_width , c_height ) ;
debug_init ( " Y superblocks: %d x %d, %d total \n " ,
s - > y_superblock_width , s - > y_superblock_height , y_superblock_count ) ;
debug_init ( " C superblocks: %d x %d, %d total \n " ,
s - > c_superblock_width , s - > c_superblock_height , c_superblock_count ) ;
debug_init ( " total superblocks = %d, U starts @ %d, V starts @ %d \n " ,
s - > superblock_count , s - > u_superblock_start , s - > v_superblock_start ) ;
2003-05-05 02:54:15 +00:00
debug_init ( " macroblocks: %d x %d, %d total \n " ,
s - > macroblock_width , s - > macroblock_height , s - > macroblock_count ) ;
debug_init ( " %d fragments, %d x %d, u starts @ %d, v starts @ %d \n " ,
s - > fragment_count ,
s - > fragment_width ,
s - > fragment_height ,
s - > u_fragment_start ,
s - > v_fragment_start ) ;
s - > all_fragments = av_malloc ( s - > fragment_count * sizeof ( Vp3Fragment ) ) ;
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s - > coeffs = av_malloc ( s - > fragment_count * sizeof ( Coeff ) * 65 ) ;
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s - > coded_fragment_list = av_malloc ( s - > fragment_count * sizeof ( int ) ) ;
s - > pixel_addresses_inited = 0 ;
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if ( ! s - > theora_tables )
{
for ( i = 0 ; i < 64 ; i + + )
s - > coded_dc_scale_factor [ i ] = vp31_dc_scale_factor [ i ] ;
for ( i = 0 ; i < 64 ; i + + )
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s - > coded_ac_scale_factor [ i ] = vp31_ac_scale_factor [ i ] ;
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for ( i = 0 ; i < 64 ; i + + )
s - > coded_intra_y_dequant [ i ] = vp31_intra_y_dequant [ i ] ;
for ( i = 0 ; i < 64 ; i + + )
s - > coded_intra_c_dequant [ i ] = vp31_intra_c_dequant [ i ] ;
for ( i = 0 ; i < 64 ; i + + )
s - > coded_inter_dequant [ i ] = vp31_inter_dequant [ i ] ;
2005-05-19 23:59:10 +00:00
/* init VLC tables */
for ( i = 0 ; i < 16 ; i + + ) {
/* DC histograms */
init_vlc ( & s - > dc_vlc [ i ] , 5 , 32 ,
& dc_bias [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& dc_bias [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 1 AC histograms */
init_vlc ( & s - > ac_vlc_1 [ i ] , 5 , 32 ,
& ac_bias_0 [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& ac_bias_0 [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 2 AC histograms */
init_vlc ( & s - > ac_vlc_2 [ i ] , 5 , 32 ,
& ac_bias_1 [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& ac_bias_1 [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 3 AC histograms */
init_vlc ( & s - > ac_vlc_3 [ i ] , 5 , 32 ,
& ac_bias_2 [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& ac_bias_2 [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 4 AC histograms */
init_vlc ( & s - > ac_vlc_4 [ i ] , 5 , 32 ,
& ac_bias_3 [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& ac_bias_3 [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
}
} else {
for ( i = 0 ; i < 16 ; i + + ) {
/* DC histograms */
init_vlc ( & s - > dc_vlc [ i ] , 5 , 32 ,
& s - > huffman_table [ i ] [ 0 ] [ 1 ] , 4 , 2 ,
& s - > huffman_table [ i ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 1 AC histograms */
init_vlc ( & s - > ac_vlc_1 [ i ] , 5 , 32 ,
& s - > huffman_table [ i + 16 ] [ 0 ] [ 1 ] , 4 , 2 ,
& s - > huffman_table [ i + 16 ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 2 AC histograms */
init_vlc ( & s - > ac_vlc_2 [ i ] , 5 , 32 ,
& s - > huffman_table [ i + 16 * 2 ] [ 0 ] [ 1 ] , 4 , 2 ,
& s - > huffman_table [ i + 16 * 2 ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 3 AC histograms */
init_vlc ( & s - > ac_vlc_3 [ i ] , 5 , 32 ,
& s - > huffman_table [ i + 16 * 3 ] [ 0 ] [ 1 ] , 4 , 2 ,
& s - > huffman_table [ i + 16 * 3 ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
/* group 4 AC histograms */
init_vlc ( & s - > ac_vlc_4 [ i ] , 5 , 32 ,
& s - > huffman_table [ i + 16 * 4 ] [ 0 ] [ 1 ] , 4 , 2 ,
& s - > huffman_table [ i + 16 * 4 ] [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
}
2003-05-05 02:54:15 +00:00
}
2005-05-18 00:11:49 +00:00
init_vlc ( & s - > superblock_run_length_vlc , 6 , 34 ,
& superblock_run_length_vlc_table [ 0 ] [ 1 ] , 4 , 2 ,
& superblock_run_length_vlc_table [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
2005-05-17 23:39:23 +00:00
init_vlc ( & s - > fragment_run_length_vlc , 5 , 31 ,
& fragment_run_length_vlc_table [ 0 ] [ 1 ] , 4 , 2 ,
& fragment_run_length_vlc_table [ 0 ] [ 0 ] , 4 , 2 , 0 ) ;
init_vlc ( & s - > mode_code_vlc , 3 , 8 ,
& mode_code_vlc_table [ 0 ] [ 1 ] , 2 , 1 ,
& mode_code_vlc_table [ 0 ] [ 0 ] , 2 , 1 , 0 ) ;
init_vlc ( & s - > motion_vector_vlc , 6 , 63 ,
& motion_vector_vlc_table [ 0 ] [ 1 ] , 2 , 1 ,
& motion_vector_vlc_table [ 0 ] [ 0 ] , 2 , 1 , 0 ) ;
2003-05-05 02:54:15 +00:00
/* work out the block mapping tables */
s - > superblock_fragments = av_malloc ( s - > superblock_count * 16 * sizeof ( int ) ) ;
s - > superblock_macroblocks = av_malloc ( s - > superblock_count * 4 * sizeof ( int ) ) ;
s - > macroblock_fragments = av_malloc ( s - > macroblock_count * 6 * sizeof ( int ) ) ;
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s - > macroblock_coding = av_malloc ( s - > macroblock_count + 1 ) ;
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init_block_mapping ( s ) ;
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for ( i = 0 ; i < 3 ; i + + ) {
s - > current_frame . data [ i ] = NULL ;
s - > last_frame . data [ i ] = NULL ;
s - > golden_frame . data [ i ] = NULL ;
2003-05-06 03:11:20 +00:00
}
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return 0 ;
}
/*
* This is the ffmpeg / libavcodec API frame decode function .
*/
static int vp3_decode_frame ( AVCodecContext * avctx ,
void * data , int * data_size ,
uint8_t * buf , int buf_size )
{
Vp3DecodeContext * s = avctx - > priv_data ;
GetBitContext gb ;
static int counter = 0 ;
init_get_bits ( & gb , buf , buf_size * 8 ) ;
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if ( s - > theora & & get_bits1 ( & gb ) )
{
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int ptype = get_bits ( & gb , 7 ) ;
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2003-12-08 11:32:06 +00:00
skip_bits ( & gb , 6 * 8 ) ; /* "theora" */
switch ( ptype )
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{
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case 1 :
theora_decode_comments ( avctx , gb ) ;
break ;
case 2 :
theora_decode_tables ( avctx , gb ) ;
init_dequantizer ( s ) ;
break ;
default :
av_log ( avctx , AV_LOG_ERROR , " Unknown Theora config packet: %d \n " , ptype ) ;
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}
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return buf_size ;
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}
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s - > keyframe = ! get_bits1 ( & gb ) ;
if ( ! s - > theora )
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skip_bits ( & gb , 1 ) ;
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s - > last_quality_index = s - > quality_index ;
s - > quality_index = get_bits ( & gb , 6 ) ;
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if ( s - > theora > = 0x030200 )
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skip_bits1 ( & gb ) ;
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if ( s - > avctx - > debug & FF_DEBUG_PICT_INFO )
av_log ( s - > avctx , AV_LOG_INFO , " VP3 %sframe #%d: Q index = %d \n " ,
s - > keyframe ? " key " : " " , counter , s - > quality_index ) ;
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counter + + ;
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if ( s - > quality_index ! = s - > last_quality_index )
init_dequantizer ( s ) ;
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if ( s - > keyframe ) {
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if ( ! s - > theora )
{
skip_bits ( & gb , 4 ) ; /* width code */
skip_bits ( & gb , 4 ) ; /* height code */
if ( s - > version )
{
s - > version = get_bits ( & gb , 5 ) ;
if ( counter = = 1 )
av_log ( s - > avctx , AV_LOG_DEBUG , " VP version: %d \n " , s - > version ) ;
}
}
if ( s - > version | | s - > theora )
{
if ( get_bits1 ( & gb ) )
av_log ( s - > avctx , AV_LOG_ERROR , " Warning, unsupported keyframe coding type?! \n " ) ;
skip_bits ( & gb , 2 ) ; /* reserved? */
}
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if ( s - > last_frame . data [ 0 ] = = s - > golden_frame . data [ 0 ] ) {
if ( s - > golden_frame . data [ 0 ] )
avctx - > release_buffer ( avctx , & s - > golden_frame ) ;
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s - > last_frame = s - > golden_frame ; /* ensure that we catch any access to this released frame */
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} else {
if ( s - > golden_frame . data [ 0 ] )
avctx - > release_buffer ( avctx , & s - > golden_frame ) ;
if ( s - > last_frame . data [ 0 ] )
avctx - > release_buffer ( avctx , & s - > last_frame ) ;
}
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s - > golden_frame . reference = 3 ;
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if ( avctx - > get_buffer ( avctx , & s - > golden_frame ) < 0 ) {
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av_log ( s - > avctx , AV_LOG_ERROR , " vp3: get_buffer() failed \n " ) ;
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return - 1 ;
}
/* golden frame is also the current frame */
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memcpy ( & s - > current_frame , & s - > golden_frame , sizeof ( AVFrame ) ) ;
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/* time to figure out pixel addresses? */
if ( ! s - > pixel_addresses_inited )
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{
if ( ! s - > flipped_image )
vp3_calculate_pixel_addresses ( s ) ;
else
theora_calculate_pixel_addresses ( s ) ;
}
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} else {
/* allocate a new current frame */
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s - > current_frame . reference = 3 ;
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if ( avctx - > get_buffer ( avctx , & s - > current_frame ) < 0 ) {
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av_log ( s - > avctx , AV_LOG_ERROR , " vp3: get_buffer() failed \n " ) ;
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return - 1 ;
}
}
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s - > current_frame . qscale_table = s - > qscale_table ; //FIXME allocate individual tables per AVFrame
s - > current_frame . qstride = 0 ;
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{ START_TIMER
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init_frame ( s , & gb ) ;
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STOP_TIMER ( " init_frame " ) }
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# if KEYFRAMES_ONLY
if ( ! s - > keyframe ) {
memcpy ( s - > current_frame . data [ 0 ] , s - > golden_frame . data [ 0 ] ,
s - > current_frame . linesize [ 0 ] * s - > height ) ;
memcpy ( s - > current_frame . data [ 1 ] , s - > golden_frame . data [ 1 ] ,
s - > current_frame . linesize [ 1 ] * s - > height / 2 ) ;
memcpy ( s - > current_frame . data [ 2 ] , s - > golden_frame . data [ 2 ] ,
s - > current_frame . linesize [ 2 ] * s - > height / 2 ) ;
} else {
# endif
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{ START_TIMER
if ( unpack_superblocks ( s , & gb ) ) {
av_log ( s - > avctx , AV_LOG_ERROR , " error in unpack_superblocks \n " ) ;
return - 1 ;
}
STOP_TIMER ( " unpack_superblocks " ) }
{ START_TIMER
if ( unpack_modes ( s , & gb ) ) {
av_log ( s - > avctx , AV_LOG_ERROR , " error in unpack_modes \n " ) ;
return - 1 ;
}
STOP_TIMER ( " unpack_modes " ) }
{ START_TIMER
if ( unpack_vectors ( s , & gb ) ) {
av_log ( s - > avctx , AV_LOG_ERROR , " error in unpack_vectors \n " ) ;
return - 1 ;
}
STOP_TIMER ( " unpack_vectors " ) }
{ START_TIMER
if ( unpack_dct_coeffs ( s , & gb ) ) {
av_log ( s - > avctx , AV_LOG_ERROR , " error in unpack_dct_coeffs \n " ) ;
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return - 1 ;
}
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STOP_TIMER ( " unpack_dct_coeffs " ) }
{ START_TIMER
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reverse_dc_prediction ( s , 0 , s - > fragment_width , s - > fragment_height ) ;
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STOP_TIMER ( " reverse_dc_prediction " ) }
{ START_TIMER
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render_fragments ( s , 0 , s - > width , s - > height , 0 ) ;
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STOP_TIMER ( " render_fragments " ) }
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if ( ( avctx - > flags & CODEC_FLAG_GRAY ) = = 0 ) {
reverse_dc_prediction ( s , s - > u_fragment_start ,
s - > fragment_width / 2 , s - > fragment_height / 2 ) ;
reverse_dc_prediction ( s , s - > v_fragment_start ,
s - > fragment_width / 2 , s - > fragment_height / 2 ) ;
render_fragments ( s , s - > u_fragment_start , s - > width / 2 , s - > height / 2 , 1 ) ;
render_fragments ( s , s - > v_fragment_start , s - > width / 2 , s - > height / 2 , 2 ) ;
} else {
memset ( s - > current_frame . data [ 1 ] , 0x80 , s - > width * s - > height / 4 ) ;
memset ( s - > current_frame . data [ 2 ] , 0x80 , s - > width * s - > height / 4 ) ;
}
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2005-05-16 21:49:18 +00:00
{ START_TIMER
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apply_loop_filter ( s ) ;
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STOP_TIMER ( " apply_loop_filter " ) }
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# if KEYFRAMES_ONLY
}
# endif
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* data_size = sizeof ( AVFrame ) ;
* ( AVFrame * ) data = s - > current_frame ;
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/* release the last frame, if it is allocated and if it is not the
* golden frame */
if ( ( s - > last_frame . data [ 0 ] ) & &
( s - > last_frame . data [ 0 ] ! = s - > golden_frame . data [ 0 ] ) )
avctx - > release_buffer ( avctx , & s - > last_frame ) ;
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2003-05-06 03:11:20 +00:00
/* shuffle frames (last = current) */
memcpy ( & s - > last_frame , & s - > current_frame , sizeof ( AVFrame ) ) ;
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s - > current_frame . data [ 0 ] = NULL ; /* ensure that we catch any access to this released frame */
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return buf_size ;
}
/*
* This is the ffmpeg / libavcodec API module cleanup function .
*/
static int vp3_decode_end ( AVCodecContext * avctx )
{
Vp3DecodeContext * s = avctx - > priv_data ;
av_free ( s - > all_fragments ) ;
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av_free ( s - > coeffs ) ;
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av_free ( s - > coded_fragment_list ) ;
av_free ( s - > superblock_fragments ) ;
av_free ( s - > superblock_macroblocks ) ;
av_free ( s - > macroblock_fragments ) ;
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av_free ( s - > macroblock_coding ) ;
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2003-05-05 02:54:15 +00:00
/* release all frames */
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if ( s - > golden_frame . data [ 0 ] & & s - > golden_frame . data [ 0 ] ! = s - > last_frame . data [ 0 ] )
2003-05-10 21:46:17 +00:00
avctx - > release_buffer ( avctx , & s - > golden_frame ) ;
if ( s - > last_frame . data [ 0 ] )
avctx - > release_buffer ( avctx , & s - > last_frame ) ;
/* no need to release the current_frame since it will always be pointing
* to the same frame as either the golden or last frame */
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return 0 ;
}
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static int read_huffman_tree ( AVCodecContext * avctx , GetBitContext * gb )
{
Vp3DecodeContext * s = avctx - > priv_data ;
if ( get_bits ( gb , 1 ) ) {
int token ;
if ( s - > entries > = 32 ) { /* overflow */
av_log ( avctx , AV_LOG_ERROR , " huffman tree overflow \n " ) ;
return - 1 ;
}
token = get_bits ( gb , 5 ) ;
//av_log(avctx, AV_LOG_DEBUG, "hti %d hbits %x token %d entry : %d size %d\n", s->hti, s->hbits, token, s->entries, s->huff_code_size);
s - > huffman_table [ s - > hti ] [ token ] [ 0 ] = s - > hbits ;
s - > huffman_table [ s - > hti ] [ token ] [ 1 ] = s - > huff_code_size ;
s - > entries + + ;
}
else {
if ( s - > huff_code_size > = 32 ) { /* overflow */
av_log ( avctx , AV_LOG_ERROR , " huffman tree overflow \n " ) ;
return - 1 ;
}
s - > huff_code_size + + ;
s - > hbits < < = 1 ;
read_huffman_tree ( avctx , gb ) ;
s - > hbits | = 1 ;
read_huffman_tree ( avctx , gb ) ;
s - > hbits > > = 1 ;
s - > huff_code_size - - ;
}
return 0 ;
}
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static int theora_decode_header ( AVCodecContext * avctx , GetBitContext gb )
{
Vp3DecodeContext * s = avctx - > priv_data ;
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int major , minor , micro ;
major = get_bits ( & gb , 8 ) ; /* version major */
minor = get_bits ( & gb , 8 ) ; /* version minor */
micro = get_bits ( & gb , 8 ) ; /* version micro */
av_log ( avctx , AV_LOG_INFO , " Theora bitstream version %d.%d.%d \n " ,
major , minor , micro ) ;
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/* FIXME: endianess? */
s - > theora = ( major < < 16 ) | ( minor < < 8 ) | micro ;
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/* 3.2.0 aka alpha3 has the same frame orientation as original vp3 */
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/* but previous versions have the image flipped relative to vp3 */
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if ( s - > theora < 0x030200 )
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{
s - > flipped_image = 1 ;
av_log ( avctx , AV_LOG_DEBUG , " Old (<alpha3) Theora bitstream, flipped image \n " ) ;
}
2003-10-11 17:44:21 +00:00
s - > width = get_bits ( & gb , 16 ) < < 4 ;
s - > height = get_bits ( & gb , 16 ) < < 4 ;
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if ( avcodec_check_dimensions ( avctx , s - > width , s - > height ) ) {
s - > width = s - > height = 0 ;
return - 1 ;
}
2003-10-11 17:44:21 +00:00
skip_bits ( & gb , 24 ) ; /* frame width */
skip_bits ( & gb , 24 ) ; /* frame height */
skip_bits ( & gb , 8 ) ; /* offset x */
skip_bits ( & gb , 8 ) ; /* offset y */
skip_bits ( & gb , 32 ) ; /* fps numerator */
skip_bits ( & gb , 32 ) ; /* fps denumerator */
skip_bits ( & gb , 24 ) ; /* aspect numerator */
skip_bits ( & gb , 24 ) ; /* aspect denumerator */
2005-05-13 21:06:44 +00:00
if ( s - > theora < 0x030200 )
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skip_bits ( & gb , 5 ) ; /* keyframe frequency force */
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skip_bits ( & gb , 8 ) ; /* colorspace */
skip_bits ( & gb , 24 ) ; /* bitrate */
skip_bits ( & gb , 6 ) ; /* last(?) quality index */
2005-05-13 21:06:44 +00:00
if ( s - > theora > = 0x030200 )
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{
skip_bits ( & gb , 5 ) ; /* keyframe frequency force */
skip_bits ( & gb , 5 ) ; /* spare bits */
}
2003-10-11 17:44:21 +00:00
// align_get_bits(&gb);
avctx - > width = s - > width ;
avctx - > height = s - > height ;
return 0 ;
}
2003-10-11 19:40:45 +00:00
static int theora_decode_comments ( AVCodecContext * avctx , GetBitContext gb )
{
int nb_comments , i , tmp ;
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tmp = get_bits_long ( & gb , 32 ) ;
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tmp = be2me_32 ( tmp ) ;
while ( tmp - - )
skip_bits ( & gb , 8 ) ;
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2004-08-16 01:25:52 +00:00
nb_comments = get_bits_long ( & gb , 32 ) ;
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nb_comments = be2me_32 ( nb_comments ) ;
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for ( i = 0 ; i < nb_comments ; i + + )
{
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tmp = get_bits_long ( & gb , 32 ) ;
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tmp = be2me_32 ( tmp ) ;
while ( tmp - - )
2003-10-11 19:40:45 +00:00
skip_bits ( & gb , 8 ) ;
}
return 0 ;
}
2003-10-11 17:44:21 +00:00
static int theora_decode_tables ( AVCodecContext * avctx , GetBitContext gb )
{
Vp3DecodeContext * s = avctx - > priv_data ;
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int i , n ;
if ( s - > theora > = 0x030200 ) {
n = get_bits ( & gb , 3 ) ;
/* loop filter table */
for ( i = 0 ; i < 64 ; i + + )
skip_bits ( & gb , n ) ;
}
2003-10-11 17:44:21 +00:00
2005-05-13 21:06:44 +00:00
if ( s - > theora > = 0x030200 )
n = get_bits ( & gb , 4 ) + 1 ;
else
n = 16 ;
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/* quality threshold table */
for ( i = 0 ; i < 64 ; i + + )
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s - > coded_ac_scale_factor [ i ] = get_bits ( & gb , n ) ;
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2005-05-13 21:06:44 +00:00
if ( s - > theora > = 0x030200 )
n = get_bits ( & gb , 4 ) + 1 ;
else
n = 16 ;
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/* dc scale factor table */
for ( i = 0 ; i < 64 ; i + + )
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s - > coded_dc_scale_factor [ i ] = get_bits ( & gb , n ) ;
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2005-05-13 21:06:44 +00:00
if ( s - > theora > = 0x030200 )
n = get_bits ( & gb , 9 ) + 1 ;
else
n = 3 ;
if ( n ! = 3 ) {
av_log ( NULL , AV_LOG_ERROR , " unsupported nbms : %d \n " , n ) ;
return - 1 ;
}
2003-10-11 17:44:21 +00:00
/* y coeffs */
for ( i = 0 ; i < 64 ; i + + )
s - > coded_intra_y_dequant [ i ] = get_bits ( & gb , 8 ) ;
/* uv coeffs */
for ( i = 0 ; i < 64 ; i + + )
s - > coded_intra_c_dequant [ i ] = get_bits ( & gb , 8 ) ;
/* inter coeffs */
for ( i = 0 ; i < 64 ; i + + )
s - > coded_inter_dequant [ i ] = get_bits ( & gb , 8 ) ;
2003-12-08 11:32:06 +00:00
2005-05-19 23:59:10 +00:00
/* Huffman tables */
for ( i = 0 ; i < = 1 ; i + + ) {
for ( n = 0 ; n < = 2 ; n + + ) {
int newqr ;
if ( i > 0 | | n > 0 )
newqr = get_bits ( & gb , 1 ) ;
else
newqr = 1 ;
if ( ! newqr ) {
if ( i > 0 )
get_bits ( & gb , 1 ) ;
}
else {
int qi = 0 ;
skip_bits ( & gb , av_log2 ( 2 ) + 1 ) ;
while ( qi < 63 ) {
qi + = get_bits ( & gb , av_log2 ( 63 - qi ) + 1 ) + 1 ;
skip_bits ( & gb , av_log2 ( 2 ) + 1 ) ;
}
if ( qi > 63 )
av_log ( NULL , AV_LOG_ERROR , " error... \n " ) ;
}
}
}
for ( s - > hti = 0 ; s - > hti < 80 ; s - > hti + + ) {
s - > entries = 0 ;
s - > huff_code_size = 1 ;
if ( ! get_bits ( & gb , 1 ) ) {
s - > hbits = 0 ;
read_huffman_tree ( avctx , & gb ) ;
s - > hbits = 1 ;
read_huffman_tree ( avctx , & gb ) ;
}
}
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s - > theora_tables = 1 ;
return 0 ;
}
static int theora_decode_init ( AVCodecContext * avctx )
{
Vp3DecodeContext * s = avctx - > priv_data ;
GetBitContext gb ;
int ptype ;
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uint8_t * p = avctx - > extradata ;
int op_bytes , i ;
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s - > theora = 1 ;
if ( ! avctx - > extradata_size )
return - 1 ;
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for ( i = 0 ; i < 3 ; i + + ) {
op_bytes = * ( p + + ) < < 8 ;
op_bytes + = * ( p + + ) ;
init_get_bits ( & gb , p , op_bytes ) ;
p + = op_bytes ;
2003-10-11 17:44:21 +00:00
ptype = get_bits ( & gb , 8 ) ;
debug_vp3 ( " Theora headerpacket type: %x \n " , ptype ) ;
if ( ! ( ptype & 0x80 ) )
return - 1 ;
skip_bits ( & gb , 6 * 8 ) ; /* "theora" */
switch ( ptype )
{
case 0x80 :
theora_decode_header ( avctx , gb ) ;
break ;
case 0x81 :
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theora_decode_comments ( avctx , gb ) ;
2003-10-11 17:44:21 +00:00
break ;
case 0x82 :
theora_decode_tables ( avctx , gb ) ;
break ;
}
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}
2003-10-11 17:44:21 +00:00
2005-05-13 21:06:44 +00:00
vp3_decode_init ( avctx ) ;
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return 0 ;
}
2003-05-05 02:54:15 +00:00
AVCodec vp3_decoder = {
" vp3 " ,
CODEC_TYPE_VIDEO ,
CODEC_ID_VP3 ,
sizeof ( Vp3DecodeContext ) ,
vp3_decode_init ,
NULL ,
vp3_decode_end ,
vp3_decode_frame ,
0 ,
NULL
} ;
2003-10-11 17:44:21 +00:00
2005-05-11 16:42:15 +00:00
# ifndef CONFIG_LIBTHEORA
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AVCodec theora_decoder = {
" theora " ,
CODEC_TYPE_VIDEO ,
CODEC_ID_THEORA ,
sizeof ( Vp3DecodeContext ) ,
theora_decode_init ,
NULL ,
vp3_decode_end ,
vp3_decode_frame ,
0 ,
NULL
} ;
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# endif