Commit cf9e7c61 authored by Jean-Marc Dressler's avatar Jean-Marc Dressler

Le debuggage du parser avance ... lentement.
parent e95de90d
......@@ -68,11 +68,11 @@ typedef struct vpar_thread_s
/* tables for macroblock types 0=P 1=B */
lookup_t ppl_mb_type[2][64];
/* table for coded_block_pattern */
lookup_t pl_coded_pattern[512];
lookup_t * pl_coded_pattern;
/* variable length codes for the structure dct_dc_size for intra blocks */
lookup_t pppl_dct_dc_size[2][2][32];
lookup_t * pppl_dct_dc_size[2][2];
/* structure to store the tables B14 & B15 */
dct_lookup_t * pppl_dct_coef[2][65536];
dct_lookup_t * pppl_dct_coef[2][65536];
#ifdef STATS
/* Statistics */
......
......@@ -116,15 +116,15 @@ typedef struct slice_parsing_s
/*****************************************************************************
* Standard codes
*****************************************************************************/
#define PICTURE_START_CODE 0x100
#define SLICE_START_CODE_MIN 0x101
#define SLICE_START_CODE_MAX 0x1AF
#define USER_DATA_START_CODE 0x1B2
#define SEQUENCE_HEADER_CODE 0x1B3
#define SEQUENCE_ERROR_CODE 0x1B4
#define EXTENSION_START_CODE 0x1B5
#define SEQUENCE_END_CODE 0x1B7
#define GROUP_START_CODE 0x1B8
#define PICTURE_START_CODE 0x100L
#define SLICE_START_CODE_MIN 0x101L
#define SLICE_START_CODE_MAX 0x1AFL
#define USER_DATA_START_CODE 0x1B2L
#define SEQUENCE_HEADER_CODE 0x1B3L
#define SEQUENCE_ERROR_CODE 0x1B4L
#define EXTENSION_START_CODE 0x1B5L
#define SEQUENCE_END_CODE 0x1B7L
#define GROUP_START_CODE 0x1B8L
/* extension start code IDs */
#define SEQUENCE_EXTENSION_ID 1
......
......@@ -58,6 +58,9 @@ static void EndThread ( vpar_thread_t *p_vpar );
* Following configuration properties are used:
* ??
*******************************************************************************/
#include "main.h"
#include "interface.h"
extern main_t* p_main;
vpar_thread_t * vpar_CreateThread( /* video_cfg_t *p_cfg, */ input_thread_t *p_input /*,
vout_thread_t *p_vout, int *pi_status */ )
{
......@@ -93,6 +96,9 @@ vpar_thread_t * vpar_CreateThread( /* video_cfg_t *p_cfg, */ input_thread_t *p_i
p_vpar->bit_stream.fifo.buffer = 0;
p_vpar->bit_stream.fifo.i_available = 0;
/* FIXME !!!! */
p_vpar->p_vout = p_main->p_intf->p_vout;
/* Spawn the video parser thread */
if ( vlc_thread_create(&p_vpar->thread_id, "video parser", (vlc_thread_func_t)RunThread, (void *)p_vpar) )
{
......
......@@ -394,7 +394,7 @@ void __inline__ FillMbAddrIncTable( vpar_thread_t * p_vpar,
p_vpar->pl_mb_addr_inc[i_dummy + i_dummy2].i_value = * pi_value;
p_vpar->pl_mb_addr_inc[i_dummy + i_dummy2].i_length = i_length;
}
(*pi_value)--;
(*pi_value)--;
}
}
......@@ -403,6 +403,7 @@ void InitMbAddrInc( vpar_thread_t * p_vpar )
{
int i_dummy;
int i_value;
for( i_dummy = 0 ; i_dummy < 8 ; i_dummy++ )
{
p_vpar->pl_mb_addr_inc[i_dummy].i_value = MB_ERROR;
......@@ -426,15 +427,17 @@ void InitMbAddrInc( vpar_thread_t * p_vpar )
p_vpar->pl_mb_addr_inc[i_dummy].i_value = MB_ERROR;
p_vpar->pl_mb_addr_inc[i_dummy].i_length = 0;
}
i_value = 33;
FillMbAddrIncTable( p_vpar, 1024, 2048, 1024, &i_value, 1 );
FillMbAddrIncTable( p_vpar, 512, 1024, 256, &i_value, 3 );
FillMbAddrIncTable( p_vpar, 256, 512, 128, &i_value, 4 );
FillMbAddrIncTable( p_vpar, 128, 256, 64, &i_value, 5 );
FillMbAddrIncTable( p_vpar, 96, 128, 16, &i_value, 7 );
FillMbAddrIncTable( p_vpar, 48, 96, 8, &i_value, 8 );
FillMbAddrIncTable( p_vpar, 36, 48, 2, &i_value, 10 );
FillMbAddrIncTable( p_vpar, 24, 36, 1, &i_value, 11 );
FillMbAddrIncTable( p_vpar, 36, 48, 2, &i_value, 10 );
FillMbAddrIncTable( p_vpar, 48, 96, 8, &i_value, 8 );
FillMbAddrIncTable( p_vpar, 96, 128, 16, &i_value, 7 );
FillMbAddrIncTable( p_vpar, 128, 256, 64, &i_value, 5 );
FillMbAddrIncTable( p_vpar, 256, 512, 128, &i_value, 4 );
FillMbAddrIncTable( p_vpar, 512, 1024, 256, &i_value, 3 );
FillMbAddrIncTable( p_vpar, 1024, 2048, 1024, &i_value, 1 );
}
/*****************************************************************************
......@@ -502,7 +505,7 @@ void InitBMBType( vpar_thread_t * p_vpar )
*****************************************************************************/
void InitCodedPattern( vpar_thread_t * p_vpar )
{
p_vpar->pl_coded_pattern = pl_coded_pattern_init_table;
p_vpar->pl_coded_pattern = (lookup_t*) pl_coded_pattern_init_table;
}
/*****************************************************************************
......@@ -513,11 +516,12 @@ void InitCodedPattern( vpar_thread_t * p_vpar )
/* First fonction for filling the table */
static void __inline__ FillDCTTable( vpar_thread_t * p_vpar,
dct_lookup_t * pl_DCT_tab,
int i_intra, int i_dec, int i_off )
int i_size, int i_intra, int i_dec, int i_off )
{
int i_dummy, i_dummy2;
int i_end;
i_end = sizeof(pl_DCT_tab) / sizeof(dct_lookup_t);
i_end = i_size / sizeof(dct_lookup_t);
for( i_dummy = 0; i_dummy < i_end; i_dummy++ )
{
for( i_dummy2 = 0; i_dummy2 < ( 1 << i_dec ); i_dummy2++ )
......@@ -543,25 +547,24 @@ void InitDCTTables( vpar_thread_t * p_vpar )
/* For table B14 & B15, we have a pointer to tables */
/* We fill the table thanks to the fonction defined above */
FillDCTTable( p_vpar, pl_DCT_tab_dc, 0, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab_ac, 0, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab0, 0, 8, 4 );
FillDCTTable( p_vpar, pl_DCT_tab1, 0, 6, 8 );
FillDCTTable( p_vpar, pl_DCT_tab2, 0, 4, 16 );
FillDCTTable( p_vpar, pl_DCT_tab3, 0, 3, 16 );
FillDCTTable( p_vpar, pl_DCT_tab4, 0, 2, 16 );
FillDCTTable( p_vpar, pl_DCT_tab5, 0, 1, 16 );
FillDCTTable( p_vpar, pl_DCT_tab6, 0, 0, 16 );
FillDCTTable( p_vpar, pl_DCT_tab_dc, 1, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab_ac, 1, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab0a, 1, 8, 4 );
FillDCTTable( p_vpar, pl_DCT_tab1a, 1, 6, 8);
FillDCTTable( p_vpar, pl_DCT_tab2, 1, 4, 16 );
FillDCTTable( p_vpar, pl_DCT_tab3, 1, 3, 16 );
FillDCTTable( p_vpar, pl_DCT_tab4, 1, 2, 16 );
FillDCTTable( p_vpar, pl_DCT_tab5, 1, 1, 16 );
FillDCTTable( p_vpar, pl_DCT_tab6, 1, 0, 16 );
FillDCTTable( p_vpar, pl_DCT_tab_dc, sizeof(pl_DCT_tab_dc),0, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab_ac, sizeof(pl_DCT_tab_ac), 0, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab0, sizeof(pl_DCT_tab0), 0, 8, 4 );
FillDCTTable( p_vpar, pl_DCT_tab1, sizeof(pl_DCT_tab1), 0, 6, 8 );
FillDCTTable( p_vpar, pl_DCT_tab2, sizeof(pl_DCT_tab2), 0, 4, 16 );
FillDCTTable( p_vpar, pl_DCT_tab3, sizeof(pl_DCT_tab3), 0, 3, 16 );
FillDCTTable( p_vpar, pl_DCT_tab4, sizeof(pl_DCT_tab4), 0, 2, 16 );
FillDCTTable( p_vpar, pl_DCT_tab5, sizeof(pl_DCT_tab5), 0, 1, 16 );
FillDCTTable( p_vpar, pl_DCT_tab6, sizeof(pl_DCT_tab6), 0, 0, 16 );
FillDCTTable( p_vpar, pl_DCT_tab_dc, sizeof(pl_DCT_tab_dc), 1, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab_ac, sizeof(pl_DCT_tab_ac), 1, 12, 4 );
FillDCTTable( p_vpar, pl_DCT_tab0a, sizeof(pl_DCT_tab0a), 1, 8, 4 );
FillDCTTable( p_vpar, pl_DCT_tab1a, sizeof(pl_DCT_tab1a), 1, 6, 8);
FillDCTTable( p_vpar, pl_DCT_tab2, sizeof(pl_DCT_tab2), 1, 4, 16 );
FillDCTTable( p_vpar, pl_DCT_tab3, sizeof(pl_DCT_tab3), 1, 3, 16 );
FillDCTTable( p_vpar, pl_DCT_tab4, sizeof(pl_DCT_tab4), 1, 2, 16 );
FillDCTTable( p_vpar, pl_DCT_tab5, sizeof(pl_DCT_tab5), 1, 1, 16 );
FillDCTTable( p_vpar, pl_DCT_tab6, sizeof(pl_DCT_tab6), 1, 0, 16 );
}
/*
......@@ -590,8 +593,22 @@ void vpar_ParseMacroblock( vpar_thread_t * p_vpar, int * pi_mb_address,
elem_t * p_data1;
elem_t * p_data2;
*pi_mb_address += MacroblockAddressIncrement( p_vpar );
/************* DEBUG *************/
static i_count = 0;
int i_inc;
i_inc = MacroblockAddressIncrement( p_vpar );
*pi_mb_address += i_inc;
//*pi_mb_address += MacroblockAddressIncrement( p_vpar );
fprintf( stderr, "inc : %d (%d)\n", *pi_mb_address, i_inc );
/*
if( i_count > 4 )
{
while(1);
}
i_count++;
*/
for( i_mb = i_mb_previous; i_mb < *pi_mb_address; i_mb++ )
{
/* Skipped macroblock (ISO/IEC 13818-2 7.6.6). */
......@@ -633,11 +650,8 @@ void vpar_ParseMacroblock( vpar_thread_t * p_vpar, int * pi_mb_address,
/* Set the field we use for motion compensation */
p_mb->ppi_field_select[0][0] = p_mb->ppi_field_select[0][1]
= ( p_vpar->picture.i_current_structure == BOTTOM_FIELD );
/* Predict from field of same parity. */
/* ??? */
}
fprintf(stderr, "MB1\n");
/* Get a macroblock structure. */
if( (p_mb = p_vpar->picture.pp_mb[i_mb_base + *pi_mb_address] =
vpar_NewMacroblock( &p_vpar->vfifo )) == NULL )
......@@ -659,11 +673,13 @@ void vpar_ParseMacroblock( vpar_thread_t * p_vpar, int * pi_mb_address,
if( p_vpar->mb.i_mb_type & MB_MOTION_FORWARD )
{
fprintf( stderr, "motion !\n" );
(*p_vpar->sequence.pf_decode_mv)( p_vpar, p_mb, 0 );
}
if( p_vpar->mb.i_mb_type & MB_MOTION_BACKWARD )
{
fprintf( stderr, "motion2 !\n" );
(*p_vpar->sequence.pf_decode_mv)( p_vpar, p_mb, 1 );
}
......@@ -689,7 +705,7 @@ void vpar_ParseMacroblock( vpar_thread_t * p_vpar, int * pi_mb_address,
/*
* Effectively decode blocks.
*/
fprintf(stderr, "MB2\n");
i_mask = 1 << (3 + 2*p_vpar->sequence.i_chroma_nb_blocks);
/* luminance */
......@@ -730,14 +746,15 @@ void vpar_ParseMacroblock( vpar_thread_t * p_vpar, int * pi_mb_address,
+ (p_mb->i_c_x >> pi_chroma_hor[p_vpar->sequence.i_chroma_format])
+ (p_mb->i_c_y >> pi_chroma_ver[p_vpar->sequence.i_chroma_format])
* (p_vpar->sequence.i_chroma_width);
for( i_b = 4; i_b < 4 + 2*p_vpar->sequence.i_chroma_nb_blocks;
for( i_b = 4; i_b < 4 + p_vpar->sequence.i_chroma_nb_blocks;
i_b++, i_mask >>= 1 )
{
elem_t * pp_data[2] = {p_data1, p_data2};
if( p_vpar->mb.i_coded_block_pattern & i_mask )
{
fprintf( stderr, "Merde !!!!\n" );
memset( p_mb->ppi_blocks[i_b], 0, 64*sizeof(elem_t) );
(*pppf_decode_block[p_vpar->sequence.b_mpeg2]
[p_vpar->mb.i_mb_type & MB_INTRA])
......@@ -819,11 +836,10 @@ static __inline__ void InitMacroblock( vpar_thread_t * p_vpar,
*****************************************************************************/
static __inline__ int MacroblockAddressIncrement( vpar_thread_t * p_vpar )
{
int i_addr_inc = 0;
/* Index in the lookup table mb_addr_inc */
int i_index = ShowBits( &p_vpar->bit_stream, 11 );
int i_addr_inc = 0;
int i_index = ShowBits( &p_vpar->bit_stream, 11 );
/* Test the presence of the escape character */
while( i_index == 8 )
{
......@@ -856,11 +872,32 @@ static __inline__ void MacroblockModes( vpar_thread_t * p_vpar,
/* Get macroblock_type. */
p_vpar->mb.i_mb_type = (p_vpar->picture.pf_macroblock_type)( p_vpar );
p_mb->i_mb_type = p_vpar->mb.i_mb_type;
fprintf( stderr, "MB type : %d\n", p_mb->i_mb_type );
/* SCALABILITY : warning, we don't know if spatial_temporal_weight_code
* has to be dropped, take care if you use scalable streams. */
/* DumpBits( &p_vpar->bit_stream, 2 ); */
if( !(p_vpar->mb.i_mb_type & (MB_MOTION_FORWARD | MB_MOTION_BACKWARD)) )
{
/* If mb_type has neither MOTION_FORWARD nor MOTION_BACKWARD, this
* is useless, but also harmless. */
p_vpar->mb.i_motion_type = MOTION_FRAME;
}
else
{
if( p_vpar->picture.i_structure == FRAME_STRUCTURE
&& p_vpar->picture.b_frame_pred_frame_dct )
{
p_vpar->mb.i_motion_type = MOTION_FRAME;
}
else
{
p_vpar->mb.i_motion_type = GetBits( &p_vpar->bit_stream, 2 );
}
}
if( p_mb->b_P_coding_type && !(p_vpar->mb.i_mb_type & (MB_MOTION_FORWARD|MB_INTRA)) )
{
/* Special No-MC macroblock in P pictures (7.6.3.5). */
......@@ -870,17 +907,6 @@ static __inline__ void MacroblockModes( vpar_thread_t * p_vpar,
p_vpar->mb.i_motion_type = MOTION_FRAME;
p_mb->ppi_field_select[0][0] = ( p_vpar->picture.i_current_structure == BOTTOM_FIELD );
}
else if( !(p_vpar->mb.i_mb_type & (MB_MOTION_FORWARD | MB_MOTION_BACKWARD))
|| p_vpar->picture.b_frame_pred_frame_dct )
{
/* If mb_type has neither MOTION_FORWARD nor MOTION_BACKWARD, this
* is useless, but also harmless. */
p_vpar->mb.i_motion_type = MOTION_FRAME;
}
else
{
p_vpar->mb.i_motion_type = GetBits( &p_vpar->bit_stream, 2 );
}
if( p_vpar->mb.i_mb_type & MB_INTRA )
{
......@@ -903,17 +929,17 @@ static __inline__ void MacroblockModes( vpar_thread_t * p_vpar,
(!p_vpar->picture.b_frame_pred_frame_dct) &&
(p_vpar->mb.i_mb_type & (MB_PATTERN|MB_INTRA)) )
{
if( p_vpar->mb.b_dct_type = GetBits( &p_vpar->bit_stream, 1 ) )
if( (p_vpar->mb.b_dct_type = GetBits( &p_vpar->bit_stream, 1 )) )
{
/* The DCT is coded on fields. Jump one line between each
* sample. */
p_mb->i_addb_l_stride <<= 1;
p_mb->i_addb_l_stride += 8;
p_mb->i_addb_l_stride += 8;
/* With CHROMA_420, the DCT is necessarily frame-coded. */
if( p_vpar->sequence.i_chroma_format != CHROMA_420 )
{
p_mb->i_addb_c_stride <<= 1;
p_mb->i_addb_c_stride += 8;
p_mb->i_addb_c_stride <<= 1;
p_mb->i_addb_c_stride += 8;
}
}
}
......@@ -934,7 +960,7 @@ int vpar_IMBType( vpar_thread_t * p_vpar )
{MB_QUANT|MB_INTRA, 2},
{MB_INTRA, 1},
{MB_INTRA, 1} };
fprintf( stderr, "i_type : %d\n", i_type );
/* Dump the good number of bits */
DumpBits( &p_vpar->bit_stream, pl_mb_Itype[i_type].i_length );
return pl_mb_Itype[i_type].i_value;
......@@ -1152,12 +1178,14 @@ static void vpar_DecodeMPEG2Intra( vpar_thread_t * p_vpar, macroblock_t * p_mb,
/* Lookup Table for the chromatic component */
static int pi_cc_index[12] = { 0, 0, 0, 0, 1, 2, 1, 2, 1, 2 };
fprintf( stderr, "%x\n", ShowBits( &p_vpar->bit_stream, 32 ) );
i_cc = pi_cc_index[i_b];
/* Determine whether it is luminance or not (chrominance) */
i_type = ( i_cc + 1 ) >> 1;
//fprintf( stderr, "MPEG2\n" );
/* Decoding of the DC intra coefficient */
/* The nb of bits to parse depends on i_type */
i_code = ShowBits( &p_vpar->bit_stream, 9 + i_type );
......@@ -1167,7 +1195,7 @@ static void vpar_DecodeMPEG2Intra( vpar_thread_t * p_vpar, macroblock_t * p_mb,
i_code5 = i_code >> 4;
/* Shall we lookup in the first or in the second table ? */
i_select = ( i_code5 - 1 ) / 31;
i_select = ( i_code5 == 31 );
/* Offset value for looking in the second table */
i_offset = 0x1f0 + ( i_type * 0x1f0 );
i_pos = ( i_code5 * ( ! i_select ) ) + ( ( i_code - i_offset ) * i_select );
......@@ -1190,7 +1218,7 @@ static void vpar_DecodeMPEG2Intra( vpar_thread_t * p_vpar, macroblock_t * p_mb,
( 11 - p_vpar->picture.i_intra_dc_precision ) );
i_nc = ( p_vpar->slice.pi_dc_dct_pred[i_cc] != 0 );
#endif
//fprintf( stderr, "coucou\n" );
/* Decoding of the AC coefficients */
i_coef = 0;
......@@ -1198,9 +1226,11 @@ static void vpar_DecodeMPEG2Intra( vpar_thread_t * p_vpar, macroblock_t * p_mb,
for( i_dummy = 1; i_dummy < 64; i_dummy++ )
{
i_code = ShowBits( &p_vpar->bit_stream, 16 );
fprintf( stderr, "b_intra : %d\ni_code : %d\n", b_intra, i_code );
i_run = (*p_vpar->pppl_dct_coef[b_intra][i_code]).i_run;
DumpBits( &p_vpar->bit_stream,
(*p_vpar->pppl_dct_coef[b_intra][i_code]).i_length );
//fprintf( stderr, "glop\n" );
switch( i_run )
{
case DCT_ESCAPE:
......@@ -1234,4 +1264,5 @@ static void vpar_DecodeMPEG2Intra( vpar_thread_t * p_vpar, macroblock_t * p_mb,
{
p_mb->pf_idct[i_b] = vdec_IDCT;
}
//fprintf( stderr, "MPEG2 end\n" );
}
......@@ -164,11 +164,10 @@ static __inline__ void NextStartCode( vpar_thread_t * p_vpar )
/* Re-align the buffer on an 8-bit boundary */
RealignBits( &p_vpar->bit_stream );
while( ShowBits( &p_vpar->bit_stream, 16 ) != 0 && !p_vpar->b_die )
while( ShowBits( &p_vpar->bit_stream, 24 ) != 0x01L && !p_vpar->b_die )
{
DumpBits( &p_vpar->bit_stream, 8 );
}
DumpBits( &p_vpar->bit_stream, 16 );
}
/*****************************************************************************
......@@ -263,8 +262,9 @@ int vpar_NextSequenceHeader( vpar_thread_t * p_vpar )
while( !p_vpar->b_die )
{
NextStartCode( p_vpar );
if( ShowBits( &p_vpar->bit_stream, 16 ) == SEQUENCE_HEADER_CODE )
if( ShowBits( &p_vpar->bit_stream, 32 ) == SEQUENCE_HEADER_CODE )
return 0;
DumpBits( &p_vpar->bit_stream, 8 );
}
return 1;
}
......@@ -294,9 +294,7 @@ int vpar_ParseHeader( vpar_thread_t * p_vpar )
break;
case PICTURE_START_CODE:
fprintf( stderr, "begin picture\n" );
PictureHeader( p_vpar );
fprintf( stderr, "end picture\n" );
return 0;
break;
......@@ -513,8 +511,8 @@ static void GroupHeader( vpar_thread_t * p_vpar )
*****************************************************************************/
static void PictureHeader( vpar_thread_t * p_vpar )
{
static f_macroblock_type_t ppf_macroblock_type[4] =
{vpar_IMBType, vpar_PMBType,
static f_macroblock_type_t ppf_macroblock_type[5] = {NULL,
vpar_IMBType, vpar_PMBType,
vpar_BMBType, vpar_DMBType};
int i_structure;
......@@ -544,7 +542,7 @@ static void PictureHeader( vpar_thread_t * p_vpar )
/*
* Picture Coding Extension
*/
fprintf( stderr, "picture1\n" );
NextStartCode( p_vpar );
if( ShowBits( &p_vpar->bit_stream, 16 ) == EXTENSION_START_CODE )
{
......@@ -616,7 +614,7 @@ static void PictureHeader( vpar_thread_t * p_vpar )
p_vpar->picture.i_current_structure = 0;
intf_DbgMsg("vpar debug: odd number of field picture.");
intf_DbgMsg("vpar debug: odd number of field picture.\n");
}
if( p_vpar->picture.i_current_structure )
......@@ -657,6 +655,7 @@ static void PictureHeader( vpar_thread_t * p_vpar )
return;
}
fprintf(stderr, "begin picture\n");
/* OK, now we are sure we will decode the picture. */
#define P_picture p_vpar->picture.p_picture
......@@ -722,9 +721,9 @@ static void PictureHeader( vpar_thread_t * p_vpar )
DumpBits32( &p_vpar->bit_stream );
/* Decode slice data. */
SliceHeader( p_vpar, &i_mb_address, i_mb_base, i_dummy & 255 );
p_vpar->sequence.pf_slice_header( p_vpar, &i_mb_address, i_mb_base, i_dummy & 255 );
}
/* Link referenced pictures for the decoder
* They are unlinked in vpar_ReleaseMacroblock() & vpar_DestroyMacroblock() */
if( p_vpar->sequence.p_forward != NULL )
......@@ -739,6 +738,7 @@ static void PictureHeader( vpar_thread_t * p_vpar )
if( p_vpar->picture.b_error )
{
/* Trash picture. */
fprintf(stderr, "Image trashee\n");
for( i_mb = 0; p_vpar->picture.pp_mb[i_mb]; i_mb++ )
{
vpar_DestroyMacroblock( &p_vpar->vfifo, p_vpar->picture.pp_mb[i_mb] );
......@@ -759,9 +759,12 @@ static void PictureHeader( vpar_thread_t * p_vpar )
/* Prepare context for the next picture. */
P_picture = NULL;
if( p_vpar->picture.i_current_structure == FRAME_STRUCTURE )
p_vpar->picture.i_current_structure = 0;
}
else if( p_vpar->picture.i_current_structure == FRAME_STRUCTURE )
{
fprintf(stderr, "Image decodee\n");
/* Frame completely parsed. */
P_picture->i_deccount = p_vpar->sequence.i_mb_size;
for( i_mb = 0; i_mb < p_vpar->sequence.i_mb_size; i_mb++ )
......@@ -771,6 +774,7 @@ static void PictureHeader( vpar_thread_t * p_vpar )
/* Prepare context for the next picture. */
P_picture = NULL;
p_vpar->picture.i_current_structure = 0;
}
#undef P_picture
}
......@@ -786,7 +790,7 @@ static __inline__ void SliceHeader( vpar_thread_t * p_vpar,
static int pi_dc_dct_reinit[4] = {128,256,512,1024};
int i_mb_address_save = *pi_mb_address;
/* slice_vertical_position_extension and priority_breakpoint already done */
LoadQuantizerScale( p_vpar );
......@@ -818,7 +822,8 @@ static __inline__ void SliceHeader( vpar_thread_t * p_vpar,
i_mb_base );
i_mb_address_save = *pi_mb_address;
}
while( !ShowBits( &p_vpar->bit_stream, 23 ) );
while( ShowBits( &p_vpar->bit_stream, 23 ) );
NextStartCode( p_vpar );
}
/*****************************************************************************
......
......@@ -49,7 +49,7 @@
boolean_t vpar_SynchroChoose( vpar_thread_t * p_vpar, int i_coding_type,
int i_structure )
{
return( i_coding_type == I_CODING_TYPE );
}
/*****************************************************************************
......
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