* vpar_headers.c : headers parsing
*****************************************************************************
* Copyright (C) 1999, 2000 VideoLAN
+ * $Id: vpar_headers.c,v 1.74 2001/01/18 05:13:23 sam Exp $
*
* Authors: Christophe Massiot <massiot@via.ecp.fr>
* Stéphane Borel <stef@via.ecp.fr>
#include "defs.h"
#include <stdlib.h> /* free() */
-#include <sys/types.h> /* on BSD, uio.h needs types.h */
-#include <sys/uio.h> /* "input.h" */
#include "config.h"
#include "common.h"
#include "intf_msg.h"
-#include "input.h"
-#include "decoder_fifo.h"
+#include "stream_control.h"
+#include "input_ext-dec.h"
+
#include "video.h"
#include "video_output.h"
-#include "vdec_idct.h"
#include "video_decoder.h"
#include "vdec_motion.h"
+#include "../video_decoder/vdec_idct.h"
#include "vpar_blocks.h"
-#include "vpar_headers.h"
-#include "vpar_synchro.h"
-#include "video_parser.h"
-#include "video_fifo.h"
+#include "../video_decoder/vpar_headers.h"
+#include "../video_decoder/vpar_synchro.h"
+#include "../video_decoder/video_parser.h"
+#include "../video_decoder/video_fifo.h"
/*
* Local prototypes
*/
-static __inline__ void NextStartCode( vpar_thread_t * p_vpar );
+static __inline__ void NextStartCode( bit_stream_t * );
static void SequenceHeader( vpar_thread_t * p_vpar );
static void GroupHeader( vpar_thread_t * p_vpar );
static void PictureHeader( vpar_thread_t * p_vpar );
/*****************************************************************************
* pi_default_intra_quant : default quantization matrix
*****************************************************************************/
-#ifndef VDEC_DFT
-int pi_default_intra_quant[] =
+u8 pi_default_intra_quant[] =
{
8, 16, 19, 22, 26, 27, 29, 34,
16, 16, 22, 24, 27, 29, 34, 37,
26, 27, 29, 34, 38, 46, 56, 69,
27, 29, 35, 38, 46, 56, 69, 83
};
-#else
-int pi_default_intra_quant[] =
-{
- 2048, 5681, 6355, 6623, 6656, 5431, 4018, 2401,
- 5681, 7880, 10207, 10021, 9587, 8091, 6534, 3625,
- 6355, 10207, 11363, 10619, 9700, 8935, 6155, 3507,
- 6623, 9186, 10226, 9557, 8730, 8041, 6028, 3322,
- 5632, 9232, 9031, 8730, 8192, 7040, 5542, 3390,
- 5230, 7533, 7621, 7568, 7040, 6321, 5225, 3219,
- 3602, 5189, 5250, 5539, 5265, 5007, 4199, 2638,
- 1907, 2841, 3230, 3156, 3249, 3108, 2638, 1617
-};
-#endif
/*****************************************************************************
* pi_default_nonintra_quant : default quantization matrix
*****************************************************************************/
-#ifndef VDEC_DFT
-int pi_default_nonintra_quant[] =
+u8 pi_default_nonintra_quant[] =
{
16, 16, 16, 16, 16, 16, 16, 16,
16, 16, 16, 16, 16, 16, 16, 16,
16, 16, 16, 16, 16, 16, 16, 16,
16, 16, 16, 16, 16, 16, 16, 16
};
-#else
-int pi_default_nonintra_quanit[] =
-{
- 4096, 5680, 5344, 4816, 4096, 3216, 2224, 1136,
- 5680, 7888, 7424, 6688, 5680, 4464, 3072, 1568,
- 5344, 7424, 6992, 6288, 5344, 4208, 2896, 1472,
- 4816, 6688, 6288, 5664, 4816, 3792, 2608, 1328,
- 4096, 5680, 5344, 4816, 4096, 3216, 2224, 1136,
- 3216, 4464, 4208, 3792, 3216, 2528, 1744, 880,
- 2224, 3072, 2896, 2608, 2224, 1744, 1200, 608,
- 1136, 1568, 1472, 1328, 1136, 880, 608, 304
-};
-#endif
/*****************************************************************************
* pi_scan : zig-zag and alternate scan patterns
if( i_coding_type != B_CODING_TYPE )
{
if( p_vpar->sequence.p_forward != NULL )
+ {
vout_UnlinkPicture( p_vpar->p_vout, p_vpar->sequence.p_forward );
+ }
if( p_vpar->sequence.p_backward != NULL )
{
-#ifdef POLUX_SYNCHRO
- vout_DatePicture( p_vpar->p_vout, p_vpar->sequence.p_backward,
- vpar_SynchroDate( p_vpar ) );
-#endif
-#ifdef SAM_SYNCHRO
vout_DatePicture( p_vpar->p_vout, p_vpar->sequence.p_backward,
vpar_SynchroDate( p_vpar ) );
-#endif
-#ifdef MEUUH_SYNCHRO
- mtime_t date;
- date = vpar_SynchroDate( p_vpar );
- vout_DatePicture( p_vpar->p_vout, p_vpar->sequence.p_backward,
- date );
- if( p_vpar->synchro.i_coding_type == I_CODING_TYPE )
- vpar_SynchroKludge( p_vpar, date );
-#endif
}
p_vpar->sequence.p_forward = p_vpar->sequence.p_backward;
p_vpar->sequence.p_backward = p_newref;
if( p_newref != NULL )
+ {
vout_LinkPicture( p_vpar->p_vout, p_newref );
-#ifdef MEUUH_SYNCHRO
- p_vpar->synchro.i_coding_type = i_coding_type;
-#endif
+ }
}
else if( p_newref != NULL )
{
if( i_coding_type != B_CODING_TYPE )
{
if( p_vpar->sequence.p_backward != NULL )
+ {
vout_UnlinkPicture( p_vpar->p_vout, p_vpar->sequence.p_backward );
+ }
p_vpar->sequence.p_backward = p_newref;
if( p_newref != NULL )
+ {
vout_LinkPicture( p_vpar->p_vout, p_newref );
+ }
}
}
/*****************************************************************************
* LoadMatrix : Load a quantization matrix
*****************************************************************************/
-static __inline__ void LoadMatrix( vpar_thread_t * p_vpar, quant_matrix_t * p_matrix )
+static __inline__ void LoadMatrix( vpar_thread_t * p_vpar,
+ quant_matrix_t * p_matrix )
{
int i_dummy;
if( !p_matrix->b_allocated )
{
/* Allocate a piece of memory to load the matrix. */
- if( (p_matrix->pi_matrix = (int *)malloc( 64*sizeof(int) )) == NULL )
+ if( (p_matrix->pi_matrix = (u8 *)malloc( 64*sizeof(u8) )) == NULL )
{
- intf_ErrMsg( "vpar error: allocation error in LoadMatrix()\n" );
- p_vpar->b_error = 1;
+ intf_ErrMsg( "vpar error: allocation error in LoadMatrix()" );
+ p_vpar->p_fifo->b_error = 1;
return;
}
p_matrix->b_allocated = 1;
for( i_dummy = 0; i_dummy < 64; i_dummy++ )
{
- p_matrix->pi_matrix[pi_scan[SCAN_ZIGZAG][i_dummy]]
+ p_matrix->pi_matrix[p_vpar->ppi_scan[SCAN_ZIGZAG][i_dummy]]
= GetBits( &p_vpar->bit_stream, 8 );
}
/*****************************************************************************
* LinkMatrix : Link a quantization matrix to another
*****************************************************************************/
-static __inline__ void LinkMatrix( quant_matrix_t * p_matrix, int * pi_array )
+static __inline__ void LinkMatrix( quant_matrix_t * p_matrix, u8 * pi_array )
{
if( p_matrix->b_allocated )
{
*****************************************************************************/
int vpar_NextSequenceHeader( vpar_thread_t * p_vpar )
{
- while( !p_vpar->b_die )
+ while( !p_vpar->p_fifo->b_die )
{
- NextStartCode( p_vpar );
+ NextStartCode( &p_vpar->bit_stream );
if( ShowBits( &p_vpar->bit_stream, 32 ) == SEQUENCE_HEADER_CODE )
+ {
return 0;
+ }
RemoveBits( &p_vpar->bit_stream, 8 );
}
return 1;
*****************************************************************************/
int vpar_ParseHeader( vpar_thread_t * p_vpar )
{
- while( !p_vpar->b_die )
+ while( !p_vpar->p_fifo->b_die )
{
- NextStartCode( p_vpar );
+ NextStartCode( &p_vpar->bit_stream );
switch( GetBits32( &p_vpar->bit_stream ) )
{
case SEQUENCE_HEADER_CODE:
+#ifdef STATS
+ p_vpar->c_sequences++;
+#endif
SequenceHeader( p_vpar );
return 0;
break;
break;
case SEQUENCE_END_CODE:
- intf_DbgMsg("vpar debug: sequence end code received\n");
+ intf_DbgMsg("vpar debug: sequence end code received");
return 1;
break;
else
{
/* Use default matrix. */
- LinkMatrix( &p_vpar->sequence.intra_quant, pi_default_intra_quant );
+ LinkMatrix( &p_vpar->sequence.intra_quant,
+ p_vpar->pi_default_intra_quant );
}
if( GetBits( &p_vpar->bit_stream, 1 ) ) /* load_non_intra_quantizer_matrix */
else
{
/* Use default matrix. */
- LinkMatrix( &p_vpar->sequence.nonintra_quant, pi_default_nonintra_quant );
+ LinkMatrix( &p_vpar->sequence.nonintra_quant,
+ p_vpar->pi_default_nonintra_quant );
}
/* Unless later overwritten by a matrix extension, we have the same
/*
* Sequence Extension
*/
- NextStartCode( p_vpar );
+ NextStartCode( &p_vpar->bit_stream );
if( ShowBits( &p_vpar->bit_stream, 32 ) == EXTENSION_START_CODE )
{
int i_dummy;
/*
* Picture Coding Extension
*/
- NextStartCode( p_vpar );
+ NextStartCode( &p_vpar->bit_stream );
if( ShowBits( &p_vpar->bit_stream, 32 ) == EXTENSION_START_CODE )
{
/* Parse picture_coding_extension */
p_vpar->picture.b_intra_vlc_format = GetBits( &p_vpar->bit_stream, 1 );
p_vpar->picture.b_alternate_scan = GetBits( &p_vpar->bit_stream, 1 );
p_vpar->picture.b_repeat_first_field = GetBits( &p_vpar->bit_stream, 1 );
- /* repeat_first_field (ISO/IEC 13818-2 6.3.10 is necessary to know
- * the length of the picture_display_extension structure.
- * chroma_420_type (obsolete) */
+ /* chroma_420_type (obsolete) */
RemoveBits( &p_vpar->bit_stream, 1 );
- p_vpar->picture.b_progressive_frame = GetBits( &p_vpar->bit_stream, 1 );
+ p_vpar->picture.b_progressive = GetBits( &p_vpar->bit_stream, 1 );
/* composite_display_flag */
if( GetBits( &p_vpar->bit_stream, 1 ) )
/* MPEG-1 compatibility flags */
p_vpar->picture.i_intra_dc_precision = 0; /* 8 bits */
i_structure = FRAME_STRUCTURE;
+ p_vpar->picture.b_top_field_first = 0;
p_vpar->picture.b_frame_pred_frame_dct = 1;
p_vpar->picture.b_concealment_mv = 0;
p_vpar->picture.b_q_scale_type = 0;
p_vpar->picture.b_intra_vlc_format = 0;
p_vpar->picture.b_alternate_scan = 0; /* zigzag */
- p_vpar->picture.b_repeat_first_field = 0;
- p_vpar->picture.b_progressive_frame = 1;
+ p_vpar->picture.b_repeat_first_field = 1; /* FIXME! this contradicts
+ * ISO/IEC */
+ p_vpar->picture.b_progressive = 1;
}
+#ifdef STATS
+ p_vpar->pc_pictures[p_vpar->picture.i_coding_type]++;
+#endif
+
if( p_vpar->picture.i_current_structure &&
(i_structure == FRAME_STRUCTURE ||
i_structure == p_vpar->picture.i_current_structure) )
p_vpar->picture.i_current_structure = 0;
- intf_DbgMsg("vpar debug: odd number of field picture.\n");
+ intf_DbgMsg("vpar debug: odd number of field picture.");
}
/* Do we have the reference pictures ? */
(p_vpar->sequence.p_forward == NULL ||
p_vpar->sequence.p_backward == NULL)));
- if( b_parsable )
+ if( p_vpar->picture.i_current_structure )
{
- if( p_vpar->picture.i_current_structure )
+ /* Second field of a frame. We will decode it if, and only if we
+ * have decoded the first field. */
+ if( b_parsable )
{
- /* Second field of a frame. We will decode it if, and only if we
- * have decoded the first field. */
b_parsable = (p_vpar->picture.p_picture != NULL);
}
+ }
+ else
+ {
+ int i_repeat_field;
+
+ /* Compute the number of times the frame will be emitted by the
+ * decoder (number of periods). */
+ if( p_vpar->sequence.b_progressive )
+ {
+ i_repeat_field = 1 + p_vpar->picture.b_repeat_first_field
+ + p_vpar->picture.b_top_field_first;
+ }
else
+ {
+ if( p_vpar->picture.b_progressive )
+ {
+ i_repeat_field = 2 + p_vpar->picture.b_repeat_first_field;
+ }
+ else
+ {
+ i_repeat_field = 2;
+ }
+ }
+
+ /* Warn synchro we have a new picture (updates pictures index). */
+ vpar_SynchroNewPicture( p_vpar, p_vpar->picture.i_coding_type,
+ i_repeat_field );
+
+ if( b_parsable )
{
/* Does synchro say we have enough time to decode it ? */
b_parsable = vpar_SynchroChoose( p_vpar,
p_vpar->picture.i_coding_type, i_structure );
}
}
-#ifdef POLUX_SYNCHRO
- else if( !p_vpar->picture.i_current_structure )
- {
- vpar_SynchroTrash( p_vpar, p_vpar->picture.i_coding_type, i_structure );
- }
-#endif
if( !b_parsable )
{
/* Update the reference pointers. */
ReferenceUpdate( p_vpar, p_vpar->picture.i_coding_type, NULL );
-#ifndef POLUX_SYNCHRO
- /* Warn Synchro we have trashed a picture. */
- vpar_SynchroTrash( p_vpar, p_vpar->picture.i_coding_type, i_structure );
-#endif
+
/* Update context. */
if( i_structure != FRAME_STRUCTURE )
{
}
else
{
+ /* The frame is complete. */
p_vpar->picture.i_current_structure = i_structure;
+
+ vpar_SynchroTrash( p_vpar, p_vpar->picture.i_coding_type, i_structure );
}
}
+ else
+ {
+ /* Warn Synchro we have trashed a picture. */
+ vpar_SynchroTrash( p_vpar, p_vpar->picture.i_coding_type, i_structure );
+ }
p_vpar->picture.p_picture = NULL;
return;
}
/* OK, now we are sure we will decode the picture. */
+#ifdef STATS
+ p_vpar->pc_decoded_pictures[p_vpar->picture.i_coding_type]++;
+#endif
+
#define P_picture p_vpar->picture.p_picture
p_vpar->picture.b_error = 0;
p_vpar->picture.b_frame_structure = (i_structure == FRAME_STRUCTURE);
p_vpar->sequence.i_height ) )
== NULL )
{
- intf_DbgMsg("vpar debug: allocation error in vout_CreatePicture, delaying\n");
- if( p_vpar->b_die || p_vpar->b_error )
+ intf_DbgMsg("vpar debug: allocation error in vout_CreatePicture, delaying");
+ if( p_vpar->p_fifo->b_die || p_vpar->p_fifo->b_error )
{
return;
}
<< ( 1 - p_vpar->picture.b_frame_structure ));
P_picture->i_deccount = p_vpar->sequence.i_mb_size;
- vlc_mutex_init( &p_vpar->picture.p_picture->lock_deccount );
#ifdef VDEC_SMP
memset( p_vpar->picture.pp_mb, 0, MAX_MB*sizeof(macroblock_t *) );
#endif
vpar_PictureData( p_vpar, i_mb_base );
- if( p_vpar->b_die || p_vpar->b_error )
+ if( p_vpar->p_fifo->b_die || p_vpar->p_fifo->b_error )
{
return;
}
if( p_vpar->picture.b_error )
{
/* Trash picture. */
-//fprintf(stderr, "Image trashee\n");
#ifdef VDEC_SMP
for( i_mb = 1; p_vpar->picture.pp_mb[i_mb] != NULL; i_mb++ )
{
}
#endif
+#ifdef STATS
+ p_vpar->pc_malformed_pictures[p_vpar->picture.i_coding_type]++;
+#endif
+
if( P_picture->i_deccount != 1 )
{
+ vpar_SynchroEnd( p_vpar, 1 );
vout_DestroyPicture( p_vpar->p_vout, P_picture );
}
}
else if( p_vpar->picture.i_current_structure == FRAME_STRUCTURE )
{
-//fprintf(stderr, "Image parsee (%d)\n", p_vpar->picture.i_coding_type);
/* Frame completely parsed. */
#ifdef VDEC_SMP
for( i_mb = 1; p_vpar->picture.pp_mb[i_mb] != NULL; i_mb++ )
*****************************************************************************/
static void ExtensionAndUserData( vpar_thread_t * p_vpar )
{
- while( !p_vpar->b_die )
+ while( !p_vpar->p_fifo->b_die )
{
- NextStartCode( p_vpar );
+ NextStartCode( &p_vpar->bit_stream );
switch( ShowBits( &p_vpar->bit_stream, 32 ) )
{
case EXTENSION_START_CODE:
{
/* Use the default matrix. */
LinkMatrix( &p_vpar->sequence.intra_quant,
- pi_default_intra_quant );
+ p_vpar->pi_default_intra_quant );
}
if( GetBits( &p_vpar->bit_stream, 1 ) )
{
{
/* Use the default matrix. */
LinkMatrix( &p_vpar->sequence.nonintra_quant,
- pi_default_nonintra_quant );
+ p_vpar->pi_default_nonintra_quant );
}
if( GetBits( &p_vpar->bit_stream, 1 ) )
{
projects / vlc / blobdiff