/*****************************************************************************
* vpar_motion.c : motion vectors parsing
- * (c)1999 VideoLAN
+ *****************************************************************************
+ * Copyright (C) 1999, 2000 VideoLAN
+ *
+ * Authors:
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
*****************************************************************************/
/*****************************************************************************
* Preamble
*****************************************************************************/
-#include <errno.h>
-#include <stdlib.h>
-#include <stdio.h>
-#include <unistd.h>
-#include <string.h>
-#include <sys/uio.h>
+#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 "threads.h"
#include "mtime.h"
-#include "vlc_thread.h"
+#include "plugins.h"
#include "intf_msg.h"
-#include "debug.h" /* ?? temporaire, requis par netlist.h */
#include "input.h"
-#include "input_netlist.h"
#include "decoder_fifo.h"
#include "video.h"
#include "video_output.h"
#include "vpar_headers.h"
#include "vpar_synchro.h"
#include "video_parser.h"
-#include "video_fifo.h"
#define MAX_COUNT 3
*/
#ifdef SAM_SYNCHRO
-/*****************************************************************************
- * vpar_SynchroUpdateTab : Update a mean table in the synchro structure
- *****************************************************************************/
-float vpar_SynchroUpdateTab( video_synchro_tab_t * tab, int count )
-{
-
- tab->mean = ( tab->mean + MAX_COUNT * count ) / ( MAX_COUNT + 1 );
- tab->deviation = ( tab->deviation + MAX_COUNT * abs (tab->mean - count) )
- / ( MAX_COUNT + 1 );
-
- return tab->deviation;
-}
/*****************************************************************************
* vpar_SynchroUpdateStructures : Update the synchro structures
*****************************************************************************/
void vpar_SynchroUpdateStructures( vpar_thread_t * p_vpar,
- int i_coding_type, int dropped )
+ int i_coding_type, boolean_t b_kept )
{
- float candidate_deviation;
- float optimal_deviation;
- float predict;
- mtime_t i_current_pts;
- mtime_t i_delay;
- mtime_t i_displaydate;
- decoder_fifo_t * decoder_fifo = p_vpar->bit_stream.p_decoder_fifo;
-
- /* interpolate the current _decode_ PTS */
- i_current_pts = decoder_fifo->buffer[decoder_fifo->i_start]->b_has_pts ?
- decoder_fifo->buffer[decoder_fifo->i_start]->i_pts :
- 0;
- if( !i_current_pts )
+ double i_can_display;
+ mtime_t i_pts;
+ pes_packet_t * p_pes = p_vpar->bit_stream.p_decoder_fifo->buffer[
+ p_vpar->bit_stream.p_decoder_fifo->i_start ];
+
+ /* try to guess the current DTS and PTS */
+ if( p_pes->b_has_pts )
{
- i_current_pts = p_vpar->synchro.i_last_decode_pts
- + 1000000.0 / (1 + p_vpar->synchro.actual_fps);
+ i_pts = p_pes->i_pts;
+
+ /* if the image is I type, then the presentation timestamp is
+ * the PTS of the PES. Otherwise, we calculate it with the
+ * theorical framerate value */
+ if( i_coding_type == I_CODING_TYPE )
+ {
+ p_vpar->synchro.i_last_pts = p_pes->i_pts;
+ }
+ else
+ {
+ p_vpar->synchro.i_last_pts += p_vpar->synchro.i_theorical_delay;
+ }
+
+ p_pes->b_has_pts = 0;
}
- p_vpar->synchro.i_last_decode_pts = i_current_pts;
-
- /* see if the current image has a pts - if not, set to 0 */
- p_vpar->synchro.fifo[p_vpar->synchro.i_fifo_stop].i_pts
- = i_current_pts;
-
- /* update display time */
- i_displaydate = decoder_fifo->buffer[decoder_fifo->i_start]->b_has_pts ?
- decoder_fifo->buffer[decoder_fifo->i_start]->i_pts :
- 0;
- if( !i_displaydate || i_coding_type != I_CODING_TYPE )
+ else
{
- if (!p_vpar->synchro.i_images_since_pts )
- p_vpar->synchro.i_images_since_pts = 10;
-
- i_displaydate = p_vpar->synchro.i_last_display_pts
- + 1000000.0 / (p_vpar->synchro.theorical_fps);
- //fprintf (stderr, " ");
+ p_vpar->synchro.i_last_pts += p_vpar->synchro.i_theorical_delay;
+ i_pts = p_vpar->synchro.i_last_pts;
}
-
- decoder_fifo->buffer[decoder_fifo->i_start]->b_has_pts = 0;
-
- /* else fprintf (stderr, "R ");
- if (dropped) fprintf (stderr, " "); else fprintf (stderr, "* ");
- fprintf (stderr, "%i ", i_coding_type);
- fprintf (stderr, "pts %lli delta %lli\n", i_displaydate, i_displaydate - p_vpar->synchro.i_last_display_pts); */
-
- p_vpar->synchro.i_images_since_pts--;
- p_vpar->synchro.i_last_display_pts = i_displaydate;
-
-
/* update structures */
switch(i_coding_type)
{
case P_CODING_TYPE:
- p_vpar->synchro.current_p_count++;
- if( !dropped ) p_vpar->synchro.nondropped_p_count++;
+ p_vpar->synchro.i_P_seen++;
+ if( b_kept ) p_vpar->synchro.i_P_kept++;
break;
case B_CODING_TYPE:
- p_vpar->synchro.current_b_count++;
- if( !dropped ) p_vpar->synchro.nondropped_b_count++;
+ p_vpar->synchro.i_B_seen++;
+ if( b_kept ) p_vpar->synchro.i_B_kept++;
break;
case I_CODING_TYPE:
- /* update information about images we can decode */
- if (i_current_pts != p_vpar->synchro.i_last_i_pts)
- {
- if ( p_vpar->synchro.i_last_i_pts && i_current_pts != p_vpar->synchro.i_last_i_pts)
- {
- p_vpar->synchro.theorical_fps = (p_vpar->synchro.theorical_fps + 1000000.0 * (1 + p_vpar->synchro.current_b_count + p_vpar->synchro.current_p_count) / (i_current_pts - p_vpar->synchro.i_last_i_pts)) / 2;
- }
- p_vpar->synchro.i_last_i_pts = i_current_pts;
- }
-
- if( !dropped )
+ /* update the last I PTS we have, we need it to
+ * calculate the theorical framerate */
+ if (i_pts != p_vpar->synchro.i_last_seen_I_pts)
{
- if ( p_vpar->synchro.i_last_nondropped_i_pts && i_current_pts != p_vpar->synchro.i_last_nondropped_i_pts)
+ if ( p_vpar->synchro.i_last_seen_I_pts )
{
- p_vpar->synchro.actual_fps = (p_vpar->synchro.actual_fps + 1000000.0 * (1 + p_vpar->synchro.nondropped_b_count + p_vpar->synchro.nondropped_p_count) / (i_current_pts - p_vpar->synchro.i_last_nondropped_i_pts)) / 2;
+ p_vpar->synchro.i_theorical_delay =
+ ( i_pts - p_vpar->synchro.i_last_seen_I_pts )
+ / ( 1 + p_vpar->synchro.i_B_seen
+ + p_vpar->synchro.i_P_seen);
}
-
+ p_vpar->synchro.i_last_seen_I_pts = i_pts;
}
-
- /* update all the structures for P images */
-
- /* period == 1 */
- optimal_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_p[0],
- p_vpar->synchro.current_p_count);
- predict = p_vpar->synchro.tab_p[0].mean;
-
- /* period == 2 */
- candidate_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_p[1 + (p_vpar->synchro.modulo & 0x1)],
- p_vpar->synchro.current_p_count);
- if (candidate_deviation < optimal_deviation)
- {
- optimal_deviation = candidate_deviation;
- predict = p_vpar->synchro.tab_p[1 + (p_vpar->synchro.modulo & 0x1)].mean;
- }
-
- /* period == 3 */
- candidate_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_p[3 + (p_vpar->synchro.modulo % 3)],
- p_vpar->synchro.current_p_count);
- if (candidate_deviation < optimal_deviation)
- {
- optimal_deviation = candidate_deviation;
- predict = p_vpar->synchro.tab_p[1 + (p_vpar->synchro.modulo % 3)].mean;
- }
-
- p_vpar->synchro.p_count_predict = predict;
- p_vpar->synchro.current_p_count = 0;
-
-
- /* update all the structures for B images */
-
- /* period == 1 */
- optimal_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_b[0],
- p_vpar->synchro.current_b_count);
- predict = p_vpar->synchro.tab_b[0].mean;
-
- /* period == 2 */
- candidate_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_b[1 + (p_vpar->synchro.modulo & 0x1)],
- p_vpar->synchro.current_b_count);
- if (candidate_deviation < optimal_deviation)
- {
- optimal_deviation = candidate_deviation;
- predict = p_vpar->synchro.tab_b[1 + (p_vpar->synchro.modulo & 0x1)].mean;
- }
-
- /* period == 3 */
- candidate_deviation = vpar_SynchroUpdateTab(
- &p_vpar->synchro.tab_b[3 + (p_vpar->synchro.modulo % 3)],
- p_vpar->synchro.current_b_count);
- if (candidate_deviation < optimal_deviation)
- {
- optimal_deviation = candidate_deviation;
- predict = p_vpar->synchro.tab_b[1 + (p_vpar->synchro.modulo % 3)].mean;
- }
-
- p_vpar->synchro.b_count_predict = predict;
- p_vpar->synchro.current_b_count = 0;
-
/* now we calculated all statistics, it's time to
- * decide what we have the time to display
- */
- i_delay = i_current_pts - p_vpar->synchro.i_last_nondropped_i_pts;
-
- p_vpar->synchro.can_display_i
- = ( p_vpar->synchro.i_mean_decode_time < i_delay );
+ * decide what we have the time to display */
+ i_can_display = (float)(i_pts - p_vpar->synchro.i_last_kept_I_pts)
+ / p_vpar->synchro.i_delay;
- p_vpar->synchro.can_display_p
- = ( p_vpar->synchro.i_mean_decode_time
- * (1 + p_vpar->synchro.p_count_predict) < i_delay );
+ p_vpar->synchro.b_all_I = 0;
+ p_vpar->synchro.b_all_B = 0;
+ p_vpar->synchro.b_all_P = 0;
+ p_vpar->synchro.displayable_p = 0;
+ p_vpar->synchro.displayable_b = 0;
- if( !p_vpar->synchro.can_display_p )
+ if( ( p_vpar->synchro.b_all_I = ( i_can_display > 1 ) ) )
{
- p_vpar->synchro.displayable_p
- = -1 + i_delay / p_vpar->synchro.i_mean_decode_time;
- if( p_vpar->synchro.displayable_p < 0 )
- p_vpar->synchro.displayable_p = 0;
- }
- else
- p_vpar->synchro.displayable_p = 0;
-
- if( p_vpar->synchro.can_display_p
- && !(p_vpar->synchro.can_display_b
- = ( p_vpar->synchro.i_mean_decode_time
- * (1 + p_vpar->synchro.b_count_predict
- + p_vpar->synchro.p_count_predict)) < i_delay) )
- {
- p_vpar->synchro.displayable_b
- = -2.0 + i_delay / p_vpar->synchro.i_mean_decode_time
- - p_vpar->synchro.can_display_p;
+ i_can_display -= 1;
+
+ if( !( p_vpar->synchro.b_all_P
+ = ( i_can_display > p_vpar->synchro.i_P_seen ) ) )
+ {
+ p_vpar->synchro.displayable_p = i_can_display;
+ }
+ else
+ {
+ i_can_display -= p_vpar->synchro.i_P_seen;
+
+ if( !( p_vpar->synchro.b_all_B
+ = ( i_can_display > p_vpar->synchro.i_B_seen ) ) )
+ {
+ p_vpar->synchro.displayable_b = i_can_display;
+ }
+ }
}
- else
- p_vpar->synchro.displayable_b = 0;
-#if 0
- fprintf( stderr,
- "I %i P %i (%f) B %i (%f)\n",
- p_vpar->synchro.can_display_i,
- p_vpar->synchro.can_display_p,
- p_vpar->synchro.displayable_p,
- p_vpar->synchro.can_display_b,
- p_vpar->synchro.displayable_b );
+#if 1
+ if( p_vpar->synchro.b_all_I )
+ intf_ErrMsg( " I: 1/1 " );
+ if( p_vpar->synchro.b_all_P )
+ intf_ErrMsg( "P: %i/%i ", p_vpar->synchro.i_P_seen,
+ p_vpar->synchro.i_P_seen );
+ else if( p_vpar->synchro.displayable_p > 0 )
+ intf_ErrMsg( "P: %.2f/%i ", p_vpar->synchro.displayable_p,
+ p_vpar->synchro.i_P_seen );
+ if( p_vpar->synchro.b_all_B )
+ intf_ErrMsg( "B: %i/%i", p_vpar->synchro.i_B_seen,
+ p_vpar->synchro.i_B_seen );
+ else if( p_vpar->synchro.displayable_b > 0 )
+ intf_ErrMsg( "B: %.2f/%i", p_vpar->synchro.displayable_b,
+ p_vpar->synchro.i_B_seen );
+ intf_ErrMsg( " \r" );
#endif
+ p_vpar->synchro.i_P_seen = 0;
+ p_vpar->synchro.i_B_seen = 0;
/* update some values */
- if( !dropped )
+ if( b_kept )
{
- p_vpar->synchro.i_last_nondropped_i_pts = i_current_pts;
- p_vpar->synchro.nondropped_p_count = 0;
- p_vpar->synchro.nondropped_b_count = 0;
+ p_vpar->synchro.i_last_kept_I_pts = i_pts;
+ p_vpar->synchro.i_P_kept = 0;
+ p_vpar->synchro.i_B_kept = 0;
}
break;
-
}
-
- p_vpar->synchro.modulo++;
-
}
/*****************************************************************************
boolean_t vpar_SynchroChoose( vpar_thread_t * p_vpar, int i_coding_type,
int i_structure )
{
- mtime_t i_delay = p_vpar->synchro.i_last_decode_pts - mdate();
+ mtime_t i_delay = p_vpar->synchro.i_last_pts - mdate();
+
+ //return (i_coding_type == I_CODING_TYPE);
switch( i_coding_type )
{
case I_CODING_TYPE:
- return( p_vpar->synchro.can_display_i );
+ //intf_ErrMsg( " I %f %f\nI ", 1000000.0 / p_vpar->synchro.i_theorical_delay, 1000000.0 / p_vpar->synchro.i_delay );
+ return( p_vpar->synchro.b_all_I );
case P_CODING_TYPE:
- if( p_vpar->synchro.can_display_p )
+ //return(1);
+ if( p_vpar->synchro.b_all_P )
+ {
+ //intf_ErrMsg( " p " );
return( 1 );
+ }
if( p_vpar->synchro.displayable_p * i_delay
- < p_vpar->synchro.i_mean_decode_time )
+ < p_vpar->synchro.i_delay )
{
- //fprintf( stderr, "trashed a P\n");
+ //intf_ErrMsg( " - " );
return( 0 );
}
p_vpar->synchro.displayable_p--;
+ //intf_ErrMsg( " p> " );
return( 1 );
-
+
case B_CODING_TYPE:
- if( p_vpar->synchro.can_display_b )
+ if( p_vpar->synchro.b_all_B )
+ {
+ //intf_ErrMsg( "b " );
return( 1 );
+ }
- /* modulo & 0x3 is here to add some randomness */
- if( i_delay < (1 + (p_vpar->synchro.modulo & 0x3))
- * p_vpar->synchro.i_mean_decode_time )
+ if( p_vpar->synchro.displayable_b <= 0 )
{
- //fprintf( stderr, "trashed a B\n");
+ //intf_ErrMsg( " " );
return( 0 );
}
-
- if( p_vpar->synchro.displayable_b <= 0 )
+
+ if( i_delay < 0 )
+ {
+ //intf_ErrMsg( "ยท " );
+ p_vpar->synchro.displayable_b -= 0.5;
return( 0 );
+ }
+ //intf_ErrMsg( "b " );
p_vpar->synchro.displayable_b--;
return( 1 );
}
void vpar_SynchroTrash( vpar_thread_t * p_vpar, int i_coding_type,
int i_structure )
{
- vpar_SynchroUpdateStructures (p_vpar, i_coding_type, 1);
+ vpar_SynchroUpdateStructures (p_vpar, i_coding_type, 0);
}
void vpar_SynchroDecode( vpar_thread_t * p_vpar, int i_coding_type,
int i_structure )
{
- vpar_SynchroUpdateStructures (p_vpar, i_coding_type, 0);
+ vpar_SynchroUpdateStructures (p_vpar, i_coding_type, 1);
- p_vpar->synchro.fifo[p_vpar->synchro.i_fifo_stop].i_decode_date = mdate();
- p_vpar->synchro.fifo[p_vpar->synchro.i_fifo_stop].i_image_type
- = i_coding_type;
+ p_vpar->synchro.i_date_fifo[p_vpar->synchro.i_stop] = mdate();
- p_vpar->synchro.i_fifo_stop = (p_vpar->synchro.i_fifo_stop + 1) & 0xf;
+ FIFO_INCREMENT( i_stop );
}
*****************************************************************************/
void vpar_SynchroEnd( vpar_thread_t * p_vpar )
{
- mtime_t i_decode_time;
-
- i_decode_time = (mdate() -
- p_vpar->synchro.fifo[p_vpar->synchro.i_fifo_start].i_decode_date)
- / (p_vpar->synchro.i_fifo_stop - p_vpar->synchro.i_fifo_start & 0x0f);
+ if( p_vpar->synchro.i_stop != p_vpar->synchro.i_start )
+ {
+ mtime_t i_delay;
- p_vpar->synchro.i_mean_decode_time =
- ( 7 * p_vpar->synchro.i_mean_decode_time + i_decode_time ) / 8;
+ i_delay = ( mdate() -
+ p_vpar->synchro.i_date_fifo[p_vpar->synchro.i_start] )
+ / ( (p_vpar->synchro.i_stop - p_vpar->synchro.i_start) & 0x0f );
- /* fprintf (stderr,
- "decoding time was %lli\n",
- p_vpar->synchro.i_mean_decode_time); */
+ p_vpar->synchro.i_delay =
+ ( 7 * p_vpar->synchro.i_delay + i_delay ) >> 3;
- p_vpar->synchro.i_fifo_start = (p_vpar->synchro.i_fifo_start + 1) & 0xf;
+#if 0
+ intf_ErrMsg( "decode %lli (mean %lli, theorical %lli)\n",
+ i_delay, p_vpar->synchro.i_delay,
+ p_vpar->synchro.i_theorical_delay );
+#endif
+ }
+ else
+ {
+ intf_ErrMsg( "vpar error: critical ! fifo full\n" );
+ }
+ FIFO_INCREMENT( i_start );
}
/*****************************************************************************
*****************************************************************************/
mtime_t vpar_SynchroDate( vpar_thread_t * p_vpar )
{
- mtime_t i_displaydate = p_vpar->synchro.i_last_display_pts;
-
+#if 0
+
+ mtime_t i_displaydate = p_vpar->synchro.i_last_pts;
static mtime_t i_delta = 0;
-#if 0
- fprintf( stderr,
- "displaying type %i with delay %lli and delta %lli\n",
- p_vpar->synchro.fifo[p_vpar->synchro.i_fifo_start].i_image_type,
+
+ intf_ErrMsg( "displaying image with delay %lli and delta %lli\n",
i_displaydate - mdate(),
i_displaydate - i_delta );
- fprintf (stderr,
- "theorical fps: %f - actual fps: %f \n",
- p_vpar->synchro.theorical_fps, p_vpar->synchro.actual_fps );
+ intf_ErrMsg ( "theorical fps: %f - actual fps: %f \n",
+ 1000000.0 / p_vpar->synchro.i_theorical_delay, 1000000.0 / p_vpar->synchro.i_delay );
i_delta = i_displaydate;
-#endif
return i_displaydate;
+#else
+
+ return p_vpar->synchro.i_last_pts;
+
+#endif
}
-#else
+#endif
+
+#ifdef MEUUH_SYNCHRO
/* synchro a deux balles backportee du decodeur de reference. NE MARCHE PAS
AVEC LES IMAGES MONOTRAMES */
boolean_t vpar_SynchroChoose( vpar_thread_t * p_vpar, int i_coding_type,
int i_structure )
{
- switch (i_coding_type)
+ switch (i_coding_type)
{
case B_CODING_TYPE:
if ((p_vpar->synchro.kludge_level <= p_vpar->synchro.kludge_nbp))
return( 1 );
case P_CODING_TYPE:
- if (p_vpar->synchro.kludge_p++ >= p_vpar->synchro.kludge_level)
+ if (p_vpar->synchro.kludge_p++ >= p_vpar->synchro.kludge_level)
{
return( 0 );
}
}
#endif
+
+
+#ifdef POLUX_SYNCHRO
+
+void vpar_SynchroSetCurrentDate( vpar_thread_t * p_vpar, int i_coding_type )
+{
+ pes_packet_t * p_pes =
+ p_vpar->bit_stream.p_decoder_fifo->buffer[p_vpar->bit_stream.p_decoder_fifo->i_start];
+
+
+ switch( i_coding_type )
+ {
+ case B_CODING_TYPE:
+ if( p_pes->b_has_pts )
+ {
+ if( p_pes->i_pts < p_vpar->synchro.i_current_frame_date )
+ {
+ intf_ErrMsg( "vpar warning: pts_date < current_date\n" );
+ }
+ p_vpar->synchro.i_current_frame_date = p_pes->i_pts;
+ p_pes->b_has_pts = 0;
+ }
+ else
+ {
+ p_vpar->synchro.i_current_frame_date += 1000000/(p_vpar->sequence.r_frame_rate);
+ }
+ break;
+
+ default:
+
+ if( p_vpar->synchro.i_backward_frame_date == 0 )
+ {
+ p_vpar->synchro.i_current_frame_date += 1000000/(p_vpar->sequence.r_frame_rate);
+ }
+ else
+ {
+ if( p_vpar->synchro.i_backward_frame_date < p_vpar->synchro.i_current_frame_date )
+ {
+ intf_ErrMsg( "vpar warning: backward_date < current_date (%Ld)\n",
+ p_vpar->synchro.i_backward_frame_date - p_vpar->synchro.i_current_frame_date );
+ }
+ p_vpar->synchro.i_current_frame_date = p_vpar->synchro.i_backward_frame_date;
+ p_vpar->synchro.i_backward_frame_date = 0;
+ }
+
+ if( p_pes->b_has_pts )
+ {
+ p_vpar->synchro.i_backward_frame_date = p_pes->i_pts;
+ p_pes->b_has_pts = 0;
+ }
+ break;
+ }
+}
+
+boolean_t vpar_SynchroChoose( vpar_thread_t * p_vpar, int i_coding_type,
+ int i_structure )
+{
+ boolean_t b_result = 1;
+ int i_synchro_level = p_vpar->p_vout->i_synchro_level;
+
+ vpar_SynchroSetCurrentDate( p_vpar, i_coding_type );
+
+ /*
+ * The synchro level is updated by the video input (see SynchroLevelUpdate)
+ * so we just use the synchro_level to decide which frame to trash
+ */
+
+ switch( i_coding_type )
+ {
+ case I_CODING_TYPE:
+
+ p_vpar->synchro.r_p_average =
+ (p_vpar->synchro.r_p_average*(SYNC_AVERAGE_COUNT-1)+p_vpar->synchro.i_p_count)/SYNC_AVERAGE_COUNT;
+ p_vpar->synchro.r_b_average =
+ (p_vpar->synchro.r_b_average*(SYNC_AVERAGE_COUNT-1)+p_vpar->synchro.i_b_count)/SYNC_AVERAGE_COUNT;
+
+ p_vpar->synchro.i_p_nb = (int)(p_vpar->synchro.r_p_average+0.5);
+ p_vpar->synchro.i_b_nb = (int)(p_vpar->synchro.r_b_average+0.5);
+
+ p_vpar->synchro.i_p_count = p_vpar->synchro.i_b_count = 0;
+ p_vpar->synchro.i_b_trasher = p_vpar->synchro.i_b_nb / 2;
+ p_vpar->synchro.i_i_count++;
+ break;
+
+ case P_CODING_TYPE:
+ p_vpar->synchro.i_p_count++;
+ if( p_vpar->synchro.i_p_count > i_synchro_level )
+ {
+ b_result = 0;
+ }
+ break;
+
+ case B_CODING_TYPE:
+ p_vpar->synchro.i_b_count++;
+ if( p_vpar->synchro.i_p_nb >= i_synchro_level )
+ {
+ /* We must trash all the B */
+ b_result = 0;
+ }
+ else
+ {
+ /* We use the brensenham algorithm to decide which B to trash */
+ p_vpar->synchro.i_b_trasher +=
+ p_vpar->synchro.i_b_nb - (i_synchro_level-p_vpar->synchro.i_p_nb);
+ if( p_vpar->synchro.i_b_trasher >= p_vpar->synchro.i_b_nb )
+ {
+ b_result = 0;
+ p_vpar->synchro.i_b_trasher -= p_vpar->synchro.i_b_nb;
+ }
+ }
+ break;
+ }
+
+ return( b_result );
+}
+
+void vpar_SynchroTrash( vpar_thread_t * p_vpar, int i_coding_type,
+ int i_structure )
+{
+ vpar_SynchroChoose( p_vpar, i_coding_type, i_structure );
+}
+
+void vpar_SynchroUpdateLevel()
+{
+ //vlc_mutex_lock( &level_lock );
+ //vlc_mutex_unlock( &level_lock );
+}
+
+mtime_t vpar_SynchroDate( vpar_thread_t * p_vpar )
+{
+ return( p_vpar->synchro.i_current_frame_date );
+}
+
+/* functions with no use */
+
+void vpar_SynchroEnd( vpar_thread_t * p_vpar )
+{
+}
+
+void vpar_SynchroDecode( vpar_thread_t * p_vpar, int i_coding_type,
+ int i_structure )
+{
+}
+
+#endif