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;
+ 1000000.0 / (p_vpar->synchro.theorical_fps);
//fprintf (stderr, " ");
}
- //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);
+
+ /* 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;
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_last_nondropped_i_pts = i_current_pts;
- p_vpar->synchro.nondropped_p_count = 0;
- p_vpar->synchro.nondropped_b_count = 0;
}
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 );
+
+ p_vpar->synchro.can_display_p
+ = ( p_vpar->synchro.i_mean_decode_time
+ * (1 + p_vpar->synchro.p_count_predict) < i_delay );
+
+ if( !p_vpar->synchro.can_display_p )
+ {
+ 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;
+ }
+ 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 );
+#endif
+
+ /* update some values */
+ if( !dropped )
+ {
+ 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;
+ }
+
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;
- int keep;
+ mtime_t i_delay = p_vpar->synchro.i_last_decode_pts - mdate();
- i_delay = p_vpar->synchro.i_last_decode_pts - mdate();
-
- //fprintf( stderr, "delay is %lli - ", i_delay);
-
-#if 1
- /*if ( i_coding_type == B_CODING_TYPE )
- return (0);*/
-
- //return( i_coding_type == I_CODING_TYPE || i_coding_type == P_CODING_TYPE );
- if( i_delay > 120000 )
- {
- keep = 1;
- }
- else if( i_delay > 100000 )
+ switch( i_coding_type )
{
- keep = ( i_coding_type == I_CODING_TYPE
- || i_coding_type == P_CODING_TYPE );
- }
- else if( i_delay > 50000 )
- {
- keep = ( i_coding_type == I_CODING_TYPE );
- }
- else
- {
- keep = 0;
- }
-#endif
+ case I_CODING_TYPE:
+
+ return( p_vpar->synchro.can_display_i );
+
+ case P_CODING_TYPE:
+
+ if( p_vpar->synchro.can_display_p )
+ return( 1 );
+
+ if( p_vpar->synchro.displayable_p * i_delay
+ < p_vpar->synchro.i_mean_decode_time )
+ {
+ //fprintf( stderr, "trashed a P\n");
+ return( 0 );
+ }
+
+ p_vpar->synchro.displayable_p--;
+ return( 1 );
+
+ case B_CODING_TYPE:
+
+ if( p_vpar->synchro.can_display_b )
+ return( 1 );
- //if (!keep) fprintf( stderr, "trashing a type %i with delay %lli\n", i_coding_type, i_delay);
-// else fprintf( stderr, "chooser : ok - displaying a %i \n", i_coding_type);
+ /* modulo & 0x3 is here to add some randomness */
+ if( i_delay < (1 + (p_vpar->synchro.modulo & 0x3))
+ * p_vpar->synchro.i_mean_decode_time )
+ {
+ //fprintf( stderr, "trashed a B\n");
+ return( 0 );
+ }
+
+ if( p_vpar->synchro.displayable_b <= 0 )
+ return( 0 );
+
+ p_vpar->synchro.displayable_b--;
+ return( 1 );
+ }
- return (keep);
+ return( 0 );
}
p_vpar->synchro.i_mean_decode_time =
( 7 * p_vpar->synchro.i_mean_decode_time + i_decode_time ) / 8;
- //fprintf (stderr, "decoding time is %lli\n", p_vpar->synchro.i_mean_decode_time);
+ /* fprintf (stderr,
+ "decoding time was %lli\n",
+ p_vpar->synchro.i_mean_decode_time); */
p_vpar->synchro.i_fifo_start = (p_vpar->synchro.i_fifo_start + 1) & 0xf;
mtime_t vpar_SynchroDate( vpar_thread_t * p_vpar )
{
mtime_t i_displaydate = p_vpar->synchro.i_last_display_pts;
- static mtime_t i_delta = 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, 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);
+#if 0
+ static mtime_t i_delta = 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,
+ 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 );
i_delta = i_displaydate;
+#endif
+
return i_displaydate;
}
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