Commit dd521c46 authored by Christophe Massiot's avatar Christophe Massiot

* Implementation of a frame-dropping algorithm for the libmpeg2 plug-in

  (incomplete).
parent 899ac5e2
......@@ -203,6 +203,7 @@ HEADERS_include = \
include/vlc_playlist.h \
include/vlc_threads.h \
include/vlc_threads_funcs.h \
include/vout_synchro.h \
include/win32_specific.h \
include/osd.h \
$(NULL)
......@@ -387,6 +388,7 @@ SOURCES_libvlc_common = \
src/video_output/video_text.c \
src/video_output/video_text.h \
src/video_output/vout_subpictures.c \
src/video_output/vout_synchro.c \
src/audio_output/common.c \
src/audio_output/dec.c \
src/audio_output/filters.c \
......
......@@ -3,7 +3,7 @@
* Collection of useful common types and macros definitions
*****************************************************************************
* Copyright (C) 1998, 1999, 2000 VideoLAN
* $Id: vlc_common.h,v 1.60 2003/04/13 20:00:20 fenrir Exp $
* $Id: vlc_common.h,v 1.61 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Samuel Hocevar <sam@via.ecp.fr>
* Vincent Seguin <seguin@via.ecp.fr>
......@@ -242,6 +242,7 @@ typedef struct picture_sys_t picture_sys_t;
typedef struct picture_heap_t picture_heap_t;
typedef struct subpicture_t subpicture_t;
typedef struct subpicture_sys_t subpicture_sys_t;
typedef struct vout_synchro_t vout_synchro_t;
/* Stream output */
typedef struct sout_instance_t sout_instance_t;
......
/*****************************************************************************
* vout_synchro.h: frame-dropping structures
*****************************************************************************
* Copyright (C) 1999-2003 VideoLAN
* $Id: vout_synchro.h,v 1.1 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Christophe Massiot <massiot@via.ecp.fr>
* Jean-Marc Dressler <polux@via.ecp.fr>
* Stphane Borel <stef@via.ecp.fr>
*
* 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.
*****************************************************************************/
/*****************************************************************************
* vout_synchro_t : timers for the video synchro
*****************************************************************************/
#define MAX_PIC_AVERAGE 8
/* Read the discussion on top of vout_synchro.c for more information. */
struct vout_synchro_t
{
VLC_COMMON_MEMBERS
vout_thread_t * p_vout;
int i_frame_rate;
int i_current_rate;
/* date of the beginning of the decoding of the current picture */
mtime_t decoding_start;
/* stream properties */
unsigned int i_n_p, i_n_b;
/* decoding values */
mtime_t p_tau[4]; /* average decoding durations */
unsigned int pi_meaningful[4]; /* number of durations read */
/* and p_vout->render_time (read with p_vout->change_lock) */
/* stream context */
vlc_bool_t i_nb_ref; /* Number of reference pictures */
unsigned int i_eta_p, i_eta_b;
mtime_t backward_pts, current_pts;
int i_current_period; /* period to add to the next picture */
int i_backward_period; /* period to add after the next
* reference picture
* (backward_period * period / 2) */
/* statistics */
unsigned int i_trashed_pic, i_not_chosen_pic, i_pic;
};
/* Pictures types */
#define I_CODING_TYPE 1
#define P_CODING_TYPE 2
#define B_CODING_TYPE 3
#define D_CODING_TYPE 4 /* MPEG-1 ONLY */
/* other values are reserved */
/* Structures */
#define TOP_FIELD 1
#define BOTTOM_FIELD 2
#define FRAME_STRUCTURE 3
/*****************************************************************************
* Prototypes
*****************************************************************************/
#define vout_SynchroInit(a,b,c) __vout_SynchroInit(VLC_OBJECT(a),b,c)
VLC_EXPORT( vout_synchro_t *, __vout_SynchroInit, ( vlc_object_t *, vout_thread_t *, int ) );
VLC_EXPORT( void, vout_SynchroRelease, ( vout_synchro_t * ) );
VLC_EXPORT( void, vout_SynchroReset, ( vout_synchro_t * ) );
VLC_EXPORT( vlc_bool_t, vout_SynchroChoose, ( vout_synchro_t *, int ) );
VLC_EXPORT( void, vout_SynchroTrash, ( vout_synchro_t * ) );
VLC_EXPORT( void, vout_SynchroDecode, ( vout_synchro_t * ) );
VLC_EXPORT( void, vout_SynchroEnd, ( vout_synchro_t *, int, vlc_bool_t ) );
VLC_EXPORT( mtime_t, vout_SynchroDate, ( vout_synchro_t * ) );
VLC_EXPORT( void, vout_SynchroNewPicture, ( vout_synchro_t *, int, int, mtime_t, mtime_t, int ) );
......@@ -2,7 +2,7 @@
* libmpeg2.c: mpeg2 video decoder module making use of libmpeg2.
*****************************************************************************
* Copyright (C) 1999-2001 VideoLAN
* $Id: libmpeg2.c,v 1.8 2003/04/07 17:35:01 gbazin Exp $
* $Id: libmpeg2.c,v 1.9 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Gildas Bazin <gbazin@netcourrier.com>
*
......@@ -34,6 +34,8 @@
#include <mpeg2dec/mpeg2.h>
#include "vout_synchro.h"
/* Aspect ratio (ISO/IEC 13818-2 section 6.3.3, table 6-3) */
#define AR_SQUARE_PICTURE 1 /* square pixels */
#define AR_3_4_PICTURE 2 /* 3:4 picture (TV) */
......@@ -60,11 +62,14 @@ typedef struct dec_thread_t
mtime_t i_previous_pts;
mtime_t i_current_pts;
mtime_t i_period_remainder;
int i_current_rate;
picture_t * p_picture_to_destroy;
/*
* Output properties
*/
vout_thread_t *p_vout;
vout_synchro_t *p_synchro;
} dec_thread_t;
......@@ -102,6 +107,7 @@ static int OpenDecoder( vlc_object_t *p_this )
p_fifo->pf_run = RunDecoder;
return VLC_SUCCESS;
}
/*****************************************************************************
* RunDecoder: the libmpeg2 decoder
*****************************************************************************/
......@@ -132,6 +138,7 @@ static int RunDecoder( decoder_fifo_t *p_fifo )
p_dec->i_current_pts = 0;
p_dec->i_previous_pts = 0;
p_dec->i_period_remainder = 0;
p_dec->p_picture_to_destroy = NULL;
/* Initialize decoder */
p_dec->p_mpeg2dec = mpeg2_init();
......@@ -163,6 +170,14 @@ static int RunDecoder( decoder_fifo_t *p_fifo )
break;
}
if( p_dec->p_pes->b_discontinuity )
{
vout_SynchroReset( p_dec->p_synchro );
if ( p_dec->p_info->current_fbuf != NULL )
p_dec->p_picture_to_destroy
= p_dec->p_info->current_fbuf->id;
}
if( p_dec->p_pes->i_pts )
{
mpeg2_pts( p_dec->p_mpeg2dec,
......@@ -170,6 +185,8 @@ static int RunDecoder( decoder_fifo_t *p_fifo )
p_dec->i_previous_pts = p_dec->i_current_pts;
p_dec->i_current_pts = p_dec->p_pes->i_pts;
}
p_dec->i_current_rate = p_dec->p_pes->i_rate;
p_data = p_dec->p_pes->p_first;
}
......@@ -187,6 +204,7 @@ static int RunDecoder( decoder_fifo_t *p_fifo )
{
/* Initialize video output */
uint8_t *buf[3];
buf[0] = buf[1] = buf[2] = NULL;
/* Check whether the input gives a particular aspect ratio */
if( p_dec->p_fifo->p_demux_data
......@@ -231,76 +249,86 @@ static int RunDecoder( decoder_fifo_t *p_fifo )
mpeg2_custom_fbuf( p_dec->p_mpeg2dec, 1 );
/* Set the first 2 reference frames */
if( (p_pic = GetNewPicture( p_dec, buf )) == NULL ) break;
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, p_pic );
if( (p_pic = GetNewPicture( p_dec, buf )) == NULL ) break;
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, p_pic );
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, NULL );
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, NULL );
p_dec->p_synchro = vout_SynchroInit( p_dec->p_fifo, p_dec->p_vout,
1000000 * 27 / p_dec->p_info->sequence->frame_period * 1001 );
}
break;
case STATE_PICTURE:
{
uint8_t *buf[3];
buf[0] = buf[1] = buf[2] = NULL;
vout_SynchroNewPicture( p_dec->p_synchro,
p_dec->p_info->current_picture->flags & PIC_MASK_CODING_TYPE,
p_dec->p_info->current_picture->nb_fields,
(p_dec->p_info->current_picture->flags & PIC_FLAG_PTS) ?
( (p_dec->p_info->current_picture->pts ==
(uint32_t)p_dec->i_current_pts) ?
p_dec->i_current_pts : p_dec->i_previous_pts ) : 0,
0,
p_dec->i_current_rate );
if ( !vout_SynchroChoose( p_dec->p_synchro,
p_dec->p_info->current_picture->flags & PIC_MASK_CODING_TYPE ) )
{
mpeg2_skip( p_dec->p_mpeg2dec, 1 );
vout_SynchroTrash( p_dec->p_synchro );
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, NULL );
}
else
{
mpeg2_skip( p_dec->p_mpeg2dec, 0 );
vout_SynchroDecode( p_dec->p_synchro );
if( (p_pic = GetNewPicture( p_dec, buf )) == NULL ) break;
mpeg2_set_buf( p_dec->p_mpeg2dec, buf, p_pic );
/* Store the date for the picture */
if( p_dec->p_info->current_picture->flags & PIC_FLAG_PTS )
{
p_pic->date = ( p_dec->p_info->current_picture->pts ==
(uint32_t)p_dec->i_current_pts ) ?
p_dec->i_current_pts : p_dec->i_previous_pts;
}
}
break;
/* pass-through */
case STATE_END:
case STATE_SLICE:
if( p_dec->p_info->display_fbuf
&& p_dec->p_info->display_fbuf->id )
{
p_pic = (picture_t *)p_dec->p_info->display_fbuf->id;
/* Date the new picture */
if( p_dec->p_info->display_picture->flags & PIC_FLAG_PTS )
if ( p_pic != NULL )
{
p_dec->i_pts = p_pic->date;
p_dec->i_period_remainder = 0;
if ( p_dec->p_picture_to_destroy != p_pic )
{
vout_SynchroEnd( p_dec->p_synchro,
p_dec->p_info->display_picture->flags
& PIC_MASK_CODING_TYPE,
0 );
vout_DatePicture( p_dec->p_vout, p_pic,
vout_SynchroDate( p_dec->p_synchro ) );
vout_DisplayPicture( p_dec->p_vout, p_pic );
}
else
{
p_dec->i_pts += ( (p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder) / 27 );
p_dec->i_period_remainder =
p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder -
( p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder ) / 27 * 27;
p_dec->p_picture_to_destroy = NULL;
vout_SynchroEnd( p_dec->p_synchro,
p_dec->p_info->display_picture->flags
& PIC_MASK_CODING_TYPE,
1 );
vout_DestroyPicture( p_dec->p_vout, p_pic );
}
vout_DatePicture( p_dec->p_vout, p_pic, p_dec->i_pts );
vout_DisplayPicture( p_dec->p_vout, p_pic );
/* Handle pulldown by adding some delay to the pts of the next
* picture. */
if( p_dec->p_info->display_picture->nb_fields > 2 )
}
if( p_dec->p_info->discard_fbuf &&
p_dec->p_info->discard_fbuf->id )
{
int i_repeat_fields =
p_dec->p_info->display_picture->nb_fields - 2;
p_dec->i_pts += ( (p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder)
/ 27 / 2 * i_repeat_fields );
p_dec->i_period_remainder =
p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder -
( p_dec->p_info->sequence->frame_period +
p_dec->i_period_remainder ) / 27 / 2 * 27 * 2;
vout_UnlinkPicture( p_dec->p_vout, p_pic );
}
}
break;
case STATE_INVALID:
msg_Warn( p_dec->p_fifo, "Received STATE_INVALID" );
break;
default:
break;
}
......@@ -357,6 +385,9 @@ static void CloseDecoder( dec_thread_t * p_dec )
vout_Request( p_dec->p_fifo, p_dec->p_vout, 0, 0, 0, 0 );
}
if( p_dec->p_synchro )
vout_SynchroRelease( p_dec->p_synchro );
if( p_dec->p_mpeg2dec ) mpeg2_close( p_dec->p_mpeg2dec );
free( p_dec );
......@@ -380,6 +411,7 @@ static picture_t *GetNewPicture( dec_thread_t *p_dec, uint8_t **pp_buf )
}
if( p_pic == NULL )
return NULL;
vout_LinkPicture( p_dec->p_vout, p_pic );
pp_buf[0] = p_pic->p[0].p_pixels;
pp_buf[1] = p_pic->p[1].p_pixels;
......
......@@ -2,7 +2,7 @@
* modules.c : Builtin and plugin modules management functions
*****************************************************************************
* Copyright (C) 2001 VideoLAN
* $Id: modules.c,v 1.117 2003/03/25 15:38:14 gbazin Exp $
* $Id: modules.c,v 1.118 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Samuel Hocevar <sam@zoy.org>
* Ethan C. Baldridge <BaldridgeE@cadmus.com>
......@@ -81,6 +81,7 @@
#include "video.h"
#include "video_output.h"
#include "vout_synchro.h"
#include "audio_output.h"
#include "aout_internal.h"
......
......@@ -5,7 +5,7 @@
* thread, and destroy a previously oppened video output thread.
*****************************************************************************
* Copyright (C) 2000-2001 VideoLAN
* $Id: video_output.c,v 1.217 2003/03/28 17:02:25 gbazin Exp $
* $Id: video_output.c,v 1.218 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Vincent Seguin <seguin@via.ecp.fr>
*
......@@ -638,7 +638,7 @@ static void RunThread( vout_thread_t *p_vout)
display_date = 0;
current_date = mdate();
#ifdef STATS
#if 0
p_vout->c_loops++;
if( !(p_vout->c_loops % VOUT_STATS_NB_LOOPS) )
{
......
/*****************************************************************************
* vout_synchro.c : frame dropping routines
*****************************************************************************
* Copyright (C) 1999-2001 VideoLAN
* $Id: vout_synchro.c,v 1.1 2003/04/14 22:22:32 massiot Exp $
*
* Authors: Christophe Massiot <massiot@via.ecp.fr>
* Samuel Hocevar <sam@via.ecp.fr>
* Jean-Marc Dressler <polux@via.ecp.fr>
*
* 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.
*****************************************************************************/
/*
* DISCUSSION : How to Write an efficient Frame-Dropping Algorithm
* ==========
*
* This implementation is based on mathematical and statistical
* developments. Older implementations used an enslavement, considering
* that if we're late when reading an I picture, we will decode one frame
* less. It had a tendancy to derive, and wasn't responsive enough, which
* would have caused trouble with the stream control stuff.
*
* 1. Structure of a picture stream
* =============================
* Between 2 I's, we have for instance :
* I B P B P B P B P B P B I
* t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12
* Please bear in mind that B's and IP's will be inverted when displaying
* (decoding order != presentation order). Thus, t1 < t0.
*
* 2. Definitions
* ===========
* t[0..12] : Presentation timestamps of pictures 0..12.
* t : Current timestamp, at the moment of the decoding.
* T : Picture period, T = 1/frame_rate.
* tau[I,P,B] : Mean time to decode an [I,P,B] picture.
* tauYUV : Mean time to render a picture (given by the video_output).
* tau[I,P,B] = 2 * tau[I,P,B] + tauYUV
* : Mean time + typical difference (estimated to tau/2, that
* needs to be confirmed) + render time.
* DELTA : A given error margin.
*
* 3. General considerations
* ======================
* We define three types of machines :
* 14T > tauI : machines capable of decoding all I pictures
* 2T > tauP : machines capable of decoding all P pictures
* T > tauB : machines capable of decoding all B pictures
*
* 4. Decoding of an I picture
* ========================
* On fast machines, we decode all I's.
* Otherwise :
* We can decode an I picture if we simply have enough time to decode it
* before displaying :
* t0 - t > tauI + DELTA
*
* 5. Decoding of a P picture
* =======================
* On fast machines, we decode all P's.
* Otherwise :
* First criterion : have time to decode it.
* t2 - t > tauP + DELTA
*
* Second criterion : it shouldn't prevent us from displaying the forthcoming
* I picture, which is more important.
* t12 - t > tauP + tauI + DELTA
*
* 6. Decoding of a B picture
* =======================
* On fast machines, we decode all B's. Otherwise :
* t1 - t > tauB + DELTA
* Since the next displayed I or P is already decoded, we don't have to
* worry about it.
*
* I hope you will have a pleasant flight and do not forget your life
* jacket.
* --Meuuh (2000-12-29)
*/
/*****************************************************************************
* Preamble
*****************************************************************************/
#include <stdlib.h> /* free() */
#include <string.h> /* memcpy(), memset() */
#include <vlc/vlc.h>
#include <vlc/vout.h>
#include "vout_synchro.h"
#include "stream_control.h"
/*
* Local prototypes
*/
/* Error margins */
#define DELTA (int)(0.075*CLOCK_FREQ)
#define DEFAULT_NB_P 5
#define DEFAULT_NB_B 1
/*****************************************************************************
* vout_SynchroInit : You know what ?
*****************************************************************************/
vout_synchro_t * __vout_SynchroInit( vlc_object_t * p_object,
vout_thread_t * p_vout, int i_frame_rate )
{
vout_synchro_t * p_synchro = vlc_object_create( p_object,
sizeof(vout_synchro_t) );
if ( p_synchro == NULL )
{
msg_Err( p_object, "out of memory" );
return NULL;
}
vlc_object_attach( p_synchro, p_vout );
/* We use a fake stream pattern, which is often right. */
p_synchro->i_n_p = p_synchro->i_eta_p = DEFAULT_NB_P;
p_synchro->i_n_b = p_synchro->i_eta_b = DEFAULT_NB_B;
memset( p_synchro->p_tau, 0, 4 * sizeof(mtime_t) );
memset( p_synchro->pi_meaningful, 0, 4 * sizeof(unsigned int) );
p_synchro->i_nb_ref = 0;
p_synchro->current_pts = mdate() + DEFAULT_PTS_DELAY;
p_synchro->backward_pts = 0;
p_synchro->i_current_period = p_synchro->i_backward_period = 0;
p_synchro->i_trashed_pic = p_synchro->i_not_chosen_pic =
p_synchro->i_pic = 0;
p_synchro->i_frame_rate = i_frame_rate;
p_synchro->p_vout = p_vout;
return p_synchro;
}
/*****************************************************************************
* vout_SynchroRelease : You know what ?
*****************************************************************************/
void vout_SynchroRelease( vout_synchro_t * p_synchro )
{
vlc_object_detach( p_synchro );
vlc_object_destroy( p_synchro );
}
/*****************************************************************************
* vout_SynchroReset : Reset the reference picture counter
*****************************************************************************/
void vout_SynchroReset( vout_synchro_t * p_synchro )
{
p_synchro->i_nb_ref = 0;
}
/*****************************************************************************
* vout_SynchroChoose : Decide whether we will decode a picture or not
*****************************************************************************/
vlc_bool_t vout_SynchroChoose( vout_synchro_t * p_synchro, int i_coding_type )
{
#define TAU_PRIME( coding_type ) (p_synchro->p_tau[(coding_type)] \
+ (p_synchro->p_tau[(coding_type)] >> 1) \
+ tau_yuv)
#define S (*p_synchro)
/* VPAR_SYNCHRO_DEFAULT */
mtime_t now, period, tau_yuv;
mtime_t pts = 0;
vlc_bool_t b_decode = 0;
now = mdate();
period = 1000000 * 1001 / p_synchro->i_frame_rate
* p_synchro->i_current_rate / DEFAULT_RATE;
vlc_mutex_lock( &p_synchro->p_vout->change_lock );
tau_yuv = p_synchro->p_vout->render_time;
vlc_mutex_unlock( &p_synchro->p_vout->change_lock );
switch( i_coding_type )
{
case I_CODING_TYPE:
if( S.backward_pts )
{
pts = S.backward_pts;
}
else
{
/* displaying order : B B P B B I
* ^ ^
* | +- current picture
* +- current PTS
*/
pts = S.current_pts + period * (S.i_n_b + 2);
}
if( (1 + S.i_n_p * (S.i_n_b + 1)) * period >
S.p_tau[I_CODING_TYPE] )
{
b_decode = 1;
}
else
{
b_decode = (pts - now) > (TAU_PRIME(I_CODING_TYPE) + DELTA);
}
if( !b_decode )
{
msg_Warn( p_synchro,
"synchro trashing I ("I64Fd")", pts - now );
p_synchro->i_nb_ref = 0;
}
else if( p_synchro->i_nb_ref < 2 )
p_synchro->i_nb_ref++;
break;
case P_CODING_TYPE:
if( S.backward_pts )
{
pts = S.backward_pts;
}
else
{
pts = S.current_pts + period * (S.i_n_b + 1);
}
if( p_synchro->i_nb_ref < 1 )
{
b_decode = 0;
}
else if( (1 + S.i_n_p * (S.i_n_b + 1)) * period >
S.p_tau[I_CODING_TYPE] )
{
if( (S.i_n_b + 1) * period > S.p_tau[P_CODING_TYPE] )
{
/* Security in case we're _really_ late */
b_decode = (pts - now > 0);
}
else
{
b_decode = (pts - now) > (TAU_PRIME(P_CODING_TYPE) + DELTA);
/* next I */
b_decode &= (pts - now
+ period
* ( (S.i_n_p - S.i_eta_p) * (1 + S.i_n_b) - 1 ))
> (TAU_PRIME(P_CODING_TYPE)
+ TAU_PRIME(I_CODING_TYPE) + DELTA);
}
}
else
{
b_decode = 0;
}
if( b_decode )
p_synchro->i_nb_ref = 2;
else
p_synchro->i_nb_ref = 0;
break;
case B_CODING_TYPE:
pts = S.current_pts;
if( p_synchro->i_nb_ref < 2 )
{
b_decode = 0;
}
else if( (S.i_n_b + 1) * period > S.p_tau[P_CODING_TYPE] )
{
b_decode = (pts - now) > (TAU_PRIME(B_CODING_TYPE) + DELTA);
}
else
{
b_decode = 0;
}
}
if( !b_decode )
{
S.i_not_chosen_pic++;
}
return( b_decode );
#undef S
#undef TAU_PRIME
}
/*****************************************************************************
* vout_SynchroTrash : Update counters when we trash a picture
*****************************************************************************/
void vout_SynchroTrash( vout_synchro_t * p_synchro )
{
p_synchro->i_trashed_pic++;
}
/*****************************************************************************
* vout_SynchroDecode : Update timers when we decide to decode a picture
*****************************************************************************/
void vout_SynchroDecode( vout_synchro_t * p_synchro )
{
p_synchro->decoding_start = mdate();
}
/*****************************************************************************
* vout_SynchroEnd : Called when the image is totally decoded
*****************************************************************************/
void vout_SynchroEnd( vout_synchro_t * p_synchro, int i_coding_type,
vlc_bool_t b_garbage )
{
mtime_t tau;
if( !b_garbage )
{
tau = mdate() - p_synchro->decoding_start;
/* If duration too high, something happened (pause ?), so don't
* take it into account. */
if( tau < 3 * p_synchro->p_tau[i_coding_type]
|| !p_synchro->pi_meaningful[i_coding_type] )
{
/* Mean with average tau, to ensure stability. */
p_synchro->p_tau[i_coding_type] =
(p_synchro->pi_meaningful[i_coding_type]
* p_synchro->p_tau[i_coding_type] + tau)
/ (p_synchro->pi_meaningful[i_coding_type] + 1);
if( p_synchro->pi_meaningful[i_coding_type] < MAX_PIC_AVERAGE )
{
p_synchro->pi_meaningful[i_coding_type]++;
}
}
}
}
/*****************************************************************************
* vout_SynchroDate : When an image has been decoded, ask for its date
*****************************************************************************/
mtime_t vout_SynchroDate( vout_synchro_t * p_synchro )
{
/* No need to lock, since PTS are only used by the video parser. */
return p_synchro->current_pts;
}
/*****************************************************************************
* vout_SynchroNewPicture: Update stream structure and PTS
*****************************************************************************/
void vout_SynchroNewPicture( vout_synchro_t * p_synchro, int i_coding_type,
int i_repeat_field, mtime_t next_pts,
mtime_t next_dts, int i_current_rate )
{
mtime_t period = 1000000 * 1001 / p_synchro->i_frame_rate
* i_current_rate / DEFAULT_RATE;
#if 0
mtime_t now = mdate();
#endif
p_synchro->i_current_rate = i_current_rate;
switch( i_coding_type )
{
case I_CODING_TYPE:
if( p_synchro->i_eta_p
&& p_synchro->i_eta_p != p_synchro->i_n_p )
{
#if 0
msg_Dbg( p_synchro,
"stream periodicity changed from P[%d] to P[%d]",
p_synchro->i_n_p, p_synchro->i_eta_p );
#endif
p_synchro->i_n_p = p_synchro->i_eta_p;
}
p_synchro->i_eta_p = p_synchro->i_eta_b = 0;
#if 0
msg_Dbg( p_synchro, "I("I64Fd") P("I64Fd")[%d] B("I64Fd")"
"[%d] YUV("I64Fd") : trashed %d:%d/%d",
p_synchro->p_tau[I_CODING_TYPE],
p_synchro->p_tau[P_CODING_TYPE],
p_synchro->i_n_p,
p_synchro->p_tau[B_CODING_TYPE],
p_synchro->i_n_b,
p_synchro->p_vout->render_time,
p_synchro->i_not_chosen_pic,
p_synchro->i_trashed_pic -
p_synchro->i_not_chosen_pic,
p_synchro->i_pic );
p_synchro->i_trashed_pic = p_synchro->i_not_chosen_pic
= p_synchro->i_pic = 0;
#else
if ( p_synchro->i_pic >= 100 )
{
msg_Dbg( p_synchro, "decoded %d/%d pictures",
p_synchro->i_pic
- p_synchro->i_trashed_pic,
p_synchro->i_pic );
p_synchro->i_trashed_pic = p_synchro->i_not_chosen_pic
= p_synchro->i_pic = 0;
}
#endif
break;
case P_CODING_TYPE:
p_synchro->i_eta_p++;
if( p_synchro->i_eta_b
&& p_synchro->i_eta_b != p_synchro->i_n_b )
{
msg_Warn( p_synchro,
"stream periodicity changed from B[%d] to B[%d]",
p_synchro->i_n_b, p_synchro->i_eta_b );
p_synchro->i_n_b = p_synchro->i_eta_b;
}
p_synchro->i_eta_b = 0;
break;
case B_CODING_TYPE:
p_synchro->i_eta_b++;
break;
}
p_synchro->current_pts += p_synchro->i_current_period
* (period >> 1);
#define PTS_THRESHOLD (period >> 2)
if( i_coding_type == B_CODING_TYPE )
{
/* A video frame can be displayed 1, 2 or 3 times, according to
* repeat_first_field, top_field_first, progressive_sequence and
* progressive_frame. */
p_synchro->i_current_period = i_repeat_field;
if( next_pts )
{
if( next_pts - p_synchro->current_pts
> PTS_THRESHOLD
|| p_synchro->current_pts - next_pts
> PTS_THRESHOLD )
{
msg_Warn( p_synchro, "vout synchro warning: pts != "
"current_date ("I64Fd")",
p_synchro->current_pts
- next_pts );
}
p_synchro->current_pts = next_pts;
}
}
else
{
p_synchro->i_current_period = p_synchro->i_backward_period;
p_synchro->i_backward_period = i_repeat_field;
if( p_synchro->backward_pts )
{
if( next_dts &&
(next_dts - p_synchro->backward_pts
> PTS_THRESHOLD
|| p_synchro->backward_pts - next_dts
> PTS_THRESHOLD) )
{
msg_Warn( p_synchro, "backward_pts != dts ("I64Fd")",
next_dts
- p_synchro->backward_pts );
}
if( p_synchro->backward_pts - p_synchro->current_pts
> PTS_THRESHOLD
|| p_synchro->current_pts - p_synchro->backward_pts
> PTS_THRESHOLD )
{
msg_Warn( p_synchro,
"backward_pts != current_pts ("I64Fd")",
p_synchro->current_pts
- p_synchro->backward_pts );
}
p_synchro->current_pts = p_synchro->backward_pts;
p_synchro->backward_pts = 0;
}
else if( next_dts )
{
if( next_dts - p_synchro->current_pts
> PTS_THRESHOLD
|| p_synchro->current_pts - next_dts
> PTS_THRESHOLD )
{
msg_Warn( p_synchro, "dts != current_pts ("I64Fd")",
p_synchro->current_pts
- next_dts );
}
/* By definition of a DTS. */
p_synchro->current_pts = next_dts;
next_dts = 0;
}
if( next_pts )
{
/* Store the PTS for the next time we have to date an I picture. */
p_synchro->backward_pts = next_pts;
next_pts = 0;
}
}
#undef PTS_THRESHOLD
#if 0
/* Removed for incompatibility with slow motion */
if( p_synchro->current_pts + DEFAULT_PTS_DELAY < now )
{
/* We cannot be _that_ late, something must have happened, reinit
* the dates. */
msg_Warn( p_synchro, "PTS << now ("I64Fd"), resetting",
now - p_synchro->current_pts - DEFAULT_PTS_DELAY );
p_synchro->current_pts = now + DEFAULT_PTS_DELAY;
}
if( p_synchro->backward_pts
&& p_synchro->backward_pts + DEFAULT_PTS_DELAY < now )
{
/* The same. */
p_synchro->backward_pts = 0;
}
#endif
p_synchro->i_pic++;
}
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