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/* $Id: reader.c,v 1.21 2005/11/25 15:05:25 titer Exp $
This file is part of the HandBrake source code.
Homepage: <http://handbrake.fr/>.
It may be used under the terms of the GNU General Public License. */
#include "hb.h"
typedef struct
{
int64_t last; // last timestamp seen on this stream
double average; // average time between packets
int id; // stream id
} stream_timing_t;
typedef struct
{
hb_job_t * job;
hb_title_t * title;
volatile int * die;
hb_dvd_t * dvd;
hb_stream_t * stream;
stream_timing_t *stream_timing;
int64_t scr_offset;
hb_psdemux_t demux;
int scr_changes;
uint sequence;
int saw_video;
int st_slots; // size (in slots) of stream_timing array
} hb_reader_t;
/***********************************************************************
* Local prototypes
**********************************************************************/
static void ReaderFunc( void * );
static hb_fifo_t ** GetFifoForId( hb_job_t * job, int id );
/***********************************************************************
* hb_reader_init
***********************************************************************
*
**********************************************************************/
hb_thread_t * hb_reader_init( hb_job_t * job )
{
hb_reader_t * r;
r = calloc( sizeof( hb_reader_t ), 1 );
r->job = job;
r->title = job->title;
r->die = job->die;
r->sequence = 0;
r->st_slots = 4;
r->stream_timing = calloc( sizeof(stream_timing_t), r->st_slots );
r->stream_timing[0].id = r->title->video_id;
r->stream_timing[0].average = 90000. * (double)job->vrate_base /
(double)job->vrate;
r->stream_timing[1].id = -1;
return hb_thread_init( "reader", ReaderFunc, r,
HB_NORMAL_PRIORITY );
}
static void push_buf( const hb_reader_t *r, hb_fifo_t *fifo, hb_buffer_t *buf )
{
while( !*r->die && !r->job->done && hb_fifo_is_full( fifo ) )
{
/*
* Loop until the incoming fifo is ready to receive
* this buffer.
*/
hb_snooze( 50 );
}
hb_fifo_push( fifo, buf );
}
// The MPEG STD (Standard Timing Decoder) essentially requires that we keep
// per-stream timing so that when there's a timing discontinuity we can
// seemlessly join packets on either side of the discontinuity. This join
// requires that we know the timestamp of the previous packet and the
// average inter-packet time (since we position the new packet at the end
// of the previous packet). The next three routines keep track of this
// per-stream timing.
// find the per-stream timing state associated with 'buf'
static stream_timing_t *id_to_st( hb_reader_t *r, const hb_buffer_t *buf )
{
stream_timing_t *st = r->stream_timing;
while ( st->id != buf->id && st->id != -1)
{
++st;
}
// if we haven't seen this stream add it.
if ( st->id == -1 )
{
// we keep the steam timing info in an array with some power-of-two
// number of slots. If we don't have two slots left (one for our new
// entry plus one for the "-1" eol) we need to expand the array.
int slot = st - r->stream_timing;
if ( slot + 1 >= r->st_slots )
{
r->st_slots *= 2;
r->stream_timing = realloc( r->stream_timing, r->st_slots *
sizeof(*r->stream_timing) );
st = r->stream_timing + slot;
}
st->id = buf->id;
st->last = buf->renderOffset;
st->average = 30.*90.;
st[1].id = -1;
}
return st;
}
// update the average inter-packet time of the stream associated with 'buf'
// using a recursive low-pass filter with a 16 packet time constant.
static void update_ipt( hb_reader_t *r, const hb_buffer_t *buf )
{
stream_timing_t *st = id_to_st( r, buf );
double dt = buf->renderOffset - st->last;
st->average += ( dt - st->average ) * (1./16.);
st->last = buf->renderOffset;
}
// use the per-stream state associated with 'buf' to compute a new scr_offset
// such that 'buf' will follow the previous packet of this stream separated
// by the average packet time of the stream.
static void new_scr_offset( hb_reader_t *r, const hb_buffer_t *buf )
{
stream_timing_t *st = id_to_st( r, buf );
int64_t nxt = st->last + st->average - r->scr_offset;
r->scr_offset = buf->renderOffset - nxt;
r->scr_changes = r->demux.scr_changes;
st->last = buf->renderOffset;
}
/***********************************************************************
* ReaderFunc
***********************************************************************
*
**********************************************************************/
static void ReaderFunc( void * _r )
{
hb_reader_t * r = _r;
hb_fifo_t ** fifos;
hb_buffer_t * buf;
hb_list_t * list;
int n;
int chapter = -1;
int chapter_end = r->job->chapter_end;
if( !( r->dvd = hb_dvd_init( r->title->dvd ) ) )
{
if ( !( r->stream = hb_stream_open( r->title->dvd, r->title ) ) )
{
return;
}
}
if (r->dvd)
{
/*
* XXX this code is a temporary hack that should go away if/when
* chapter merging goes away in libhb/dvd.c
* map the start and end chapter numbers to on-media chapter
* numbers since chapter merging could cause the handbrake numbers
* to diverge from the media numbers and, if our chapter_end is after
* a media chapter that got merged, we'll stop ripping too early.
*/
int start = r->job->chapter_start;
hb_chapter_t * chap = hb_list_item( r->title->list_chapter, chapter_end - 1 );
chapter_end = chap->index;
if (start > 1)
{
chap = hb_list_item( r->title->list_chapter, start - 1 );
start = chap->index;
}
/* end chapter mapping XXX */
if( !hb_dvd_start( r->dvd, r->title->index, start ) )
{
hb_dvd_close( &r->dvd );
return;
}
}
list = hb_list_init();
hb_buffer_t *ps = hb_buffer_init( HB_DVD_READ_BUFFER_SIZE );
while( !*r->die && !r->job->done )
{
if (r->dvd)
chapter = hb_dvd_chapter( r->dvd );
else if (r->stream)
chapter = 1;
if( chapter < 0 )
{
hb_log( "reader: end of the title reached" );
break;
}
if( chapter > chapter_end )
{
hb_log( "reader: end of chapter %d (media %d) reached at media chapter %d",
r->job->chapter_end, chapter_end, chapter );
break;
}
if (r->dvd)
{
if( !hb_dvd_read( r->dvd, ps ) )
{
break;
}
}
else if (r->stream)
{
if ( !hb_stream_read( r->stream, ps ) )
{
break;
}
}
if( r->job->indepth_scan )
{
/*
* Need to update the progress during a subtitle scan
*/
hb_state_t state;
#define p state.param.working
state.state = HB_STATE_WORKING;
p.progress = (double)chapter / (double)r->job->chapter_end;
if( p.progress > 1.0 )
{
p.progress = 1.0;
}
p.rate_avg = 0.0;
p.hours = -1;
p.minutes = -1;
p.seconds = -1;
hb_set_state( r->job->h, &state );
}
if ( r->title->demuxer == HB_NULL_DEMUXER )
{
hb_demux_null( ps, list, &r->demux );
}
else
{
hb_demux_ps( ps, list, &r->demux );
}
while( ( buf = hb_list_item( list, 0 ) ) )
{
hb_list_rem( list, buf );
fifos = GetFifoForId( r->job, buf->id );
if ( ! r->saw_video )
{
/* The first video packet defines 'time zero' so discard
data until we get a video packet with a PTS */
if ( buf->id == r->title->video_id && buf->start != -1 )
{
r->saw_video = 1;
r->scr_changes = r->demux.scr_changes;
new_scr_offset( r, buf );
hb_log( "reader: first SCR %llu scr_offset %llu",
r->demux.last_scr, r->scr_offset );
}
else
{
fifos = NULL;
}
}
if( fifos )
{
if ( buf->start != -1 )
{
if ( r->scr_changes == r->demux.scr_changes )
{
// This packet is referenced to the same SCR as the last.
// Update the average inter-packet time for this stream.
update_ipt( r, buf );
}
else
{
// This is the first audio or video packet after an SCR
// change. Compute a new scr offset that would make this
// packet follow the last of this stream with the correct
// average spacing.
new_scr_offset( r, buf );
}
// adjust timestamps to remove System Clock Reference offsets.
buf->start -= r->scr_offset;
buf->renderOffset -= r->scr_offset;
}
buf->sequence = r->sequence++;
/* if there are mutiple output fifos, send a copy of the
* buffer down all but the first (we have to not ship the
* original buffer or we'll race with the thread that's
* consuming the buffer & inject garbage into the data stream). */
for( n = 1; fifos[n] != NULL; n++)
{
hb_buffer_t *buf_copy = hb_buffer_init( buf->size );
hb_buffer_copy_settings( buf_copy, buf );
memcpy( buf_copy->data, buf->data, buf->size );
push_buf( r, fifos[n], buf_copy );
}
push_buf( r, fifos[0], buf );
}
else
{
hb_buffer_close( &buf );
}
}
}
/* send empty buffers upstream to video & audio decoders to signal we're done */
push_buf( r, r->job->fifo_mpeg2, hb_buffer_init(0) );
hb_audio_t *audio;
for( n = 0;
( audio = hb_list_item( r->job->title->list_audio, n ) ) != NULL;
++n )
{
push_buf( r, audio->priv.fifo_in, hb_buffer_init(0) );
}
hb_list_empty( &list );
hb_buffer_close( &ps );
if (r->dvd)
{
hb_dvd_stop( r->dvd );
hb_dvd_close( &r->dvd );
}
else if (r->stream)
{
hb_stream_close(&r->stream);
}
if ( r->stream_timing )
{
free( r->stream_timing );
}
hb_log( "reader: done. %d scr changes", r->demux.scr_changes );
free( r );
_r = NULL;
}
/***********************************************************************
* GetFifoForId
***********************************************************************
*
**********************************************************************/
static hb_fifo_t ** GetFifoForId( hb_job_t * job, int id )
{
hb_title_t * title = job->title;
hb_audio_t * audio;
hb_subtitle_t * subtitle;
int i, n;
static hb_fifo_t * fifos[8];
memset(fifos, 0, sizeof(fifos));
if( id == title->video_id )
{
if( job->indepth_scan )
{
/*
* Ditch the video here during the indepth scan until
* we can improve the MPEG2 decode performance.
*/
return NULL;
}
else
{
fifos[0] = job->fifo_mpeg2;
return fifos;
}
}
if( job->indepth_scan ) {
/*
* Count the occurances of the subtitles, don't actually
* return any to encode unless we are looking fro forced
* subtitles in which case we need to look in the sub picture
* to see if it has the forced flag enabled.
*/
for (i=0; i < hb_list_count(title->list_subtitle); i++) {
subtitle = hb_list_item( title->list_subtitle, i);
if (id == subtitle->id) {
/*
* A hit, count it.
*/
subtitle->hits++;
if( job->subtitle_force )
{
fifos[0] = subtitle->fifo_in;
return fifos;
}
break;
}
}
} else {
if( ( subtitle = hb_list_item( title->list_subtitle, 0 ) ) &&
id == subtitle->id )
{
fifos[0] = subtitle->fifo_in;
return fifos;
}
}
if( !job->indepth_scan )
{
n = 0;
for( i = 0; i < hb_list_count( title->list_audio ); i++ )
{
audio = hb_list_item( title->list_audio, i );
if( id == audio->id )
{
fifos[n++] = audio->priv.fifo_in;
}
}
if( n != 0 )
{
return fifos;
}
}
return NULL;
}
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