/**
* \file mlt_multitrack.c
* \brief multitrack service class
+ * \see mlt_multitrack_s
*
- * Copyright (C) 2003-2008 Ushodaya Enterprises Limited
+ * Copyright (C) 2003-2009 Ushodaya Enterprises Limited
* \author Charles Yates <charles.yates@pandora.be>
*
* This library is free software; you can redistribute it and/or
/* Forward reference. */
-static int producer_get_frame( mlt_producer parent, mlt_frame_ptr frame, int index );
+static int producer_get_frame( mlt_producer producer, mlt_frame_ptr frame, int index );
/** Construct and initialize a new multitrack.
-*/
+ *
+ * Sets the resource property to "<multitrack>".
+ *
+ * \public \memberof mlt_multitrack_s
+ * \return a new multitrack
+ */
mlt_multitrack mlt_multitrack_init( )
{
// Allocate the multitrack object
- mlt_multitrack this = calloc( sizeof( struct mlt_multitrack_s ), 1 );
+ mlt_multitrack self = calloc( 1, sizeof( struct mlt_multitrack_s ) );
- if ( this != NULL )
+ if ( self != NULL )
{
- mlt_producer producer = &this->parent;
- if ( mlt_producer_init( producer, this ) == 0 )
+ mlt_producer producer = &self->parent;
+ if ( mlt_producer_init( producer, self ) == 0 )
{
- mlt_properties properties = MLT_MULTITRACK_PROPERTIES( this );
+ mlt_properties properties = MLT_MULTITRACK_PROPERTIES( self );
producer->get_frame = producer_get_frame;
- mlt_properties_set_data( properties, "multitrack", this, 0, NULL, NULL );
+ mlt_properties_set_data( properties, "multitrack", self, 0, NULL, NULL );
mlt_properties_set( properties, "log_id", "multitrack" );
mlt_properties_set( properties, "resource", "<multitrack>" );
mlt_properties_set_int( properties, "in", 0 );
}
else
{
- free( this );
- this = NULL;
+ free( self );
+ self = NULL;
}
}
- return this;
+ return self;
}
/** Get the producer associated to this multitrack.
-*/
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \return the producer object
+ * \see MLT_MULTITRACK_PRODUCER
+ */
-mlt_producer mlt_multitrack_producer( mlt_multitrack this )
+mlt_producer mlt_multitrack_producer( mlt_multitrack self )
{
- return this != NULL ? &this->parent : NULL;
+ return self != NULL ? &self->parent : NULL;
}
/** Get the service associated this multitrack.
-*/
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \return the service object
+ * \see MLT_MULTITRACK_SERVICE
+ */
-mlt_service mlt_multitrack_service( mlt_multitrack this )
+mlt_service mlt_multitrack_service( mlt_multitrack self )
{
- return MLT_MULTITRACK_SERVICE( this );
+ return MLT_MULTITRACK_SERVICE( self );
}
/** Get the properties associated this multitrack.
-*/
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \return the multitrack's property list
+ * \see MLT_MULTITRACK_PROPERTIES
+ */
-mlt_properties mlt_multitrack_properties( mlt_multitrack this )
+mlt_properties mlt_multitrack_properties( mlt_multitrack self )
{
- return MLT_MULTITRACK_PROPERTIES( this );
+ return MLT_MULTITRACK_PROPERTIES( self );
}
-/** Initialise position related information.
-*/
+/** Initialize position related information.
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ */
-void mlt_multitrack_refresh( mlt_multitrack this )
+void mlt_multitrack_refresh( mlt_multitrack self )
{
int i = 0;
// Obtain the properties of this multitrack
- mlt_properties properties = MLT_MULTITRACK_PROPERTIES( this );
+ mlt_properties properties = MLT_MULTITRACK_PROPERTIES( self );
// We need to ensure that the multitrack reports the longest track as its length
mlt_position length = 0;
// Obtain stats on all connected services
- for ( i = 0; i < this->count; i ++ )
+ for ( i = 0; i < self->count; i ++ )
{
// Get the producer from this index
- mlt_track track = this->list[ i ];
+ mlt_track track = self->list[ i ];
mlt_producer producer = track->producer;
// If it's allocated then, update our stats
if ( producer != NULL )
{
// If we have more than 1 track, we must be in continue mode
- if ( this->count > 1 )
+ if ( self->count > 1 )
mlt_properties_set( MLT_PRODUCER_PROPERTIES( producer ), "eof", "continue" );
// Determine the longest length
}
/** Listener for producers on the playlist.
-*/
+ *
+ * \private \memberof mlt_multitrack_s
+ * \param producer a producer
+ * \param self a multitrack
+ */
-static void mlt_multitrack_listener( mlt_producer producer, mlt_multitrack this )
+static void mlt_multitrack_listener( mlt_producer producer, mlt_multitrack self )
{
- mlt_multitrack_refresh( this );
+ mlt_multitrack_refresh( self );
}
/** Connect a producer to a given track.
+ *
+ * Note that any producer can be connected here, but see special case treatment
+ * of playlist in clip point determination below.
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \param producer the producer to connect to the multitrack producer
+ * \param track the 0-based index of the track on which to connect the multitrack
+ * \return true on error
+ */
- Note that any producer can be connected here, but see special case treatment
- of playlist in clip point determination below.
-*/
-
-int mlt_multitrack_connect( mlt_multitrack this, mlt_producer producer, int track )
+int mlt_multitrack_connect( mlt_multitrack self, mlt_producer producer, int track )
{
// Connect to the producer to ourselves at the specified track
- int result = mlt_service_connect_producer( MLT_MULTITRACK_SERVICE( this ), MLT_PRODUCER_SERVICE( producer ), track );
+ int result = mlt_service_connect_producer( MLT_MULTITRACK_SERVICE( self ), MLT_PRODUCER_SERVICE( producer ), track );
if ( result == 0 )
{
// Resize the producer list if need be
- if ( track >= this->size )
+ if ( track >= self->size )
{
int i;
- this->list = realloc( this->list, ( track + 10 ) * sizeof( mlt_track ) );
- for ( i = this->size; i < track + 10; i ++ )
- this->list[ i ] = NULL;
- this->size = track + 10;
+ self->list = realloc( self->list, ( track + 10 ) * sizeof( mlt_track ) );
+ for ( i = self->size; i < track + 10; i ++ )
+ self->list[ i ] = NULL;
+ self->size = track + 10;
}
- if ( this->list[ track ] != NULL )
+ if ( self->list[ track ] != NULL )
{
- mlt_event_close( this->list[ track ]->event );
- mlt_producer_close( this->list[ track ]->producer );
+ mlt_event_close( self->list[ track ]->event );
+ mlt_producer_close( self->list[ track ]->producer );
}
else
{
- this->list[ track ] = malloc( sizeof( struct mlt_track_s ) );
+ self->list[ track ] = malloc( sizeof( struct mlt_track_s ) );
}
// Assign the track in our list here
- this->list[ track ]->producer = producer;
- this->list[ track ]->event = mlt_events_listen( MLT_PRODUCER_PROPERTIES( producer ), this,
+ self->list[ track ]->producer = producer;
+ self->list[ track ]->event = mlt_events_listen( MLT_PRODUCER_PROPERTIES( producer ), self,
"producer-changed", ( mlt_listener )mlt_multitrack_listener );
mlt_properties_inc_ref( MLT_PRODUCER_PROPERTIES( producer ) );
- mlt_event_inc_ref( this->list[ track ]->event );
+ mlt_event_inc_ref( self->list[ track ]->event );
// Increment the track count if need be
- if ( track >= this->count )
- this->count = track + 1;
+ if ( track >= self->count )
+ {
+ self->count = track + 1;
+
+ // TODO: Move this into producer_avformat.c when mlt_events broadcasting is available.
+ if ( self->count > mlt_service_cache_get_size( MLT_MULTITRACK_SERVICE( self ), "producer_avformat" ) )
+ mlt_service_cache_set_size( MLT_MULTITRACK_SERVICE( self ), "producer_avformat", self->count + 1 );
+ }
// Refresh our stats
- mlt_multitrack_refresh( this );
+ mlt_multitrack_refresh( self );
}
return result;
}
/** Get the number of tracks.
-*/
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \return the number of tracks
+ */
-int mlt_multitrack_count( mlt_multitrack this )
+int mlt_multitrack_count( mlt_multitrack self )
{
- return this->count;
+ return self->count;
}
/** Get an individual track as a producer.
-*/
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \param track the 0-based index of the producer to get
+ * \return the producer or NULL if not valid
+ */
-mlt_producer mlt_multitrack_track( mlt_multitrack this, int track )
+mlt_producer mlt_multitrack_track( mlt_multitrack self, int track )
{
mlt_producer producer = NULL;
- if ( this->list != NULL && track < this->count )
- producer = this->list[ track ]->producer;
+ if ( self->list != NULL && track < self->count )
+ producer = self->list[ track ]->producer;
return producer;
}
+/** Position comparison function for sorting.
+ *
+ * \private \memberof mlt_multitrack_s
+ * \param p1 a position
+ * \param p2 another position
+ * \return <0 if \p p1 is less than \p p2, 0 if equal, >0 if greater
+ */
+
static int position_compare( const void *p1, const void *p2 )
{
- return *( mlt_position * )p1 - *( mlt_position * )p2;
+ return *( const mlt_position * )p1 - *( const mlt_position * )p2;
}
+/** Add a position to a set.
+ *
+ * \private \memberof mlt_multitrack_s
+ * \param array an array of positions (the set)
+ * \param size the current number of positions in the array (not the capacity of the array)
+ * \param position the position to add
+ * \return the new size of the array
+ */
+
static int add_unique( mlt_position *array, int size, mlt_position position )
{
int i = 0;
}
/** Determine the clip point.
+ *
+ * <pre>
+ * Special case here: a 'producer' has no concept of multiple clips - only the
+ * playlist and multitrack producers have clip functionality. Further to that a
+ * multitrack determines clip information from any connected tracks that happen
+ * to be playlists.
+ *
+ * Additionally, it must locate clips in the correct order, for example, consider
+ * the following track arrangement:
+ *
+ * playlist1 |0.0 |b0.0 |0.1 |0.1 |0.2 |
+ * playlist2 |b1.0 |1.0 |b1.1 |1.1 |
+ *
+ * Note - b clips represent blanks. They are also reported as clip positions.
+ *
+ * When extracting clip positions from these playlists, we should get a sequence of:
+ *
+ * 0.0, 1.0, b0.0, 0.1, b1.1, 1.1, 0.1, 0.2, [out of playlist2], [out of playlist1]
+ * </pre>
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ * \param whence from where to extract
+ * \param index the 0-based index of which clip to extract
+ * \return the position of clip \p index relative to \p whence
+ */
- Special case here: a 'producer' has no concept of multiple clips - only the
- playlist and multitrack producers have clip functionality. Further to that a
- multitrack determines clip information from any connected tracks that happen
- to be playlists.
-
- Additionally, it must locate clips in the correct order, for example, consider
- the following track arrangement:
-
- playlist1 |0.0 |b0.0 |0.1 |0.1 |0.2 |
- playlist2 |b1.0 |1.0 |b1.1 |1.1 |
-
- Note - b clips represent blanks. They are also reported as clip positions.
-
- When extracting clip positions from these playlists, we should get a sequence of:
-
- 0.0, 1.0, b0.0, 0.1, b1.1, 1.1, 0.1, 0.2, [out of playlist2], [out of playlist1]
-*/
-
-mlt_position mlt_multitrack_clip( mlt_multitrack this, mlt_whence whence, int index )
+mlt_position mlt_multitrack_clip( mlt_multitrack self, mlt_whence whence, int index )
{
mlt_position position = 0;
int i = 0;
int j = 0;
- mlt_position *map = malloc( 1000 * sizeof( mlt_position ) );
+ mlt_position *map = calloc( 1000, sizeof( mlt_position ) );
int count = 0;
- for ( i = 0; i < this->count; i ++ )
+ for ( i = 0; i < self->count; i ++ )
{
// Get the producer for this track
- mlt_producer producer = this->list[ i ]->producer;
+ mlt_producer producer = self->list[ i ]->producer;
// If it's assigned and not a hidden track
if ( producer != NULL )
break;
case mlt_whence_relative_current:
- position = mlt_producer_position( MLT_MULTITRACK_PRODUCER( this ) );
+ position = mlt_producer_position( MLT_MULTITRACK_PRODUCER( self ) );
for ( i = 0; i < count - 2; i ++ )
if ( position >= map[ i ] && position < map[ i + 1 ] )
break;
}
/** Get frame method.
-
- Special case here: The multitrack must be used in a conjunction with a downstream
- tractor-type service, ie:
-
- Producer1 \
- Producer2 - multitrack - { filters/transitions } - tractor - consumer
- Producer3 /
-
- The get_frame of a tractor pulls frames from it's connected service on all tracks and
- will terminate as soon as it receives a test card with a last_track property. The
- important case here is that the mulitrack does not move to the next frame until all
- tracks have been pulled.
-
- Reasoning: In order to seek on a network such as above, the multitrack needs to ensure
- that all producers are positioned on the same frame. It uses the 'last track' logic
- to determine when to move to the next frame.
-
- Flaw: if a transition is configured to read from a b-track which happens to trigger
- the last frame logic (ie: it's configured incorrectly), then things are going to go
- out of sync.
-
- See playlist logic too.
-*/
+ *
+ * <pre>
+ * Special case here: The multitrack must be used in a conjunction with a downstream
+ * tractor-type service, ie:
+ *
+ * Producer1 \
+ * Producer2 - multitrack - { filters/transitions } - tractor - consumer
+ * Producer3 /
+ *
+ * The get_frame of a tractor pulls frames from it's connected service on all tracks and
+ * will terminate as soon as it receives a test card with a last_track property. The
+ * important case here is that the mulitrack does not move to the next frame until all
+ * tracks have been pulled.
+ *
+ * Reasoning: In order to seek on a network such as above, the multitrack needs to ensure
+ * that all producers are positioned on the same frame. It uses the 'last track' logic
+ * to determine when to move to the next frame.
+ *
+ * Flaw: if a transition is configured to read from a b-track which happens to trigger
+ * the last frame logic (ie: it's configured incorrectly), then things are going to go
+ * out of sync.
+ *
+ * See playlist logic too.
+ * </pre>
+ *
+ * \private \memberof mlt_multitrack_s
+ * \param parent the producer interface to a mulitrack
+ * \param[out] frame a frame by reference
+ * \param index the 0-based track index
+ * \return true if there was an error
+ */
static int producer_get_frame( mlt_producer parent, mlt_frame_ptr frame, int index )
{
// Get the mutiltrack object
- mlt_multitrack this = parent->child;
+ mlt_multitrack self = parent->child;
// Check if we have a track for this index
- if ( index < this->count && this->list[ index ] != NULL )
+ if ( index < self->count && self->list[ index ] != NULL )
{
// Get the producer for this track
- mlt_producer producer = this->list[ index ]->producer;
+ mlt_producer producer = self->list[ index ]->producer;
// Get the track hide property
int hide = mlt_properties_get_int( MLT_PRODUCER_PROPERTIES( mlt_producer_cut_parent( producer ) ), "hide" );
// Indicate speed of this producer
mlt_properties properties = MLT_FRAME_PROPERTIES( *frame );
mlt_properties_set_double( properties, "_speed", speed );
- mlt_properties_set_position( properties, "_position", position );
+ mlt_frame_set_position( *frame, position );
mlt_properties_set_int( properties, "hide", hide );
}
else
mlt_frame_set_position( *frame, mlt_producer_position( parent ) );
// Move on to the next frame
- if ( index >= this->count )
+ if ( index >= self->count )
{
// Let tractor know if we've reached the end
mlt_properties_set_int( MLT_FRAME_PROPERTIES( *frame ), "last_track", 1 );
return 0;
}
-/** Close this instance.
-*/
+/** Close this instance and free its resources.
+ *
+ * \public \memberof mlt_multitrack_s
+ * \param self a multitrack
+ */
-void mlt_multitrack_close( mlt_multitrack this )
+void mlt_multitrack_close( mlt_multitrack self )
{
- if ( this != NULL && mlt_properties_dec_ref( MLT_MULTITRACK_PROPERTIES( this ) ) <= 0 )
+ if ( self != NULL && mlt_properties_dec_ref( MLT_MULTITRACK_PROPERTIES( self ) ) <= 0 )
{
int i = 0;
- for ( i = 0; i < this->count; i ++ )
+ for ( i = 0; i < self->count; i ++ )
{
- if ( this->list[ i ] != NULL )
+ if ( self->list[ i ] != NULL )
{
- mlt_event_close( this->list[ i ]->event );
- mlt_producer_close( this->list[ i ]->producer );
- free( this->list[ i ] );
+ mlt_event_close( self->list[ i ]->event );
+ mlt_producer_close( self->list[ i ]->producer );
+ free( self->list[ i ] );
}
}
// Close the producer
- this->parent.close = NULL;
- mlt_producer_close( &this->parent );
+ self->parent.close = NULL;
+ mlt_producer_close( &self->parent );
// Free the list
- free( this->list );
+ free( self->list );
// Free the object
- free( this );
+ free( self );
}
}