*/
pthread_mutex_t mlt_sdl_mutex = PTHREAD_MUTEX_INITIALIZER;
-static void mlt_consumer_frame_render( mlt_listener listener, mlt_properties owner, mlt_service this, void **args );
-static void mlt_consumer_frame_show( mlt_listener listener, mlt_properties owner, mlt_service this, void **args );
-static void mlt_consumer_property_changed( mlt_properties owner, mlt_consumer this, char *name );
-static void apply_profile_properties( mlt_consumer this, mlt_profile profile, mlt_properties properties );
-static void on_consumer_frame_show( mlt_properties owner, mlt_consumer this, mlt_frame frame );
+static void mlt_consumer_frame_render( mlt_listener listener, mlt_properties owner, mlt_service self, void **args );
+static void mlt_consumer_frame_show( mlt_listener listener, mlt_properties owner, mlt_service self, void **args );
+static void mlt_consumer_property_changed( mlt_properties owner, mlt_consumer self, char *name );
+static void apply_profile_properties( mlt_consumer self, mlt_profile profile, mlt_properties properties );
+static void on_consumer_frame_show( mlt_properties owner, mlt_consumer self, mlt_frame frame );
/** Initialize a consumer service.
*
* \public \memberof mlt_consumer_s
- * \param this the consumer to initialize
+ * \param self the consumer to initialize
* \param child a pointer to the object for the subclass
* \param profile the \p mlt_profile_s to use (optional but recommended,
- * uses the environment variable MLT if this is NULL)
+ * uses the environment variable MLT if self is NULL)
* \return true if there was an error
*/
-int mlt_consumer_init( mlt_consumer this, void *child, mlt_profile profile )
+int mlt_consumer_init( mlt_consumer self, void *child, mlt_profile profile )
{
int error = 0;
- memset( this, 0, sizeof( struct mlt_consumer_s ) );
- this->child = child;
- error = mlt_service_init( &this->parent, this );
+ memset( self, 0, sizeof( struct mlt_consumer_s ) );
+ self->child = child;
+ error = mlt_service_init( &self->parent, self );
if ( error == 0 )
{
// Get the properties from the service
- mlt_properties properties = MLT_SERVICE_PROPERTIES( &this->parent );
+ mlt_properties properties = MLT_SERVICE_PROPERTIES( &self->parent );
// Apply profile to properties
if ( profile == NULL )
// Normally the application creates the profile and controls its lifetime
// This is the fallback exception handling
profile = mlt_profile_init( NULL );
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
mlt_properties_set_data( properties, "_profile", profile, 0, (mlt_destructor)mlt_profile_close, NULL );
}
- apply_profile_properties( this, profile, properties );
+ apply_profile_properties( self, profile, properties );
// Default rescaler for all consumers
mlt_properties_set( properties, "rescale", "bilinear" );
// Default read ahead buffer size
mlt_properties_set_int( properties, "buffer", 25 );
+ mlt_properties_set_int( properties, "drop_max", 5 );
// Default audio frequency and channels
mlt_properties_set_int( properties, "frequency", 48000 );
mlt_properties_set( properties, "test_card", mlt_environment( "MLT_TEST_CARD" ) );
// Hmm - default all consumers to yuv422 :-/
- this->format = mlt_image_yuv422;
+ self->format = mlt_image_yuv422;
+ mlt_properties_set( properties, "mlt_image_format", mlt_image_format_name( self->format ) );
+ mlt_properties_set( properties, "mlt_audio_format", mlt_audio_format_name( mlt_audio_s16 ) );
mlt_events_register( properties, "consumer-frame-show", ( mlt_transmitter )mlt_consumer_frame_show );
mlt_events_register( properties, "consumer-frame-render", ( mlt_transmitter )mlt_consumer_frame_render );
mlt_events_register( properties, "consumer-stopped", NULL );
- mlt_events_listen( properties, this, "consumer-frame-show", ( mlt_listener )on_consumer_frame_show );
+ mlt_events_listen( properties, self, "consumer-frame-show", ( mlt_listener )on_consumer_frame_show );
// Register a property-changed listener to handle the profile property -
// subsequent properties can override the profile
- this->event_listener = mlt_events_listen( properties, this, "property-changed", ( mlt_listener )mlt_consumer_property_changed );
+ self->event_listener = mlt_events_listen( properties, self, "property-changed", ( mlt_listener )mlt_consumer_property_changed );
// Create the push mutex and condition
- pthread_mutex_init( &this->put_mutex, NULL );
- pthread_cond_init( &this->put_cond, NULL );
+ pthread_mutex_init( &self->put_mutex, NULL );
+ pthread_cond_init( &self->put_cond, NULL );
}
return error;
/** Convert the profile into properties on the consumer.
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \param profile a profile
* \param properties a properties list (typically, the consumer's)
*/
-static void apply_profile_properties( mlt_consumer this, mlt_profile profile, mlt_properties properties )
+static void apply_profile_properties( mlt_consumer self, mlt_profile profile, mlt_properties properties )
{
- mlt_event_block( this->event_listener );
+ mlt_event_block( self->event_listener );
mlt_properties_set_double( properties, "fps", mlt_profile_fps( profile ) );
mlt_properties_set_int( properties, "frame_rate_num", profile->frame_rate_num );
mlt_properties_set_int( properties, "frame_rate_den", profile->frame_rate_den );
mlt_properties_set_int( properties, "display_aspect_num", profile->display_aspect_num );
mlt_properties_set_int( properties, "display_aspect_num", profile->display_aspect_num );
mlt_properties_set_int( properties, "colorspace", profile->colorspace );
- mlt_event_unblock( this->event_listener );
+ mlt_event_unblock( self->event_listener );
}
/** The property-changed event listener
*
* \private \memberof mlt_consumer_s
* \param owner the events object
- * \param this the consumer
+ * \param self the consumer
* \param name the name of the property that changed
*/
-static void mlt_consumer_property_changed( mlt_properties owner, mlt_consumer this, char *name )
+static void mlt_consumer_property_changed( mlt_properties owner, mlt_consumer self, char *name )
{
- if ( !strcmp( name, "profile" ) )
+ if ( !strcmp( name, "mlt_profile" ) )
{
// Get the properies
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Get the current profile
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
// Load the new profile
mlt_profile new_profile = mlt_profile_init( mlt_properties_get( properties, name ) );
}
// Apply to properties
- apply_profile_properties( this, profile, properties );
+ apply_profile_properties( self, profile, properties );
}
}
else if ( !strcmp( name, "frame_rate_num" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
{
profile->frame_rate_num = mlt_properties_get_int( properties, "frame_rate_num" );
}
else if ( !strcmp( name, "frame_rate_den" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
{
profile->frame_rate_den = mlt_properties_get_int( properties, "frame_rate_den" );
}
else if ( !strcmp( name, "width" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
profile->width = mlt_properties_get_int( properties, "width" );
}
else if ( !strcmp( name, "height" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
profile->height = mlt_properties_get_int( properties, "height" );
}
else if ( !strcmp( name, "progressive" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
profile->progressive = mlt_properties_get_int( properties, "progressive" );
}
else if ( !strcmp( name, "sample_aspect_num" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
profile->sample_aspect_num = mlt_properties_get_int( properties, "sample_aspect_num" );
if ( profile )
mlt_properties_set_double( properties, "aspect_ratio", mlt_profile_sar( profile ) );
}
else if ( !strcmp( name, "sample_aspect_den" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
profile->sample_aspect_den = mlt_properties_get_int( properties, "sample_aspect_den" );
if ( profile )
mlt_properties_set_double( properties, "aspect_ratio", mlt_profile_sar( profile ) );
}
else if ( !strcmp( name, "display_aspect_num" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
{
profile->display_aspect_num = mlt_properties_get_int( properties, "display_aspect_num" );
}
else if ( !strcmp( name, "display_aspect_den" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
{
profile->display_aspect_den = mlt_properties_get_int( properties, "display_aspect_den" );
}
else if ( !strcmp( name, "colorspace" ) )
{
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
if ( profile )
profile->colorspace = mlt_properties_get_int( properties, "colorspace" );
}
* \private \memberof mlt_consumer_s
* \param listener a function pointer that will be invoked
* \param owner the events object that will be passed to \p listener
- * \param this a service that will be passed to \p listener
+ * \param self a service that will be passed to \p listener
* \param args an array of pointers - the first entry is passed as a string to \p listener
*/
-static void mlt_consumer_frame_show( mlt_listener listener, mlt_properties owner, mlt_service this, void **args )
+static void mlt_consumer_frame_show( mlt_listener listener, mlt_properties owner, mlt_service self, void **args )
{
if ( listener != NULL )
- listener( owner, this, ( mlt_frame )args[ 0 ] );
+ listener( owner, self, ( mlt_frame )args[ 0 ] );
}
/** The transmitter for the consumer-frame-render event
* \private \memberof mlt_consumer_s
* \param listener a function pointer that will be invoked
* \param owner the events object that will be passed to \p listener
- * \param this a service that will be passed to \p listener
+ * \param self a service that will be passed to \p listener
* \param args an array of pointers - the first entry is passed as a string to \p listener
*/
-static void mlt_consumer_frame_render( mlt_listener listener, mlt_properties owner, mlt_service this, void **args )
+static void mlt_consumer_frame_render( mlt_listener listener, mlt_properties owner, mlt_service self, void **args )
{
if ( listener != NULL )
- listener( owner, this, ( mlt_frame )args[ 0 ] );
+ listener( owner, self, ( mlt_frame )args[ 0 ] );
}
/** A listener on the consumer-frame-show event
mlt_consumer mlt_consumer_new( mlt_profile profile )
{
// Create the memory for the structure
- mlt_consumer this = malloc( sizeof( struct mlt_consumer_s ) );
+ mlt_consumer self = malloc( sizeof( struct mlt_consumer_s ) );
// Initialise it
- if ( this != NULL )
- mlt_consumer_init( this, NULL, profile );
+ if ( self != NULL )
+ mlt_consumer_init( self, NULL, profile );
// Return it
- return this;
+ return self;
}
/** Get the parent service object.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return the parent service class
* \see MLT_CONSUMER_SERVICE
*/
-mlt_service mlt_consumer_service( mlt_consumer this )
+mlt_service mlt_consumer_service( mlt_consumer self )
{
- return this != NULL ? &this->parent : NULL;
+ return self != NULL ? &self->parent : NULL;
}
/** Get the consumer properties.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return the consumer's properties list
* \see MLT_CONSUMER_PROPERTIES
*/
-mlt_properties mlt_consumer_properties( mlt_consumer this )
+mlt_properties mlt_consumer_properties( mlt_consumer self )
{
- return this != NULL ? MLT_SERVICE_PROPERTIES( &this->parent ) : NULL;
+ return self != NULL ? MLT_SERVICE_PROPERTIES( &self->parent ) : NULL;
}
/** Connect the consumer to the producer.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \param producer a producer
* \return > 0 warning, == 0 success, < 0 serious error,
* 1 = this service does not accept input,
* 3 = the producer is already registered with this consumer
*/
-int mlt_consumer_connect( mlt_consumer this, mlt_service producer )
+int mlt_consumer_connect( mlt_consumer self, mlt_service producer )
{
- return mlt_service_connect_producer( &this->parent, producer, 0 );
+ return mlt_service_connect_producer( &self->parent, producer, 0 );
}
/** Start the consumer.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return true if there was an error
*/
-int mlt_consumer_start( mlt_consumer this )
+int mlt_consumer_start( mlt_consumer self )
{
+ if ( !mlt_consumer_is_stopped( self ) )
+ return 0;
+
// Stop listening to the property-changed event
- mlt_event_block( this->event_listener );
+ mlt_event_block( self->event_listener );
// Get the properies
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Determine if there's a test card producer
char *test_card = mlt_properties_get( properties, "test_card" );
// Just to make sure nothing is hanging around...
- this->put = NULL;
- this->put_active = 1;
+ self->put = NULL;
+ self->put_active = 1;
// Deal with it now.
if ( test_card != NULL )
if ( mlt_properties_get_data( properties, "test_card_producer", NULL ) == NULL )
{
// Create a test card producer
- mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( this ) );
+ mlt_profile profile = mlt_service_profile( MLT_CONSUMER_SERVICE( self ) );
mlt_producer producer = mlt_factory_producer( profile, NULL, test_card );
// Do we have a producer
// Check and run an ante command
if ( mlt_properties_get( properties, "ante" ) )
if ( system( mlt_properties_get( properties, "ante" ) ) == -1 )
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_ERROR, "system(%s) failed!\n", mlt_properties_get( properties, "ante" ) );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_ERROR, "system(%s) failed!\n", mlt_properties_get( properties, "ante" ) );
// Set the real_time preference
- this->real_time = mlt_properties_get_int( properties, "real_time" );
+ self->real_time = mlt_properties_get_int( properties, "real_time" );
// For worker threads implementation, buffer must be at least # threads
- if ( abs( this->real_time ) > 1 && mlt_properties_get_int( properties, "buffer" ) <= abs( this->real_time ) )
- mlt_properties_set_int( properties, "buffer", abs( this->real_time ) + 1 );
+ if ( abs( self->real_time ) > 1 && mlt_properties_get_int( properties, "buffer" ) <= abs( self->real_time ) )
+ mlt_properties_set_int( properties, "_buffer", abs( self->real_time ) + 1 );
+
+ // Get the image format to use for rendering threads
+ const char* format = mlt_properties_get( properties, "mlt_image_format" );
+ if ( format )
+ {
+ if ( !strcmp( format, "rgb24" ) )
+ self->format = mlt_image_rgb24;
+ else if ( !strcmp( format, "rgb24a" ) )
+ self->format = mlt_image_rgb24a;
+ else if ( !strcmp( format, "yuv420p" ) )
+ self->format = mlt_image_yuv420p;
+ else if ( !strcmp( format, "none" ) )
+ self->format = mlt_image_none;
+ else
+ self->format = mlt_image_yuv422;
+ }
// Start the service
- if ( this->start != NULL )
- return this->start( this );
+ if ( self->start != NULL )
+ return self->start( self );
return 0;
}
* Only valid if the consumer itself is not connected.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \param frame a frame
- * \return true (ignore this for now)
+ * \return true (ignore self for now)
*/
-int mlt_consumer_put_frame( mlt_consumer this, mlt_frame frame )
+int mlt_consumer_put_frame( mlt_consumer self, mlt_frame frame )
{
int error = 1;
// Get the service assoicated to the consumer
- mlt_service service = MLT_CONSUMER_SERVICE( this );
+ mlt_service service = MLT_CONSUMER_SERVICE( self );
if ( mlt_service_producer( service ) == NULL )
{
struct timeval now;
struct timespec tm;
- pthread_mutex_lock( &this->put_mutex );
- while ( this->put_active && this->put != NULL )
+ pthread_mutex_lock( &self->put_mutex );
+ while ( self->put_active && self->put != NULL )
{
gettimeofday( &now, NULL );
tm.tv_sec = now.tv_sec + 1;
tm.tv_nsec = now.tv_usec * 1000;
- pthread_cond_timedwait( &this->put_cond, &this->put_mutex, &tm );
+ pthread_cond_timedwait( &self->put_cond, &self->put_mutex, &tm );
}
- if ( this->put_active && this->put == NULL )
- this->put = frame;
+ if ( self->put_active && self->put == NULL )
+ self->put = frame;
else
mlt_frame_close( frame );
- pthread_cond_broadcast( &this->put_cond );
- pthread_mutex_unlock( &this->put_mutex );
+ pthread_cond_broadcast( &self->put_cond );
+ pthread_mutex_unlock( &self->put_mutex );
}
else
{
/** Protected method for consumer to get frames from connected service
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return a frame
*/
-mlt_frame mlt_consumer_get_frame( mlt_consumer this )
+mlt_frame mlt_consumer_get_frame( mlt_consumer self )
{
// Frame to return
mlt_frame frame = NULL;
// Get the service assoicated to the consumer
- mlt_service service = MLT_CONSUMER_SERVICE( this );
+ mlt_service service = MLT_CONSUMER_SERVICE( self );
// Get the consumer properties
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Get the frame
if ( mlt_service_producer( service ) == NULL && mlt_properties_get_int( properties, "put_mode" ) )
{
struct timeval now;
struct timespec tm;
- pthread_mutex_lock( &this->put_mutex );
- while ( this->put_active && this->put == NULL )
+ pthread_mutex_lock( &self->put_mutex );
+ while ( self->put_active && self->put == NULL )
{
gettimeofday( &now, NULL );
tm.tv_sec = now.tv_sec + 1;
tm.tv_nsec = now.tv_usec * 1000;
- pthread_cond_timedwait( &this->put_cond, &this->put_mutex, &tm );
+ pthread_cond_timedwait( &self->put_cond, &self->put_mutex, &tm );
}
- frame = this->put;
- this->put = NULL;
- pthread_cond_broadcast( &this->put_cond );
- pthread_mutex_unlock( &this->put_mutex );
+ frame = self->put;
+ self->put = NULL;
+ pthread_cond_broadcast( &self->put_cond );
+ pthread_mutex_unlock( &self->put_mutex );
if ( frame != NULL )
mlt_service_apply_filters( service, frame, 0 );
}
if ( test_card != NULL )
mlt_properties_set_data( frame_properties, "test_card_producer", test_card, 0, NULL, NULL );
- // Attach the rescale property
+ // Pass along the interpolation and deinterlace options
+ // TODO: get rid of consumer_deinterlace and use profile.progressive
mlt_properties_set( frame_properties, "rescale.interp", mlt_properties_get( properties, "rescale" ) );
-
- // Aspect ratio and other jiggery pokery
- mlt_properties_set_double( frame_properties, "consumer_aspect_ratio", mlt_properties_get_double( properties, "aspect_ratio" ) );
mlt_properties_set_int( frame_properties, "consumer_deinterlace", mlt_properties_get_int( properties, "progressive" ) | mlt_properties_get_int( properties, "deinterlace" ) );
mlt_properties_set( frame_properties, "deinterlace_method", mlt_properties_get( properties, "deinterlace_method" ) );
+ mlt_properties_set_int( frame_properties, "consumer_tff", mlt_properties_get_int( properties, "top_field_first" ) );
}
// Return the frame
static void *consumer_read_ahead_thread( void *arg )
{
// The argument is the consumer
- mlt_consumer this = arg;
+ mlt_consumer self = arg;
// Get the properties of the consumer
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Get the width and height
int width = mlt_properties_get_int( properties, "width" );
// Get the audio settings
mlt_audio_format afmt = mlt_audio_s16;
+ const char *format = mlt_properties_get( properties, "mlt_audio_format" );
+ if ( format )
+ {
+ if ( !strcmp( format, "none" ) )
+ afmt = mlt_audio_none;
+ else if ( !strcmp( format, "s32" ) )
+ afmt = mlt_audio_s32;
+ else if ( !strcmp( format, "s32le" ) )
+ afmt = mlt_audio_s32le;
+ else if ( !strcmp( format, "float" ) )
+ afmt = mlt_audio_float;
+ else if ( !strcmp( format, "f32le" ) )
+ afmt = mlt_audio_f32le;
+ }
int counter = 0;
double fps = mlt_properties_get_double( properties, "fps" );
int channels = mlt_properties_get_int( properties, "channels" );
struct timeval ante;
// Average time for get_frame and get_image
- int count = 1;
+ int count = 0;
int skipped = 0;
- int64_t time_wait = 0;
- int64_t time_frame = 0;
int64_t time_process = 0;
int skip_next = 0;
+ mlt_position pos = 0;
+ mlt_position start_pos = 0;
+ mlt_position last_pos = 0;
+ int frame_duration = mlt_properties_get_int( properties, "frame_duration" );
+ int drop_max = mlt_properties_get_int( properties, "drop_max" );
if ( preview_off && preview_format != 0 )
- this->format = preview_format;
+ self->format = preview_format;
// Get the first frame
- frame = mlt_consumer_get_frame( this );
+ frame = mlt_consumer_get_frame( self );
- // Get the image of the first frame
- if ( !video_off )
+ if ( frame )
{
- mlt_events_fire( MLT_CONSUMER_PROPERTIES( this ), "consumer-frame-render", frame, NULL );
- mlt_frame_get_image( frame, &image, &this->format, &width, &height, 0 );
- }
+ // Get the image of the first frame
+ if ( !video_off )
+ {
+ mlt_events_fire( MLT_CONSUMER_PROPERTIES( self ), "consumer-frame-render", frame, NULL );
+ mlt_frame_get_image( frame, &image, &self->format, &width, &height, 0 );
+ }
- if ( !audio_off )
- {
- samples = mlt_sample_calculator( fps, frequency, counter++ );
- mlt_frame_get_audio( frame, &audio, &afmt, &frequency, &channels, &samples );
- }
+ if ( !audio_off )
+ {
+ samples = mlt_sample_calculator( fps, frequency, counter++ );
+ mlt_frame_get_audio( frame, &audio, &afmt, &frequency, &channels, &samples );
+ }
- // Mark as rendered
- mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "rendered", 1 );
+ // Mark as rendered
+ mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "rendered", 1 );
+ last_pos = start_pos = pos = mlt_frame_get_position( frame );
+ }
// Get the starting time (can ignore the times above)
gettimeofday( &ante, NULL );
// Continue to read ahead
- while ( this->ahead )
+ while ( self->ahead )
{
- // Fetch width/height again
- width = mlt_properties_get_int( properties, "width" );
- height = mlt_properties_get_int( properties, "height" );
-
// Put the current frame into the queue
- pthread_mutex_lock( &this->queue_mutex );
- while( this->ahead && mlt_deque_count( this->queue ) >= buffer )
- pthread_cond_wait( &this->queue_cond, &this->queue_mutex );
- mlt_deque_push_back( this->queue, frame );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
-
- time_wait += time_difference( &ante );
+ pthread_mutex_lock( &self->queue_mutex );
+ while( self->ahead && mlt_deque_count( self->queue ) >= buffer )
+ pthread_cond_wait( &self->queue_cond, &self->queue_mutex );
+ mlt_deque_push_back( self->queue, frame );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
// Get the next frame
- frame = mlt_consumer_get_frame( this );
- time_frame += time_difference( &ante );
+ frame = mlt_consumer_get_frame( self );
// If there's no frame, we're probably stopped...
if ( frame == NULL )
continue;
+ pos = mlt_frame_get_position( frame );
- // Increment the count
+ // Increment the counter used for averaging processing cost
count ++;
- // All non normal playback frames should be shown
+ // All non-normal playback frames should be shown
if ( mlt_properties_get_int( MLT_FRAME_PROPERTIES( frame ), "_speed" ) != 1 )
{
#ifdef DEINTERLACE_ON_NOT_NORMAL_SPEED
mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "consumer_deinterlace", 1 );
#endif
- skipped = 0;
- time_frame = 0;
- time_process = 0;
- time_wait = 0;
- count = 1;
- skip_next = 0;
+ // Indicate seeking or trick-play
+ start_pos = pos;
}
- // Get the image
- if ( !skip_next || this->real_time == -1 )
+ // If skip flag not set or frame-dropping disabled
+ if ( !skip_next || self->real_time == -1 )
{
- // Get the image, mark as rendered and time it
if ( !video_off )
{
- mlt_events_fire( MLT_CONSUMER_PROPERTIES( this ), "consumer-frame-render", frame, NULL );
- mlt_frame_get_image( frame, &image, &this->format, &width, &height, 0 );
+ // Reset width/height - could have been changed by previous mlt_frame_get_image
+ width = mlt_properties_get_int( properties, "width" );
+ height = mlt_properties_get_int( properties, "height" );
+
+ // Get the image
+ mlt_events_fire( MLT_CONSUMER_PROPERTIES( self ), "consumer-frame-render", frame, NULL );
+ mlt_frame_get_image( frame, &image, &self->format, &width, &height, 0 );
}
+
+ // Indicate the rendered image is available.
mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "rendered", 1 );
+
+ // Reset consecutively-skipped counter
+ skipped = 0;
}
- else
+ else // Skip image processing
{
- // Increment the number of sequentially skipped frames
- skipped ++;
- skip_next = 0;
+ // Increment the number of consecutively-skipped frames
+ skipped++;
- // If we've reached an unacceptable level, reset everything
- if ( skipped > fps * 2 )
+ // If too many (1 sec) consecutively-skipped frames
+ if ( skipped > drop_max )
{
- skipped = 0;
- time_frame = 0;
+ // Reset cost tracker
time_process = 0;
- time_wait = 0;
count = 1;
+ mlt_log_verbose( self, "too many frames dropped - forcing next frame\n" );
}
}
mlt_frame_get_audio( frame, &audio, &afmt, &frequency, &channels, &samples );
}
- // Increment the time take for this frame
- time_process += time_difference( &ante );
+ // Get the time to process this frame
+ int64_t time_current = time_difference( &ante );
+
+ // If the current time is not suddenly some large amount
+ if ( time_current < time_process / count * 20 || !time_process || count < 5 )
+ {
+ // Accumulate the cost for processing this frame
+ time_process += time_current;
+ }
+ else
+ {
+ mlt_log_debug( self, "current %"PRId64" threshold %"PRId64" count %d\n",
+ time_current, (int64_t) (time_process / count * 20), count );
+ // Ignore the cost of this frame's time
+ count--;
+ }
+
+ // Determine if we started, resumed, or seeked
+ if ( pos != last_pos + 1 )
+ start_pos = pos;
+ last_pos = pos;
+
+ // Do not skip the first 20% of buffer at start, resume, or seek
+ if ( pos - start_pos <= buffer / 5 + 1 )
+ {
+ // Reset cost tracker
+ time_process = 0;
+ count = 1;
+ }
+
+ // Reset skip flag
+ skip_next = 0;
- // Determine if the next frame should be skipped
- if ( mlt_deque_count( this->queue ) <= 5 )
+ // Only consider skipping if the buffer level is low (or really small)
+ if ( mlt_deque_count( self->queue ) <= buffer / 5 + 1 )
{
- int frame_duration = mlt_properties_get_int( properties, "frame_duration" );
- if ( ( ( time_wait + time_frame + time_process ) / count ) > frame_duration )
+ // Skip next frame if average cost exceeds frame duration.
+ if ( time_process / count > frame_duration )
skip_next = 1;
+ if ( skip_next )
+ mlt_log_debug( self, "avg usec %"PRId64" (%"PRId64"/%d) duration %d\n",
+ time_process/count, time_process, count, frame_duration);
}
}
* ahead of the playout point (queue head).
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return an index into the queue
*/
-static inline int first_unprocessed_frame( mlt_consumer this )
+static inline int first_unprocessed_frame( mlt_consumer self )
{
- int index = this->real_time <= 0 ? 0 : this->process_head;
- while ( index < mlt_deque_count( this->queue ) && MLT_FRAME( mlt_deque_peek( this->queue, index ) )->is_processing )
+ int index = self->real_time <= 0 ? 0 : self->process_head;
+ while ( index < mlt_deque_count( self->queue ) && MLT_FRAME( mlt_deque_peek( self->queue, index ) )->is_processing )
index++;
return index;
}
static void *consumer_worker_thread( void *arg )
{
// The argument is the consumer
- mlt_consumer this = arg;
+ mlt_consumer self = arg;
// Get the properties of the consumer
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Get the width and height
int width = mlt_properties_get_int( properties, "width" );
int height = mlt_properties_get_int( properties, "height" );
- mlt_image_format format = this->format;
+ mlt_image_format format = self->format;
// See if video is turned off
int video_off = mlt_properties_get_int( properties, "video_off" );
format = preview_format;
// Continue to read ahead
- while ( this->ahead )
+ while ( self->ahead )
{
// Get the next unprocessed frame from the work queue
- pthread_mutex_lock( &this->queue_mutex );
- int index = first_unprocessed_frame( this );
- while ( this->ahead && index >= mlt_deque_count( this->queue ) )
+ pthread_mutex_lock( &self->queue_mutex );
+ int index = first_unprocessed_frame( self );
+ while ( self->ahead && index >= mlt_deque_count( self->queue ) )
{
- mlt_log_debug( MLT_CONSUMER_SERVICE(this), "waiting in worker index = %d queue count = %d\n",
- index, mlt_deque_count( this->queue ) );
- pthread_cond_wait( &this->queue_cond, &this->queue_mutex );
- index = first_unprocessed_frame( this );
+ mlt_log_debug( MLT_CONSUMER_SERVICE(self), "waiting in worker index = %d queue count = %d\n",
+ index, mlt_deque_count( self->queue ) );
+ pthread_cond_wait( &self->queue_cond, &self->queue_mutex );
+ index = first_unprocessed_frame( self );
}
// Mark the frame for processing
- frame = mlt_deque_peek( this->queue, index );
+ frame = mlt_deque_peek( self->queue, index );
if ( frame )
{
- mlt_log_debug( MLT_CONSUMER_SERVICE(this), "worker processing index = %d frame %d queue count = %d\n",
- index, mlt_frame_get_position(frame), mlt_deque_count( this->queue ) );
+ mlt_log_debug( MLT_CONSUMER_SERVICE(self), "worker processing index = %d frame %d queue count = %d\n",
+ index, mlt_frame_get_position(frame), mlt_deque_count( self->queue ) );
frame->is_processing = 1;
mlt_properties_inc_ref( MLT_FRAME_PROPERTIES( frame ) );
}
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_unlock( &self->queue_mutex );
// If there's no frame, we're probably stopped...
if ( frame == NULL )
// Fetch width/height again
width = mlt_properties_get_int( properties, "width" );
height = mlt_properties_get_int( properties, "height" );
- mlt_events_fire( MLT_CONSUMER_PROPERTIES( this ), "consumer-frame-render", frame, NULL );
+ mlt_events_fire( MLT_CONSUMER_PROPERTIES( self ), "consumer-frame-render", frame, NULL );
mlt_frame_get_image( frame, &image, &format, &width, &height, 0 );
}
mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "rendered", 1 );
mlt_frame_close( frame );
// Tell a waiting thread (non-realtime main consumer thread) that we are done.
- pthread_mutex_lock( &this->done_mutex );
- pthread_cond_broadcast( &this->done_cond );
- pthread_mutex_unlock( &this->done_mutex );
+ pthread_mutex_lock( &self->done_mutex );
+ pthread_cond_broadcast( &self->done_cond );
+ pthread_mutex_unlock( &self->done_mutex );
}
return NULL;
/** Start the read/render thread.
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-static void consumer_read_ahead_start( mlt_consumer this )
+static void consumer_read_ahead_start( mlt_consumer self )
{
// We're running now
- this->ahead = 1;
+ self->ahead = 1;
// Create the frame queue
- this->queue = mlt_deque_init( );
+ self->queue = mlt_deque_init( );
// Create the queue mutex
- pthread_mutex_init( &this->queue_mutex, NULL );
+ pthread_mutex_init( &self->queue_mutex, NULL );
// Create the condition
- pthread_cond_init( &this->queue_cond, NULL );
+ pthread_cond_init( &self->queue_cond, NULL );
// Create the read ahead
- if ( mlt_properties_get( MLT_CONSUMER_PROPERTIES( this ), "priority" ) )
+ if ( mlt_properties_get( MLT_CONSUMER_PROPERTIES( self ), "priority" ) )
{
struct sched_param priority;
- priority.sched_priority = mlt_properties_get_int( MLT_CONSUMER_PROPERTIES( this ), "priority" );
+ priority.sched_priority = mlt_properties_get_int( MLT_CONSUMER_PROPERTIES( self ), "priority" );
pthread_attr_t thread_attributes;
pthread_attr_init( &thread_attributes );
pthread_attr_setschedpolicy( &thread_attributes, SCHED_OTHER );
pthread_attr_setschedparam( &thread_attributes, &priority );
pthread_attr_setinheritsched( &thread_attributes, PTHREAD_EXPLICIT_SCHED );
pthread_attr_setscope( &thread_attributes, PTHREAD_SCOPE_SYSTEM );
- if ( pthread_create( &this->ahead_thread, &thread_attributes, consumer_read_ahead_thread, this ) < 0 )
- pthread_create( &this->ahead_thread, NULL, consumer_read_ahead_thread, this );
+ if ( pthread_create( &self->ahead_thread, &thread_attributes, consumer_read_ahead_thread, self ) < 0 )
+ pthread_create( &self->ahead_thread, NULL, consumer_read_ahead_thread, self );
pthread_attr_destroy( &thread_attributes );
}
else
{
- pthread_create( &this->ahead_thread, NULL, consumer_read_ahead_thread, this );
+ pthread_create( &self->ahead_thread, NULL, consumer_read_ahead_thread, self );
}
- this->started = 1;
+ self->started = 1;
}
/** Start the worker threads.
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-static void consumer_work_start( mlt_consumer this )
+static void consumer_work_start( mlt_consumer self )
{
- int n = abs( this->real_time );
- pthread_t *thread = calloc( 1, sizeof( pthread_t ) );
+ int n = abs( self->real_time );
+ pthread_t *thread = calloc( 1, sizeof( pthread_t ) * n );
// We're running now
- this->ahead = 1;
+ self->ahead = 1;
// These keep track of the accelleration of frame dropping or recovery.
- this->consecutive_dropped = 0;
- this->consecutive_rendered = 0;
+ self->consecutive_dropped = 0;
+ self->consecutive_rendered = 0;
// This is the position in the queue from which to look for a frame to process.
// If we always start from the head, then we may likely not complete processing
// before the frame is played out.
- this->process_head = 0;
+ self->process_head = 0;
// Create the queues
- this->queue = mlt_deque_init();
- this->worker_threads = mlt_deque_init();
+ self->queue = mlt_deque_init();
+ self->worker_threads = mlt_deque_init();
// Create the mutexes
- pthread_mutex_init( &this->queue_mutex, NULL );
- pthread_mutex_init( &this->done_mutex, NULL );
+ pthread_mutex_init( &self->queue_mutex, NULL );
+ pthread_mutex_init( &self->done_mutex, NULL );
// Create the conditions
- pthread_cond_init( &this->queue_cond, NULL );
- pthread_cond_init( &this->done_cond, NULL );
+ pthread_cond_init( &self->queue_cond, NULL );
+ pthread_cond_init( &self->done_cond, NULL );
// Create the read ahead
- if ( mlt_properties_get( MLT_CONSUMER_PROPERTIES( this ), "priority" ) )
+ if ( mlt_properties_get( MLT_CONSUMER_PROPERTIES( self ), "priority" ) )
{
struct sched_param priority;
pthread_attr_t thread_attributes;
- priority.sched_priority = mlt_properties_get_int( MLT_CONSUMER_PROPERTIES( this ), "priority" );
+ priority.sched_priority = mlt_properties_get_int( MLT_CONSUMER_PROPERTIES( self ), "priority" );
pthread_attr_init( &thread_attributes );
pthread_attr_setschedpolicy( &thread_attributes, SCHED_OTHER );
pthread_attr_setschedparam( &thread_attributes, &priority );
while ( n-- )
{
- if ( pthread_create( thread, &thread_attributes, consumer_read_ahead_thread, this ) < 0 )
- if ( pthread_create( thread, NULL, consumer_read_ahead_thread, this ) == 0 )
- mlt_deque_push_back( this->worker_threads, thread );
+ if ( pthread_create( thread, &thread_attributes, consumer_worker_thread, self ) < 0 )
+ if ( pthread_create( thread, NULL, consumer_worker_thread, self ) == 0 )
+ mlt_deque_push_back( self->worker_threads, thread );
+ thread++;
}
pthread_attr_destroy( &thread_attributes );
}
{
while ( n-- )
{
- if ( pthread_create( thread, NULL, consumer_worker_thread, this ) == 0 )
- mlt_deque_push_back( this->worker_threads, thread );
+ if ( pthread_create( thread, NULL, consumer_worker_thread, self ) == 0 )
+ mlt_deque_push_back( self->worker_threads, thread );
+ thread++;
}
}
- this->started = 1;
+ self->started = 1;
}
/** Stop the read/render thread.
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-static void consumer_read_ahead_stop( mlt_consumer this )
+static void consumer_read_ahead_stop( mlt_consumer self )
{
// Make sure we're running
- if ( this->started )
+ if ( self->started )
{
// Inform thread to stop
- this->ahead = 0;
+ self->ahead = 0;
// Broadcast to the condition in case it's waiting
- pthread_mutex_lock( &this->queue_mutex );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
// Broadcast to the put condition in case it's waiting
- pthread_mutex_lock( &this->put_mutex );
- pthread_cond_broadcast( &this->put_cond );
- pthread_mutex_unlock( &this->put_mutex );
+ pthread_mutex_lock( &self->put_mutex );
+ pthread_cond_broadcast( &self->put_cond );
+ pthread_mutex_unlock( &self->put_mutex );
// Join the thread
- pthread_join( this->ahead_thread, NULL );
- this->started = 0;
+ pthread_join( self->ahead_thread, NULL );
+ self->started = 0;
// Destroy the frame queue mutex
- pthread_mutex_destroy( &this->queue_mutex );
+ pthread_mutex_destroy( &self->queue_mutex );
// Destroy the condition
- pthread_cond_destroy( &this->queue_cond );
+ pthread_cond_destroy( &self->queue_cond );
// Wipe the queue
- while ( mlt_deque_count( this->queue ) )
- mlt_frame_close( mlt_deque_pop_back( this->queue ) );
+ while ( mlt_deque_count( self->queue ) )
+ mlt_frame_close( mlt_deque_pop_back( self->queue ) );
// Close the queue
- mlt_deque_close( this->queue );
+ mlt_deque_close( self->queue );
}
}
/** Stop the worker threads.
*
* \private \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-static void consumer_work_stop( mlt_consumer this )
+static void consumer_work_stop( mlt_consumer self )
{
// Make sure we're running
- if ( this->started )
+ if ( self->started )
{
// Inform thread to stop
- this->ahead = 0;
+ self->ahead = 0;
// Broadcast to the queue condition in case it's waiting
- pthread_mutex_lock( &this->queue_mutex );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
// Broadcast to the put condition in case it's waiting
- pthread_mutex_lock( &this->put_mutex );
- pthread_cond_broadcast( &this->put_cond );
- pthread_mutex_unlock( &this->put_mutex );
+ pthread_mutex_lock( &self->put_mutex );
+ pthread_cond_broadcast( &self->put_cond );
+ pthread_mutex_unlock( &self->put_mutex );
// Broadcast to the done condition in case it's waiting
- pthread_mutex_lock( &this->done_mutex );
- pthread_cond_broadcast( &this->done_cond );
- pthread_mutex_unlock( &this->done_mutex );
+ pthread_mutex_lock( &self->done_mutex );
+ pthread_cond_broadcast( &self->done_cond );
+ pthread_mutex_unlock( &self->done_mutex );
// Join the threads
pthread_t *thread;
- while ( ( thread = mlt_deque_pop_front( this->worker_threads ) ) )
+ while ( ( thread = mlt_deque_pop_back( self->worker_threads ) ) )
pthread_join( *thread, NULL );
- this->started = 0;
+
+ // Deallocate the array of threads
+ if ( thread )
+ free( thread );
+
+ // Indicate that worker threads no longer running
+ self->started = 0;
// Destroy the mutexes
- pthread_mutex_destroy( &this->queue_mutex );
- pthread_mutex_destroy( &this->done_mutex );
+ pthread_mutex_destroy( &self->queue_mutex );
+ pthread_mutex_destroy( &self->done_mutex );
// Destroy the conditions
- pthread_cond_destroy( &this->queue_cond );
- pthread_cond_destroy( &this->done_cond );
+ pthread_cond_destroy( &self->queue_cond );
+ pthread_cond_destroy( &self->done_cond );
// Wipe the queues
- while ( mlt_deque_count( this->queue ) )
- mlt_frame_close( mlt_deque_pop_back( this->queue ) );
+ while ( mlt_deque_count( self->queue ) )
+ mlt_frame_close( mlt_deque_pop_back( self->queue ) );
// Close the queues
- mlt_deque_close( this->queue );
- mlt_deque_close( this->worker_threads );
+ mlt_deque_close( self->queue );
+ mlt_deque_close( self->worker_threads );
}
}
/** Flush the read/render thread's buffer.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-void mlt_consumer_purge( mlt_consumer this )
+void mlt_consumer_purge( mlt_consumer self )
{
- if ( this->ahead )
+ if ( self->ahead )
{
- pthread_mutex_lock( &this->queue_mutex );
- while ( mlt_deque_count( this->queue ) )
- mlt_frame_close( mlt_deque_pop_back( this->queue ) );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ while ( mlt_deque_count( self->queue ) )
+ mlt_frame_close( mlt_deque_pop_back( self->queue ) );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
}
}
/** Use multiple worker threads and a work queue.
*/
-static mlt_frame worker_get_frame( mlt_consumer this, mlt_properties properties )
+static mlt_frame worker_get_frame( mlt_consumer self, mlt_properties properties )
{
// Frame to return
mlt_frame frame = NULL;
- int size = abs( this->real_time );
- int buffer = mlt_properties_get_int( properties, "buffer" );
+ double fps = mlt_properties_get_double( properties, "fps" );
+ int threads = abs( self->real_time );
+ int buffer = mlt_properties_get_int( properties, "_buffer" );
+ buffer = buffer > 0 ? buffer : mlt_properties_get_int( properties, "buffer" );
// This is a heuristic to determine a suitable minimum buffer size for the number of threads.
- int headroom = 2 + size * size;
+ int headroom = 2 + threads * threads;
buffer = buffer < headroom ? headroom : buffer;
// Start worker threads if not already started.
- if ( ! this->ahead )
+ if ( ! self->ahead )
{
int prefill = mlt_properties_get_int( properties, "prefill" );
prefill = prefill > 0 && prefill < buffer ? prefill : buffer;
- consumer_work_start( this );
+ consumer_work_start( self );
// Fill the work queue.
int i = buffer;
- while ( this->ahead && i-- )
+ while ( self->ahead && i-- )
{
- frame = mlt_consumer_get_frame( this );
+ frame = mlt_consumer_get_frame( self );
if ( frame )
{
- pthread_mutex_lock( &this->queue_mutex );
- mlt_deque_push_back( this->queue, frame );
- pthread_cond_signal( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ mlt_deque_push_back( self->queue, frame );
+ pthread_cond_signal( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
}
}
// Wait for prefill
- while ( this->ahead && first_unprocessed_frame( this ) < prefill )
+ while ( self->ahead && first_unprocessed_frame( self ) < prefill )
{
- pthread_mutex_lock( &this->done_mutex );
- pthread_cond_wait( &this->done_cond, &this->done_mutex );
- pthread_mutex_unlock( &this->done_mutex );
+ pthread_mutex_lock( &self->done_mutex );
+ pthread_cond_wait( &self->done_cond, &self->done_mutex );
+ pthread_mutex_unlock( &self->done_mutex );
}
- this->process_head = size;
+ self->process_head = threads;
}
-// mlt_log_verbose( MLT_CONSUMER_SERVICE(this), "size %d done count %d work count %d process_head %d\n",
-// size, first_unprocessed_frame( this ), mlt_deque_count( this->queue ), this->process_head );
+// mlt_log_verbose( MLT_CONSUMER_SERVICE(self), "size %d done count %d work count %d process_head %d\n",
+// threads, first_unprocessed_frame( self ), mlt_deque_count( self->queue ), self->process_head );
// Feed the work queue
- while ( this->ahead && mlt_deque_count( this->queue ) < buffer )
+ while ( self->ahead && mlt_deque_count( self->queue ) < buffer )
{
- frame = mlt_consumer_get_frame( this );
+ frame = mlt_consumer_get_frame( self );
if ( ! frame )
return frame;
- pthread_mutex_lock( &this->queue_mutex );
- mlt_deque_push_back( this->queue, frame );
- pthread_cond_signal( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ mlt_deque_push_back( self->queue, frame );
+ pthread_cond_signal( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
}
// Wait if not realtime.
- while( this->ahead && this->real_time < 0 &&
- ! mlt_properties_get_int( MLT_FRAME_PROPERTIES( MLT_FRAME( mlt_deque_peek_front( this->queue ) ) ), "rendered" ) )
+ mlt_frame head_frame = MLT_FRAME( mlt_deque_peek_front( self->queue ) );
+ while ( self->ahead && self->real_time < 0 &&
+ !( head_frame && mlt_properties_get_int( MLT_FRAME_PROPERTIES( head_frame ), "rendered" ) ) )
{
- pthread_mutex_lock( &this->done_mutex );
- pthread_cond_wait( &this->done_cond, &this->done_mutex );
- pthread_mutex_unlock( &this->done_mutex );
+ pthread_mutex_lock( &self->done_mutex );
+ pthread_cond_wait( &self->done_cond, &self->done_mutex );
+ pthread_mutex_unlock( &self->done_mutex );
}
// Get the frame from the queue.
- pthread_mutex_lock( &this->queue_mutex );
- frame = mlt_deque_pop_front( this->queue );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ frame = mlt_deque_pop_front( self->queue );
+ pthread_mutex_unlock( &self->queue_mutex );
// Adapt the worker process head to the runtime conditions.
- if ( this->real_time > 0 )
+ if ( self->real_time > 0 )
{
- if ( mlt_properties_get_int( MLT_FRAME_PROPERTIES( frame ), "rendered" ) )
+ if ( frame && mlt_properties_get_int( MLT_FRAME_PROPERTIES( frame ), "rendered" ) )
{
- this->consecutive_dropped = 0;
- if ( this->process_head > size && this->consecutive_rendered >= this->process_head )
- this->process_head--;
+ self->consecutive_dropped = 0;
+ if ( self->process_head > threads && self->consecutive_rendered >= self->process_head )
+ self->process_head--;
else
- this->consecutive_rendered++;
+ self->consecutive_rendered++;
}
else
{
- this->consecutive_rendered = 0;
- if ( this->process_head < buffer - size && this->consecutive_dropped > size )
- this->process_head++;
+ self->consecutive_rendered = 0;
+ if ( self->process_head < buffer - threads && self->consecutive_dropped > threads )
+ self->process_head++;
else
- this->consecutive_dropped++;
+ self->consecutive_dropped++;
+ }
+// mlt_log_verbose( MLT_CONSUMER_SERVICE(self), "dropped %d rendered %d process_head %d\n",
+// self->consecutive_dropped, self->consecutive_rendered, self->process_head );
+
+ // Check for too many consecutively dropped frames
+ if ( self->consecutive_dropped > mlt_properties_get_int( properties, "drop_max" ) )
+ {
+ int orig_buffer = mlt_properties_get_int( properties, "buffer" );
+ int prefill = mlt_properties_get_int( properties, "prefill" );
+ mlt_log_verbose( self, "too many frames dropped - " );
+
+ // If using a default low-latency buffer level (SDL) and below the limit
+ if ( ( orig_buffer == 1 || prefill == 1 ) && buffer < (threads + 1) * 10 )
+ {
+ // Auto-scale the buffer to compensate
+ mlt_log_verbose( self, "increasing buffer to %d\n", buffer + threads );
+ mlt_properties_set_int( properties, "_buffer", buffer + threads );
+ self->consecutive_dropped = fps / 2;
+ }
+ else
+ {
+ // Tell the consumer to render it
+ mlt_log_verbose( self, "forcing next frame\n" );
+ mlt_properties_set_int( MLT_FRAME_PROPERTIES( frame ), "rendered", 1 );
+ self->consecutive_dropped = 0;
+ }
}
-// mlt_log_verbose( MLT_CONSUMER_SERVICE(this), "dropped %d rendered %d process_head %d\n",
-// this->consecutive_dropped, this->consecutive_rendered, this->process_head );
}
return frame;
* You should close the frame returned from this when you are done with it.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return a frame
*/
-mlt_frame mlt_consumer_rt_frame( mlt_consumer this )
+mlt_frame mlt_consumer_rt_frame( mlt_consumer self )
{
// Frame to return
mlt_frame frame = NULL;
// Get the properties
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Check if the user has requested real time or not
- if ( this->real_time > 1 || this->real_time < -1 )
+ if ( self->real_time > 1 || self->real_time < -1 )
{
// see above
- return worker_get_frame( this, properties );
+ return worker_get_frame( self, properties );
}
- else if ( this->real_time == 1 || this->real_time == -1 )
+ else if ( self->real_time == 1 || self->real_time == -1 )
{
int size = 1;
// Is the read ahead running?
- if ( this->ahead == 0 )
+ if ( self->ahead == 0 )
{
int buffer = mlt_properties_get_int( properties, "buffer" );
int prefill = mlt_properties_get_int( properties, "prefill" );
- consumer_read_ahead_start( this );
+ consumer_read_ahead_start( self );
if ( buffer > 1 )
size = prefill > 0 && prefill < buffer ? prefill : buffer;
}
// Get frame from queue
- pthread_mutex_lock( &this->queue_mutex );
- while( this->ahead && mlt_deque_count( this->queue ) < size )
- pthread_cond_wait( &this->queue_cond, &this->queue_mutex );
- frame = mlt_deque_pop_front( this->queue );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ while( self->ahead && mlt_deque_count( self->queue ) < size )
+ pthread_cond_wait( &self->queue_cond, &self->queue_mutex );
+ frame = mlt_deque_pop_front( self->queue );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
}
else // real_time == 0
{
// Get the frame in non real time
- frame = mlt_consumer_get_frame( this );
+ frame = mlt_consumer_get_frame( self );
// This isn't true, but from the consumers perspective it is
if ( frame != NULL )
/** Callback for the implementation to indicate a stopped condition.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-void mlt_consumer_stopped( mlt_consumer this )
+void mlt_consumer_stopped( mlt_consumer self )
{
- mlt_properties_set_int( MLT_CONSUMER_PROPERTIES( this ), "running", 0 );
- mlt_events_fire( MLT_CONSUMER_PROPERTIES( this ), "consumer-stopped", NULL );
- mlt_event_unblock( this->event_listener );
+ mlt_properties_set_int( MLT_CONSUMER_PROPERTIES( self ), "running", 0 );
+ mlt_events_fire( MLT_CONSUMER_PROPERTIES( self ), "consumer-stopped", NULL );
+ mlt_event_unblock( self->event_listener );
}
/** Stop the consumer.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return true if there was an error
*/
-int mlt_consumer_stop( mlt_consumer this )
+int mlt_consumer_stop( mlt_consumer self )
{
// Get the properies
- mlt_properties properties = MLT_CONSUMER_PROPERTIES( this );
+ mlt_properties properties = MLT_CONSUMER_PROPERTIES( self );
// Just in case...
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_DEBUG, "stopping put waiting\n" );
- pthread_mutex_lock( &this->put_mutex );
- this->put_active = 0;
- pthread_cond_broadcast( &this->put_cond );
- pthread_mutex_unlock( &this->put_mutex );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_DEBUG, "stopping put waiting\n" );
+ pthread_mutex_lock( &self->put_mutex );
+ self->put_active = 0;
+ pthread_cond_broadcast( &self->put_cond );
+ pthread_mutex_unlock( &self->put_mutex );
// Stop the consumer
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_DEBUG, "stopping consumer\n" );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_DEBUG, "stopping consumer\n" );
// Cancel the read ahead threads
- this->ahead = 0;
- if ( this->started )
+ self->ahead = 0;
+ if ( self->started )
{
// Unblock the consumer calling mlt_consumer_rt_frame
- pthread_mutex_lock( &this->queue_mutex );
- pthread_cond_broadcast( &this->queue_cond );
- pthread_mutex_unlock( &this->queue_mutex );
+ pthread_mutex_lock( &self->queue_mutex );
+ pthread_cond_broadcast( &self->queue_cond );
+ pthread_mutex_unlock( &self->queue_mutex );
}
// Invoke the child callback
- if ( this->stop != NULL )
- this->stop( this );
+ if ( self->stop != NULL )
+ self->stop( self );
// Check if the user has requested real time or not and stop if necessary
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_DEBUG, "stopping read_ahead\n" );
- if ( abs( this->real_time ) == 1 )
- consumer_read_ahead_stop( this );
- else if ( abs( this->real_time ) > 1 )
- consumer_work_stop( this );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_DEBUG, "stopping read_ahead\n" );
+ if ( abs( self->real_time ) == 1 )
+ consumer_read_ahead_stop( self );
+ else if ( abs( self->real_time ) > 1 )
+ consumer_work_stop( self );
// Kill the test card
mlt_properties_set_data( properties, "test_card_producer", NULL, 0, NULL, NULL );
// Check and run a post command
if ( mlt_properties_get( properties, "post" ) )
if (system( mlt_properties_get( properties, "post" ) ) == -1 )
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_ERROR, "system(%s) failed!\n", mlt_properties_get( properties, "post" ) );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_ERROR, "system(%s) failed!\n", mlt_properties_get( properties, "post" ) );
- mlt_log( MLT_CONSUMER_SERVICE( this ), MLT_LOG_DEBUG, "stopped\n" );
+ mlt_log( MLT_CONSUMER_SERVICE( self ), MLT_LOG_DEBUG, "stopped\n" );
return 0;
}
/** Determine if the consumer is stopped.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
* \return true if the consumer is stopped
*/
-int mlt_consumer_is_stopped( mlt_consumer this )
+int mlt_consumer_is_stopped( mlt_consumer self )
{
// Check if the consumer is stopped
- if ( this->is_stopped != NULL )
- return this->is_stopped( this );
+ if ( self->is_stopped != NULL )
+ return self->is_stopped( self );
return 0;
}
/** Close and destroy the consumer.
*
* \public \memberof mlt_consumer_s
- * \param this a consumer
+ * \param self a consumer
*/
-void mlt_consumer_close( mlt_consumer this )
+void mlt_consumer_close( mlt_consumer self )
{
- if ( this != NULL && mlt_properties_dec_ref( MLT_CONSUMER_PROPERTIES( this ) ) <= 0 )
+ if ( self != NULL && mlt_properties_dec_ref( MLT_CONSUMER_PROPERTIES( self ) ) <= 0 )
{
// Get the childs close function
- void ( *consumer_close )( ) = this->close;
+ void ( *consumer_close )( ) = self->close;
if ( consumer_close )
{
// Just in case...
- //mlt_consumer_stop( this );
+ //mlt_consumer_stop( self );
- this->close = NULL;
- consumer_close( this );
+ self->close = NULL;
+ consumer_close( self );
}
else
{
// Make sure it only gets called once
- this->parent.close = NULL;
+ self->parent.close = NULL;
// Destroy the push mutex and condition
- pthread_mutex_destroy( &this->put_mutex );
- pthread_cond_destroy( &this->put_cond );
+ pthread_mutex_destroy( &self->put_mutex );
+ pthread_cond_destroy( &self->put_cond );
- mlt_service_close( &this->parent );
+ mlt_service_close( &self->parent );
}
}
}