docs/design/part-gstbin.txt - mtk-gstreamer-debian - Git at Google

 GstBin
 ------

 GstBin is a container element for other GstElements. This makes it possible
 to group elements together so that they can be treated as one single
 GstElement. A GstBin provides a GstBus for the children and collates messages
 from them.

 Add/removing elements
 ~~~~~~~~~~~~~~~~~~~~~

 The basic functionality of a bin is to add and remove GstElements to/from it.
 gst_bin_add() and gst_bin_remove() perform these operations respectively.

 The bin maintains a parent-child relationship with its elements (see part-
 relations.txt).


 Retrieving elements
 ~~~~~~~~~~~~~~~~~~~

 GstBin provides a number of functions to retrieve one or more children from
 itself. A few examples of the provided functions:

 gst_bin_get_by_name() retrieves an element by name.

 gst_bin_iterate_elements() returns an iterator to all the children.


 element management
 ~~~~~~~~~~~~~~~~~~

 The most important function of the GstBin is to distribute all GstElement
 operations on itself to all of its children. This includes:

  - state changes
  - index get/set
  - clock get/set

 The state change distribution is the most complex and is explained in
 part-states.txt.

 GstBus
 ~~~~~~

 The GstBin creates a GstBus for its children and distributes it when child
 elements are added to the bin. The bin attaches a sync handler to receive
 messages from children. The bus for receiving messages from children is
 distinct from the bin's own externally-visible GstBus.

 Messages received from children are forwarded intact onto the bin's
 external message bus, except for EOS and SEGMENT_START/DONE which are
 handled specially.

 ASYNC_START/ASYNC_STOP messages received from the children are used to
 trigger a recalculation of the current state of the bin, as described in
 part-states.txt.

 The application can retrieve the external GstBus and integrate it in the
 mainloop or it can just _pop() messages off in its own thread.

 When a bin goes to READY it will clear all cached messages.


 EOS
 ~~~

 The sink elements will post an EOS message on the bus when they reach EOS. The
 EOS message is only posted to the bus when the sink element is in PLAYING.

 The bin collects all EOS messages and forwards it to the application as
 soon as all the sinks have posted an EOS.

 The list of queued EOS messages is cleared when the bin goes to PAUSED
 again. This means that all elements should repost the EOS message when going
 to PLAYING again.


 SEGMENT_START/DONE
 ~~~~~~~~~~~~~~~~~~

 A bin collects SEGMENT_START messages but does not post them to the application.
 It counts the number of SEGMENT_START messages and posts a SEGMENT_STOP message
 to the application when an equal number of SEGMENT_STOP messages where received.

 The cached SEGMENT_START/STOP messages are cleared when going to READY.


 DURATION
 ~~~~~~~~

 When a DURATION query is performed on a bin, it will forward the query to all
 its sink elements. The bin will calculate the total duration as the MAX of all
 returned durations and will then cache the result so that any further query can
 use the cached version. The reason for caching the result is because the
 duration of a stream typically does not change that often.

 A GST_MESSAGE_DURATION_CHANGED posted by an element will clear the cached
 duration value so that the bin will query the sinks again. This message is
 typically posted by elements that calculate the duration of the stream based
 on some average bitrate, which might change while playing the stream. The
 DURATION_CHANGED message is posted to the application, which can then fetch
 the updated DURATION.


 Subclassing
 ~~~~~~~~~~~

 Subclasses of GstBin are free to implement their own add/remove implementations.
 It is a good idea to update the GList of children so that the _iterate() functions
 can still be used if the custom bin allows access to its children.

 Any bin subclass can also implement a custom message handler by overriding the
 default message handler.
	GstBin
	------

	GstBin is a container element for other GstElements. This makes it possible
	to group elements together so that they can be treated as one single
	GstElement. A GstBin provides a GstBus for the children and collates messages
	from them.

	Add/removing elements
	~~~~~~~~~~~~~~~~~~~~~

	The basic functionality of a bin is to add and remove GstElements to/from it.
	gst_bin_add() and gst_bin_remove() perform these operations respectively.

	The bin maintains a parent-child relationship with its elements (see part-
	relations.txt).


	Retrieving elements
	~~~~~~~~~~~~~~~~~~~

	GstBin provides a number of functions to retrieve one or more children from
	itself. A few examples of the provided functions:

	gst_bin_get_by_name() retrieves an element by name.

	gst_bin_iterate_elements() returns an iterator to all the children.


	element management
	~~~~~~~~~~~~~~~~~~

	The most important function of the GstBin is to distribute all GstElement
	operations on itself to all of its children. This includes:

	- state changes
	- index get/set
	- clock get/set

	The state change distribution is the most complex and is explained in
	part-states.txt.

	GstBus
	~~~~~~

	The GstBin creates a GstBus for its children and distributes it when child
	elements are added to the bin. The bin attaches a sync handler to receive
	messages from children. The bus for receiving messages from children is
	distinct from the bin's own externally-visible GstBus.

	Messages received from children are forwarded intact onto the bin's
	external message bus, except for EOS and SEGMENT_START/DONE which are
	handled specially.

	ASYNC_START/ASYNC_STOP messages received from the children are used to
	trigger a recalculation of the current state of the bin, as described in
	part-states.txt.

	The application can retrieve the external GstBus and integrate it in the
	mainloop or it can just _pop() messages off in its own thread.

	When a bin goes to READY it will clear all cached messages.


	EOS
	~~~

	The sink elements will post an EOS message on the bus when they reach EOS. The
	EOS message is only posted to the bus when the sink element is in PLAYING.

	The bin collects all EOS messages and forwards it to the application as
	soon as all the sinks have posted an EOS.

	The list of queued EOS messages is cleared when the bin goes to PAUSED
	again. This means that all elements should repost the EOS message when going
	to PLAYING again.


	SEGMENT_START/DONE
	~~~~~~~~~~~~~~~~~~

	A bin collects SEGMENT_START messages but does not post them to the application.
	It counts the number of SEGMENT_START messages and posts a SEGMENT_STOP message
	to the application when an equal number of SEGMENT_STOP messages where received.

	The cached SEGMENT_START/STOP messages are cleared when going to READY.


	DURATION
	~~~~~~~~

	When a DURATION query is performed on a bin, it will forward the query to all
	its sink elements. The bin will calculate the total duration as the MAX of all
	returned durations and will then cache the result so that any further query can
	use the cached version. The reason for caching the result is because the
	duration of a stream typically does not change that often.

	A GST_MESSAGE_DURATION_CHANGED posted by an element will clear the cached
	duration value so that the bin will query the sinks again. This message is
	typically posted by elements that calculate the duration of the stream based
	on some average bitrate, which might change while playing the stream. The
	DURATION_CHANGED message is posted to the application, which can then fetch
	the updated DURATION.


	Subclassing
	~~~~~~~~~~~

	Subclasses of GstBin are free to implement their own add/remove implementations.
	It is a good idea to update the GList of children so that the _iterate() functions
	can still be used if the custom bin allows access to its children.

	Any bin subclass can also implement a custom message handler by overriding the
	default message handler.