Decodebin design

GstDecodeBin
------------

Description:

  Autoplug and decode to raw media

  Input : single pad with ANY caps Output : Dynamic pads

* Contents

  _ a GstTypeFindElement connected to the single sink pad

  _ optionnaly a demuxer/parser

  _ optionnaly one or more DecodeGroup

* Autoplugging

  The goal is to reach 'target' caps (by default raw media).

  This is done by using the GstCaps of a source pad and finding the available
demuxers/decoders GstElement that can be linked to that pad.

  The process starts with the source pad of typefind and stops when no more
non-target caps are left. It is commonly done while pre-rolling, but can also
happen whenever a new pad appears on any element.

  Once a target caps has been found, that pad is ghosted and the
'new-decoded-pad' signal is emitted.

  If no compatible elements can be found for a GstCaps, the pad is ghosted and
the 'unknown-type' signal is emitted.


* Assisted auto-plugging

  When starting the auto-plugging process for a given GstCaps, two signals are
emitted in the following way in order to allow the application/user to assist or
fine-tune the process.

  _ 'autoplug-continue' :

    gboolean user_function (GstElement * decodebin, GstPad *pad, GstCaps * caps)

    This signal is fired at the very beginning with the source pad GstCaps. If
  the callback returns TRUE, the process continues normally. If the callback
  returns FALSE, then the GstCaps are considered as a target caps and the
  autoplugging process stops.

  - 'autoplug-factories' :

    GValueArray user_function (GstElement* decodebin, GstPad* pad, 
         GstCaps* caps);

    Get a list of elementfactories for @pad with @caps. This function is used to
    instruct decodebin2 of the elements it should try to autoplug. The default
    behaviour when this function is not overridern is to get all elements that
    can handle @caps from the registry sorted by rank.

  - 'autoplug-select' :

    gint user_function (GstElement* decodebin, GstPad* pad, GstCaps* caps,
                GValueArray* factories);

    This signal is fired once autoplugging has got a list of compatible
  GstElementFactory. The signal is emitted with the GstCaps of the source pad
  and a pointer on the GValueArray of compatible factories.

    The callback should return the index of the elementfactory in @factories
    that should be tried next.

    If the callback returns -1, the autoplugging process will stop as if no
  compatible factories were found.

  The default implementation of this function will try to autoplug the first
  factory of the list.

* Target Caps

  The target caps are a read/write GObject property of decodebin.

  By default the target caps are:

  _ Raw audio : audio/x-raw-int, audio/x-raw-float

  _ and raw video : video/x-raw-rgb, video/x-raw-yuv

  _ and Text : text/plain, text/x-pango-markup


* media chain/group handling

  When autoplugging, all streams coming out of a demuxer will be grouped in a
DecodeGroup.

  All new source pads created on that demuxer after it has emitted the
'no-more-pads' signal will be put in another DecodeGroup.

  Only one decodegroup can be active at any given time. If a new decodegroup is
created while another one exists, that decodegroup will be set as blocking until
the existing one has drained.



DecodeGroup
-----------

Description:

  Streams belonging to the same group/chain of a media file.

* Contents

  The DecodeGroup contains:

  _ a GstMultiQueue to which all streams of a the media group are connected.

  _ the eventual decoders which are autoplugged in order to produce the
  requested target pads.

* Proper group draining

  The DecodeGroup takes care that all the streams in the group are completely
drained (EOS has come through all source ghost pads).

* Pre-roll and block

  The DecodeGroup has a global blocking feature. If enabled, all the ghosted
source pads for that group will be blocked.

  A method is available to unblock all blocked pads for that group.
 


GstMultiQueue
-------------

Description:

  Multiple input-output data queue
  
  The GstMultiQueue achieves the same functionnality as GstQueue, with a few
differences:

  * Multiple streams handling.

    The element handles queueing data on more than one stream at once. To
  achieve such a feature it has request sink pads (sink_%d) and 'sometimes' src
  pads (src_%d).

    When requesting a given sinkpad, the associated srcpad for that stream will
  be created. Ex: requesting sink_1 will generate src_1.


  * Non-starvation on multiple streams.

    If more than one stream is used with the element, the streams' queues will
  be dynamically grown (up to a limit), in order to ensure that no stream is
  risking data starvation. This guarantees that at any given time there are at
  least N bytes queued and available for each individual stream.

    If an EOS event comes through a srcpad, the associated queue should be
  considered as 'not-empty' in the queue-size-growing algorithm.


  * Non-linked srcpads graceful handling.

    A GstTask is started for all srcpads when going to GST_STATE_PAUSED.

    The task are blocking against a GCondition which will be fired in two
  different cases:

    _ When the associated queue has received a buffer.

    _ When the associated queue was previously declared as 'not-linked' and the
    first buffer of the queue is scheduled to be pushed synchronously in
    relation to the order in which it arrived globally in the element (see
    'Synchronous data pushing' below).

    When woken up by the GCondition, the GstTask will try to push the next
  GstBuffer/GstEvent on the queue. If pushing the GstBuffer/GstEvent returns
  GST_FLOW_NOT_LINKED, then the associated queue is marked as 'not-linked'. If
  pushing the GstBuffer/GstEvent succeeded the queue will no longer be marked as
  'not-linked'.

    If pushing on all srcpads returns GstFlowReturn different from GST_FLOW_OK,
  then all the srcpads' tasks are stopped and subsequent pushes on sinkpads will
  return GST_FLOW_NOT_LINKED.

  * Synchronous data pushing for non-linked pads.

    In order to better support dynamic switching between streams, the multiqueue
  (unlike the current GStreamer queue) continues to push buffers on non-linked
  pads rather than shutting down. 

    In addition, to prevent a non-linked stream from very quickly consuming all
  available buffers and thus 'racing ahead' of the other streams, the element
  must ensure that buffers and inlined events for a non-linked stream are pushed
  in the same order as they were received, relative to the other streams
  controlled by the element. This means that a buffer cannot be pushed to a
  non-linked pad any sooner than buffers in any other stream which were received
  before it.