gstreamer/docs/random/phonon-gst

Phonon backend
--------------

 The phonon design is based around forming graphs using 3 basic components:

 - a source component that generates raw audio/video/subtitle data, aka
   MediaObject. 
 - an effect component that applies effects to raw audio/video known as
   AudioPath/VideoPath respectively. Subtitles are routed to a VideoPath
 - output components that render audio or video called AudioOutput and
   VideoOutput.

  there is also a special input object that allows for feeding raw data in the
  pipeline and specialized sinks to retrieve audio samples and video frames from
  the pipeline.

 A typical graph or a source that produces an audio and a video stream that
 need to be played. The VideoPath and AudioPath typically contain no filters
 in this case:

                     +----+  +---
                     | FX |  | ...
                     +----+  +---
                       V       V
                      +-----------+      +-------------+
                ----->| VideoPath |----->| VideoOutput |
                |     +-----------+      +-------------+
    +-------------+
    | MediaObject |
    +-------------+
                |     +-----------+      +-------------+
                +---->| AudioPath |----->| AudioOutput |
                      +-----------+      +-------------+
                       ^       ^
                     +----+  +---
                     | FX |  | ...
                     +-+--+  +---

   - This is very similar to a regular gstreamer playback pipeline.

  A typical graph of playing and crosfading two sources:

                          +--------+
                          | volume |
                          +--------+
                              V  
     +-------------+    +-----------+                    
     | MediaObject |--->| AudioPath |\                    
     +-------------+    +-----------+ \     +-------------+
                                       ---->| AudioOutput |
     +-------------+    +-----------+ /     +-------------+
     | MediaObject |--->| AudioPath |/                    
     +-------------+    +-----------+                    
                              ^  
                          +--------+
                          | volume |
                          +--------+

  - As soon as two audio paths are connected to one sink, the input signals are
    mixed before sending them to the sink. The mixing is typically done in the
    audio sink by an element such as adder.

  Other types of graphs are possible too:

                        +-----------+                    
                       /| AudioPath |\                    
     +-------------+  / +-----------+ \     +-------------+
     | MediaObject |--                 ---->| AudioOutput |
     +-------------+  \ +-----------+ /     +-------------+
                       \| AudioPath |/
                        +-----------+                    

  - This graph sends the same out data to 2 effect filter graphs and then mixes
    it to an audio output. The splitting of the graph typically happens with a
    tee element after the media object.


Questions
---------

 1) do the following chains run
 
    - synchronized with a shared clock?

     +-------------+    +-----------+    +-------------+                
     | MediaObject |--->| AudioPath |--->| AudioOutput |
     +-------------+    +-----------+    +-------------+

     +-------------+    +-----------+    +-------------+                
     | MediaObject |--->| VideoPath |--->| VideoOutput |
     +-------------+    +-----------+    +-------------+

    - no API to set both MediaObjects atomically to play so it is assumed that
      the playback starts and follows the rate of the global clock as soon as
      the MediaObject is set to play. This makes unconnected chains run as if
      they were in different GstPipelines.

 2) Threading:

   - Can signals be emited from any thread?
   - what operations are permited from a signal handler?

 3) Error reporting

   - How does error reporting work?
     * an audio/video device/port is busy.
     * a fatal decoding error occured.
     * a media type is not supported


General
-------

 - Setting up KDE and Phonon build environment
 - Testing, identifying test applications, building test cases
 - Asking questions to Phonon maintainers/designers

Essential classes
-----------------

These classes are essential to implement a backend and should be implemented
first. 

Phonon::BackendCapabilities

  Mostly exposes features in the registry like available decoders and effects.

Phonon::Factory

  Entry point for the GStreamer backend. Provides methods to create instances of
  object from our backed.


Simple playback
---------------

The following classes need to be implemented in order to have simple playback
capabilities from the backend.

Phonon::AudioOutput

  - Wrapper around audiosinks. Also needs provision for rate and format
    conversions.  
  - Mixing capabilities in the case when 2 audio paths are routed to it. 

 Notes:

  * is the volume related to the device or to the connection to the device.

Phonon::VideoWidget

  - Wrapper around videosinks. Also needs provision for colorspace and size
    conversions.  Extends QWidget and probably needs to hook into the XOverlay
    stuff to draw in the QT widget.  Supports fullscreen mode with a switch.

  - Needs mixing capabilities in the case when 2 video paths are routed to it. 

Phonon::AbstractMediaProducer

  - contains stream selection
  - play/pause/stop
  - seeking
  - periodically performs tick callbacks.

Phonon::MediaObject:

  - The object that decodes the media into raw audio/video/subtitle.
    This object will use the GStreamer decodebin element to perform the
    typefinding and decoding.

Phonon::AudioPath/Phonon::VideoPath

  - Simple container for audio/video effect plugins. 
  - Handles adding/removing of effects, making sure that the streaming is not
    interrupted and the formats are all compatible.


Effect support
--------------

Phonon::Visualization

  Connects an AudioPath to a VideoWidget and allows for selection of a
  visualisation plugin.

Phonon::AudioEffect/Phonon::VideoEffect

  Base classes

Phonon::VolumeFaderEffect

  Alows fade-in and fade-out with a configurable curve and time. Needs
  GstController.

Phonon::BrightnessControl

  Controls the brightness of video.


Playlist support
----------------

Phonon::MediaQueue:

  ?? don't know yet where this fits in.


Capture
-------

Phonon::AvCapture

  Synchronized audio and video capture. 

Phonon::AudioWriter

  Compress audio.


Advanced features
-----------------
 
Phonon::ByteStream

  Feed raw data into the pipeline. Used for streaming network access.

 Implementation:

  Possibly a specialized source element connected to a decodebin.

 Notes:

  * Phonon::ByteStream::writeData
   - can it block?

  * Phonon::ByteStream::setStreamSeekable
   - If called before starting the ByteStream, decodebin might operate in pull
     based mode when supported. Else the source is activated in push mode.
   - If called after starting ByteStream, the Phonon::ByteStream::seekStream
     signal can be called for push-based seekable streams.

  * Can the signals be emited from a streaming thread?
   

Phonon::AudioDataOutput/Phonon::VideoDataOutput/

  Receive raw audio/video data from the pipeline. Used to allow applications to
  deal with the raw data themselves.

 Implementation:

  Possibly a specialized sink element.

 Notes :

  * Phonon::AudioDataOutput::dataReady
    - can this be emited from the streaming threads?

  * Phonon::AudioDataOutput::endOfMedia 
    - can this be emited from the streaming threads?
    - We need to grab this EOS message synchronously from the bus.
    - should be emited _before_ sending the last dataReady. This means we need
      to cache at least one dataReady.

  * Phonon::AudioDataOutput::setDataSize
    - can this be a _suggested_ data size or does every callback need to be of
      this size?