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351 lines
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This document was created by editing together a series of emails and IRC logs.
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This means that the language might seem a little weird at places, but it should
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outline most of the thinking and design adding MIDI support to GStreamer so far.
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Authors of this document include:
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Steve Baker <steve@stevebaker.org>
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Leif Johnson <leif@ambient.2y.net>
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Andy Wingo <wingo@pobox.com>
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Christian Schaller <Uraeus@gnome.org>
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About MIDI
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----------
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MIDI (Musical Instrument Digital Interface) is used mainly as a communications
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protocol for devices in a music studio. These devices could be physical entities
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(e.g. synthesizers, sequencers, etc.) or purely logical (e.g. sequencers or
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filter banks implemented as software applications).
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The MIDI specification essentially consists of a list of MIDI messages that can
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be passed among devices ; these messages (also referred to as "events") are
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usually things like NoteOn (start playing a sound), NoteOff (stop playing a
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sound), Clock (for synchronization), ProgramChange (for signaling an instrument
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or program change), etc.
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MIDI is different from other cross-device or inter-process streaming methods
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(e.g. JACK and possibly some CORBA implementations) because MIDI messages are
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discrete and usually only exchanged a few times per second ; the devices
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involved are supposed to interpret the MIDI messages and produce sounds or
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signals. The devices in a MIDI chain typically send their audio signals out on
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separate (physical) cables or (logical) channels that have nothing to do with
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the MIDI chain itself.
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We want to have MIDI messages available in GStreamer pipelines because MIDI is a
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common protocol in many existing studios, and MIDI is more or less a standard
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for inter-device communications. With MIDI support in GStreamer we can look
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forward to (a) controlling and being controlled by external devices like
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keyboards and sequencers, and (b) synchronizing and communicating among multiple
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applications on a studio computer.
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GStreamer and MIDI
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------------------
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MIDI could be thought of in terms of dataflow as a sparse, non-constant flow of
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bytes. GStreamer works best with near-constant data flow, so a MIDI stream would
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probably have to consist mostly of filler events, sent at a constant tick rate.
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It makes the most sense at this point to distribute MIDI events in a GStreamer
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pipeline as a sequence of subclasses of GstEvent (GstMidiEvent or suchlike).
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On-the-wire hardware MIDI connections run at a fixed data rate:
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The MIDI data stream is a unidirectional asynchronous bit stream at 31.25
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Kbits/sec. with 10 bits transmitted per message (a start bit, 8 data bits, and
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one stop bit).
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Which is to say, 3125 bytes/sec. I would assume that the rawmidi interface would
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already filter out the stop and start bits? dunno. How about the diagram on[1],
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I found that to be useful. The MIDI specification is also available (though I
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can't find it online at the moment ... might have to buy a copy), and there are
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several tutorial and help pages (just google for MIDI tutorial).
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There's another form of MIDI (the common usage?), "Standard MIDI files," which
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essentially specify how to save and restore MIDI events in a file. We'll talk
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about that in a bit.
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[1] http://www.philrees.co.uk/#midi
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MIDI and current Linux/Unix audio systems
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-----------------------------------------
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We don't know very much about the OSS MIDI interface; apparently there exists an
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evil /dev/sequencer interface, and maybe a better /dev/midi* one. I only know
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this from overhearing it from people. For latency reasons, the ALSA MIDI
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interface will be much more solid than using these devices ; however, the
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/dev/midi* devices might be more of a cross-platform standard.
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ALSA has a couple ways to access MIDI devices. One way is the sequencer API.
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There's a tutorial[1], and some example code[2] -- the paradigm is 'wait on some
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event fd's until you get an event, then process the event'. Not very
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GStreamer-like. This API timestamps the events, much like Standard MIDI files.
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The other way to use MIDI with alsa is with the rawmidi interface. There is a
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canonical reference[3] and example code, too[4]. This is much more like
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GStreamer. I do wonder about the ability to connect to other sequencer clients,
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though...
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[1] http://www.suse.de/~mana/alsa090_howto.html#sect04
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[2] http://www.suse.de/~mana/seqdemo.c
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[3] http://www.alsa-project.org/alsa-doc/alsa-lib/rawmidi.html#rawmidi
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[4] http://www.alsa-project.org/alsa-doc/alsa-lib/_2test_2rawmidi_8c-example.html#example_test_rawmidi
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Getting MIDI into GStreamer
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---------------------------
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All buffers are timestamped, and MIDI buffers should be no exception. A buffer
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with MIDI data will have a timestamp which says exactly when the data should be
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played. In some cases this would mean a buffer contains just a couple of bytes
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(eg, NoteOn). If this turns out to be inefficient we can deal with that later.
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In addition to integrating more tightly with GStreamer audio pipelines (see the
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dparams and midi2pcm sections below), there are several elements that we will
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need for basic MIDI interaction in GStreamer. These basics include file parsing
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and encoding (is that the opposite of parsing ?), and direct hardware input and
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output. We'll also probably need a more generic sequencer interface for defining
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elements that are capable of sending and receiving this type of nonlinear stream
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information.
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For these tasks, we need to define some MIME types, some general properties, and
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some MIDI elements for GStreamer.
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Types :
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- MIDI being passed to/from a text file : audio/midi (This is in my midi.types
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file, associated with a .midi or .mid extension. It seems analogous to a .wav
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file, which contains "audio/x-wav" type information.)
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- MIDI in a pipeline : audio/x-gst-midi ?
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Properties :
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- tick rate : (default to 96.0, or something like that) This is measured in
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ticks per quarter note (or "pulses per quarter note" (ppqn) to be picky). We
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should use float for this so we can support nonstandard (fractional)
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tempos.
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- tempo : (default to 120 bpm) This can be measured in bpm (beats per minute,
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the musician's viewpoint), or mpq (microseconds per quarter note, the unit
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used in a MIDI file[1]). Seems like we might want a query format for these
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different units ? Or maybe we should just use MPQ and leave it to apps to do
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conversions ?
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Elements :
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- midiparse : audio/midi -> audio/x-gst-midi
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This element converts MIDI information from a file into MIDI signals that can
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be passed around in GStreamer pipelines. This would parse so-called Standard
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MIDI files (and XML format MIDI files ?). Standard MIDI files are just
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timestamped MIDI data; they don't run at a constant bitrate, and for that
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reason you need this element.
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The timestamps that this element produces would be based on the tempo
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property, and the time deltas of the MIDI file data. If no data exists for a
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given tick, the element can just send a filler event.
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The element should support both globbing and streaming the file. Streaming it
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is the most GStreamerish way of handling it, but there are MIDI file formats
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which are by definition unstreamable, therefore a MIDI plugin needs to support
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streaming and globbing - and globbing might be easiest to implement first. The
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modplug plugin also reads an entire file before playing so its a valid
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technique.
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- ossmidisink : audio/x-gst-midi -> hardware
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Could be added to the existing OSS plugin dir, sends MIDI data to the OSS MIDI
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sequencer device (/dev/midi). Makes extensive use of GstClock to send out data
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only when the buffer/event timestamp says it should. (Could instead use the
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raw MIDI device for clocking, doesn't matter which.)
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- alsamidisink : audio/x-gst-midi -> ALSA rawmidi API
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Guess what this does. Don't know whether alsa's sequencer interface would be
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better than its rawmidi one. Probably rawmidi?
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- ossmidisrc, alsamidisrc : hardware -> audio/x-gst-midi
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Real time midi input. This needs to be from the rawmidi APIs.
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It seems like we could implement a class hierarchy around these elements. We
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could use a GstMidiElement superclass, which would include the above properties
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and contain utility functions for things like reading from the clock and
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converting between different time measurement units. From this element we ought
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to have GstMidiSource, GstMidiFilter, and GstMidiSink parent classes. (Maybe
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that's overkill ?) Each of these MIDI elements listed above could then inherit
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from an appropriate superclass.
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We also need an interface (GstSequencer) to allow multiple implementations for
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one of the most common MIDI tasks (duh, sequencing). The midisinks could
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implement this interface, as could other soft-sequencer elements like
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playondemand. The sequencer interface needs to be able to support MIDI
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sequencing tasks, but it should support more generic sequencing concepts.
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As you might have guessed, getting MIDI support into GStreamer is thus a matter
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of (a) creating a series of elements that handle MIDI data, and (b) creating a
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sort of MIDI library (like Timidity ?) that basically includes #defines for MIDI
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message codes and stuff like that. This stuff should be coded in the gst-plugins
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module, under gst-libs/gst/sequencer (for the interface) and
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gst-libs/gst/audio/midi/ (for the defines and superclasses).
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Of course, this is just the basics ... read on for the really gory future stuff.
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:)
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[1] http://www.borg.com/~jglatt/tech/midifile/ppqn.htm
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Looking ahead
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-------------
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- MIDI to PCM
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It would be nice to be able to transform MIDI (audio/midi) to audio
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(audio/x-raw-{int|float}), which could be further processed in a GStreamer
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pipeline. In effect this would be using GStreamer as some kind of softsynth.
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The first way to do this would be to send MIDI data to softsynths and get audio
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data out. There's a very, very nice way of doing this in ALSA (the sequencer
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API). Timidity can already register itself as a sequencer client, as can
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amSynth, AlsaModularSynth, SpiralSynth, etc... and these latter ones are *much*
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more interesting. This is the proper, IMHO, way of doing things.
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But, the other question is getting that data back for use by GStreamer. In that
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sense a librafied Timidity would be useful, I guess... see the thing is that all
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of these sequencer clients probably want to output to the sound card directly,
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although they are configurable. In this, the musician's only hope is Jack. If
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the synth is jacked up, we can get its output back into GStreamer. If not, oh
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well, it's gone ...
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- MIDI to dparams
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Once we have MIDI streams, we can start doing fun things like writing a
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midi2dparams element which would map midi data to control the dynamic parameters
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of other elements, but lets not get ahead of ourselves.
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Which gets back to MIDI. MIDI is a representation of control signals. So all you
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need are elements to convert that representation to control signals. In
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addition, you'd probably want something like SuperCollider's Voicer element --
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see [1] for more information on that.
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All of this is pretty specific to a synthesizer system, and rightly so :
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multiple projects use it it could go in some kind of library or what-what but
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otherwise it can stay in individial projects.
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[1] http://www.audiosynth.com/schtmldocs/Help/Unit_Generators/Spawners/Voicer.help.html
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On using dparams for MIDI
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-------------------------
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You might might want to look into using dparams if:
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- you wanted your control parameters to change at a higher rate thanyour buffer
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rate (think zipper noise and sample-granularity-interpolation)
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- you wanted a better way to store and represent control data than midifiles
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- We wrote a linear interpolation time-aware dparam so that we could really
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demonstrate what they're good for.
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It was always the intention for dparams to be able to send values to and get
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values from pads. All we need is some simple elements to do the forwarding.
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Possible inefficiency remedy : GstControlPad
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--------------------------------------------
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If it turns out that sending MIDI events spaced out with filler (blank) events
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isn't efficient enough, we'll need to look into implementing something new ; for
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now, though, we'll just try the simple approach and hope our CPUs are fast
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enough. But read on for a little brainstorming.
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It seems like GStreamer could benefit from a different subclass of GstPad,
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something like GstControlPad. Pads of this type could contain control data like
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parameters for oscillators/filters, MIDI events, text information for subtitles,
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etc. The defining characteristic of this type of data is that it operates at a
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much lower sample rate than the multimedia data that GStreamer currently
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handles.I think that control data can be sent down existing pads without making
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any changes.
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GstControlPad instances could also contain a default value like Wingo has been
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pondering, so apps wouldn't need to connect actual data to the pads if the
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default value sufficed. There could also be some sweet integration with dparams,
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it seems like.If you want a default value on a control pad, just make the source
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element send the value when the state changes. Elements that have control pads
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could also have standard GstPads, and I'd imagine there would need to be some
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scheduler modifications to enable the lower processing demands of control pads.
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An example : integrating amSynth[1]
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-----------------------------------
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We would want to be able to write amSynth as a plugin. This would require that
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when the process function is called, we have a MIDI buffer as input, containing
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how ever many MIDI events occurred in, say, 1/100 sec for example, and then we
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generate an audio buffer of the same time duration...)
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Maybe this will indicate the kind of problems to be faced. GStreamer has solved
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this problem for audio/video syncing, so you should probably do it the same way.
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The first task would be to make this pipeline work:
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filesrc location=foo.mid ! midiparse ! amSynth ! osssink
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midiparse will take MIDI file data as an input, and produce timestamped MIDI
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buffers as output. It could have a beats-per-minute property as mentioned above
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to specify how the MIDI beat offsets are converted to timestamps.
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An amSynth element should be a loop element. It would read MIDI buffers until it
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has more than enough to produce audio for the duration of one audio buffer. It
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knows it has enough MIDI buffers by looking at the timestamp. Because amSynth is
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setting the timestamps on the audio buffers going out, a MIDI sink element would
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know when to play them. Once this is working, a more challenging pipeline might
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be :
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alsamidisrc ! amSynth ! alsasink
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This would be a real-time pipeline : any MIDI input should instantly be
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transformed into audio. You would have small audio buffers for lowlatency (64
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samples seems to be typical).
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This is a problem for amSynth because it can't sit there waiting for more MIDI
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just in case there is more than one MIDI event per audio buffer. In this case
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you could either :
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- listen to the clock so you know when its time to output the buffer
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- have some kind of real-time mode for amSynth which doesn't wait forMIDI events
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which may never come
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- have alsamidisrc produce empty timestamped MIDI buffers so that amSynth knows
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that is time to spit out some audio.
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[1] http://amsynthe.sourceforge.net/amSynth/index.html
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Extended midi files : .kar and karaoke
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-----------------------------------
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KAR files are standard MIDI files that also contain a stream with lyrics, for karaoke,
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synchronised on music. MIDI players play them without any problem, ignoring the
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additional data.
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It is the more widespread karaoke file format. (one other beeing .kok files, for mp3)
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KAR files are based on standard MIDI files with the following additional events:
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The KAR text meta events start with an @ followed by a character indicating
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the type of KAR text meta event, then followed by text for that event. The
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following text meta events occur embedded in regular MIDI text events:
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FileType: @KMIDI KARAOKE FILE
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Version: @V0100
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Information: @I<text>
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Language: @LENGL
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Title 1: @T<title>
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Title 2: @T<author>
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Title 3: @T<copyright>
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The following lyric text indicators are defined. A \ (backslash) in the
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text is to clear the screen. A / (forwardslash) in the text is a line feed
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(next line).
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Some more info on the data format could be found at those locations :
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http://www.krazykats-karaoke.co.uk/file_formats.html
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http://www.wotsit.org/download.asp?f=kar
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http://filext.com/detaillist.php?extdetail=KAR
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Some Linux players that handle this format :
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http://lmuse.sourceforge.net/files.php
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http://sourceforge.net/projects/gkaraoke/
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