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! title The Non Sequencer
! author Jonathan Moore Liles #(email,wantingwaiting@users.sf.net)
! date Oct 13 2007
! keywords Non Jack ALSA FLTK
! extra #(url,http://non.tuxfamily.org,Home)
--
: Description
< non-new-about.png
:: Guiding Principles
+ Flexibility
+ Efficiency
+ Purpose
+ Grace
Non has many modes and functions. Where flexibility comes at a small
cost, we prefer to be flexible and make up the difference
elsewhere. Where arbitrary limitations are reasonable and necessary,
Non enforces them, but not without being forced into it. Where it is
easier to be inefficient than efficient, but the efficiency matters,
we prefer to put in the (small amount of) work required to be
efficient, often resulting in thousand-fold performance gains; this
may sound like an obvious statement, but, in fact, design for
efficiency is a rare practice in this (Linux Audio/'Modern'
software) arena. Although it is tempting to implement a kitchen sink
in every program, we resist the urge. Non has the purpose of being a
real-time sequencer and anything outside of that scope is a job for
another day. If there is something related to the task at hand that
a computer can do instantly and easily, but which requires labor for
you, Non tries to do it for you so that you can continue making
music without being bothered. Non's user interface is designed to
combine the stark functionality and speed of hardware with the
degrees of freedom of software.
: The Interface
The interface is quite simple and is based on the excellent FLTK
(1.1.x) toolkit. (Versions \< 1 of Non were based on raw Xlib and a
few Motif widgets.) The author examined many toolkits before
beginning, and has absolutely no interest in pursuing GTK or Qt--Non
simply doesn't require much of a toolkit, and these are incapable of
providing less than total excess.
Non's GUI is highly optimized. Common operations are designed to be
as fast as possible. Where other sequencers completely monopolize
the CPU when scrolling, etc., Non performs smoothly--even on
antiquated hardware. It is not technically difficult to achieve
such speed. And, in fact, it is a shame that more developers don't
consider good (or even just reasonable) performance a priority.
:: The Pattern Editor
< non-pattern-editor.png
Upon invocation, Non enters the pattern editor and loads Pattern
1. The pattern editor presents a grid interface--the heart a step
sequencer. You can toggle a note on the grid by entering its
coordinates with the keyboard or clicking an intersection with the
mouse. The length of patterns is unlimited and no special action is
required lengthen them (simply adding notes beyond the "end" is
enough.) Non can present grids in one of two modes, expanded and
compacted. In the compacted view, only named rows are displayed;
this means that only the notes the current instrument or scale will
consume vertical space--resulting in far more efficient use of
screen real-estate. Any notes are made invisible by the compacted
view will be silenced.
You may add, remove, transpose, move, and edit notes, as well as
trigger/mute patterns, while the transport is running.
The resolution of the pattern display can be adjusted (the default
is one point per 1\/16th note), and, additionally, the canvas can be
zoomed horizontally and vertically as necessary. However, it is
highly recommended that you avoid creating 'vertical' compositions,
that is, one should place each part in a separate pattern and avoid
the need to scroll about looking for notes.
Tonic patterns have a choice of scale and key, which limits the
display to only valid notes. This /row-compaction/ can be turned
off, if desired, so that all 128 notes are visible. Or simply choose
the /chromatic/ mapping if you are not creating scale based music.
Percussion, or other sample-based patterns can be assigned an
/instrument/ mapping, which again limits the display to only those
notes for which names and volumes have been provided. The instrument
definition format is simple ASCII file containing one name, note and
volume percentage per line.
Individual patterns may be soloed or muted right from the pattern
editor.
Each pattern has a setting for output MIDI channel and sequencer
port--and these may also be changed while the transport is running.
::: The Notes
The type (duration) of note to be inserted can be adjusted in the
pattern editor (control+mouse-wheel). The velocity of individual
notes may be adjusted (mouse-wheel), and is the current value is
reflected in the color of the note. Ranages may also be /inserted/
and /deleted/, a commonly required operation during composition, but
one that is, sadly, missing from many sequencers.
< non-cursors.png
::: Recording
A pattern can be recorded via MIDI in one of four modes:
= Merge (the most familiar/least useful)
= In this mode recorded events are merged into the pattern on each pass
= through the loop. This is how most sequencers work, but it usually just
= results in a jumble of notes that require much manual cleaning up.
= Overwrite (each pass [with input] replaces the previous contents of the pattern)
= This is like merge mode, except that the pattern is cleared before
= the recorded events are input. If note notes have been played during
= a loop, the pattern remains unchanged. This is a great way to just get
= a part down without having to remove your hands from the instrument.
= Layer (each pass [with input] goes into a new pattern)
= This is just like overwrite mode, except that the pattern actually
= overwritten is a duplicate. Use this mode to record several loops of
= the same length without removing your hands from the instrument.
= New
= In this mode, all recorded events are placed into a new pattern (of
= whatever length) when recording is stopped.
# It is especially useful if you bind Record to a MIDI footswitch.
::: The Event Editor
< non-event-editor-notes.png
For situations requiring close inspection, fine-adjustments or
entering of non-note data, the Event Editor allows one to edit the
raw MIDI event list of a pattern. A common use is to insert program
or control change events.
Like everything else in Non, the Event Editor is real-time--change a
note and you'll see and hear the result as the pattern plays.
:: The Phrase Editor
Phrases are to patterns as patterns are to notes. Switching to the
Phrase Editor brings up Phrase 1, where each row corresponds to an
existing /pattern/. The grid of the Phrase Editor is fixed at one
column-per-beat. This view is somewhat similar to a timeline view in
other sequencers, but do not be deceived--Phrases may be many in
number and are triggered just like patterns.
When a node on the Phrase Editor grid is activated, the length of
the cue event inserted will be the same as that of the pattern being
triggered. Adjusting the duration of this event will cause the
pattern be cut short or looped. If the length of a referenced
pattern is changed, this will *not* be reflected in the Phrase
display. You must either re-insert or adjust the length of the
reference.
It is recommended that, to avoid confusion, you first compose all of
the patterns you need for a phrase, and only then bring up the
phrase editor.
Editing operations are the same as those for the Pattern Editor.
:: The Sequence Editor
The Sequence Editor defines the sequence of playback. The interface
is a list of phrases, to be played sequentially, beginning from bar
1. It is not necessary to include all existing phrases in the
playlist. Phrases can be moved up and down the playlist, inserted
and deleted. The editor displays the start bar of each phrase in
addition to its number and name.
This sequence->phrase->pattern hierarchy allows for logical,
expressive compositions--without the labor intensive
copy/paste/duplicate work-flow imposed by other sequencers.
For example, suppose you have a song with a 12 bar progression that
repeats 4 times. This 12 bar sequence is composed of many patterns,
each a few measures in length and roughly corresponding to the
chords in the progression.
In another sequencer you would be required to use clumsy copy\/paste
operations to destructively extend the 12 bar sequence. Then if you
wanted to change a part of that subsequence later, you would have to
go edit each instance of it on the 'timeline' view. This is absurdly
inefficient for the operator.
In Non you simply create your patterns, assemble them into logical
phrases, and then assemble these phrases into a sequence that
determines the entire song. This approach is similar to the
bottom-up approach of factored languages such as Forth.
:: Pattern Triggers
< non-pattern-triggers.png
Next to the sequence playlist is an array of pattern triggers. Here
one can monitor the progress of multiple patterns during playback
and cause them to be muted etc.
The left mouse button toggles muting, the middle button toggles
soloing, and the right button brings up the given pattern in the
pattern editor.
Playing patterns appear green, the solo pattern appears red, and
muted patterns appear gray,
: MIDI
:: IO
Non utilizes the Jack MIDI transport. Jack MIDI is an emerging MIDI
transport for Linux. Since Jack already provides similar routing as
the ALSA Sequencer interface, little is lost--besides compatibility
with existing programs. (Jack has an aseq bridge capability, but in
order to benefit from Jack MIDI, both sequencer and synth must use
Jack). The Jack MIDI API is extremely limited in comparison to the
very capable ALSA API, but this is a problem for the programmer, not
the user.
At the time of writing, Non is one of only two sequencers to use
Jack MIDI natively.
:: Non Files
The format of `.non` files is a variation of SMF-2. In an SMF-2
file, each track chunk represents a pattern. Because Non groups
patterns into /phrases/, this usage of SMF-2 is probably not
compatible with other implementations (although, the author has
never actually seen another program that could play back SMF-2
anyway.)
Each phrase is stored as a track of MIDI Cue messages, each
referring to a pattern to be triggered. The sequence\/playlist is
stored as the first track, and consists of a list of Cue Point
meta-events referring to phrases.
Also in the first track is a sequencer specific meta-event (ID
"Non!") containing song data that cannot be readily expressed with
existing meta events, and some versioning info to aid future
compatibility.
In short, the author has done the utmost to save sequences in a
standard format--within reason; SMF was hardly designed with a
program like Non in mind--instead of some ad-hoc ASCII format (which
would have been *far* easier to implement), or worse, buggy, bulky,
and unmaintainable XML.
:: Exports
In addition to saving and loading `.non` files, Non can export
individual patterns as flat, SMF-0 MIDI files.
:: Imports
SMF-0 files can be imported as a new pattern (all channels merged),
or SMF-1 (such as those written by Seq24) and SMF-2 (ever seen one
of these?) can be imported as N new patterns (selected from a track
list.) All imported patterns are set to display the Chromatic scale,
in order that no notes be hidden from view.
This should make it easy to migrate any existing patterns that you
may have over to Non, or to permit editing of Non patterns in
external programs (for graphic controller tweaking perhaps?)
: Synchronization
Non's transport is driven by the Jack Transport, so in order to sync
Non with a DAW like Ardour, you must set Ardour to be the Jack
Timebase Master. Therefore, all tempo mapping and time signature
information should be manipulated in the Timebase Master--Non will
respond to these changes automatically. If there is no Timebase
Master registered when Non starts, it will take over that role
instead. This is useful if you simply plan to use Non as a musical
instrument.
: Control
Non creates two MIDI input ports, one for /performance/ data and one
for /control/ data. The control port is used to control Non with
hardware MIDI controllers, such as the BCF2000, or other software.
The performance port is used to record musical data into patterns.
: Playback
The playback mode can be toggled between Pattern, Sequence and
Trigger. In Pattern mode (the default), all patterns are played
simultaneously, from the beginning, and looped forever. Since
patterns may differ widely in length, interesting compositions are
possible. In this mode, Non makes for a very intuitive software
instrument--rivaled only by the excellent program FreeWheeling (a
live audio looper.)
In Sequence mode, playback strictly follows the sequence list and
the Jack transport, and does not loop. This mode is suitable for
parallel compositions between Non and a Jack Timebase Master capable
DAW.
Trigger mode is very much like Pattern mode, except that all
patterns begin muted and must be enabled via the trigger view.
: Sister Projects
Much of the inspiration to move forward with Non was derived from JP
Mercury's highly useful and successful FreeWheeling
looper. Mr. Mercury is a visionary.
But the closest sister of Non has to be the amazingly capable
ZynAddSubFX soft-synth by Nasca Octavian Paul. ZynAddSubFX, like
Non, utilizes the FLTK GUI toolkit, and has recently begun to
support Jack MIDI (albeit in a limited fashion.) This is, hands
down, the best synth available for Linux, and probably one of the
best period. If all you have is Non and Zyn, you have all that you
require to make great music.
Of course, this section can hardly go without mention of Rob Buse's
Seq24. It was the author's unending frustration with the abysmal
performance and absurd limitations of Seq24 that, more than any
other single factor, inspired him to write Non. The most
frustrating aspect was that, prior to Non, Seq24 was, in the
author's opinion, the best sequencer available on Linux. Seq24,
which claims to be light and free of bloat is, without comparison,
the slowest, most poorly optimized sequencer the author has
tried. Even the huge, snarling beast that is RoseGarden out performs
Seq24 in every way but start time.
Those days are over.
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