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torstenanders

Opusmodus sometimes not talking to Ableton?

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Did anyone else of you sometimes have problem getting Opusmodus and Ableton Live talk to each other via an IAC bus (on a Mac)?

 

I confirmed that Ableton can receive MIDI notes from other sources on this bus, and that MIDI data from Opusmodus is received by other programs on this bus. Also, the MIDI track indicator shows that the program receives MIDI input from Opusmodus, and just in case in the MIDI track I made sure that all MIDI inputs and channels are received. I also created a new Live set to make sure I did not accidentally do some stupid setting anyway.

 

It worked earlier and strangely it works again after a restart, but I now ran multiple times into the situation that my Ableton tracks gets no notes from Opusmodus, so something seems to be fishy here. 

 

Anyone else ran into such problems? Any workaround perhaps?

 

Thanks!

 

Best,

Torsten 

 

 

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With monitor set to "auto" (default) in the mixer part there is no sound sometimes. Set monitor to "In" and it works (at least for me).

 

/Lasse

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Some more testing and I now remember why I left Ableton Live for Reaper.

There is strange things going on. It works fine on one IAC bus not two at the same time.

Fishy is a good description.

 

Another strange thing with Ableton.

All my CC mappings that I route via Reaper to VSL Pro gets stuck somewhere so the dynamics and technics that works without any problem in Reaper, does not work in Live. At least not without fiddling around somewhere in Ableton.

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Logic, Reaktor, Kontakt and VSL Ensemble Pro works beautifully with Opusmodus.

The Mozarteum is using Opusmodus with Reaper as well :-)

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i've used Opusmodus a bit last year with Ableton live without problems but may be something change on new version...

Attached, the setup i've used at this time. Just in case if it could help ....

SB.

 

OpmoMidiSetupLive.als

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    • By opmo
      We are happy to announce the Italian version of Opusmodus is almost ready and will be released with the forthcoming update version 1.4.
      The entire Opusmodus documentation was translated by Prof. Marco Giommoni.


       
      Best wishes,
      Janusz
    • By opmo
      – Function name changes:
      LENGTH-DIVIDE2 to LENGTH-SUBDIVISION
      LENGTH-DIVIDE3 to LENGTH-SYNCOPATE

      – Function update:
      LENGTH-DIVIDE – changes to arguments.
      LENGTH-SUBDIVISION – changes to arguments.
      LENGTH-SYNCOPATE – changes to arguments.
      POLYGON-RHYTHM – enable fixed sides polygon. 

      – Note:
      If you used any of the functions:
      LENGTH-DIVIDE, LENGTH-DIVIDE2 or LENGTH-DIVIDE3 in your scores,
      please check new documents in order to make the necessary correction.

      – New:
      Enable or disable the DO-VERBOSE macro. 
      (defparameter *do-verbose* nil "Enable or disable traces printed by do-verbose.")  
       
      length-divide
      This function is able to divide number of lengths to a given division value. The :set and :ignore option increases the control for the desired result. When processing the omn-form sequence an optional third value allows you to fill intervalic steps (a root transposition) to new length values derived from the divisions.
       
      (setf rhy '(1/4 1/4 1/4 1/4)) (length-divide '(2 2) rhy) => (1/8 1/8 1/4 1/4 1/8 1/8) (length-divide '(2 4) rhy) => (1/4 1/16 1/16 1/16 1/16 1/16 1/16 1/16 1/16 1/4)  
      Example:
      (length-divide '(1 2) '(1/4 -1/8 1/16 1/16 -1/32 -3/32 1/8 1/1) :seed 34) => (1/4 -1/8 1/16 1/32 1/32 -1/32 -3/32 1/8 1)  
      In the example above only 1 length is divided by 2 - that is the 1/16. In the example below 4 lengths are divided by 2.
      (length-divide '(4 2) '(1/4 -1/8 1/16 1/16 -1/32 -3/32 1/8 1/1) :seed 34) => (1/8 1/8 -1/8 1/16 1/32 1/32 -1/32 -3/32 1/16 1/16 1/2 1/2) (length-divide '(1 2) '(1/4 -1/8 1/16 1/16 -1/32 -3/32 1/8 1/1) :set 'min :seed 34) => (1/4 -1/8 1/32 1/32 1/16 -1/32 -3/32 1/8 1) (length-divide '(1 4) '(1/4 -1/8 1/16 1/16 -1/32 -3/32 1/8 1/1) :set 1/8 :seed 34) => (1/4 -1/8 1/16 1/16 -1/32 -3/32 1/32 1/32 1/32 1/32 1) (length-divide '((2 3) (1 2)) '((1/4 -1/8 1/16 1/16) (1/32 -3/32 1/8 1/1)) :ignore 'max :seed 45) => ((1/4 -1/8 1/48 1/48 1/48 1/48 1/48 1/48) (1/64 1/64 -3/32 1/8 1)) (length-divide '((2 4) (1 2)) '((q -e s s) (s -e. e w)) :set 'max :ignore 1 :seed 65) => ((1/16 1/16 1/16 1/16 -1/8 1/16 1/64 1/64 1/64 1/64) (1/16 -3/16 1/16 1/16 1))
      OMN:
      (setf mat1 '(q c4 d4 e4 f4 g4 a4 b4)) (length-divide '(3 4) mat1 :seed 45) => (s d4 bb3 cs4 b3 cs4 eb4 c4 e4 q s g4 e4 eb4 fs4 q g4 a4 b4)
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      (length-divide '(3 4 r) mat1 :seed 45) => (s c4 c4 c4 c4 d4 d4 d4 d4 q e4 s f4 f4 f4 f4 q g4 a4 b4)
      Here we use a set of interval values at the end of the division list:
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      (setf s1 '(3 4 (6 12 18 24)) s2 '(3 4 ((13 1 13 0) (13 0 7 1) r)) s3 '(2 5 ((13 0 13 0 13) ?)) ) (length-divide (list s1 s2 s3) mat2 :seed 34) => ((e c4 p t bb4 mp e5 bb5 e6 cs5 g5 cs6 g6 et fs5 p c6 fs6 c7) (q c4 f s cs5 cs4 cs5 c4 q cs4 mp - s eb6 p d5 a5 eb5 d5 d5 d5 d5) (5q d6 mf cs5 d6 cs5 d6 q cs5 - - cs5 p 5q d5 eb5 c5 b4 d5))  
       
      length-subdivision
      This function is able to divide a list of lengths into a number of subdivisions derived from a given length segment value. The :type and :position option increases the control for the desired result. When processing the omn-form sequence an optional third value allows you to fill intervalic steps (a root transposition) to new length values derived from the divisions. This function is a more sophisticated version of LENGTH-DIVIDE. It produces fascinating variants on the simplest of note-lengths, as can be seen below.
       
      (setf rhy '(1/4 1/4 1/4 1/4)) (length-subdivision '(2 1/8) rhy) => (1/8 1/8 1/8 1/8 1/8 1/8 1/8 1/8)
      position 's (start):
      (length-subdivision '(2 1/16) rhy :position 's) => (1/16 1/16 1/8 1/16 1/16 1/8 1/16 1/16 1/8 1/16 1/16 1/8)
      position 'e (end):
      (length-subdivision '(2 1/16) rhy :position 'e) => (1/8 1/16 1/16 1/8 1/16 1/16 1/8 1/16 1/16 1/8 1/16 1/16)
      type 'r (rest), position 'e (end):
      (length-subdivision '(2 1/16) rhy :type 'r :position 'e) => (-1/8 1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16)
      type 'r (rest), position 's (end):
      (length-subdivision '(2 s) rhy :type 'r :position 's) => (1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16 -1/8)
      type at random, rest or note :
      (length-subdivision '(2 s) rhy :type '? :position 's) => (1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16 -1/8 1/16 1/16 1/8)
      position and type at random:
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      Example:
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      OMN:
      (setf mat1 '(q c4 d4 e4 f4 g4 a4 b4)) (length-subdivision '(1 e) mat1 :seed 45) => (s cs4 e b3 s d4 e cs4 e4 s f4 e fs4 s d4 e fs4 eb4 f4 a4 bb4 gs4 bb4 a4)
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      (length-subdivision '(1 e r) mat1 :seed 45) => (s c4 e s e d4 d4 s e4 e s e f4 f4 g4 g4 a4 a4 b4 b4)
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      (length-subdivision '(1 e (13 0 13 0)) mat1 :seed 45) => (s cs5 e c4 s cs5 e eb5 d4 s f5 e e4 s f5 e fs5 f4 gs5 g4 bb5 a4 c6 b4) (length-subdivision '(4 s (13 0 13 0)) mat1 :seed 45) => (s cs5 c4 cs5 c4 eb5 d4 eb5 d4 f5 e4 f5 e4 fs5 f4 fs5 f4 gs5 g4 gs5 g4 bb5 a4 bb5 a4 c6 b4 c6 b4) (length-subdivision '(2 3q (13 0 13 0)) mat1 :type '(r n) :seed 45 :position '(e s s s e s s)) => (-3q cs5 c4 eb5 d4 eb5 f5 e4 - fs5 f4 fs5 - gs5 g4 bb5 a4 bb5 c6 b4 -) (setf mat2 '((e c4 p e4 mp g4 he c5 p) (q c4 f c4 cs4 mp - d5 p d5) (q cs5 mf = - - cs5 p =))) (length-subdivision '((1 e (13 0 13 0)) (2 e (13 0 13 0)) (2 3q (13 0 13 0))) mat2 :type '? :seed 34) => ((e c4 p e4 mp g4 q cs6 p e c5 q cs6) (e cs5 f c4 cs5 c4 -3q d5 mp cs4 -q e eb6 p d5 eb6 d5) (-s e cs5 mf -s e d6 cs5 -q - 3e d6 p 3q cs5 d6 3e cs5 e d6 cs5)) (length-subdivision '(((1 e (13 0 13 0))) ((2 s (13 0 13 0))) ((2 3q r))) mat2 :type '? :seed 34) => ((e c4 p e4 mp g4 q cs6 p e c5 q cs6) (e cs5 f s c4 cs5 -e s cs5 c4 e d5 mp s cs4 d5 -q -s eb6 p d5 - eb6 d5 eb6 d5) (3q cs5 mf cs5 cs5 cs5 cs5 cs5 -q - 3q cs5 p cs5 - - cs5 cs5))  
      In the example below we assign three series of values to variables s1, s2 and s3:
      (setf s1 '(2 e (6 12 18 24)) s2 '(1 3q ((13 1 13 0) (13 0 7 1) r)) s3 '(3 5q ((13 0 13 0 13) ?)) ) (length-subdivision (list s1 s2 s3) mat2 :seed 23) => ((e c4 p 3e bb4 mp 3q e5 e cs6 cs5 p cs6 q.) (e fs4 f c5 3q cs5 cs4 cs5 5h mp 5q c4 g4 c4 -q e c4 p c4 3q d5 3h cs4) (e g5 mf cs6 3q d6 3h d5 -q - 5q d6 p cs5 cs5 5h e d6 cs5))  
       
       
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      OMN:
      (setf mat '(q c4 d4 e4 f4 g4 a4 b4)) (length-syncopate '(3 4) mat :seed 12) => (s b3 e. cs4 q d4 e. fs4 s d4 q f4 g4 a4 e. bb4 s c5)  
      Here we use a set of interval values:
      (length-syncopate '(3 4 ((13 0) (0 14) (1 13))) mat :seed 23) => (s cs5 e. c4 d4 s e5 q e4 f4 s gs4 e. gs5 q a4 b4) (setf mat2 '((e c4 p e4 mp g4 he c5 p) (q c4 f c4 cs4 mp - d5 p d5) (q cs5 mf = - q cs5 stacc p = =)) (length-syncopate '((1 3 (-3 6)) (2 4 (6 0)) (2 5 (11 13))) mat2 :seed 34) => ((e c4 p e4 mp 3e 3q cs5 he c5 p) (q c4 f s fs4 e. c4 q cs4 mp - e. gs5 p s d5 q) (q cs5 mf cs5 - 5w c6 stacc 5q d6 stacc q cs5 p 5q c6 5w d6 q cs5))
       
       
      polygon-rhythm
      In the next three examples below we use a list of fixed polygon sides (non-symmetrical):
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      (circle-rhythm-plot (polygon-rhythm '(1 6 10) 16 2) :points 16) (circle-rhythm-plot (polygon-rhythm '(0 2 5 7 10 12 13 15 16 18 19 21 23) 24 0) :points 24 :value 1/24)  
      Best wishes,
      JP
    • By opmo
      – Update:
      SNIPPET – length snippet will display without a line staff.

      To display the length SNIPPET line staff, set the *SNIPPET-LENGTH-LINE* to T. 
      (defparameter *snippet-length-line* T "Enable or disable the length snippet line staff display.") The default is: NIL

      – Fixes:
      Bug fix found in length conversion to length-symbols function.
      Missing OM Developer documents (English version).
       
      Best wishes,
      Janusz
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