-- control out 0 (sinOsc ar (control kr "freq" 440) 0 * 0.1) -- control sinOsc ar (control kr "freq" 440) 0 * control kr "amp" 0.1 -- control ; ir and kr and tr controls ; setting amp also triggers an envelope let phase1 = control ir "phase1" 0 phase2 = control ir "phase2" (pi / 4) freq1 = control kr "freq1" 450 freq2 = control kr "freq2" 900 amp1 = trigControl "amp1" 0 amp2 = trigControl "amp2" 0 env = decay2 (impulse kr 1 0 * 0.1 + mce2 amp1 amp2) 0.01 0.2 in sinOsc ar (mce2 freq1 freq2) (mce2 phase1 phase2) * env -- control ; constructor setting index sequence let [f,a] = control_set [control kr "freq" 440 ,control kr "amp" 0.1] in sinOsc ar f 0 * a -- control ; contructor with control index input ; this will fail if n /= 1 (ie. 0 or 2) let n = 1 f = control_f64 kr (Just 0) "freq" 440 a = control_f64 kr (Just n) "amp" 0.1 p = control_f64 kr Nothing "phase" 0 in sinOsc ar f p * a ---- ; set frequency and gate controls withSc3 (sendMessage (n_set1 1 "freq" 2200)) withSc3 (sendMessage (n_set1 1 "gate" 1)) ---- ; command list ui to send messages to set oscillator frequency UI.ui_scsynth_command_list (map (\x -> n_set 1 [("freq1",55 * (x ** 2)),("amp1",0.1 * (1 / x))]) [1 .. 7]) ---- ; control ; printing ugen_dump_ugens (out 0 (sinOsc ar (control kr "freq" 440) 0 * 0.1)) ---- ; control ; encoding import qualified Data.ByteString.Lazy as L L.unpack (synthdefData (Synthdef "LocalControls" (out 0 (sinOsc ar (control kr "freq" 440) 0 * 0.1)))) -- ; control ; printing putStrLn $ synthstat (out 0 (sinOsc ar (control kr "freq" 440) 0 * 0.1))