bus index to write to. For an audio-rate UGen, this is an audio-bus, for a control-rate UGen, this is a control-bus. Note that the bus index can only be modulated at control-rate.
signal to write to the bus. If the UGen is audio-rate, the input must also be audio-rate.
bus index to write to.
bus index to write to. For an audio-rate UGen, this is an audio-bus, for a control-rate UGen, this is a control-bus. Note that the bus index can only be modulated at control-rate.
signal to write to the bus.
signal to write to the bus. If the UGen is audio-rate, the input must also be audio-rate.
Abstract method which must be implemented by creating the actual UGen
s
during expansion.
A UGen that writes a signal onto a bus. It adds ("mixes") the input-signal to the existing contents of the bus.
Multi-channel input signals, for example a
PanAz
, are written as such to the bus without expansion. That is, thebus
index argument is used for the first channel, the second channel will appear onbus + 1
, etc.If you have an expanding multi-channel input, however, you have to be careful. For example, if you have
PanAz.ar(2, SinOsc.ar(Seq(444, 555, 666)) * 0.2, Seq(-1, 0, 1))
, this results in one output UGen carrying one channel, and another one carrying two channels. (The way this works is consistent with SCLang). In order to get the correct behaviour (left outputs of thePanAz
summed, and right output of thePanAz
summed), wrap this expression in aMix(...)
before passing it to the output UGen.bus index to write to. For an audio-rate UGen, this is an audio-bus, for a control-rate UGen, this is a control-bus. Note that the bus index can only be modulated at control-rate.
signal to write to the bus. If the UGen is audio-rate, the input must also be audio-rate.
Bus
LocalOut
XOut
ReplaceOut
PhysicalOut
In