Documentation

(Undocumented class)

A2B [AudioRate] a=0 b=0 c=0 d=0

Emulator of the AY (aka YM) soundchip, used in Spectrum/Atari

AY [AudioRate] tonea=1777 toneb=1666 tonec=1555 noise=1 control=7 vola=15 volb=15 volc=15 envfreq=4 envstyle=1 chiptype=0

AY-3-891X Chip Sound Simulator

AY8910 [AudioRate] r0=0 r1=0 r2=0 r3=0 r4=0 r5=0 r6=0 r7=0 r8=0 r9=0 rA=0 rB=0 rC=0 rD=0 rate=1

(Undocumented class)

Allpass1 [AudioRate] in=0 freq=1200

(Undocumented class)

Allpass2 [AudioRate] in=0 freq=1200 rq=1

amplitude follower (deprecated)

AmplitudeMod [ControlRate,AudioRate] in=0 attackTime=0.01 releaseTime=0.01

(Undocumented class)

AnalogBassDrum [AudioRate] trig=0 infsustain=0 accent=0.5 freq=50 tone=0.5 decay=0.5 attackfm=0.5 selffm=0.25

(Undocumented class)

AnalogFoldOsc [AudioRate] freq=100 amp=1

(Undocumented class)

AnalogPhaser [AudioRate] input=0 lfoinput=0 skew=0 feedback=0.25 modulation=0.5 stages=8; FILTER: TRUE

(Undocumented class)

AnalogPhaserMod [ControlRate,AudioRate] input=0 skew=0 modulation=0.5 stages=8; FILTER: TRUE

(Undocumented class)

AnalogPulseShaper [AudioRate] pulseinput=0 width=0.5 decay=0.5 double=0.5

(Undocumented class)

AnalogSnareDrum [AudioRate] trig=0 infsustain=0 accent=0.1 freq=200 tone=0.5 decay=0.5 snappy=0.5

(Undocumented class)

AnalogTape [AudioRate] input=0 bias=0.5 saturation=0.5 drive=0.5 oversample=1 mode=0; FILTER: TRUE

(Undocumented class)

AnalogVintageDistortion [AudioRate] input=0 drivegain=0.5 bias=0 lowgain=0.1 highgain=0.1 shelvingfreq=600 oversample=0; FILTER: TRUE

event analyser (BBCut)

AnalyseEvents2 [AudioRate] in=0 bufnum=0 threshold=0.34 triggerid=101 circular=0 pitch=0

2-species Predator-Prey model

ArneodoCoulletTresser [AudioRate] freq=22050 alpha=1.5 h=0.05 xi=0.5 yi=0.5 zi=0.5

detect the largest value (and its position) in an array of Ugens

ArrayMax [ControlRate,AudioRate] *array=0; MCE=1, FILTER: TRUE

detect the smallest value (and its position) in an array of Ugens

ArrayMin [ControlRate,AudioRate] *array=0; MCE=1, FILTER: TRUE

Sound Chip Simulator

Astrocade [AudioRate] reg0=0 reg1=127 reg2=0 reg3=0 reg4=0 reg5=0 reg6=15 reg7=0

TIA Chip Sound Simulator

Atari2600 [AudioRate] audc0=1 audc1=2 audf0=3 audf1=4 audv0=5 audv1=5 rate=1

Use Amp data from a given partial

AtsAmp [ControlRate,AudioRate] atsbuffer=0 partialNum=0 filePointer=0

(put short description here)

AtsBand [AudioRate] atsbuffer=0 band=0 filePointer=0

Use Freq data from a given partial

AtsFreq [ControlRate,AudioRate] atsbuffer=0 partialNum=0 filePointer=0

Resynthesize sine and noise data from an ATS analysis file

AtsNoiSynth [AudioRate] atsbuffer=0 numPartials=0 partialStart=0 partialSkip=1 filePointer=0 sinePct=1 noisePct=1 freqMul=1 freqAdd=0 numBands=25 bandStart=0 bandSkip=1

(Undocumented class)

AtsNoise [ControlRate,AudioRate] atsbuffer=0 bandNum=0 filePointer=0

One Ugen to return both Amp and Freq info

AtsParInfo [ControlRate,AudioRate] atsbuffer=0 partialNum=0 filePointer=0

(Undocumented class)

AtsPartial [AudioRate] atsbuffer=0 partial=0 filePointer=0 freqMul=1 freqAdd=0

Resynthesize sine data from an ATS analysis file

AtsSynth [AudioRate] atsbuffer=0 numPartials=0 partialStart=0 partialSkip=1 filePointer=0 freqMul=1 freqAdd=0

Detect onsets and assess the nature of the attack slope

AttackSlope [ControlRate] input=0 windowsize=1024 peakpicksize=20 leak=0.999 energythreshold=0.01 sumthreshold=20 mingap=30 numslopesaveraged=10

(Undocumented class)

AudioMSG [AudioRate] in=0 index=0; FILTER: TRUE

calculates mean average of audio or control rate signal

AverageOutput [ControlRate,AudioRate] in=0 trig=0; FILTER: TRUE

(Undocumented class)

B2A [AudioRate] w=0 x=0 y=0 z=0

(Undocumented class)

B2Ster [AudioRate] w=0 x=0 y=0

(Undocumented class)

B2UHJ [AudioRate] w=0 x=0 y=0

MultiOut BetaBlocker VChip

BBlockerBuf [AudioRate] freq=0 bufnum=0 startpoint=0

3D Ambisonic decoder

BFDecode1 [AudioRate] w=0 x=0 y=0 z=0 azimuth=0 elevation=0 wComp=0

(Undocumented class)

BFDecoder [] maxSize=0

Ambisonic B format encoder

BFEncode1 [AudioRate] in=0 azimuth=0 elevation=0 rho=1 gain=1 wComp=0

Ambisonic B format encoder

BFEncode2 [AudioRate] in=0 point_x=1 point_y=1 elevation=0 gain=1 wComp=0

Ambisonic B format encoder for stereo signals

BFEncodeSter [AudioRate] l=0 r=0 azimuth=0 width=1.5708 elevation=0 rho=1 gain=1 wComp=0

(Undocumented class)

BFGrainPanner [] maxSize=0

BFormat sound manipulation

BFManipulate [AudioRate] w=0 x=0 y=0 z=0 rotate=0 tilt=0 tumble=0

(Undocumented class)

BFPanner [] maxSize=0

(Undocumented class)

BLBufRd [ControlRate,AudioRate] bufnum=0 phase=0 ratio=1

(Undocumented class)

BLOsc [ControlRate,AudioRate] freq=100 pulsewidth=0.5 waveform=0

24dboct rolloff - 4nd order resonant LowHigh/Band Pass Filter

BMoog [AudioRate] in=0 freq=440 q=0.2 mode=0 saturation=0.95; FILTER: TRUE

Balances two signals with each other

Balance [AudioRate] in=0 test=0 hp=10 stor=0

Extracts statistics on a beat histogram

BeatStatistics [ControlRate] fft=0 leak=0.995 numpreviousbeats=4

Sound Chip Simulator (well...)

Beep [AudioRate] freq=3250 vol=1

(Undocumented class)

BeepU [] maxSize=0

(Undocumented class)

BinData [ControlRate,AudioRate] buffer=0 bin=0 overlaps=0.5

Band limited impulse generation

BlitB3 [AudioRate] freq=440

(Undocumented class)

BlitB3D [AudioRate] freq=440

BLIT derived sawtooth

BlitB3Saw [AudioRate] freq=440 leak=0.99

Bipolar BLIT derived square waveform

BlitB3Square [AudioRate] freq=440 leak=0.99

Bipolar BLIT derived triangle

BlitB3Tri [AudioRate] freq=440 leak=0.99 leak2=0.99

breakcore simulator

Breakcore [AudioRate] bufnum=0 capturein=0 capturetrigger=0 duration=0.1 ampdropout=0

Prigogine oscillator

Brusselator [AudioRate] reset=0 rate=0.01 mu=1 gamma=1 initx=0.5 inity=0.5

Granular synthesis with sound sampled in a buffer

BufGrain [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 interp=2

Granular synthesis with sound sampled in a buffer and user supplied envelope

BufGrainB [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 envbuf=0 interp=2

(Undocumented class)

BufGrainBBF [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 envbuf=0 azimuth=0 elevation=0 rho=1 interp=2 wComp=0

(Undocumented class)

BufGrainBF [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 azimuth=0 elevation=0 rho=1 interp=2 wComp=0

Granular synthesis with sound sampled in a buffer and user supplied envelopes

BufGrainI [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 envbuf1=0 envbuf2=0 ifac=0.5 interp=2

(Undocumented class)

BufGrainIBF [AudioRate] trigger=0 dur=1 sndbuf=0 rate=1 pos=0 envbuf1=0 envbuf2=0 ifac=0.5 azimuth=0 elevation=0 rho=1 interp=2 wComp=0

detect the largest value (and its position) in an array of Ugens

BufMax [ControlRate] bufnum=0 gate=1

detect the largest value (and its position) in an array of Ugens

BufMin [ControlRate] bufnum=0 gate=1

(Undocumented class)

CQ_Diff [ControlRate] in1=0 in2=0 databufnum=0

Quefrency analysis and liftering

Cepstrum [] cepbuf=0 fftchain=0

(Undocumented class)

Chen [ControlRate,AudioRate] speed=0.5 a=0.5 b=0.3 c=0.28

Octave chroma band based representation of energy in a signal; Chromagram for nTET tuning systems with any base reference

Chromagram [ControlRate] fft=0 fftsize=2048 n=12 tuningbase=32.7032 octaves=8 integrationflag=0 coeff=0.9 octaveratio=2 perframenormalize=0

circular linear lag

CircleRamp [ControlRate,AudioRate] in=0 lagTime=0.1 circmin=-180 circmax=180

(Undocumented class)

Clipper32 [AudioRate] in=0 lo=-0.8 hi=0.8

(Undocumented class)

Clipper4 [AudioRate] in=0 lo=-0.8 hi=0.8

(Undocumented class)

Clipper8 [AudioRate] in=0 lo=-0.8 hi=0.8

(Undocumented class)

Clockmus [ControlRate]

(Undocumented class)

CombLP [AudioRate] in=0 gate=1 maxdelaytime=0.2 delaytime=0.2 decaytime=1 coef=0.5

FM-modulable resonating filter

ComplexRes [AudioRate] in=0 freq=100 decay=0.2; FILTER: TRUE

Concatenative Cross-Synthesis on Live Streams

Concat [AudioRate] control=0 source=0 storesize=1 seektime=1 seekdur=1 matchlength=0.05 freezestore=0 zcr=1 lms=1 sc=1 st=0 randscore=0

Concatenative Cross-Synthesis on Live Streams

Concat2 [AudioRate] control=0 source=0 storesize=1 seektime=1 seekdur=1 matchlength=0.05 freezestore=0 zcr=1 lms=1 sc=1 st=0 randscore=0 threshold=0.01

an amplitude tracking based onset detector

Coyote [ControlRate] in=0 trackFall=0.2 slowLag=0.2 fastLag=0.01 fastMul=0.5 thresh=0.05 minDur=0.1

Measure the temporal crest factor of a signal

Crest [ControlRate] in=0 numsamps=400 gate=1

class B/AB power amp distortion simulation

CrossoverDistortion [AudioRate] in=0 amp=0.5 smooth=0.5; FILTER: TRUE

(Undocumented class)

DCompressor [AudioRate] input=0 sidechainIn=0 sidechain=0 ratio=4 threshold=-40 attack=0.1 release=100.1 makeup=0.5 automakeup=1; FILTER: TRUE

Digitally modelled analog filter

DFM1 [AudioRate] in=0 freq=1000 res=0.1 inputgain=1 type=0 noiselevel=0.0003; FILTER: TRUE

Demand rate implementation of a Wiard noise ring

DNoiseRing [DemandRate] change=0.5 chance=0.5 shift=1 numBits=8 resetval=0; DEMAND/NONDET

Monad variant of DNoiseRing.

Unsafe variant of DNoiseRing.

Triangle via 3rd order differerentiated polynomial waveform

DPW3Tri [AudioRate] freq=440

Sawtooth via 4th order differerentiated polynomial waveform

DPW4Saw [AudioRate] freq=440

Plucked physical model.

DWGBowed [AudioRate] freq=440 velb=0.5 force=1 gate=1 pos=0.14 release=0.1 c1=1 c3=3 impZ=0.55 fB=2

Plucked physical model.

DWGBowedSimple [AudioRate] freq=440 velb=0.5 force=1 gate=1 pos=0.14 release=0.1 c1=1 c3=30

Plucked physical model.

DWGBowedTor [AudioRate] freq=440 velb=0.5 force=1 gate=1 pos=0.14 release=0.1 c1=1 c3=3 impZ=0.55 fB=2 mistune=5.2 c1tor=1 c3tor=3000 iZtor=1.8

Clarinet physical model.

DWGClarinet3 [AudioRate] freq=440.0 pm=1.0 pc=1.0 m=0.8 gate=1.0 release=1.0e-2 c1=0.25 c3=7.0

Reimplementation of STK flute model.

DWGFlute [AudioRate] freq=400.0 pm=1.0 endr=0.5 jetr=0.25 jetRa=0.33 gate=1.0 release=0.1

Plucked physical model.

DWGPlucked [AudioRate] freq=440 amp=0.5 gate=1 pos=0.14 c1=1 c3=30 inp=0 release=0.1

Plucked physical model.

DWGPlucked2 [AudioRate] freq=440 amp=0.5 gate=1 pos=0.14 c1=1 c3=30 inp=0 release=0.1 mistune=1.008 mp=0.55 gc=0.01

Plucked physical model.

DWGPluckedStiff [AudioRate] freq=440 amp=0.5 gate=1 pos=0.14 c1=1 c3=30 inp=0 release=0.1 fB=2

(Undocumented class)

DWGSoundBoard [AudioRate] inp=0 c1=20 c3=20 mix=0.8 d1=199 d2=211 d3=223 d4=227 d5=229 d6=233 d7=239 d8=241; FILTER: TRUE

demand rate brownian movement with Gendyn distributions

Dbrown2 [] lo=0 hi=0 step=0 dist=0 length=100000000

demand rate tag system on a buffer

DbufTag [DemandRate] bufnum=0 v=0 axiom=0 rules=0 recycle=0 mode=0; DEMAND/NONDET

Monad variant of DbufTag.

Unsafe variant of DbufTag.

Samplerate and bitrate reduction

Decimator [AudioRate] in=0 rate=44100 bits=24

Demand version of the BetaBlocker VChip

DetaBlockerBuf [DemandRate] bufnum=0 startpoint=0; DEMAND/NONDET

Monad variant of DetaBlockerBuf.

Unsafe variant of DetaBlockerBuf.

demand rate finite state machine

Dfsm [DemandRate] rules=0 n=1 rgen=0; DEMAND/NONDET

Monad variant of Dfsm.

Unsafe variant of Dfsm.

(Undocumented class)

Dgauss [] lo=0 hi=0 length=100000000

Ring modulation based on the physical model of a diode.

DiodeRingMod [AudioRate] car=0 mod=0; FILTER: TRUE

port of some ladspa plugins

Disintegrator [AudioRate] in=0 probability=0.5 multiplier=0; FILTER: TRUE, NONDET

Monad variant of Disintegrator.

Unsafe variant of Disintegrator.

discrete time neurodynamics

Dneuromodule [ControlRate,AudioRate,DemandRate] dt=0 *theta=0 *x=0 *weights=0; MCE=3, NC INPUT: True, NONDET

Monad variant of Dneuromodule.

Unsafe variant of Dneuromodule.

Nested Allpass filters as proposed by Vercoe and Pluckett

DoubleNestedAllpassC [AudioRate] in=0 maxdelay1=0.0047 delay1=0.0047 gain1=0.15 maxdelay2=0.022 delay2=0.022 gain2=0.25 maxdelay3=0.0083 delay3=0.0083 gain3=0.3; FILTER: TRUE

Nested Allpass filters as proposed by Vercoe and Pluckett

DoubleNestedAllpassL [AudioRate] in=0 maxdelay1=0.0047 delay1=0.0047 gain1=0.15 maxdelay2=0.022 delay2=0.022 gain2=0.25 maxdelay3=0.0083 delay3=0.0083 gain3=0.3; FILTER: TRUE

Nested Allpass filters as proposed by Vercoe and Pluckett

DoubleNestedAllpassN [AudioRate] in=0 maxdelay1=0.0047 delay1=0.0047 gain1=0.15 maxdelay2=0.022 delay2=0.022 gain2=0.25 maxdelay3=0.0083 delay3=0.0083 gain3=0.3; FILTER: TRUE

Forced DoubleWell Oscillator

DoubleWell [AudioRate] reset=0 ratex=0.01 ratey=0.01 f=1 w=0.001 delta=1 initx=0 inity=0

Forced DoubleWell Oscillator

DoubleWell2 [AudioRate] reset=0 ratex=0.01 ratey=0.01 f=1 w=0.001 delta=1 initx=0 inity=0

Forced DoubleWell Oscillator

DoubleWell3 [AudioRate] reset=0 rate=0.01 f=0 delta=0.25 initx=0 inity=0

(Undocumented class)

DriveNoise [AudioRate] in=0 amount=1 multi=5

Crosscorrelation search and drum pattern matching beat tracker

DrumTrack [ControlRate] in=0 lock=0 dynleak=0 tempowt=0 phasewt=0 basswt=0 patternwt=1 prior=0 kicksensitivity=1 snaresensitivity=1 debugmode=0

demand rate tag system

Dtag [] bufsize=0 v=0 axiom=0 rules=0 recycle=0 mode=0

Envelope Follower Filter

EnvDetect [AudioRate] in=0 attack=100 release=0

Envelope Follower

EnvFollow [ControlRate,AudioRate] input=0 decaycoeff=0.99

(Undocumented class)

FFTComplexDev [ControlRate] buffer=0 rectify=0 powthresh=0.1

Spectral crest measure

FFTCrest [ControlRate] buffer=0 freqlo=0 freqhi=50000

(Undocumented class)

FFTDiffMags [ControlRate] bufferA=0 bufferB=0

(Undocumented class)

FFTFlux [ControlRate] buffer=0 normalise=1

(Undocumented class)

FFTFluxPos [ControlRate] buffer=0 normalise=1

(Undocumented class)

FFTMKL [ControlRate] buffer=0 epsilon=0.0

Find peak value in an FFT frame

FFTPeak [ControlRate] buffer=0 freqlo=0 freqhi=50000

(Undocumented class)

FFTPhaseDev [ControlRate] buffer=0 weight=0 powthresh=0.1

Instantaneous spectral power

FFTPower [ControlRate] buffer=0 square=1

Spectral slope

FFTSlope [ControlRate] buffer=0

Spectral spread

FFTSpread [ControlRate] buffer=0 centroid=0

Spectral flatness, divided into subbands

FFTSubbandFlatness [ControlRate] chain=0 cutfreqs=0

(Undocumented class)

FFTSubbandFlux [ControlRate] chain=0 cutfreqs=0 posonly=0

Spectral power, divided into subbands

FFTSubbandPower [ControlRate] chain=0 cutfreqs=0 square=1 scalemode=1

Phase modulation oscillator matrix.

FM7 [AudioRate] *ctlMatrix=0 *modMatrix=0; MCE=2

Granular synthesis with FM grains

FMGrain [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1; FILTER: TRUE

Granular synthesis with FM grains and user supplied envelope

FMGrainB [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1 envbuf=0; FILTER: TRUE

(Undocumented class)

FMGrainBBF [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1 envbuf=0 azimuth=0 elevation=0 rho=1 wComp=0

(Undocumented class)

FMGrainBF [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1 azimuth=0 elevation=0 rho=1 wComp=0

Granular synthesis with FM grains and user supplied envelopes

FMGrainI [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1 envbuf1=0 envbuf2=0 ifac=0.5

(Undocumented class)

FMGrainIBF [AudioRate] trigger=0 dur=1 carfreq=440 modfreq=200 index=1 envbuf1=0 envbuf2=0 ifac=0.5 azimuth=0 elevation=0 rho=1 wComp=0

Decode an FMH signal for a specific speaker

FMHDecode1 [AudioRate] w=0 x=0 y=0 z=0 r=0 s=0 t=0 u=0 v=0 azimuth=0 elevation=0

(Undocumented class)

FMHEncode0 [AudioRate] in=0 azimuth=0 elevation=0 gain=1

Second Order Ambisonic encoder

FMHEncode1 [AudioRate] in=0 azimuth=0 elevation=0 rho=1 gain=1 wComp=0

Second Order Ambisonic encoder

FMHEncode2 [AudioRate] in=0 point_x=0 point_y=0 elevation=0 gain=1 wComp=0

Storing feature data from Ugens in NRT mode

FeatureSave [ControlRate] features=0 trig=0

FitzHughNagumo Neuron Firing Oscillator

Fhn2DC [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 urate=0.1 wrate=0.1 b0=0.6 b1=0.8 i=0 u0=0 w0=0

FitzHughNagumo Neuron Firing Oscillator

Fhn2DL [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 urate=0.1 wrate=0.1 b0=0.6 b1=0.8 i=0 u0=0 w0=0

FitzHughNagumo Neuron Firing Oscillator

Fhn2DN [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 urate=0.1 wrate=0.1 b0=0.6 b1=0.8 i=0 u0=0 w0=0

(Undocumented class)

FhnTrig [ControlRate,AudioRate] minfreq=4 maxfreq=10 urate=0.1 wrate=0.1 b0=0.6 b1=0.8 i=0 u0=0 w0=0

(Undocumented class)

FincoSprottL [AudioRate] freq=22050 a=2.45 h=0.05 xi=0 yi=0 zi=0

(Undocumented class)

FincoSprottM [AudioRate] freq=22050 a=-7 b=4 h=0.05 xi=0 yi=0 zi=0

(Undocumented class)

FincoSprottS [AudioRate] freq=22050 a=8 b=2 h=0.05 xi=0 yi=0 zi=0

Neuron Firing Model Oscillator

FitzHughNagumo [AudioRate] reset=0 rateu=0.01 ratew=0.01 b0=1 b1=1 initu=0 initw=0

calculates spectral MSE distance of two fft chains

FrameCompare [ControlRate] buffer1=0 buffer2=0 wAmount=0.5

A physical model of a system with dry-friction. A chaotic filter.

Friction [ControlRate,AudioRate] in=0 friction=0.5 spring=0.414 damp=0.313 mass=0.1 beltmass=1

Single gammatone filter

Gammatone [AudioRate] input=0 centrefrequency=440 bandwidth=200; FILTER: TRUE

Gaussian classifier

GaussClass [ControlRate] in=0 bufnum=0 gate=0

impulses around a certain frequency

GaussTrig [ControlRate,AudioRate] freq=440 dev=0.3

gingerbreadman map 2D chaotic generator

Gbman2DC [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 x0=1.2 y0=2.1

gingerbreadman map 2D chaotic generator

Gbman2DL [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 x0=1.2 y0=2.1

gingerbreadman map 2D chaotic generator

Gbman2DN [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 x0=1.2 y0=2.1

(Undocumented class)

GbmanTrig [ControlRate,AudioRate] minfreq=5 maxfreq=10 x0=1.2 y0=2.1

Dynamic stochastic synthesis generator

Gendy4 [ControlRate,AudioRate] ampdist=1 durdist=1 adparam=1 ddparam=1 minfreq=440 maxfreq=660 ampscale=0.5 durscale=0.5 initCPs=12 knum=0

Dynamic stochastic synthesis generator

Gendy5 [ControlRate,AudioRate] ampdist=1 durdist=1 adparam=1 ddparam=1 minfreq=440 maxfreq=660 ampscale=0.5 durscale=0.5 initCPs=12 knum=0

Read (numeric) shell environment variables into a synth

Getenv [] key=0 defaultval=0

backward compatibility

GlitchBPF [ControlRate,AudioRate] in=0 freq=440 rq=1

backward compatibility

GlitchBRF [ControlRate,AudioRate] in=0 freq=440 rq=1

backward compatibility

GlitchHPF [ControlRate,AudioRate] in=0 freq=440

backward compatibility

GlitchRHPF [ControlRate,AudioRate] in=0 freq=440 rq=1; FILTER: TRUE

Calculate a single DFT bin, to detect presence of a frequency

Goertzel [ControlRate] in=0 bufsize=1024 freq=0 hop=1

(Undocumented class)

GrainBufJ [AudioRate] numChannels=1 trigger=0 dur=1 sndbuf=0 rate=1 pos=0 loop=0 interp=2 grainAmp=1 pan=0 envbufnum=-1 maxGrains=512

(Undocumented class)

GrainFMJ [AudioRate] numChannels=1 trigger=0 dur=1 carfreq=440 modfreq=200 index=1 grainAmp=1 pan=0 envbufnum=-1 maxGrains=512

(Undocumented class)

GrainInJ [AudioRate] numChannels=1 trigger=0 dur=1 in=0 grainAmp=1 pan=0 envbufnum=-1 maxGrains=512

(Undocumented class)

GrainSinJ [AudioRate] numChannels=1 trigger=0 dur=1 freq=440 grainAmp=1 pan=0 envbufnum=-1 maxGrains=512

dynamical system simulation (Newtonian gravitational force)

GravityGrid [AudioRate] reset=0 rate=0.1 newx=0 newy=0 bufnum=0

dynamical system simulation (Newtonian gravitational force)

GravityGrid2 [AudioRate] reset=0 rate=0.1 newx=0 newy=0 bufnum=0

algorithmic delay

GreyholeRaw [AudioRate] in1=0 in2=0 damping=0 delaytime=2 diffusion=0.5 feedback=0.9 moddepth=0.1 modfreq=2 size=1; FILTER: TRUE

Simple cochlear hair cell model

HairCell [ControlRate,AudioRate] input=0 spontaneousrate=0 boostrate=200 restorerate=1000 loss=0.99; FILTER: TRUE

(Undocumented class)

HarmonicOsc [ControlRate,AudioRate] freq=100 firstharmonic=1 *amplitudes=0; MCE=1

henon map 2D chaotic generator

Henon2DC [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 a=1.4 b=0.3 x0=0.30502 y0=0.20939

henon map 2D chaotic generator

Henon2DL [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 a=1.4 b=0.3 x0=0.30502 y0=0.20939

henon map 2D chaotic generator

Henon2DN [ControlRate,AudioRate] minfreq=11025 maxfreq=22050 a=1.4 b=0.3 x0=0.30502 y0=0.20939

(Undocumented class)

HenonTrig [ControlRate,AudioRate] minfreq=5 maxfreq=10 a=1.4 b=0.3 x0=0.30502 y0=0.20939

Transform a cepstrum back to a spectrum

ICepstrum [] cepchain=0 fftbuf=0

24db/oct rolloff, 4nd order resonant Low Pass Filter

IirFilter [AudioRate] in=0 freq=440 rq=1; FILTER: TRUE

(Undocumented class)

InGrain [AudioRate] trigger=0 dur=1 in=0

(Undocumented class)

InGrainB [AudioRate] trigger=0 dur=1 in=0 envbuf=0

(Undocumented class)

InGrainBBF [AudioRate] trigger=0 dur=1 in=0 envbuf=0 azimuth=0 elevation=0 rho=1 wComp=0

(Undocumented class)

InGrainBF [AudioRate] trigger=0 dur=1 in=0 azimuth=0 elevation=0 rho=1 wComp=0

(Undocumented class)

InGrainI [AudioRate] trigger=0 dur=1 in=0 envbuf1=0 envbuf2=0 ifac=0.5

(Undocumented class)

InGrainIBF [AudioRate] trigger=0 dur=1 in=0 envbuf1=0 envbuf2=0 ifac=0.5 azimuth=0 elevation=0 rho=1 wComp=0

Distortion by subtracting magnitude from 1

InsideOut [ControlRate,AudioRate] in=0

instruction synthesis (breakpoint set interpreter)

Instruction [AudioRate] bufnum=0

Raw version of the JPverb algorithmic reverberator, designed to produce long tails with chorusing

JPverbRaw [ControlRate,AudioRate] in1=0 in2=0 damp=0 earlydiff=0.707 highband=2000 highx=1 lowband=500 lowx=1 mdepth=0.1 mfreq=2 midx=1 size=1 t60=1; FILTER: TRUE

k-means classification in real time

KMeansRT [ControlRate] bufnum=0 inputdata=0 k=5 gate=1 reset=0 learn=1

Running score of maximum correlation of chromagram with key profiles

KeyClarity [ControlRate] chain=0 keydecay=2 chromaleak=0.5

Find best correlated key mode with chromagram between major, minor and chromatic cluster

KeyMode [ControlRate] chain=0 keydecay=2 chromaleak=0.5

K-means Oscillator

KmeansToBPSet1 [AudioRate] freq=440 numdatapoints=20 maxnummeans=4 nummeans=4 tnewdata=1 tnewmeans=1 soft=1 bufnum=0

random walk step

LFBrownNoise0 [ControlRate,AudioRate] freq=20 dev=1 dist=0; NONDET

Monad variant of LFBrownNoise0.

Unsafe variant of LFBrownNoise0.

random walk linear interp

LFBrownNoise1 [ControlRate,AudioRate] freq=20 dev=1 dist=0; NONDET

Monad variant of LFBrownNoise1.

Unsafe variant of LFBrownNoise1.

random walk cubic interp

LFBrownNoise2 [ControlRate,AudioRate] freq=20 dev=1 dist=0; NONDET

Monad variant of LFBrownNoise2.

Unsafe variant of LFBrownNoise2.

Live Linear Predictive Coding Analysis and Resynthesis

LPCAnalyzer [AudioRate] input=0 source=0.01 n=256 p=10 testE=0 delta=0.999 windowtype=0; FILTER: TRUE

Linear Predictive Coding Gone Wrong

LPCError [AudioRate] input=0 p=10

Utilize LPC data

LPCSynth [AudioRate] buffer=0 signal=0 pointer=0

Utilize LPC data

LPCVals [ControlRate,AudioRate] buffer=0 pointer=0

(Undocumented class)

LPF1 [ControlRate,AudioRate] in=0 freq=1000

(Undocumented class)

LPF18 [AudioRate] in=0 freq=100 res=1 dist=0.4

(Undocumented class)

LPFVS6 [ControlRate,AudioRate] in=0 freq=1000 slope=0.5