Unit Generators
Unit Generators
Unit generators (ugens) can be connected using the ChucK operator ( => )
adc => dac;
the above connects the ugen `adc' (a/d convertor, or audio input) to `dac' (d/a convertor, or audio output).
Ugens can also unlinked (using =<) and relinked (see examples/unchuck.ck).
A unit generator may have 0 or more control parameters. A Ugen's parameters can be set also using the ChucK operator (=>, or ->)
//connect sine oscillator to dac
SinOsc osc => dac;
// set the Osc's frequency to 60.0 hz
60.0 => osc.freq;
(see examples/osc.ck)
All ugen's have at least the following four parameters:
- .gain - (float, READ/WRITE) - set gain.
- .op - (int, READ/WRITE) - set operation type
- 0: stop - always output 0.
- 1: normal operation, add all inputs (default).
- 2: normal operation, subtract all inputs starting from the earliest connected.
- 3: normal operation, multiply all inputs.
- 4 : normal operation, divide inputs starting from the earlist connected.
- -1: passthru - all inputs to the ugen are summed and passed directly to output.
- .last - (float, READ/WRITE) - returns the last sample computed by the unit generator as a float.
- .channels - (int, READ only) - the number channels on the UGen
- .chan - (int) - returns a reference on a channel (0 -N-1)
- .isConnectedTo( Ugen ) returns 1 if the unit generator connects to the argument, 0 otherwise.
Multichannel UGens are adc, dac, Pan2, Mix2
Pan2 p;
// assumes you called chuck with at least --chan5 or -c5
p.chan(1) => dac.chan(4);
Audio output
dac
Digital -> analog converter abstraction for underlying audio output device
- .left - (UGen) - input to left channel
- .right - (UGen) - input to right channel
- .chan( int n ) - (UGen) - input to channel N on the device (0 -N-1)
- .channels - (int, READ only) - returns the number of channels open on device
adc
Analog -> digital converter abstraction for underlying audio input device. Note that this is system-wide and so all outputs can be read from as well, for example to record the signals that ChucK is generating to a wave file.
- .left - (UGen) - output to left channel
- .right - (UGen) - output to right channel
- .chan( int n ) - (UGen) - output to channel N on the device (0 -N-1)
- .channels - (int, READ only) - returns the number of channels open on device
blackhole
Sample rate sample sucker ( like dac it ticks ugens, but no more ). Useful for generating modulation signals that aren't ever send to the soundcard. While it is system-wide like dac it can't be read from; it's output will always be zero.
see examples/pwm.ck
UGen
Utility class that all other ugens inherit from. Useful in some cases to abstract sets of ugen types.
waveforms
Impulse
Pulse generator - can set the value of the next sample. Default for each sample is 0 if not set
- .next - (float, READ/WRITE) - set value of next sample
see examples/impulse_example.ck
Step
Step generator - like Impulse, but once a value is set, it is held for all following samples, until the value is set again
- .value - (float, READ/WRITE) - set the current value
- .next - (float, READ/WRITE) - set the step value examples/step_example.ck
see examples/step.ck
basic signal processing
Gain
Gain control (NOTE - all unit generators can themselves change their gain) (this is a way to add N outputs together and scale them). Gain is in fact identical in function to the UGen mother class that all other UGens extend.
- .gain - (float, READ/WRITE) - set gain ( all ugen's have this) examples/gain_example.ck
Used in examples/i-robot.ck
HalfRect
Half wave rectifier for half-wave rectification. Only passes the signal if it's values positive, outputs zero otherwise
FullRect
Full wave rectifier. Transparent for positive input values, inverts negative ones.
ZeroX
Zero crossing detector. Emits a pulse lasting a single sample at the the zero crossing in the direction of the zero crossing.
(see examples/zerox.ck)
filters
Before using filters in ChucK, for the sake of your ears and your speakers, please read the following thread http://www.electro-music.com/forum/topic-37921.html
BiQuad
BiQuad (two-pole, two-zero) filter class. examples/ugen/BiQuad.txt
- .b2 (float, READ/WRITE) filter coefficient
- .b1 (float, READ/WRITE) filter coefficient
- .b0 (float, READ/WRITE) filter coefficient
- .a2 (float, READ/WRITE) filter coefficient
- .a1 (float, READ/WRITE) filter coefficient
- .a0 (float, READ only) filter coefficient
- .pfreq (float, READ/WRITE) set resonance frequency (poles)
- .prad (float, READ/WRITE) pole radius (<= 1 to be stable)
- .zfreq (float, READ/WRITE) notch frequency
- .zrad (float, READ/WRITE) zero radius
- .norm (float, READ/WRITE) normalization
- .eqzs (float, READ/WRITE) equal gain zeroes
BPF
Band pass filter. 2nd order Butterworth. (In the future, this class may be expanded so that order and type of filter can be set.) extends FilterBasic
- .freq (float, READ/WRITE) center frequency (Hz)
- .Q (float, READ/WRITE) Q (default is 1)
- .set (float, float WRITE only) set freq and Q
BRF
Band reject filter. 2nd order Butterworth. (In the future, this class may be expanded so that order and type of filter can be set.) extends FilterBasic
- .freq (float, READ/WRITE) center frequency (Hz)
- .Q (float, READ/WRITE) Q (default is 1)
- .set (float, float WRITE only) set freq and Q
Filter
STK filter class.
- .coefs (string, WRITE only)
examples/ugen/Filter.txt
FilterBasic
base class, don't instantiate.
- .freq (float, READ/WRITE) cutoff/center frequency (Hz)
- .Q (float, READ/WRITE) resonance/Q
- .set (float, float WRITE only) set freq and Q
HPF
Resonant high pass filter. 2nd order Butterworth. (In the future, this class may be expanded so that order and type of filter can be set.) extends FilterBasic
- .freq (float, READ/WRITE) cutoff frequency (Hz)
- .Q (float, READ/WRITE) resonance (default is 1)
- .set (float, float WRITE only) set freq and Q
LPF
Resonant low pass filter. 2nd order Butterworth. (In the future, this class may be expanded so that order and type of filter can be set.) extends FilterBasic
- .freq (float, READ/WRITE) cutoff frequency (Hz)
- .Q (float, READ/WRITE) resonance (default is 1)
- .set (float, float WRITE only) set freq and Q
OnePole
STK one-pole filter class. examples/ugen/OnePole.txt
- .a1 (float, READ/WRITE) filter coefficient
- .b0 (float, READ/WRITE) filter coefficient
- .pole (float, READ/WRITE) set pole position along real axis of z-plane
OneZero
STK one-zero filter class.
- .zero (float, READ/WRITE) set zero position
- .b0 (float, READ/WRITE) filter coefficient
- .b1 (float, READ/WRITE) filter coefficient
examples/ugen/OneZero.txt
PoleZero
STK one-pole, one-zero filter class. examples/ugen/PoleZero.txt
- .a1 (float, READ/WRITE) filter coefficient
- .b0 (float, READ/WRITE) filter coefficient
- .b1 (float, READ/WRITE) filter coefficient
- .blockZero (float, READ/WRITE) DC blocking filter with given pole position
- .allpass (float, READ/WRITE) allpass filter with given coefficient
ResonZ
Resonance filter. Same as BiQuad with equal gain zeros. extends FilterBasic
- .freq (float, READ/WRITE) center frequency (Hz)
- .Q (float, READ/WRITE) Q (default is 1)
- .set (float, float WRITE only) set freq and Q
TwoPole
STK two-pole filter class.
- .a1 (float, READ/WRITE) filter coefficient
- .a2 (float, READ/WRITE) filter coefficient
- .b0 (float, READ/WRITE) filter coefficient
- .freq (float, READ/WRITE) filter resonance frequency
- .radius (float, READ/WRITE) filter resonance radius
- .norm (float, READ/WRITE) toggle filter normalization
see examples/powerup.ck examples/ugen/TwoPole.txt
TwoZero
STK two-zero filter class.
- .b0 (float, READ/WRITE) filter coefficient
- .b1 (float, READ/WRITE) filter coefficient
- .b2 (float, READ/WRITE) filter coefficient
- .freq (float, READ/WRITE) filter notch frequency
- .radius (float, READ/WRITE) filter notch radius
examples/ugen/TwoZero.txt
sound files
LiSa
live sampling utility by Dan Trueman.
LiSa provides basic live sampling functionality. An internal buffer stores samples chucked to LiSa's input. Segments of this buffer can be played back, with ramping and speed/direction control. Multiple voice facility is built in, allowing for a single LiSa object to serve as a source for sample layering and granular textures.
- .duration - ( dur , READ/WRITE ) - sets buffer size; required to allocate memory, also resets all parameter values to default
- .record - ( int , READ/WRITE ) - turns recording on and off
- .getVoice - ( int READ ) - returns the voice number of the next available voice
- .maxVoices - ( int , READ/WRITE ) - sets the maximum number of voices allowable; 10 by default (200 is the current hardwired internal limit)
- .play - ( int, WRITE ) - turn on/off sample playback (voice 0)
- .play - ( int voice, int, WRITE) - for particular voice (arg 1), turn on/off sample playback
- .rampUp - ( dur, WRITE ) - turn on sample playback, with ramp (voice 0)
- .rampUp - ( int voice dur, WRITE ) - for particular voice (arg 1), turn on sample playback, with ramp
- .rampDown - ( dur, WRITE ) - turn off sample playback, with ramp (voice 0)
- .rampDown - ( int voice, dur, WRITE ) - for particular voice (arg 1), turn off sample playback, with ramp
- .rate - ( float, WRITE ) - set playback rate (voice 0). Note that the int/float type for this method will determine whether the rate is being set (float, for voice 0) or read (int, for voice number)
- .rate - ( int voice, float, WRITE ) - for particular voice (arg 1), set playback rate
- .rate - ( READ ) - get playback rate (voice 0)
- .rate - ( int voice, READ ) - for particular voice (arg 1), get playback rate. Note that the int/float type for this method will determine whether the rate is being set (float, for voice 0) or read (int, for voice number)
- .playPos - ( READ ) - get playback position (voice 0)
- .playPos - ( int voice, READ ) - for particular voice (arg 1), get playback position
- .playPos - ( dur, WRITE ) - set playback position (voice 0)
- .playPos - ( int voice, dur, WRITE ) - for particular voice (arg 1), set playback position
- .recPos - ( dur, READ/WRITE ) - get/set record position
- .recRamp - ( dur , READ/WRITE ) - set ramping when recording (from 0 to loopEndRec)
- .loopRec - ( int, READ/WRITE ) - turn on/off loop recording
- .loopEndRec - ( dur, READ/WRITE ) - set end point in buffer for loop recording
- .loopStart - ( dur , READ/WRITE ) - set loop starting point for playback (voice 0). only applicable when 1 => loop.
- .loopStart - ( int voice, dur , WRITE ) - for particular voice (arg 1), set loop starting point for playback. only applicable when .loop(voice, 1).
- .loopEnd - ( dur , READ/WRITE ) - set loop ending point for playback (voice 0). only applicable when 1 => loop.
- .loopEnd - ( int voice, dur , WRITE ) - for particular voice (arg 1), set loop ending point for playback. only applicable when .loop(voice, 1).
- .loop - ( int , READ/WRITE ) - turn on/off looping (voice 0)
- .loop - ( int voice, int, READ/WRITE ) - for particular voice (arg 1), turn on/off looping .bi - ( int , READ/WRITE ) - turn on/off bidirectional playback (voice 0)
- .bi - ( int voice, int , WRITE ) - for particular voice (arg 1), turn on/off bidirectional playback .
- voiceGain - ( float , READ/WRITE ) - set playback gain (voice 0) .voiceGain - ( int voice, float , WRITE ) - for particular voice (arg 1), set gain
- .feedback - ( float , READ/WRITE ) - get/set feedback amount when overdubbing (loop recording; how much to retain)
- .valueAt - ( dur, READ ) - get value directly from record buffer
- .valueAt - ( sample, dur, WRITE ) - set value directly in record buffer
- .sync - (int, READ/WRITE) - set input mode; (0) input is recorded to internal buffer, (1) input sets playback position [0,1] (phase value between loopStart and loopEnd for all active voices), (2) input sets playback position, interpreted as a time value in samples (only works with voice 0)
- .track - (int, READ/WRITE) - identical to sync
- .clear - clear recording buffer
See examples/special (various files)
SndBuf
sound buffer ( now interpolating ) reads from a variety of file formats see examples/sndbuf.ck
- .read - (string, WRITE only) - loads file for reading
- .chunks - (int, READ/WRITE) - size of chunk ( of frames) to read on-demand; 0 implies entire file, default; must be set before reading to take effect.
- .write - (string, WRITE only) - loads a file for writing (currently unimplemented)
- .pos - (int, READ/WRITE) - set position (0 p .samples)
- .valueAt - (int, READ only) - returns the value at sample index .loop - (int, READ/WRITE) - toggle looping
- .interp - (int, READ/WRITE) - set interpolation (0=drop, 1=linear, 2=sinc)
- .rate - (float, READ/WRITE) - playback rate (relative to the file's natural speed)
- .play - (float, READ/WRITE) - play (same as rate)
- .freq - (float, READ/WRITE) - playback rate (file loops/second)
- .phase - (float, READ/WRITE) - set phase position (0-1)
- .channel - (int, READ/WRITE) - select channel (0 x .channels)
- .phaseOffset - (float, READ/WRITE) - set a phase offset
- .samples - (int, READ only) - fetch number of samples
- .length - (dur, READ only) - fetch length as duration
- .channels - (int, READ only) - fetch number of channels
WvIn
STK audio data input base class. examples/ugen/WvIn.txt
- .rate (float, READ/WRITE) playback rate
- .path (string, READ/WRITE) specifies file to be played
WaveLoop
STK waveform oscillator class. see examples/dope.ck examples/ugen/WaveLoop.txt
- .freq (float, READ/WRITE) frequency of playback (loops/second)
- .addPhase (float, READ/WRITE) offset by phase
- .addPhaseOffset (float, READ/WRITE) set phase offset
WvOut
STK audio data output base class. examples/ugen/WvOut.txt
- .matFilename (string, WRITE only) open a matlab file for writing
- .sndFilename (string, WRITE only) open snd file for writing
- .wavFilename (string, WRITE only) open WAVE file for writing
- .rawFilename (string, WRITE only) open raw file for writing
- .aifFilename (string, WRITE only) open AIFF file for writing
- .closeFile () close file properly
network
netout
UDP-based network audio transmitter
- .addr (string, READ/WRITE) target address
- .port (int, READ/WRITE) target port
- .size (int, READ/WRITE) packet size
- .name (string, READ/WRITE) name
netin
UDP-based network audio receiver
- .port (int, READ/WRITE) set port to receive
- .name (string, READ/WRITE) name
mono <- -> stereo
Pan2
Spread mono signal to stereo see examples/stereo/moe2.ck
- .left (UGen) left (mono) channel out
- .right (UGen) right (mono) channel out
- .pan (float, READ/WRITE) pan location value (-1 to 1)
Mix2
Mixes stereo input down to mono channel. Note that without this UGen or gain adjustment chucking stereo signals into a mono input will result in summing them, which may cause clipping.
- .left - (UGen) left (mono) channel in
- .right - (UGen) right (mono) channel in
- .pan - (float, READ/WRITE) mix parameter value (0 - 1)
STK - Delay
Delay
STK non-interpolating delay line class
see examples/netrelay.ck
- .delay (dur, READ/WRITE) length of delay
- .max (dur, READ/WRITE) max delay (buffer size)
DelayA
STK allpass interpolating delay line class. examples/ugen/DelayA.txt
- .delay (dur, READ/WRITE) length of delay
- .max (dur, READ/WRITE) max delay (buffer size)
DelayL
STK linear interpolating delay line class.
- .delay (dur, READ/WRITE) length of delay
- .max (dur, READ/WRITE) max delay (buffer size)
see examples/i-robot.ck
Echo
STK echo effect class.
- .delay (dur, READ/WRITE) length of echo
- .max (dur, READ/WRITE) max delay
- .mix (float, READ/WRITE) mix level (wet/dry)
STK - Envelopes
Envelope
STK envelope base class.
- .keyOn (int, WRITE only) ramp to 1.0
- .keyOff (int, WRITE only) ramp to 0.0
- .target (float, READ/WRITE) ramp to arbitrary value
- .time (float, READ/WRITE) time to reach target (in second)
- .duration (dur, READ/WRITE) time to reach target
- .rate (float, READ/WRITE) rate of change
- .value (float, READ/WRITE) set immediate value
see examples/sixty.ck
ADSR
STK ADSR envelope class.
- .keyOn (int, WRITE only) start the attack for non-zero values
- .keyOff (int, WRITE only) start the release for non-zero values
- .attackTime (dur, WRITE only) attack time
- .attackRate (float, READ/WRITE) attack rate
- .decayTime (dur, READ/WRITE) decay
- .decayRate (float, READ/WRITE) decay rate
- .sustainLevel (float, READ/WRITE) sustain level
- .releaseTime (dur, READ/WRITE) release time
- .releaseRate (float, READ/WRITE) release rate
- .state (int, READ only) attack=0, decay=1, sustain=2, release=3,done=4
see examples/adsr.ck
STK - Reverbs
JCRev
John Chowning's reverberator class.
- .mix (float, READ/WRITE) mix level
NRev
CCRMA's NRev reverberator class.
- .mix (float, READ/WRITE) mix level
PRCRev
Perry's simple reverberator class.
- .mix (float, READ/WRITE) mix level
STK - Components
Chorus
STK chorus effect class.
- .modFreq (float, READ/WRITE) modulation frequency
- .modDepth (float, READ/WRITE) modulation depth
- .mix (float, READ/WRITE) effect mix
- .baseDelay( dur ) sets current base delay
PitShift
STK simple pitch shifter effect class.
- .mix (float, READ/WRITE) effect dry/wet mix level
- .shift (float, READ/WRITE) degree of pitch shifting
Dyno
Dynamics processor by Matt Hoffman and Graham Coleman. Includes limiter, compressor, expander, noise gate, and ducker (presets)
preset |
slopeAbove |
slopeBelow |
tresh |
attackTime |
releaseTime |
ext.side |
limiter |
0.1 |
1.0 |
0.5 |
5::ms |
300::ms |
false |
compressor |
0.5 |
1.0 |
0.5 |
5::ms |
300::ms |
false |
expander |
2.0 |
1.0 |
0.5 |
20::ms |
400::ms |
false |
noise gate |
1.0 |
10000000 |
0.1 |
11::ms |
100::ms |
false |
ducker |
0.5 |
1.0 |
0.1 |
100::ms |
second |
true |
(control parameters)
- .limit - () -
- .compress - () -
- .expand - () -
- .gate - () -
- .duck - () -
- .thresh - ( float, READ/WRITE ) -
- .attackTime - ( dur, READ/WRITE ) -
- .releaseTime - ( dur, READ/WRITE ) -
- .ratio - ( float, READ/WRITE ) -
- .slopeBelow - ( float, READ/WRITE ) -
- .slopeAbove - ( float, READ/WRITE ) -
- .sideInput - ( float, READ/WRITE ) -
- .externalSideInput - ( int, READ/WRITE ) -
See examples/special/Dyno-limit.ck