FaustWorkshop2014
From CCRMA Wiki
Contents
Day 1
Optional textbook to go further: http://www.amazon.com/Physical-Audio-Signal-Processing-Instruments/dp/0974560723
Simple Sine Oscillator Synthesizer
import("music.lib");
import("filter.lib");
g = hslider("myParameter",0,0,1,0.01);
freq = hslider("frequency",440,50,1000,0.1);
myOsc(frequency,gain) = osc(frequency)*(smoothGain)
with{
// the smooth(0.999) function interpolates the different values of gain so that it doesn't click
smoothGain = gain : smooth(0.999);
};
process = myOsc(freq,g) ;
Working with Signals
process = _ <: _,_,_,_ :> _;
is the same as:
process = _ <: _+_+_+_;
Simple Panner
import("filter.lib");
// the metadata "[style:knob]" turns the horizontal slider into a knob
pan = hslider("pan [style:knob]",0.5,0,1,0.01) : smooth(0.999);
process = _ <: *(pan),*(1-pan);
Additive Synthesizer
import("music.lib");
import("effect.lib");
gain = hslider("gain",0,0,1,0.01) : smooth(0.999);
freq = hslider("freq",440,50,1000,0.1) : smooth(0.999);
// the smooth function can be used as a simple envelope generator for gate
gate = button("gate") : smooth(0.999);
process = osc(freq),osc(freq*2),osc(freq*3) :> *(gain)*gate <: _,_;
The last line of the code can be replaced by:
process = seq(i,3,osc(freq*(i+1))) :> *(gain)*gate <: _,_;
or
process = sum(i,3,osc(freq*(i+1))) : *(gain)*gate <: _,_;
