_id stringlengths 64 64 | repository stringlengths 7 61 | name stringlengths 5 45 | content stringlengths 0 943k | download_url stringlengths 94 213 | language stringclasses 1
value | comments stringlengths 0 20.9k | code stringlengths 0 943k |
|---|---|---|---|---|---|---|---|
fcc95c9ce96737aa2311fda4a5d91dd9e4ac928db9d7f113dacd5e352a21fc8f | jacktrip/jacktrip | tonedsp.dsp | // Source: https://faustdoc.grame.fr/examples/smartKeyboard/#turenas
import("stdfaust.lib");
y = hslider("y",0,0,1,0.01);
freq = hslider("freq",400,50,2000,0.01);
gate = button("gate");
res = hslider("res[acc: 0 0 -10 0 10]",2.5,0.01,5,0.01);
nModes = 6;
maxModeSpread = 5;
modeSpread = y*maxModeSpread;
modeFreqRatios... | https://raw.githubusercontent.com/jacktrip/jacktrip/e96e250882dab25052225fdf7a88b6b1f77f5d07/faust-src/tonedsp.dsp | faust | Source: https://faustdoc.grame.fr/examples/smartKeyboard/#turenas |
import("stdfaust.lib");
y = hslider("y",0,0,1,0.01);
freq = hslider("freq",400,50,2000,0.01);
gate = button("gate");
res = hslider("res[acc: 0 0 -10 0 10]",2.5,0.01,5,0.01);
nModes = 6;
maxModeSpread = 5;
modeSpread = y*maxModeSpread;
modeFreqRatios = par(i,nModes,1+(i+1)/nModes*modeSpread);
minModeGain = 0.3;
modeGa... |
70689e71b0304556152f226272e350aa3c788facef1611a1db1742b72edddb5c | HexHive/datAFLow | BUG20180710.dsp | import("stdfaust.lib");
// This program should compile but the interval of the table is not
// correctly computed by faust 2.8.0
phase(f) = f/48000.0 : (+, 1.0 : fmod) ~ _;
sinwave(f) = phase(f) * 2 * ma.PI : sin : +(1) : /(2);
tosc(f) = 48000, sinwave(1), int(max(0, min(phase(f)*48000, 47999))) : rdtable;
process =... | https://raw.githubusercontent.com/HexHive/datAFLow/b9f3cbc42b1970f8655817c9fb67b1eaba3ae4c0/evaluation/ddfuzz/seeds/faust/BUG20180710.dsp | faust | This program should compile but the interval of the table is not
correctly computed by faust 2.8.0 | import("stdfaust.lib");
phase(f) = f/48000.0 : (+, 1.0 : fmod) ~ _;
sinwave(f) = phase(f) * 2 * ma.PI : sin : +(1) : /(2);
tosc(f) = 48000, sinwave(1), int(max(0, min(phase(f)*48000, 47999))) : rdtable;
process = os.osc(440) : @(tosc(10)*100);
|
c77500fa97a7843f94e639a8b745b418b9e04e85ed7c18cd786f9d8aedc19c48 | olilarkin/OL-OWLPatches | DualPitchShifter.dsp | declare name "Dual Pitch Shifter";
declare description "Dual Channel pitch shifter, based on Faust pitch_shifter.dsp by Grame";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("stdfaust.lib");
msec = ma.SR/1000.0;
shiftl = ... | https://raw.githubusercontent.com/olilarkin/OL-OWLPatches/2dad8107814082c9de8ef1d117950fe3f49633b6/DualPitchShifter.dsp | faust | declare name "Dual Pitch Shifter";
declare description "Dual Channel pitch shifter, based on Faust pitch_shifter.dsp by Grame";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("stdfaust.lib");
msec = ma.SR/1000.0;
shiftl = ... | |
08d793d5814587848a5bb21a540a84b170996e483426d43b058e582eae5b358d | RuolunWeng/faust2smartphone | soloDemo.dsp | declare name "SoloDemo";
declare version "1.0";
declare author "Grame";
process = rainGen, windGen, sinusGen :>_,_ ;
// declare connection UI
cueNum = nentry("cue",1,1,3,1);
touchGate = checkbox("touchgate");
volume = hslider("screenx",0,0,1,0.01);
param = hslider("param[motion:ixp]",0,0,1,0.01);
//-----... | https://raw.githubusercontent.com/RuolunWeng/faust2smartphone/78f502aeb42af3d8fa48b0cbfef01d3b267dc038/examples/2_Motion_Mode/soloDemo.dsp | faust | declare connection UI
----------------------`rain`--------------------------
A very simple rain simulator
#### Usage
```
rain(d,l) : _,_
```
Where:
* `d`: is the density of the rain: between 0 and 1
* `l`: is the level (volume) of the rain: between 0 and 1
------------------------------------------------... | declare name "SoloDemo";
declare version "1.0";
declare author "Grame";
process = rainGen, windGen, sinusGen :>_,_ ;
cueNum = nentry("cue",1,1,3,1);
touchGate = checkbox("touchgate");
volume = hslider("screenx",0,0,1,0.01);
param = hslider("param[motion:ixp]",0,0,1,0.01);
import("stdfaust.lib");
rain(d... |
93a890ea5f73b987548d11d6fb36c66d0a9d4f7cd13259d241e71a149c02df6c | LucaSpanedda/Musical_Studies_of_Chaotic_Systems | 2.01_Van_Der_Pol_Second_Grade.dsp | // import Standard Faust library
// https://github.com/grame-cncm/faustlibraries/
import("stdfaust.lib");
// Van Der Pol Oscillator of Second Grade
// by Dario Sanfilippo
m=2.6;
h=.01;
vanderpolsecgrade(init1, init2) = loop ~ _
with {
loop(fb) = (h * m * (fb + init1_) ^ 3 + (-1 * h ^ 2 - h * m + 2) * (fb... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Chaotic_Systems/d8b78c011cc0b2b75f74643eba78306d6a3f92df/2.01_Van_Der_Pol_Second_Grade.dsp | faust | import Standard Faust library
https://github.com/grame-cncm/faustlibraries/
Van Der Pol Oscillator of Second Grade
by Dario Sanfilippo | import("stdfaust.lib");
m=2.6;
h=.01;
vanderpolsecgrade(init1, init2) = loop ~ _
with {
loop(fb) = (h * m * (fb + init1_) ^ 3 + (-1 * h ^ 2 - h * m + 2) * (fb + init1_) - (fb'
+ init2_ + init1_')) /
(h * m * (fb + init1_) ^ 2 - h * m + 1)
with {
init1_ = i... |
940d6fe0e5c80602233dc121883c5b6a10d1d1ec0220db2544c6058cd35b225b | LucaSpanedda/Musical_Studies_of_Chaotic_Systems | 2.00_Van_Der_Pol_First_Grade.dsp | // import Standard Faust library
// https://github.com/grame-cncm/faustlibraries/
import("stdfaust.lib");
// Van Der Pol Oscillator of First Grade
vanderpol(x0,y0) = ( x+_,y+_ : loop ) ~ si.bus(2)
with {
x = x0-x0';
y = y0-y0';
u = 1.0; // nonlinearity strength
dt = 0.01; // dt
... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Chaotic_Systems/d8b78c011cc0b2b75f74643eba78306d6a3f92df/2.00_Van_Der_Pol_First_Grade.dsp | faust | import Standard Faust library
https://github.com/grame-cncm/faustlibraries/
Van Der Pol Oscillator of First Grade
nonlinearity strength
dt
dielectric constant | import("stdfaust.lib");
vanderpol(x0,y0) = ( x+_,y+_ : loop ) ~ si.bus(2)
with {
x = x0-x0';
y = y0-y0';
loop(x,y) =
x + (u * (x - x ^ 3 / 3 - y) * dt),
y + (x / max(u,epsilon) ) * dt ;
};
routing(a,b) = a*0.2;
process = vanderpol(1,1) : routing <: _,_; |
29f3a2372233b12d030c113f855d6978adc5c642777678dc4adeed9a75479c8b | droosenb/faust-on-ESP32 | JCrev.dsp | import("stdfaust.lib");
process = re.jcrev :> _, *(-1) :> _ <: _, _;
| https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/OSC/esp32-osc-reverb/JCrev.dsp | faust | import("stdfaust.lib");
process = re.jcrev :> _, *(-1) :> _ <: _, _;
| |
83d80ea258076e273ffc8979d069a1923ec0a9132a31396a5d9fb245cc7d586d | danidev/microcosmos | MicrocosmosDsp.dsp | import("stdfaust.lib");
sampleRate = 48000;
page(num, x) = hgroup("page%num", x);
trigger = ba.toggle(button("gate"));
voice(num) = out
with {
// UI CODE
note = page(num, hslider("[0]V%num NOTE[style:knob]", 69, 0, 127, 1));
lfoFreq = page(num, hslider("[1]V%num LFO FREQ[style:knob]", 1, 0, 80, 0.1) : s... | https://raw.githubusercontent.com/danidev/microcosmos/27b8c35df97aba336b546cca7c6dd4ec802eed30/dsp/drone_01/dsp/MicrocosmosDsp.dsp | faust | UI CODE
DSP CODE | import("stdfaust.lib");
sampleRate = 48000;
page(num, x) = hgroup("page%num", x);
trigger = ba.toggle(button("gate"));
voice(num) = out
with {
note = page(num, hslider("[0]V%num NOTE[style:knob]", 69, 0, 127, 1));
lfoFreq = page(num, hslider("[1]V%num LFO FREQ[style:knob]", 1, 0, 80, 0.1) : si.smoo);
vo... |
1817747e2117d5de5d549572ccf88c1f2c615a7dd4622af8255f2421aa037490 | matthewcaren/KeyWI | melodica.dsp | import("stdfaust.lib");
freq = hslider("freq", 590, 20, 20000, 0.01);
gate = button("gate") : en.asr(0.003, 1, 0.03);
readpressure = hslider("breath[BELA: ANALOG_0]", 0, -1.35, 1, 0.001)*-1 - offset;
sensitivity = hslider("sensitivity[BELA: ANALOG_4]", 0.3, -0.6, 0.9, 0.01) : si.smoo;
offset = hslider("offset[BELA: ANA... | https://raw.githubusercontent.com/matthewcaren/KeyWI/83a62885e99069fe1fbaf55b28a2d98a5b3567ca/code/melodica/melodica.dsp | faust | PBup = hslider("PBup[BELA: ANALOG_1]", 0, 0, 50, 0.1) - 11 : si.smooth(0.9995) : max(0); // FSR
PBdown = hslider("PBdown[BELA: ANALOG_2]", 0, 0, 50, 0.1) - 11 : si.smooth(0.9995) : max(0); // FSR | import("stdfaust.lib");
freq = hslider("freq", 590, 20, 20000, 0.01);
gate = button("gate") : en.asr(0.003, 1, 0.03);
readpressure = hslider("breath[BELA: ANALOG_0]", 0, -1.35, 1, 0.001)*-1 - offset;
sensitivity = hslider("sensitivity[BELA: ANALOG_4]", 0.3, -0.6, 0.9, 0.01) : si.smoo;
offset = hslider("offset[BELA: ANA... |
d934b782316f9ff76314fa8d95ea86f5931636d9eca01571e87056d52b6ad51e | antisvin/MyPatches | testouts.dsp | import("stdfaust.lib");
// An example of global metadata usage (see also
// https://faust.grame.fr/doc/manual/index.html#global-metadata ). There doesn't
// seem to be a standard label intended for storing patch description, so
// we just use a custom label "message"
declare message "Patch D > A to\nmodulate LFOs";
... | https://raw.githubusercontent.com/antisvin/MyPatches/89a3df2464b68d4996d9b159ff105e8c9fc9f762/Faust/testouts.dsp | faust | An example of global metadata usage (see also
https://faust.grame.fr/doc/manual/index.html#global-metadata ). There doesn't
seem to be a standard label intended for storing patch description, so
we just use a custom label "message"
declare options "[midi:on]";
Uncommenting the line above makes freq disappear from... | import("stdfaust.lib");
declare message "Patch D > A to\nmodulate LFOs";
sineFreq = hslider("freq[OWL:A]", 1, -10, 10, 0.01);
sineOut = vbargraph("sine>[OWL:B]", -1.0, 1.0);
sqrFreq = hslider("freq2[OWL:C]:", 0.5, 0, 10, 0.01);
sqrOut = vbargraph("square>[OWL:D]", 0.0, 1.0);
sqrOutGain = hslider("square gain[OWL:E... |
11bb3eac9c4ac146c722b2e4aeefc00f01214d71026383f71e857c66fdff9770 | DISTRHO/Fadeli | analysis-spectralLevel.dsp | declare name "spectralLevel";
declare version "0.0";
declare author "JOS, revised by RM";
declare description "Demonstrates mth_octave_spectral_level in a standalone GUI.";
import("stdfaust.lib");
process = dm.spectral_level_demo;
| https://raw.githubusercontent.com/DISTRHO/Fadeli/22352d962714828613a88f008fa41744eecfac6e/dsp/analysis-spectralLevel.dsp | faust | declare name "spectralLevel";
declare version "0.0";
declare author "JOS, revised by RM";
declare description "Demonstrates mth_octave_spectral_level in a standalone GUI.";
import("stdfaust.lib");
process = dm.spectral_level_demo;
| |
84c4f2f795493203bdc358f44cd38767c62b88d779432969034cfbf7ec23f4e3 | rmichon/multiKeyboard | reverb.dsp | // Just calling zita_rev1 from demo.lib
import("stdfaust.lib");
process = dm.zita_rev1; | https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/associatedEffects/reverb.dsp | faust | Just calling zita_rev1 from demo.lib |
import("stdfaust.lib");
process = dm.zita_rev1; |
125f16e938e0d29e310d87f6f4868c0b3a9468e2cc51a8e70af24ab6ff525138 | aquafredda/mid-side-delay | simpledelay.dsp | declare name "Simple Mid Side Ping Pong Flip Flop Tic Tac Zip Zap Delay";
declare vendor "G.A.";
declare author "Gabriele Acquafredda";
ts = library("12ts.lib");
import("stdfaust.lib");
import("filters.lib");
delay_matrix = hgroup("Delay Matrix",simple_delayL, simple_delayL, simple_delayR, simple_delayR*(-1))
with {... | https://raw.githubusercontent.com/aquafredda/mid-side-delay/e60943eca8ed6c57d245ab0bda6687311e5ef0c4/simpledelay.dsp | faust | declare name "Simple Mid Side Ping Pong Flip Flop Tic Tac Zip Zap Delay";
declare vendor "G.A.";
declare author "Gabriele Acquafredda";
ts = library("12ts.lib");
import("stdfaust.lib");
import("filters.lib");
delay_matrix = hgroup("Delay Matrix",simple_delayL, simple_delayL, simple_delayR, simple_delayR*(-1))
with {... | |
a43c416b46e521c9974e17858c9c49dff24fd74e59148bcaa3eb18b0e9885a98 | LucaSpanedda/Musical_Studies_of_Dynamical_and_Complex_Systems | NonlinearOsc.dsp | // Faust standard libraries
import("stdfaust.lib");
// Linear Congruential Generator
noise(initSeed) = LCG ~ _ : (_ / m)
with{
// variables
// initSeed = an initial seed value
a = 18446744073709551557; // a large prime number, such as 18446744073709551557
c = 12345; // a small prime number, su... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Dynamical_and_Complex_Systems/f410256d3fef6d50f560e273aa4682153d4ffa1b/NonlinearOsc.dsp | faust | Faust standard libraries
Linear Congruential Generator
variables
initSeed = an initial seed value
a large prime number, such as 18446744073709551557
a small prime number, such as 12345
2.1 billion
linear_congruential_generator
Zavalishin's Onepole TPT Filter
Outs: lp , hp , ap
Lowpass TPT
Highpas... | import("stdfaust.lib");
noise(initSeed) = LCG ~ _ : (_ / m)
with{
LCG(seed) = ((a * seed + c) + (initSeed-initSeed') % m);
};
with {
g = tan(cf * ma.PI * ma.T);
G = g / (1.0 + g);
loop(s) = u , lp , hp , ap
with {
v = (x - s) * G; u = v + lp; lp = v + s; hp = x - lp; ap = lp ... |
4bed32eaaf31f4f63c56d2fe568748628c5f3314e4f71fb7a8b6ab56ef84d3c4 | kofigumbs/typebeat | reverb.dsp | import("stdfaust.lib");
gain = nentry("reverbGain", 25, 0, 50, 10) : si.smoo;
size = nentry("reverbSize", 25, 0, 50, 10);
process = sp.stereoize(*(gain/250)) : re.stereo_freeverb(size*.0056 + .7, .5, .2, 23);
| https://raw.githubusercontent.com/kofigumbs/typebeat/ce39da4b4200b1677f7759e8d6d4ddcad3025311/src/effects/reverb.dsp | faust | import("stdfaust.lib");
gain = nentry("reverbGain", 25, 0, 50, 10) : si.smoo;
size = nentry("reverbSize", 25, 0, 50, 10);
process = sp.stereoize(*(gain/250)) : re.stereo_freeverb(size*.0056 + .7, .5, .2, 23);
| |
279009fbc8c9dc11d22b3498429b9b181e8b98dc12136bad69d16dba31a74eff | mi-creative/FaustPM_2021_examples | 00_SingleMass.dsp | import("stdfaust.lib");
/* Faust PM Workshop : Introduction to Mass-Interaction Modelling */
/* Part 0: a single mass */
// Build a single mass and hit it
in1 = button("test"):ba.impulsify * 0.00001;
process = in1: mi.mass(1, 0, 0, 0);
| https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/00_SingleMass.dsp | faust | Faust PM Workshop : Introduction to Mass-Interaction Modelling
Part 0: a single mass
Build a single mass and hit it | import("stdfaust.lib");
in1 = button("test"):ba.impulsify * 0.00001;
process = in1: mi.mass(1, 0, 0, 0);
|
f13ad6948a1f299434487a47fc44159bc6ff28630b16231f06d93e01afbfdc53 | rmichon/mi_faust | IPlayTheTriangle.dsp | import("stdfaust.lib");
import("../../faust/mi.lib");
in1 = vslider("pos",1,-1,1,0.0001) : si.smoo;
OutGain = 50.;
m_K = 0.1;
m_Z = 0.001;
nlK = 0.05;
nlScale = 0.01;
model = (RoutingLinkToMass:
ground(0.),
mass(1.,0., 0.),
mass(1.,0., 0.),
mass(1.,0., 0.),
posInput(0.) :
RoutingMassToLink :
spring(0.05,0.01, 0.,... | https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/IPlayTheTriangle.dsp | faust | import("stdfaust.lib");
import("../../faust/mi.lib");
in1 = vslider("pos",1,-1,1,0.0001) : si.smoo;
OutGain = 50.;
m_K = 0.1;
m_Z = 0.001;
nlK = 0.05;
nlScale = 0.01;
model = (RoutingLinkToMass:
ground(0.),
mass(1.,0., 0.),
mass(1.,0., 0.),
mass(1.,0., 0.),
posInput(0.) :
RoutingMassToLink :
spring(0.05,0.01, 0.,... | |
d4ccb11ea294e3af7ba41efc29f16d50576627eac5798a75ec5e57fac03513f4 | LucaSpanedda/Guida_Primi_Codici_in_FAUST | 0.30_Frequenza_variabile.dsp | // FREQUENZA VARIABILE
/* Nella nostra definizione del fasore,
sappiamo che la nostra frequenza è definita
dal valore che definisce gli step d'incremento per ogni campione.
ad esempio:
ad una frequenza di campionamento (fissa),
per l'appunto di 48000samples al secondo,
sappiamo che se impiegassimo un valore ... | https://raw.githubusercontent.com/LucaSpanedda/Guida_Primi_Codici_in_FAUST/9156161207dd484de70e2be871edeeada62d9d8c/0.30_Frequenza_variabile.dsp | faust | FREQUENZA VARIABILE
Nella nostra definizione del fasore,
sappiamo che la nostra frequenza è definita
dal valore che definisce gli step d'incremento per ogni campione.
ad esempio:
ad una frequenza di campionamento (fissa),
per l'appunto di 48000samples al secondo,
sappiamo che se impiegassimo un valore increm... |
import("stdfaust.lib");
decimale(step)= step-int(step);
frequenza = 440;
fasore = (frequenza/ma.SR) : (+ : decimale) ~ _;
riscalamento_fasi = fasore-0.5;
ampiezza_fasore = 1;
process = ampiezza_fasore, ampiezza_fasore;
per la stessa frequenza precedentemente determinata.
|
bc5b09110b955bf6633861081dc788b6a2c82ae6d464e4c6df91ee328df3d91c | oshibka404/synt | triangle.dsp | import("stdfaust.lib");
cc = library("../midi_controls.dsp");
triangle_level_attack = vgroup("Triangle", hslider("Attack[1]", .001, .001, 1, .001));
triangle_level_decay = vgroup("Triangle", hslider("Decay[2]", 1, 0.1, 1, .001));
triangle_level_sustain = vgroup("Triangle", hslider("Sustain[3]", 1, .001, 1, .001));
tr... | https://raw.githubusercontent.com/oshibka404/synt/37f54d7d26752efb66baab79cbba2d4044a9e295/faust/oscillators/triangle.dsp | faust | import("stdfaust.lib");
cc = library("../midi_controls.dsp");
triangle_level_attack = vgroup("Triangle", hslider("Attack[1]", .001, .001, 1, .001));
triangle_level_decay = vgroup("Triangle", hslider("Decay[2]", 1, 0.1, 1, .001));
triangle_level_sustain = vgroup("Triangle", hslider("Sustain[3]", 1, .001, 1, .001));
tr... | |
839bc145104bdb14cdd83b0847a0a7582414a6132f102d56a09fda018a16eb48 | oshibka404/synt | saw.dsp | import("stdfaust.lib");
cc = library("../midi_controls.dsp");
saw_level_attack = vgroup("Saw", hslider("Attack[1]", .001, .001, 1, .001));
saw_level_decay = vgroup("Saw", hslider("Decay[2]", .3, 0.1, 1, .001));
saw_level_sustain = vgroup("Saw", hslider("Sustain[3]", .2, .001, 1, .001));
saw_level_release = vgroup("Sa... | https://raw.githubusercontent.com/oshibka404/synt/37f54d7d26752efb66baab79cbba2d4044a9e295/faust/oscillators/saw.dsp | faust | import("stdfaust.lib");
cc = library("../midi_controls.dsp");
saw_level_attack = vgroup("Saw", hslider("Attack[1]", .001, .001, 1, .001));
saw_level_decay = vgroup("Saw", hslider("Decay[2]", .3, 0.1, 1, .001));
saw_level_sustain = vgroup("Saw", hslider("Sustain[3]", .2, .001, 1, .001));
saw_level_release = vgroup("Sa... | |
64609f6561d5f54034b99d568808435425732995e5485bdd3e79849249ad3814 | PierreKy-org/plugins_server_webaudiomodules | smoothDelay.dsp | declare name "smoothDelay";
declare author "Yann Orlarey";
declare copyright "Grame";
declare version "1.0";
declare license "STK-4.3";
//--------------------------process----------------------------
//
// A stereo smooth delay with a feedback control
//
// This example shows how to use sdelay, a delay that doesn... | https://raw.githubusercontent.com/PierreKy-org/plugins_server_webaudiomodules/9b1b3b6d814bdb15a5f0cdd41695f8b987dbf600/pluginsWithoutFetch/smoothDelay/smoothDelay.dsp | faust | --------------------------process----------------------------
A stereo smooth delay with a feedback control
This example shows how to use sdelay, a delay that doesn't
click and doesn't transpose when the delay time is changed
------------------------------------------------------------- | declare name "smoothDelay";
declare author "Yann Orlarey";
declare copyright "Grame";
declare version "1.0";
declare license "STK-4.3";
import("stdfaust.lib");
process = par(i, 2, voice)
with
{
voice = (+ : de.sdelay(N, interp, dtime)) ~ *(fback);
N = int(2^19);
interp = hslider("interpolation[unit:... |
85e997a657907dafd91283f8591d2a28054d7bd1690f0ee09e9ec5221e6a197d | HexHive/datAFLow | t4b.dsp | import("stdfaust.lib");
R = 4;
N = R*R;
src = par(i, N, i);
bus = par(i, N, _);
//xr = route(N,N,par(i, N, (i+1,N-i)));
r = ro.interleave(R,R);
// NxM -> MxN
// i: NxM ->
/*
k:0..NxM-1
i:0..N-1; j:0..M-1
0 -> 0*M
1 -> 1*M
2 -> 2*M
i -> (i%N)*M + i/N
*/
xr(N,M) = route(16, 16, par(i, N, (i+1, (i%N)*M + int(i... | https://raw.githubusercontent.com/HexHive/datAFLow/b9f3cbc42b1970f8655817c9fb67b1eaba3ae4c0/evaluation/ddfuzz/seeds/faust/t4b.dsp | faust | xr = route(N,N,par(i, N, (i+1,N-i)));
NxM -> MxN
i: NxM ->
k:0..NxM-1
i:0..N-1; j:0..M-1
0 -> 0*M
1 -> 1*M
2 -> 2*M
i -> (i%N)*M + i/N
| import("stdfaust.lib");
R = 4;
N = R*R;
src = par(i, N, i);
bus = par(i, N, _);
r = ro.interleave(R,R);
xr(N,M) = route(16, 16, par(i, N, (i+1, (i%N)*M + int(i/N) + 1)));
wxw(N,M) = route(N*M, N*M, par(i, N*M, (i+1, (i%N)*M + int(i/N) + 1)));
zxw(N,M) = route(N*M, N*M, par(i, N*M, (i+1, (i%N)*M+1)));
zzxw(N,M) = rout... |
56576a47f136cd5560f4747d27c5db55918ceb4791917818d698aba11555abbc | LucaSpanedda/Musical_Studies_of_Chaotic_Systems | 1.03_Lorenz.dsp | // import Standard Faust library
// https://github.com/grame-cncm/faustlibraries/
import("stdfaust.lib");
// Lorenz System Osc with 3 Out
lorenz(x0,y0,z0) = ( x+_,y+_,z+_ : loop ) ~ si.bus(3)
with {
x = x0-x0';
y = y0-y0';
z = z0-z0';
sigma = 10.0; // a
rho = 28; // b
... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Chaotic_Systems/d8b78c011cc0b2b75f74643eba78306d6a3f92df/1.03_Lorenz.dsp | faust | import Standard Faust library
https://github.com/grame-cncm/faustlibraries/
Lorenz System Osc with 3 Out
a
b
c
d
iterative times increasing | import("stdfaust.lib");
lorenz(x0,y0,z0) = ( x+_,y+_,z+_ : loop ) ~ si.bus(3)
with {
x = x0-x0';
y = y0-y0';
z = z0-z0';
q = 1.0;
loop(x,y,z) =
(x+(sigma*(y-x))*dt)*q,
(y+ (rho*x -(x*z) -y)*dt)*q,
(z+ ((x*y)-(beta*z)) *dt)*q;
};
... |
a04fb25f3162559f31a20d881ad95fb6456fd7b6944647cd2245e472aed25e9d | prithviKantanAAU/STS_ObsPerf | energyTest.dsp | import("stdfaust.lib");
energy = hslider("energy",0,0,1,0.001) : si.smoo;
f_Hz = 220 + energy * RANGE_f_Hz;
gain = 0.5 + sqrt(energy) * RANGE_gain;
breathGain = energy * RANGE_drive;
drive = energy * RANGE_drive;
overblow = 0.5 + energy * RANGE_gain * RANGE_gain * 2;
subAmp = energy * RANGE_subAmp;
RANG... | https://raw.githubusercontent.com/prithviKantanAAU/STS_ObsPerf/a9b2754fa8d86316bd75905bda642bca20660b5b/energyTest.dsp | faust | setTempo = hslider("tempo",500,400,1000,0.001);
at = hslider("attack",0.001,0.001,0.1,0.001);
rl = hslider("release",0.2,0.001,1,0.001);
freqFactor = 0.999999999999 + freqDiff * 0.0080951 - freqDiff*freqDiff * 0.00002777 + freqDiff*freqDiff*freqDiff * 0.00000004097;
tubeLength = 220 + (f_Hz - 220) * freqFactor : pm... | import("stdfaust.lib");
energy = hslider("energy",0,0,1,0.001) : si.smoo;
f_Hz = 220 + energy * RANGE_f_Hz;
gain = 0.5 + sqrt(energy) * RANGE_gain;
breathGain = energy * RANGE_drive;
drive = energy * RANGE_drive;
overblow = 0.5 + energy * RANGE_gain * RANGE_gain * 2;
subAmp = energy * RANGE_subAmp;
RANG... |
a78497100349fca5b8b5668a26dbd59d8f369c69c5cfa4119f44330db5b7e5bf | DISTRHO/Fadeli | reverb-zitaRevFDN.dsp | declare name "zitaRevFDN";
declare version "0.0";
declare author "JOS, Revised by RM";
declare description "Reverb demo application based on zita_rev_fdn.";
import("stdfaust.lib");
process = dm.zita_rev_fdn_demo;
| https://raw.githubusercontent.com/DISTRHO/Fadeli/6f3cd85c6ba90ce94b7fa8e72ae3cb0f6c77dc75/dsp/reverb-zitaRevFDN.dsp | faust | declare name "zitaRevFDN";
declare version "0.0";
declare author "JOS, Revised by RM";
declare description "Reverb demo application based on zita_rev_fdn.";
import("stdfaust.lib");
process = dm.zita_rev_fdn_demo;
| |
d18a80f5fcb169c9a4d88ed0ec78dafe1621befc6e1391fac2fa0eb1fd8008a9 | levinericzimmermann/cdd | slowMode.dsp | declare name "slowModeFilter";
declare version "1.0";
declare options "[midi:on][nvoices:16]";
// Filter instrument
import("stdfaust.lib");
baseFreq = hslider("freq",200,20,20000,0.01);
bend = ba.semi2ratio(hslider("bend[midi:pitchwheel]",0,-2,2,0.01));
freq = baseFreq * bend;
gain = hslider("gain",... | https://raw.githubusercontent.com/levinericzimmermann/cdd/7b03209a1acfc645b38f2094fd18e0c51c431e6c/etc/faust/slowMode.dsp | faust | Filter instrument
envelope = en.adsre(8, 0.01, 0.6, 4, gate) * gain;
leftModeLfoFreqGenerator = (no.sparse_noise(0.01) + 1.2) * 0.3;
RightModeLfoFreqGenerator = (no.sparse_noise(0.04) + 1.2) * 0.3;
leftOriginalGainFreqGenerator = (no.sparse_noise(0.05) + 1.2) * 0.2;
RightOriginalGainFreqGenerator = (no.spa... | declare name "slowModeFilter";
declare version "1.0";
declare options "[midi:on][nvoices:16]";
import("stdfaust.lib");
baseFreq = hslider("freq",200,20,20000,0.01);
bend = ba.semi2ratio(hslider("bend[midi:pitchwheel]",0,-2,2,0.01));
freq = baseFreq * bend;
gain = hslider("gain", 0.25, 0, 1, 0.001);
gate ... |
e461618d0b65207b150a2b13aa08d6c8ec397d1051873196c359cf5a78354258 | SMERM/BN-Tedesco | sine.dsp | import("stdfaust.lib");
decimal(x) = x - floor(x);
freq = 440;
step = freq/ma.SR;
phasor(freq) = +(freq/ma.SR)~decimal: -(step);
sine = sin(phasor(freq)*2*ma.PI);
process = sine;
| https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-01/20200401/sine.dsp | faust | import("stdfaust.lib");
decimal(x) = x - floor(x);
freq = 440;
step = freq/ma.SR;
phasor(freq) = +(freq/ma.SR)~decimal: -(step);
sine = sin(phasor(freq)*2*ma.PI);
process = sine;
| |
7a03f1b3bb0f4fdb0fc07af43e834ad5eaca7ea943c92fac599ebf91892be9e2 | dxinteractive/mosfez-faust-dsp | mosfez-faust-tremolo.dsp | // mosfez-faust-tremolo.dsp
// A tremolo pedal test with Faust. Wizard: 6% CPU
// - Knob A controls speed from 0.125Hz - 2Hz - 32Hz.
// - Knob B controls depth from 0% to 100%.
import("stdfaust.lib");
speed = 2 ^ hslider("speed[OWL:A]",2.4,-3.0,5.0,0.001);
depth = hslider("depth[OWL:B]",0.5,0.0,1.0,0.001);
gain = os.o... | https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/049c39bcf26289e005d788dd202af8e68afaec65/mosfez-faust-tremolo.dsp | faust | mosfez-faust-tremolo.dsp
A tremolo pedal test with Faust. Wizard: 6% CPU
- Knob A controls speed from 0.125Hz - 2Hz - 32Hz.
- Knob B controls depth from 0% to 100%. |
import("stdfaust.lib");
speed = 2 ^ hslider("speed[OWL:A]",2.4,-3.0,5.0,0.001);
depth = hslider("depth[OWL:B]",0.5,0.0,1.0,0.001);
gain = os.osc(speed) * depth + 1.0;
fx = _ * gain * 3.0;
process = fx,fx;
|
6778b399236e82482508127e6b5a1d057829792765974dd1358597f30c1c8c81 | Msc-program/Jacklink | freeverbdsp.dsp | declare name "freeverb";
declare version "0.0";
declare author "Romain Michon";
declare license "LGPL";
declare description "Freeverb implementation in Faust, from the Faust Library's dm.freeverb_demo in demos.lib";
import("stdfaust.lib");
//----------------------------`(dm.)freeverb_demo`-------------------------
//... | https://raw.githubusercontent.com/Msc-program/Jacklink/70b8634173e66d89884bb77b70b7b3ed01f71f79/faust-src/freeverbdsp.dsp | faust | ----------------------------`(dm.)freeverb_demo`-------------------------
Freeverb demo application.
#### Usage
```
_,_ : freeverb_demo : _,_;
```
------------------------------------------------------------
Author: Romain Michon
License: LGPL | declare name "freeverb";
declare version "0.0";
declare author "Romain Michon";
declare license "LGPL";
declare description "Freeverb implementation in Faust, from the Faust Library's dm.freeverb_demo in demos.lib";
import("stdfaust.lib");
freeverb_demo = _,_ <: (*(g)*fixedgain,*(g)*fixedgain :
re.stereo_freeverb(co... |
a044742f4bcec67d57c8595ef5d67e9808890ab08085f7f53d3d22a51745c469 | CICM-research-composition/livepatching | bubble.dsp | declare name "bubble";
declare description "Production of a water drop bubble sound.";
declare license "MIT";
declare copyright "(c) 2017: Yann Orlarey, GRAME";
import("stdfaust.lib");
//---------------------------`bubble`--------------------------
// bubble(f0, trig) : produces a water drop bubble sound
//
// #### ... | https://raw.githubusercontent.com/CICM-research-composition/livepatching/da47667b3f5236b4b81cb05593f35d408caaca9e/source/bubble.dsp | faust | ---------------------------`bubble`--------------------------
bubble(f0, trig) : produces a water drop bubble sound
#### Usage
```
bubble(f0, trig) : _
```
Where:
* ` f0 `: base frequency of bubble sound
* `trig`: trigs the bubble sound on the rising front
#### Example
```
button("drop") : bubble(600) ... | declare name "bubble";
declare description "Production of a water drop bubble sound.";
declare license "MIT";
declare copyright "(c) 2017: Yann Orlarey, GRAME";
import("stdfaust.lib");
bubble(f0,trig) = os.osc(f) * (exp(-damp*time) : si.smooth(0.99))
with {
damp = 0.043*f0 + 0.0014*f0^(3/2);
f = f0*(1+sigma*ti... |
2446e05269ff56cc245d3a80b59ae30d2148e35dbeb2b59051735b483f38058d | daniel-kelley/gac | tabgroup.dsp | import("stdfaust.lib");
saw(f,g) = os.sawtooth(f)*g;
saw1 = saw(f,g)
with {
q(x) = vgroup("saw1", x);
f = q(hslider("freq",440,50,1000,0.1));
g = q(hslider("gain",0,0,1,0.01));
};
saw2 = saw(f,g)
with {
q(x) = vgroup("saw2", x);
f = q(hslider("freq",440,50,1000,0.1));
g = q(hslider("gain",0,0,1,0.01));
}... | https://raw.githubusercontent.com/daniel-kelley/gac/cdc00a3d467abb9c3f212ba9b60efe3df07e0385/test/tabgroup.dsp | faust | Fader(in) = ba.db2linear(vslider("Input %in", -10, -96, 4, 0.1));
Mixer(N,out) = hgroup("Output %out", par(in, N, *(Fader(in)) ) :> _ );
Matrix(N,M) = tgroup("Matrix %N x %M", par(in, N, _) <: par(out, M, Mixer(N, out)));
process = Matrix(8, 8); | import("stdfaust.lib");
saw(f,g) = os.sawtooth(f)*g;
saw1 = saw(f,g)
with {
q(x) = vgroup("saw1", x);
f = q(hslider("freq",440,50,1000,0.1));
g = q(hslider("gain",0,0,1,0.01));
};
saw2 = saw(f,g)
with {
q(x) = vgroup("saw2", x);
f = q(hslider("freq",440,50,1000,0.1));
g = q(hslider("gain",0,0,1,0.01));
}... |
5e4afde5a896ec0a1ac1059528ccbacdfd4a2096fd4327a384f61adf57d21c96 | DISTRHO/Fadeli | reverb-zitaRev.dsp | declare name "zitaRev";
declare version "0.0";
declare author "JOS, Revised by RM";
declare description "Example GUI for zita_rev1_stereo (mostly following the Linux zita-rev1 GUI).";
import("stdfaust.lib");
process = dm.zita_rev1;
| https://raw.githubusercontent.com/DISTRHO/Fadeli/6f3cd85c6ba90ce94b7fa8e72ae3cb0f6c77dc75/dsp/reverb-zitaRev.dsp | faust | declare name "zitaRev";
declare version "0.0";
declare author "JOS, Revised by RM";
declare description "Example GUI for zita_rev1_stereo (mostly following the Linux zita-rev1 GUI).";
import("stdfaust.lib");
process = dm.zita_rev1;
| |
cb262d5ca8f4a6aa639fbd620c2da4dc2f5ac10b94308029db457c2417f8fb5a | francescoganassin/FaustDSP-synths | ganassynth.dsp | import("stdfaust.lib");
waveGenerator = os.sawtooth(freq) + os.triangle(freq*4) + os.triangle(freq*2)
with {
freq = hslider("freq",500,20,5000,1);
};
envelope = hgroup("[Envelope]",en.adsr(attack,decay,sustain,release,gate)*gate*0.3)
with{
attack = hslider("[0]Attack[style:knob]",100,1,1000,1)*0.001;
decay = hsl... | https://raw.githubusercontent.com/francescoganassin/FaustDSP-synths/ef9eb3da660f4d53e631a12b7e4f63944c57f61c/ganassynth.dsp | faust | import("stdfaust.lib");
waveGenerator = os.sawtooth(freq) + os.triangle(freq*4) + os.triangle(freq*2)
with {
freq = hslider("freq",500,20,5000,1);
};
envelope = hgroup("[Envelope]",en.adsr(attack,decay,sustain,release,gate)*gate*0.3)
with{
attack = hslider("[0]Attack[style:knob]",100,1,1000,1)*0.001;
decay = hsl... | |
37cb21acb655fd067d59a3e89d4bde0bcdf9a437c22038217076d6d8a1940885 | olilarkin/OL-OWLPatches | WeirdPhaser.dsp | declare name "Weird Phaser";
declare description "Stereo Phaser based on SSB Modulation";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("IIRHilbert.lib");
import("stdfaust.lib");
mix = 0.5;
maxfeedback = 0.7;
rate = hsli... | https://raw.githubusercontent.com/olilarkin/OL-OWLPatches/2dad8107814082c9de8ef1d117950fe3f49633b6/WeirdPhaser.dsp | faust | declare name "Weird Phaser";
declare description "Stereo Phaser based on SSB Modulation";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("IIRHilbert.lib");
import("stdfaust.lib");
mix = 0.5;
maxfeedback = 0.7;
rate = hsli... | |
bbf008ab1737195c540c8c9eee97d5400611ebd5a52d8950a2706c14ff210b14 | olilarkin/OL-OWLPatches | Blipper.dsp | declare name "Blipper";
declare description "Envelope Follower controlling pitch of a triangle oscillator, good with percussive input";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.2";
declare licence "GPL";
import("stdfaust.lib");
basepitch = hslider("B... | https://raw.githubusercontent.com/olilarkin/OL-OWLPatches/2dad8107814082c9de8ef1d117950fe3f49633b6/Blipper.dsp | faust | attack = hslider("Attack [unit:ms] [OWL:PARAMETER_C]", 2, 2, 1000, 1) : *(0.001) : max(1.0/float(ma.SR)); | declare name "Blipper";
declare description "Envelope Follower controlling pitch of a triangle oscillator, good with percussive input";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.2";
declare licence "GPL";
import("stdfaust.lib");
basepitch = hslider("B... |
1172c34b9d69f23d70ed11473ed25eb1fe9b1e217e787d42331e5ed50190fe20 | droosenb/faust-on-ESP32 | ODE_Discrete.dsp | import("stdfaust.lib");
F1(x, y, d) = d(x, y)'' * 2;
F2(x, y, d) = F1 : _ + x, _ + y : d(_, _);
//midpoint =
sho(x, v) = v , -w^2 * x
with{
w = 200;
};
process = F1(_, _, sho); | https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(4)/ODE_Discrete.dsp | faust | midpoint = | import("stdfaust.lib");
F1(x, y, d) = d(x, y)'' * 2;
F2(x, y, d) = F1 : _ + x, _ + y : d(_, _);
sho(x, v) = v , -w^2 * x
with{
w = 200;
};
process = F1(_, _, sho); |
0ceb097f52ac95cb3a00779fb35d80ed10914c4cf3545183bc2376bd7923320f | jpcima/rc-effect-playground | chorus.dsp | import("stdfaust.lib");
bypass = checkbox("[1] Bypass");
gain1 = hslider("[2] Line 1 gain", 0.0, -20.0, 0.0, 1.0) : ba.db2linear : si.smoo;
gain2 = hslider("[3] Line 2 gain", 0.0, -20.0, 0.0, 1.0) : ba.db2linear : si.smoo;
speed = checkbox("[4] Speed");
process(x) =
ba.if(bypass, x, (x + gain1 * (x : line1) + gain2... | https://raw.githubusercontent.com/jpcima/rc-effect-playground/3375323d8616cbfc73c9701a3765f738d574c460/faust/chorus.dsp | faust | a simulation of BBD antialising LPF at input and output
line1 = delayfilter : de.fdelay1(delaycapframes, lfo1 : delayAt : *(ma.SR)) : delayfilter;
line2 = delayfilter : de.fdelay1(delaycapframes, lfo2 : delayAt : *(ma.SR)) : delayfilter;
delay capacity, must be >> delay time
the same in frames, rounded up | import("stdfaust.lib");
bypass = checkbox("[1] Bypass");
gain1 = hslider("[2] Line 1 gain", 0.0, -20.0, 0.0, 1.0) : ba.db2linear : si.smoo;
gain2 = hslider("[3] Line 2 gain", 0.0, -20.0, 0.0, 1.0) : ba.db2linear : si.smoo;
speed = checkbox("[4] Speed");
process(x) =
ba.if(bypass, x, (x + gain1 * (x : line1) + gain2... |
0fa4c4db65805901f0672b4bb1ef32d5921889c4aa34223b1d407c69480c3ce9 | RebelTechnology/OpenWareLab | 04Output.dsp | import("stdfaust.lib");
freq = hslider("Frequency[OWL:A]", 60, 60, 440, 1);
lfo_freq = hslider("LFO frequency[OWL:B]", 0.3, 0.01, 1.0, 0.01) : si.smoo;
lfo_out = hbargraph("LFO>[OWL:C]", -1, 1);
process = attach(os.osc(freq), os.osc(lfo_freq) : lfo_out);
| https://raw.githubusercontent.com/RebelTechnology/OpenWareLab/e0672d29d78cdcbf0315477b069291e415dc1ded/Faust/04Output.dsp | faust | import("stdfaust.lib");
freq = hslider("Frequency[OWL:A]", 60, 60, 440, 1);
lfo_freq = hslider("LFO frequency[OWL:B]", 0.3, 0.01, 1.0, 0.01) : si.smoo;
lfo_out = hbargraph("LFO>[OWL:C]", -1, 1);
process = attach(os.osc(freq), os.osc(lfo_freq) : lfo_out);
| |
d9acd7eeec303b03b9d73a22bbdf30a897f5e987a0c62a1023d379c65647fc4f | FineArtMaths/FaustExperiments | TactileBell.dsp | import("stdfaust.lib");
//gain = hslider("gain", 0.5, 0, 1, 0.01);
freq = hslider("freq", 440, 50, 1000, 0.01);
gate = button("gate") : en.adsr(0.01, 0.01, 0.9, 0.1);
gain = 0.1; //an.amp_follower_ar(0.001, 2.0) , 2 : pow, 2 : * ;
//freq = 440.0;
h1Level = hslider("Fundamental", 0.5, 0, 1, 0.01);
h2Level = hslider... | https://raw.githubusercontent.com/FineArtMaths/FaustExperiments/5b39401ea9cc16c56a06d0174b26763f8f5653e3/TactileBell.dsp | faust | gain = hslider("gain", 0.5, 0, 1, 0.01);
an.amp_follower_ar(0.001, 2.0) , 2 : pow, 2 : * ;
freq = 440.0; | import("stdfaust.lib");
freq = hslider("freq", 440, 50, 1000, 0.01);
gate = button("gate") : en.adsr(0.01, 0.01, 0.9, 0.1);
h1Level = hslider("Fundamental", 0.5, 0, 1, 0.01);
h2Level = hslider("Octave", 0.8, 0, 1, 0.01);
inharmonicity = nentry("Inharmonicity", 1.2, 0.5, 2, 0.01);
combRes = hslider("Comb Resonance... |
401d0c028206b348b0c76514ccefa2f46afb463ebfeebd04e557b209fac5d435 | bjornmossa/bm-faust-dsp | bmKick.dsp | declare name "bm-kick";
declare version "0.1";
declare author "Bjornmossa";
declare license "GPL v3";
import("stdfaust.lib");
body(tr, tone) = os.osci(60 * (en.ar(0.001, 0.05, tr) + tone) * en.ar(0.01, 1.0, tr));
click(tr) = (os.sawtooth(55) * en.ar(0.001, 0.009, tr)) : fi.resonlp(120, 1, 0.5);
noise(tr, tail) = (no.... | https://raw.githubusercontent.com/bjornmossa/bm-faust-dsp/b852d246d5d8edf742d00e756fd7c3dae2a0eaa6/kick/bmKick.dsp | faust | declare name "bm-kick";
declare version "0.1";
declare author "Bjornmossa";
declare license "GPL v3";
import("stdfaust.lib");
body(tr, tone) = os.osci(60 * (en.ar(0.001, 0.05, tr) + tone) * en.ar(0.01, 1.0, tr));
click(tr) = (os.sawtooth(55) * en.ar(0.001, 0.009, tr)) : fi.resonlp(120, 1, 0.5);
noise(tr, tail) = (no.... | |
efb7662c70e0ef4fe0ec059bbeb93ad2fad4cf90ecbbdd428d5bba2a141aae44 | TobiasKozel/GuitarD | Phaser.dsp |
import("stdfaust.lib");
maxf = 20000;
minf = 20;
highf = vslider("highF", minf, minf, maxf, 1) : si.smooth(0.999);
lowf = vslider("lowF", maxf, minf, maxf, 1) : si.smooth(0.999);
width = vslider("Width", maxf, minf, maxf, 1) : si.smooth(0.999);
ratio = vslider("ratio", 1, 0.01, 10, 0.01) : si.smooth(0.999);
speed = ... | https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/phaser/Phaser.dsp | faust |
import("stdfaust.lib");
maxf = 20000;
minf = 20;
highf = vslider("highF", minf, minf, maxf, 1) : si.smooth(0.999);
lowf = vslider("lowF", maxf, minf, maxf, 1) : si.smooth(0.999);
width = vslider("Width", maxf, minf, maxf, 1) : si.smooth(0.999);
ratio = vslider("ratio", 1, 0.01, 10, 0.01) : si.smooth(0.999);
speed = ... | |
a05b8cfb270f28ee95f1d9b8bf56aca75ce442cd2b697b4793ef2e786d718675 | SuyashRamteke/FAUST---Real-time-Audio-Signal-Processing | Karplus_Strong.dsp | import ("stdfaust.lib");
string = vgroup("String", +~(de.fdelay4(maxDelLength, delLength-1) : filter : *(damping)))
with {
freq = hslider("[0]Frequency", 440, 50, 5000, 1);
damping = hslider("[1]Feedback", 0.99, 0, 1, 0.01);
maxDelLength = 960; // Since the lowest frequency of our string is 50Hz, t... | https://raw.githubusercontent.com/SuyashRamteke/FAUST---Real-time-Audio-Signal-Processing/ca24b8d650b6d77435d8128b0aa8e4d8b6022c30/Karplus_Strong.dsp | faust | Since the lowest frequency of our string is 50Hz, the maxDelayLength would be atleast 48000/50 = 960
Divide by 2 to preserve stability in the loop
Why is it not a polyphonic code?? | import ("stdfaust.lib");
string = vgroup("String", +~(de.fdelay4(maxDelLength, delLength-1) : filter : *(damping)))
with {
freq = hslider("[0]Frequency", 440, 50, 5000, 1);
damping = hslider("[1]Feedback", 0.99, 0, 1, 0.01);
delLength = ma.SR/freq;
};
pluck = hgroup("[1]Pluck", gate : ba.impulsify*gain)
... |
c1eb01c1d337f44da01d61f52f85ccd66b5f12cab89fb56076d9e03c59ba5c23 | dxinteractive/mosfez-faust-dsp | proto-fixed-additive.dsp | import("stdfaust.lib");
// midi
midigate = button("gate");
midifreq = nentry("freq[unit:Hz]", 440, 20, 20000, 1);
// oscillators
partial1 = os.osc(midifreq * 1.0) * 1.0 * en.adsre(0.01,0.1,0.7,6.0,midigate);
partial2 = os.osc(midifreq * 6.0) * 0.1 * en.adsre(0.01,0.1,0.7,3.0,midigate);
partial3 = os.osc(midifreq * ... | https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/1acf88459363d42d34dc3e0c8d3fffcb406af190/proto-fixed-additive.dsp | faust | midi
oscillators | import("stdfaust.lib");
midigate = button("gate");
midifreq = nentry("freq[unit:Hz]", 440, 20, 20000, 1);
partial1 = os.osc(midifreq * 1.0) * 1.0 * en.adsre(0.01,0.1,0.7,6.0,midigate);
partial2 = os.osc(midifreq * 6.0) * 0.1 * en.adsre(0.01,0.1,0.7,3.0,midigate);
partial3 = os.osc(midifreq * 17.0) * 0.02 * en.adsre... |
ed54d22f34f37d5fefa114407a1aba16a5795d9933da730463848cfa7d7f7b4c | dxinteractive/mosfez-faust-dsp | proto-layers.dsp | import("stdfaust.lib");
changed(x) = x != x';
layerIsAwake(l,x,t) = return with {
layerChange = l : changed;
startPos = x : ba.sAndH(layerChange);
nudged = abs(x - startPos) > t;
return = layerChange,nudged : ba.on_and_off : _ == 0;
};
layerValue(l,i,x) = return with {
return = x : ba.sAndH((l ==... | https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/f138cd3d1503590eb7418b2a770a0a596c63c052/proto-layers.dsp | faust | e.g. | import("stdfaust.lib");
changed(x) = x != x';
layerIsAwake(l,x,t) = return with {
layerChange = l : changed;
startPos = x : ba.sAndH(layerChange);
nudged = abs(x - startPos) > t;
return = layerChange,nudged : ba.on_and_off : _ == 0;
};
layerValue(l,i,x) = return with {
return = x : ba.sAndH((l ==... |
7f15d53f1a8cb0293296f29b41fcfbe73e7944561aa2d5b59fd007fc768adff1 | antisvin/MyPatches | B259.dsp | // Source: https://github.com/yorgoszachos/b259wf
import("stdfaust.lib");
fold = hslider("Fold[OWL:A]", 0, 0, 1, 0.001): si.smooth(0.999);
offset = hslider("Offset[OWL:B]", 0, -1, 1, 0.001): si.smooth (0.999);
LP = hslider("Lowpass[OWL:C]", 0, 0, 1, 0.001): ba.lin2LogGain: si.smooth (0.999);
scale(x,mn,mx,a,b) = a+(b... | https://raw.githubusercontent.com/antisvin/MyPatches/658ed3ff54ad4b86dd7eb424534b965efb259a15/Faust/B259.dsp | faust | Source: https://github.com/yorgoszachos/b259wf
fi.bandpass(1,20,16000);
folderBranches(sig) = sig <: par(i, 5, invClip(sig,i)); |
import("stdfaust.lib");
fold = hslider("Fold[OWL:A]", 0, 0, 1, 0.001): si.smooth(0.999);
offset = hslider("Offset[OWL:B]", 0, -1, 1, 0.001): si.smooth (0.999);
LP = hslider("Lowpass[OWL:C]", 0, 0, 1, 0.001): ba.lin2LogGain: si.smooth (0.999);
scale(x,mn,mx,a,b) = a+(b-a)*(x-mn)/(mx-mn);
R1 = (10., 49.9, 91., 30., 68... |
6ad65d28d787f08a3fa66eb4de7d4091be8d2267ad1e9edc200618effbbe588c | reverbrick/contour | FilterSinOsc.dsp | declare name "filterOSC";
declare version "0.0";
declare author "JOS, revised by RM";
declare description "Simple application demoing filter based oscillators.";
import("stdfaust.lib");
process = dm.oscrs_demo;
| https://raw.githubusercontent.com/reverbrick/contour/7f7926311cbe0bbcefe16a7641ad70bf6f10c945/FAUST/FilterSinOsc.dsp | faust | declare name "filterOSC";
declare version "0.0";
declare author "JOS, revised by RM";
declare description "Simple application demoing filter based oscillators.";
import("stdfaust.lib");
process = dm.oscrs_demo;
| |
4921964f6a792b1f42471b72878e4ebb5000e6867454ebd44ebafbe20501526b | theyoogle/Faust-DSP | 09 Effects.dsp | import("stdfaust.lib");
freq = hslider("freq",440,50,1000,0.01);
gain = hslider("gain",0.5,0,1,0.01);
gate = button("gate") : en.adsr(0.01,0.01,0.9,0.1);
timbre(f) = os.osc(f)*0.5 + os.osc(f*2)*0.25 + os.osc(f*3)*0.125;
process = gain * gate * timbre(freq) * 0.5 <: _,_;
// Adding reverb (demo)
// Highly inefficient... | https://raw.githubusercontent.com/theyoogle/Faust-DSP/373f0b309ad84906043b0b53e02129cd9ce45d59/session%2001/09%20Effects.dsp | faust | Adding reverb (demo)
Highly inefficient in this case because it creates a reverb for every voice
so better to separate it out in code | import("stdfaust.lib");
freq = hslider("freq",440,50,1000,0.01);
gain = hslider("gain",0.5,0,1,0.01);
gate = button("gate") : en.adsr(0.01,0.01,0.9,0.1);
timbre(f) = os.osc(f)*0.5 + os.osc(f*2)*0.25 + os.osc(f*3)*0.125;
process = gain * gate * timbre(freq) * 0.5 <: _,_;
effect = dm.zita_light; |
946d4e5078aae0c017deedc381c3129f9dbf3c730844dc3093cf88b26dc3da0c | francescoganassin/FaustDSP-synths | ganassynth5.dsp | import("stdfaust.lib");
waveGenerator = hgroup("[0]Wave Generator",os.osc(freq),os.triangle(freq),os.square(freq),os.sawtooth(freq) : ba.selectn(4,wave))
with{
wave = nentry("[0]Waveform",0,0,2,1);
freq = hslider("[1]freq",440,50,2000,0.01);
};
envelope = hgroup("[Envelope]",en.adsr(attack,decay,sustain,release,gate... | https://raw.githubusercontent.com/francescoganassin/FaustDSP-synths/ef9eb3da660f4d53e631a12b7e4f63944c57f61c/ganassynth5.dsp | faust | import("stdfaust.lib");
waveGenerator = hgroup("[0]Wave Generator",os.osc(freq),os.triangle(freq),os.square(freq),os.sawtooth(freq) : ba.selectn(4,wave))
with{
wave = nentry("[0]Waveform",0,0,2,1);
freq = hslider("[1]freq",440,50,2000,0.01);
};
envelope = hgroup("[Envelope]",en.adsr(attack,decay,sustain,release,gate... | |
85ea6ea37b3d882a1ec8534b69f8a5977caae11a608b63ff5da686ab86e4656b | s-e-a-m/1987-nono-risonanze-erranti | halaphon.dsp | import("stdfaust.lib");
envelop = abs : max ~ -(1.0/ma.SR) : max(ba.db2linear(-70)) : ba.linear2db;
vmeter(x) = attach(x, envelop(x) : vbargraph("[03][unit:dB]", -70, +5));
hmeter(x) = attach(x, envelop(x) : hbargraph("[03][unit:dB]", -70, +5));
ramp = os.lf_sawpos(1.0/(hslider("[01] time", 3.0, 0.1, 23.0, 0.01)));
d... | https://raw.githubusercontent.com/s-e-a-m/1987-nono-risonanze-erranti/ed20c3e3e67c65d778339a0883ab9aa7e78a418f/src/halaphon.dsp | faust | process = _ : sp.spat(4, ramp, distance) : mixer; | import("stdfaust.lib");
envelop = abs : max ~ -(1.0/ma.SR) : max(ba.db2linear(-70)) : ba.linear2db;
vmeter(x) = attach(x, envelop(x) : vbargraph("[03][unit:dB]", -70, +5));
hmeter(x) = attach(x, envelop(x) : hbargraph("[03][unit:dB]", -70, +5));
ramp = os.lf_sawpos(1.0/(hslider("[01] time", 3.0, 0.1, 23.0, 0.01)));
d... |
c380ea1ec2d2d2888ac2adb1911998bd53bf0e11ccb230896ebba67a923e1978 | Jacajack/stm32-faust-synth | simple_fm.dsp | import("stdfaust.lib");
declare polyphony "4";
osc( f ) = sin( os.phasor( 2 * ma.PI, f ) );
lin2exp( mi, ma, x ) = exp( log( ma ) * x + log( mi ) * ( 1 - x ) );
mid2hz( k ) = 440.0 * exp( ( k - 69 ) * log( pow( 2, 1 / 12 ) ) );
// Envelope generator for operator 0
eg0( g ) = en.adsre( a, d, s, r, g )
with
{
a = h... | https://raw.githubusercontent.com/Jacajack/stm32-faust-synth/5987bc2508e94318affbbccaaeaea0fd7f7ad694/faust/simple_fm.dsp | faust | Envelope generator for operator 0
Envelope generator for operator 1
Simple FM synthesis (2 operators) | import("stdfaust.lib");
declare polyphony "4";
osc( f ) = sin( os.phasor( 2 * ma.PI, f ) );
lin2exp( mi, ma, x ) = exp( log( ma ) * x + log( mi ) * ( 1 - x ) );
mid2hz( k ) = 440.0 * exp( ( k - 69 ) * log( pow( 2, 1 / 12 ) ) );
eg0( g ) = en.adsre( a, d, s, r, g )
with
{
a = hslider( "a0 [analog: c5]", 0.5, 0, 1,... |
5926cef266ce68a8c39ca30820e21dddf72e4b827c29cae0899c581373913e60 | grame-cncm/GeekBagatelles | GeekBagatelles.dsp | //declare name "Geek Bagatelles";
declare version "1.05";
declare author "Faust Grame ONE is more"; // Christophe Lebreton
declare license "BSD";
import("stdfaust.lib");
JOIE_A = component("Part_DApublic.dsp"),_:enable;
JOIE_B = component("Part_DBpublic.dsp"),_:enable;
FREUDE = component("Part_Fpublic.dsp"),_:... | https://raw.githubusercontent.com/grame-cncm/GeekBagatelles/80290db00ab39e4a35d6b2449d996b910c9bb132/GeekBagatelles.dsp | faust | declare name "Geek Bagatelles";
Christophe Lebreton
PROCESS
MULTISELECT ////////////////////////////////////////////////////////////////////
VUMETER ////////////////////////////////////////////////////////////////////
----------------------------------------------------------------------------------- |
declare version "1.05";
declare license "BSD";
import("stdfaust.lib");
JOIE_A = component("Part_DApublic.dsp"),_:enable;
JOIE_B = component("Part_DBpublic.dsp"),_:enable;
FREUDE = component("Part_Fpublic.dsp"),_:enable;
VOCALISES = component("Part_Gpublic.dsp"),_:*;
process = 1 <: multiselect_smooth(4,selection) ... |
79d1133efcbec501336dc232773c8c705f735b2cf8d65ad8b54e3df8b2e6adfe | diegov/sidechain_attenuator | sidechain_attenuator.dsp | declare name "sidechain_attenuator";
declare description "Side-chain attenuator.";
declare license "GPLv3";
declare copyright "(c) 2022: Diego Veralli";
import("stdfaust.lib");
volume_slider = hslider("[unit:dB] Volume", 0, -70, 5, 1) : si.smoo;
threshold = hslider("[unit:dB] Threshold", -20, -70, 0, 1) : si.smoo;
at... | https://raw.githubusercontent.com/diegov/sidechain_attenuator/b764b51977b3af5db5263544f25834bb3f8517e3/sidechain_attenuator.dsp | faust | declare name "sidechain_attenuator";
declare description "Side-chain attenuator.";
declare license "GPLv3";
declare copyright "(c) 2022: Diego Veralli";
import("stdfaust.lib");
volume_slider = hslider("[unit:dB] Volume", 0, -70, 5, 1) : si.smoo;
threshold = hslider("[unit:dB] Threshold", -20, -70, 0, 1) : si.smoo;
at... | |
2f9d032823617e85f5c54b3d8b5dcaeba1f5ba732cbef3829ad3785ecf0149e2 | jinjor/faust2wasm-minimal-examples | Hello.dsp | import("stdfaust.lib");
freq = hslider("freq",200,50,1000,0.01);
gain = hslider("gain",0.5,0,0.5,0.01);
gate = button("gate");
process = os.sawtooth(freq) * gain * gate; | https://raw.githubusercontent.com/jinjor/faust2wasm-minimal-examples/1296b24265593ca78482bc866b38dba091418f3a/hello-midi/Hello.dsp | faust | import("stdfaust.lib");
freq = hslider("freq",200,50,1000,0.01);
gain = hslider("gain",0.5,0,0.5,0.01);
gate = button("gate");
process = os.sawtooth(freq) * gain * gate; | |
0432785594d8970d4a150e4056801652de5634b33ea2c4b8c3d9e15622a799ad | SMERM/BN-Tedesco | distortion.dsp | declare name "Stereo filtered distortion";
declare version "0.1";
declare author "JOS, revised by RM, revised by DT";
declare description "Distortion demo application.";
import("stdfaust.lib");
process = fi.allpass_fcomb(1024,10.5,0.95) : dm.cubicnl_demo <: _,_;
| https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-02/Lezioni_in_Compresenza/20200505/distortion.dsp | faust | declare name "Stereo filtered distortion";
declare version "0.1";
declare author "JOS, revised by RM, revised by DT";
declare description "Distortion demo application.";
import("stdfaust.lib");
process = fi.allpass_fcomb(1024,10.5,0.95) : dm.cubicnl_demo <: _,_;
| |
b654d871d39f91958f7a57cb8d77062fb9d389483ab9fc667195089f39dd520a | DISTRHO/Fadeli | psychoacoustic-harmonicExciter.dsp | declare exciter_name "harmonicExciter";
declare exciter_author "Priyanka Shekar (pshekar@ccrma.stanford.edu), revised by RM";
declare exciter_copyright "Copyright (c) 2013 Priyanka Shekar";
declare exciter_version "1.0";
declare exciter_license "MIT License (MIT)";
declare description "Psychoacoustic harmonic exciter, ... | https://raw.githubusercontent.com/DISTRHO/Fadeli/22352d962714828613a88f008fa41744eecfac6e/dsp/psychoacoustic-harmonicExciter.dsp | faust | declare exciter_name "harmonicExciter";
declare exciter_author "Priyanka Shekar (pshekar@ccrma.stanford.edu), revised by RM";
declare exciter_copyright "Copyright (c) 2013 Priyanka Shekar";
declare exciter_version "1.0";
declare exciter_license "MIT License (MIT)";
declare description "Psychoacoustic harmonic exciter, ... | |
d138dbc80e6ed1eb0a2f5546274c968a2dff072a446a4a38931dde8cae909c65 | droosenb/faust-wdf-library | secondorder.dsp | import("stdfaust.lib");
secondorder(R2, C2, Vin) = wd.buildtree(tree)
with{
//declare components
vin(i) = wd.u_voltage(i, Vin);
r1(i) = wd.resistor(i, 4700);
c1(i) = wd.capacitor(i, 47*10^-9);
r2(i) = wd.resistor(i, R2);
c2(i) = wd.capacitor_Vout(i, C2);
//form connection tree
tree =... | https://raw.githubusercontent.com/droosenb/faust-wdf-library/e581eb15b7b06572add939c6aa99472cca04269b/examples/01-second-order-passive/secondorder.dsp | faust | declare components
form connection tree | import("stdfaust.lib");
secondorder(R2, C2, Vin) = wd.buildtree(tree)
with{
vin(i) = wd.u_voltage(i, Vin);
r1(i) = wd.resistor(i, 4700);
c1(i) = wd.capacitor(i, 47*10^-9);
r2(i) = wd.resistor(i, R2);
c2(i) = wd.capacitor_Vout(i, C2);
tree = vin : wd.series : (r1, (wd.parallel : (c1, (wd.seri... |
aecb30aa15f8416b2acf441ca107d3ac89bf9c414ba403ac6c593cefe7ea71bd | ohmic-net/puca_dsp | SNESverb.dsp | // For NES-like reverb sound, you can use a single delay line, very short time ~0.15, no feedback, width set to 0.5.
// For SNES-like reverb sound, you can play with longer delay times and add some feedback to simulate a reverb tail.
import("stdfaust.lib");
delaytime = hslider("[1]delay", 0.15, 0.1, 0.3, 0.01) : si.s... | https://raw.githubusercontent.com/ohmic-net/puca_dsp/784f7b87e86c817046e48a821dc1dcb0512e53af/puca_dsp-platformio-esp-idf/esp-idf_SNES_reverb/SNESverb.dsp | faust | For NES-like reverb sound, you can use a single delay line, very short time ~0.15, no feedback, width set to 0.5.
For SNES-like reverb sound, you can play with longer delay times and add some feedback to simulate a reverb tail.
============================================= |
import("stdfaust.lib");
delaytime = hslider("[1]delay", 0.15, 0.1, 0.3, 0.01) : si.smoo;
feedback = hslider("[2]feedback", 0.1, 0.1, 0.3, 0.01) : si.smoo;
width = _ <: *(1-pan),*(pan)
with{
pan = hslider("width",0.5,0,1,0.01) : si.smoo;
};
process = _,_ : + <: _,(( + : de.sdelay(ba.sec2samp(0.5), 64, ba.sec2sa... |
a09e387e09b97c29040f4e20cd59a130d39aa320d0800d0bdf1f892c6c918793 | mi-creative/FaustPM_2021_examples | 03_OscillatorIntegrated.dsp | import("stdfaust.lib");
/* Faust PM Workshop : Introduction to Mass-Interaction Modelling */
/* Part 3: Integrated Mass-Spring-Ground Oscillator */
// Note: in this case, we could have simply used the osil module, which is an integrated mass spring oscillator:
in1 = button("test"):ba.impulsify * 0.1;
process = in1... | https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/03_OscillatorIntegrated.dsp | faust | Faust PM Workshop : Introduction to Mass-Interaction Modelling
Part 3: Integrated Mass-Spring-Ground Oscillator
Note: in this case, we could have simply used the osil module, which is an integrated mass spring oscillator: | import("stdfaust.lib");
in1 = button("test"):ba.impulsify * 0.1;
process = in1: mi.oscil(1, 0.1, 0.001, 0, 0, 0);
|
a7ac6364eccf49fe8fd20e77e9417bfdbf28fad4935475e8d1d06a28570dc547 | rmichon/cph-fall22 | multiSynth.dsp | import("stdfaust.lib");
freq = hslider("freq",400,50,2000,0.01);
gain = hslider("gain",1,0,1,0.01);
gate = checkbox("gate");
s = nentry("select",0,0,2,1);
synth2 = par(i,3,generator(i)*((s == i) : si.smoo)) :> _*gate*gain
with{
//generator(0) = os.osc(freq);
//generator(1) = os.sawtooth(freq);
//generator... | https://raw.githubusercontent.com/rmichon/cph-fall22/37a78b9c1ace2d98f62f790d0bde645547bd7663/code/wednesday/multiSynth.dsp | faust | generator(0) = os.osc(freq);
generator(1) = os.sawtooth(freq);
generator(2) = os.triangle(freq); | import("stdfaust.lib");
freq = hslider("freq",400,50,2000,0.01);
gain = hslider("gain",1,0,1,0.01);
gate = checkbox("gate");
s = nentry("select",0,0,2,1);
synth2 = par(i,3,generator(i)*((s == i) : si.smoo)) :> _*gate*gain
with{
generator(n) = ba.take(n+1,(os.osc(freq),os.sawtooth(freq),os.triangle(freq)));
};
sy... |
7308137ac3455dd2b24e5c8ed034f067b79517c0bc6f64d5d608a2740e10866f | JoaoSvidzinski/granulateur-matriciel | jgrain7.dsp | declare name "Jgrain 7";
declare version "1.0";
import("stdfaust.lib");
//--------------------------------------------------------------------------------------//
//GENERAL MATRIX//
//--------------------------------------------------------------------------------------//
//matrix of N x M toggles//
toggle(c, in) = ... | https://raw.githubusercontent.com/JoaoSvidzinski/granulateur-matriciel/b02da0189f5bae4d16c74f6fe65c04786452c792/faust/jgrain7.dsp | faust | --------------------------------------------------------------------------------------//
GENERAL MATRIX//
--------------------------------------------------------------------------------------//
matrix of N x M toggles//
--------------------------------------------------------------------------------------//
----------... | declare name "Jgrain 7";
declare version "1.0";
import("stdfaust.lib");
toggle(c, in) = checkbox("h:Lines/h:Reinjection_Matrix/v:Grain%2c-->/r%3in");
Mixer(N,out) = par(in, N, *(toggle(in, in+out*N)) ) :> _ ;
Matrix(N,M) = par(in, N, _) <: par(out, M, Mixer(N, out));
sinus = os.sinwaveform(tablesize);
sinuso = s... |
517032b7772e7ac4c295a0e6c4037991c1e587f4d3c1eafafce86e80ac03010a | mrkev/pamba | Panner.dsp | import("stdfaust.lib");
g = hslider("pan",0.5,0,1,0.01);
process =
sp.panner(g);
| https://raw.githubusercontent.com/mrkev/pamba/5acc69f09e170b14a3def8d6962feb754badce28/src/dsp/Panner.dsp | faust | import("stdfaust.lib");
g = hslider("pan",0.5,0,1,0.01);
process =
sp.panner(g);
| |
d51b4aceef659283f55f6287aa6e2d9dd58114e0fdca6ce1582e23f68de021b2 | jatinchowdhury18/wdf-bakeoff | ff2.dsp | import("stdfaust.lib");
ff2(in1) = wd.buildtree(tree)
with{
// set up components
Vin(x) = wd.u_voltage(x, in1);
Vbias(x) = wd.resVoltage(x, 0.001, 4.5);
R5(x) = wd.resistor(x, 5100.0);
R8(x) = wd.resistor(x, 1500.0);
R9(x) = wd.resistor(x, 1000.0);
RVTop(x) = wd.resistor(x, 50000.0);
R... | https://raw.githubusercontent.com/jatinchowdhury18/wdf-bakeoff/84ea0d85a75f3297c4040bfa9eca62be740dc097/src/faust_wdf/ff2.dsp | faust | set up components
declare tree
where does polarity inverter need to go? | import("stdfaust.lib");
ff2(in1) = wd.buildtree(tree)
with{
Vin(x) = wd.u_voltage(x, in1);
Vbias(x) = wd.resVoltage(x, 0.001, 4.5);
R5(x) = wd.resistor(x, 5100.0);
R8(x) = wd.resistor(x, 1500.0);
R9(x) = wd.resistor(x, 1000.0);
RVTop(x) = wd.resistor(x, 50000.0);
RVBot(x) = wd.resistor(x, ... |
87f34f198dea63cdb99b35a779af467477b328294d97e8c3ced16a9e38c6e88d | DISTRHO/Fadeli | phasing-phaserFlangerLab.dsp | declare name "phaserFlangerLab";
import("stdfaust.lib");
//process = ol.sawtooth_demo <:
// el.flanger_demo : el.phaser2_demo :> fl.spectral_level_demo <: _,_;
fx_stack =
vgroup("[1]", dm.sawtooth_demo) <:
vgroup("[2]", dm.flanger_demo) :
vgroup("[3]", dm.phaser2_demo);
level_viewer(x,y) = attach(x, vgroup("... | https://raw.githubusercontent.com/DISTRHO/Fadeli/2bf9b978dd881ebb56e62b5c2acc577422001025/dsp/phasing-phaserFlangerLab.dsp | faust | process = ol.sawtooth_demo <:
el.flanger_demo : el.phaser2_demo :> fl.spectral_level_demo <: _,_; | declare name "phaserFlangerLab";
import("stdfaust.lib");
fx_stack =
vgroup("[1]", dm.sawtooth_demo) <:
vgroup("[2]", dm.flanger_demo) :
vgroup("[3]", dm.phaser2_demo);
level_viewer(x,y) = attach(x, vgroup("[4]", dm.spectral_level_demo(x+y))),y;
process = fx_stack : level_viewer;
|
6d110264b1d46ef05e3f5f971fe1c958f4bdb53f6440e4f8021739cd184efd2b | droosenb/faust-on-ESP32 | FaustSawtooth.dsp | import("stdfaust.lib");
freq = nentry("freq",440,20,1000,0.01) : si.smoo;
gain = nentry("gain[acc: 0 0 -10 0 10]",0.5,0,1,0.01) : si.smoo;
process = os.sawtooth(freq)*gain;
| https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/old_examples/AccelerometerTest/main/FaustSawtooth.dsp | faust | import("stdfaust.lib");
freq = nentry("freq",440,20,1000,0.01) : si.smoo;
gain = nentry("gain[acc: 0 0 -10 0 10]",0.5,0,1,0.01) : si.smoo;
process = os.sawtooth(freq)*gain;
| |
1840347d96fcdb47b12f5987556cd8a7044934743b97649a620342b5cf81bca0 | TobiasKozel/GuitarD | SimpleDrive.dsp | import("stdfaust.lib");
drive = vslider( "Drive", 0, 0, 1, 0.01) : si.smooth(0.999);
offset = vslider( "Offset", 0, 0, 1, 0.01) : si.smooth(0.999);
postgain = vslider( "Post gain", 0, -80, 30, 0.1) : si.smooth(0.999);
highf = vslider( "Bass", 0, -10, 10, 0.1) : si.smooth(0.999);
// meter(r, l) = r, l : attach(_, abs :... | https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/simple_drive/SimpleDrive.dsp | faust | meter(r, l) = r, l : attach(_, abs : vbargraph("Level",0,1)); | import("stdfaust.lib");
drive = vslider( "Drive", 0, 0, 1, 0.01) : si.smooth(0.999);
offset = vslider( "Offset", 0, 0, 1, 0.01) : si.smooth(0.999);
postgain = vslider( "Post gain", 0, -80, 30, 0.1) : si.smooth(0.999);
highf = vslider( "Bass", 0, -10, 10, 0.1) : si.smooth(0.999);
meter(r, l) = r, l :> + <: attach(_, vb... |
0444accbe91ad0e7b2751d79f35563bb1793c6491aea67fd604f7b0d04739670 | magnetophon/faustExperiments | pitchTracker.dsp | import("stdfaust.lib");
BufferLength=300;
pitch(x) =
// i
ma.SR / max(M, 1) - ma.SR * (M == 0)
with {
AC(x, k) = sum(j, BufferLength, (x@(j))*(x@(j+k))) / (BufferLength) ; // Correlating two signals, on the buffer length, ideally over 600 samples with actual SR
// i = +(1) ~_ ;
i = +(1) ~_ :min(1e9):max(0);... | https://raw.githubusercontent.com/magnetophon/faustExperiments/475def588ca4ae5b5a703cf15d30fa8851e2e147/pitchTracker.dsp | faust | i
Correlating two signals, on the buffer length, ideally over 600 samples with actual SR
i = +(1) ~_ ;
i = min(1e8,+(1)) ~_ ;
i = min(1e3,+(1):max(0)) ~_ ;
i = min(1e8,+(1)) ~_ ;
Detection of a good correlation, AC(x,0) being the highest possible value, so its half becomes the detection threshold | import("stdfaust.lib");
BufferLength=300;
pitch(x) =
ma.SR / max(M, 1) - ma.SR * (M == 0)
with {
i = +(1) ~_ :min(1e9):max(0);
V = AC(x,i) <= AC(x,i+1);
W = AC(x,i+1) > AC(x,i+2);
Y = U: *(V) : *(W);
N = (+(1) : *(1 - Y)) ~ _;
M = (N' + 1) : ba.sAndH(Y);
};
process = pitch : hbargraph("Frequency", 50... |
7bec34e4ac4e0aa2dc374b4d5029ee59f648c5588fe1755e0160aa33551447da | SuyashRamteke/FAUST---Real-time-Audio-Signal-Processing | PanoramicPotentiometer.dsp | import("stdfaust.lib");
// ITD: the Interaural Time Difference in samples, assuming that:
// - the distance between the two ears is: 0.2 m
// - the speed of the sound is: 340 m/s
// - the sampling rate is: ma.SR
ITD = (0.2/340)*ma.SR;
// itdpan(p): ITD based panoramic
// The parameter ... | https://raw.githubusercontent.com/SuyashRamteke/FAUST---Real-time-Audio-Signal-Processing/ca24b8d650b6d77435d8128b0aa8e4d8b6022c30/PanoramicPotentiometer.dsp | faust | ITD: the Interaural Time Difference in samples, assuming that:
- the distance between the two ears is: 0.2 m
- the speed of the sound is: 340 m/s
- the sampling rate is: ma.SR
itdpan(p): ITD based panoramic
The parameter p indicates the position of the source:
0.0 (full left): 0 on the left channel, full IT... | import("stdfaust.lib");
ITD = (0.2/340)*ma.SR;
itdpan(p) = _ <: @(p*ITD), @((1-p)*ITD);
process = ba.pulsen(1,10000) * checkbox("play") : pm.djembe(60,0.3,0.5,1) : itdpan(hslider("pan", 0.5, 0, 1, 0.01));
|
9c0cf95b5c0287f19cc32e655f59ec060fea4b32a25933654d7987ec26cc3d78 | cdd3/pd | eks.dsp | import("stdfaust.lib");
declare name "EKS Electric Guitar Synth";
declare author "Julius Smith";
declare version "1.0";
declare license "STK-4.3";
declare copyright "Julius Smith";
declare reference "http://ccrma.stanford.edu/~jos/pasp/vegf.html";
// -> Virtual\_Electric\_Guitars\_Faust.html";
import("music.lib"); ... | https://raw.githubusercontent.com/cdd3/pd/2ddc4f9c44da75cf484284c1e2fdd8377aa5f93c/externals/chair/examples/abstractions/eks.dsp | faust | -> Virtual\_Electric\_Guitars\_Faust.html";
Define SR, delay
smooth, ffcombfilter,fdelay4
stereopanner
==================== GUI SPECIFICATION ================
standard MIDI voice parameters:
NOTE: The labels MUST be "freq", "gain", and "gate" for faust2pd
Hz
0 to 10
0 or 1
Additional parameters (MIDI "control... | import("stdfaust.lib");
declare name "EKS Electric Guitar Synth";
declare author "Julius Smith";
declare version "1.0";
declare license "STK-4.3";
declare copyright "Julius Smith";
declare reference "http://ccrma.stanford.edu/~jos/pasp/vegf.html";
pickangle = 0.9 * hslider("pick_angle",0,0,0.9,0.1);
beta = hslid... |
877100baaace3e2c9db91db08ae312a668b529c21fd183fba818321e39eda506 | bgaster/aa_examples | VL1.dsp | declare aavoices "1";
import("stdfaust.lib");
waveforms = piano, fantasy, violin, flute,
guitar1 : ba.selectn(5, wave)
with {
wave = nentry("/Waveform", 0, 0, 4, 1);
freq = hslider("freq", 440, 50, 2000, 0.01);
gain = hslider("gain", 0.5, 0, 1, 0.01);
g = button("gate");
piano = os.pulsetrain... | https://raw.githubusercontent.com/bgaster/aa_examples/98d70668d6784b426726366148a74109b682ec4f/vl1/dsp/VL1.dsp | faust | process = waveforms : _ ;
| declare aavoices "1";
import("stdfaust.lib");
waveforms = piano, fantasy, violin, flute,
guitar1 : ba.selectn(5, wave)
with {
wave = nentry("/Waveform", 0, 0, 4, 1);
freq = hslider("freq", 440, 50, 2000, 0.01);
gain = hslider("gain", 0.5, 0, 1, 0.01);
g = button("gate");
piano = os.pulsetrain... |
7c0d7ca346308fe93155ac1cc789d006f596935a7f8ce6ca19b3a77cb6dd361f | DISTRHO/Fadeli | pitchShifting-pitchShifter.dsp | declare name "pitchShifter";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
//--------------------------------------
// Very simple real time pitch shifter
//--------------------------------------
import("stdfaust.lib");
pitchshifter ... | https://raw.githubusercontent.com/DISTRHO/Fadeli/22352d962714828613a88f008fa41744eecfac6e/dsp/pitchShifting-pitchShifter.dsp | faust | --------------------------------------
Very simple real time pitch shifter
-------------------------------------- | declare name "pitchShifter";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
import("stdfaust.lib");
pitchshifter = vgroup("Pitch Shifter", ef.transpose(
hslider("window (samples)", 1000, 50, 10000, 1),... |
616fa6ea7e1b567be24c35e0e20dd26a835f18b13e88b56c46aa798746d3c35c | dxinteractive/mosfez-faust-dsp | proto-pitchtracker.dsp | // read: https://pdfslide.net/documents/faust-tutorial2.html
// refer: zcr in faustlibraries
import("stdfaust.lib");
SH(trig,x) = (*(1 - trig) + x * trig) ~ _;
a = hslider("n cycles", 10, 1, 100, 1);
p = hslider("pitch", 440, 40, 1000, 1);
Pitch(a,x) = a * ma.SR / max(M,1) - a * ma.SR * (M == 0)
with {
U = (x' <... | https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/b05b1b0b4e8b469e8de6e5d11e07de4d08fbac6b/proto-pitchtracker.dsp | faust | read: https://pdfslide.net/documents/faust-tutorial2.html
refer: zcr in faustlibraries
: sounder; |
import("stdfaust.lib");
SH(trig,x) = (*(1 - trig) + x * trig) ~ _;
a = hslider("n cycles", 10, 1, 100, 1);
p = hslider("pitch", 440, 40, 1000, 1);
Pitch(a,x) = a * ma.SR / max(M,1) - a * ma.SR * (M == 0)
with {
U = (x' < 0) & (x >= 0);
V = +(U) ~ _ %(int(a));
W = U & (V == a);
N = (+(1) : *(1 - W))~ ... |
e9e6e9c6a75eb9e21db57fce94057709f2691ebcca3102ec36cfe7778fdef08a | droosenb/faust-wdf-library | decomp-test.dsp | import("stdfaust.lib");
//resistor(r0) = !;
resistor =
case {
(0, R) => !, 0;
(1, R) => _;
(2, R) => !, R;
};
u_resistor =
case {
(0, R) => !, 0;
(1, R) => _;
(2, R) => _ + R;
};
res47k(x) = resistor(x, 46*10^3); //declaring a resistor
u_res47k(x) = u_resistor(x, 46*10^3);
getportr... | https://raw.githubusercontent.com/droosenb/faust-wdf-library/65d804019863c4ff86e0362792509b988bab3b84/testing-files/decomp-test.dsp | faust | resistor(r0) = !;
declaring a resistor
dont ever do (A, !) - creates stack error | import("stdfaust.lib");
resistor =
case {
(0, R) => !, 0;
(1, R) => _;
(2, R) => !, R;
};
u_resistor =
case {
(0, R) => !, 0;
(1, R) => _;
(2, R) => _ + R;
};
u_res47k(x) = u_resistor(x, 46*10^3);
getportres(A : As) = getportres(As) : getportres(A);
getportres(A) = A(2);
getportresp... |
29ff304fdef24e3f51a33d79c957071e5932b3f5722a97f240bcccd88820b456 | reverbrick/contour | lab.dsp | declare name "virtualAnalogLab";
import("stdfaust.lib");
process =
vgroup("[1]", dm.virtual_analog_oscillator_demo):
//vgroup("[2]", dm.moog_vcf_demo);
vgroup("[3]", dm.spectral_level_demo);
// See also: vgroup("[3]", dm.fft_spectral_level_demo(32))
//<: _,_;
| https://raw.githubusercontent.com/reverbrick/contour/7f7926311cbe0bbcefe16a7641ad70bf6f10c945/FAUST/lab.dsp | faust | vgroup("[2]", dm.moog_vcf_demo);
See also: vgroup("[3]", dm.fft_spectral_level_demo(32))
<: _,_; | declare name "virtualAnalogLab";
import("stdfaust.lib");
process =
vgroup("[1]", dm.virtual_analog_oscillator_demo):
vgroup("[3]", dm.spectral_level_demo);
|
0c3e021d46862f38b2b300bba431969561739b75a87cb659ab5677da35cb7801 | johannphilippe/grame_cnsmd_2023 | codegen.dsp | import("stdfaust.lib");
frequency = hslider("frequency", 100, 50, 500, 1);
amp = hslider("amplitude", 0, 0, 1, 0.1) : si.smoo;
process = os.osc(frequency) * amp;
| https://raw.githubusercontent.com/johannphilippe/grame_cnsmd_2023/88f460fdbaa76a35825d87614d0b664ad6a30f9c/code_generation/codegen.dsp | faust | import("stdfaust.lib");
frequency = hslider("frequency", 100, 50, 500, 1);
amp = hslider("amplitude", 0, 0, 1, 0.1) : si.smoo;
process = os.osc(frequency) * amp;
| |
2b7660a8ed7ef72aa5104edb0d931dc1d3e2781d238ba2bca009c4705b0cdae9 | johannphilippe/grame_cnsmd_2023 | mono.dsp | declare options "[midi:on]";
import("stdfaust.lib");
freq = hslider("freq[midi:ctrl 11]", 100, 50, 500, 1);
process = os.osc(freq) * 0.1;
| https://raw.githubusercontent.com/johannphilippe/grame_cnsmd_2023/ccfd6e9a5c1537097546520317c8c5beea06006f/MIDI/mono.dsp | faust | declare options "[midi:on]";
import("stdfaust.lib");
freq = hslider("freq[midi:ctrl 11]", 100, 50, 500, 1);
process = os.osc(freq) * 0.1;
| |
57ed9a1798765866a4ae3fa85a9b47013f55465e481473c7854470a418984b7d | jpecquais/faustLab | phaseRotator.dsp | declare name "Phase Alignment";
declare author "Jean-Loup Pecquais";
declare version "1.00";
declare license "GPL3";
import("stdfaust.lib");
jlpFi = library("lib/jlpFilters.lib");
//PHASE ROTATOR
phaseRotator(phi) = _ <: jlpFi.hilbert(14) : *(cos(phi)), *(sin(phi)) :> _;
//POLARITY SWITCH
/*
Simple phase inversio... | https://raw.githubusercontent.com/jpecquais/faustLab/91f3121f6b82bf05962e676e7731fadef45628b8/dsp/Filters/phaseRotator.dsp | faust | PHASE ROTATOR
POLARITY SWITCH
Simple phase inversion witch
///////////////////////
PANELS & PROPERTIES///
/////////////////////
/////////////////
MAIN FUNCTION///
/////////////// | declare name "Phase Alignment";
declare author "Jean-Loup Pecquais";
declare version "1.00";
declare license "GPL3";
import("stdfaust.lib");
jlpFi = library("lib/jlpFilters.lib");
phaseRotator(phi) = _ <: jlpFi.hilbert(14) : *(cos(phi)), *(sin(phi)) :> _;
polarity(sw) = *(2*sw-1);
inputPanel = vgroup("[1]Input... |
61797f6155ae13bbf67029f2f3aacb847082e3ff955cb1c24d1499779c91a0a7 | TobiasKozel/GuitarD | SimpleDelay.dsp | import("stdfaust.lib");
import("reverbs.lib");
import("misceffects.lib");
maxDelay = 1; // Max delay in seconds
time = vslider( "Time", 0.3, 0, maxDelay, 0.001) * ma.SR, 1 : max : si.smooth(0.999);
dry = ba.db2linear(vslider("Dry", 0, -60, 0, 0.1));
wet = ba.db2linear(vslider( "Wet", -8, -60, 0, 0.1));
decay = vslider... | https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/simple_delay/SimpleDelay.dsp | faust | Max delay in seconds | import("stdfaust.lib");
import("reverbs.lib");
import("misceffects.lib");
time = vslider( "Time", 0.3, 0, maxDelay, 0.001) * ma.SR, 1 : max : si.smooth(0.999);
dry = ba.db2linear(vslider("Dry", 0, -60, 0, 0.1));
wet = ba.db2linear(vslider( "Wet", -8, -60, 0, 0.1));
decay = vslider( "Decay", 0.4, 0, 1, 0.01);
lowpass ... |
a9b2aaeceef508bafe3cfd5f26d5a17f5a609eb4671bde31f18e5ae45ce3a002 | grame-cncm/smartfaust | sfGrain.dsp | declare name "sfGrain";
declare version "1.03";
declare author "Christophe Lebreton";
declare license "BSD";
declare copyright "SmartFaust - GRAME(c)2013-2018";
import("stdfaust.lib");
//-------------------- MAIN -------------------------------
process = component ("grain_out_v0.6.dsp"):component ("grain_... | https://raw.githubusercontent.com/grame-cncm/smartfaust/0a9c93ea7eda9899e1401402901848f221366c99/src/sfGrain/sfGrain.dsp | faust | -------------------- MAIN ------------------------------- | declare name "sfGrain";
declare version "1.03";
declare author "Christophe Lebreton";
declare license "BSD";
declare copyright "SmartFaust - GRAME(c)2013-2018";
import("stdfaust.lib");
process = component ("grain_out_v0.6.dsp"):component ("grain_pitch_shifter2_v0.2.dsp"):max(-0.99):min(0.99):*(volume):*(o... |
6d5f93c9e9be761d6cb2f6add43281efc8b2d72727d0757cb43b4c7a16c4f7e8 | polyeffects/PolyLV2 | flanger.dsp | import("stdfaust.lib");
flanger_mono(dmax,curdel,depth,fb,invert,lfoshape)
= _ <: _, (-:de.fdelay(dmax,curdel)) ~ *(fb) : _,
*(select2(invert,depth,0-depth))
: + : *(1/(1+depth)); // ideal for dc and reinforced sinusoids (in-phase summed signals)
process = flanger_mono_gui;
flangeview = lfo(freq);
f... | https://raw.githubusercontent.com/polyeffects/PolyLV2/a363599f74fd1bce0b3744221e1883fdbe89c557/poly_flange/flanger.dsp | faust | ideal for dc and reinforced sinusoids (in-phase summed signals)
~1 ms at 44.1 kHz = min delay | import("stdfaust.lib");
flanger_mono(dmax,curdel,depth,fb,invert,lfoshape)
= _ <: _, (-:de.fdelay(dmax,curdel)) ~ *(fb) : _,
*(select2(invert,depth,0-depth))
process = flanger_mono_gui;
flangeview = lfo(freq);
flanger_mono_gui = attach(flangeview) : flanger_mono(dmax,curdel,depth,fb,invert,lfoshape);
sinlfo(fr... |
0e4605354c3d3825b2534a590f446271760306af3e580ebf82682f79ef012719 | polyeffects/PolyLV2 | chorus.dsp | import("stdfaust.lib");
voices = 8; // MUST BE EVEN
process = ba.bypass1to2(cbp,chorus_mono(dmax,curdel,rate,sigma,do2,voices));
dmax = 8192;
curdel = dmax * vslider("[0] Delay [midi:ctrl 4] [style:knob]", 0.5, 0, 1, 1) : si.smooth(0.999);
rateMax = 420.0; // Hz
rateMin = 10.01;
rateT60 = 0.15661;
bpm = vslider("[1] ... | https://raw.githubusercontent.com/polyeffects/PolyLV2/a363599f74fd1bce0b3744221e1883fdbe89c557/poly_chorus/chorus.dsp | faust | MUST BE EVEN
Hz
use when depth=1 means "multivibrato" effect (no original => all are modulated) | import("stdfaust.lib");
process = ba.bypass1to2(cbp,chorus_mono(dmax,curdel,rate,sigma,do2,voices));
dmax = 8192;
curdel = dmax * vslider("[0] Delay [midi:ctrl 4] [style:knob]", 0.5, 0, 1, 1) : si.smooth(0.999);
rateMin = 10.01;
rateT60 = 0.15661;
bpm = vslider("[1] BPM [midi:ctrl 2] [style:knob]", 30, rateMin, rateM... |
4c5bf0d7e2eaa03e1859ff0a122dd9005b24e41ffffcd182972e6cf7bedf00f0 | LucaSpanedda/Musical_Studies_of_Chaotic_Systems | 9.00_DC_Blocker.dsp | // import Standard Faust library
// https://github.com/grame-cncm/faustlibraries/
import("stdfaust.lib");
// DC Blocker
// The dc blocker is a small recursive filter specified by the difference equation
// It is needed to remove the dc component of the signal.
// y(n) = x(n) -x(n-1)+Ry(n-1)
// R is a parameter that i... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Chaotic_Systems/d8b78c011cc0b2b75f74643eba78306d6a3f92df/Tools/9.00_DC_Blocker.dsp | faust | import Standard Faust library
https://github.com/grame-cncm/faustlibraries/
DC Blocker
The dc blocker is a small recursive filter specified by the difference equation
It is needed to remove the dc component of the signal.
y(n) = x(n) -x(n-1)+Ry(n-1)
R is a parameter that is typically somewhere between 0.9 and 1... | import("stdfaust.lib");
dcblocker(zero,pole) = dcblockerout
with{
onezero = _ <: _,mem : _,*(zero) : -;
onepole = + ~ *(pole);
dcblockerout = _ : onezero : onepole;
};
process = _ : dcblocker(1,0.998);
|
06360c80b5636006c595ac14cfb73171c3e1f3fbd02a9d197edefe6d6ab885e9 | DISTRHO/Fadeli | analysis-vumeter.dsp | declare name "vumeter";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
//-------------------------------------------------
// Simple vumeter
//-------------------------------------------------
import("stdfaust.lib");
process = hmeter(0),... | https://raw.githubusercontent.com/DISTRHO/Fadeli/22352d962714828613a88f008fa41744eecfac6e/dsp/analysis-vumeter.dsp | faust | -------------------------------------------------
Simple vumeter
------------------------------------------------- | declare name "vumeter";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
import("stdfaust.lib");
process = hmeter(0), hmeter(1)
with {
vmeter(i, x) = attach(x, envelop(x) : vbargraph("chan %i[2][unit:dB]", -70, +5));
hmeter(i, x) =... |
42d3fac8e39806bea3a57a25755d6f07d8b15555fa4363999e4ccfbca1913c08 | VCVRack/VCV-Prototype | synth.dsp | /*
All controllers of the VCV Prototype are accessed using metadata.
*/
import("stdfaust.lib");
import("rack.lib");
// Using knobs ([knob:N] metadata with N from 1 to 6). Knob [0..1] range is mapped on [min..max] slider range, taking 'scale' metadata in account
vol1 = hslider("volume1 [knob:1]", 0.1, 0, 1, 0.01);
... | https://raw.githubusercontent.com/VCVRack/VCV-Prototype/6980f0f0aca2517ea4a44e749515fe868d4ff532/examples/synth.dsp | faust |
All controllers of the VCV Prototype are accessed using metadata.
Using knobs ([knob:N] metadata with N from 1 to 6). Knob [0..1] range is mapped on [min..max] slider range, taking 'scale' metadata in account
Using switches ([switch:N] metadata with N from 1 to 6)
Checkbox can be used, the switch button will go ... |
import("stdfaust.lib");
import("rack.lib");
vol1 = hslider("volume1 [knob:1]", 0.1, 0, 1, 0.01);
freq1 = hslider("freq1 [knob:2] [unit:Hz] [scale:lin]", 300, 200, 300, 1);
vol2 = hslider("volume2 [knob:3]", 0.1, 0, 1, 0.01);
freq2 = hslider("freq2 [knob:4] [unit:Hz] ", 300, 200, 300, 1);
gate = button("gate [swit... |
0f181d0554c7cceb2c2e981e606a7f27026cfee10a320db38ab40d577aad6e58 | jujudusud/BPD | bddi-p10.dsp | // generated automatically
// DO NOT MODIFY!
declare id "bddi-p10";
declare name "BDDI part 10";
declare category "External";
import("stdfaust.lib");
process = pre : fi.fir((b0/a0)) with {
LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x);
Inverted(b, x) = ba.if(b, 1 - x, x);
s = 0.993;
fs... | https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p10.dsp | faust | generated automatically
DO NOT MODIFY! | declare id "bddi-p10";
declare name "BDDI part 10";
declare category "External";
import("stdfaust.lib");
process = pre : fi.fir((b0/a0)) with {
LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x);
Inverted(b, x) = ba.if(b, 1 - x, x);
s = 0.993;
fs = float(ma.SR);
pre = _;
b0 = ... |
989440fb77587e65383901fee8cd7eea1a01843b563c6c5491e19db7d6de6b89 | jujudusud/BPD | bddi-p6.dsp | // generated automatically
// DO NOT MODIFY!
declare id "bddi-p6";
declare name "BDDI part 6";
declare category "External";
import("stdfaust.lib");
process = pre : fi.fir((b0/a0)) with {
LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x);
Inverted(b, x) = ba.if(b, 1 - x, x);
s = 0.993;
fs =... | https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p6.dsp | faust | generated automatically
DO NOT MODIFY! | declare id "bddi-p6";
declare name "BDDI part 6";
declare category "External";
import("stdfaust.lib");
process = pre : fi.fir((b0/a0)) with {
LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x);
Inverted(b, x) = ba.if(b, 1 - x, x);
s = 0.993;
fs = float(ma.SR);
pre = _;
b0 = 0;... |
decd3b3c1f194b44fca3828f5d5c7d3a607368143a52d801dce6150ac501a98d | SMERM/BN-Tedesco | sine+saw.dsp | import("stdfaust.lib");
//Primo oscillatore del VCS3 con oscillatore sine e saw
decimal(x) = x - floor(x);
freq = vslider("FREQUENCY [style:knob][scale:exp]",1,1,10000,0.01);
step = freq/ma.SR;
phasor(freq) = +(freq/ma.SR)~decimal: -(step);
sine = sin(phasor(freq)*2*ma.PI);
saw = phasor : -(0.5);
process = sine, sa... | https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-01/20200401/sine%2Bsaw.dsp | faust | Primo oscillatore del VCS3 con oscillatore sine e saw | import("stdfaust.lib");
decimal(x) = x - floor(x);
freq = vslider("FREQUENCY [style:knob][scale:exp]",1,1,10000,0.01);
step = freq/ma.SR;
phasor(freq) = +(freq/ma.SR)~decimal: -(step);
sine = sin(phasor(freq)*2*ma.PI);
saw = phasor : -(0.5);
process = sine, saw;
|
a9c51ab4872c839e055ede3d2388c9fe7f586bc035b0728f7611be3f4eb3b058 | Jikstra/faust-plugins | pan.dsp | import("stdfaust.lib");
left = checkbox("Left");
process = _,_,_,_ : ba.select2stereo(left==0) : _,_;
| https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/pan.dsp | faust | import("stdfaust.lib");
left = checkbox("Left");
process = _,_,_,_ : ba.select2stereo(left==0) : _,_;
| |
3737b848a64a7d5744f657940b74559c640c8bfea1affa5c336bd5fc6f353375 | Tonton-Blax/supasynth | moogish.dsp | import("stdfaust.lib");
moogvcf = ba.bypass1(bp,vcf) with {
mvcf_group(x) = hgroup("MOOG VCF (Voltage Controlled Filter) [tooltip: See Faust's effect.lib for info and references]",x);
cb_group(x) = mvcf_group(hgroup("[0]",x));
bp = cb_group(checkbox("[0] Bypass [tooltip: When this is checked, the Moog VCF ... | https://raw.githubusercontent.com/Tonton-Blax/supasynth/ec39566ad52e2417154301ee86f5bf94b650a3e8/faust/moogish.dsp | faust | process = moogvcf; | import("stdfaust.lib");
moogvcf = ba.bypass1(bp,vcf) with {
mvcf_group(x) = hgroup("MOOG VCF (Voltage Controlled Filter) [tooltip: See Faust's effect.lib for info and references]",x);
cb_group(x) = mvcf_group(hgroup("[0]",x));
bp = cb_group(checkbox("[0] Bypass [tooltip: When this is checked, the Moog VCF ... |
a8471e051ace6b2e0f60fc425400cfd0c9f2c70b7230398186eec1dbd350ac84 | DISTRHO/Fadeli | reverb-reverbDesigner.dsp | declare name "reverbDesigner";
declare version "0.1";
declare author "JOS";
declare description "Workbench for building a custom Feedback Delay Network (FDN) Reverebator";
import("stdfaust.lib");
N = 16; // Feedback Delay Network (FDN) order (power of 2, 2 to 16)
NB = 5; // Number of T60-controlled frequency-... | https://raw.githubusercontent.com/DISTRHO/Fadeli/6f3cd85c6ba90ce94b7fa8e72ae3cb0f6c77dc75/dsp/reverb-reverbDesigner.dsp | faust | Feedback Delay Network (FDN) order (power of 2, 2 to 16)
Number of T60-controlled frequency-bands (3 or more)
Order of each lowpass/highpass bandsplit (odd positive integer) | declare name "reverbDesigner";
declare version "0.1";
declare author "JOS";
declare description "Workbench for building a custom Feedback Delay Network (FDN) Reverebator";
import("stdfaust.lib");
process = dm.fdnrev0_demo(N,NB,BSO);
|
6d699376504f878937383303ff0e3c02934727d35ac6de85cbd9ce027fc9b6a8 | elaforge/karya | risset_arp.dsp | import("stdfaust.lib");
inst = library("instruments.lib");
// gate = button("gate");
gate = 1;
pitch = hslider("pitch", 36, 1, 127, 1);
vol = .02;
delta = hslider("delta", .02, 0, 1, .005);
// TODO make it stetch to inharmonics
// Or just set their pitches individually. I can then do chords.
stretch = hslider("stre... | https://raw.githubusercontent.com/elaforge/karya/471a2131f5a68b3b10b1a138e6f9ed1282980a18/Synth/Faust/dsp/risset_arp.dsp | faust | gate = button("gate");
TODO make it stetch to inharmonics
Or just set their pitches individually. I can then do chords.
delta = .03;
: inst.instrReverb;
panned oscils
panned harmonics
(gate, pitch) = | import("stdfaust.lib");
inst = library("instruments.lib");
gate = 1;
pitch = hslider("pitch", 36, 1, 127, 1);
vol = .02;
delta = hslider("delta", .02, 0, 1, .005);
stretch = hslider("stretch", 0, 0, 1, .01);
panned_oscils = par(i, 9, pan(i/8*2 - 1, oscil(hz + delta * (i-4)))) :> _, _
with {
hz = ba.midikey2hz... |
9ef18e86f0875cd96b61c53b92eb0a577137f1b35db4ff24dbe6f68e266bb51f | jspatcher/package-dsp | atodb.dsp | import("stdfaust.lib");
process = ba.linear2db;
| https://raw.githubusercontent.com/jspatcher/package-dsp/c3ee890b6fb6acefb71cdebdfd69173b9d1bce92/src/dsps/atodb.dsp | faust | import("stdfaust.lib");
process = ba.linear2db;
| |
6bd69782c634a1cf1a2360dc5b8954865691df3a5219a8ea6db0362035462398 | jspatcher/package-dsp | mtof.dsp | import("stdfaust.lib");
process = ba.midikey2hz;
| https://raw.githubusercontent.com/jspatcher/package-dsp/c3ee890b6fb6acefb71cdebdfd69173b9d1bce92/src/dsps/mtof.dsp | faust | import("stdfaust.lib");
process = ba.midikey2hz;
| |
2fc68917080cf9fbf59e9c08c4cc1b9608eaaa8e76a9ae20ae2b9094ed5a675a | jspatcher/package-dsp | dbtoa.dsp | import("stdfaust.lib");
process = ba.db2linear;
| https://raw.githubusercontent.com/jspatcher/package-dsp/c3ee890b6fb6acefb71cdebdfd69173b9d1bce92/src/dsps/dbtoa.dsp | faust | import("stdfaust.lib");
process = ba.db2linear;
| |
3a5f737a234b621e635ffe479ed858b07989f6ffe8c2e1bad20ab51b777d4091 | jspatcher/package-dsp | ftom.dsp | import("stdfaust.lib");
process = ba.hz2midikey;
| https://raw.githubusercontent.com/jspatcher/package-dsp/c3ee890b6fb6acefb71cdebdfd69173b9d1bce92/src/dsps/ftom.dsp | faust | import("stdfaust.lib");
process = ba.hz2midikey;
| |
5f3a7dafba8e0e6393b2c1f394218cee18a9e97c98a3d2f650f6f3fca3c8481f | danidev/microcosmos | MicrocosmosDsp.dsp | import("stdfaust.lib");
pageGroup(page, x) = hgroup("%page", x);
// constants
steps = 8;
// main timer
speed = pageGroup(0, hslider("speed[style:knob]", 120, 20, 255, 1)) : si.smoo;
play = pageGroup(0, button("play")) : ba.toggle;
//values generator
valStep(num) = out
with {
stepGroup(x) = vgroup("step%num", x);
... | https://raw.githubusercontent.com/danidev/microcosmos/b7c1a1b6f78587c943dee68abf5c6581dcc1a038/dsp/stepSequencer/dsp/MicrocosmosDsp.dsp | faust | constants
main timer
values generator
gates generator
sequencer output
basic synth | import("stdfaust.lib");
pageGroup(page, x) = hgroup("%page", x);
steps = 8;
speed = pageGroup(0, hslider("speed[style:knob]", 120, 20, 255, 1)) : si.smoo;
play = pageGroup(0, button("play")) : ba.toggle;
valStep(num) = out
with {
stepGroup(x) = vgroup("step%num", x);
val = pageGroup(1, stepGroup(vslider("[%num]... |
f4d59511b90371f1a3ded888fc83232b7919fa5978fe809276fc152e098d2f6e | olilarkin/pMixFaustNodes | RissetTone.dsp | declare name "Risset Tone";
declare description "Jean Claude Risset's endless glissando";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("stdfaust.lib");
rate = hslider("rate", 0.01, -2, 2, 0.001);
centroid = hslider("cent... | https://raw.githubusercontent.com/olilarkin/pMixFaustNodes/20da57783b03841f023a7edd4a3215ab3155218e/RissetTone.dsp | faust | declare name "Risset Tone";
declare description "Jean Claude Risset's endless glissando";
declare author "Oli Larkin (contact@olilarkin.co.uk)";
declare copyright "Oliver Larkin";
declare version "0.1";
declare licence "GPL";
import("stdfaust.lib");
rate = hslider("rate", 0.01, -2, 2, 0.001);
centroid = hslider("cent... | |
1504b19d35e8b83a87d726a374bdfd0a8f3963a6dcf7d11d4e327a446d6e7af0 | mzuther/Screamer | fractional_downsampler.dsp | /* ----------------------------------------------------------------------------
Screamer
========
Mathematical distortion and signal mangling
Copyright (c) 2003-2020 Martin Zuther (http://www.mzuther.de/)
This program is free software: you can redistribute it and/or modify
it under the terms of the... | https://raw.githubusercontent.com/mzuther/Screamer/46ec0f5d49ecf9af455a791ee2b813c5e9de1a66/modules/fractional_downsampler.dsp | faust | ----------------------------------------------------------------------------
Screamer
========
Mathematical distortion and signal mangling
Copyright (c) 2003-2020 Martin Zuther (http://www.mzuther.de/)
This program is free software: you can redistribute it and/or modify
it under the terms of the G... |
import("stdfaust.lib");
mz = component("mzuther.dsp");
downsampler(factor , lfo_frequency , lfo_modulation) = process
with
{
lfo = os.osc(lfo_frequency) * lfo_modulation / 100.0 : _;
real_factor = factor * (1.0 + lfo) : _;
adder = _ <: _ + mz.if(_ >= real_factor , 0.0 - real_factor , 1.0) : _;
count... |
5fad96889720172504f7f2f3a1f8e0f4e799b762473a3a9751f5b22f25aa7955 | LucaSpanedda/Musical_Studies_of_Chaotic_Systems | 1.05_Lorenz_Autoregulating.dsp | // import Standard Faust library
// https://github.com/grame-cncm/faustlibraries/
import("stdfaust.lib");
// Autoregulating Lorenz System
autolorenz(x0,y0,z0,dcfc,l) = loop ~ si.bus(7): par(i, 7, /(l)): mixer
with {
x_init = x0-x0';
y_init = y0-y0';
z_init = z0-z0';
saturator(lim,x)... | https://raw.githubusercontent.com/LucaSpanedda/Musical_Studies_of_Chaotic_Systems/d8b78c011cc0b2b75f74643eba78306d6a3f92df/1.05_Lorenz_Autoregulating.dsp | faust | import Standard Faust library
https://github.com/grame-cncm/faustlibraries/
Autoregulating Lorenz System | import("stdfaust.lib");
autolorenz(x0,y0,z0,dcfc,l) = loop ~ si.bus(7): par(i, 7, /(l)): mixer
with {
x_init = x0-x0';
y_init = y0-y0';
z_init = z0-z0';
saturator(lim,x) = lim*ma.tanh(x/(max(lim,ma.EPSILON)));
dcblock(dcfc,x) = fi.highpass(1, dcfc, x);
loop(x, y, z, ... |
e52639681f3ad12e4fa1d7a46b5d6b03294c4cce10de4d3e76a120104eea699d | Jikstra/faust-plugins | equalizer.dsp | import("stdfaust.lib");
process = _ : dm.mth_octave_filterbank_demo(1) : _ : dm.filterbank_demo : _;
| https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/equalizer.dsp | faust | import("stdfaust.lib");
process = _ : dm.mth_octave_filterbank_demo(1) : _ : dm.filterbank_demo : _;
| |
2371e47d9c2610ee582e7a7ced4fb97e7a68073a8dfcd93673d977f42e1677b9 | jspatcher/package-dsp | pink.dsp | import("stdfaust.lib");
process = no.pink_noise;
| https://raw.githubusercontent.com/jspatcher/package-dsp/c3ee890b6fb6acefb71cdebdfd69173b9d1bce92/src/dsps/pink.dsp | faust | import("stdfaust.lib");
process = no.pink_noise;
|
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