_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 |
|---|---|---|---|---|---|---|---|
e147453487723b529c4ce86c7a0db00100cd37dfb2c4d3b4b0c175a5202cfde7 | chairaudio/CHAIR-Pd-library | simpleKarplus.dsp | declare name "KarplusStrong";
declare description "Simple call of the Karplus-Strong model for the Faust physical modeling library";
declare license "MIT";
declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME";
import("stdfaust.lib") ;
myKarplus = _*gate : pm.ks( (freq : pm.f2l), damping )
with{
f ... | https://raw.githubusercontent.com/chairaudio/CHAIR-Pd-library/c416c1f72b405d1dbc914e8e77e133dd505e3511/examples/abstractions/simpleKarplus.dsp | faust | declare name "KarplusStrong";
declare description "Simple call of the Karplus-Strong model for the Faust physical modeling library";
declare license "MIT";
declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME";
import("stdfaust.lib") ;
myKarplus = _*gate : pm.ks( (freq : pm.f2l), damping )
with{
f ... | |
400eff4ee92d48284aa4547ec57f4b96075fc0a293c09120ee7a1dd07b1663ad | Ameobea/web-synth | rain.dsp | // This code taken in full from here: https://github.com/grame-cncm/faust/blob/master-dev/examples/gameaudio/rain.dsp
// Source code licensed under GNU GPLv2
//----------------------`rain`--------------------------
// A very simple rain simulator
//
// #### Usage
//
// ```
// rain(d,l) : _,_
// ```
//
// Where:
//
//... | https://raw.githubusercontent.com/Ameobea/web-synth/4f82d8868c19bd39a006c0f4cd8546ff9d865c0d/engine/engine/static/rain.dsp | faust | This code taken in full from here: https://github.com/grame-cncm/faust/blob/master-dev/examples/gameaudio/rain.dsp
Source code licensed under GNU GPLv2
----------------------`rain`--------------------------
A very simple rain simulator
#### Usage
```
rain(d,l) : _,_
```
Where:
* `d`: is the density of the... |
import("stdfaust.lib");
rain(density,level) = no.multinoise(2) : par(i, 2, drop) : par(i, 2, *(level))
with {
drop = _ <: @(1), (abs < density) : *;
};
process = rain (
hslider("v:rain/density", 1, 0, 5, 0.1) / 1000,
hslider("v:rain/volume", 0.2, 0, 1, 0.01)
);
|
2b12fb14c9b76b2075596496ca3e43e93c4e921b7895718308963c996b56d7aa | jpcima/stone-phaser | chirpsynth.dsp | declare name "Chirp synthesizer";
declare author "Jean Pierre Cimalando";
declare version "1.0";
declare license "CC0-1.0";
// chirp synthesizer with all-pass filter chain
// analysis signal generator for phasers
import("stdfaust.lib");
process = os.lf_imptrain(oscf) : seq(i,64,allpass1(apf)) with {
oscf = 1.0/30e... | https://raw.githubusercontent.com/jpcima/stone-phaser/da92961a4148b77fca131ba0e51d9ea7ad0b2476/tools/chirpsynth/chirpsynth.dsp | faust | chirp synthesizer with all-pass filter chain
analysis signal generator for phasers | declare name "Chirp synthesizer";
declare author "Jean Pierre Cimalando";
declare version "1.0";
declare license "CC0-1.0";
import("stdfaust.lib");
process = os.lf_imptrain(oscf) : seq(i,64,allpass1(apf)) with {
oscf = 1.0/30e-3;
apf = 701.87330;
};
allpass1(f) = fi.iir((a,1.),(a)) with {
a = -1.+2.*ma.PI*f/m... |
36228a418b9075e2d70c13ed8b1b6690d064096b29d352144f47c5b27c1eb056 | jpcima/faustpp | hardclip.dsp | declare name "Oversampled Hard Clipper";
declare author "Jean Pierre Cimalando";
declare copyright "2019";
declare license "CC0-1.0";
declare version "1.0";
import("stdfaust.lib");
OS = fconstant(int gOversampling, <math.h>);
process(x) = ba.if(x>0.0, x, 0.0);
| https://raw.githubusercontent.com/jpcima/faustpp/5197306546153130f50190cd589f3289047e2b3b/examples/hardclip.dsp | faust | declare name "Oversampled Hard Clipper";
declare author "Jean Pierre Cimalando";
declare copyright "2019";
declare license "CC0-1.0";
declare version "1.0";
import("stdfaust.lib");
OS = fconstant(int gOversampling, <math.h>);
process(x) = ba.if(x>0.0, x, 0.0);
| |
16fc6fc18206e1ee6271a2de6c931bd5c5e8933e85bcc91eceea4dee77a107d8 | eh2k/squares-and-circles | djembe.dsp | //faust ./djembe.dsp -cn djembe > ./djembe.hxx
import("stdfaust.lib");
freq = hslider("Freq",0.5,0,1000,0.01):si.smoo;
strikePosition = hslider("Pos",0.5,0,1,0.00001):si.smoo;
strikeSharpness = hslider("Sharpness",0.5,0,5,0.00001):si.smoo;
gain = 3;
trigger = button("trigger");
process = pm.djembe(freq,strikePositio... | https://raw.githubusercontent.com/eh2k/squares-and-circles/15970d811ef4a253ded0e55c36b08a67fd821a43/lib/faust/djembe.dsp | faust | faust ./djembe.dsp -cn djembe > ./djembe.hxx |
import("stdfaust.lib");
freq = hslider("Freq",0.5,0,1000,0.01):si.smoo;
strikePosition = hslider("Pos",0.5,0,1,0.00001):si.smoo;
strikeSharpness = hslider("Sharpness",0.5,0,5,0.00001):si.smoo;
gain = 3;
trigger = button("trigger");
process = pm.djembe(freq,strikePosition,strikeSharpness,gain,trigger);
|
a436b42af0ad57e14fdb6c4002693fda26f7d4cf6d824028b60c7b9cf89b9780 | eblade/synth | simple.dsp | declare options "[midi:on][nvoices:12]";
import("stdfaust.lib");
decimalpart(x) = x-int(x);
phase(f) = f/ma.SR : (+ : decimalpart) ~ _ ;
timbre(f) = phase(f)*0.5 + phase(f*2)*0.25 + phase(f*3)*0.125;
process = timbre(hslider("freq[OWL:A]", 440, 20, 10000, 1))
* hslider("gain[OWL:B]", 0.5, 0, 1, 0.01)
* (button("gate... | https://raw.githubusercontent.com/eblade/synth/d7fb5a7d47a0f071be6ee22d2452ef37f3f23d9f/faust/simple.dsp | faust | declare options "[midi:on][nvoices:12]";
import("stdfaust.lib");
decimalpart(x) = x-int(x);
phase(f) = f/ma.SR : (+ : decimalpart) ~ _ ;
timbre(f) = phase(f)*0.5 + phase(f*2)*0.25 + phase(f*3)*0.125;
process = timbre(hslider("freq[OWL:A]", 440, 20, 10000, 1))
* hslider("gain[OWL:B]", 0.5, 0, 1, 0.01)
* (button("gate... | |
b11ff509ff56889d6f251a806d43e84ce1891f5bb07cb0af43f582132a61b405 | magnetophon/LazyLimiter | blockDiagram.dsp | /*
* Copyright (C) 2014 Bart Brouns
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* b... | https://raw.githubusercontent.com/magnetophon/LazyLimiter/f3bbb2c4c05858e93710272ec42bda19d8f6a608/docs/blockDiagram.dsp | faust |
* Copyright (C) 2014 Bart Brouns
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but... |
declare name "LazyLimiterBlockDiagram";
declare author "Bart Brouns";
declare version "0.3.2";
declare copyright "(C) 2014 Bart Brouns";
import ("../GUI.lib");
import ("../LazyLimiter.lib");
process(audio) = GainCalculator(audio) : ba.db2linear * audio@LookAheadTime;
LookAheadTime = 4;
GainCalculator(... |
6b12464876de8680e58de2fd6e6731c9f6321cf6c7e55063532b53941375ee4f | Amerigo25/Faust | noise_par.dsp | import("stdfaust.lib");
process = no.noise <: fi.resonhp(500,5,1),fi.resonlp(500,5,1);
| https://raw.githubusercontent.com/Amerigo25/Faust/5d6990371c225eb24b59776e1e5ac21277e77af2/noise_par.dsp | faust | import("stdfaust.lib");
process = no.noise <: fi.resonhp(500,5,1),fi.resonlp(500,5,1);
| |
9561991873debf0e6fd8121778abca6f6b0320d96c57779e13f9ff596472e17d | Marquets/MusicPerceptionProject | osc.dsp | declare name "osc";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2009";
//-----------------------------------------------
// Sinusoidal Oscillator
//-----------------------------------------------
import("stdfaust.lib");
vol = hslider("volume [unit:dB... | https://raw.githubusercontent.com/Marquets/MusicPerceptionProject/4728c8c476cf6d39e80a24e0ae5d9433dda22efa/webaudio/osc.dsp | faust | -----------------------------------------------
Sinusoidal Oscillator
----------------------------------------------- | declare name "osc";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2009";
import("stdfaust.lib");
vol = hslider("volume [unit:dB]", 0, -96, 0, 0.1) : ba.db2linear : si.smoo ;
freq = hslider("freq [unit:Hz]", 1000, 20, 24000, 1);
process = vgroup("Osc... |
59f5bd01d9b08ce77d32da0bfa53f87f5f73ee46b76c0c1b42c410b0b6ef487e | LSSN/dsp-appunti | parallelo.dsp | import("stdfaust.lib");
process = *(1.0), *(1.0);
| https://raw.githubusercontent.com/LSSN/dsp-appunti/49741c08755de660aaea5ef6a709770a2d260234/code/parallelo.dsp | faust | import("stdfaust.lib");
process = *(1.0), *(1.0);
| |
b8f0bea87eb97fb28bcd986a03d89deea64963b24e77b1caefa68d87188466cd | LSSN/dsp-appunti | diagramma.dsp | import("stdfaust.lib");
process = + : *(0.5);
| https://raw.githubusercontent.com/LSSN/dsp-appunti/49741c08755de660aaea5ef6a709770a2d260234/code/diagramma.dsp | faust | import("stdfaust.lib");
process = + : *(0.5);
| |
b826596ae59c2614304441041eba65ff40ae4acc352a70d310401396cbf977c8 | LSSN/dsp-appunti | somma.dsp | import("stdfaust.lib");
process = +;
| https://raw.githubusercontent.com/LSSN/dsp-appunti/49741c08755de660aaea5ef6a709770a2d260234/code/somma.dsp | faust | import("stdfaust.lib");
process = +;
| |
64e32dee2a29e227d94903893d388668def80ce1299798c651715a336d9f85e5 | LSSN/dsp-appunti | ibrido.dsp | import("stdfaust.lib");
process = +,+:+;
| https://raw.githubusercontent.com/LSSN/dsp-appunti/49741c08755de660aaea5ef6a709770a2d260234/code/ibrido.dsp | faust | import("stdfaust.lib");
process = +,+:+;
| |
f87d130f788e5746f97d2cd85bdbd8139de8319a7e85d4644d4b6a0bd3855436 | LSSN/dsp-appunti | seriale.dsp | import("stdfaust.lib");
process = *(1.0) : *(1.0);
| https://raw.githubusercontent.com/LSSN/dsp-appunti/49741c08755de660aaea5ef6a709770a2d260234/code/seriale.dsp | faust | import("stdfaust.lib");
process = *(1.0) : *(1.0);
| |
5c2f22aeb0d9b5f9ba5ca8f64aaa3a38cc50b7621ed016fab84a4c420fbbe106 | matthewcaren/KeyWI | verb.dsp | import("stdfaust.lib");
verb = re.zita_rev1_stereo(60,200,6000,2.5,2,44100);
process = _,_ <: verb, (_,_) :> _,_;
| https://raw.githubusercontent.com/matthewcaren/KeyWI/83a62885e99069fe1fbaf55b28a2d98a5b3567ca/code/clarinet/verb.dsp | faust | import("stdfaust.lib");
verb = re.zita_rev1_stereo(60,200,6000,2.5,2,44100);
process = _,_ <: verb, (_,_) :> _,_;
| |
5d668fa01b5c0987ed6f171bc9d5a45fc8738dd3d5cee42488f9eef318daf1f8 | oshibka404/sound_design | main.dsp | declare name "Sound Design";
declare author "Andrey Ozornin";
declare copyright "Ozornin Music";
declare version "0.01";
declare license "MIT";
declare options "[midi:on]";
import("stdfaust.lib");
cc = library("midi_cc.dsp");
osc1_level = hslider("osc1 level", 1, 0, 1, .01);
osc1 = component("oscillators/osc1.dsp") ... | https://raw.githubusercontent.com/oshibka404/sound_design/8d0505f4f6e76db08f52061b2b5f9a76079147b9/DSP/main.dsp | faust | declare name "Sound Design";
declare author "Andrey Ozornin";
declare copyright "Ozornin Music";
declare version "0.01";
declare license "MIT";
declare options "[midi:on]";
import("stdfaust.lib");
cc = library("midi_cc.dsp");
osc1_level = hslider("osc1 level", 1, 0, 1, .01);
osc1 = component("oscillators/osc1.dsp") ... | |
82d7598fa101cd0db3dc1534a47d11d6bb93096a4d8f30accae2e37b0f09b4b1 | Msc-program/Jacklink | limitertest.dsp | // Test signal used by ../src/Limiter.cpp
import("stdfaust.lib");
freq = hslider("[0] Freq",110.0,20.0,10000.0,1);
amp = hslider("[0] Amp",0.2,0.0,1.0,0.0001);
//process = amp * os.oscrs(freq);
process = amp * os.sawtooth(freq);
| https://raw.githubusercontent.com/Msc-program/Jacklink/70b8634173e66d89884bb77b70b7b3ed01f71f79/faust-src/limitertest.dsp | faust | Test signal used by ../src/Limiter.cpp
process = amp * os.oscrs(freq); |
import("stdfaust.lib");
freq = hslider("[0] Freq",110.0,20.0,10000.0,1);
amp = hslider("[0] Amp",0.2,0.0,1.0,0.0001);
process = amp * os.sawtooth(freq);
|
8d04d464ce0404c8137388c089253692ecea26070d9500176e2a2685a0ef4235 | Amerigo25/Faust | noise_lp.dsp |
import("stdfaust.lib");
ctFreq = 500;
q = 5;
gain = 1;
process = no.noise : fi.resonlp(ctFreq,q,gain);
| https://raw.githubusercontent.com/Amerigo25/Faust/3c744a05ad1d55f8dd2f97054c226f9f98a2a2c9/noise_lp.dsp | faust |
import("stdfaust.lib");
ctFreq = 500;
q = 5;
gain = 1;
process = no.noise : fi.resonlp(ctFreq,q,gain);
| |
2e9999712b25bb8307bd91e954c363b0ec8733d999563d16cf5a6dabeb2a8ebc | matthewcaren/KeyWI | verb.dsp | import("stdfaust.lib");
verb = re.zita_rev1_stereo(60,200,6000,2.5,2,44100) : (_*0.25, _*0.25);
process = _,_ <: verb, (_,_) :> _,_;
| https://raw.githubusercontent.com/matthewcaren/KeyWI/83a62885e99069fe1fbaf55b28a2d98a5b3567ca/code/melodica/verb.dsp | faust | import("stdfaust.lib");
verb = re.zita_rev1_stereo(60,200,6000,2.5,2,44100) : (_*0.25, _*0.25);
process = _,_ <: verb, (_,_) :> _,_;
| |
99ed5b98ffd157c43ee90295bc6b0192d6cbcbf44d3b6babe01a9d3c5d8fc3ea | LucaSpanedda/Spanedda-PDlibraries | matrix.dsp | // MATRICE (GUI)
//Importo la libreria standard di FAUST
import("stdfaust.lib");
Fader(in) = checkbox("IN %in");
Mixer(N,out) = hgroup("OUT %out", par(in, N, *(Fader(in)) ) :> _ );
Matrix(N,M) = vgroup("Matrix %N x %M", par(in, N, _) <: par(out, M, Mixer(N, out)));
process = Matrix(8, 8);
| https://raw.githubusercontent.com/LucaSpanedda/Spanedda-PDlibraries/5b818fd8af0377d133505e240a8bf9de9ea05651/slll.pd-main/Linux_PD_Externals_FAUST/matrix.dsp | faust | MATRICE (GUI)
Importo la libreria standard di FAUST |
import("stdfaust.lib");
Fader(in) = checkbox("IN %in");
Mixer(N,out) = hgroup("OUT %out", par(in, N, *(Fader(in)) ) :> _ );
Matrix(N,M) = vgroup("Matrix %N x %M", par(in, N, _) <: par(out, M, Mixer(N, out)));
process = Matrix(8, 8);
|
0c55c01c23f4bcccde8d822014e8e9a371eadb1326d2c593dd39f073d4f0ec0a | ajhg/antuner | antuner-guitar.dsp | declare name "antuner";
declare author "antonio goulart";
declare version "0.001";
import("stdfaust.lib");
e6 = checkbox("[0]E");
a5 = checkbox("[1]A");
d4 = checkbox("[2]D");
g3 = checkbox("[5]G");
b2 = checkbox("[4]B");
e1 = checkbox("[3]e");
sound = hgroup("[0].", e6*os.square(164.814) + a5*os.square(220) + d4*os... | https://raw.githubusercontent.com/ajhg/antuner/88c195941468b5a2a453f64ed16a127f96edb2df/antuner-guitar.dsp | faust | declare name "antuner";
declare author "antonio goulart";
declare version "0.001";
import("stdfaust.lib");
e6 = checkbox("[0]E");
a5 = checkbox("[1]A");
d4 = checkbox("[2]D");
g3 = checkbox("[5]G");
b2 = checkbox("[4]B");
e1 = checkbox("[3]e");
sound = hgroup("[0].", e6*os.square(164.814) + a5*os.square(220) + d4*os... | |
8301a6ea3eb061b0c94d730e0ed9dc60e568af2b20c00e2c7fe3f7a4af0ec871 | georgezachos/b259wf | b259wf.dsp | import("stdfaust.lib");
import("basics.lib");
import("maths.lib");
fold = hslider("fold", 0, 0, 1, 0.001): si.smooth(0.999);
offset = hslider("offset", 0, -1, 1, 0.001): si.smooth (0.999);
LP = hslider("lowpass", 0, 0, 1, 0.001): lin2LogGain: si.smooth (0.999);
scale(x,mn,mx,a,b) = a+(b-a)*(x-mn)/(mx-mn);
R1 = (10., ... | https://raw.githubusercontent.com/georgezachos/b259wf/7a5f94688f5f6fff3b3e51761ce8ad93627ee92b/b259wf.dsp | faust | fi.bandpass(1,20,16000);
folderBranches(sig) = sig <: par(i, 5, invClip(sig,i)); | import("stdfaust.lib");
import("basics.lib");
import("maths.lib");
fold = hslider("fold", 0, 0, 1, 0.001): si.smooth(0.999);
offset = hslider("offset", 0, -1, 1, 0.001): si.smooth (0.999);
LP = hslider("lowpass", 0, 0, 1, 0.001): lin2LogGain: si.smooth (0.999);
scale(x,mn,mx,a,b) = a+(b-a)*(x-mn)/(mx-mn);
R1 = (10., ... |
3128ab5abbd2044ae9991772c86a66d11b0d2a402c6396f2acc0e82ecb1f3dcf | chernenko-victor/csound_edu | sin_oscil.dsp | import("stdfaust.lib");
phasor(f) = f/ma.SR : (+,1.0:fmod) ~ _ ;
osc(f) = phasor(f) * 6.28318530718 : sin;
process = osc(hslider("freq", 440, 20, 20000, 1)) * hslider("level", 0, 0, 1, 0.01); | https://raw.githubusercontent.com/chernenko-victor/csound_edu/164092906ca1eb4c5b083937badd523bcdf7c9ca/lsn8/sin_oscil.dsp | faust | import("stdfaust.lib");
phasor(f) = f/ma.SR : (+,1.0:fmod) ~ _ ;
osc(f) = phasor(f) * 6.28318530718 : sin;
process = osc(hslider("freq", 440, 20, 20000, 1)) * hslider("level", 0, 0, 1, 0.01); | |
75962fee1e3e0d33ddd8e4d6dcb6fc6c2dc50218e684bc4b089eff932224fdc1 | maulwurst/Faust | voice.dsp | import("stdfaust.lib");
declare options "[midi:on]";
key_2_hz = ba.midikey2hz(f);
amp = button("Gate");
f = hslider("freq", 69, 0, 128, 1);
s = nentry("[06]Waveform Select [style: knob]",0,0,2,1);
oscillator = os.polyblep_saw(key_2_hz),
os.polyblep_square(key_2_hz),
os.polyblep_triangle(key_... | https://raw.githubusercontent.com/maulwurst/Faust/42424d7d251fc6ff7bc640e586b717eeb7bd5c18/voice.dsp | faust | import("stdfaust.lib");
declare options "[midi:on]";
key_2_hz = ba.midikey2hz(f);
amp = button("Gate");
f = hslider("freq", 69, 0, 128, 1);
s = nentry("[06]Waveform Select [style: knob]",0,0,2,1);
oscillator = os.polyblep_saw(key_2_hz),
os.polyblep_square(key_2_hz),
os.polyblep_triangle(key_... | |
5a9c42f848ed4e9f3835eabc14cab5711beada73b618d110741bfc144ee5c680 | friskgit/snares | skipping.dsp | // -*- compile-command: "cd .. && make jack src=skipping.dsp && cd -"; -*-&& cd -"; -*-
import("stdfaust.lib");
/* This version gets rid of the skips in the pulse. Thanks to Dario Sanfilippo
Oddly enough, using ba.pulse reintroduces the problem, albeit not as much.
*/
/*
I had another look and using floats is still... | https://raw.githubusercontent.com/friskgit/snares/bb43ea5e706a0ead6d65dd176a5c492b2f5d8f74/faust/snare/src/skipping.dsp | faust | -*- compile-command: "cd .. && make jack src=skipping.dsp && cd -"; -*-&& cd -"; -*-
This version gets rid of the skips in the pulse. Thanks to Dario Sanfilippo
Oddly enough, using ba.pulse reintroduces the problem, albeit not as much.
I had another look and using floats is still problematic in single-precision; ... | import("stdfaust.lib");
freq = hslider("frq", 10000, 2, 20000, 1);
beat(t) = (diff(ba.period(t)) < 0) + impulse
with {
diff(x) = x <: _ - _';
import(".lib");pulse = 1 - 1';
};
process = beat(freq) , beat(freq);
|
4ac44338f687ca48093eb084278043cd58f061b98f1a4f69e71b8c443df6e119 | quentinplet/Arpeggiator | arpeggiator.dsp | import("stdfaust.lib");
// delay + feedback
n = 524288;
dur = hslider("h:delay/dur", 500, 0, 2000, 1);
fdbk = hslider("h:delay/fdbk", 0, 0, 0.999, 0.001);
d = dur * ma.SR / 1000;
delay1 = de.sdelay(n, 1024, d);
// transposition
shift = hslider("h:pitchshift/shift", 0, -24, 24, 0.01);
pitchshift = ef.transpose(1024, ... | https://raw.githubusercontent.com/quentinplet/Arpeggiator/ef4213c10d0e63d584a3ff1ec06d412050ccf35c/arpeggiator.dsp | faust | delay + feedback
transposition
panoramisation | import("stdfaust.lib");
n = 524288;
dur = hslider("h:delay/dur", 500, 0, 2000, 1);
fdbk = hslider("h:delay/fdbk", 0, 0, 0.999, 0.001);
d = dur * ma.SR / 1000;
delay1 = de.sdelay(n, 1024, d);
shift = hslider("h:pitchshift/shift", 0, -24, 24, 0.01);
pitchshift = ef.transpose(1024, 1024, shift);
rate = hslider("h:pan/... |
6a1d2f240bdc6c00596d0d704e569cc05a198fa00cb2929a51a04e7a74cb6eb2 | jpcima/string-machine | NoiseLFO.dsp | import("stdfaust.lib");
process = no.lfnoise(f) with {
f = hslider("[1] Frequency [symbol:frequency] [unit:Hz]", 1.0, 0.0, 100.0, 1.0);
};
| https://raw.githubusercontent.com/jpcima/string-machine/188082dd0beb9a3c341035604841c53675fe66c4/sources/dsp/NoiseLFO.dsp | faust | import("stdfaust.lib");
process = no.lfnoise(f) with {
f = hslider("[1] Frequency [symbol:frequency] [unit:Hz]", 1.0, 0.0, 100.0, 1.0);
};
| |
26eb67683fc55c17f8c59b22272bd797d3c1ff92108f4456a5bdb038f5099b6c | Amerigo25/Faust | noise_lp_GUI.dsp | import("stdfaust.lib");
ctFreq = hslider("Freq",500,20,1000,1);
q = 5;
gain = 1;
b = button("ON");
process = b*no.noise : fi.resonlp(ctFreq,q,gain);
| https://raw.githubusercontent.com/Amerigo25/Faust/3c744a05ad1d55f8dd2f97054c226f9f98a2a2c9/noise_lp_GUI.dsp | faust | import("stdfaust.lib");
ctFreq = hslider("Freq",500,20,1000,1);
q = 5;
gain = 1;
b = button("ON");
process = b*no.noise : fi.resonlp(ctFreq,q,gain);
| |
a692eb3167691064f30bb568f6774912a5a7797a834f1d766019338c659a1830 | philipkobernik/learning-faust-dsp | 6-29-2020.dsp | import("stdfaust.lib");
maxDuration = 2.0;
duration = 0.5;
feedback = 0.5;
mix = hslider("echo mix",0.5,0,1,0.01) : si.smoo;
process = os.osc(1), 1 : + : _, 300 : * : os.sawtooth : _, 0.1 : * <: _,(mix, ef.echo(maxDuration,duration,feedback) : *) :> _;
// JK: what are the datatypes? It seems like there is only one--... | https://raw.githubusercontent.com/philipkobernik/learning-faust-dsp/72bbf471e50db9d190065ac3632c24aa21d74f1d/6-29-2020.dsp | faust | JK: what are the datatypes? It seems like there is only one-- signal
Docs: "Faust considers two type of signals: integer signals and floating point signals. Exchanges with the outside world are, by convention, made using floating point signals. The full range is represented by sample values between -1.0 and 1.0.
Doc... | import("stdfaust.lib");
maxDuration = 2.0;
duration = 0.5;
feedback = 0.5;
mix = hslider("echo mix",0.5,0,1,0.01) : si.smoo;
process = os.osc(1), 1 : + : _, 300 : * : os.sawtooth : _, 0.1 : * <: _,(mix, ef.echo(maxDuration,duration,feedback) : *) :> _;
|
aa6fb6b0234b7a9232b35f33b71e7ffe70ed12070b404dffcced6ab3f2374fec | kretopi/pdToFaust | metro.dsp | declare name "metro";
declare author "Piotr Goj";
import("stdfaust.lib");
metroSlider = hslider("metro", 60, 30, 240, 1); // metro slider
metro = ba.beat(metroSlider); // [metro]
// attack and release use in envelope
attack = 0.001;
release = 0.2;
process = en.ar(attack, release, metro) * no.noise <: _, _;
| https://raw.githubusercontent.com/kretopi/pdToFaust/b62900f0be71f14703ec81825c915404b680fdc4/examples/metro/metro.dsp | faust | metro slider
[metro]
attack and release use in envelope | declare name "metro";
declare author "Piotr Goj";
import("stdfaust.lib");
attack = 0.001;
release = 0.2;
process = en.ar(attack, release, metro) * no.noise <: _, _;
|
ad7842dbc4d25dc95b30c8576686a747daceefb5f3f1afb4d21335503f9111ae | mstepien96/ICU-Sonification | exfaust2.dsp |
declare name "freeverb";
declare version "0.0";
declare author "RM";
declare description "Freeverb demo application.";
import("stdfaust.lib");
gate = button("gate") : si.smoo;
gatesound = button("gatesound") : si.smoo;
process = (pm.SFFormantModelFofSmooth_ui *gatesound + sine(freqsine)* (1 - gatesound))* gate <:_... | https://raw.githubusercontent.com/mstepien96/ICU-Sonification/ed3e154695c85cfeeba26e060e8b945adb781e3d/exfaust2.dsp | faust |
declare name "freeverb";
declare version "0.0";
declare author "RM";
declare description "Freeverb demo application.";
import("stdfaust.lib");
gate = button("gate") : si.smoo;
gatesound = button("gatesound") : si.smoo;
process = (pm.SFFormantModelFofSmooth_ui *gatesound + sine(freqsine)* (1 - gatesound))* gate <:_... | |
052ea7c9f2a39f5898d49816c6614c81b889fc2ad3a7cd8f558c151c88a7db5f | jpcima/faustpp | osctriangle.dsp | declare name "Oversampled Triangle Oscillator";
declare author "Jean Pierre Cimalando";
declare copyright "2019";
declare license "CC0-1.0";
declare version "1.0";
import("stdfaust.lib");
OS = fconstant(int gOversampling, <math.h>);
process = os.lf_triangle(frequency/OS) with {
note = hslider("[1] Note [unit:semit... | https://raw.githubusercontent.com/jpcima/faustpp/5197306546153130f50190cd589f3289047e2b3b/examples/osctriangle.dsp | faust | declare name "Oversampled Triangle Oscillator";
declare author "Jean Pierre Cimalando";
declare copyright "2019";
declare license "CC0-1.0";
declare version "1.0";
import("stdfaust.lib");
OS = fconstant(int gOversampling, <math.h>);
process = os.lf_triangle(frequency/OS) with {
note = hslider("[1] Note [unit:semit... | |
311ea714d140b3a358ce2ac10c27abd12e057698f65f32d4db8702c7a405e670 | polyeffects/poly_filters | korg35HPF.dsp | declare name "korg35LPF";
declare description "faust Korg 35 LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.korg35HPF(normFreq,Q) <:_;
| https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/korg35HPF.dsp | faust | declare name "korg35LPF";
declare description "faust Korg 35 LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.korg35HPF(normFreq,Q) <:_;
| |
801859b466f3fadc4290e7c89e9fb3e6f5b222ff480ac33f94d76f89c57396d2 | polyeffects/poly_filters | korg35LPF.dsp | declare name "korg35LPF";
declare description "faust Korg 35 LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.korg35LPF(normFreq,Q) <:_;
| https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/korg35LPF.dsp | faust | declare name "korg35LPF";
declare description "faust Korg 35 LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.korg35LPF(normFreq,Q) <:_;
| |
b231c9bbee826dc5bfba1b3475c3a6c3246b43b5f4e4e275ffc8419d7cc6a6d6 | grame-cncm/faustservice | echorev.dsp | import("stdfaust.lib");
// User interface with MIDI convention
duration = hslider("duration[unit:ms]", 250, 0, 1000, 1)/1000;
feedback = hslider("feedback", 0.7, 0, 1, 0.01) : en.adsr(0.01,0.01,0.9,0.1);
// echo + reverb
process = par(i,2, ef.echo(2, duration, feedback)) : dm.zita_light;
| https://raw.githubusercontent.com/grame-cncm/faustservice/a8271e583f680ec5af304a83ae832c01ce6d3c3a/cloud-tests/echorev.dsp | faust | User interface with MIDI convention
echo + reverb | import("stdfaust.lib");
duration = hslider("duration[unit:ms]", 250, 0, 1000, 1)/1000;
feedback = hslider("feedback", 0.7, 0, 1, 0.01) : en.adsr(0.01,0.01,0.9,0.1);
process = par(i,2, ef.echo(2, duration, feedback)) : dm.zita_light;
|
393bb49b56358bc9497c871f0a7a42164cf0f0eabf3f10be27993e85dd40f97c | levinericzimmermann/oT2kb | bells.dsp | declare name "bells";
declare version "1.0";
declare author "Levin Eric Zimmermann";
declare options "[midi:on][nvoices:12]";
//-----------------------------------------------
// Oscillator based synthesis
//-----------------------------------------------
import("stdfaust.lib");
f = hslider("fr... | https://raw.githubusercontent.com/levinericzimmermann/oT2kb/202685282c585def5e62791ff784196e127e910a/src/bells.dsp | faust | -----------------------------------------------
Oscillator based synthesis
-----------------------------------------------
process = pm.russianBell(3,7000,0.25,gain,gate) <: _,_; | declare name "bells";
declare version "1.0";
declare author "Levin Eric Zimmermann";
declare options "[midi:on][nvoices:12]";
import("stdfaust.lib");
f = hslider("freq",300,50,2000,0.01);
bend = ba.semi2ratio(hslider("bend[midi:pitchwheel]",0,-2,2,0.01)) : si.polySmooth(gate,0.999,1);
minimalGain = ... |
3e4857303310cf50fca567542e3b7b18c409d2aff3d2b5e86c8bb9c7261ba5d7 | ljwall/er-301-units | FDelay.dsp | import("stdfaust.lib");
// Name the ins and outs of the `process` function for use in the er-301 object
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
process = de.fdelay(1000);
| https://raw.githubusercontent.com/ljwall/er-301-units/3d30d2b2d3f69f9d7ac455da72a853ffe0de4a2c/faust-poc/dsp/FDelay.dsp | faust | Name the ins and outs of the `process` function for use in the er-301 object | import("stdfaust.lib");
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
process = de.fdelay(1000);
|
5c10d101d3e01a2369872d48a612d227f458bb854216c352af9d04abb3c0e39c | michal-cab/faust-snippets | delOscFdbk.dsp | import ("stdfaust.lib");
process = os.triangle(carFreq) : +~ (de.fdelay(65536,delay) :
fi.resonlp(fr,res,gain) * fedGain) : _ * gain
with {
carFreq = hslider("[1]osc freq",200,1,1000,0.01) : si.smoo;
fr = hslider("[2]filter freq",200,100,5000,0.01) : si.smoo;
res = hslider("[3]resonance",1,1,5,0.01) : si.smoo... | https://raw.githubusercontent.com/michal-cab/faust-snippets/6c77964d29e7640409905a51ec61ce62e052d7cb/delOscFdbk.dsp | faust | import ("stdfaust.lib");
process = os.triangle(carFreq) : +~ (de.fdelay(65536,delay) :
fi.resonlp(fr,res,gain) * fedGain) : _ * gain
with {
carFreq = hslider("[1]osc freq",200,1,1000,0.01) : si.smoo;
fr = hslider("[2]filter freq",200,100,5000,0.01) : si.smoo;
res = hslider("[3]resonance",1,1,5,0.01) : si.smoo... | |
4ac8f728fe844458ec26eb9a6a2c8b869442fb7099f5cde4778d81f8a42b5acc | polyeffects/poly_filters | moogLadder.dsp | declare name "moogLadder";
declare description "moogLadder LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.moogLadder(normFreq,Q) <:_;
| https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/moogLadder.dsp | faust | declare name "moogLadder";
declare description "moogLadder LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.moogLadder(normFreq,Q) <:_;
| |
b3c6d48e65ff8029b789d8d26ff5fd0ac2b5694e13a4c612d04260827fc763a3 | polyeffects/poly_filters | diodeLadder.dsp | declare name "diodeLadder";
declare description "faust diodeLadder";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.1,0,1,0.001):si.smoo;
process = _ : ve.diodeLadder(normFreq,Q) <:_;
| https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/diodeLadder.dsp | faust | declare name "diodeLadder";
declare description "faust diodeLadder";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.1,0,1,0.001):si.smoo;
process = _ : ve.diodeLadder(normFreq,Q) <:_;
| |
556bfdebd0eb089e89b049b38606a4c2c97f33c902b719d2b0ad6f190ca5bfcf | monome/norns | StereoCompressor.dsp | declare name "StereoCompressor";
import("stdfaust.lib");
import("effect.lib");
import("filter.lib");
ratio = vslider("[1] ratio", 4.0, 1, 100.0, 0.1);
thresh = vslider("[2] threshold [unit:dB]", -6.0, -40.0, 0, 0.5);
atk = vslider("[3] attack [unit:s] [scale:log]", 0.01, 0.001, 4.0, 0.001);
rel = vslider("[4] release... | https://raw.githubusercontent.com/monome/norns/e8ddf657830f8db99465965d45ade11e9dbbc831/crone/dsp/StereoCompressor.dsp | faust | declare name "StereoCompressor";
import("stdfaust.lib");
import("effect.lib");
import("filter.lib");
ratio = vslider("[1] ratio", 4.0, 1, 100.0, 0.1);
thresh = vslider("[2] threshold [unit:dB]", -6.0, -40.0, 0, 0.5);
atk = vslider("[3] attack [unit:s] [scale:log]", 0.01, 0.001, 4.0, 0.001);
rel = vslider("[4] release... | |
e2ed7eda288879fcbb99dac9a3b156718f8a3eb293da8894a37d4ace9a9dc3a0 | madskjeldgaard/faustquark-example | fq_nylonguitar.dsp | import("stdfaust.lib");
import("physmodels.lib");
nylonguit = pm.nylonGuitar(stringLength,pluckPosition,gain,gate)
with{
f = hslider("freq",440,20,20000,0.001);
gain = hslider("gain",0.8,0,1,0.01);
s = hslider("sustain",0,0,1,1);
pluckPosition = hslider("pluckPosition" ,0.8,0,1,0.01) : si.smoo;
t =... | https://raw.githubusercontent.com/madskjeldgaard/faustquark-example/7e1f191b7854a20bd4ec7eb12b44712abb79b6d0/faust/fq_nylonguitar.dsp | faust | import("stdfaust.lib");
import("physmodels.lib");
nylonguit = pm.nylonGuitar(stringLength,pluckPosition,gain,gate)
with{
f = hslider("freq",440,20,20000,0.001);
gain = hslider("gain",0.8,0,1,0.01);
s = hslider("sustain",0,0,1,1);
pluckPosition = hslider("pluckPosition" ,0.8,0,1,0.01) : si.smoo;
t =... | |
4ca5ceaa9c4766f9d3bf4f892fa64eabef226b2e137f62ed8db4f0170b4518a4 | tomara-x/magi | table-seq.dsp | import("stdfaust.lib");
scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)*(i+1)));
scale = scaleRep(qu.eolian, 2);
list = par(i,14,par(j,8, ((j+1)+(j+1)*i)%14));
step = list : ba.selectn(outputs(list),ba.time);
tabSize = outputs(list);
sequence(i) = tabSize,step,int(i) : rdtable;
t = ba.beat(128*... | https://raw.githubusercontent.com/tomara-x/magi/bcf22a4ef23899cd8ce3bf5e08e374994907f81a/practice/table-seq.dsp | faust | a much worse method
import("stdfaust.lib");
scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)*(i+1)));
scale = scaleRep(qu.eolian, 2);
list = par(i,14,par(j,8,rat(num(i,j))))
with {
num(i,j) = ((j+1)+(j+1)*i)%14;
rat(x) = scale : ba.selectn(outputs(scale),x);
};
step = list : ba.selectn(... | import("stdfaust.lib");
scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)*(i+1)));
scale = scaleRep(qu.eolian, 2);
list = par(i,14,par(j,8, ((j+1)+(j+1)*i)%14));
step = list : ba.selectn(outputs(list),ba.time);
tabSize = outputs(list);
sequence(i) = tabSize,step,int(i) : rdtable;
t = ba.beat(128*... |
7ab2b87586ebfc4d51dbff929a003b9795c9e9d4ce0a630b18c96112b3275c2c | kylestew/CCRMA-Workshop | instrument.dsp | import("stdfaust.lib");
/*
* BELL: Modal bell model with excitation input
* strikePosition - 5 strike positions on bell
* holdLength - t60 decay time
*/
bell = _*gainIn : fi.lowpass(3, 800) : pm.churchBellModel(12,strikePosition,holdLength,1,2.5)*0.5
with {
gainIn = nentry("gainIn", 0.2, 0, 1, 0.001);
strik... | https://raw.githubusercontent.com/kylestew/CCRMA-Workshop/346473174f3fe2d8fab0d4bd35196371e9cc7702/dsp/instrument.dsp | faust |
* BELL: Modal bell model with excitation input
* strikePosition - 5 strike positions on bell
* holdLength - t60 decay time
* WIND INSTRUMENT: Clarinet
* pressure
* tubeLength - (in meters) used for note
* mouthPosition - (0-1)
OUTPUTS
testing
process = button("gate") : bell;
process = windOut; | import("stdfaust.lib");
bell = _*gainIn : fi.lowpass(3, 800) : pm.churchBellModel(12,strikePosition,holdLength,1,2.5)*0.5
with {
gainIn = nentry("gainIn", 0.2, 0, 1, 0.001);
strikePosition = nentry("strikePosition", 0,0,4,1);
holdLength = nentry("holdLength", 40,1,400,0.1);
};
wind = pm.fluteModel(tubeLe... |
b836bdfdac3433a3e6c66bcd7348ac8d6f2bdeca36adf2504c7f17f2f6be4e09 | spluta/SPSynthTools | MoogVCF2.dsp | import("stdfaust.lib");
process(freq, resonance) = ve.moog_vcf_2b(resonance,freq);
| https://raw.githubusercontent.com/spluta/SPSynthTools/8e643163c91316c2ee58737498ee12fd0744534d/Filters/FaustSource/MoogVCF2.dsp | faust | import("stdfaust.lib");
process(freq, resonance) = ve.moog_vcf_2b(resonance,freq);
| |
ed18b6e39894012bc5fac75c949198055cf959dfed8e0b729e022836d32e44b3 | jpecquais/faustLab | noteDetector.dsp | declare name "Note Detector";
declare author "Jean-Loup Pecquais";
declare version "1.00";
declare license "GPL3";
import("stdfaust.lib");
sigVariation = fi.conv((1,-1)); //Allows to compute de derivation of the input signal
process = sigVariation : abs : *(10); | https://raw.githubusercontent.com/jpecquais/faustLab/91f3121f6b82bf05962e676e7731fadef45628b8/dsp/Synth/noteDetector.dsp | faust | Allows to compute de derivation of the input signal | declare name "Note Detector";
declare author "Jean-Loup Pecquais";
declare version "1.00";
declare license "GPL3";
import("stdfaust.lib");
process = sigVariation : abs : *(10); |
5fbcc08fb98f49566f377f755b57924c39a392cb6efa95bcd2d3d1830538ea40 | polyeffects/poly_filters | moogHalfLadder.dsp | declare name "moogHalfLadder";
declare description "Moog Half Ladder LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.moogHalfLadder(normFreq,Q) <:_;
| https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/moogHalfLadder.dsp | faust | declare name "moogHalfLadder";
declare description "Moog Half Ladder LPF";
declare author "Loki Davison";
import("stdfaust.lib");
Q = hslider("Q",1,0.7072,25,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.moogHalfLadder(normFreq,Q) <:_;
| |
75922cc41aefc57a0f58c9a302e74cba5c38a66130e982c96c702211880b5d20 | michal-cab/faust-snippets | triFilter.dsp | import("stdfaust.lib");
process = osc : filter : gain;
osc = os.triangle(carrier)
with {
carrier = hslider("[1]carrier freq",100,50,2000,0.01) : si.smoo;
};
gain = * (hslider("[5]gain",0,0,1,0.01): si.smoo);
filter = _ <: fi.resonbp(fr+(ratio*fr),res,gain),
fi.resonbp(fr+(ratio * fr * (-1)),re... | https://raw.githubusercontent.com/michal-cab/faust-snippets/6c77964d29e7640409905a51ec61ce62e052d7cb/triFilter.dsp | faust | import("stdfaust.lib");
process = osc : filter : gain;
osc = os.triangle(carrier)
with {
carrier = hslider("[1]carrier freq",100,50,2000,0.01) : si.smoo;
};
gain = * (hslider("[5]gain",0,0,1,0.01): si.smoo);
filter = _ <: fi.resonbp(fr+(ratio*fr),res,gain),
fi.resonbp(fr+(ratio * fr * (-1)),re... | |
f9878fcef283dd08b1ef6112ac90970f6b70b14a63c2ed71d4a2fae28400eaba | HolyCityAudio/ESP32 | basicEcho.dsp | import("stdfaust.lib");
echoTime = hslider("[7]echoTime", 0.10, 0.10, 2.5, 0.01) : si.smooth(0.99995);
echoFeedback = hslider("[7]echoFeedback", 0.0, 0, 1.0, 0.01) : si.smoo;
echoLPF = hslider("[7]echoLPF", 2500.0, 1000.0, 10000.0, 0.01) : si.smoo;
//=============================================
process = _,_ : + <: _,... | https://raw.githubusercontent.com/HolyCityAudio/ESP32/9fd8916dc158c4ed3690e4e6ba2b98014f283b80/faust/basicEcho/main/basicEcho.dsp | faust | ============================================= | import("stdfaust.lib");
echoTime = hslider("[7]echoTime", 0.10, 0.10, 2.5, 0.01) : si.smooth(0.99995);
echoFeedback = hslider("[7]echoFeedback", 0.0, 0, 1.0, 0.01) : si.smoo;
echoLPF = hslider("[7]echoLPF", 2500.0, 1000.0, 10000.0, 0.01) : si.smoo;
process = _,_ : + <: _,(( + : de.sdelay(ba.sec2samp(2.5), 1024, ba.sec2... |
e7b5343f3a3ad4e7f85cb9c6789bf4bdf30150622960ce150ec624dc35a48f9f | T4ngkeke/SonProjet | realTest.dsp | import("stdfaust.lib");
transpose(w, x, s, sig) = de.fdelay(maxDelay,d,sig)*ma.fmin(d/x,1) +
de.fdelay(maxDelay,d+w,sig)*(1-ma.fmin(d/x,1))
with {
maxDelay = 1000;//2^15
i = 1 - pow(2, s/12);
d = i : (+ : +(w) : fmod(_,w)) ~ _;
};
pitchshifter=vgroup("Pitch Shifter",transpose(1000,10,6));
//filtre à ajouter
... | https://raw.githubusercontent.com/T4ngkeke/SonProjet/bb2071eb29623a6d4dc93b96b748635a519f90e2/realTest.dsp | faust | 2^15
filtre à ajouter | import("stdfaust.lib");
transpose(w, x, s, sig) = de.fdelay(maxDelay,d,sig)*ma.fmin(d/x,1) +
de.fdelay(maxDelay,d+w,sig)*(1-ma.fmin(d/x,1))
with {
i = 1 - pow(2, s/12);
d = i : (+ : +(w) : fmod(_,w)) ~ _;
};
pitchshifter=vgroup("Pitch Shifter",transpose(1000,10,6));
process (x)=x:pitchshifter;
|
d74e8f089afa6cc667c364d422d5518ba46e1767c4612812903657834c7515d0 | kretopi/pdToFaust | random.dsp | declare name "Random";
declare author "Piotr Goj";
import("stdfaust.lib");
bang = button("bang") : ba.impulsify; // bang
random(number, bang) = (((no.noise + 1) / 2) * number) : int : ba.sAndH(bang); // generate number from 0 to number value after pressing bang button
process = ran... | https://raw.githubusercontent.com/kretopi/pdToFaust/d00442bd57309a0c20d87a22a6977290ca660a8e/examples/random/random.dsp | faust | bang
generate number from 0 to number value after pressing bang button
connections between objects, <: _, _ (stereo) | declare name "Random";
declare author "Piotr Goj";
import("stdfaust.lib");
|
22c01b12e72a7f605b8715f331b62faa9e068b1381b2faa8a2f9ac2acb9604da | t-scale/GrainFMSynth | addfm.dsp | import("stdfaust.lib");
harmFm(cFreq,hRatio,idx) = os.osc(cFreq + os.osc(cFreq * hRatio) * idx * hRatio);
fm = hgroup("[0]FM", harmFm(carFreq, harmRatio, index))
with{
harmRatio = nentry("[0]harmonic_ratio",1,0,64,0.01) : si.smoo;
index = nentry("mod_index", 100, 0, 8800, 0.01) : si.smoo;
carFreq = nentry... | https://raw.githubusercontent.com/t-scale/GrainFMSynth/ffe1b728bed83c9c331204d286a5ea9189a42c8f/dsp-faust/addfm.dsp | faust | import("stdfaust.lib");
harmFm(cFreq,hRatio,idx) = os.osc(cFreq + os.osc(cFreq * hRatio) * idx * hRatio);
fm = hgroup("[0]FM", harmFm(carFreq, harmRatio, index))
with{
harmRatio = nentry("[0]harmonic_ratio",1,0,64,0.01) : si.smoo;
index = nentry("mod_index", 100, 0, 8800, 0.01) : si.smoo;
carFreq = nentry... | |
b062fbe07f19049601938f6d46e4b14b76e55faa5bc5b05223b139e551eab01a | bgaster/aa_examples | gain.dsp | declare name "volume";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
//-----------------------------------------------
// Volume control in dB
//-----------------------------------------------
import("stdfaust.lib");
gain ... | https://raw.githubusercontent.com/bgaster/aa_examples/98d70668d6784b426726366148a74109b682ec4f/gain/dsp/gain.dsp | faust | -----------------------------------------------
Volume control in dB
----------------------------------------------- | declare name "volume";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
import("stdfaust.lib");
gain = vslider("gain_control", 0, -70, +4, 0.1) : ba.db2linear : si.smoo;
process = *(gain); |
b51f080a1595502ec1b61404bd6873e3177b29a260a844dcab052dd667de1bfb | ljwall/er-301-units | SDelay.dsp | import("stdfaust.lib");
// Name the ins and outs of the `process` function for use in the er-301 object
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
// 10 of these is 25% without -vec -vs 4
process = de.sdelay(1000, 8);
| https://raw.githubusercontent.com/ljwall/er-301-units/2d23ab3aa564f50b3f044e76f2f20067ff67d12c/faust-poc/dsp/SDelay.dsp | faust | Name the ins and outs of the `process` function for use in the er-301 object
10 of these is 25% without -vec -vs 4 | import("stdfaust.lib");
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
process = de.sdelay(1000, 8);
|
3a262aeb2bce7b0b4c08c7b1fe0800671c1b192a5aa23661724a6cb9c169b3be | neidhub/smallest-synth | faustSynth.dsp | import("stdfaust.lib");
declare options "[midi:on]";
freq = nentry("freq", 400, 0, 20000, 0.1);
gain = nentry("gain", 0.5, 0, 1, 0.01);
gate = en.adsr(0,0.1,0.8,0.4, button("gate")) ;
//yes we have to do this every time
//faust UI mapping the midi 0..127 to the range of slider doesnt work for us
//so we do it manuall... | https://raw.githubusercontent.com/neidhub/smallest-synth/83f43794d11b5ad32489c5c9a18b78457ed7cb5a/playground/sawfilter/generic/faustSynth.dsp | faust | yes we have to do this every time
faust UI mapping the midi 0..127 to the range of slider doesnt work for us
so we do it manually
make it log (optional)
Teensy Oscillator
lowering the resolution of the sine oscillators' lookup table
in order to make computation... | import("stdfaust.lib");
declare options "[midi:on]";
freq = nentry("freq", 400, 0, 20000, 0.1);
gain = nentry("gain", 0.5, 0, 1, 0.01);
gate = en.adsr(0,0.1,0.8,0.4, button("gate")) ;
cutoff = hslider("cc1[midi:ctrl 1]", 127,0,127,1) /255 : ba.lin2LogGain /2 : * (maxout-minout) + minout : si.smoo
with{
minout = 1... |
0e26f46ac0700b313e826c97a2ef85f9dc1a8ca87308970d3254c8141ad7dd15 | funkyfourier/spitback | fausthighshelf.dsp | import("stdfaust.lib");
freq = hslider("freq",100,50,5000,1);
gain = hslider("gain",0,-480,480,0.1);
process = _ : fi.highshelf(3, gain, freq) : _; | https://raw.githubusercontent.com/funkyfourier/spitback/c3b1831e2bd1ac9272652309d4fb3d2847f0a67b/externals/src/fausthighshelf/fausthighshelf.dsp | faust | import("stdfaust.lib");
freq = hslider("freq",100,50,5000,1);
gain = hslider("gain",0,-480,480,0.1);
process = _ : fi.highshelf(3, gain, freq) : _; | |
f28b94af96d8d663922c60f82b1c5b7e93f556ef68afabc494acdbf8139b6664 | funkyfourier/spitback | faustlowshelf.dsp | import("stdfaust.lib");
freq = hslider("freq",100,50,5000,1);
gain = hslider("gain",0,-48,48,0.1);
process = _ : fi.lowshelf(3, gain, freq) : _; | https://raw.githubusercontent.com/funkyfourier/spitback/c3b1831e2bd1ac9272652309d4fb3d2847f0a67b/externals/src/faustlowshelf/faustlowshelf.dsp | faust | import("stdfaust.lib");
freq = hslider("freq",100,50,5000,1);
gain = hslider("gain",0,-48,48,0.1);
process = _ : fi.lowshelf(3, gain, freq) : _; | |
dd3ace9df61f4cc0da353e2991b2a213cd92e8ff2565dd639f3c92eb70bd0f83 | leoauri/karplus-keys | karpluskeys.dsp | declare name "Karplus Keys";
declare options "[midi:on]";
declare options "[nvoices:32]";
import("stdfaust.lib");
import("delays.lib");
import("maths.lib");
import("filters.lib");
import("envelopes.lib");
lowest_delay = ma.SR / 27.5;
freq = vslider("freq[style:knob]", 27.5, 27.5, 4186.01, 0.01);
gain = vslider("... | https://raw.githubusercontent.com/leoauri/karplus-keys/a8f68a3442a63d413c27469d4e52970228f1848b/karpluskeys.dsp | faust | declare name "Karplus Keys";
declare options "[midi:on]";
declare options "[nvoices:32]";
import("stdfaust.lib");
import("delays.lib");
import("maths.lib");
import("filters.lib");
import("envelopes.lib");
lowest_delay = ma.SR / 27.5;
freq = vslider("freq[style:knob]", 27.5, 27.5, 4186.01, 0.01);
gain = vslider("... | |
7771a539983d370c0e406f810f4ca9e80dfb8ba29a61611e96ebb456b12b8628 | monome/norns | ZitaReverb.dsp | declare name "ZitaReverb";
import("stdfaust.lib");
process = re.zita_rev1_stereo(pre_del, lf_x, hf_damp, low_rt60, mid_rt60, fsmax)
with{
fsmax = 48000.0;
pre_del = vslider("[1] pre_del [unit:ms] [tooltip: reverb pre-delay ]", 20, 0, 200, 1);
lf_x = vslider("[2] lf_fc [unit:Hz] [scale:log] [tooltip: low ban... | https://raw.githubusercontent.com/monome/norns/e8ddf657830f8db99465965d45ade11e9dbbc831/crone/dsp/ZitaReverb.dsp | faust | declare name "ZitaReverb";
import("stdfaust.lib");
process = re.zita_rev1_stereo(pre_del, lf_x, hf_damp, low_rt60, mid_rt60, fsmax)
with{
fsmax = 48000.0;
pre_del = vslider("[1] pre_del [unit:ms] [tooltip: reverb pre-delay ]", 20, 0, 200, 1);
lf_x = vslider("[2] lf_fc [unit:Hz] [scale:log] [tooltip: low ban... | |
75128eb161339b88a54e12eb1d30fc8525b753144263c0ea19f3e93889859f04 | noqcks/generated | lowCut.dsp | // WARNING: This a "legacy example based on a deprecated library". Check filters.lib
// for more accurate examples of filter functions
declare name "lowcut";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
//----------------------------------------------... | https://raw.githubusercontent.com/noqcks/generated/ac22f46042217caede3b482292a3460d2ad0c062/samples/Faust/lowCut.dsp | faust | WARNING: This a "legacy example based on a deprecated library". Check filters.lib
for more accurate examples of filter functions
------------------------------------------------------------------
DAFX, Digital Audio Effects (Wiley ed.)
chapter 2 : filters
section 2.3 : Equalizers
page 53 : second order shelving... |
declare name "lowcut";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2006";
import("stdfaust.lib");
V0(g) = pow(10,g/-20.0);
K(fc) = tan(ma.PI*fc/ma.SR);
squ(x) = x*x;
denom(fc,g) = 1 + sqrt(2*V0(g))*K(fc) + V0(g)*squ(K(fc));
lfcut(fc, g) = fi.TF2(... |
b3818be8c071a589775fb0cec34311388a85c482471109ca82939d96f5fb0205 | polyeffects/poly_filters | oberheim.dsp | declare name "oberheimBSF";
declare description "Oberheim generic multi-outputs Filter";
declare author "Eric Tarr, GRAME";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
// The BSF, BPF, HPF and LPF outputs are produced
process = _ : ve.oberheim(normFreq,Q)... | https://raw.githubusercontent.com/polyeffects/poly_filters/ebf8fd1cea20e5d167f0c04ded12da13bd70829f/faust/oberheim.dsp | faust | The BSF, BPF, HPF and LPF outputs are produced | declare name "oberheimBSF";
declare description "Oberheim generic multi-outputs Filter";
declare author "Eric Tarr, GRAME";
import("stdfaust.lib");
Q = hslider("Q",1,0.5,10,0.01);
normFreq = hslider("freq",0.5,0,1,0.001):si.smoo;
process = _ : ve.oberheim(normFreq,Q);
|
3d18b0543beaba4f90729f9026c584761887a658575d39d3605a83f086cd98ff | grz0zrg/fas | pulsewave.dsp | // example of a stereo pulse wave with independant duty cycle L/R control
import("stdfaust.lib");
freq = nentry("fs_freq",0,0,44100,0.01);
// blue channel
b = nentry("fs_b",0,0,1,0.01) : si.smoo;
// alpha channel
a = nentry("fs_a",0,0,1,0.01) : si.smoo;
process = os.pulsetrain(freq, b),os.pulsetrain(freq, a);
| https://raw.githubusercontent.com/grz0zrg/fas/31983056ca520f03c7b5bc430b0ba9d561587a20/bin/faust/generators/pulsewave.dsp | faust | example of a stereo pulse wave with independant duty cycle L/R control
blue channel
alpha channel |
import("stdfaust.lib");
freq = nentry("fs_freq",0,0,44100,0.01);
b = nentry("fs_b",0,0,1,0.01) : si.smoo;
a = nentry("fs_a",0,0,1,0.01) : si.smoo;
process = os.pulsetrain(freq, b),os.pulsetrain(freq, a);
|
15b190642910184f90dc6bb043b796d1906c5d92b9ac54c57977bc35111324d7 | LSSN/2020-01-25-dsp-4a-annapaolabusio | asdad.dsp |
import("stdfaust.lib");
gain= vslider("gain", 0, 0, 1, 0.1 );
process = no.noise : fi.lowpass (4,6000) : fi.fi.highpass (4,6000);
// i numeri sono il valore iniziale, valore minimo valore minimo valore massimo e step incrementale (la precisione di un passaggio da un valore al'altro) il valore iniziale può essere un... | https://raw.githubusercontent.com/LSSN/2020-01-25-dsp-4a-annapaolabusio/d1381db691b6619fa639f7e73642dc3c6d0a28f3/asdad.dsp | faust | i numeri sono il valore iniziale, valore minimo valore minimo valore massimo e step incrementale (la precisione di un passaggio da un valore al'altro) il valore iniziale può essere un numero qualsiasi tra il valore minimo e il valore massimo
lo spectroscopio ci mostra il contenuto del suon nel dominio della frequenz... |
import("stdfaust.lib");
gain= vslider("gain", 0, 0, 1, 0.1 );
process = no.noise : fi.lowpass (4,6000) : fi.fi.highpass (4,6000);
|
57798984b0f46f5e663777f8db0f97f668d004fb9b4f942e0369df474303d085 | chernenko-victor/csound_edu | rnd_uniform_shift.dsp | import("basics.lib");
import("stdfaust.lib");
import("noises.lib");
min_val = hslider("min_val",0.5,0,100,0.01);
max_val = hslider("max_val",2,0,100,0.01);
ACoeff = (max_val-min_val)/2;
BCoeff = (min_val+max_val)/2;
process = ACoeff*no.noise+BCoeff : _;
| https://raw.githubusercontent.com/chernenko-victor/csound_edu/164092906ca1eb4c5b083937badd523bcdf7c9ca/lsn7/rnd_uniform_shift.dsp | faust | import("basics.lib");
import("stdfaust.lib");
import("noises.lib");
min_val = hslider("min_val",0.5,0,100,0.01);
max_val = hslider("max_val",2,0,100,0.01);
ACoeff = (max_val-min_val)/2;
BCoeff = (min_val+max_val)/2;
process = ACoeff*no.noise+BCoeff : _;
| |
894eaf240e2b9ec888da390669adb8f4af03e85259265e708740ba8c5a07a381 | jgelfman/Dataflow-Based-FPGA-Program-Synthesis-Capstone | plus1.dsp | import("stdfaust.lib");
process = +(1);
| https://raw.githubusercontent.com/jgelfman/Dataflow-Based-FPGA-Program-Synthesis-Capstone/260340949c8b0f81468825bf7ca68b9060d220a3/Dataflow_Graphs/plus1/plus1.dsp | faust | import("stdfaust.lib");
process = +(1);
| |
598f24d01080a633c144db7b540d5c1613fa7f7f7250a00bf532d444c7b0b368 | LSSN/2019-05-25-campionamento-camillacongiu | divide.dsp | import("stdfaust.lib");
process= _ <: _/1,_/2,_/3,_/4,_/5,_/6,_/7,_/8,_/9,_/10,_/11,_/12,_/13,_/14,_/15,_/16;
// gli operatori di segnale gestiscono il flusso dei segnali in entrata e in uscita
// divide (<:) la copia di caratteri crea l'operatore di segnale divide
// divide replica il segnale in entrata N volte dove... | https://raw.githubusercontent.com/LSSN/2019-05-25-campionamento-camillacongiu/77e86369a425e8c51bf9010ebfd88711173da1a8/divide.dsp | faust | gli operatori di segnale gestiscono il flusso dei segnali in entrata e in uscita
divide (<:) la copia di caratteri crea l'operatore di segnale divide
divide replica il segnale in entrata N volte dove N è un numero di segnali definito dal programmatore
scrivi un programma che abbia una sola entrata replicata in sed... | import("stdfaust.lib");
process= _ <: _/1,_/2,_/3,_/4,_/5,_/6,_/7,_/8,_/9,_/10,_/11,_/12,_/13,_/14,_/15,_/16;
|
17796631b484e5e0e641dcbacda3c5d11cdec4dea45bed6a84730db98e79707e | rcadiz/web-audiographs | instrument.dsp | // Simple Organ
import("stdfaust.lib");
// Data series parameters
freq1 = hslider("freq1[unit:Hz]", 0, 100, 800, 1); // series1 frequency
freq2 = hslider("freq2[unit:Hz]", 0, 100, 800, 1); // series2 frequency
// Timbre parameters
//gate = button("gate");
volume = hslider("volume", 1, 0, 1, 0.1);
reverb ... | https://raw.githubusercontent.com/rcadiz/web-audiographs/25d6d0eebdc1fc343bb8184352c4cff9ea52ceca/instrument.dsp | faust | Simple Organ
Data series parameters
series1 frequency
series2 frequency
Timbre parameters
gate = button("gate");
Frequency dependent variables
Envelop parameters (based on envelop_duration)
TODO: change this to a formula on freqs
Handle mono vs. stereo according to selected frequencies
mono
mono
stereo... | import("stdfaust.lib");
volume = hslider("volume", 1, 0, 1, 0.1);
reverb = hslider("reverb", 1, 0, 1, 0.1);
brightness = hslider("brightness", 1, 0, 1, 0.1);
is_discrete = hslider("is_discrete", 0, 0, 1, 1);
type_1 = hslider("type_1", 1, 1, 3, 1);
type_2 = hslider("type_2", 1, 1, 3, 1);
gate(0) ... |
fba022b2322ec3319beda83cd370f0375be102dbf9395cf52588114fdc371e76 | kretopi/pdToFaust | counter.dsp | declare name "counter";
declare author "Piotr Goj";
import("stdfaust.lib");
// button
bang = button("bang") : ba.impulsify;
// list midi notes
notes = (60, 62, 64, 65, 67, 69, 71, 72);
// count from 0 to 7
counter = _~+(bang) : ma.modulo(_, 8);
// take from list
playNotes = ba.listInterp(notes, counter);
// conv... | https://raw.githubusercontent.com/kretopi/pdToFaust/5cd56818f1dce9383362a6f5057dbbe818e28c74/examples/counter/counter.dsp | faust | button
list midi notes
count from 0 to 7
take from list
convert midi to frequency and play sinwave | declare name "counter";
declare author "Piotr Goj";
import("stdfaust.lib");
bang = button("bang") : ba.impulsify;
notes = (60, 62, 64, 65, 67, 69, 71, 72);
counter = _~+(bang) : ma.modulo(_, 8);
playNotes = ba.listInterp(notes, counter);
process = playNotes : ba.midikey2hz : os.osc <: _, _; |
3bcea5d4f156ac5da83bdb0ff3052f197bf002e87848dcf8527570d121fd0be3 | JaoRamos/teensy-templates | SierraTeensy.dsp | import("stdfaust.lib");
frec_in = hgroup("MIDI", nentry("freq", 220, 20, 5000, 0.001));
gain_in = hgroup("MIDI", nentry("gain", 0.0, 0.0, 1.0, 0.001));
gate_in = hgroup("MIDI", nentry("gate", 0.0, 0.0, 1.0, 1.0));
envolvente = en.adsr(0.05, 0.01, 0.8, 0.025, gate_in);
sierra(f) = os.sawtooth(f)*gain_in*envolvente;
s... | https://raw.githubusercontent.com/JaoRamos/teensy-templates/e49110bb181d573e5e309c356a45b821101bffdc/midi_faust/SierraTeensy.dsp | faust | import("stdfaust.lib");
frec_in = hgroup("MIDI", nentry("freq", 220, 20, 5000, 0.001));
gain_in = hgroup("MIDI", nentry("gain", 0.0, 0.0, 1.0, 0.001));
gate_in = hgroup("MIDI", nentry("gate", 0.0, 0.0, 1.0, 1.0));
envolvente = en.adsr(0.05, 0.01, 0.8, 0.025, gate_in);
sierra(f) = os.sawtooth(f)*gain_in*envolvente;
s... | |
230a02baff9fea51e2a454d961ec29675092b2559f26141208028bf750e9d6a7 | angelamurtas/Programmazione- | Lezione1.dsp | import("stdfaust.lib");
process = +
//ilcommento è una parte di testo che viene ingnorata dal compilatore
// il compilatore è un programma che legge il codice scritto per ricavarne un ogetto
| https://raw.githubusercontent.com/angelamurtas/Programmazione-/bf8cf329460acf7334c7c4c11953ddcdf6d7e612/Lezione1.dsp | faust | ilcommento è una parte di testo che viene ingnorata dal compilatore
il compilatore è un programma che legge il codice scritto per ricavarne un ogetto | import("stdfaust.lib");
process = +
|
9aebf2548ad6d5390ea43be00c4afe0c0e73f7403b50067ba08fe789576fb0eb | eh2k/squares-and-circles | rev_dattorro.dsp | //faust ./rev_dattorro.dsp -cn rev_dattorro > ./rev_dattorro.hxx
import("stdfaust.lib");
dw = hslider("[0]D/W",0.5,0,1,0.0001):si.smoo;
decay = hslider("[1]Decay",0.5,0,1,0.0001):si.smoo;
damping = hslider("[2]Damp",0.5,0,1,0.0001):si.smoo;
bw = hslider("[3]BW",0.5,0,1,0.0001):si.smoo;
diffd= hslider("[4]DDiff",0.5,0... | https://raw.githubusercontent.com/eh2k/squares-and-circles/15970d811ef4a253ded0e55c36b08a67fd821a43/lib/faust/rev_dattorro.dsp | faust | faust ./rev_dattorro.dsp -cn rev_dattorro > ./rev_dattorro.hxx |
import("stdfaust.lib");
dw = hslider("[0]D/W",0.5,0,1,0.0001):si.smoo;
decay = hslider("[1]Decay",0.5,0,1,0.0001):si.smoo;
damping = hslider("[2]Damp",0.5,0,1,0.0001):si.smoo;
bw = hslider("[3]BW",0.5,0,1,0.0001):si.smoo;
diffd= hslider("[4]DDiff",0.5,0.01,0.99,0.0001):si.smoo;
diffi = hslider("[5]IDiff",0.5,0.01,0.9... |
a47443892440b89d28fbcd16e9749122710e2d408c2366a2549f483617d1efa6 | grz0zrg/fas | oberheim_lpf.dsp | declare name "oberheimLPF";
declare description "Demonstration of the Oberheim Low-Pass Filter";
declare author "Eric Tarr";
import("stdfaust.lib");
Q = nentry("fs_p0",1,0.5,10,0.01);
normFreq = nentry("fs_p1",0.5,0,1,0.001) : si.smoo;
process = ve.oberheimLPF(normFreq,Q),ve.oberheimLPF(normFreq,Q);
| https://raw.githubusercontent.com/grz0zrg/fas/31983056ca520f03c7b5bc430b0ba9d561587a20/bin/faust/effects/oberheim_lpf.dsp | faust | declare name "oberheimLPF";
declare description "Demonstration of the Oberheim Low-Pass Filter";
declare author "Eric Tarr";
import("stdfaust.lib");
Q = nentry("fs_p0",1,0.5,10,0.01);
normFreq = nentry("fs_p1",0.5,0,1,0.001) : si.smoo;
process = ve.oberheimLPF(normFreq,Q),ve.oberheimLPF(normFreq,Q);
| |
f42e0f593c319a48549913dfbd63075b42b35232033e69233bb2652d43cbf736 | nickgang/AFDN-reverb | hoaRotate.dsp | declare name "rotateFirst";
declare version "0.0";
declare author "Nick Gang";
declare description "A first order ambisonic rotation matrix";
import("stdfaust.lib");
import("AFDN.lib");
process = hoaRotate(3,ma.PI/2);
| https://raw.githubusercontent.com/nickgang/AFDN-reverb/48224a4de72617adef0c36ceec0814af611f2582/Source/Faust/hoaRotate.dsp | faust | declare name "rotateFirst";
declare version "0.0";
declare author "Nick Gang";
declare description "A first order ambisonic rotation matrix";
import("stdfaust.lib");
import("AFDN.lib");
process = hoaRotate(3,ma.PI/2);
| |
a216d6afe878a4d8769bd6946ae2c7a2c55bd822bdc453e8862a460ecb80cc2e | rasmusnuko/FaustCode | onepole.dsp | import("stdfaust.lib");
one_poll(a1) = _ * (1-a1) : A~B
with{
A = +;
B = _ * a1;
};
process = no.noise : one_poll(0.999);
| https://raw.githubusercontent.com/rasmusnuko/FaustCode/f58d7a5d35d28a644e73903ab530fcdce314dfd6/onepole.dsp | faust | import("stdfaust.lib");
one_poll(a1) = _ * (1-a1) : A~B
with{
A = +;
B = _ * a1;
};
process = no.noise : one_poll(0.999);
| |
d657b51665e5aa36060a954ea917682d8c2284bf9a7979b40a1f39aeada5a24b | micbuffa/stageQuentin | brass.dsp | declare name "Brass";
declare description "Simple brass instrument physical model with physical parameters.";
declare license "MIT";
declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME";
import("stdfaust.lib");
process = pm.brass_ui <: _,_;
| https://raw.githubusercontent.com/micbuffa/stageQuentin/a9916d4a45e1d140a6a17688227b855ee1fa9ca7/brass/brass.dsp | faust | declare name "Brass";
declare description "Simple brass instrument physical model with physical parameters.";
declare license "MIT";
declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME";
import("stdfaust.lib");
process = pm.brass_ui <: _,_;
| |
126417402faf3ffb0479b5771182f00a61a5c60bd00cbb11ed3d87a111cc1708 | JoaoSvidzinski/HermesV2 | flanger7B.dsp | import("stdfaust.lib");
//flfreq = vslider("h:flanger/flfreq", 0.01, 0.01, 20, 0.01) : si.smoo;
//fldepth = vslider("h:flanger/fldepth", 500, 1, 100, 0.01): si.smoo;
floffset = vslider("h:flanger/floffset", 5, 2, 100, 0.01): si.smoo;
//*(ma.SR / 1000.0)
flanger(index) = par(i,index, de.fdelay(1048576, (os.osci(vsli... | https://raw.githubusercontent.com/JoaoSvidzinski/HermesV2/a96f9cd288d5cb68be2f5bb5788d5869008d8cef/faust/flanger7B.dsp | faust | flfreq = vslider("h:flanger/flfreq", 0.01, 0.01, 20, 0.01) : si.smoo;
fldepth = vslider("h:flanger/fldepth", 500, 1, 100, 0.01): si.smoo;
*(ma.SR / 1000.0) | import("stdfaust.lib");
floffset = vslider("h:flanger/floffset", 5, 2, 100, 0.01): si.smoo;
flanger(index) = par(i,index, de.fdelay(1048576, (os.osci(vslider("flfreq%i", 0.05, 0.1, 10, 0.01) : si.smoo) : +(1) : *(0.5) : *(vslider("fldepth%i", 500, 1, 3000, 0.01): si.smoo) : +(floffset))*(ma.SR / 1000.0)));
proces... |
62aa1b5397bbfdc27a7132aa3f9454d89a65846e789fb8b304ce6fa9af7930ec | ljwall/er-301-units | FDelaylti.dsp | import("stdfaust.lib");
// Name the ins and outs of the `process` function for use in the er-301 object
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
// take 8-9% cpu for 5 of these without -vec -vs 4
// take 7-8% cpu for 5 of these with -vec -vs 4
process = de.fdelaylti(2, 1000);
| https://raw.githubusercontent.com/ljwall/er-301-units/2d23ab3aa564f50b3f044e76f2f20067ff67d12c/faust-poc/dsp/FDelaylti.dsp | faust | Name the ins and outs of the `process` function for use in the er-301 object
take 8-9% cpu for 5 of these without -vec -vs 4
take 7-8% cpu for 5 of these with -vec -vs 4 | import("stdfaust.lib");
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
process = de.fdelaylti(2, 1000);
|
7a585934cd6d7f2c9d976e453d95ce358da02845d83b11048b5e471025a127aa | ljwall/er-301-units | FDelayltv.dsp | import("stdfaust.lib");
// Name the ins and outs of the `process` function for use in the er-301 object
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
// 19% CPU for 10 of these with -vec -vs 4
// 16% CPU for 10 of these without -vec -vs 4
process = de.fdelayltv(2, 1000);
| https://raw.githubusercontent.com/ljwall/er-301-units/2d23ab3aa564f50b3f044e76f2f20067ff67d12c/faust-poc/dsp/FDelayltv.dsp | faust | Name the ins and outs of the `process` function for use in the er-301 object
19% CPU for 10 of these with -vec -vs 4
16% CPU for 10 of these without -vec -vs 4 | import("stdfaust.lib");
declare er301_in1 "Length";
declare er301_in2 "In";
declare er301_out1 "Out";
process = de.fdelayltv(2, 1000);
|
a173c1aca7a561b99b49f54c0fa3a0c747c95cd6c67a5d6b168891e6793e238f | rasmusnuko/FaustCode | ringmod.dsp | import("stdfaust.lib");
am(index, freq) = _*mod*(1-index)
with{
mod = os.osc(freq)*0.5 + 0.5;
};
process = am(0, 500);
| https://raw.githubusercontent.com/rasmusnuko/FaustCode/f58d7a5d35d28a644e73903ab530fcdce314dfd6/ringmod.dsp | faust | import("stdfaust.lib");
am(index, freq) = _*mod*(1-index)
with{
mod = os.osc(freq)*0.5 + 0.5;
};
process = am(0, 500);
| |
7cee470bd37205783d9635edaf6b3d79f8e88d1192992f79033e62066281d3ef | italicsjenga/saturator-faust | FaustEffect.dsp | import("stdfaust.lib");
import("aanl.lib");
import("maths.lib");
import("basics.lib");
process = driver : wrapper : softclip : aa.hardclip2 : trimmer;
driver(x) = x * drive * squeeze;
trimmer(x) = x * (1 / squeeze);
wrapper(x) = (clipper(x) * fadeamt) + (x * (1 - fadeamt));
clipper(x) = aa.arctan(clipamt * ... | https://raw.githubusercontent.com/italicsjenga/saturator-faust/6a096230227d1acb12756e798a993bbd5e6a14f0/FaustEffect.dsp | faust | trim = db2linear((nentry("trim", 0, 0, 1, 0.01) * 20) - 20);
| import("stdfaust.lib");
import("aanl.lib");
import("maths.lib");
import("basics.lib");
process = driver : wrapper : softclip : aa.hardclip2 : trimmer;
driver(x) = x * drive * squeeze;
trimmer(x) = x * (1 / squeeze);
wrapper(x) = (clipper(x) * fadeamt) + (x * (1 - fadeamt));
clipper(x) = aa.arctan(clipamt * ... |
8aebbcc4ed83d75e6ba62ca7a7849fa48499477c975450bb269571ac46aced62 | jpcima/string-machine | StringFiltersHighshelf.dsp | import("stdfaust.lib");
msp = library("maxmsp.lib");
process(x) = msp.highShelf(x, cutoff, gain, 1./sqrt(2.)) with {
cutoff = hslider("[1]Cutoff [unit:Hz] [scale:log] [symbol:cutoff]", 1000., 10., 10000., 1.);
gain = hslider("[2]Gain [unit:dB] [symbol:gain]", 3., 1., 10., 0.1);
};
| https://raw.githubusercontent.com/jpcima/string-machine/188082dd0beb9a3c341035604841c53675fe66c4/sources/dsp/StringFiltersHighshelf.dsp | faust | import("stdfaust.lib");
msp = library("maxmsp.lib");
process(x) = msp.highShelf(x, cutoff, gain, 1./sqrt(2.)) with {
cutoff = hslider("[1]Cutoff [unit:Hz] [scale:log] [symbol:cutoff]", 1000., 10., 10000., 1.);
gain = hslider("[2]Gain [unit:dB] [symbol:gain]", 3., 1., 10., 0.1);
};
| |
95da4daa49c31c4a042d30b09a18725e8d610705add23b761c024730caa4f169 | Marquets/MusicPerceptionProject | organ.dsp | // Simple Organ
import("stdfaust.lib");
// Midi interface
midigate = button ("gate"); // MIDI keyon-keyoff
midifreq = hslider("freq[unit:Hz]", 440, 20, 20000, 1); // MIDI keyon key
midigain = hslider("gain", 0.5, 0, 10, 0.01); // MIDI keyon velocity
process = voice(midigate, mid... | https://raw.githubusercontent.com/Marquets/MusicPerceptionProject/4728c8c476cf6d39e80a24e0ae5d9433dda22efa/webaudio/organ.dsp | faust | Simple Organ
Midi interface
MIDI keyon-keyoff
MIDI keyon key
MIDI keyon velocity
Implementation | import("stdfaust.lib");
process = voice(midigate, midigain, midifreq) * hslider("volume", 0.5, 0, 1, 0.01);
phasor(f) = f/ma.SR : (+,1.0:fmod) ~ _ ;
osc(f) = phasor(f) * 6.28318530718 : sin;
timbre(freq) = osc(freq) + 0.5 * osc(2.0*freq) + 0.25 * osc(3.0*freq);
envelop(gate, gain) = gate * gain : smoot... |
448922f94e9da10680259edbd45cc54f7c92dd06c63cba59dbd2edec3f17b456 | matthiasmeissen/sound-generator | engine_01_220304.dsp | import("stdfaust.lib");
freq = hslider("freq",440,20,20000,0.01);
gain = hslider("gain",0.1,0,1,0.01);
osc1 = os.oscsin(freq);
process = osc1 * gain;
| https://raw.githubusercontent.com/matthiasmeissen/sound-generator/d46dba338a7397de3f879b9c8490189bb08f5564/engines/engine_01_220304.dsp | faust | import("stdfaust.lib");
freq = hslider("freq",440,20,20000,0.01);
gain = hslider("gain",0.1,0,1,0.01);
osc1 = os.oscsin(freq);
process = osc1 * gain;
| |
ce4eba077f3ac9e40903e43f63a2dbb27b85bc2f4061326acfb6ce12d3cfb9e3 | quentinplet/Arpeggiator | arpeggiator_impulsion.dsp | import("stdfaust.lib");
at = hslider("v:env/attack", 0.1, 0.001, 5, 0.001);
rel = hslider("v:env/release", 0.5, 0.001, 10, 0.001);
gain = 0.5;
t = button("v:env/bang");
envelop = en.ar(at,rel,t);
impulsion = (os.osc(440)) : * (envelop) *(gain);
// delay + feedback
n = 524288;
dur = hslider("h:delay/dur", ... | https://raw.githubusercontent.com/quentinplet/Arpeggiator/ef4213c10d0e63d584a3ff1ec06d412050ccf35c/plugin_Wasm/arpeggiator_impulsion.dsp | faust | delay + feedback
transposition
panoramisation
| import("stdfaust.lib");
at = hslider("v:env/attack", 0.1, 0.001, 5, 0.001);
rel = hslider("v:env/release", 0.5, 0.001, 10, 0.001);
gain = 0.5;
t = button("v:env/bang");
envelop = en.ar(at,rel,t);
impulsion = (os.osc(440)) : * (envelop) *(gain);
n = 524288;
dur = hslider("h:delay/dur", 500, 0, 2000, 1);
fd... |
bf0df4993367a11e64ed05942d55a395598b472a22d384cb97bef88c1198d460 | angelamurtas/Programmazione- | metronomo.dsp | import("stdfaust.lib");
bpm2samp(t)= (60*ma.SR)/t;
//frek=vslider ("frequenza[style:knob]",1000,1000,5000,1.0);
beat= bpm2samp(vslider("tempo[style:knob]", 60,32,240,0.1));
process=ba.pulsen(1,beat) : fi.lowpass(128,1000);
| https://raw.githubusercontent.com/angelamurtas/Programmazione-/bf8cf329460acf7334c7c4c11953ddcdf6d7e612/metronomo.dsp | faust | frek=vslider ("frequenza[style:knob]",1000,1000,5000,1.0); | import("stdfaust.lib");
bpm2samp(t)= (60*ma.SR)/t;
beat= bpm2samp(vslider("tempo[style:knob]", 60,32,240,0.1));
process=ba.pulsen(1,beat) : fi.lowpass(128,1000);
|
cf11244b41136c46e287e7edc90506f83644a1063300aaa18b8f00511894cff5 | oshibka404/baraban | main.dsp | declare author "Andrey Ozornin";
import("stdfaust.lib");
kick_group(el) = hgroup("[0]kick", el);
kick_trigger = button("[0]gate");
kick_freq = vslider("[1]pitch[scale:log]", 55, 20, 200, 1);
kick_click = vslider("[2]click[scale:log]", 0.1, 0.005, 1, 0.005);
kick_attack = vslider("[3]attack[scale:log]", 0.1, 0.005, 0.... | https://raw.githubusercontent.com/oshibka404/baraban/fea440618417619f054bfccb5e1b27665a1a5a8c/DSP/main.dsp | faust | declare author "Andrey Ozornin";
import("stdfaust.lib");
kick_group(el) = hgroup("[0]kick", el);
kick_trigger = button("[0]gate");
kick_freq = vslider("[1]pitch[scale:log]", 55, 20, 200, 1);
kick_click = vslider("[2]click[scale:log]", 0.1, 0.005, 1, 0.005);
kick_attack = vslider("[3]attack[scale:log]", 0.1, 0.005, 0.... | |
bde1bb2c39f6c6c1a4bc5677639a7b94ff0b2821d3181569b5f67afe96e46ca2 | orlarey/wahoo | wahoo.dsp | import("stdfaust.lib");
declare name "WAHOO";
oscFreq = vslider("h:WAAHOO/h:OSC/freq[style:knob][unit:Hz]",50,30,500,0.01);
oscGain = vslider("h:WAAHOO/h:OSC/gain[style:knob]",0.5,0,1,0.01);
lfoFreq = vslider("h:WAAHOO/h:LFO/freq[style:knob][unit:Hz]",0.5,0.01,50,0.01);
lfoRange = vslider("h:WAAHOO/h:LFO/range[style:kn... | https://raw.githubusercontent.com/orlarey/wahoo/6a0bf5ef82602639bb9bc3f63c492610ceeb3add/examples/wahoo.dsp | faust | import("stdfaust.lib");
declare name "WAHOO";
oscFreq = vslider("h:WAAHOO/h:OSC/freq[style:knob][unit:Hz]",50,30,500,0.01);
oscGain = vslider("h:WAAHOO/h:OSC/gain[style:knob]",0.5,0,1,0.01);
lfoFreq = vslider("h:WAAHOO/h:LFO/freq[style:knob][unit:Hz]",0.5,0.01,50,0.01);
lfoRange = vslider("h:WAAHOO/h:LFO/range[style:kn... | |
fcd2618203d240dc76b0268613c4cd016fb6912a345352044d1d527a1d834481 | rasmusnuko/FaustCode | panner.dsp | import("stdfaust.lib");
// Sqrt to perceptionaly linearize 0 - 1 gain.
pan = sqrt(hslider("LEFT / RIGHT", 0.5, 0, 1, 0.01)) : si.smoo ;
process = _ <: _ * (1-pan), _ * (pan);
| https://raw.githubusercontent.com/rasmusnuko/FaustCode/f58d7a5d35d28a644e73903ab530fcdce314dfd6/panner.dsp | faust | Sqrt to perceptionaly linearize 0 - 1 gain. | import("stdfaust.lib");
pan = sqrt(hslider("LEFT / RIGHT", 0.5, 0, 1, 0.01)) : si.smoo ;
process = _ <: _ * (1-pan), _ * (pan);
|
7bc4218c4cce4b026efa9170f04488cec8bec39f79b3363c3fa94f01c2d2c840 | s-e-a-m/faust-libraries | tone.dsp | import("stdfaust.lib");
process = +(1)~;
//process = +(0.01)~ma.decimal;
// grid on
// xlim ([0 1000])
// decpart(n) = n - (int(n'));
// process = +(0.001)~decpart;
// import("stdfaust.lib");
// decpart(n) = n - (floor(n));
// step = 0.1;
// process = +(step)~decpart : -(step);
| https://raw.githubusercontent.com/s-e-a-m/faust-libraries/9120cccb9335f42407062eb4bf149188d8018b07/plots/dsp/csound/tone.dsp | faust | process = +(0.01)~ma.decimal;
grid on
xlim ([0 1000])
decpart(n) = n - (int(n'));
process = +(0.001)~decpart;
import("stdfaust.lib");
decpart(n) = n - (floor(n));
step = 0.1;
process = +(step)~decpart : -(step); | import("stdfaust.lib");
process = +(1)~;
|
f96d45853f6d81025e56dce4068f0ecd72f8d86a5a9d127302cba2e0aaf0f41f | catfact/softcut | LowpassBrickwall.dsp | declare name "BrickwallLowpass";
import("stdfaust.lib");
process = fi.lowpass(6, 16000); | https://raw.githubusercontent.com/catfact/softcut/5fc49c02eb5036d06065ade85f1ccf4861b1a539/faust/LowpassBrickwall.dsp | faust | declare name "BrickwallLowpass";
import("stdfaust.lib");
process = fi.lowpass(6, 16000); | |
1a63160b8fc8abb1833ca131ea2f18757352c3e33513989445513e92923441a1 | pingdynasty/MyPatches | entente.dsp | declare name "L'Entente Cordiale";
declare message "La Fameuse\nEntente Cordiale";
declare description "French and English church bells in unison.";
import("stdfaust.lib");
englishBell(strikePosition,strikeCutoff,strikeSharpness,gain,trigger) =
pm.strikeModel(10,strikeCutoff,strikeSharpness,gain,trigger) :
pm.eng... | https://raw.githubusercontent.com/pingdynasty/MyPatches/ee20cdb03af54d42984f734fdfb2898d4aecd7ad/entente.dsp | faust | modes >= 46 doesn't work on Genius
process = pm.frenchBell(pos : ba.sAndH(ba.impulsify(lgate)),cutoff,sharp,gain,lgate),
englishBell(pos : ba.sAndH(ba.impulsify(rgate)),cutoff,sharp,gain,rgate) | declare name "L'Entente Cordiale";
declare message "La Fameuse\nEntente Cordiale";
declare description "French and English church bells in unison.";
import("stdfaust.lib");
englishBell(strikePosition,strikeCutoff,strikeSharpness,gain,trigger) =
pm.strikeModel(10,strikeCutoff,strikeSharpness,gain,trigger) :
process... |
88c0c4db66b7a539d22908ff19901b5f652a267194d5d4dd4d155c01ac1e566e | quentinplet/Example-Web-Audio-Master. | flanger1.dsp | import("stdfaust.lib");
//4 contrôles pour le flanger
rate = hslider("rate", 0.001, 0.001, 500, 0.001);
depth = hslider("depth", 0.001, 0.001, 5000, 0.001);
shift = hslider("shift", 0, 0, 5000, 1);
fdbk = hslider("fdbk", 0, 0, 1, 0.01);
//
ndel = 524288;
//durée du retard variable en millisecondes
retardvariable = os.o... | https://raw.githubusercontent.com/quentinplet/Example-Web-Audio-Master./b531edc365bedc7af4ae4411168584fd46f543a4/Codes%20Flanger/Faust_test_flanger/test_flanger_Faust_Web_Audio/flanger1.dsp | faust | 4 contrôles pour le flanger
durée du retard variable en millisecondes
conversion de retardvariable en nombre d'échantillons
process = _ <: (_, de.fdelay(ndel, nsamp)) : (_, *(fdbk)) : ((_ <:(_,_)), _) : (_, +); | import("stdfaust.lib");
rate = hslider("rate", 0.001, 0.001, 500, 0.001);
depth = hslider("depth", 0.001, 0.001, 5000, 0.001);
shift = hslider("shift", 0, 0, 5000, 1);
fdbk = hslider("fdbk", 0, 0, 1, 0.01);
ndel = 524288;
retardvariable = os.osccos(rate) : +(1) : *(0.5) : *(depth) : +(shift);
nsamp = retardvariable / 1... |
032873d61df19cdf875e01c6a4d9c65a9038172675d05b1be1b5d1b6b7a53d3e | magnetophon/faustOscillators | example.dsp | declare author "Bart Brouns";
declare license "GPLv3";
declare name "osc-example";
import("stdfaust.lib");
process(extFMSignal) = sineSquarePulse(extFMSignal)~_<:(_,_);
sineSquarePulse(extFMSignal,FB) =
it.interpolate_linear(sinSquare,sine,square):clip
with {
sine = os.osc(f);
square = os.pulsetrain(f,width);
... | https://raw.githubusercontent.com/magnetophon/faustOscillators/6ac2ac572f8a3dc78cc6cb0074d60cce10845300/example.dsp | faust | declare author "Bart Brouns";
declare license "GPLv3";
declare name "osc-example";
import("stdfaust.lib");
process(extFMSignal) = sineSquarePulse(extFMSignal)~_<:(_,_);
sineSquarePulse(extFMSignal,FB) =
it.interpolate_linear(sinSquare,sine,square):clip
with {
sine = os.osc(f);
square = os.pulsetrain(f,width);
... | |
dd675ef24fca606889b139ee8b6f6c0d16183f91c09c97f12b38faa9e7b48ec0 | grammaton/metm | 0702-senopi2.dsp | import("stdfaust.lib");
process = sin(ma.PI/2);
| https://raw.githubusercontent.com/grammaton/metm/e3ca76fc8b8bbb10a0eb77a7056a6056a5c7feda/CAPITOLI/0700/CODES/0702-senopi2.dsp | faust | import("stdfaust.lib");
process = sin(ma.PI/2);
| |
53336e2c9a6c424d00c3b0f11817984ade58dbe0498d6ddbf158b33b02944aad | daniel-kelley/daniel-kelley.github.io | osc.dsp | declare name "osc";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2009";
declare options "[osc:on]";
//-----------------------------------------------
// Sinusoidal Oscillator
//-----------------------------------------------
import("stdfaust.lib")... | https://raw.githubusercontent.com/daniel-kelley/daniel-kelley.github.io/f1c124b4f7b02366918141f33ab072ce76262735/faust/osc/osc.dsp | faust | -----------------------------------------------
Sinusoidal Oscillator
----------------------------------------------- | declare name "osc";
declare version "1.0";
declare author "Grame";
declare license "BSD";
declare copyright "(c)GRAME 2009";
declare options "[osc:on]";
import("stdfaust.lib");
vol = hslider("volume [unit:dB]", -96, -96, 0, 0.1) : ba.db2linear : si.smoo ;
freq = hslider("freq [unit:Hz]", 1000, 2... |
a4bdadb2f4cf38339b28d6e549efe42f30bc8cfb9d61c6d062519dbfcff649e3 | ManosDim/waveguidesOnBela- | waveguide.dsp | import("stdfaust.lib");
period=ma.SR/(freq*2):si.smoo;
p0=period*p;
p1=period*(1-p);
interpDelay(maxDel,interp,del,t)=_<: de.fdelay4(maxDel,del0)*xfade,de.fdelay4(maxDel,del1)*(1-xfade):>_
with{
switch=t:ba.impulsify:+~%(2);
del0=del:ba.sAndH(1-switch);
del1=del:ba.sAndH(switch);
xfade=en... | https://raw.githubusercontent.com/ManosDim/waveguidesOnBela-/a8969ec860c154d8d3d28fa74f50a29f006e5dfe/waveguide.dsp | faust | state machine
INSIDE= de.fdelay4(1024,p1),de.fdelay4(1024,p1),_;
-0.99 sine inversion
for polyphony the trick is to have a linear interpolator p in the 1st delay line and a p-1 in the 2st delay line | import("stdfaust.lib");
period=ma.SR/(freq*2):si.smoo;
p0=period*p;
p1=period*(1-p);
interpDelay(maxDel,interp,del,t)=_<: de.fdelay4(maxDel,del0)*xfade,de.fdelay4(maxDel,del1)*(1-xfade):>_
with{
switch=t:ba.impulsify:+~%(2);
del0=del:ba.sAndH(1-switch);
del1=del:ba.sAndH(switch);
xfade=en... |
78b9c33d312a80e9e5702724a868648aa5f7a7bc4024f5826d343d7577e15b93 | sonejostudios/faustdrumseq | drumsequencer.dsp | // compile with: faust2jaqt -soundfile soundfiletest.dsp
// https://github.com/grame-cncm/faustlibraries/blob/41163d260be908778d638e1d0211626b8b22b7e7/soundfiles.lib
import("stdfaust.lib");
process = k, hh, sn :> _,_;
looplength = 16;
bpm = hslider("bpm",120,40,240,1)*2;
beat_seq = ba.beat(bpm) : ba.pulse_countup_l... | https://raw.githubusercontent.com/sonejostudios/faustdrumseq/60103f024bd98b8603efb04246a74b4e063523b7/drumsequencer.dsp | faust | compile with: faust2jaqt -soundfile soundfiletest.dsp
https://github.com/grame-cncm/faustlibraries/blob/41163d260be908778d638e1d0211626b8b22b7e7/soundfiles.lib
_*1 is speed
k = 0, playhead(1) : soundfile("label[url:k.wav]",1) : vol(k_vol);
hh = 0, playhead(2) : soundfile("label[url:hh.wav]",1) : vol(hh_vol);
sn = 0,... |
import("stdfaust.lib");
process = k, hh, sn :> _,_;
looplength = 16;
bpm = hslider("bpm",120,40,240,1)*2;
beat_seq = ba.beat(bpm) : ba.pulse_countup_loop(looplength-1,1) : hbargraph("seq",0,looplength-1);
trigger(x) = steps(x) : par(i,looplength, _<: (_>_@1) : _) :> 1-_ ;
steps(x) = hgroup("%x", par(i,looplength, c... |
934062b523afff2295dd446f6204f93f33b7293db1a9065a27d9c75edfb2c0c7 | gllmp/gcode | filters-eq.dsp | import("stdfaust.lib");
/*
declare name "equalizer";
import("stdfaust.lib");
peakeq (f) = hgroup("band %f", fi.peak_eq_cq(level,f,Q)
with {
level = vslider("level[unit:dB][style:knob]", 0, -70, 12, 1);
Q = vslider("Q[style:knob]", 1, 1, 100, 0.01);
});
process = no.noise : hgroup("Equalizer", s... | https://raw.githubusercontent.com/gllmp/gcode/35eef207fa7a08e0d5719582de0cdf5e423f7b8d/src/assets/software/src/filters-eq.dsp | faust |
declare name "equalizer";
import("stdfaust.lib");
peakeq (f) = hgroup("band %f", fi.peak_eq_cq(level,f,Q)
with {
level = vslider("level[unit:dB][style:knob]", 0, -70, 12, 1);
Q = vslider("Q[style:knob]", 1, 1, 100, 0.01);
});
process = no.noise : hgroup("Equalizer", seq(i, 5, peakeq(500+500*i))... | import("stdfaust.lib");
waveGenerator = hgroup("[0]Wave Generator",no.noise,os.triangle(freq),os.square(freq),os.sawtooth(freq) : ba.selectn(4,wave)) : _ <:_,_,_
with{
wave = nentry("[0]Waveform",3,0,3,1);
freq = hslider("[1]freq",440,50,2000,0.01);
};
filters = hgroup("[1]Filter", fi.resonlp(resFreq,q,1), fi.... |
7f75eaea628676eeb3d1b573b5cc6f29865c1b18f2435658bc6933cca7b7fe0c | rmichon/faustwebui | newUI0.dsp | import("stdfaust.lib");
// could change poisition parameters, for example make som elements bigger
// than others
declare UI "[
{'/synth/freq':[{'style':'hslider','width':'50%'}]},
{'/synth/gate':[{'style':'checkbox'}]},
{'/synth':[{'style':'hgroup'}]}
]";
// another option: replace the group by an interface iv... | https://raw.githubusercontent.com/rmichon/faustwebui/beefaa788c3d67201f30054213b09d516a4fa3dc/newUI/newUI0.dsp | faust | could change poisition parameters, for example make som elements bigger
than others
another option: replace the group by an interface ivolving multiple
parameters
or a full smartkeyb interface | import("stdfaust.lib");
declare UI "[
{'/synth/freq':[{'style':'hslider','width':'50%'}]},
{'/synth/gate':[{'style':'checkbox'}]},
{'/synth':[{'style':'hgroup'}]}
]";
declare UI "[
{'/synth':[{'style':'xy','x':'freq','y':'gain'}]}
]";
declare UI "[
{'/synth':[{'style':'smartkeyboard','Number of Keyboards':... |
026d454a5a2db9efb7ed50f5cae6174f4e08e8b7b72c0a13e19a49c5058a8533 | funkyfourier/spitback | faustpeakeq.dsp | import("stdfaust.lib");
freqMid = hslider("freqMid",2200,400,3500,0.1);
gainMid = hslider("gainMid",0,-48,48,0.1);
qMid = hslider("qMid",50,0,3000,0.1);
process = _ : fi.peak_eq(gainMid, freqMid, qMid) : _; | https://raw.githubusercontent.com/funkyfourier/spitback/c3b1831e2bd1ac9272652309d4fb3d2847f0a67b/externals/src/faustpeakeq/faustpeakeq.dsp | faust | import("stdfaust.lib");
freqMid = hslider("freqMid",2200,400,3500,0.1);
gainMid = hslider("gainMid",0,-48,48,0.1);
qMid = hslider("qMid",50,0,3000,0.1);
process = _ : fi.peak_eq(gainMid, freqMid, qMid) : _; |
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