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_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
f0088ef5204d29857fb109737b876170a8505ecf2731bbf02b8b378da3573811	Kutalia/react-webaudio-5150	kpp_tubeamp.dsp	/* * Copyright (C) 2018-2020 Oleg Kapitonov * * 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; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * -------------------------------------------------------------------------- / / * This plugin is the universal tube amplifier emulator * with tonestack, gain and volume(mastergain) knobs. * * Process chain: * * IN->preamp_convolver->drive_knob->preamp->tonestack-> <-----------------------------<----------------<--- * -->volume_knob->power_amp->cabsym_convolver->OUT * Distortion and tonestack parameters loaded * from .tapf profile file and manually set to nentries. Convolvers work outside this FAUST module. * Cabsym convolver may be bypassed. / declare name "kpp_tubeamp"; declare author "Oleg Kapitonov"; declare license "GPLv3"; declare version "1.2"; import("stdfaust.lib"); process = preamp_amp with { // Link parameters from .tapf profile file // and knob values with FAUST code. // Knob parameters copied from kpp_tubeamp.ttl drive = vslider("drive", 100, 0, 100, 0.01); volume = vslider("volume", 5, 0, 11, 0.001); mastergain = vslider("mastergain", 50, 0, 100, 0.01); // Bias signal before distortion amp_bias = nentry("amp_bias", 1, 0, 1, 0.001); // Threshold of distortion amp_Upor = nentry("amp_Upor", 1, 0, 10, 0.001); // Severity/softness of distortion amp_Kreg = nentry("amp_Kreg", 1, 0, 10, 0.01); // The same parameters for preamp preamp_bias = nentry("preamp_bias", 1, 0, 1, 0.01); preamp_Upor = nentry("preamp_Upor", 1, 0, 1, 0.01); preamp_Kreg = nentry("preamp_Kreg", 1, 0, 10, 0.01); tonestack_low = vslider("bass", 0, -10, 10, 0.0001); tonestack_middle = vslider("middle", 0, -10, 10, 0.0001); tonestack_high = vslider("treble", 0, -10, 10, 0.0001); tonestack_low_freq = nentry("tonestack_low_freq", 1, 0, 1000, 0.01); tonestack_middle_freq = nentry("tonestack_middle_freq", 1, 0, 1000, 0.01); tonestack_high_freq = nentry("tonestack_high_freq", 1, 0, 40000, 0.01); tonestack_low_band = nentry("tonestack_low_band", 1, 0, 1000, 0.01); tonestack_middle_band = nentry("tonestack_middle_band", 1, 0, 10000, 0.01); tonestack_high_band = nentry("tonestack_high_band", 1, 0, 40000, 0.01); // Gain before preamp preamp_level = nentry("preamp_level", 1, 0, 10, 0.01); // Gain before amp amp_level = nentry("amp_level", 1, 0, 10, 0.01); // Voltage Sag parameters sag_time = nentry("sag_time", 1, 0, 10, 0.01); sag_coeff = nentry("sag_coeff", 1, 0, 10, 0.01); // Output gain output_level = nentry("output_level", 1, 0, 10, 0.01); // Model of tube nonlinear distortion tube(Kreg,Upor,bias,cut) = main : +(bias) : max(cut) with { Ks(x) = 1/(max((x-Upor)(Kreg),0)+1); Ksplus(x) = Upor - xUpor; main(Uin) = (Uin * Ks(Uin) + Ksplus(Ks(Uin))); }; // Preamp - has 1 class A tube distortion (non symmetric) stage_preamp = fi.lowpass(1,11000) : tube(preamp_Kreg,preamp_Upor,preamp_bias,-preamp_Upor); stage_tonestack = fi.peak_eq(tonestack_low,tonestack_low_freq,tonestack_low_band) : fi.peak_eq(tonestack_middle,tonestack_middle_freq,tonestack_middle_band) : fi.peak_eq(tonestack_high,tonestack_high_freq,tonestack_high_band): fi.lowpass(1,11000); // Power Amp - has 1 class B tube distortion (symmetric) stage_amp = _<: _,(-1.0) : tube(amp_Kreg,amp_Upor,amp_bias,0), tube(amp_Kreg,amp_Upor,amp_bias,0) : - : fi.lowpass(1, 11000); // Part of the chain before Voltage Sag in power amp pre_sag = _,_ : + : fi.dcblocker : (ba.db2linear(drive * 0.4) - 1) : (preamp_level) : stage_preamp : fi.dcblocker :(amp_level) : (ba.db2linear(mastergain 0.4) - 1) : stage_tonestack; // All chain, pre-sag + power amp with Voltage Sag preamp_amp = pre_sag : (_,_ : (_<: (1.0/_),_),_ : _,* : _,stage_amp : ) ~ (_ <: _,_: : fi.lowpass(1,sag_time) : (sag_coeff) : max(1.0) : min(2.5)) : (volume) : *(output_level) : fi.dcblocker <: _,_; };	https://raw.githubusercontent.com/Kutalia/react-webaudio-5150/2a0e35435dbe22ad8dd26d3aa5925d0797b86b30/public/kpp_tubeamp.dsp	faust	* Copyright (C) 2018-2020 Oleg Kapitonov * * 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; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * -------------------------------------------------------------------------- * This plugin is the universal tube amplifier emulator * with tonestack, gain and volume(mastergain) knobs. * * Process chain: * * IN->preamp_convolver->drive_knob->preamp->tonestack-> <-----------------------------<----------------<--- * -->volume_knob->power_amp->cabsym_convolver->OUT * Distortion and tonestack parameters loaded * from .tapf profile file and manually set to nentries. Convolvers work outside this FAUST module. * Cabsym convolver may be bypassed. Link parameters from *.tapf profile file and knob values with FAUST code. Knob parameters copied from kpp_tubeamp.ttl Bias signal before distortion Threshold of distortion Severity/softness of distortion The same parameters for preamp Gain before preamp Gain before amp Voltage Sag parameters Output gain Model of tube nonlinear distortion Preamp - has 1 class A tube distortion (non symmetric) Power Amp - has 1 class B tube distortion (symmetric) Part of the chain before Voltage Sag in power amp All chain, pre-sag + power amp with Voltage Sag	declare name "kpp_tubeamp"; declare author "Oleg Kapitonov"; declare license "GPLv3"; declare version "1.2"; import("stdfaust.lib"); process = preamp_amp with { drive = vslider("drive", 100, 0, 100, 0.01); volume = vslider("volume", 5, 0, 11, 0.001); mastergain = vslider("mastergain", 50, 0, 100, 0.01); amp_bias = nentry("amp_bias", 1, 0, 1, 0.001); amp_Upor = nentry("amp_Upor", 1, 0, 10, 0.001); amp_Kreg = nentry("amp_Kreg", 1, 0, 10, 0.01); preamp_bias = nentry("preamp_bias", 1, 0, 1, 0.01); preamp_Upor = nentry("preamp_Upor", 1, 0, 1, 0.01); preamp_Kreg = nentry("preamp_Kreg", 1, 0, 10, 0.01); tonestack_low = vslider("bass", 0, -10, 10, 0.0001); tonestack_middle = vslider("middle", 0, -10, 10, 0.0001); tonestack_high = vslider("treble", 0, -10, 10, 0.0001); tonestack_low_freq = nentry("tonestack_low_freq", 1, 0, 1000, 0.01); tonestack_middle_freq = nentry("tonestack_middle_freq", 1, 0, 1000, 0.01); tonestack_high_freq = nentry("tonestack_high_freq", 1, 0, 40000, 0.01); tonestack_low_band = nentry("tonestack_low_band", 1, 0, 1000, 0.01); tonestack_middle_band = nentry("tonestack_middle_band", 1, 0, 10000, 0.01); tonestack_high_band = nentry("tonestack_high_band", 1, 0, 40000, 0.01); preamp_level = nentry("preamp_level", 1, 0, 10, 0.01); amp_level = nentry("amp_level", 1, 0, 10, 0.01); sag_time = nentry("sag_time", 1, 0, 10, 0.01); sag_coeff = nentry("sag_coeff", 1, 0, 10, 0.01); output_level = nentry("output_level", 1, 0, 10, 0.01); tube(Kreg,Upor,bias,cut) = main : +(bias) : max(cut) with { Ks(x) = 1/(max((x-Upor)(Kreg),0)+1); Ksplus(x) = Upor - xUpor; main(Uin) = (Uin * Ks(Uin) + Ksplus(Ks(Uin))); }; stage_preamp = fi.lowpass(1,11000) : tube(preamp_Kreg,preamp_Upor,preamp_bias,-preamp_Upor); stage_tonestack = fi.peak_eq(tonestack_low,tonestack_low_freq,tonestack_low_band) : fi.peak_eq(tonestack_middle,tonestack_middle_freq,tonestack_middle_band) : fi.peak_eq(tonestack_high,tonestack_high_freq,tonestack_high_band): fi.lowpass(1,11000); stage_amp = _<: _,(-1.0) : tube(amp_Kreg,amp_Upor,amp_bias,0), tube(amp_Kreg,amp_Upor,amp_bias,0) : - : fi.lowpass(1, 11000); pre_sag = _,_ : + : fi.dcblocker : (ba.db2linear(drive * 0.4) - 1) : (preamp_level) : stage_preamp : fi.dcblocker :(amp_level) : (ba.db2linear(mastergain 0.4) - 1) : stage_tonestack; preamp_amp = pre_sag : (_,_ : (_<: (1.0/_),_),_ : _,* : _,stage_amp : ) ~ (_ <: _,_: : fi.lowpass(1,sag_time) : (sag_coeff) : max(1.0) : min(2.5)) : (volume) : *(output_level) : fi.dcblocker <: _,_; };
1b2ab428858b098b8c89700ea9510c3f92f3aa3f7eaaba526734c00275a272ef	JuanSaudio/Blog	EnvComp.dsp	import("stdfaust.lib"); eGroup(x) = hgroup("Envelope Follower", x); inGroup(x) = eGroup(vgroup("[0]Input", x)); inGain = inGroup(hslider("[0]InGain[style:knob]",0,-20,0,1) : ba.db2linear : si.smoo); outGain = inGroup(hslider("[1]OutGain[style:knob]",-20,-20,0,1) : ba.db2linear : _ * outGate: si.smoo); outGate = checkbox("[2]Out Gate"); freq = inGroup(hslider("[3]Freq[scale:log][style:knob]",100,1,1000,1)); sigType = inGroup(nentry("[4]Signal[style:menu{'DC':0;'Osc':1;'Noise':2}]", 0, 0, 2, 1)); efGroup(x) = eGroup(vgroup("[1]Time Parameters", x)); att = efGroup(hslider("[0]Attack",10,1,200,1) / 1000); rel = efGroup(hslider("[1]Release",100,1,1000,10) / 1000); envType = efGroup(nentry("[2]EnvelopeFollower[style:menu{'Coupled':0;'Peak Detector':1;'Decoupled1':2;'Decoupled2':3;'Branched1':4;'Branched2':5;'PassThru':6}]", 0, 0, 6, 1)); trigger = (envo - envo') > 0 : _ -0.5 : de.delay(ba.sec2samp(0.9), ma.SR); envo = os.lf_pulsetrain(1/1, 1/5) + 1 : _ /2; xo = dc, sinusoid, noise : ba.selectn(3, sigType) with { dc = 1; sinusoid = os.hs_oscsin(freq, trigger); noise = no.noise; }; env = (inGain - outGain) * envo + outGain; x = xo * env; coupled = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (_ <: (1 - aA) * max(x - _, 0), aR * _ : +) ~ _; }; decoupled1 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (max(x, _ * aR) ~ _) : _ : si.smooth(aA); }; decoupled2 = an.amp_follower_ud(att, rel); peak = an.amp_follower(rel); branched1 = an.amp_follower_ar(att, rel); branched2 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y = _ <: (((> <: _, _),aA,aR:_, select2), _ : smoother) ~ _; smoother(isA, s) = (1.0 - s)(1-isA) : + ~ *(s); }; magdB = _ : ba.linear2db + 10 : _ / 10 : max(-1); outputFormatter(y) = x, magdB(x), y, magdB(y), 0, 0, 0, 0, 0, 0, trigger; process = x : abs <: coupled, peak, decoupled1, decoupled2, branched1, branched2, _ : ba.selectn(7, envType) : outputFormatter;	https://raw.githubusercontent.com/JuanSaudio/Blog/62ed00a8beccea4d6e6b8b3e69d0f65069038ad3/Compression/Faust/EnvComp.dsp	faust		import("stdfaust.lib"); eGroup(x) = hgroup("Envelope Follower", x); inGroup(x) = eGroup(vgroup("[0]Input", x)); inGain = inGroup(hslider("[0]InGain[style:knob]",0,-20,0,1) : ba.db2linear : si.smoo); outGain = inGroup(hslider("[1]OutGain[style:knob]",-20,-20,0,1) : ba.db2linear : _ * outGate: si.smoo); outGate = checkbox("[2]Out Gate"); freq = inGroup(hslider("[3]Freq[scale:log][style:knob]",100,1,1000,1)); sigType = inGroup(nentry("[4]Signal[style:menu{'DC':0;'Osc':1;'Noise':2}]", 0, 0, 2, 1)); efGroup(x) = eGroup(vgroup("[1]Time Parameters", x)); att = efGroup(hslider("[0]Attack",10,1,200,1) / 1000); rel = efGroup(hslider("[1]Release",100,1,1000,10) / 1000); envType = efGroup(nentry("[2]EnvelopeFollower[style:menu{'Coupled':0;'Peak Detector':1;'Decoupled1':2;'Decoupled2':3;'Branched1':4;'Branched2':5;'PassThru':6}]", 0, 0, 6, 1)); trigger = (envo - envo') > 0 : _ -0.5 : de.delay(ba.sec2samp(0.9), ma.SR); envo = os.lf_pulsetrain(1/1, 1/5) + 1 : _ /2; xo = dc, sinusoid, noise : ba.selectn(3, sigType) with { dc = 1; sinusoid = os.hs_oscsin(freq, trigger); noise = no.noise; }; env = (inGain - outGain) * envo + outGain; x = xo * env; coupled = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (_ <: (1 - aA) * max(x - _, 0), aR * _ : +) ~ _; }; decoupled1 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (max(x, _ * aR) ~ _) : _ : si.smooth(aA); }; decoupled2 = an.amp_follower_ud(att, rel); peak = an.amp_follower(rel); branched1 = an.amp_follower_ar(att, rel); branched2 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y = _ <: (((> <: _, _),aA,aR:_, select2), _ : smoother) ~ _; smoother(isA, s) = (1.0 - s)(1-isA) : + ~ *(s); }; magdB = _ : ba.linear2db + 10 : _ / 10 : max(-1); outputFormatter(y) = x, magdB(x), y, magdB(y), 0, 0, 0, 0, 0, 0, trigger; process = x : abs <: coupled, peak, decoupled1, decoupled2, branched1, branched2, _ : ba.selectn(7, envType) : outputFormatter;
4dc3d21300ee466fc74a6f1930d277c7c36ddac1efcd6785465db2e2293c03a6	JuanSaudio/Blog	CompFull.dsp	import("stdfaust.lib"); //=================================== GUI ====================================// cGroup(x) = hgroup("Compressor", x); inGroup(x) = cGroup(vgroup("[0]Input", x)); inGain = inGroup(hslider("[0]InGain[style:knob]",0,-20,0,1) : ba.db2linear : si.smoo); outGain = inGroup(hslider("[1]OutGain[style:knob]",-20,-20,0,1) : ba.db2linear : _ * outGate: si.smoo); outGate = checkbox("[2]Out Gate"); freq = inGroup(hslider("[3]Freq[scale:log][style:knob]",100,1,1000,1)); sigType = inGroup(nentry("[4]Signal[style:menu{'DC':0;'Osc':1;'Noise':2}]", 0, 0, 2, 1)); scGroup(x) = cGroup(hgroup("[1]SideChain", x)); tGroup(x) = scGroup(vgroup("[0]Types", x)); rectType = tGroup(nentry("[0]Rectifier[style:menu{'half':0;'full':1}]", 0, 0, 1, 1)); scType = tGroup(nentry("[1]SideChain[style:menu{'EnvGain':0;'GainEnv':1}]", 0, 0, 1, 1)); shouldBias = tGroup(nentry("[2]Bias[style:menu{'Off':0;'On':1}]", 0, 0, 1, 1)); efGroup(x) = scGroup(vgroup("[1]Envelope Follower", x)); att = efGroup(hslider("[0]Attack",10,1,200,1) / 1000); rel = efGroup(hslider("[1]Release",100,1,1000,10) / 1000); efOrder = efGroup(nentry("[2]Order[style:menu{'Single':0;'Squared':1;'HighOrder':2}]", 0, 0, 2, 1)); p = 1, 2, 10 : select3(efOrder); envType = efGroup(nentry("[2]EnvelopeFollower[style:menu{'Coupled':0;'Decoupled1':1;'Decoupled2':2;'Branched1':3;'Branched2':4;'PassThru':5}]", 3, 0, 5, 1)); gcGroup(x) = scGroup(vgroup("[2]Gain Computer", x)); threshold = gcGroup(vslider("[0]threshold[style:knob]",-10,-20,0,1) : si.smoo); ratio = gcGroup(vslider("[1]Ratio[style:knob]",2,1,10,0.1) : si.smoo); knee = gcGroup(vslider("[2]Knee[style:knob]",0,0,10,1)); shouldFilter = gcGroup(checkbox("[3]Filter")); thMag = ba.db2linear(threshold); //=================================== DSP ====================================// envo = os.lf_pulsetrain(1/1, 1/5) + 1 : _ /2; xo = dc, sinusoid, noise : ba.selectn(3, sigType) with { dc = 1; sinusoid = os.hs_oscsin(freq, trigger); noise = no.noise; }; env = (inGain - outGain) * envo + outGain; x = xo * env; compressor = _ <: _, sideChain : * , _ , _ ; rectifier = _ <: halfWave, fullWave : select2(rectType) : ba.bypass1(1 - shouldBias, max(ba.db2linear(threshold))) with { halfWave = max(0); fullWave = abs : max(0); }; sideChain = _ <: envelopeGain, gainEnvelope : sideChainSelector with { gainEnvelope = _ : rectifier : (gainComputer <: _, _) : (envelopeFollower <: _, _ ), _; envelopeGain = _ : rectifier : (envelopeFollower <: _, _) : (gainComputer <: _ , _), _; sideChainSelector = ro.interleave(3, 2) : par(i, 3, select2(scType)); }; envelopeFollower = _ : pow(p) <: coupled, decoupled1, decoupled2, branched1, branched2, passThru : ba.selectn(6, envType) : pow(1/p) with { coupled = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (_ <: (1 - aA) * max(x - _, 0), aR * _ : +) ~ _; }; decoupled1 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (max(x, _ * aR) ~ _) : _ : si.smooth(aA); }; decoupled2 = an.amp_follower_ud(att, rel); branched1 = an.amp_follower_ar(att, rel); branched2 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y = _ <: (((> <: _, _),aA,aR:_, select2), _ : smoother) ~ _; smoother(isA, s) = (1.0 - s)(1-isA) : + ~ (s); }; passThru = _; }; gainComputer = ba.linear2db : levelDistance : _ compFraction : ba.db2linear : LPF with { LPF = ba.bypass1(1 - shouldFilter, fi.lowpass(4, 100)); compFraction = (1 / ratio - 1); levelDistance(l) = select3(cases, below, at, over) with { cases = (l > threshold - knee/2) + (l > threshold + knee/2); below = 0; at = (l - threshold + (knee/2)) : pow(2)/(2*knee); over = l - threshold; }; }; trigger = (envo - envo') > 0 : _ -0.5 : de.delay(ba.sec2samp(0.9), ma.SR); marker = attMarker + relMarker with { attMarker = (envo - envo') > 0 : de.delay(ba.sec2samp(att), ma.SR); relMarker = (envo - envo') < 0 : de.delay(ba.sec2samp(rel), ma.SR); }; magdB = _ : ba.linear2db + 10 : _ / 10 : max(-1); outputFormatter(y, g, e) = x, //1 magdB(x), //2 y, //3 magdB(y), //4 g, //5 magdB(g), //6 e, //7 magdB(e), //8 thMag, //9 marker, //10 trigger; //11 process = x : compressor : outputFormatter;	https://raw.githubusercontent.com/JuanSaudio/Blog/62ed00a8beccea4d6e6b8b3e69d0f65069038ad3/Compression/Faust/CompFull.dsp	faust	=================================== GUI ====================================// =================================== DSP ====================================// 1 2 3 4 5 6 7 8 9 10 11	import("stdfaust.lib"); cGroup(x) = hgroup("Compressor", x); inGroup(x) = cGroup(vgroup("[0]Input", x)); inGain = inGroup(hslider("[0]InGain[style:knob]",0,-20,0,1) : ba.db2linear : si.smoo); outGain = inGroup(hslider("[1]OutGain[style:knob]",-20,-20,0,1) : ba.db2linear : _ * outGate: si.smoo); outGate = checkbox("[2]Out Gate"); freq = inGroup(hslider("[3]Freq[scale:log][style:knob]",100,1,1000,1)); sigType = inGroup(nentry("[4]Signal[style:menu{'DC':0;'Osc':1;'Noise':2}]", 0, 0, 2, 1)); scGroup(x) = cGroup(hgroup("[1]SideChain", x)); tGroup(x) = scGroup(vgroup("[0]Types", x)); rectType = tGroup(nentry("[0]Rectifier[style:menu{'half':0;'full':1}]", 0, 0, 1, 1)); scType = tGroup(nentry("[1]SideChain[style:menu{'EnvGain':0;'GainEnv':1}]", 0, 0, 1, 1)); shouldBias = tGroup(nentry("[2]Bias[style:menu{'Off':0;'On':1}]", 0, 0, 1, 1)); efGroup(x) = scGroup(vgroup("[1]Envelope Follower", x)); att = efGroup(hslider("[0]Attack",10,1,200,1) / 1000); rel = efGroup(hslider("[1]Release",100,1,1000,10) / 1000); efOrder = efGroup(nentry("[2]Order[style:menu{'Single':0;'Squared':1;'HighOrder':2}]", 0, 0, 2, 1)); p = 1, 2, 10 : select3(efOrder); envType = efGroup(nentry("[2]EnvelopeFollower[style:menu{'Coupled':0;'Decoupled1':1;'Decoupled2':2;'Branched1':3;'Branched2':4;'PassThru':5}]", 3, 0, 5, 1)); gcGroup(x) = scGroup(vgroup("[2]Gain Computer", x)); threshold = gcGroup(vslider("[0]threshold[style:knob]",-10,-20,0,1) : si.smoo); ratio = gcGroup(vslider("[1]Ratio[style:knob]",2,1,10,0.1) : si.smoo); knee = gcGroup(vslider("[2]Knee[style:knob]",0,0,10,1)); shouldFilter = gcGroup(checkbox("[3]Filter")); thMag = ba.db2linear(threshold); envo = os.lf_pulsetrain(1/1, 1/5) + 1 : _ /2; xo = dc, sinusoid, noise : ba.selectn(3, sigType) with { dc = 1; sinusoid = os.hs_oscsin(freq, trigger); noise = no.noise; }; env = (inGain - outGain) * envo + outGain; x = xo * env; compressor = _ <: _, sideChain : * , _ , _ ; rectifier = _ <: halfWave, fullWave : select2(rectType) : ba.bypass1(1 - shouldBias, max(ba.db2linear(threshold))) with { halfWave = max(0); fullWave = abs : max(0); }; sideChain = _ <: envelopeGain, gainEnvelope : sideChainSelector with { gainEnvelope = _ : rectifier : (gainComputer <: _, _) : (envelopeFollower <: _, _ ), _; envelopeGain = _ : rectifier : (envelopeFollower <: _, _) : (gainComputer <: _ , _), _; sideChainSelector = ro.interleave(3, 2) : par(i, 3, select2(scType)); }; envelopeFollower = _ : pow(p) <: coupled, decoupled1, decoupled2, branched1, branched2, passThru : ba.selectn(6, envType) : pow(1/p) with { coupled = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (_ <: (1 - aA) * max(x - _, 0), aR * _ : +) ~ _; }; decoupled1 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y(x) = (max(x, _ * aR) ~ _) : _ : si.smooth(aA); }; decoupled2 = an.amp_follower_ud(att, rel); branched1 = an.amp_follower_ar(att, rel); branched2 = y with { aR = ba.tau2pole(rel); aA = ba.tau2pole(att); y = _ <: (((> <: _, _),aA,aR:_, select2), _ : smoother) ~ _; smoother(isA, s) = (1.0 - s)(1-isA) : + ~ (s); }; passThru = _; }; gainComputer = ba.linear2db : levelDistance : _ compFraction : ba.db2linear : LPF with { LPF = ba.bypass1(1 - shouldFilter, fi.lowpass(4, 100)); compFraction = (1 / ratio - 1); levelDistance(l) = select3(cases, below, at, over) with { cases = (l > threshold - knee/2) + (l > threshold + knee/2); below = 0; at = (l - threshold + (knee/2)) : pow(2)/(2*knee); over = l - threshold; }; }; trigger = (envo - envo') > 0 : _ -0.5 : de.delay(ba.sec2samp(0.9), ma.SR); marker = attMarker + relMarker with { attMarker = (envo - envo') > 0 : de.delay(ba.sec2samp(att), ma.SR); relMarker = (envo - envo') < 0 : de.delay(ba.sec2samp(rel), ma.SR); }; magdB = _ : ba.linear2db + 10 : _ / 10 : max(-1); process = x : compressor : outputFormatter;
1eecdd0c5d5c99692a04e64ff4556167f533af6e02d9318b3212149ce6cec391	spaskalev/karpsichord	karpsichord.dsp	/* This file is part of the karpsichord project at https://github.com/spaskalev/karpsichord Copyright (C) 2022 Stanislav Paskalev <[email protected]> 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, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. / declare options "[midi:on][nvoices:32]"; import("basics.lib"); import("filters.lib"); import("delays.lib"); import("maths.lib"); import("noises.lib"); import("envelopes.lib"); import("stdfaust.lib"); import("compressors.lib"); import("reverbs.lib"); // These UI elements are automatically set by Faust when using MIDI midi_gate = button("gate"); input_midi_freq = hslider("freq",440,10,4096,1); tempered_midi_freq = input_midi_freq cent2ratio(temperament); midi_gain = hslider("gain",0.5,0,1,0.01); // The value of the current MIDI note, normalized to [0,1] max_midi_freq = ba.midikey2hz(127); min_midi_freq = ba.midikey2hz(0); temperament = rdtable(waveform{ // 0, -2.0, -3.9, -2.0, -7.8, 2.0, -3.9, -2.0, -2.0, -5.9, -2.0, -5.9 // Tuning from http://www-personal.umich.edu/~bpl/larips/ // 5.2, -0.6, 2.1, 2.5, -0.6, 5.8, -0.8, 3.7, 1.0, 0.0, 4.1, -0.8 // Optimal well temperament according to http://persianney.com/misc/wtemp.pdf +11.730, +1.955, +3.910, +5.865, +1.955, +9.775, 0.0, +7.820, +3.910, 0.0, +7.820, +3.910 // Werckmeister III }, int(ba.hz2midikey(input_midi_freq)) % 12); normalized_midi_freq = ((tempered_midi_freq) - min_midi_freq) / (max_midi_freq - min_midi_freq); // Excitation noise source is binary noise at maximum amplitude noise_period = 48000; noise2 = noise_env(44434).noise; noise_source = rdtable(noise_period, (noise2, ba.sweep(noise_period, midi_gate))) : * (attenuation) with { attenuation = (normalized_midi_freq * m) + c; m = 1.15; c = 0.15; }; noise_envelope(signal) = en.ar(attack, release, signal) with { total_length = normalized_midi_freq : * (0.35) : log : * (-0.005) : + (-0.008); ratio = 0.85; attack = total_length * ratio; release = total_length * (1 - ratio); }; // Generate excitation on trigger signal using a fire-and-forget envelope initial_samples(signal) = (noise_source * noise_envelope(signal)); // A line equation that modifies the sample delay and therefore the notes' pitch tuning_gradient = (0.55 * normalized_midi_freq) - 1.2; // The sample delay length. Based on the current sampling rate, note and compensation. loop_delay = (ma.SR / tempered_midi_freq) + tuning_gradient; // Sample delay via fifth-order Lagrange interpolation. Might be an overkill. sample_delay(signal) = fdelay4a(4096, loop_delay, signal); // A stretched convolution filter that extends high notes' duration string_filter(i) = (ci) + (d (i')) with { d = S * 0.5; c = 1 - d; S = normalized_midi_freq : * (2.35) : + (-0.625) : exp : * (-0.1) : + (0.35); }; // A log-based attenuation that shortens low notes' duration string_decay(i) = (ik) with { k = min(0.999, 1 - ( normalized_midi_freq : (20) : + (0.05) : log : * (-0.005) : + (0))); }; // Pick position comb filter based on the loop delay for the current note. pick_position(position, s) = delay(4096, position * loop_delay, s) : - (s); process = midi_gate <: ((initial_samples : pick_position(0.15) : (+ (_) : sample_delay : string_filter : string_decay) ~ _)/2 + (initial_samples : pick_position(0.10) : (+ (_) : sample_delay : string_filter : string_decay) ~ _)/2) * (en.are(0.20 + (0.20 * (1 - midi_gain)), 0.85)) <: _, _; effect = _ : limiter_lad_N(2, .01, 0.95, .015, .5, 1) : low_shelf(1.5, 215) : peak_eq(-2.5, 440, 440) : high_shelf(-2.0, 600) : dm.stereo_freeverb(0.95, 0.75, 1, 23) ;	https://raw.githubusercontent.com/spaskalev/karpsichord/b1ad2ffed723aa08035bfd69aafe9959358546a4/karpsichord.dsp	faust	This file is part of the karpsichord project at https://github.com/spaskalev/karpsichord Copyright (C) 2022 Stanislav Paskalev <[email protected]> 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, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. These UI elements are automatically set by Faust when using MIDI The value of the current MIDI note, normalized to [0,1] 0, -2.0, -3.9, -2.0, -7.8, 2.0, -3.9, -2.0, -2.0, -5.9, -2.0, -5.9 // Tuning from http://www-personal.umich.edu/~bpl/larips/ 5.2, -0.6, 2.1, 2.5, -0.6, 5.8, -0.8, 3.7, 1.0, 0.0, 4.1, -0.8 // Optimal well temperament according to http://persianney.com/misc/wtemp.pdf Werckmeister III Excitation noise source is binary noise at maximum amplitude Generate excitation on trigger signal using a fire-and-forget envelope A line equation that modifies the sample delay and therefore the notes' pitch The sample delay length. Based on the current sampling rate, note and compensation. Sample delay via fifth-order Lagrange interpolation. Might be an overkill. A stretched convolution filter that extends high notes' duration A log-based attenuation that shortens low notes' duration Pick position comb filter based on the loop delay for the current note.	declare options "[midi:on][nvoices:32]"; import("basics.lib"); import("filters.lib"); import("delays.lib"); import("maths.lib"); import("noises.lib"); import("envelopes.lib"); import("stdfaust.lib"); import("compressors.lib"); import("reverbs.lib"); midi_gate = button("gate"); input_midi_freq = hslider("freq",440,10,4096,1); tempered_midi_freq = input_midi_freq * cent2ratio(temperament); midi_gain = hslider("gain",0.5,0,1,0.01); max_midi_freq = ba.midikey2hz(127); min_midi_freq = ba.midikey2hz(0); temperament = rdtable(waveform{ }, int(ba.hz2midikey(input_midi_freq)) % 12); normalized_midi_freq = ((tempered_midi_freq) - min_midi_freq) / (max_midi_freq - min_midi_freq); noise_period = 48000; noise2 = noise_env(44434).noise; noise_source = rdtable(noise_period, (noise2, ba.sweep(noise_period, midi_gate))) : * (attenuation) with { attenuation = (normalized_midi_freq * m) + c; m = 1.15; c = 0.15; }; noise_envelope(signal) = en.ar(attack, release, signal) with { total_length = normalized_midi_freq : * (0.35) : log : * (-0.005) : + (-0.008); ratio = 0.85; attack = total_length * ratio; release = total_length * (1 - ratio); }; initial_samples(signal) = (noise_source * noise_envelope(signal)); tuning_gradient = (0.55 * normalized_midi_freq) - 1.2; loop_delay = (ma.SR / tempered_midi_freq) + tuning_gradient; sample_delay(signal) = fdelay4a(4096, loop_delay, signal); string_filter(i) = (ci) + (d (i')) with { d = S * 0.5; c = 1 - d; S = normalized_midi_freq : * (2.35) : + (-0.625) : exp : * (-0.1) : + (0.35); }; string_decay(i) = (ik) with { k = min(0.999, 1 - ( normalized_midi_freq : (20) : + (0.05) : log : * (-0.005) : + (0))); }; pick_position(position, s) = delay(4096, position * loop_delay, s) : - (s); process = midi_gate <: ((initial_samples : pick_position(0.15) : (+ (_) : sample_delay : string_filter : string_decay) ~ _)/2 + (initial_samples : pick_position(0.10) : (+ (_) : sample_delay : string_filter : string_decay) ~ _)/2) * (en.are(0.20 + (0.20 * (1 - midi_gain)), 0.85)) <: _, _; effect = _ : limiter_lad_N(2, .01, 0.95, .015, .5, 1) : low_shelf(1.5, 215) : peak_eq(-2.5, 440, 440) : high_shelf(-2.0, 600) : dm.stereo_freeverb(0.95, 0.75, 1, 23) ;
369420ddf7978d4ca6d447e4f753ba052dd78d213eb6cc98711797ce71fb6fbd	Tonton-Blax/supasynth	socisse.dsp	import("stdfaust.lib"); import("basics.lib"); import("signals.lib"); import("oscillators.lib"); oscsaw = signal with { osc_group(x) = vgroup("[0] VIRTUAL ANALOG OSCILLATORS [tooltip: See Faust's oscillator.lib for documentation and references]",x); // Signals saw = (amp/3) * (sawtooth(sfreq) + sawtooth(sfreqdetune1) + sawtooth(freqdetune2)); sq = (amp/3) * (square(sfreq) + square((sfreq)detune1) + square(freqSqdetune2)); tri = (amp) * (triangle(sfreq) + triangle(sfreqdetune1) + triangle(freqTridetune2)); pt = (amp/3) * (pulsetrain(sfreq,ptd) + pulsetrain(freqPwmdetune1,ptd) + pulsetrain(sfreqdetune2,ptd)); ptN = (amp/3) * (pulsetrainN(N,freqPwm,ptd) + pulsetrainN(N,freqPwmdetune1,ptd) + pulsetrainN(N,freqPwmdetune2,ptd)) with {N=3;}; pn = amp * 5 * no.noise; signal = ssawsaw + ssqsq + stritri + spt((ssptNptN)+(1-ssptN)pt) + spnpn + sei_; // Signal controls: signal_group(x) = osc_group(hgroup("[0] Signal Levels",x)); ssaw = signal_group(vslider("[0] Sawtooth [style:vslider]",1,0,1,0.01)); pt_group(x) = signal_group(vgroup("[1] Pulse Train",x)); ssptN = 1; spt = pt_group(vslider("[1] [style:vslider]",0,0,1,0.01)); ptd = pt_group(vslider("[2] Duty Cycle [style:knob]",0.5,0,1,0.01)) : smooth(0.99); ssq = signal_group(vslider("[2] Square [style:vslider]",0,0,1,0.01)); stri = signal_group(vslider("[3] Triangle [style:vslider]",0,0,1,0.01)); spn = signal_group(vslider( "[4] Pink Noise [style:vslider] [tooltip: Pink Noise (or 1/f noise) is Constant-Q Noise, meaning that it has the same total power in every octave (uses only amplitude controls)]",0,0,1,0.01)); sei = signal_group(vslider("[5] Ext. Input [style:vslider]",0,0,1,0.01)); // Signal Parameters knob_group(x) = osc_group(hgroup("[1] Signal Parameters", x)); af_group(x) = knob_group(hgroup("[0]", x)); ampdb = af_group(hslider("[1] Mix Amplitude [unit:dB] [style:knob] [tooltip: Sawtooth waveform amplitude]", -20,-120,10,0.1)); amp = ampdb : db2linear : smooth(0.999); freq = af_group(hslider("[2] Tune Saw [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqPwm = af_group(hslider("[3] Tune PWM [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqSq = af_group(hslider("[4] Tune Square [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqTri = af_group(hslider("[5] Tune Tri [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); pianokey2hz(x) = 440.0pow(2.0, (x-49.0)/12); // piano key 49 = A440 (also defined in effect.lib) de_group(x) = knob_group(hgroup("[6]", x)); detune1 = 1 - 0.01 de_group( vslider("[3] Detuning 1 [unit:%%] [style:knob] [tooltip: Percentange frequency-shift up or down for second oscillator]", -0.1,-10,10,0.01)); detune2 = 1 + 0.01 * de_group( vslider("[4] Detuning 2 [unit:%%] [style:knob] [tooltip: Percentange frequency-shift up or down for third detuned oscillator]", +0.1,-10,10,0.01)); sfreq = freq; }; //process=oscsaw;	https://raw.githubusercontent.com/Tonton-Blax/supasynth/1f1053a0fd38a07894ea8b1121f4cfe8618fe688/faust/socisse.dsp	faust	Signals Signal controls: Signal Parameters piano key 49 = A440 (also defined in effect.lib) process=oscsaw;	import("stdfaust.lib"); import("basics.lib"); import("signals.lib"); import("oscillators.lib"); oscsaw = signal with { osc_group(x) = vgroup("[0] VIRTUAL ANALOG OSCILLATORS [tooltip: See Faust's oscillator.lib for documentation and references]",x); saw = (amp/3) * (sawtooth(sfreq) + sawtooth(sfreqdetune1) + sawtooth(freqdetune2)); sq = (amp/3) * (square(sfreq) + square((sfreq)detune1) + square(freqSqdetune2)); tri = (amp) * (triangle(sfreq) + triangle(sfreqdetune1) + triangle(freqTridetune2)); pt = (amp/3) * (pulsetrain(sfreq,ptd) + pulsetrain(freqPwmdetune1,ptd) + pulsetrain(sfreqdetune2,ptd)); ptN = (amp/3) * (pulsetrainN(N,freqPwm,ptd) + pulsetrainN(N,freqPwmdetune1,ptd) + pulsetrainN(N,freqPwmdetune2,ptd)) with {N=3;}; pn = amp * 5 * no.noise; signal = ssawsaw + ssqsq + stritri + spt((ssptNptN)+(1-ssptN)pt) + spnpn + sei_; signal_group(x) = osc_group(hgroup("[0] Signal Levels",x)); ssaw = signal_group(vslider("[0] Sawtooth [style:vslider]",1,0,1,0.01)); pt_group(x) = signal_group(vgroup("[1] Pulse Train",x)); ssptN = 1; spt = pt_group(vslider("[1] [style:vslider]",0,0,1,0.01)); ptd = pt_group(vslider("[2] Duty Cycle [style:knob]",0.5,0,1,0.01)) : smooth(0.99); ssq = signal_group(vslider("[2] Square [style:vslider]",0,0,1,0.01)); stri = signal_group(vslider("[3] Triangle [style:vslider]",0,0,1,0.01)); spn = signal_group(vslider( "[4] Pink Noise [style:vslider] [tooltip: Pink Noise (or 1/f noise) is Constant-Q Noise, meaning that it has the same total power in every octave (uses only amplitude controls)]",0,0,1,0.01)); sei = signal_group(vslider("[5] Ext. Input [style:vslider]",0,0,1,0.01)); knob_group(x) = osc_group(hgroup("[1] Signal Parameters", x)); af_group(x) = knob_group(hgroup("[0]", x)); ampdb = af_group(hslider("[1] Mix Amplitude [unit:dB] [style:knob] [tooltip: Sawtooth waveform amplitude]", -20,-120,10,0.1)); amp = ampdb : db2linear : smooth(0.999); freq = af_group(hslider("[2] Tune Saw [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqPwm = af_group(hslider("[3] Tune PWM [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqSq = af_group(hslider("[4] Tune Square [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); freqTri = af_group(hslider("[5] Tune Tri [unit:PK] [style:knob] [tooltip: Sawtooth frequency as a Piano Key (PK) number (A440 = key 49)]", 49,1,88,0.01) : pianokey2hz); de_group(x) = knob_group(hgroup("[6]", x)); detune1 = 1 - 0.01 * de_group( vslider("[3] Detuning 1 [unit:%%] [style:knob] [tooltip: Percentange frequency-shift up or down for second oscillator]", -0.1,-10,10,0.01)); detune2 = 1 + 0.01 * de_group( vslider("[4] Detuning 2 [unit:%%] [style:knob] [tooltip: Percentange frequency-shift up or down for third detuned oscillator]", +0.1,-10,10,0.01)); sfreq = freq; };
e7c230c2d7fde9904231c531a9640ac707490ffeeb2cc347ffebf36023b67649	SMERM/BN-Tedesco	FEEDBACK_CONTROLLER.dsp	/FEEDBACK CONTROLLER/ import("stdfaust.lib"); //Pitch Guessing function //pitchguess= ; /PANIC BUTTONS SECTION/ //button to reset DSP in case the Feedback explode with interpolation panic_in = (button("Panic Interpolated")) : si.smoo; //button to reset DSP in case the Feedback explode instantaneously panic = (button("Panic")); /GAIN SECTION/ gain = hslider("Gain",0,0,1,0.0001) : si.smoo; //be cautious with it /FILTERS SECTION/ //filters = ; process = vgroup("FEEDBACK CONTROLLER",_*gain <: (-(panic_in)<: -(panic)) :> _);	https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-02/Lezioni_in_Compresenza/20200512/FEEDBACK_CONTROLLER.dsp	faust	FEEDBACK CONTROLLER Pitch Guessing function pitchguess= ; PANIC BUTTONS SECTION button to reset DSP in case the Feedback explode with interpolation button to reset DSP in case the Feedback explode instantaneously GAIN SECTION be cautious with it FILTERS SECTION filters = ;	import("stdfaust.lib"); panic_in = (button("Panic Interpolated")) : si.smoo; panic = (button("Panic")); process = vgroup("FEEDBACK CONTROLLER",_*gain <: (-(panic_in)<: -(panic)) :> _);
207de4699ae93f84480982f910ff45435a1cc44b753841f1b79181d75a8582a4	SMERM/BN-Tedesco	biquad.dsp	import("stdfaust.lib"); /as a0 = 0.9; a1 = 0.1; a2 = 0.1; b1 = 0.2; b2 = 0.2; preInHistory = _ <: _a0, _((@(1)a1):(@(2)a2)) :> _; preOutHistory = @(1) <: _b1, @(2)b2 :> _ ; biquad1 = _ <: preInHistory : (-~preOutHistory) :> _; / a0c = vslider("a0[style:knob]",0,0,1,0.01); a1c = vslider("a1[style:knob]",0,0,1,0.01); a2c = vslider("a2[style:knob]",0,0,1,0.01); b1c = vslider("b1[style:knob]",0,0,1,0.01); b2c = vslider("b2[style:knob]",0,0,1,0.01); a0(a0c) = (a0c); a1(a1c) = @(1) : (a1c); a2(a2c) = @(2) : (a2c); b1(b1c) = @(1) : (b1c); b2(b2c) = @(2) : *(b2c); a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c) : a2(a2c)) :> _; b(b1c,b2c) = b1(b1c) <: _, b2(b2c) :> _ ; biquad(a0c,a1c,a2c,b1c,b2c) = _ <: a(a0c,a1c,a2c) : (-~b(b1c,b2c)) :> _; //a = a0(0.9), a1(0.1), a2(0.1); //b = b1(0.2), b2(0.2); process = _ : biquad(a0c,a1c,a2c,b1c,b2c) : _;	https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-01/20200605/biquad.dsp	faust	as a0 = 0.9; a1 = 0.1; a2 = 0.1; b1 = 0.2; b2 = 0.2; preInHistory = _ <: _a0, _((@(1)a1):(@(2)a2)) :> _; preOutHistory = @(1) <: _b1, @(2)b2 :> _ ; biquad1 = _ <: preInHistory : (-~preOutHistory) :> _; a = a0(0.9), a1(0.1), a2(0.1); b = b1(0.2), b2(0.2);	import("stdfaust.lib"); a0c = vslider("a0[style:knob]",0,0,1,0.01); a1c = vslider("a1[style:knob]",0,0,1,0.01); a2c = vslider("a2[style:knob]",0,0,1,0.01); b1c = vslider("b1[style:knob]",0,0,1,0.01); b2c = vslider("b2[style:knob]",0,0,1,0.01); a0(a0c) = (a0c); a1(a1c) = @(1) : (a1c); a2(a2c) = @(2) : (a2c); b1(b1c) = @(1) : (b1c); b2(b2c) = @(2) : *(b2c); a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c) : a2(a2c)) :> _; b(b1c,b2c) = b1(b1c) <: _, b2(b2c) :> _ ; biquad(a0c,a1c,a2c,b1c,b2c) = _ <: a(a0c,a1c,a2c) : (-~b(b1c,b2c)) :> _; process = _ : biquad(a0c,a1c,a2c,b1c,b2c) : _;
1bedf4e1f24ab0c8c42c92e10569b663b81cd54bbfda79b8c400e1c82d61f111	SMERM/BN-Tedesco	osc2vcs3DT.dsp	import("stdfaust.lib"); osc2_g(x) = hgroup("[002]OSCILLATOR 2", x); freq = osc2_g(vslider("[001]FREQUENCY[style:knob][scale:exp]", 100,1,10000,0.01) : si.smoo); //knob non è infinito, come un encoder shape = osc2_g(vslider("[002]SHAPE[style:knob][scale:exp]", 5,0,10,0.01)/10 : si.smoo); amplitude = osc2_g(vslider("[003]AMPLITUDE[style:knob][scale:exp]", 0,1,1,0.01)/10 : si.smoo); vcs3osc2(freq,shape) = square+wsqaure, triangle //quadra e triangolare sono in relazione tra di loro in un modo particolare with{ step = freq/ma.SR; phasor(step) = +(step)~ ma.decimal: -(step); square = sin(phasor(step)2ma.PI):(0.5sin(shape(ma.PI))); //da correggere wsquare = sin(phasor(step)(-1)ma.PI):+0.5:(sin(shape*(ma.PI))); //da correggere triangle = phasor(step)-(0.5); //da correggere }; process = vcs3osc2(freq,shape); //importante per dire che l'oscillatore ha pomelli che sono delle entrate	https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-01/20200408/osc2vcs3DT.dsp	faust	knob non è infinito, come un encoder quadra e triangolare sono in relazione tra di loro in un modo particolare da correggere da correggere da correggere importante per dire che l'oscillatore ha pomelli che sono delle entrate	import("stdfaust.lib"); osc2_g(x) = hgroup("[002]OSCILLATOR 2", x); freq = osc2_g(vslider("[001]FREQUENCY[style:knob][scale:exp]", 100,1,10000,0.01) : si.smoo); shape = osc2_g(vslider("[002]SHAPE[style:knob][scale:exp]", 5,0,10,0.01)/10 : si.smoo); amplitude = osc2_g(vslider("[003]AMPLITUDE[style:knob][scale:exp]", 0,1,1,0.01)/10 : si.smoo); with{ step = freq/ma.SR; phasor(step) = +(step)~ ma.decimal: -(step); };
24695a9db398ba2ffa738e9a7c48f0a3e181d2843f0aa55749ec84ed45bf2221	SMERM/BN-Tedesco	biquad_silvi.dsp	import("stdfaust.lib"); //a0c = vslider("a0[style:knob]",0,0,1,0.01); //a1c = vslider("a1[style:knob]",0,0,1,0.01); //a2c = vslider("a2[style:knob]",0,0,1,0.01); //b1c = vslider("b1[style:knob]",0,0,1,0.01); //b2c = vslider("b2[style:knob]",0,0,1,0.01); a0(a0c) = (a0c); a1(a1c) = @(1) : (a1c); a2(a2c) = @(2) : (a2c); //b1(b1c) = @(1) : (b1c); // il @1 su una linea ricorsiva equivale a 2 campioni di ritardo, uno della linea, uno della memoria. //b2(b2c) = @(2) : (b2c); // idem,… tre campioni. b1(b1c) = (b1c); b2(b2c) = @(1) : *(b2c); // a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c) : a2(a2c)) :> _; // sono tre percorsi paralleli… ti sei fatto ingannare dalle memorie di ritardo di maxbusta;) a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c), a2(a2c)) :> _; b(b1c,b2c) = _ <: b1(b1c), b2(b2c) :> _ ; biquad(a0c,a1c,a2c,b1c,b2c) = _ <: a(a0c,a1c,a2c) : (-~b(b1c,b2c)) :> _; // resta così un errore da risolvere… non proprio banale: la sottrazione è di a-b mentre l'operatore recursione in nquesto modo occupa la prima entrata in b-a //a = a0(0.9), a1(0.1), a2(0.1); //b = b1(0.2), b2(0.2); process = biquad(0.9,0.1,0.1,0.2,0.2);	https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-01/20200605/biquad_silvi.dsp	faust	a0c = vslider("a0[style:knob]",0,0,1,0.01); a1c = vslider("a1[style:knob]",0,0,1,0.01); a2c = vslider("a2[style:knob]",0,0,1,0.01); b1c = vslider("b1[style:knob]",0,0,1,0.01); b2c = vslider("b2[style:knob]",0,0,1,0.01); b1(b1c) = @(1) : (b1c); // il @1 su una linea ricorsiva equivale a 2 campioni di ritardo, uno della linea, uno della memoria. b2(b2c) = @(2) : (b2c); // idem,… tre campioni. a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c) : a2(a2c)) :> _; // sono tre percorsi paralleli… ti sei fatto ingannare dalle memorie di ritardo di maxbusta;) resta così un errore da risolvere… non proprio banale: la sottrazione è di a-b mentre l'operatore recursione in nquesto modo occupa la prima entrata in b-a a = a0(0.9), a1(0.1), a2(0.1); b = b1(0.2), b2(0.2);	import("stdfaust.lib"); a0(a0c) = (a0c); a1(a1c) = @(1) : (a1c); a2(a2c) = @(2) : (a2c); b1(b1c) = (b1c); b2(b2c) = @(1) : *(b2c); a(a0c,a1c,a2c) = _ <: a0(a0c), (a1(a1c), a2(a2c)) :> _; b(b1c,b2c) = _ <: b1(b1c), b2(b2c) :> _ ; biquad(a0c,a1c,a2c,b1c,b2c) = _ <: a(a0c,a1c,a2c) : (-~b(b1c,b2c)) :> _; process = biquad(0.9,0.1,0.1,0.2,0.2);
a701195d0f6a7405f34c09835dda6a2764ef0809231d8db05204f5a21df8d026	SMERM/BN-Tedesco	guitarLive_v1.dsp	/guitarLive_v1/ /Pitch tracker, feedback controller, distortion, amplification/ import("stdfaust.lib"); /PITCH TRACKER SECTION/ ptrack(a,x) = tng(x) with{ xcr = (x' < 0) & (x >= 0); xcnt = +(xcr)~ %(int(a)); wnd = xcr & (xcnt == a); cnt = (+(1) : (1 - wnd)) ~ _; SH(trig,x) = ((1 - trig) + x * trig) ~ _; nvl = SH(cnt == 0, cnt' + 1); tng(x) = ama.SR/max(nvl,1) - ama.SR(nvl==0); }; fptrack(x,a) = x : fi.dcblocker : (fi.lowpass(1) : ptrack(a))~ max(100); /FEEDBACK SECTION/ //button to reset DSP in case the Feedback explode with interpolation panic_in = (button("Panic Interpolated")) : si.smoo; //button to reset DSP in case the Feedback explode instantaneously panic = (button("Panic")) : si.smoo; feedback = _ <: -(panic_in)<: -(panic):> _; /DISTORTION SECTION/ disto = ba.bypass1(on_off, ef.cubicnl_nodc(drive:si.smoo,offset:si.smoo)) with{ cnl_group(x) = vgroup("DISTORSIONE [tooltip: Reference: https://ccrma.stanford.edu/~jos/pasp/Cubic_Soft_Clipper.html]", x); on_off = cnl_group(checkbox("[0] Bypass [tooltip: When this is checked, the nonlinearity has no effect]")); drive = cnl_group(hslider("[1] Drive [tooltip: Amount of distortion]", 0, 0, 1, 0.01)); offset = cnl_group(hslider("[2] Offset [tooltip: Brings in even harmonics]", 0, 0, 1, 0.01)); }; distortion = disto; /FILTERS SECTION/ filters = fi.dcblocker ; /COMPRESSION/ //compressor = ; /GAIN SECTION/ gain = hslider("Gain",0,0,1,0.0001) : si.smoo; process = vgroup("guitarLive_v1", _gain <: distortion : feedback :> filters :/* compressor :*/ _);	https://raw.githubusercontent.com/SMERM/BN-Tedesco/2a77e1707f7e64c512dd40d58d29c0db8092463d/COME-02/Lezioni_in_Compresenza/20200616/guitarLive_v1.dsp	faust	guitarLive_v1 Pitch tracker, feedback controller, distortion, amplification PITCH TRACKER SECTION FEEDBACK SECTION button to reset DSP in case the Feedback explode with interpolation button to reset DSP in case the Feedback explode instantaneously DISTORTION SECTION ccrma.stanford.edu/~jos/pasp/Cubic_Soft_Clipper.html]", x); FILTERS SECTION COMPRESSION compressor = ; GAIN SECTION compressor :	import("stdfaust.lib"); ptrack(a,x) = tng(x) with{ xcr = (x' < 0) & (x >= 0); xcnt = +(xcr)~ %(int(a)); wnd = xcr & (xcnt == a); cnt = (+(1) : (1 - wnd)) ~ _; SH(trig,x) = ((1 - trig) + x * trig) ~ _; nvl = SH(cnt == 0, cnt' + 1); tng(x) = ama.SR/max(nvl,1) - ama.SR(nvl==0); }; fptrack(x,a) = x : fi.dcblocker : (fi.lowpass(1) : ptrack(a))~ max(100); panic_in = (button("Panic Interpolated")) : si.smoo; panic = *(button("Panic")) : si.smoo; feedback = _ <: -(panic_in)<: -(panic):> _; disto = ba.bypass1(on_off, ef.cubicnl_nodc(drive:si.smoo,offset:si.smoo)) with{ cnl_group(x) = vgroup("DISTORSIONE [tooltip: Reference: on_off = cnl_group(checkbox("[0] Bypass [tooltip: When this is checked, the nonlinearity has no effect]")); drive = cnl_group(hslider("[1] Drive [tooltip: Amount of distortion]", 0, 0, 1, 0.01)); offset = cnl_group(hslider("[2] Offset [tooltip: Brings in even harmonics]", 0, 0, 1, 0.01)); }; distortion = disto; filters = fi.dcblocker ; gain = hslider("Gain",0,0,1,0.0001) : si.smoo;
7cb1f4e660496e793839b72b8559cd12c64b19011532c0a696c0d3aecc3cae6c	SMERM/EIME	1987-NONO-PPLPD.dsp	//-------------------------------------------------------------------------------------------------- // 1987 - LUIGI NONO - POST PREAE LUDIUM PER DONAU //-------------------------------------------------------------------------------------------------- declare name "NONO - POST-PRAE-LUDIUM PER DONAU"; declare version "0.1"; declare author "Giuseppe Silvi"; declare copyright "Giuseppe Silvi 2018"; declare license "BSD"; declare reference "giuseppesilvi.com"; declare description "AMBIENTE D'ESECUZIONE"; import("stdfaust.lib"); import("basics.lib"); import("delays.lib"); //import("effect.lib"); import("filters.lib"); import("reverbs.lib"); vmeter(x) = attach(x, envelop(x) : vbargraph("[unit:dB]", -70, 0)); hmeter(x) = attach(x, envelop(x) : hbargraph("[unit:dB]", -70, 0)); envelop = abs : max(ba.db2linear(-70)) : ba.linear2db : min(10) : max ~ -(80.0/ma.SR); gain(x) = x : db2linear : si.smooth(0.999); fader = _ * (gain(vslider("[unit:dB]", 0, -70, 12, 0.1))); hader = _ * (gain(hslider("[unit:dB]", 0, -70, 12, 0.1))); INPUT = vgroup("[1] MIC", hmeter : hader); //------------------------------------------------- // AMPLIFICAZIONE TRASPARENTE //------------------------------------------------- atoLF = hgroup("LF", fader : vmeter); atoRF = hgroup("RF", fader : vmeter); atoLB = hgroup("LB", fader : vmeter); atoRB = hgroup("RB", fader : vmeter); atdLF = sdelay(192000,1024,ba.sec2samp(nentry("LF distance (mseconds)", 0., 0., 1., 0.001))); atdRF = sdelay(192000,1024,ba.sec2samp(nentry("RF distance (mseconds)", 0., 0., 1., 0.001))); atdLB = sdelay(192000,1024,ba.sec2samp(nentry("LB distance (mseconds)", 0., 0., 1., 0.001))); atdRB = sdelay(192000,1024,ba.sec2samp(nentry("RB distance (mseconds)", 0., 0., 1., 0.001))); AT = hgroup("[2] Amplificazione Trasparente", _ <: vmeter, vgroup("Delay",atdLF, atdRF, atdLB, atdRB) : !, hgroup("Out Fader", atoLF, atoRF, atoLB, atoRB)); //------------------------------------------------- // PGM1 //------------------------------------------------- pgm1LF = hgroup("LF", sdelay(192000,1024,ba.sec2samp(5)) : fader : vmeter); pgm1RF = hgroup("RF", sdelay(192000,1024,ba.sec2samp(7)) : fader : vmeter); pgm1LB = hgroup("LB", sdelay(192000,1024,ba.sec2samp(10)) : fader : vmeter); pgm1RB = hgroup("RB", sdelay(192000,1024,ba.sec2samp(15)) : fader : vmeter); PGM1 = hgroup("[3] PGM1", _ : jcrev : pgm1LF, pgm1RF, pgm1LB, pgm1RB); //------------------------------------------------- // PGM2 //------------------------------------------------- phasing = pf.phaser2_mono(13,.707,500,1000,2,1500,1,1,0,0); rot1 = os.phasor(1024,0.16) : _; rot2 = os.phasor(1024,-0.23) : _; pgm2LF = hgroup("LF", fader : vmeter); pgm2RF = hgroup("RF", fader : vmeter); pgm2LB = hgroup("LB", fader : vmeter); pgm2RB = hgroup("RB", fader : vmeter); PGM2 = hgroup("[4] PGM2", _ : phasing <: vgroup("HALAFON", sp.spat(4, rot1, 1), sp.spat(4, rot2, 1)) :> pgm2LF, pgm2RF, pgm2LB, pgm2RB); //------------------------------------------------- // PGM3 + PGM4 //------------------------------------------------- pgm3LF = hgroup("LF", fader : vmeter); pgm3RF = hgroup("RF", fader : vmeter); pgm4LB = hgroup("LB", fader : vmeter); pgm4RB = hgroup("RB", fader : vmeter); rev30 = hgroup("PGM3", re.zita_rev1_stereo(35,500,2500,30,30,48000) : pgm3LF, pgm3RF); rev10 = _,_ : !, lowpass(2, 566) <: hgroup("PGM4", re.zita_rev1_stereo(35,500,2500,10,10,48000) : pgm4LB, pgm4RB); PGM34 = hgroup("[5] PGM3 ---- PGM4", _ <: rev30, rev10) ; //------------------------------------------------- // PPLPD MAIN //------------------------------------------------- PPLPD = vgroup("Post-Prae-Ludium Per Donau. Luigi Nono. 1987", INPUT <: AT, PGM1, PGM2, PGM34 :> _,_,_,_); process = PPLPD;	https://raw.githubusercontent.com/SMERM/EIME/388c46d00527222082c77973c532ddafeead7a5d/1987-NONO-POST-PRAE-LUDIUM-PER-DONAU/1987-NONO-PPLPD.dsp	faust	-------------------------------------------------------------------------------------------------- 1987 - LUIGI NONO - POST PREAE LUDIUM PER DONAU -------------------------------------------------------------------------------------------------- import("effect.lib"); ------------------------------------------------- AMPLIFICAZIONE TRASPARENTE ------------------------------------------------- ------------------------------------------------- PGM1 ------------------------------------------------- ------------------------------------------------- PGM2 ------------------------------------------------- ------------------------------------------------- PGM3 + PGM4 ------------------------------------------------- ------------------------------------------------- PPLPD MAIN -------------------------------------------------	declare name "NONO - POST-PRAE-LUDIUM PER DONAU"; declare version "0.1"; declare author "Giuseppe Silvi"; declare copyright "Giuseppe Silvi 2018"; declare license "BSD"; declare reference "giuseppesilvi.com"; declare description "AMBIENTE D'ESECUZIONE"; import("stdfaust.lib"); import("basics.lib"); import("delays.lib"); import("filters.lib"); import("reverbs.lib"); vmeter(x) = attach(x, envelop(x) : vbargraph("[unit:dB]", -70, 0)); hmeter(x) = attach(x, envelop(x) : hbargraph("[unit:dB]", -70, 0)); envelop = abs : max(ba.db2linear(-70)) : ba.linear2db : min(10) : max ~ -(80.0/ma.SR); gain(x) = x : db2linear : si.smooth(0.999); fader = _ * (gain(vslider("[unit:dB]", 0, -70, 12, 0.1))); hader = _ * (gain(hslider("[unit:dB]", 0, -70, 12, 0.1))); INPUT = vgroup("[1] MIC", hmeter : hader); atoLF = hgroup("LF", fader : vmeter); atoRF = hgroup("RF", fader : vmeter); atoLB = hgroup("LB", fader : vmeter); atoRB = hgroup("RB", fader : vmeter); atdLF = sdelay(192000,1024,ba.sec2samp(nentry("LF distance (mseconds)", 0., 0., 1., 0.001))); atdRF = sdelay(192000,1024,ba.sec2samp(nentry("RF distance (mseconds)", 0., 0., 1., 0.001))); atdLB = sdelay(192000,1024,ba.sec2samp(nentry("LB distance (mseconds)", 0., 0., 1., 0.001))); atdRB = sdelay(192000,1024,ba.sec2samp(nentry("RB distance (mseconds)", 0., 0., 1., 0.001))); AT = hgroup("[2] Amplificazione Trasparente", _ <: vmeter, vgroup("Delay",atdLF, atdRF, atdLB, atdRB) : !, hgroup("Out Fader", atoLF, atoRF, atoLB, atoRB)); pgm1LF = hgroup("LF", sdelay(192000,1024,ba.sec2samp(5)) : fader : vmeter); pgm1RF = hgroup("RF", sdelay(192000,1024,ba.sec2samp(7)) : fader : vmeter); pgm1LB = hgroup("LB", sdelay(192000,1024,ba.sec2samp(10)) : fader : vmeter); pgm1RB = hgroup("RB", sdelay(192000,1024,ba.sec2samp(15)) : fader : vmeter); PGM1 = hgroup("[3] PGM1", _ : jcrev : pgm1LF, pgm1RF, pgm1LB, pgm1RB); phasing = pf.phaser2_mono(13,.707,500,1000,2,1500,1,1,0,0); rot1 = os.phasor(1024,0.16) : _; rot2 = os.phasor(1024,-0.23) : _; pgm2LF = hgroup("LF", fader : vmeter); pgm2RF = hgroup("RF", fader : vmeter); pgm2LB = hgroup("LB", fader : vmeter); pgm2RB = hgroup("RB", fader : vmeter); PGM2 = hgroup("[4] PGM2", _ : phasing <: vgroup("HALAFON", sp.spat(4, rot1, 1), sp.spat(4, rot2, 1)) :> pgm2LF, pgm2RF, pgm2LB, pgm2RB); pgm3LF = hgroup("LF", fader : vmeter); pgm3RF = hgroup("RF", fader : vmeter); pgm4LB = hgroup("LB", fader : vmeter); pgm4RB = hgroup("RB", fader : vmeter); rev30 = hgroup("PGM3", re.zita_rev1_stereo(35,500,2500,30,30,48000) : pgm3LF, pgm3RF); rev10 = _,_ : !, lowpass(2, 566) <: hgroup("PGM4", re.zita_rev1_stereo(35,500,2500,10,10,48000) : pgm4LB, pgm4RB); PGM34 = hgroup("[5] PGM3 ---- PGM4", _ <: rev30, rev10) ; PPLPD = vgroup("Post-Prae-Ludium Per Donau. Luigi Nono. 1987", INPUT <: AT, PGM1, PGM2, PGM34 :> _,_,_,_); process = PPLPD;
65f9287b52da4cd762ed96b62cfa56377bbf17ba737173477b8b3e8a132d64a7	kofigumbs/typebeat	insert.dsp	import("stdfaust.lib"); scaled = library("scaled.lib"); gate = button("gate"); note = button("note"); duckRelease = button("duckRelease") : smooth; sampleType = nentry("sampleType", 0, 0, 4, 1); synth1Type = nentry("synth1Type", 0, 0, 4, 1); synth2Type = nentry("synth2Type", 0, 0, 4, 1); synth3Type = nentry("synth3Type", 0, 0, 4, 1); holdSample = nentry("holdSample", 0, 0, 1, 0); sampleLevel = nentry("sampleLevel", 25, 0, 50, 10) : smooth; sampleDetune = nentry("sampleDetune", 0, -120, 120, 10) : smooth; synth1Level = nentry("synth1Level", 0, 0, 50, 10) : smooth; synth1Detune = nentry("synth1Detune", 0, -120, 120, 10) : smooth; synth2Level = nentry("synth2Level", 0, 0, 50, 10) : smooth; synth2Detune = nentry("synth2Detune", 0, -120, 120, 10) : smooth; synth3Level = nentry("synth3Level", 0, 0, 50, 10) : smooth; synth3Detune = nentry("synth3Detune", 0, -120, 120, 10) : smooth; spread = nentry("spread", 25, 0, 50, 10) : smooth; lowFreq = nentry("lowFreq", 0, -25, 25, 10) : smooth; lowRes = nentry("lowRes", 0, -25, 25, 10) : smooth; midFreq = nentry("midFreq", 0, -25, 22, 10) : smooth; midRes = nentry("midRes", 0, -25, 25, 10) : smooth; highFreq = nentry("highFreq", 0, -25, 25, 10) : smooth; highRes = nentry("highRes", 0, -25, 25, 10) : smooth; attack = nentry("attack", 0, 0, 50, 10) : smooth; decay = nentry("decay", 0, 0, 50, 10) : smooth; sustain = nentry("sustain", 50, 0, 50, 10) : smooth; release = nentry("release", 0, 0, 50, 10); // used in `smooth` cutoff = nentry("cutoff", 0, 0, 50, 10) : smooth; pan = nentry("pan", 0, -25, 25, 10) : smooth; main = nentry("main", 50, 0, 50, 10) : smooth; reverb = nentry("reverb", 0, 0, 50, 10) : smooth; echo = nentry("echo", 0, 0, 50, 10) : smooth; drive = nentry("drive", 0, 0, 50, 10) : smooth; toDuck = nentry("toDuck", 0, 0, 50, 10) : smooth; duckBy = nentry("duckBy", 0, 0, 50, 10) : smooth; process(prevL, prevR) = sample, synth :> eq : pan_ : drive_ <: sends with { sends = send(toDuck), (duck_(prevL, prevR) <: send(main), send(echo), send(reverb)); }; sample = sp.stereoize(transpose : (sampleLevel/25 ba.if(holdSample, envelope, 1))) with { transpose = ba.bypass_fade(1, offset == 0, ef.transpose(1000, 10, offset)); offset = (sampleType == 1 \| sampleType == 2) * (sampleDetune/10 + note - 69); }; synth = note <: unison(-1), unison(1) :> level :> _ : (envelope) <: _, _ with { unison(sign) = _ + signspread/500 <: synth1, synth2, synth3; synth1 = hz(synth1Detune/10) : oscillator(synth1Type); synth2 = hz(synth2Detune/10) : oscillator(synth2Type); synth3 = hz(synth3Detune/10) : oscillator(synth3Type); hz(detune) = _ + detune/10 : ba.midikey2hz; oscillator = ba.selectmulti(1, (os.oscsin, os.triangle, os.sawtooth/2, os.square/2, (no.noise/4, !))); level = (synth1Level/450), (synth2Level/450), (synth3Level/450); }; eq = sp.stereoize(low : mid : high) with { low = fi.low_shelf(scaled.filterGain(lowRes), scaled.filterFreq(300, lowFreq)); mid = fi.peak_eq_cq(scaled.filterGain(midRes), scaled.filterFreq(1000, midFreq), 1); high = fi.high_shelf(scaled.filterGain(highRes), scaled.filterFreq(3000, highFreq - (cutoff/50 envelope25))); }; pan_ = sp.panner(max(pan/25, 0)), sp.panner(1 + min(pan/25, 0)) :> _, _; drive_ = sp.stereoize(ef.cubicnl_nodc(drive/50, .5)); // volume-ducking sidechain based on the previous `duck_mix` duck_(prevL, prevR) = duck(prevL), duck(prevR) with { duck(prev) = (1 - an.amp_follower_ar(0, scaled.time(duckRelease), min(1, prevduckBy/25))); }; send(amount) = sp.stereoize((amount/50)); envelope = en.adsr(scaled.time(attack), scaled.time(decay), sustain/50, scaled.time(release : smooth), gate); smooth = si.polySmooth(trigger, amount, 1) with { trigger = en.ar(0, scaled.time(release), gate) : ma.signum; amount = 1 - 44.1/ma.SR; // https://github.com/grame-cncm/faustlibraries/blob/b54a01fa5ef0ac1f4939f78a88d318f1db85cc0a/signals.lib#L116 };	https://raw.githubusercontent.com/kofigumbs/typebeat/ce39da4b4200b1677f7759e8d6d4ddcad3025311/src/effects/insert.dsp	faust	used in `smooth` volume-ducking sidechain based on the previous `duck_mix` https://github.com/grame-cncm/faustlibraries/blob/b54a01fa5ef0ac1f4939f78a88d318f1db85cc0a/signals.lib#L116	import("stdfaust.lib"); scaled = library("scaled.lib"); gate = button("gate"); note = button("note"); duckRelease = button("duckRelease") : smooth; sampleType = nentry("sampleType", 0, 0, 4, 1); synth1Type = nentry("synth1Type", 0, 0, 4, 1); synth2Type = nentry("synth2Type", 0, 0, 4, 1); synth3Type = nentry("synth3Type", 0, 0, 4, 1); holdSample = nentry("holdSample", 0, 0, 1, 0); sampleLevel = nentry("sampleLevel", 25, 0, 50, 10) : smooth; sampleDetune = nentry("sampleDetune", 0, -120, 120, 10) : smooth; synth1Level = nentry("synth1Level", 0, 0, 50, 10) : smooth; synth1Detune = nentry("synth1Detune", 0, -120, 120, 10) : smooth; synth2Level = nentry("synth2Level", 0, 0, 50, 10) : smooth; synth2Detune = nentry("synth2Detune", 0, -120, 120, 10) : smooth; synth3Level = nentry("synth3Level", 0, 0, 50, 10) : smooth; synth3Detune = nentry("synth3Detune", 0, -120, 120, 10) : smooth; spread = nentry("spread", 25, 0, 50, 10) : smooth; lowFreq = nentry("lowFreq", 0, -25, 25, 10) : smooth; lowRes = nentry("lowRes", 0, -25, 25, 10) : smooth; midFreq = nentry("midFreq", 0, -25, 22, 10) : smooth; midRes = nentry("midRes", 0, -25, 25, 10) : smooth; highFreq = nentry("highFreq", 0, -25, 25, 10) : smooth; highRes = nentry("highRes", 0, -25, 25, 10) : smooth; attack = nentry("attack", 0, 0, 50, 10) : smooth; decay = nentry("decay", 0, 0, 50, 10) : smooth; sustain = nentry("sustain", 50, 0, 50, 10) : smooth; cutoff = nentry("cutoff", 0, 0, 50, 10) : smooth; pan = nentry("pan", 0, -25, 25, 10) : smooth; main = nentry("main", 50, 0, 50, 10) : smooth; reverb = nentry("reverb", 0, 0, 50, 10) : smooth; echo = nentry("echo", 0, 0, 50, 10) : smooth; drive = nentry("drive", 0, 0, 50, 10) : smooth; toDuck = nentry("toDuck", 0, 0, 50, 10) : smooth; duckBy = nentry("duckBy", 0, 0, 50, 10) : smooth; process(prevL, prevR) = sample, synth :> eq : pan_ : drive_ <: sends with { sends = send(toDuck), (duck_(prevL, prevR) <: send(main), send(echo), send(reverb)); }; sample = sp.stereoize(transpose : (sampleLevel/25 ba.if(holdSample, envelope, 1))) with { transpose = ba.bypass_fade(1, offset == 0, ef.transpose(1000, 10, offset)); offset = (sampleType == 1 \| sampleType == 2) * (sampleDetune/10 + note - 69); }; synth = note <: unison(-1), unison(1) :> level :> _ : (envelope) <: _, _ with { unison(sign) = _ + signspread/500 <: synth1, synth2, synth3; synth1 = hz(synth1Detune/10) : oscillator(synth1Type); synth2 = hz(synth2Detune/10) : oscillator(synth2Type); synth3 = hz(synth3Detune/10) : oscillator(synth3Type); hz(detune) = _ + detune/10 : ba.midikey2hz; oscillator = ba.selectmulti(1, (os.oscsin, os.triangle, os.sawtooth/2, os.square/2, (no.noise/4, !))); level = (synth1Level/450), (synth2Level/450), (synth3Level/450); }; eq = sp.stereoize(low : mid : high) with { low = fi.low_shelf(scaled.filterGain(lowRes), scaled.filterFreq(300, lowFreq)); mid = fi.peak_eq_cq(scaled.filterGain(midRes), scaled.filterFreq(1000, midFreq), 1); high = fi.high_shelf(scaled.filterGain(highRes), scaled.filterFreq(3000, highFreq - (cutoff/50 envelope25))); }; pan_ = sp.panner(max(pan/25, 0)), sp.panner(1 + min(pan/25, 0)) :> _, _; drive_ = sp.stereoize(ef.cubicnl_nodc(drive/50, .5)); duck_(prevL, prevR) = duck(prevL), duck(prevR) with { duck(prev) = (1 - an.amp_follower_ar(0, scaled.time(duckRelease), min(1, prevduckBy/25))); }; send(amount) = sp.stereoize((amount/50)); envelope = en.adsr(scaled.time(attack), scaled.time(decay), sustain/50, scaled.time(release : smooth), gate); smooth = si.polySmooth(trigger, amount, 1) with { trigger = en.ar(0, scaled.time(release), gate) : ma.signum; };
c546568aae8564f57de548b6708ae7d6deecea2315552ddf80d01bbbf10cb511	rmichon/faustwebui	newUI3.dsp	import("stdfaust.lib"); // Declaring a "UI" allows to specify UI element metadatas outside of their // regular declaration (i.e., UI primitive). They're accessed through their // address as suggested by Albert. metadata "/synth/freq" "[type: knob][midi: ctrl 1][acc: 0 0 -10 0 10] [css: .{ color: rgb(25,36,98); width: 50%; } . > .tip{ background-color: red; } ]"; metadata "/synth/gain" "[midi: ctrl 2][acc: 1 0 -10 0 10]"; // If the generated Faust object has a web UI, the appearance of its various // elements can be configured via CSS. Each element in the UI has an ID // associated to it which corresponds to the path of the UI element in the // interface tree. Each user interface element will have a clearly documented // hierarchy allowing the programmer to override the basic design of any // element/sub-element of the UI. // In the following example, the color of the text and the // size of the freq element are changed. Additionally, the color of the // handle of the knob is modified to be red. "tip" corresponds to a standard // class that will be documented which corresponds to the "tip/notch" of the // knob. The same will be true for any other element or "element of element" of // a web interface, providing an infinite level of customization of the // interface. metadata "" "" // Potentially, the various elements declared above could be declared in a // separate file whose extension could be "dspui": import("synthUI.dspui"); // All properties correspond to the "old" metadata system and are integrated // to the JSON description of the object as well as to the buildUserInterface() // method (this system doesn't change, ensuring backward comaptibility). // UI primitives define the "type" key but are overriden when the "type" key // is defined in the UI description as above freq = nentry("freq",400,50,2000,0.01); // Key/value pairs can still be decclared as metadata gain = nentry("gain[style:knob]",0.5,0,1,0.01); gate = button("gate"); process = group("synth",os.sawtooth(freq)gaingate);	https://raw.githubusercontent.com/rmichon/faustwebui/beefaa788c3d67201f30054213b09d516a4fa3dc/newUI/newUI3.dsp	faust	Declaring a "UI" allows to specify UI element metadatas outside of their regular declaration (i.e., UI primitive). They're accessed through their address as suggested by Albert. If the generated Faust object has a web UI, the appearance of its various elements can be configured via CSS. Each element in the UI has an ID associated to it which corresponds to the path of the UI element in the interface tree. Each user interface element will have a clearly documented hierarchy allowing the programmer to override the basic design of any element/sub-element of the UI. In the following example, the color of the text and the size of the freq element are changed. Additionally, the color of the handle of the knob is modified to be red. "tip" corresponds to a standard class that will be documented which corresponds to the "tip/notch" of the knob. The same will be true for any other element or "element of element" of a web interface, providing an infinite level of customization of the interface. Potentially, the various elements declared above could be declared in a separate file whose extension could be "dspui": All properties correspond to the "old" metadata system and are integrated to the JSON description of the object as well as to the buildUserInterface() method (this system doesn't change, ensuring backward comaptibility). UI primitives define the "type" key but are overriden when the "type" key is defined in the UI description as above Key/value pairs can still be decclared as metadata	import("stdfaust.lib"); metadata "/synth/freq" "[type: knob][midi: ctrl 1][acc: 0 0 -10 0 10] [css: .{ color: rgb(25,36,98); width: 50%; } . > .tip{ background-color: red; } ]"; metadata "/synth/gain" "[midi: ctrl 2][acc: 1 0 -10 0 10]"; metadata "" "" import("synthUI.dspui"); freq = nentry("freq",400,50,2000,0.01); gain = nentry("gain[style:knob]",0.5,0,1,0.01); gate = button("gate"); process = group("synth",os.sawtooth(freq)gaingate);
1656c6104c6e471b1d22836edda279e75dc98d6e26a4ccd0ebc1f0ca186d6975	rmichon/midiHackathon	pmb.dsp	import("stdfaust.lib"); N = 30; modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; fc = (70,72,74,76,78,80,82,84); freqs(i) = ba.take(i+1,fc)-14 : ba.midikey2hz; gain = hslider("gain",1,0,1,0.01); freq = hslider("freq",200,50,2000,0.01); t60 = hslider("t60[acc: 0 0 -10 0 10]",2.5,0.01,5,0.01); scale = hslider("scale[acc: 0 0 -10 0 10]",0.5,0,1,0.01)0.3; spread = hslider("spread[acc: 1 0 0 0 10]",0.5,0,1,0.01); feedback = hslider("feedback[acc: 1 0 0 0 10]",0,0,1,0.01); delLeg = hslider("delLeg",0.1,0.01,1,0.01); gate = button("gate"); excitation = no.noiseen.ar(0.001,0.001,gate)(gain) with{ w = i+22; ctl = hslider("ctl%i[midi: ctrl %i]",0,0,1,0.01); //ctl = hslider("ctl%i[acc: 0 0 -10 0 10]",0,0,1,0.01); }; model = excitation <: par(i,N,modeFilter( freq(1+i((scale+spread)2)), t60((N-i)(1/N))^3) ((N-i)(1/N))^3) :> (1/N); process = model :> _ <: _,_;	https://raw.githubusercontent.com/rmichon/midiHackathon/9758b340666653dd7995b9ae9df304757105552a/faust/pmb.dsp	faust	ctl = hslider("ctl%i[acc: 0 0 -10 0 10]",0,0,1,0.01);	import("stdfaust.lib"); N = 30; modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; fc = (70,72,74,76,78,80,82,84); freqs(i) = ba.take(i+1,fc)-14 : ba.midikey2hz; gain = hslider("gain",1,0,1,0.01); freq = hslider("freq",200,50,2000,0.01); t60 = hslider("t60[acc: 0 0 -10 0 10]",2.5,0.01,5,0.01); scale = hslider("scale[acc: 0 0 -10 0 10]",0.5,0,1,0.01)0.3; spread = hslider("spread[acc: 1 0 0 0 10]",0.5,0,1,0.01); feedback = hslider("feedback[acc: 1 0 0 0 10]",0,0,1,0.01); delLeg = hslider("delLeg",0.1,0.01,1,0.01); gate = button("gate"); excitation = no.noiseen.ar(0.001,0.001,gate)(gain) with{ w = i+22; ctl = hslider("ctl%i[midi: ctrl %i]",0,0,1,0.01); }; model = excitation <: par(i,N,modeFilter( freq(1+i((scale+spread)2)), t60((N-i)(1/N))^3) ((N-i)(1/N))^3) :> (1/N); process = model :> _ <: _,_;
d50c8cf3950a373c7fb7dc683d76ddc24673e22b70cc3c6a660e755403a924d9	rmichon/multiKeyboard	sawSynthMIDI.dsp	declare interface "SmartKeyboard{ 'nKeyb':'1', 'maxKeybPoly':'-1', 'keyb0_nKeys':'1' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/x1",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; // filtered sawtooth sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gate*gain : si.smoo; }; process = sawSynth <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/sawSynthMIDI.dsp	faust	filtered sawtooth	declare interface "SmartKeyboard{ 'nKeyb':'1', 'maxKeybPoly':'-1', 'keyb0_nKeys':'1' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/x1",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gate*gain : si.smoo; }; process = sawSynth <: _,_;
85c5a0d6eff47d8a52a3de4dd147472182dbdffe69c57c14ec04068c79710e7b	rmichon/faustwebui	newUI2.dsp	import("stdfaust.lib"); // Declaring a "UI" allows to specify UI element metadatas outside of their // regular declaration (i.e., UI primitive). They're accessed through their // address as suggested by Albert. declare UI " /synth/freq{ type: knob; midi: ctrl 1; acc: 0 0 -10 0 10; } /synth/gain{ midi: ctrl 2; acc: 1 0 -10 0 10; } "; // If the generated Faust object has a web UI, the appearance of its various // elements can be configured via CSS. Each element in the UI has an ID // associated to it which corresponds to the path of the UI element in the // interface tree. Each user interface element will have a clearly documented // hierarchy allowing the programmer to override the basic design of any // element/sub-element of the UI. // In the following example, the color of the text and the // size of the freq element are changed. Additionally, the color of the // handle of the knob is modified to be red. "tip" corresponds to a standard // class that will be documented which corresponds to the "tip/notch" of the // knob. The same will be true for any other element or "element of element" of // a web interface, providing an infinite level of customization of the // interface. declare CSS " #synth-freq{ color: rgb(25,36,98); width: 50%; } #synth-freq > .tip{ background-color: red; } "; // Potentially, the various elements declared above could be declared in a // separate file whose extension could be "dspui": import("synthUI.dspui"); // All properties correspond to the "old" metadata system and are integrated // to the JSON description of the object as well as to the buildUserInterface() // method (this system doesn't change, ensuring backward comaptibility). // UI primitives define the "type" key but are overriden when the "type" key // is defined in the UI description as above freq = nentry("freq",400,50,2000,0.01); // Key/value pairs can still be decclared as metadata gain = nentry("gain[style:knob]",0.5,0,1,0.01); gate = button("gate"); process = group("synth",os.sawtooth(freq)gaingate);	https://raw.githubusercontent.com/rmichon/faustwebui/beefaa788c3d67201f30054213b09d516a4fa3dc/newUI/newUI2.dsp	faust	Declaring a "UI" allows to specify UI element metadatas outside of their regular declaration (i.e., UI primitive). They're accessed through their address as suggested by Albert. If the generated Faust object has a web UI, the appearance of its various elements can be configured via CSS. Each element in the UI has an ID associated to it which corresponds to the path of the UI element in the interface tree. Each user interface element will have a clearly documented hierarchy allowing the programmer to override the basic design of any element/sub-element of the UI. In the following example, the color of the text and the size of the freq element are changed. Additionally, the color of the handle of the knob is modified to be red. "tip" corresponds to a standard class that will be documented which corresponds to the "tip/notch" of the knob. The same will be true for any other element or "element of element" of a web interface, providing an infinite level of customization of the interface. Potentially, the various elements declared above could be declared in a separate file whose extension could be "dspui": All properties correspond to the "old" metadata system and are integrated to the JSON description of the object as well as to the buildUserInterface() method (this system doesn't change, ensuring backward comaptibility). UI primitives define the "type" key but are overriden when the "type" key is defined in the UI description as above Key/value pairs can still be decclared as metadata	import("stdfaust.lib"); declare UI " /synth/freq{ type: knob; midi: ctrl 1; acc: 0 0 -10 0 10; } /synth/gain{ midi: ctrl 2; acc: 1 0 -10 0 10; } "; declare CSS " #synth-freq{ color: rgb(25,36,98); width: 50%; } #synth-freq > .tip{ background-color: red; } "; import("synthUI.dspui"); freq = nentry("freq",400,50,2000,0.01); gain = nentry("gain[style:knob]",0.5,0,1,0.01); gate = button("gate"); process = group("synth",os.sawtooth(freq)gaingate);
caf279907e61ea80993e83dd8773bf5923d89783669d556e9e76b2062c62b715	rmichon/mi_faust	PhysicalLFO.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); gateT = button("gate"):ba.impulsify; in1 = gateT * 0.1; OutGain = 0.1; str_M = 1.0; str_K = 0.000001; str_Z = 0.0001; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.) : RoutingMassToLink : spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), par(i, 1,_) )~par(i, 22, _): par(i, 22,!), par(i, 1, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2, f_in1) = l0_f1, l10_f2, f_in1+l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m1,m3; }; process = in1 : model : (OutGain)no.noise ;	https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/PhysicalLFO.dsp	faust		import("stdfaust.lib"); import("../../faust/mi.lib"); gateT = button("gate"):ba.impulsify; in1 = gateT * 0.1; OutGain = 0.1; str_M = 1.0; str_K = 0.000001; str_Z = 0.0001; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.) : RoutingMassToLink : spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), par(i, 1,_) )~par(i, 22, _): par(i, 22,!), par(i, 1, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2, f_in1) = l0_f1, l10_f2, f_in1+l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m1,m3; }; process = in1 : model : (OutGain)no.noise ;
6f49ad0556e29ec962e975d4c014008d7f78e6270e54caf1ae5862820ebc658c	rmichon/multiKeyboard	sawSynth.dsp	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'10', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'13', 'keyb1_nKeys':'13', 'keyb2_nKeys':'13', 'keyb3_nKeys':'13', 'keyb4_nKeys':'13', 'keyb0_lowestKey':'77', 'keyb1_lowestKey':'72', 'keyb2_lowestKey':'67', 'keyb3_lowestKey':'62', 'keyb4_lowestKey':'57', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; // filtered sawtooth sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gate*gain : si.smoo; }; process = sawSynth <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/sawSynth.dsp	faust	filtered sawtooth	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'10', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'13', 'keyb1_nKeys':'13', 'keyb2_nKeys':'13', 'keyb3_nKeys':'13', 'keyb4_nKeys':'13', 'keyb0_lowestKey':'77', 'keyb1_lowestKey':'72', 'keyb2_lowestKey':'67', 'keyb3_lowestKey':'62', 'keyb4_lowestKey':'57', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gate*gain : si.smoo; }; process = sawSynth <: _,_;
98daae3d2bba3a28612f511549ff2f497d31eb6b850e5ec39f867c089a7937ca	rmichon/midiHackathon	pm.dsp	import("stdfaust.lib"); N = 30; modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; fc = (0, 2, 4, 5, 7, 9, 11, 12, 0, 2, 3, 5, 7, 8, 11, 12, 0, 2, 4, 6, 8, 10, 12, 14, -5, 0, 2, 4, 7, 9, 12, 14, -5, 0, 2, 3, 4, 7, 9, 12, -5, 0, 3, 5, 7, 10, 12, 16, -5, 0, 3, 4, 5, 7, 10, 12, 0, 2, 3, 5, 6, 8, 9, 11, 0, 2, 3, 6, 7, 8, 11, 12, 0, 1, 4, 5, 7, 8, 11, 12); freqs(i,j) = ba.take(i+1+j8,fc)+60 : ba.midikey2hz; /* fc = (70,72,74,76,78,80,82,84); freqs(i) = ba.take(i+1,fc) : ba.midikey2hz; / gain = hslider("gain",1,0,1,0.01); t60 = hslider("t60",2.5,0.01,5,0.01); scale = hslider("scale[acc: 0 0 -10 0 10]",0.5,0,1,0.01)0.3; spread = hslider("spread[acc: 1 0 0 0 10]",0.5,0,1,0.01); feedback = hslider("feedback[acc: 1 0 0 0 10]",0,0,1,0.01); delLeg = hslider("delLeg",0.1,0.01,1,0.01); noteScale = hslider("noteScale",0,0,9,1) : int; gate = button("gate"); excitation(i) = no.noiseen.ar(0.001,0.001,(ctl : ba.impulsify))(ctl^2) with{ w = i+22; ctl = hslider("ctl%i[midi: ctrl %i]",0,0,1,0.01); //ctl = hslider("ctl%i[acc: 0 0 -10 0 10]",0,0,1,0.01); }; model(freq,j) = excitation(j) <: par(i,N,modeFilter( freq(1+i((scale+spread)2)), t60((N-i)(1/N))^3) ((N-i)(1/N))^3) :> (1/N); echo(d,f) = +~(de.delay(65536,l)f) with{ l = ma.SRd; }; process = par(i,8,model(sum(j,10,freqs(i,j)(noteScale==j)),i)) :> echo(0.07,0.3)gain : echo(delLeg,feedback) <: _,_;	https://raw.githubusercontent.com/rmichon/midiHackathon/9758b340666653dd7995b9ae9df304757105552a/faust/pm.dsp	faust	fc = (70,72,74,76,78,80,82,84); freqs(i) = ba.take(i+1,fc) : ba.midikey2hz; ctl = hslider("ctl%i[acc: 0 0 -10 0 10]",0,0,1,0.01);	import("stdfaust.lib"); N = 30; modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; fc = (0, 2, 4, 5, 7, 9, 11, 12, 0, 2, 3, 5, 7, 8, 11, 12, 0, 2, 4, 6, 8, 10, 12, 14, -5, 0, 2, 4, 7, 9, 12, 14, -5, 0, 2, 3, 4, 7, 9, 12, -5, 0, 3, 5, 7, 10, 12, 16, -5, 0, 3, 4, 5, 7, 10, 12, 0, 2, 3, 5, 6, 8, 9, 11, 0, 2, 3, 6, 7, 8, 11, 12, 0, 1, 4, 5, 7, 8, 11, 12); freqs(i,j) = ba.take(i+1+j8,fc)+60 : ba.midikey2hz; gain = hslider("gain",1,0,1,0.01); t60 = hslider("t60",2.5,0.01,5,0.01); scale = hslider("scale[acc: 0 0 -10 0 10]",0.5,0,1,0.01)0.3; spread = hslider("spread[acc: 1 0 0 0 10]",0.5,0,1,0.01); feedback = hslider("feedback[acc: 1 0 0 0 10]",0,0,1,0.01); delLeg = hslider("delLeg",0.1,0.01,1,0.01); noteScale = hslider("noteScale",0,0,9,1) : int; gate = button("gate"); excitation(i) = no.noiseen.ar(0.001,0.001,(ctl : ba.impulsify))(ctl^2) with{ w = i+22; ctl = hslider("ctl%i[midi: ctrl %i]",0,0,1,0.01); }; model(freq,j) = excitation(j) <: par(i,N,modeFilter( freq(1+i((scale+spread)2)), t60((N-i)(1/N))^3) ((N-i)(1/N))^3) :> (1/N); echo(d,f) = +~(de.delay(65536,l)f) with{ l = ma.SRd; }; process = par(i,8,model(sum(j,10,freqs(i,j)(noteScale==j)),i)) :> echo(0.07,0.3)*gain : echo(delLeg,feedback) <: _,_;
fddb9d5f6c707ee9fd3647fdd30646432d1449ff4a64afdf96c2745ba1b5cf7a	rmichon/multiKeyboard	ex1.dsp	//###################################### ex1.dsp ######################################## // Simple Faust instrument specifically designed with `faust2smartkeyb` where 2 // parallel piano keyboards are used to control a polyphonic synthesizer. // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] ex1.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: // https://ccrma.stanford.edu/~rmichon // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% // INTERFACE DECLARATION //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% // Interface with 2 keyboards of 13 keys, one octave appart from each other declare interface "SmartKeyboard{ 'Number of Keyboards':'2', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'72', 'Keyboard 1 - Lowest Key':'60' }"; import("stdfaust.lib"); //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% // STANDARD PARAMETERS //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% freq = nentry("freq",200,40,2000,0.01); gain = nentry("gain",1,0,1,0.01); gate = button("gate"); y = nentry("y",0.5,0,1,0.01) : si.smoo; // y is always normalized between 0 and 1 //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% // MAPPING //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% cutoff = y1960+40; envelope = gategate : si.smoo; //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% // SYNTHESIS //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% process = os.sawtooth(freq)*envelope : fi.lowpass(3,cutoff) <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/doc/misc/ex1.dsp	faust	###################################### ex1.dsp ######################################## Simple Faust instrument specifically designed with `faust2smartkeyb` where 2 parallel piano keyboards are used to control a polyphonic synthesizer. ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] ex1.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: https://ccrma.stanford.edu/~rmichon MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% INTERFACE DECLARATION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Interface with 2 keyboards of 13 keys, one octave appart from each other %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% STANDARD PARAMETERS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% y is always normalized between 0 and 1 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% MAPPING %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNTHESIS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%	declare interface "SmartKeyboard{ 'Number of Keyboards':'2', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'72', 'Keyboard 1 - Lowest Key':'60' }"; import("stdfaust.lib"); freq = nentry("freq",200,40,2000,0.01); gain = nentry("gain",1,0,1,0.01); gate = button("gate"); cutoff = y1960+40; envelope = gategate : si.smoo; process = os.sawtooth(freq)*envelope : fi.lowpass(3,cutoff) <: _,_;
4920e4fc7932b64e7081d3ca89bbc5d4e3ef48af920b50e2c6c3bce7669150ce	rmichon/multiKeyboard	guitar.dsp	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'1', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'13', 'keyb1_nKeys':'13', 'keyb2_nKeys':'13', 'keyb3_nKeys':'13', 'keyb4_nKeys':'13', 'keyb0_lowestKey':'72', 'keyb1_lowestKey':'67', 'keyb2_lowestKey':'62', 'keyb3_lowestKey':'57', 'keyb4_lowestKey':'52', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; // simple ks ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { diffgtz(x) = x!=x'; //' decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); ppdel = betaP; // pick position delay pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)) : fi.lowpass(2,50+y4000); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)0.1 + 0.9; }; process = ks <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/guitar.dsp	faust	simple ks ' pick position delay	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'1', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'13', 'keyb1_nKeys':'13', 'keyb2_nKeys':'13', 'keyb3_nKeys':'13', 'keyb4_nKeys':'13', 'keyb0_lowestKey':'72', 'keyb1_lowestKey':'67', 'keyb2_lowestKey':'62', 'keyb3_lowestKey':'57', 'keyb4_lowestKey':'52', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)) : fi.lowpass(2,50+y4000); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)*0.1 + 0.9; }; process = ks <: _,_;
54b88ea68c83167bba23c186aae8e60238937497ed915bad5894fff31473433e	rmichon/multiKeyboard	guitarMajor.dsp	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'1', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'8', 'keyb1_nKeys':'8', 'keyb2_nKeys':'8', 'keyb3_nKeys':'8', 'keyb4_nKeys':'8', 'keyb0_lowestKey':'88', 'keyb1_lowestKey':'76', 'keyb2_lowestKey':'64', 'keyb3_lowestKey':'52', 'keyb4_lowestKey':'40', 'keyb0_scale':'2', 'keyb1_scale':'2', 'keyb2_scale':'2', 'keyb3_scale':'2', 'keyb4_scale':'2', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; // simple ks ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { diffgtz(x) = x!=x'; //' decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); ppdel = betaP; // pick position delay pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)) : fi.lowpass(2,50+y4000); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)0.1 + 0.9; }; process = ks <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/guitarMajor.dsp	faust	simple ks ' pick position delay	declare interface "SmartKeyboard{ 'nKeyb':'5', 'maxKeybPoly':'1', 'interKeybSlideAllowed':'1', 'monoMode':'1', 'keyb0_nKeys':'8', 'keyb1_nKeys':'8', 'keyb2_nKeys':'8', 'keyb3_nKeys':'8', 'keyb4_nKeys':'8', 'keyb0_lowestKey':'88', 'keyb1_lowestKey':'76', 'keyb2_lowestKey':'64', 'keyb3_lowestKey':'52', 'keyb4_lowestKey':'40', 'keyb0_scale':'2', 'keyb1_scale':'2', 'keyb2_scale':'2', 'keyb3_scale':'2', 'keyb4_scale':'2', 'quantizationMode':'2' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)) : fi.lowpass(2,50+y4000); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)*0.1 + 0.9; }; process = ks <: _,_;
18a180da6002c71653fde400be6d0134451ebe5ba2d2434b970b4e9fa0ab0065	rmichon/multiKeyboard	trumpet.dsp	//################################### trumpet.dsp ##################################### // A simple trumpet app... (for large screens). // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] -effect reverb.dsp trumpet.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## import("stdfaust.lib"); declare interface "SmartKeyboard{ 'Number of Keyboards':'5', 'Max Keyboard Polyphony':'1', 'Inter-Keyboard Slide':'1', 'Mono Mode':'1', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 2 - Number of Keys':'13', 'Keyboard 3 - Number of Keys':'13', 'Keyboard 4 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'77', 'Keyboard 1 - Lowest Key':'72', 'Keyboard 2 - Lowest Key':'67', 'Keyboard 3 - Lowest Key':'62', 'Keyboard 4 - Lowest Key':'57', 'Rounding Mode':'2' }"; // standard parameters f = hslider("freq",300,50,2000,0.01); bend = hslider("bend[midi:pitchwheel]",1,0,10,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("gain",1,0,1,0.01); s = hslider("sustain[midi:ctrl 64]",0,0,1,1); // for sustain pedal t = button("gate"); y = hslider("y[midi:ctrl 1]",1,0,1,0.001) : si.smoo; // fomating parameters gate = t+s : min(1); freq = fbend; cutoff = y4000+50; envelope = gategain : si.smoo; process = os.sawtooth(freq)envelope : fi.lowpass(3,cutoff) <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/trumpet.dsp	faust	################################### trumpet.dsp ##################################### A simple trumpet app... (for large screens). ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] -effect reverb.dsp trumpet.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## standard parameters for sustain pedal fomating parameters	import("stdfaust.lib"); declare interface "SmartKeyboard{ 'Number of Keyboards':'5', 'Max Keyboard Polyphony':'1', 'Inter-Keyboard Slide':'1', 'Mono Mode':'1', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 2 - Number of Keys':'13', 'Keyboard 3 - Number of Keys':'13', 'Keyboard 4 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'77', 'Keyboard 1 - Lowest Key':'72', 'Keyboard 2 - Lowest Key':'67', 'Keyboard 3 - Lowest Key':'62', 'Keyboard 4 - Lowest Key':'57', 'Rounding Mode':'2' }"; f = hslider("freq",300,50,2000,0.01); bend = hslider("bend[midi:pitchwheel]",1,0,10,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("gain",1,0,1,0.01); t = button("gate"); y = hslider("y[midi:ctrl 1]",1,0,1,0.001) : si.smoo; gate = t+s : min(1); freq = fbend; cutoff = y4000+50; envelope = gategain : si.smoo; process = os.sawtooth(freq)envelope : fi.lowpass(3,cutoff) <: _,_;
fecdfdd052c2bf06c5db6b6de7352314b6b3123fbfba2146900004b72e1f2af8	rmichon/multiKeyboard	djembe.dsp	declare interface "SmartKeyboard{ 'nKeyb':'2', 'keyb0_nKeys':'2', 'keyb1_nKeys':'1', 'keyb0_keybMode':'0', 'keyb1_keybMode':'0' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; // djembe physical model djembe = (noiseburst(gate,ma.SR/(300)))exGain : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (0.1) with{ N = 20; theta = hslider("v:synth/v:djembe/angle",0,-1ma.PI,ma.PI,0.001); exGain = hslider("v:synth/v:djembe/exGain",1,0,1,0.01); t60Scaler = hslider("v:synth/v:djembe/t60Scaler",1,0,1,0.01); bFreq = hslider("v:synth/v:djembe/baseFreq",60,40,500,0.01); exPos = min((x2-1 : abs),(y2-1 : abs)); j = 2-(keyboard2+key); baseFreq = bFreq(j+1); modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; inGains(i) = cos((i+1)theta)/float(i+1); mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)); noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { diffgtz(x) = x!=x'; //' decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); ppdel = betaP; // pick position delay pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq*(j+1); }; }; process = djembe <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/djembe.dsp	faust	djembe physical model ' pick position delay	declare interface "SmartKeyboard{ 'nKeyb':'2', 'keyb0_nKeys':'2', 'keyb1_nKeys':'1', 'keyb0_keybMode':'0', 'keyb1_keybMode':'0' }"; import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; djembe = (noiseburst(gate,ma.SR/(300)))exGain : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (0.1) with{ N = 20; theta = hslider("v:synth/v:djembe/angle",0,-1ma.PI,ma.PI,0.001); exGain = hslider("v:synth/v:djembe/exGain",1,0,1,0.01); t60Scaler = hslider("v:synth/v:djembe/t60Scaler",1,0,1,0.01); bFreq = hslider("v:synth/v:djembe/baseFreq",60,40,500,0.01); exPos = min((x2-1 : abs),(y2-1 : abs)); j = 2-(keyboard2+key); baseFreq = bFreq(j+1); modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; inGains(i) = cos((i+1)theta)/float(i+1); mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)); noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; }; process = djembe <: _,_;
c5af8e08f69972096505e145d879f0a4d0e15f1fdc0d07c6ab346b66dae3b4d5	rmichon/multiKeyboard	synthMulti.dsp	import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; synthSelect = hslider("v:synth/v:globalParams/synthSelect",0,0,2,1) : int; // filtered sawtooth sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gategain : si.smoo; }; // filtered square squareSynth = os.square(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gategain : si.smoo; }; // simple ks ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { diffgtz(x) = x!=x'; //' decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); ppdel = betaP; // pick position delay pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)0.1 + 0.9; }; // djembe physical model djembe = (noiseburst(gate,ma.SR/(300)))exGain : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (0.1) with{ N = 20; theta = hslider("v:synth/v:djembe/angle",0,-1ma.PI,ma.PI,0.001); exGain = hslider("v:synth/v:djembe/exGain",1,0,1,0.01); t60Scaler = hslider("v:synth/v:djembe/t60Scaler",1,0,1,0.01); bFreq = hslider("v:synth/v:djembe/baseFreq",60,40,500,0.01); exPos = min((x2-1 : abs),(y2-1 : abs)); j = 2-(keyboard2+key); baseFreq = bFreq(j+1); modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; inGains(i) = cos((i+1)theta)/float(i+1); mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)); noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { diffgtz(x) = x!=x'; //' decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); ppdel = betaP; // pick position delay pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; }; synths = (sawSynth,squareSynth,ks,djembe); process = par(i,ba.count(synths),ba.take(i+1,synths) : control(synthSelect==i)) :> _ <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/full/synthMulti.dsp	faust	filtered sawtooth filtered square simple ks ' pick position delay djembe physical model ' pick position delay	import("stdfaust.lib"); freq = hslider("v:synth/v:standardParams/freq",300,50,2000,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("v:synth/v:standardParams/gain",1,0,1,0.01); gate = button("v:synth/v:standardParams/gate"); x = hslider("v:synth/v:standardParams/x",1,0,1,0.001); y = hslider("v:synth/v:standardParams/y",1,0,1,0.001); keyboard = hslider("v:synth/v:standardParams/keyboard",0,0,1,1) : int; key = hslider("v:synth/v:standardParams/key",0,0,1,1) : int; synthSelect = hslider("v:synth/v:globalParams/synthSelect",0,0,2,1) : int; sawSynth = os.sawtooth(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gategain : si.smoo; }; squareSynth = os.square(freq) : fi.lowpass(3,cutoff) : (envelope) with{ cutoff = y5000+50 : si.smoo; envelope = gategain : si.smoo; }; ks = excitation : +~(de.fdelay4(delMax,delLength) <: (_+_')/2 : (damping)) with{ delMax = 1024; delLength = ma.SR/freq; noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; excitation = noiseburst(gate,ma.SR/(300)); damping = hslider("v:synth/v:string/damping",0.9,0,1,0.01)0.1 + 0.9; }; djembe = (noiseburst(gate,ma.SR/(300)))exGain : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (0.1) with{ N = 20; theta = hslider("v:synth/v:djembe/angle",0,-1ma.PI,ma.PI,0.001); exGain = hslider("v:synth/v:djembe/exGain",1,0,1,0.01); t60Scaler = hslider("v:synth/v:djembe/t60Scaler",1,0,1,0.01); bFreq = hslider("v:synth/v:djembe/baseFreq",60,40,500,0.01); exPos = min((x2-1 : abs),(y2-1 : abs)); j = 2-(keyboard2+key); baseFreq = bFreq(j+1); modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; inGains(i) = cos((i+1)theta)/float(i+1); mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)); noiseburst(g,P) = no.noise : (g : ba.impulsify : trigger(P)) with { decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); pickposfilter = fi.ffcombfilter(4096,ppdel,-1); baseFreq = freq(j+1); }; }; synths = (sawSynth,squareSynth,ks,djembe); process = par(i,ba.count(synths),ba.take(i+1,synths) : control(synthSelect==i)) :> _ <: _,_;
5867e20cc018704d43f5e7bbf9a46f80d7445d6a3424ee9c2a39b71e869f3485	rmichon/multiKeyboard	toy.dsp	//##################################### toy.dsp ####################################### // Faust sound toy specifically designed for `faust2smartkeyb` where a funny // synth can be controlled using several fingers on the screen and the built-in // accelerometer. // // ## `SmartKeyboard` Use Strategy // // We just want a blank screen where the position of the different fingers on // the screen can be tracked and retrieved in the Faust object. For that, we // create one keyboard with one key, that should fill the screen. We ask the // interface to not compute the `freq` and `bend` parameters to save // computation by setting `'Keyboard 0 - Send Freq':'0'`. We don't want the // color of the key to change when it is touched so we deactivate the // `Piano Keyboard` mode. Fingers should be numbered to be able to use the // numbered `x` and `y` parameters (`x0`, `y0`, `x1`, etc.), so `Count Fingers` // is enabled. Finally, by setting `Max Keyboard Polyphony` to 0, we deactivate // the voice allocation system and we automatically start a voice when the app // is launched. This means that fingers are no longer associated to specific voices. // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] toy.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: // https://ccrma.stanford.edu/~rmichon // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## // X/Y interface: one keyboard with one key // freq and bend are not computed // fingers are counted // voice is launched on startup declare interface "SmartKeyboard{ 'Number of Keyboards':'1', 'Max Keyboard Polyphony':'0', 'Keyboard 0 - Number of Keys':'1', 'Keyboard 0 - Send Freq':'0', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 0 - Count Fingers':'1' }"; import("stdfaust.lib"); // parameters x0 = hslider("x0",0.5,0,1,0.01) : si.smoo; y0 = hslider("y0",0.5,0,1,0.01) : si.smoo; y1 = hslider("y1",0,0,1,0.01) : si.smoo; q = hslider("q[acc: 0 0 -10 0 10]",30,10,50,0.01) : si.smoo; del = hslider("del[acc: 0 0 -10 0 10]",0.5,0.01,1,0.01) : si.smoo; fb = hslider("fb[acc: 1 0 -10 0 10]",0.5,0,1,0.01) : si.smoo; // mapping impFreq = 2 + x020; resFreq = y03000+300; // simple echo effect echo = +~(de.delay(65536,delma.SR)fb); // putting it together process = os.lf_imptrain(impFreq) : fi.resonlp(resFreq,q,1) : echo : ef.cubicnl(y1,0)*0.95 <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/toy.dsp	faust	##################################### toy.dsp ####################################### Faust sound toy specifically designed for `faust2smartkeyb` where a funny synth can be controlled using several fingers on the screen and the built-in accelerometer. ## `SmartKeyboard` Use Strategy We just want a blank screen where the position of the different fingers on the screen can be tracked and retrieved in the Faust object. For that, we create one keyboard with one key, that should fill the screen. We ask the interface to not compute the `freq` and `bend` parameters to save computation by setting `'Keyboard 0 - Send Freq':'0'`. We don't want the color of the key to change when it is touched so we deactivate the `Piano Keyboard` mode. Fingers should be numbered to be able to use the numbered `x` and `y` parameters (`x0`, `y0`, `x1`, etc.), so `Count Fingers` is enabled. Finally, by setting `Max Keyboard Polyphony` to 0, we deactivate the voice allocation system and we automatically start a voice when the app is launched. This means that fingers are no longer associated to specific voices. ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] toy.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: https://ccrma.stanford.edu/~rmichon MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## X/Y interface: one keyboard with one key freq and bend are not computed fingers are counted voice is launched on startup parameters mapping simple echo effect putting it together	declare interface "SmartKeyboard{ 'Number of Keyboards':'1', 'Max Keyboard Polyphony':'0', 'Keyboard 0 - Number of Keys':'1', 'Keyboard 0 - Send Freq':'0', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 0 - Count Fingers':'1' }"; import("stdfaust.lib"); x0 = hslider("x0",0.5,0,1,0.01) : si.smoo; y0 = hslider("y0",0.5,0,1,0.01) : si.smoo; y1 = hslider("y1",0,0,1,0.01) : si.smoo; q = hslider("q[acc: 0 0 -10 0 10]",30,10,50,0.01) : si.smoo; del = hslider("del[acc: 0 0 -10 0 10]",0.5,0.01,1,0.01) : si.smoo; fb = hslider("fb[acc: 1 0 -10 0 10]",0.5,0,1,0.01) : si.smoo; impFreq = 2 + x020; resFreq = y03000+300; echo = +~(de.delay(65536,delma.SR)fb); process = os.lf_imptrain(impFreq) : fi.resonlp(resFreq,q,1) : echo : ef.cubicnl(y1,0)*0.95 <: _,_;
16d6b98e64424d8862067f8cf67af6390c53e2c7dd6e46cda46336da9f2fee13	rmichon/multiKeyboard	elecGuitar.dsp	//################################### elecGuitar.dsp ##################################### // Faust instruments specifically designed for `faust2smartkeyb` where an electric // guitar physical model is controlled using an isomorphic keyboard. Rock on! // // ## `SmartKeyboard` Use Strategy // // we want to create an isomorphic keyboard where each keyboard is monophonic and // implements a "string". Keyboards should be one fourth apart from each other // (more or less like on a guitar). We want to be able to slide between keyboards // (strum) to trigger a new note (voice) and we want new fingers on a keyboard to // "steal" the pitch from the previous finger (sort of hammer on). // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] -effect elecGuitarEffecr.dsp elecGuitar.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: // https://ccrma.stanford.edu/~rmichon // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## // Interface with 6 monophonic keyboards one fourth apart from each other declare interface "SmartKeyboard{ 'Number of Keyboards':'6', 'Max Keyboard Polyphony':'1', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 2 - Number of Keys':'13', 'Keyboard 3 - Number of Keys':'13', 'Keyboard 4 - Number of Keys':'13', 'Keyboard 5 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'72', 'Keyboard 1 - Lowest Key':'67', 'Keyboard 2 - Lowest Key':'62', 'Keyboard 3 - Lowest Key':'57', 'Keyboard 4 - Lowest Key':'52', 'Keyboard 5 - Lowest Key':'47', 'Rounding Mode':'2' }"; import("stdfaust.lib"); // standard parameters f = hslider("freq",300,50,2000,0.01); bend = hslider("bend[midi:pitchwheel]",1,0,10,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("gain",1,0,1,0.01); s = hslider("sustain[midi:ctrl 64]",0,0,1,1); // for sustain pedal t = button("gate"); // mapping params gate = t+s : min(1); freq = fbend : max(60); // min freq is 60 Hz // noise excitation triggered by gate, the excitation duration is controlled // by breq noiseburst = no.noise : (gate : ba.impulsify : trigger(P)) with { P = ma.SR/(freq+300); diffgtz(x) = x != x'; decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); }; // string waveguide with fractional delay string = +~(de.fdelay4(2048,n) : bridge(brightness,resDuration)) with{ // string parameters brightness = 0.3; // (0-1) resDuration = 8(gate : si.smoo); // in secs n = ma.SR/freq; // bridge reflection filter bridge(B,t60,x) = dampingFilter(rho,h0,h1,x) with{ dampingFilter(rho,h0,h1,x) = rho (h0 * x' + h1(x+x'')); h0 = (1.0 + B)/2; h1 = (1.0 - B)/4; rho = pow(0.001,1.0/(freqt60)); }; }; // putting it all together process = noiseburst : fi.lowpass(2,freq*5) : string <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/elecGuitar.dsp	faust	################################### elecGuitar.dsp ##################################### Faust instruments specifically designed for `faust2smartkeyb` where an electric guitar physical model is controlled using an isomorphic keyboard. Rock on! ## `SmartKeyboard` Use Strategy we want to create an isomorphic keyboard where each keyboard is monophonic and implements a "string". Keyboards should be one fourth apart from each other (more or less like on a guitar). We want to be able to slide between keyboards (strum) to trigger a new note (voice) and we want new fingers on a keyboard to "steal" the pitch from the previous finger (sort of hammer on). ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] -effect elecGuitarEffecr.dsp elecGuitar.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017: https://ccrma.stanford.edu/~rmichon MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## Interface with 6 monophonic keyboards one fourth apart from each other standard parameters for sustain pedal mapping params min freq is 60 Hz noise excitation triggered by gate, the excitation duration is controlled by breq string waveguide with fractional delay string parameters (0-1) in secs bridge reflection filter putting it all together	declare interface "SmartKeyboard{ 'Number of Keyboards':'6', 'Max Keyboard Polyphony':'1', 'Keyboard 0 - Number of Keys':'13', 'Keyboard 1 - Number of Keys':'13', 'Keyboard 2 - Number of Keys':'13', 'Keyboard 3 - Number of Keys':'13', 'Keyboard 4 - Number of Keys':'13', 'Keyboard 5 - Number of Keys':'13', 'Keyboard 0 - Lowest Key':'72', 'Keyboard 1 - Lowest Key':'67', 'Keyboard 2 - Lowest Key':'62', 'Keyboard 3 - Lowest Key':'57', 'Keyboard 4 - Lowest Key':'52', 'Keyboard 5 - Lowest Key':'47', 'Rounding Mode':'2' }"; import("stdfaust.lib"); f = hslider("freq",300,50,2000,0.01); bend = hslider("bend[midi:pitchwheel]",1,0,10,0.01) : si.polySmooth(gate,0.999,1); gain = hslider("gain",1,0,1,0.01); t = button("gate"); gate = t+s : min(1); noiseburst = no.noise : (gate : ba.impulsify : trigger(P)) with { P = ma.SR/(freq+300); diffgtz(x) = x != x'; decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); }; string = +~(de.fdelay4(2048,n) : bridge(brightness,resDuration)) with{ n = ma.SR/freq; bridge(B,t60,x) = dampingFilter(rho,h0,h1,x) with{ dampingFilter(rho,h0,h1,x) = rho (h0 * x' + h1(x+x'')); h0 = (1.0 + B)/2; h1 = (1.0 - B)/4; rho = pow(0.001,1.0/(freqt60)); }; }; process = noiseburst : fi.lowpass(2,freq*5) : string <: _,_;
fdfc5a6ab7d110ad07161c7cae33985434859f4d197bca35a5d1a60467ff5478	rmichon/multiKeyboard	drums.dsp	//##################################### drums.dsp ######################################## // Faust instrument specifically designed for `faust2smartkeyb` where 3 drums can // be controlled using pads. The X/Y postion of fingers is detected on each key // and use to control the strike postion on the virtual membrane. // // ## `SmartKeyboard` Use Strategy // // The drum physical model used here is implemented to be generic so that its // fundamental frequency can be changed for each voice. `SamrtKeyboard` is used // in polyphonic mode so each new strike on the interface corresponds to a new // new voice. // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] -effect reverb.dsp drums.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## // Interface with 2 keyboards of 2 and 1 keys (3 pads) // Static mode is used so that keys don't change color when touched // Note labels are hidden // Piano Keyboard mode is deactivated so all the keys look the same declare interface "SmartKeyboard{ 'Number of Keyboards':'2', 'Keyboard 0 - Number of Keys':'2', 'Keyboard 1 - Number of Keys':'1', 'Keyboard 0 - Static Mode':'1', 'Keyboard 1 - Static Mode':'1', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 0 - Key 0 - Label':'High', 'Keyboard 0 - Key 1 - Label':'Mid', 'Keyboard 1 - Key 0 - Label':'Low' }"; import("stdfaust.lib"); // standard parameters gate = button("gate"); x = hslider("x",1,0,1,0.001); y = hslider("y",1,0,1,0.001); keyboard = hslider("keyboard",0,0,1,1) : int; key = hslider("key",0,0,1,1) : int; // drum modal physical model drum = excitation <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (outGain) with{ // number of modes N = 20; // angle theta = 0; // resonance duration t60Scaler = 1; // frequency of the lowest drum bFreq = 60; // output gain (should be changed in function of the number of drums and modes) outGain = 0.1; // excitation position exPos = min((x2-1 : abs),(y2-1 : abs)); // retrieving pad number (0-2) j = 2-(keyboard2+key); // drum root freq is computed in function of pad number baseFreq = bFreq(j+1); // computing the gain of each filter inGains(i) = cos((i+1)theta)/float(i+1); // computing each modes, why is this done like this, cus it sounds goooood... mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)) with{ // biquad taking freq and t60 as arguments modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; }; // excitation: filtered noise burst. filters change in function of x/y position excitation = noiseburst : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) with{ // noise excitation noiseburst = no.noise : *(gate : ba.impulsify : trigger(P)) with { P = ma.SR/300; diffgtz(x) = x != x'; decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); }; }; }; process = drum <: _,_;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/drums.dsp	faust	##################################### drums.dsp ######################################## Faust instrument specifically designed for `faust2smartkeyb` where 3 drums can be controlled using pads. The X/Y postion of fingers is detected on each key and use to control the strike postion on the virtual membrane. ## `SmartKeyboard` Use Strategy The drum physical model used here is implemented to be generic so that its fundamental frequency can be changed for each voice. `SamrtKeyboard` is used in polyphonic mode so each new strike on the interface corresponds to a new new voice. ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] -effect reverb.dsp drums.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## Interface with 2 keyboards of 2 and 1 keys (3 pads) Static mode is used so that keys don't change color when touched Note labels are hidden Piano Keyboard mode is deactivated so all the keys look the same standard parameters drum modal physical model number of modes angle resonance duration frequency of the lowest drum output gain (should be changed in function of the number of drums and modes) excitation position retrieving pad number (0-2) drum root freq is computed in function of pad number computing the gain of each filter computing each modes, why is this done like this, cus it sounds goooood... biquad taking freq and t60 as arguments excitation: filtered noise burst. filters change in function of x/y position noise excitation	declare interface "SmartKeyboard{ 'Number of Keyboards':'2', 'Keyboard 0 - Number of Keys':'2', 'Keyboard 1 - Number of Keys':'1', 'Keyboard 0 - Static Mode':'1', 'Keyboard 1 - Static Mode':'1', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 0 - Key 0 - Label':'High', 'Keyboard 0 - Key 1 - Label':'Mid', 'Keyboard 1 - Key 0 - Label':'Low' }"; import("stdfaust.lib"); gate = button("gate"); x = hslider("x",1,0,1,0.001); y = hslider("y",1,0,1,0.001); keyboard = hslider("keyboard",0,0,1,1) : int; key = hslider("key",0,0,1,1) : int; drum = excitation <: par(i,N,mode(i,baseFreq,t60Scaler)) :> (outGain) with{ N = 20; theta = 0; t60Scaler = 1; bFreq = 60; outGain = 0.1; exPos = min((x2-1 : abs),(y2-1 : abs)); j = 2-(keyboard2+key); baseFreq = bFreq(j+1); inGains(i) = cos((i+1)theta)/float(i+1); mode(i,baseFreq,t60) = (inGains(i)) : modeFilter(baseFreq+(200i),(N-i)t600.03)(1/(i+1)) with{ modeFilter(f,t60) = fi.tf2(b0,b1,b2,a1,a2) with{ b0 = 1; b1 = 0; b2 = -1; w = 2ma.PIf/ma.SR; r = pow(0.001,1/float(t60ma.SR)); a1 = -2rcos(w); a2 = r^2; }; }; excitation = noiseburst : fi.highpass(2,40+exPos500) : fi.lowpass(2,500+exPos15000) with{ noiseburst = no.noise : *(gate : ba.impulsify : trigger(P)) with { P = ma.SR/300; diffgtz(x) = x != x'; decay(n,x) = x - (x>0)/n; release(n) = + ~ decay(n); trigger(n) = diffgtz : release(n) : > (0.0); }; }; }; process = drum <: _,_;
3207ec6f11a6f662536f060c4b4e66bd61940eb9c41b12bc184ad91bb68e31f6	rmichon/multiKeyboard	crazyGuiro.dsp	//################################### crazyGuiro.dsp ##################################### // A simple smart phone "Guiro" where the touch screen is used to drive the instrument and // select its pitch and where the x and y axis of the accelerometer control the // resonance properties of the instrument. // // ## `SmartKeyboard` Use Strategy // // Since the sounds generated by this synth are very short, the strategy here is to take // advantage of the polyphony capabilities of the iOSKeyboard architecture by creating // a new voice every time a new key is pressed. Since the `SmartKeyboard` interface has a // large number of keys here (128), lots of sounds are generated when sliding a // finger across the keyboard. Also, it's interesting to notice that the `freq` parameter // is not used here. Instead `keyboard` and `key` are used which allows us to easily // make custom mappings. // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] crazyGuiro.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## import("stdfaust.lib"); //========================= Smart Keyboard Configuration ================================= // 8 keyboards, each has 16 keys, none of them display key names. //======================================================================================== declare interface "SmartKeyboard{ 'Number of Keyboards':'8', 'Keyboard 0 - Number of Keys':'16', 'Keyboard 1 - Number of Keys':'16', 'Keyboard 2 - Number of Keys':'16', 'Keyboard 3 - Number of Keys':'16', 'Keyboard 4 - Number of Keys':'16', 'Keyboard 5 - Number of Keys':'16', 'Keyboard 6 - Number of Keys':'16', 'Keyboard 7 - Number of Keys':'16', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 2 - Piano Keyboard':'0', 'Keyboard 3 - Piano Keyboard':'0', 'Keyboard 4 - Piano Keyboard':'0', 'Keyboard 5 - Piano Keyboard':'0', 'Keyboard 6 - Piano Keyboard':'0', 'Keyboard 7 - Piano Keyboard':'0' }"; //================================ Instrument Parameters ================================= // Creates the connection between the synth and the mobile device //======================================================================================== // the current keyboard keyboard = hslider("keyboard",0,0,2,1); // the current key of the current keyboard key = hslider("key",0,0,2,1); // the wet factor of the reverb wet = hslider("wet[acc: 0 0 -10 0 10]",0,0,1,0.01); // the resonance factor of the reverb res = hslider("res[acc: 1 0 -10 0 10]",0.5,0,1,0.01); // smart keyboard gate parameter gate = button("gate"); //=================================== Parameters Mapping ================================= //======================================================================================== // the resonance frequency of each click of the Guiro changes in function of // the selected keyboard and key on it minKey = 50; // min key of lowest keyboard keySkipKeyboard = 8; // key skip per keyboard drumResFreq = (key+minKey)+(keyboardkeySkipKeyboard) : ba.midikey2hz; reverbWet = wet : si.smoo; reverbRes = wet : si.smoo; // filter q q = 8; //============================================ DSP ======================================= //======================================================================================== reverb(wet,res) = _ <: (1-wet),(*(wet) : re.mono_freeverb(res, 0.5, 0.5, 0)) :> _; process = sy.popFilterDrum(drumResFreq,q,gate) : reverb(wet,res);	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/crazyGuiro.dsp	faust	################################### crazyGuiro.dsp ##################################### A simple smart phone "Guiro" where the touch screen is used to drive the instrument and select its pitch and where the x and y axis of the accelerometer control the resonance properties of the instrument. ## `SmartKeyboard` Use Strategy Since the sounds generated by this synth are very short, the strategy here is to take advantage of the polyphony capabilities of the iOSKeyboard architecture by creating a new voice every time a new key is pressed. Since the `SmartKeyboard` interface has a large number of keys here (128), lots of sounds are generated when sliding a finger across the keyboard. Also, it's interesting to notice that the `freq` parameter is not used here. Instead `keyboard` and `key` are used which allows us to easily make custom mappings. ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] crazyGuiro.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## ========================= Smart Keyboard Configuration ================================= 8 keyboards, each has 16 keys, none of them display key names. ======================================================================================== ================================ Instrument Parameters ================================= Creates the connection between the synth and the mobile device ======================================================================================== the current keyboard the current key of the current keyboard the wet factor of the reverb the resonance factor of the reverb smart keyboard gate parameter =================================== Parameters Mapping ================================= ======================================================================================== the resonance frequency of each click of the Guiro changes in function of the selected keyboard and key on it min key of lowest keyboard key skip per keyboard filter q ============================================ DSP ======================================= ========================================================================================	import("stdfaust.lib"); declare interface "SmartKeyboard{ 'Number of Keyboards':'8', 'Keyboard 0 - Number of Keys':'16', 'Keyboard 1 - Number of Keys':'16', 'Keyboard 2 - Number of Keys':'16', 'Keyboard 3 - Number of Keys':'16', 'Keyboard 4 - Number of Keys':'16', 'Keyboard 5 - Number of Keys':'16', 'Keyboard 6 - Number of Keys':'16', 'Keyboard 7 - Number of Keys':'16', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 2 - Piano Keyboard':'0', 'Keyboard 3 - Piano Keyboard':'0', 'Keyboard 4 - Piano Keyboard':'0', 'Keyboard 5 - Piano Keyboard':'0', 'Keyboard 6 - Piano Keyboard':'0', 'Keyboard 7 - Piano Keyboard':'0' }"; keyboard = hslider("keyboard",0,0,2,1); key = hslider("key",0,0,2,1); wet = hslider("wet[acc: 0 0 -10 0 10]",0,0,1,0.01); res = hslider("res[acc: 1 0 -10 0 10]",0.5,0,1,0.01); gate = button("gate"); drumResFreq = (key+minKey)+(keyboardkeySkipKeyboard) : ba.midikey2hz; reverbWet = wet : si.smoo; reverbRes = wet : si.smoo; q = 8; reverb(wet,res) = _ <: (1-wet),(*(wet) : re.mono_freeverb(res, 0.5, 0.5, 0)) :> _; process = sy.popFilterDrum(drumResFreq,q,gate) : reverb(wet,res);
615bf32ff5aa4e0809c5fcf2bfaefde2cf482659d71c085ca95a15d02bb2d038	rmichon/multiKeyboard	turenas.dsp	//################################### turenas.dsp ######################################## // A simple smart phone percussion based on an additive synthesizer. // // ## `SmartKeyboard` Use Strategy // // Since the sounds generated by this synth are very short, the strategy here is to take // advantage of the polyphony capabilities of the iOSKeyboard architecture by creating // a new voice every time a new key is pressed. Since the `SmartKeyboard` interface has a // large number of keys here (180), lots of sounds are generated when sliding a // finger across the keyboard. // // // ## Compilation Instructions // // This Faust code will compile fine with any of the standard Faust targets. However // it was specifically designed to be used with `faust2smartkeyb`. For best results, // we recommend to use the following parameters to compile it: // // ``` // faust2smartkeyb [-ios/-android] turenas.dsp // ``` // // ## Version/Licence // // Version 0.0, Feb. 2017 // Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 // MIT Licence: https://opensource.org/licenses/MIT //######################################################################################## declare name "turenas"; import("stdfaust.lib"); //========================= Smart Keyboard Configuration ================================= // (10 keyboards with 18 keys each configured as a pitch matrix. //======================================================================================== declare interface "SmartKeyboard{ 'Number of Keyboards':'10', 'Keyboard 0 - Number of Keys':'18', 'Keyboard 1 - Number of Keys':'18', 'Keyboard 2 - Number of Keys':'18', 'Keyboard 3 - Number of Keys':'18', 'Keyboard 4 - Number of Keys':'18', 'Keyboard 5 - Number of Keys':'18', 'Keyboard 6 - Number of Keys':'18', 'Keyboard 7 - Number of Keys':'18', 'Keyboard 8 - Number of Keys':'18', 'Keyboard 9 - Number of Keys':'18', 'Keyboard 0 - Lowest Key':'50', 'Keyboard 1 - Lowest Key':'55', 'Keyboard 2 - Lowest Key':'60', 'Keyboard 3 - Lowest Key':'65', 'Keyboard 4 - Lowest Key':'70', 'Keyboard 5 - Lowest Key':'75', 'Keyboard 6 - Lowest Key':'80', 'Keyboard 7 - Lowest Key':'85', 'Keyboard 8 - Lowest Key':'90', 'Keyboard 9 - Lowest Key':'95', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 2 - Piano Keyboard':'0', 'Keyboard 3 - Piano Keyboard':'0', 'Keyboard 4 - Piano Keyboard':'0', 'Keyboard 5 - Piano Keyboard':'0', 'Keyboard 6 - Piano Keyboard':'0', 'Keyboard 7 - Piano Keyboard':'0', 'Keyboard 8 - Piano Keyboard':'0', 'Keyboard 9 - Piano Keyboard':'0' }"; //================================ Instrument Parameters ================================= // Creates the connection between the synth and the mobile device //======================================================================================== // SmartKeyboard Y parameter y = hslider("y",0,0,1,0.01); // Smart Keyboard frequency parameter freq = hslider("freq",400,50,2000,0.01); // SmartKeyboard gate parameter gate = button("gate"); // mode resonance duration is controlled with the x axis of the accelerometer res = hslider("res[acc: 0 0 -10 0 10]",2.5,0.01,5,0.01); //=================================== Parameters Mapping ================================= //======================================================================================== // number of modes nModes = 6; // distance between each mode maxModeSpread = 5; modeSpread = ymaxModeSpread; // computing modes frequency ratio modeFreqRatios = par(i,nModes,1+(i+1)/nModesmodeSpread); // computing modes gain minModeGain = 0.3; modeGains = par(i,nModes,1-(i+1)/(nModesminModeGain)); // smoothed mode resonance modeRes = res : si.smoo; //============================================ DSP ======================================= //======================================================================================== process = sy.additiveDrum(freq,modeFreqRatios,modeGains,0.8,0.001,modeRes,gate)0.05;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/turenas.dsp	faust	################################### turenas.dsp ######################################## A simple smart phone percussion based on an additive synthesizer. ## `SmartKeyboard` Use Strategy Since the sounds generated by this synth are very short, the strategy here is to take advantage of the polyphony capabilities of the iOSKeyboard architecture by creating a new voice every time a new key is pressed. Since the `SmartKeyboard` interface has a large number of keys here (180), lots of sounds are generated when sliding a finger across the keyboard. ## Compilation Instructions This Faust code will compile fine with any of the standard Faust targets. However it was specifically designed to be used with `faust2smartkeyb`. For best results, we recommend to use the following parameters to compile it: ``` faust2smartkeyb [-ios/-android] turenas.dsp ``` ## Version/Licence Version 0.0, Feb. 2017 Copyright Romain Michon CCRMA (Stanford University)/GRAME 2017 MIT Licence: https://opensource.org/licenses/MIT ######################################################################################## ========================= Smart Keyboard Configuration ================================= (10 keyboards with 18 keys each configured as a pitch matrix. ======================================================================================== ================================ Instrument Parameters ================================= Creates the connection between the synth and the mobile device ======================================================================================== SmartKeyboard Y parameter Smart Keyboard frequency parameter SmartKeyboard gate parameter mode resonance duration is controlled with the x axis of the accelerometer =================================== Parameters Mapping ================================= ======================================================================================== number of modes distance between each mode computing modes frequency ratio computing modes gain smoothed mode resonance ============================================ DSP ======================================= ========================================================================================	declare name "turenas"; import("stdfaust.lib"); declare interface "SmartKeyboard{ 'Number of Keyboards':'10', 'Keyboard 0 - Number of Keys':'18', 'Keyboard 1 - Number of Keys':'18', 'Keyboard 2 - Number of Keys':'18', 'Keyboard 3 - Number of Keys':'18', 'Keyboard 4 - Number of Keys':'18', 'Keyboard 5 - Number of Keys':'18', 'Keyboard 6 - Number of Keys':'18', 'Keyboard 7 - Number of Keys':'18', 'Keyboard 8 - Number of Keys':'18', 'Keyboard 9 - Number of Keys':'18', 'Keyboard 0 - Lowest Key':'50', 'Keyboard 1 - Lowest Key':'55', 'Keyboard 2 - Lowest Key':'60', 'Keyboard 3 - Lowest Key':'65', 'Keyboard 4 - Lowest Key':'70', 'Keyboard 5 - Lowest Key':'75', 'Keyboard 6 - Lowest Key':'80', 'Keyboard 7 - Lowest Key':'85', 'Keyboard 8 - Lowest Key':'90', 'Keyboard 9 - Lowest Key':'95', 'Keyboard 0 - Piano Keyboard':'0', 'Keyboard 1 - Piano Keyboard':'0', 'Keyboard 2 - Piano Keyboard':'0', 'Keyboard 3 - Piano Keyboard':'0', 'Keyboard 4 - Piano Keyboard':'0', 'Keyboard 5 - Piano Keyboard':'0', 'Keyboard 6 - Piano Keyboard':'0', 'Keyboard 7 - Piano Keyboard':'0', 'Keyboard 8 - Piano Keyboard':'0', 'Keyboard 9 - Piano Keyboard':'0' }"; 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 = ymaxModeSpread; modeFreqRatios = par(i,nModes,1+(i+1)/nModesmodeSpread); minModeGain = 0.3; modeGains = par(i,nModes,1-(i+1)/(nModesminModeGain)); modeRes = res : si.smoo; process = sy.additiveDrum(freq,modeFreqRatios,modeGains,0.8,0.001,modeRes,gate)0.05;
d0f20d8f742dc12022014abc18c7fbaf705810a304580faf8f178ab15f873ef9	rmichon/mi_faust	Resonator.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = _; OutGain = 10.; str_M = 1.0; str_K = vslider("pitch",0.3,0.001, 0.5,0.0001) : si.smoo; str_Z = vslider("damping",0.01,0.0001, 0.5,0.0001) : si.smoo; model = (RoutingLinkToMass: ground(0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), posInput(0.) : RoutingMassToLink : spring(str_K,str_Z, 0, 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), par(i, 1,_) )~par(i, 62, _): par(i, 62,!), par(i, 1, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2, p_in1) = l30_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l0_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31) = m31, m1, m1, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m0,m30; }; process = in1: model: *(OutGain);	https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/Resonator.dsp	faust		import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = _; OutGain = 10.; str_M = 1.0; str_K = vslider("pitch",0.3,0.001, 0.5,0.0001) : si.smoo; str_Z = vslider("damping",0.01,0.0001, 0.5,0.0001) : si.smoo; model = (RoutingLinkToMass: ground(0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), posInput(0.) : RoutingMassToLink : spring(str_K,str_Z, 0, 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), par(i, 1,_) )~par(i, 62, _): par(i, 62,!), par(i, 1, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2, p_in1) = l30_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l0_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31) = m31, m1, m1, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m0,m30; }; process = in1: model: *(OutGain);
1b99241e4d0178b1d78b37df963ab57fcecc03f38c26368458e783020fca7140	rmichon/multiKeyboard	djembe_effect.dsp	import("stdfaust.lib"); myZita = _,_ <: re.zita_rev1_stereo(rdel,f1,f2,t60dc,t60m,fsmax),_,_ : out_eq,_,_ : dry_wet : out_level with{ fsmax = 48000.0; // highest sampling rate that will be used fdn_group(x) = hgroup( "[0] Zita_Rev1 [tooltip: ~ ZITA REV1 FEEDBACK DELAY NETWORK (FDN) & SCHROEDER ALLPASS-COMB REVERBERATOR (8x8). See Faust's reverbs.lib for documentation and references]", x); in_group(x) = fdn_group(hgroup("[1] Input", x)); rdel = in_group(vslider("[1] In Delay [unit:ms] [style:knob] [tooltip: Delay in ms before reverberation begins]",60,20,100,1)); freq_group(x) = fdn_group(hgroup("[2] Decay Times in Bands (see tooltips)", x)); f1 = freq_group(vslider("[1] LF X [unit:Hz] [style:knob] [scale:log] [tooltip: Crossover frequency (Hz) separating low and middle frequencies]", 200, 50, 1000, 1)); t60dc = freq_group(vslider("[2] Low RT60 [unit:s] [style:knob] [scale:log] [style:knob] [tooltip: T60 = time (in seconds) to decay 60dB in low-frequency band]", 3, 1, 8, 0.1)); t60m = freq_group(vslider("[3] Mid RT60 [unit:s] [style:knob] [scale:log] [tooltip: T60 = time (in seconds) to decay 60dB in middle band]",2, 1, 8, 0.1)); f2 = freq_group(vslider("[4] HF Damping [unit:Hz] [style:knob] [scale:log] [tooltip: Frequency (Hz) at which the high-frequency T60 is half the middle-band's T60]", 6000, 1500, 0.49fsmax, 1)); out_eq = pareq_stereo(eq1f,eq1l,eq1q) : pareq_stereo(eq2f,eq2l,eq2q); // Zolzer style peaking eq (not used in zita-rev1) (filters.lib): // pareq_stereo(eqf,eql,Q) = peak_eq(eql,eqf,eqf/Q), peak_eq(eql,eqf,eqf/Q); // Regalia-Mitra peaking eq with "Q" hard-wired near sqrt(g)/2 (filters.lib): pareq_stereo(eqf,eql,Q) = fi.peak_eq_rm(eql,eqf,tpbt), fi.peak_eq_rm(eql,eqf,tpbt) with { tpbt = wcT/sqrt(max(0,g)); // tan(PIB/SR), B bw in Hz (Q^2 ~ g/4) wcT = 2ma.PIeqf/ma.SR; // peak frequency in rad/sample g = ba.db2linear(eql); // peak gain }; eq1_group(x) = fdn_group(hgroup("[3] RM Peaking Equalizer 1", x)); eq1f = eq1_group(vslider("[1] Eq1 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 1]", 315, 40, 2500, 1)); eq1l = eq1_group(vslider("[2] Eq1 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 1]", 0, -15, 15, 0.1)); eq1q = eq1_group(vslider("[3] Eq1 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 1]", 3, 0.1, 10, 0.1)); eq2_group(x) = fdn_group(hgroup("[4] RM Peaking Equalizer 2", x)); eq2f = eq2_group(vslider("[1] Eq2 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 2]", 1500, 160, 10000, 1)); eq2l = eq2_group(vslider("[2] Eq2 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 2]", 0, -15, 15, 0.1)); eq2q = eq2_group(vslider("[3] Eq2 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 2]", 3, 0.1, 10, 0.1)); out_group(x) = fdn_group(hgroup("[5] Output", x)); dry_wet(x,y) = (wet) + dryx, (wet) + dryy with { wet = 0.5(drywet+1.0); dry = 1.0-wet; }; drywet = out_group(vslider("[1] Dry/Wet Mix [style:knob] [tooltip: -1 = dry, 1 = wet]", 0, -1.0, 1.0, 0.01)) : si.smoo; out_level = (gain),*(gain); gain = out_group(vslider("[2] Level [unit:dB] [style:knob] [tooltip: Output scale factor]", -3, -70, 40, 0.1)) : ba.db2linear : si.smoo; }; process = myZita;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/djembe_effect.dsp	faust	highest sampling rate that will be used Zolzer style peaking eq (not used in zita-rev1) (filters.lib): pareq_stereo(eqf,eql,Q) = peak_eq(eql,eqf,eqf/Q), peak_eq(eql,eqf,eqf/Q); Regalia-Mitra peaking eq with "Q" hard-wired near sqrt(g)/2 (filters.lib): tan(PI*B/SR), B bw in Hz (Q^2 ~ g/4) peak frequency in rad/sample peak gain	import("stdfaust.lib"); myZita = _,_ <: re.zita_rev1_stereo(rdel,f1,f2,t60dc,t60m,fsmax),_,_ : out_eq,_,_ : dry_wet : out_level with{ fdn_group(x) = hgroup( "[0] Zita_Rev1 [tooltip: ~ ZITA REV1 FEEDBACK DELAY NETWORK (FDN) & SCHROEDER ALLPASS-COMB REVERBERATOR (8x8). See Faust's reverbs.lib for documentation and references]", x); in_group(x) = fdn_group(hgroup("[1] Input", x)); rdel = in_group(vslider("[1] In Delay [unit:ms] [style:knob] [tooltip: Delay in ms before reverberation begins]",60,20,100,1)); freq_group(x) = fdn_group(hgroup("[2] Decay Times in Bands (see tooltips)", x)); f1 = freq_group(vslider("[1] LF X [unit:Hz] [style:knob] [scale:log] [tooltip: Crossover frequency (Hz) separating low and middle frequencies]", 200, 50, 1000, 1)); t60dc = freq_group(vslider("[2] Low RT60 [unit:s] [style:knob] [scale:log] [style:knob] [tooltip: T60 = time (in seconds) to decay 60dB in low-frequency band]", 3, 1, 8, 0.1)); t60m = freq_group(vslider("[3] Mid RT60 [unit:s] [style:knob] [scale:log] [tooltip: T60 = time (in seconds) to decay 60dB in middle band]",2, 1, 8, 0.1)); f2 = freq_group(vslider("[4] HF Damping [unit:Hz] [style:knob] [scale:log] [tooltip: Frequency (Hz) at which the high-frequency T60 is half the middle-band's T60]", 6000, 1500, 0.49fsmax, 1)); out_eq = pareq_stereo(eq1f,eq1l,eq1q) : pareq_stereo(eq2f,eq2l,eq2q); pareq_stereo(eqf,eql,Q) = fi.peak_eq_rm(eql,eqf,tpbt), fi.peak_eq_rm(eql,eqf,tpbt) with { }; eq1_group(x) = fdn_group(hgroup("[3] RM Peaking Equalizer 1", x)); eq1f = eq1_group(vslider("[1] Eq1 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 1]", 315, 40, 2500, 1)); eq1l = eq1_group(vslider("[2] Eq1 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 1]", 0, -15, 15, 0.1)); eq1q = eq1_group(vslider("[3] Eq1 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 1]", 3, 0.1, 10, 0.1)); eq2_group(x) = fdn_group(hgroup("[4] RM Peaking Equalizer 2", x)); eq2f = eq2_group(vslider("[1] Eq2 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 2]", 1500, 160, 10000, 1)); eq2l = eq2_group(vslider("[2] Eq2 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 2]", 0, -15, 15, 0.1)); eq2q = eq2_group(vslider("[3] Eq2 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 2]", 3, 0.1, 10, 0.1)); out_group(x) = fdn_group(hgroup("[5] Output", x)); dry_wet(x,y) = (wet) + dryx, (wet) + dryy with { wet = 0.5(drywet+1.0); dry = 1.0-wet; }; drywet = out_group(vslider("[1] Dry/Wet Mix [style:knob] [tooltip: -1 = dry, 1 = wet]", 0, -1.0, 1.0, 0.01)) : si.smoo; out_level = (gain),(gain); gain = out_group(vslider("[2] Level [unit:dB] [style:knob] [tooltip: Output scale factor]", -3, -70, 40, 0.1)) : ba.db2linear : si.smoo; }; process = myZita;
80a7af03aed3aa5ede540ab21a131eb0e3d895fc3215aa143d2d1e611a11f52b	rmichon/multiKeyboard	guitarMajor_effect.dsp	import("stdfaust.lib"); myZita = _,_ <: re.zita_rev1_stereo(rdel,f1,f2,t60dc,t60m,fsmax),_,_ : out_eq,_,_ : dry_wet : out_level with{ fsmax = 48000.0; // highest sampling rate that will be used fdn_group(x) = hgroup( "[0] Zita_Rev1 [tooltip: ~ ZITA REV1 FEEDBACK DELAY NETWORK (FDN) & SCHROEDER ALLPASS-COMB REVERBERATOR (8x8). See Faust's reverbs.lib for documentation and references]", x); in_group(x) = fdn_group(hgroup("[1] Input", x)); rdel = in_group(vslider("[1] In Delay [unit:ms] [style:knob] [tooltip: Delay in ms before reverberation begins]",60,20,100,1)); freq_group(x) = fdn_group(hgroup("[2] Decay Times in Bands (see tooltips)", x)); f1 = freq_group(vslider("[1] LF X [unit:Hz] [style:knob] [scale:log] [tooltip: Crossover frequency (Hz) separating low and middle frequencies]", 200, 50, 1000, 1)); t60dc = freq_group(vslider("[2] Low RT60 [unit:s] [style:knob] [scale:log] [style:knob] [tooltip: T60 = time (in seconds) to decay 60dB in low-frequency band]", 3, 1, 8, 0.1)); t60m = freq_group(vslider("[3] Mid RT60 [unit:s] [style:knob] [scale:log] [tooltip: T60 = time (in seconds) to decay 60dB in middle band]",2, 1, 8, 0.1)); f2 = freq_group(vslider("[4] HF Damping [unit:Hz] [style:knob] [scale:log] [tooltip: Frequency (Hz) at which the high-frequency T60 is half the middle-band's T60]", 6000, 1500, 0.49fsmax, 1)); out_eq = pareq_stereo(eq1f,eq1l,eq1q) : pareq_stereo(eq2f,eq2l,eq2q); // Zolzer style peaking eq (not used in zita-rev1) (filters.lib): // pareq_stereo(eqf,eql,Q) = peak_eq(eql,eqf,eqf/Q), peak_eq(eql,eqf,eqf/Q); // Regalia-Mitra peaking eq with "Q" hard-wired near sqrt(g)/2 (filters.lib): pareq_stereo(eqf,eql,Q) = fi.peak_eq_rm(eql,eqf,tpbt), fi.peak_eq_rm(eql,eqf,tpbt) with { tpbt = wcT/sqrt(max(0,g)); // tan(PIB/SR), B bw in Hz (Q^2 ~ g/4) wcT = 2ma.PIeqf/ma.SR; // peak frequency in rad/sample g = ba.db2linear(eql); // peak gain }; eq1_group(x) = fdn_group(hgroup("[3] RM Peaking Equalizer 1", x)); eq1f = eq1_group(vslider("[1] Eq1 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 1]", 315, 40, 2500, 1)); eq1l = eq1_group(vslider("[2] Eq1 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 1]", 0, -15, 15, 0.1)); eq1q = eq1_group(vslider("[3] Eq1 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 1]", 3, 0.1, 10, 0.1)); eq2_group(x) = fdn_group(hgroup("[4] RM Peaking Equalizer 2", x)); eq2f = eq2_group(vslider("[1] Eq2 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 2]", 1500, 160, 10000, 1)); eq2l = eq2_group(vslider("[2] Eq2 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 2]", 0, -15, 15, 0.1)); eq2q = eq2_group(vslider("[3] Eq2 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 2]", 3, 0.1, 10, 0.1)); out_group(x) = fdn_group(hgroup("[5] Output", x)); dry_wet(x,y) = (wet) + dryx, (wet) + dryy with { wet = 0.5(drywet+1.0); dry = 1.0-wet; }; drywet = out_group(vslider("[1] Dry/Wet Mix [style:knob] [tooltip: -1 = dry, 1 = wet]", 0, -1.0, 1.0, 0.01)) : si.smoo; out_level = (gain),(gain); gain = out_group(vslider("[2] Level [unit:dB] [style:knob] [tooltip: Output scale factor]", -3, -70, 40, 0.1)) : ba.db2linear : si.smoo; }; w = hslider("v:synth/v:standardParams/y",1,0,1,0.001)2000; process = ef.cubicnl(0.7,0)0.5,ef.cubicnl(0.7,0)0.5 : ve.wah4(w), ve.wah4(w) : myZita;	https://raw.githubusercontent.com/rmichon/multiKeyboard/7d04f591fac974a91e4b322c3cb757b8cbb50443/faust/examples/demoNAMM/guitarMajor_effect.dsp	faust	highest sampling rate that will be used Zolzer style peaking eq (not used in zita-rev1) (filters.lib): pareq_stereo(eqf,eql,Q) = peak_eq(eql,eqf,eqf/Q), peak_eq(eql,eqf,eqf/Q); Regalia-Mitra peaking eq with "Q" hard-wired near sqrt(g)/2 (filters.lib): tan(PI*B/SR), B bw in Hz (Q^2 ~ g/4) peak frequency in rad/sample peak gain	import("stdfaust.lib"); myZita = _,_ <: re.zita_rev1_stereo(rdel,f1,f2,t60dc,t60m,fsmax),_,_ : out_eq,_,_ : dry_wet : out_level with{ fdn_group(x) = hgroup( "[0] Zita_Rev1 [tooltip: ~ ZITA REV1 FEEDBACK DELAY NETWORK (FDN) & SCHROEDER ALLPASS-COMB REVERBERATOR (8x8). See Faust's reverbs.lib for documentation and references]", x); in_group(x) = fdn_group(hgroup("[1] Input", x)); rdel = in_group(vslider("[1] In Delay [unit:ms] [style:knob] [tooltip: Delay in ms before reverberation begins]",60,20,100,1)); freq_group(x) = fdn_group(hgroup("[2] Decay Times in Bands (see tooltips)", x)); f1 = freq_group(vslider("[1] LF X [unit:Hz] [style:knob] [scale:log] [tooltip: Crossover frequency (Hz) separating low and middle frequencies]", 200, 50, 1000, 1)); t60dc = freq_group(vslider("[2] Low RT60 [unit:s] [style:knob] [scale:log] [style:knob] [tooltip: T60 = time (in seconds) to decay 60dB in low-frequency band]", 3, 1, 8, 0.1)); t60m = freq_group(vslider("[3] Mid RT60 [unit:s] [style:knob] [scale:log] [tooltip: T60 = time (in seconds) to decay 60dB in middle band]",2, 1, 8, 0.1)); f2 = freq_group(vslider("[4] HF Damping [unit:Hz] [style:knob] [scale:log] [tooltip: Frequency (Hz) at which the high-frequency T60 is half the middle-band's T60]", 6000, 1500, 0.49fsmax, 1)); out_eq = pareq_stereo(eq1f,eq1l,eq1q) : pareq_stereo(eq2f,eq2l,eq2q); pareq_stereo(eqf,eql,Q) = fi.peak_eq_rm(eql,eqf,tpbt), fi.peak_eq_rm(eql,eqf,tpbt) with { }; eq1_group(x) = fdn_group(hgroup("[3] RM Peaking Equalizer 1", x)); eq1f = eq1_group(vslider("[1] Eq1 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 1]", 315, 40, 2500, 1)); eq1l = eq1_group(vslider("[2] Eq1 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 1]", 0, -15, 15, 0.1)); eq1q = eq1_group(vslider("[3] Eq1 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 1]", 3, 0.1, 10, 0.1)); eq2_group(x) = fdn_group(hgroup("[4] RM Peaking Equalizer 2", x)); eq2f = eq2_group(vslider("[1] Eq2 Freq [unit:Hz] [style:knob] [scale:log] [tooltip: Center-frequency of second-order Regalia-Mitra peaking equalizer section 2]", 1500, 160, 10000, 1)); eq2l = eq2_group(vslider("[2] Eq2 Level [unit:dB] [style:knob] [tooltip: Peak level in dB of second-order Regalia-Mitra peaking equalizer section 2]", 0, -15, 15, 0.1)); eq2q = eq2_group(vslider("[3] Eq2 Q [style:knob] [tooltip: Q = centerFrequency/bandwidth of second-order peaking equalizer section 2]", 3, 0.1, 10, 0.1)); out_group(x) = fdn_group(hgroup("[5] Output", x)); dry_wet(x,y) = (wet) + dryx, (wet) + dryy with { wet = 0.5(drywet+1.0); dry = 1.0-wet; }; drywet = out_group(vslider("[1] Dry/Wet Mix [style:knob] [tooltip: -1 = dry, 1 = wet]", 0, -1.0, 1.0, 0.01)) : si.smoo; out_level = (gain),(gain); gain = out_group(vslider("[2] Level [unit:dB] [style:knob] [tooltip: Output scale factor]", -3, -70, 40, 0.1)) : ba.db2linear : si.smoo; }; w = hslider("v:synth/v:standardParams/y",1,0,1,0.001)2000; process = ef.cubicnl(0.7,0)0.5,ef.cubicnl(0.7,0)*0.5 : ve.wah4(w), ve.wah4(w) : myZita;
f5980cc913d5b7ceab59d21d9f0ac5ff37d052ef973efdf3a499d15c2c23b80d	rmichon/mi_faust	BowedString.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = hslider("pos",1,-1,1,0.0001) : si.smoo; //write a specific position input signal operation here OutGain = 200.; low_M = 1.0; low_K = hslider("stiffess",0.1,0.001,0.5,0.0001) : si.smoo; low_Z = 0.001; nlZ = hslider("nlZ",0.1,0.001,0.5,0.0001) : si.smoo; nlscale = 0.00005; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), posInput(1.) : RoutingMassToLink : spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), nlBow(nlZ,nlscale, 0, 0.), par(i, 2,_) )~par(i, 304, _): par(i, 304,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2, p_in1) = l0_f1, l150_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1, l38_f2+l39_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1, l51_f2+l52_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1, l76_f2+l77_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1+l151_f2, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l151_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m1, m152, m135,m32,m42; }; process = in1: model: (OutGain), (OutGain);	https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/BowedString.dsp	faust	write a specific position input signal operation here	import("stdfaust.lib"); import("../../faust/mi.lib"); OutGain = 200.; low_M = 1.0; low_K = hslider("stiffess",0.1,0.001,0.5,0.0001) : si.smoo; low_Z = 0.001; nlZ = hslider("nlZ",0.1,0.001,0.5,0.0001) : si.smoo; nlscale = 0.00005; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), posInput(1.) : RoutingMassToLink : spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), nlBow(nlZ,nlscale, 0, 0.), par(i, 2,_) )~par(i, 304, _): par(i, 304,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2, p_in1) = l0_f1, l150_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1, l38_f2+l39_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1, l51_f2+l52_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1, l76_f2+l77_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1+l151_f2, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l151_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m1, m152, m135,m32,m42; }; process = in1: model: (OutGain), (OutGain);
2960c88c0e5c16c31c54873742a962b68275dcd6661977823c9c84f3c8c2f61e	rmichon/mi_faust	PluckedHarmonics.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = vslider("pos",1,-1,1,0.0001) : si.smoo; in2 = vslider("pos2",1,-1,1,0.0001) : si.smoo; in3 = vslider("pos3",1,-1,1,0.0001) : si.smoo; in4 = vslider("pos4",1,-1,1,0.0001) : si.smoo; OutGain = 10.; low_M = 1.0; low_K = 0.5; low_Z = 0.01; nlK = 0.1; nlscale = 0.05; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), posInput(0.), posInput(0.), posInput(0.), posInput(0.) : RoutingMassToLink : spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 316, _): par(i, 316,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2, p_in1, p_in2, p_in3, p_in4) = l0_f1, l150_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1+l151_f1, l38_f2+l39_f1+l152_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1+l153_f1, l51_f2+l52_f1+l154_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1+l155_f1, l76_f2+l77_f1+l156_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1+l157_f2, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l157_f1, p_in1, l151_f2+l152_f2, p_in2, l153_f2+l154_f2, p_in3, l155_f2+l156_f2, p_in4; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m1, m39, m153, m40, m153, m52, m154, m53, m154, m77, m155, m78, m155, m152, m142,m22,m12; }; process = in1, in2, in3, in4: model: (OutGain), (OutGain);	https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/PluckedHarmonics.dsp	faust		import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = vslider("pos",1,-1,1,0.0001) : si.smoo; in2 = vslider("pos2",1,-1,1,0.0001) : si.smoo; in3 = vslider("pos3",1,-1,1,0.0001) : si.smoo; in4 = vslider("pos4",1,-1,1,0.0001) : si.smoo; OutGain = 10.; low_M = 1.0; low_K = 0.5; low_Z = 0.01; nlK = 0.1; nlscale = 0.05; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), mass(low_M,0., 0.), posInput(0.), posInput(0.), posInput(0.), posInput(0.) : RoutingMassToLink : spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), spring(low_K,low_Z, 0., 0.), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 316, _): par(i, 316,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2, p_in1, p_in2, p_in3, p_in4) = l0_f1, l150_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1+l151_f1, l38_f2+l39_f1+l152_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1+l153_f1, l51_f2+l52_f1+l154_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1+l155_f1, l76_f2+l77_f1+l156_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1+l157_f2, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l157_f1, p_in1, l151_f2+l152_f2, p_in2, l153_f2+l154_f2, p_in3, l155_f2+l156_f2, p_in4; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m1, m39, m153, m40, m153, m52, m154, m53, m154, m77, m155, m78, m155, m152, m142,m22,m12; }; process = in1, in2, in3, in4: model: (OutGain), (OutGain);
c522beb59464f0f5319b7e32d4bb278710b978b2af72dd8d0296b8aeeafc3170	rmichon/mi_faust	LargeTriangleMesh.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = vslider("pos",1,-1,1,0.0001) : si.smoo; in2 = vslider("pos2",1,-1,1,0.0001) : si.smoo; in3 = vslider("pos3",1,-1,1,0.0001) : si.smoo; in4 = vslider("pos4",1,-1,1,0.0001) : si.smoo; OutGain = 50; nlK = 0.1; nlscale = 0.03; tri_M = 1.0; tri_K = 0.1; tri_Z = 0.0005; model = (RoutingLinkToMass: ground(0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), 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spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 1814, _): par(i, 1814,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l637_f2,l638_f1,l638_f2,l639_f1,l639_f2,l640_f1,l640_f2,l641_f1,l641_f2,l642_f1,l642_f2,l643_f1,l643_f2,l644_f1,l644_f2,l645_f1,l645_f2,l646_f1,l646_f2,l647_f1,l647_f2,l648_f1,l648_f2,l649_f1,l649_f2,l650_f1,l650_f2,l651_f1,l651_f2,l652_f1,l652_f2,l653_f1,l653_f2,l654_f1,l654_f2,l655_f1,l655_f2,l656_f1,l656_f2,l657_f1,l657_f2,l658_f1,l658_f2,l659_f1,l659_f2,l660_f1,l660_f2,l661_f1,l661_f2,l662_f1,l662_f2,l663_f1,l663_f2,l664_f1,l664_f2,l665_f1,l665_f2,l666_f1,l666_f2,l667_f1,l667_f2,l668_f1,l668_f2,l669_f1,l669_f2,l670_f1,l670_f2,l671_f1,l671_f2,l672_f1,l672_f2,l673_f1,l673_f2,l674_f1,l674_f2,l675_f1,l675_f2,l676_f1,l676_f2,l677_f1,l677_f2,l678_f1,l678_f2,l679_f1,l679_f2,l680_f1,l680_f2,l681_f1,l681_f2,l682_f1,l682_f2,l683_f1,l683_f2,l684_f1,l684_f2,l685_f1,l685_f2,l686_f1,l686_f2,l687_f1,l687_f2,l688_f1,l688_f2,l689_f1,l689_f2,l690_f1,l690_f2,l691_f1,l691_f2,l692_f1,l692_f2,l693_f1,l693_f2,l694_f1,l694_f2,l695_f1,l695_f2,l696_f1,l696_f2,l697_f1,l697_f2,l698_f1,l698_f2,l699_f1,l699_f2,l700_f1,l700_f2,l701_f1,l701_f2,l702_f1,l702_f2,l703_f1,l703_f2,l704_f1,l704_f2,l705_f1,l705_f2,l706_f1,l706_f2,l707_f1,l707_f2,l708_f1,l708_f2,l709_f1,l709_f2,l710_f1,l710_f2,l711_f1,l711_f2,l712_f1,l712_f2,l713_f1,l713_f2,l714_f1,l714_f2,l715_f1,l715_f2,l716_f1,l716_f2,l717_f1,l717_f2,l718_f1,l718_f2,l719_f1,l719_f2,l720_f1,l720_f2,l721_f1,l721_f2,l722_f1,l722_f2,l723_f1,l723_f2,l724_f1,l724_f2,l725_f1,l725_f2,l726_f1,l726_f2,l727_f1,l727_f2,l728_f1,l728_f2,l729_f1,l729_f2,l730_f1,l730_f2,l731_f1,l731_f2,l732_f1,l732_f2,l733_f1,l733_f2,l734_f1,l734_f2,l735_f1,l735_f2,l736_f1,l736_f2,l737_f1,l737_f2,l738_f1,l738_f2,l739_f1,l739_f2,l740_f1,l740_f2,l741_f1,l741_f2,l742_f1,l742_f2,l743_f1,l743_f2,l744_f1,l744_f2,l745_f1,l745_f2,l746_f1,l746_f2,l747_f1,l747_f2,l748_f1,l748_f2,l749_f1,l749_f2,l750_f1,l750_f2,l751_f1,l751_f2,l752_f1,l752_f2,l753_f1,l753_f2,l754_f1,l754_f2,l755_f1,l755_f2,l756_f1,l756_f2,l757_f1,l757_f2,l758_f1,l758_f2,l759_f1,l759_f2,l760_f1,l760_f2,l761_f1,l761_f2,l762_f1,l762_f2,l763_f1,l763_f2,l764_f1,l764_f2,l765_f1,l765_f2,l766_f1,l766_f2,l767_f1,l767_f2,l768_f1,l768_f2,l769_f1,l769_f2,l770_f1,l770_f2,l771_f1,l771_f2,l772_f1,l772_f2,l773_f1,l773_f2,l774_f1,l774_f2,l775_f1,l775_f2,l776_f1,l776_f2,l777_f1,l777_f2,l778_f1,l778_f2,l779_f1,l779_f2,l780_f1,l780_f2,l781_f1,l781_f2,l782_f1,l782_f2,l783_f1,l783_f2,l784_f1,l784_f2,l785_f1,l785_f2,l786_f1,l786_f2,l787_f1,l787_f2,l788_f1,l788_f2,l789_f1,l789_f2,l790_f1,l790_f2,l791_f1,l791_f2,l792_f1,l792_f2,l793_f1,l793_f2,l794_f1,l794_f2,l795_f1,l795_f2,l796_f1,l796_f2,l797_f1,l797_f2,l798_f1,l798_f2,l799_f1,l799_f2,l800_f1,l800_f2,l801_f1,l801_f2,l802_f1,l802_f2,l803_f1,l803_f2,l804_f1,l804_f2,l805_f1,l805_f2,l806_f1,l806_f2,l807_f1,l807_f2,l808_f1,l808_f2,l809_f1,l809_f2,l810_f1,l810_f2,l811_f1,l811_f2,l812_f1,l812_f2,l813_f1,l813_f2,l814_f1,l814_f2,l815_f1,l815_f2,l816_f1,l816_f2,l817_f1,l817_f2,l818_f1,l818_f2,l819_f1,l819_f2,l820_f1,l820_f2,l821_f1,l821_f2,l822_f1,l822_f2,l823_f1,l823_f2,l824_f1,l824_f2,l825_f1,l825_f2,l826_f1,l826_f2,l827_f1,l827_f2,l828_f1,l828_f2,l829_f1,l829_f2,l830_f1,l830_f2,l831_f1,l831_f2,l832_f1,l832_f2,l833_f1,l833_f2,l834_f1,l834_f2,l835_f1,l835_f2,l836_f1,l836_f2,l837_f1,l837_f2,l838_f1,l838_f2,l839_f1,l839_f2,l840_f1,l840_f2,l841_f1,l841_f2,l842_f1,l842_f2,l843_f1,l843_f2,l844_f1,l844_f2,l845_f1,l845_f2,l846_f1,l846_f2,l847_f1,l847_f2,l848_f1,l848_f2,l849_f1,l849_f2,l850_f1,l850_f2,l851_f1,l851_f2,l852_f1,l852_f2,l853_f1,l853_f2,l854_f1,l854_f2,l855_f1,l855_f2,l856_f1,l856_f2,l857_f1,l857_f2,l858_f1,l858_f2,l859_f1,l859_f2,l860_f1,l860_f2,l861_f1,l861_f2,l862_f1,l862_f2,l863_f1,l863_f2,l864_f1,l864_f2,l865_f1,l865_f2,l866_f1,l866_f2,l867_f1,l867_f2,l868_f1,l868_f2,l869_f1,l869_f2,l870_f1,l870_f2,l871_f1,l871_f2,l872_f1,l872_f2,l873_f1,l873_f2,l874_f1,l874_f2,l875_f1,l875_f2,l876_f1,l876_f2,l877_f1,l877_f2,l878_f1,l878_f2,l879_f1,l879_f2,l880_f1,l880_f2,l881_f1,l881_f2,l882_f1,l882_f2,l883_f1,l883_f2,l884_f1,l884_f2,l885_f1,l885_f2,l886_f1,l886_f2,l887_f1,l887_f2,l888_f1,l888_f2,l889_f1,l889_f2,l890_f1,l890_f2,l891_f1,l891_f2,l892_f1,l892_f2,l893_f1,l893_f2,l894_f1,l894_f2,l895_f1,l895_f2,l896_f1,l896_f2,l897_f1,l897_f2,l898_f1,l898_f2,l899_f1,l899_f2,l900_f1,l900_f2,l901_f1,l901_f2,l902_f1,l902_f2,l903_f1,l903_f2,l904_f1,l904_f2,l905_f1,l905_f2,l906_f1,l906_f2, p_in1, p_in2, p_in3, p_in4) = l0_f1+l300_f1, l0_f2+l1_f1+l301_f1+l600_f1, l1_f2+l2_f1+l302_f1+l601_f1, l2_f2+l3_f1+l303_f1+l602_f1, l3_f2+l4_f1+l304_f1+l603_f1, l4_f2+l5_f1+l305_f1+l604_f1, l5_f2+l6_f1+l306_f1+l605_f1, l6_f2+l7_f1+l307_f1+l606_f1, l7_f2+l8_f1+l308_f1+l607_f1, l8_f2+l9_f1+l309_f1+l608_f1, l9_f2+l10_f1+l310_f1+l609_f1, l10_f2+l11_f1+l311_f1+l610_f1, l11_f2+l12_f1+l312_f1+l611_f1, l12_f2+l13_f1+l313_f1+l612_f1, l13_f2+l14_f1+l314_f1+l613_f1, l14_f2+l15_f1+l315_f1+l614_f1, l15_f2+l16_f1+l316_f1+l615_f1, l16_f2+l17_f1+l317_f1+l616_f1, l17_f2+l18_f1+l318_f1+l617_f1, l18_f2+l19_f1+l319_f1+l618_f1, l19_f2+l20_f1+l320_f1+l619_f1, l20_f2+l21_f1+l321_f1+l620_f1, l21_f2+l22_f1+l322_f1+l621_f1, l22_f2+l23_f1+l323_f1+l622_f1, l23_f2+l623_f1, l24_f1+l300_f2+l324_f1+l600_f2, l24_f2+l25_f1+l301_f2+l325_f1+l601_f2+l624_f1, l25_f2+l26_f1+l302_f2+l326_f1+l602_f2+l625_f1, l26_f2+l27_f1+l303_f2+l327_f1+l603_f2+l626_f1, l27_f2+l28_f1+l304_f2+l328_f1+l604_f2+l627_f1, l28_f2+l29_f1+l305_f2+l329_f1+l605_f2+l628_f1, l29_f2+l30_f1+l306_f2+l330_f1+l606_f2+l629_f1, l30_f2+l31_f1+l307_f2+l331_f1+l607_f2+l630_f1, l31_f2+l32_f1+l308_f2+l332_f1+l608_f2+l631_f1, l32_f2+l33_f1+l309_f2+l333_f1+l609_f2+l632_f1, l33_f2+l34_f1+l310_f2+l334_f1+l610_f2+l633_f1, l34_f2+l35_f1+l311_f2+l335_f1+l611_f2+l634_f1, l35_f2+l36_f1+l312_f2+l336_f1+l612_f2+l635_f1, l36_f2+l37_f1+l313_f2+l337_f1+l613_f2+l636_f1, l37_f2+l38_f1+l314_f2+l338_f1+l614_f2+l637_f1, l38_f2+l39_f1+l315_f2+l339_f1+l615_f2+l638_f1, l39_f2+l40_f1+l316_f2+l340_f1+l616_f2+l639_f1, l40_f2+l41_f1+l317_f2+l341_f1+l617_f2+l640_f1, l41_f2+l42_f1+l318_f2+l342_f1+l618_f2+l641_f1, l42_f2+l43_f1+l319_f2+l343_f1+l619_f2+l642_f1, l43_f2+l44_f1+l320_f2+l344_f1+l620_f2+l643_f1, l44_f2+l45_f1+l321_f2+l345_f1+l621_f2+l644_f1, l45_f2+l46_f1+l322_f2+l346_f1+l622_f2+l645_f1, l46_f2+l323_f2+l623_f2+l646_f1, l47_f1+l324_f2+l347_f1+l624_f2, l47_f2+l48_f1+l325_f2+l348_f1+l625_f2+l647_f1, l48_f2+l49_f1+l326_f2+l349_f1+l626_f2+l648_f1, l49_f2+l50_f1+l327_f2+l350_f1+l627_f2+l649_f1, l50_f2+l51_f1+l328_f2+l351_f1+l628_f2+l650_f1, l51_f2+l52_f1+l329_f2+l352_f1+l629_f2+l651_f1, l52_f2+l53_f1+l330_f2+l353_f1+l630_f2+l652_f1, l53_f2+l54_f1+l331_f2+l354_f1+l631_f2+l653_f1, l54_f2+l55_f1+l332_f2+l355_f1+l632_f2+l654_f1, l55_f2+l56_f1+l333_f2+l356_f1+l633_f2+l655_f1, l56_f2+l57_f1+l334_f2+l357_f1+l634_f2+l656_f1, l57_f2+l58_f1+l335_f2+l358_f1+l635_f2+l657_f1, l58_f2+l59_f1+l336_f2+l359_f1+l636_f2+l658_f1, l59_f2+l60_f1+l337_f2+l360_f1+l637_f2+l659_f1, l60_f2+l61_f1+l338_f2+l361_f1+l638_f2+l660_f1, l61_f2+l62_f1+l339_f2+l362_f1+l639_f2+l661_f1, l62_f2+l63_f1+l340_f2+l363_f1+l640_f2+l662_f1, l63_f2+l64_f1+l341_f2+l364_f1+l641_f2+l663_f1, l64_f2+l65_f1+l342_f2+l365_f1+l642_f2+l664_f1, l65_f2+l66_f1+l343_f2+l366_f1+l643_f2+l665_f1, l66_f2+l67_f1+l344_f2+l367_f1+l644_f2+l666_f1, l67_f2+l68_f1+l345_f2+l368_f1+l645_f2+l667_f1, l68_f2+l346_f2+l646_f2+l668_f1, l69_f1+l347_f2+l369_f1+l647_f2, l69_f2+l70_f1+l348_f2+l370_f1+l648_f2+l669_f1, l70_f2+l71_f1+l349_f2+l371_f1+l649_f2+l670_f1, l71_f2+l72_f1+l350_f2+l372_f1+l650_f2+l671_f1, l72_f2+l73_f1+l351_f2+l373_f1+l651_f2+l672_f1, l73_f2+l74_f1+l352_f2+l374_f1+l652_f2+l673_f1, l74_f2+l75_f1+l353_f2+l375_f1+l653_f2+l674_f1, l75_f2+l76_f1+l354_f2+l376_f1+l654_f2+l675_f1, l76_f2+l77_f1+l355_f2+l377_f1+l655_f2+l676_f1, l77_f2+l78_f1+l356_f2+l378_f1+l656_f2+l677_f1, l78_f2+l79_f1+l357_f2+l379_f1+l657_f2+l678_f1, l79_f2+l80_f1+l358_f2+l380_f1+l658_f2+l679_f1, l80_f2+l81_f1+l359_f2+l381_f1+l659_f2+l680_f1, l81_f2+l82_f1+l360_f2+l382_f1+l660_f2+l681_f1, l82_f2+l83_f1+l361_f2+l383_f1+l661_f2+l682_f1, l83_f2+l84_f1+l362_f2+l384_f1+l662_f2+l683_f1, l84_f2+l85_f1+l363_f2+l385_f1+l663_f2+l684_f1, l85_f2+l86_f1+l364_f2+l386_f1+l664_f2+l685_f1, l86_f2+l87_f1+l365_f2+l387_f1+l665_f2+l686_f1, l87_f2+l88_f1+l366_f2+l388_f1+l666_f2+l687_f1, l88_f2+l89_f1+l367_f2+l389_f1+l667_f2+l688_f1, l89_f2+l368_f2+l668_f2+l689_f1, l90_f1+l369_f2+l390_f1+l669_f2, l90_f2+l91_f1+l370_f2+l391_f1+l670_f2+l690_f1, l91_f2+l92_f1+l371_f2+l392_f1+l671_f2+l691_f1, l92_f2+l93_f1+l372_f2+l393_f1+l672_f2+l692_f1, l93_f2+l94_f1+l373_f2+l394_f1+l673_f2+l693_f1, l94_f2+l95_f1+l374_f2+l395_f1+l674_f2+l694_f1, l95_f2+l96_f1+l375_f2+l396_f1+l675_f2+l695_f1, l96_f2+l97_f1+l376_f2+l397_f1+l676_f2+l696_f1, l97_f2+l98_f1+l377_f2+l398_f1+l677_f2+l697_f1, l98_f2+l99_f1+l378_f2+l399_f1+l678_f2+l698_f1, l99_f2+l100_f1+l379_f2+l400_f1+l679_f2+l699_f1, l100_f2+l101_f1+l380_f2+l401_f1+l680_f2+l700_f1, l101_f2+l102_f1+l381_f2+l402_f1+l681_f2+l701_f1, l102_f2+l103_f1+l382_f2+l403_f1+l682_f2+l702_f1, l103_f2+l104_f1+l383_f2+l404_f1+l683_f2+l703_f1, l104_f2+l105_f1+l384_f2+l405_f1+l684_f2+l704_f1, l105_f2+l106_f1+l385_f2+l406_f1+l685_f2+l705_f1, l106_f2+l107_f1+l386_f2+l407_f1+l686_f2+l706_f1, l107_f2+l108_f1+l387_f2+l408_f1+l687_f2+l707_f1, l108_f2+l109_f1+l388_f2+l409_f1+l688_f2+l708_f1, l109_f2+l389_f2+l689_f2+l709_f1, l110_f1+l390_f2+l410_f1+l690_f2, l110_f2+l111_f1+l391_f2+l411_f1+l691_f2+l710_f1, l111_f2+l112_f1+l392_f2+l412_f1+l692_f2+l711_f1, l112_f2+l113_f1+l393_f2+l413_f1+l693_f2+l712_f1, l113_f2+l114_f1+l394_f2+l414_f1+l694_f2+l713_f1, l114_f2+l115_f1+l395_f2+l415_f1+l695_f2+l714_f1, l115_f2+l116_f1+l396_f2+l416_f1+l696_f2+l715_f1, l116_f2+l117_f1+l397_f2+l417_f1+l697_f2+l716_f1, l117_f2+l118_f1+l398_f2+l418_f1+l698_f2+l717_f1, l118_f2+l119_f1+l399_f2+l419_f1+l699_f2+l718_f1, l119_f2+l120_f1+l400_f2+l420_f1+l700_f2+l719_f1, l120_f2+l121_f1+l401_f2+l421_f1+l701_f2+l720_f1, l121_f2+l122_f1+l402_f2+l422_f1+l702_f2+l721_f1, l122_f2+l123_f1+l403_f2+l423_f1+l703_f2+l722_f1, l123_f2+l124_f1+l404_f2+l424_f1+l704_f2+l723_f1, l124_f2+l125_f1+l405_f2+l425_f1+l705_f2+l724_f1, l125_f2+l126_f1+l406_f2+l426_f1+l706_f2+l725_f1, l126_f2+l127_f1+l407_f2+l427_f1+l707_f2+l726_f1, l127_f2+l128_f1+l408_f2+l428_f1+l708_f2+l727_f1, l128_f2+l409_f2+l709_f2+l728_f1, l129_f1+l410_f2+l429_f1+l710_f2, l129_f2+l130_f1+l411_f2+l430_f1+l711_f2+l729_f1, l130_f2+l131_f1+l412_f2+l431_f1+l712_f2+l730_f1, l131_f2+l132_f1+l413_f2+l432_f1+l713_f2+l731_f1, l132_f2+l133_f1+l414_f2+l433_f1+l714_f2+l732_f1, l133_f2+l134_f1+l415_f2+l434_f1+l715_f2+l733_f1, l134_f2+l135_f1+l416_f2+l435_f1+l716_f2+l734_f1, l135_f2+l136_f1+l417_f2+l436_f1+l717_f2+l735_f1, l136_f2+l137_f1+l418_f2+l437_f1+l718_f2+l736_f1, l137_f2+l138_f1+l419_f2+l438_f1+l719_f2+l737_f1, l138_f2+l139_f1+l420_f2+l439_f1+l720_f2+l738_f1, l139_f2+l140_f1+l421_f2+l440_f1+l721_f2+l739_f1, l140_f2+l141_f1+l422_f2+l441_f1+l722_f2+l740_f1, l141_f2+l142_f1+l423_f2+l442_f1+l723_f2+l741_f1, l142_f2+l143_f1+l424_f2+l443_f1+l724_f2+l742_f1, l143_f2+l144_f1+l425_f2+l444_f1+l725_f2+l743_f1, l144_f2+l145_f1+l426_f2+l445_f1+l726_f2+l744_f1, l145_f2+l146_f1+l427_f2+l446_f1+l727_f2+l745_f1, l146_f2+l428_f2+l728_f2+l746_f1, l147_f1+l429_f2+l447_f1+l729_f2, l147_f2+l148_f1+l430_f2+l448_f1+l730_f2+l747_f1, l148_f2+l149_f1+l431_f2+l449_f1+l731_f2+l748_f1, l149_f2+l150_f1+l432_f2+l450_f1+l732_f2+l749_f1, l150_f2+l151_f1+l433_f2+l451_f1+l733_f2+l750_f1, l151_f2+l152_f1+l434_f2+l452_f1+l734_f2+l751_f1, l152_f2+l153_f1+l435_f2+l453_f1+l735_f2+l752_f1, l153_f2+l154_f1+l436_f2+l454_f1+l736_f2+l753_f1, l154_f2+l155_f1+l437_f2+l455_f1+l737_f2+l754_f1, l155_f2+l156_f1+l438_f2+l456_f1+l738_f2+l755_f1, l156_f2+l157_f1+l439_f2+l457_f1+l739_f2+l756_f1, l157_f2+l158_f1+l440_f2+l458_f1+l740_f2+l757_f1, l158_f2+l159_f1+l441_f2+l459_f1+l741_f2+l758_f1, l159_f2+l160_f1+l442_f2+l460_f1+l742_f2+l759_f1, l160_f2+l161_f1+l443_f2+l461_f1+l743_f2+l760_f1, l161_f2+l162_f1+l444_f2+l462_f1+l744_f2+l761_f1, l162_f2+l163_f1+l445_f2+l463_f1+l745_f2+l762_f1, l163_f2+l446_f2+l746_f2+l763_f1, l164_f1+l447_f2+l464_f1+l747_f2, l164_f2+l165_f1+l448_f2+l465_f1+l748_f2+l764_f1+l900_f1, l165_f2+l166_f1+l449_f2+l466_f1+l749_f2+l765_f1+l901_f1, l166_f2+l167_f1+l450_f2+l467_f1+l750_f2+l766_f1, l167_f2+l168_f1+l451_f2+l468_f1+l751_f2+l767_f1, l168_f2+l169_f1+l452_f2+l469_f1+l752_f2+l768_f1, l169_f2+l170_f1+l453_f2+l470_f1+l753_f2+l769_f1, l170_f2+l171_f1+l454_f2+l471_f1+l754_f2+l770_f1, l171_f2+l172_f1+l455_f2+l472_f1+l755_f2+l771_f1, l172_f2+l173_f1+l456_f2+l473_f1+l756_f2+l772_f1, l173_f2+l174_f1+l457_f2+l474_f1+l757_f2+l773_f1, l174_f2+l175_f1+l458_f2+l475_f1+l758_f2+l774_f1, l175_f2+l176_f1+l459_f2+l476_f1+l759_f2+l775_f1, l176_f2+l177_f1+l460_f2+l477_f1+l760_f2+l776_f1, l177_f2+l178_f1+l461_f2+l478_f1+l761_f2+l777_f1, l178_f2+l179_f1+l462_f2+l479_f1+l762_f2+l778_f1, l179_f2+l463_f2+l763_f2+l779_f1, l180_f1+l464_f2+l480_f1+l764_f2, l180_f2+l181_f1+l465_f2+l481_f1+l765_f2+l780_f1, l181_f2+l182_f1+l466_f2+l482_f1+l766_f2+l781_f1, l182_f2+l183_f1+l467_f2+l483_f1+l767_f2+l782_f1, l183_f2+l184_f1+l468_f2+l484_f1+l768_f2+l783_f1, l184_f2+l185_f1+l469_f2+l485_f1+l769_f2+l784_f1, l185_f2+l186_f1+l470_f2+l486_f1+l770_f2+l785_f1, l186_f2+l187_f1+l471_f2+l487_f1+l771_f2+l786_f1, l187_f2+l188_f1+l472_f2+l488_f1+l772_f2+l787_f1, l188_f2+l189_f1+l473_f2+l489_f1+l773_f2+l788_f1, l189_f2+l190_f1+l474_f2+l490_f1+l774_f2+l789_f1, l190_f2+l191_f1+l475_f2+l491_f1+l775_f2+l790_f1, l191_f2+l192_f1+l476_f2+l492_f1+l776_f2+l791_f1, l192_f2+l193_f1+l477_f2+l493_f1+l777_f2+l792_f1, l193_f2+l194_f1+l478_f2+l494_f1+l778_f2+l793_f1, l194_f2+l479_f2+l779_f2+l794_f1, l195_f1+l480_f2+l495_f1+l780_f2, l195_f2+l196_f1+l481_f2+l496_f1+l781_f2+l795_f1, l196_f2+l197_f1+l482_f2+l497_f1+l782_f2+l796_f1, l197_f2+l198_f1+l483_f2+l498_f1+l783_f2+l797_f1, l198_f2+l199_f1+l484_f2+l499_f1+l784_f2+l798_f1, l199_f2+l200_f1+l485_f2+l500_f1+l785_f2+l799_f1, l200_f2+l201_f1+l486_f2+l501_f1+l786_f2+l800_f1, l201_f2+l202_f1+l487_f2+l502_f1+l787_f2+l801_f1, l202_f2+l203_f1+l488_f2+l503_f1+l788_f2+l802_f1, l203_f2+l204_f1+l489_f2+l504_f1+l789_f2+l803_f1, l204_f2+l205_f1+l490_f2+l505_f1+l790_f2+l804_f1, l205_f2+l206_f1+l491_f2+l506_f1+l791_f2+l805_f1, l206_f2+l207_f1+l492_f2+l507_f1+l792_f2+l806_f1, l207_f2+l208_f1+l493_f2+l508_f1+l793_f2+l807_f1, l208_f2+l494_f2+l794_f2+l808_f1, l209_f1+l495_f2+l509_f1+l795_f2, l209_f2+l210_f1+l496_f2+l510_f1+l796_f2+l809_f1, l210_f2+l211_f1+l497_f2+l511_f1+l797_f2+l810_f1, l211_f2+l212_f1+l498_f2+l512_f1+l798_f2+l811_f1, l212_f2+l213_f1+l499_f2+l513_f1+l799_f2+l812_f1, l213_f2+l214_f1+l500_f2+l514_f1+l800_f2+l813_f1, l214_f2+l215_f1+l501_f2+l515_f1+l801_f2+l814_f1, l215_f2+l216_f1+l502_f2+l516_f1+l802_f2+l815_f1, l216_f2+l217_f1+l503_f2+l517_f1+l803_f2+l816_f1, l217_f2+l218_f1+l504_f2+l518_f1+l804_f2+l817_f1, l218_f2+l219_f1+l505_f2+l519_f1+l805_f2+l818_f1, l219_f2+l220_f1+l506_f2+l520_f1+l806_f2+l819_f1, l220_f2+l221_f1+l507_f2+l521_f1+l807_f2+l820_f1, l221_f2+l508_f2+l808_f2+l821_f1, l222_f1+l509_f2+l522_f1+l809_f2, l222_f2+l223_f1+l510_f2+l523_f1+l810_f2+l822_f1, l223_f2+l224_f1+l511_f2+l524_f1+l811_f2+l823_f1, l224_f2+l225_f1+l512_f2+l525_f1+l812_f2+l824_f1, l225_f2+l226_f1+l513_f2+l526_f1+l813_f2+l825_f1, l226_f2+l227_f1+l514_f2+l527_f1+l814_f2+l826_f1, l227_f2+l228_f1+l515_f2+l528_f1+l815_f2+l827_f1, l228_f2+l229_f1+l516_f2+l529_f1+l816_f2+l828_f1, l229_f2+l230_f1+l517_f2+l530_f1+l817_f2+l829_f1, l230_f2+l231_f1+l518_f2+l531_f1+l818_f2+l830_f1, l231_f2+l232_f1+l519_f2+l532_f1+l819_f2+l831_f1, l232_f2+l233_f1+l520_f2+l533_f1+l820_f2+l832_f1, l233_f2+l521_f2+l821_f2+l833_f1, l234_f1+l522_f2+l534_f1+l822_f2, l234_f2+l235_f1+l523_f2+l535_f1+l823_f2+l834_f1, l235_f2+l236_f1+l524_f2+l536_f1+l824_f2+l835_f1, l236_f2+l237_f1+l525_f2+l537_f1+l825_f2+l836_f1, l237_f2+l238_f1+l526_f2+l538_f1+l826_f2+l837_f1, l238_f2+l239_f1+l527_f2+l539_f1+l827_f2+l838_f1, l239_f2+l240_f1+l528_f2+l540_f1+l828_f2+l839_f1, l240_f2+l241_f1+l529_f2+l541_f1+l829_f2+l840_f1, l241_f2+l242_f1+l530_f2+l542_f1+l830_f2+l841_f1, l242_f2+l243_f1+l531_f2+l543_f1+l831_f2+l842_f1+l904_f1, l243_f2+l244_f1+l532_f2+l544_f1+l832_f2+l843_f1+l905_f1, l244_f2+l533_f2+l833_f2+l844_f1, l245_f1+l534_f2+l545_f1+l834_f2, l245_f2+l246_f1+l535_f2+l546_f1+l835_f2+l845_f1, l246_f2+l247_f1+l536_f2+l547_f1+l836_f2+l846_f1, l247_f2+l248_f1+l537_f2+l548_f1+l837_f2+l847_f1, l248_f2+l249_f1+l538_f2+l549_f1+l838_f2+l848_f1, l249_f2+l250_f1+l539_f2+l550_f1+l839_f2+l849_f1, l250_f2+l251_f1+l540_f2+l551_f1+l840_f2+l850_f1, l251_f2+l252_f1+l541_f2+l552_f1+l841_f2+l851_f1, l252_f2+l253_f1+l542_f2+l553_f1+l842_f2+l852_f1, l253_f2+l254_f1+l543_f2+l554_f1+l843_f2+l853_f1, l254_f2+l544_f2+l844_f2+l854_f1, l255_f1+l545_f2+l555_f1+l845_f2, l255_f2+l256_f1+l546_f2+l556_f1+l846_f2+l855_f1, l256_f2+l257_f1+l547_f2+l557_f1+l847_f2+l856_f1, l257_f2+l258_f1+l548_f2+l558_f1+l848_f2+l857_f1, l258_f2+l259_f1+l549_f2+l559_f1+l849_f2+l858_f1, l259_f2+l260_f1+l550_f2+l560_f1+l850_f2+l859_f1, l260_f2+l261_f1+l551_f2+l561_f1+l851_f2+l860_f1, l261_f2+l262_f1+l552_f2+l562_f1+l852_f2+l861_f1, l262_f2+l263_f1+l553_f2+l563_f1+l853_f2+l862_f1, l263_f2+l554_f2+l854_f2+l863_f1, l264_f1+l555_f2+l564_f1+l855_f2, l264_f2+l265_f1+l556_f2+l565_f1+l856_f2+l864_f1, l265_f2+l266_f1+l557_f2+l566_f1+l857_f2+l865_f1, l266_f2+l267_f1+l558_f2+l567_f1+l858_f2+l866_f1, l267_f2+l268_f1+l559_f2+l568_f1+l859_f2+l867_f1, l268_f2+l269_f1+l560_f2+l569_f1+l860_f2+l868_f1, l269_f2+l270_f1+l561_f2+l570_f1+l861_f2+l869_f1, l270_f2+l271_f1+l562_f2+l571_f1+l862_f2+l870_f1, l271_f2+l563_f2+l863_f2+l871_f1, l272_f1+l564_f2+l572_f1+l864_f2, l272_f2+l273_f1+l565_f2+l573_f1+l865_f2+l872_f1, l273_f2+l274_f1+l566_f2+l574_f1+l866_f2+l873_f1, l274_f2+l275_f1+l567_f2+l575_f1+l867_f2+l874_f1+l902_f1, l275_f2+l276_f1+l568_f2+l576_f1+l868_f2+l875_f1+l903_f1, l276_f2+l277_f1+l569_f2+l577_f1+l869_f2+l876_f1, l277_f2+l278_f1+l570_f2+l578_f1+l870_f2+l877_f1, l278_f2+l571_f2+l871_f2+l878_f1, l279_f1+l572_f2+l579_f1+l872_f2, l279_f2+l280_f1+l573_f2+l580_f1+l873_f2+l879_f1, l280_f2+l281_f1+l574_f2+l581_f1+l874_f2+l880_f1, l281_f2+l282_f1+l575_f2+l582_f1+l875_f2+l881_f1, l282_f2+l283_f1+l576_f2+l583_f1+l876_f2+l882_f1, l283_f2+l284_f1+l577_f2+l584_f1+l877_f2+l883_f1, l284_f2+l578_f2+l878_f2+l884_f1, l285_f1+l579_f2+l585_f1+l879_f2, l285_f2+l286_f1+l580_f2+l586_f1+l880_f2+l885_f1, l286_f2+l287_f1+l581_f2+l587_f1+l881_f2+l886_f1, l287_f2+l288_f1+l582_f2+l588_f1+l882_f2+l887_f1, l288_f2+l289_f1+l583_f2+l589_f1+l883_f2+l888_f1, l289_f2+l584_f2+l884_f2+l889_f1, l290_f1+l585_f2+l590_f1+l885_f2, l290_f2+l291_f1+l586_f2+l591_f1+l886_f2+l890_f1, l291_f2+l292_f1+l587_f2+l592_f1+l887_f2+l891_f1, l292_f2+l293_f1+l588_f2+l593_f1+l888_f2+l892_f1, l293_f2+l589_f2+l889_f2+l893_f1, l294_f1+l590_f2+l594_f1+l890_f2, l294_f2+l295_f1+l591_f2+l595_f1+l891_f2+l894_f1, l295_f2+l296_f1+l592_f2+l596_f1+l892_f2+l895_f1, l296_f2+l593_f2+l893_f2+l896_f1, l297_f1+l594_f2+l597_f1+l894_f2, l297_f2+l298_f1+l595_f2+l598_f1+l895_f2+l897_f1+l906_f2, l298_f2+l596_f2+l896_f2+l898_f1, l299_f1+l597_f2+l599_f1+l897_f2, l299_f2+l598_f2+l898_f2+l899_f1, l599_f2+l899_f2, l906_f1, p_in1, l900_f2+l901_f2, p_in2, l902_f2+l903_f2, p_in3, l904_f2+l905_f2, p_in4; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328) = m0, m1, m1, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m152, m152, m153, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m180, m181, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m210, m211, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m240, m241, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m270, m271, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m297, m298, m298, m299, m299, m300, m300, m301, m301, m302, m302, m303, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m310, m311, m311, m312, m312, m313, m313, m314, m315, m316, m316, m317, m317, m318, m319, m320, m320, m321, m322, m323, m0, m25, m1, m26, m2, m27, m3, m28, m4, m29, m5, m30, m6, m31, m7, m32, m8, m33, m9, m34, m10, m35, m11, m36, m12, m37, m13, m38, m14, m39, m15, m40, m16, m41, m17, m42, m18, m43, m19, m44, m20, m45, m21, m46, m22, m47, m23, m48, m25, m49, m26, m50, m27, m51, m28, m52, m29, m53, m30, m54, m31, m55, m32, m56, m33, m57, m34, m58, m35, m59, m36, m60, m37, m61, m38, m62, m39, m63, m40, m64, m41, m65, m42, m66, m43, m67, m44, m68, m45, m69, m46, m70, m47, m71, m49, m72, m50, m73, m51, m74, m52, m75, m53, m76, m54, m77, m55, m78, m56, m79, m57, m80, m58, m81, m59, m82, m60, m83, m61, m84, m62, m85, m63, m86, m64, m87, m65, m88, m66, m89, m67, m90, m68, m91, m69, m92, m70, m93, m72, m94, m73, m95, m74, m96, m75, m97, m76, m98, m77, m99, m78, m100, m79, m101, m80, m102, m81, m103, m82, m104, m83, m105, m84, m106, m85, m107, m86, m108, m87, m109, m88, m110, m89, m111, m90, m112, m91, m113, m92, m114, m94, m115, m95, m116, m96, m117, m97, m118, m98, m119, m99, m120, m100, m121, m101, m122, m102, m123, m103, m124, m104, m125, m105, m126, m106, m127, m107, m128, m108, m129, m109, m130, m110, m131, m111, m132, m112, m133, m113, m134, m115, m135, m116, m136, m117, m137, m118, m138, m119, m139, m120, m140, m121, m141, m122, m142, m123, m143, m124, m144, m125, m145, m126, m146, m127, m147, m128, m148, m129, m149, m130, m150, m131, m151, m132, m152, m133, m153, m135, m154, m136, m155, m137, m156, m138, m157, m139, m158, m140, m159, m141, m160, m142, m161, m143, m162, m144, m163, m145, m164, m146, m165, m147, m166, m148, m167, m149, m168, m150, m169, m151, m170, m152, m171, m154, m172, m155, m173, m156, m174, m157, m175, m158, m176, m159, m177, m160, m178, m161, m179, m162, m180, m163, m181, m164, m182, m165, m183, m166, m184, m167, m185, m168, m186, m169, m187, m170, m188, m172, m189, m173, m190, m174, m191, m175, m192, m176, m193, m177, m194, m178, m195, m179, m196, m180, m197, m181, m198, m182, m199, m183, m200, m184, m201, m185, m202, m186, m203, m187, m204, m189, m205, m190, m206, m191, m207, m192, m208, m193, m209, m194, m210, m195, m211, m196, m212, m197, m213, m198, m214, m199, m215, m200, m216, m201, m217, m202, m218, m203, m219, m205, m220, m206, m221, m207, m222, m208, m223, m209, m224, m210, m225, m211, m226, m212, m227, m213, m228, m214, m229, m215, m230, m216, m231, m217, m232, m218, m233, m220, m234, m221, m235, m222, m236, m223, m237, m224, m238, m225, m239, m226, m240, m227, m241, m228, m242, m229, m243, m230, m244, m231, m245, m232, m246, m234, m247, m235, m248, m236, m249, m237, m250, m238, m251, m239, m252, m240, m253, m241, m254, m242, m255, m243, m256, m244, m257, m245, m258, m247, m259, m248, m260, m249, m261, m250, m262, m251, m263, m252, m264, m253, m265, m254, m266, m255, m267, m256, m268, m257, m269, m259, m270, m260, m271, m261, m272, m262, m273, m263, m274, m264, m275, m265, m276, m266, m277, m267, m278, m268, m279, m270, m280, m271, m281, m272, m282, m273, m283, m274, m284, m275, m285, m276, m286, m277, m287, m278, m288, m280, m289, m281, m290, m282, m291, m283, m292, m284, m293, m285, m294, m286, m295, m287, m296, m289, m297, m290, m298, m291, m299, m292, m300, m293, m301, m294, m302, m295, m303, m297, m304, m298, m305, m299, m306, m300, m307, m301, m308, m302, m309, m304, m310, m305, m311, m306, m312, m307, m313, m308, m314, m310, m315, m311, m316, m312, m317, m313, m318, m315, m319, m316, m320, m317, m321, m319, m322, m320, m323, m322, m324, m1, m25, m2, m26, m3, m27, m4, m28, m5, m29, m6, m30, m7, m31, m8, m32, m9, m33, m10, m34, m11, m35, m12, m36, m13, m37, m14, m38, m15, m39, m16, m40, m17, m41, m18, m42, m19, m43, m20, m44, m21, m45, m22, m46, m23, m47, m24, m48, m26, m49, m27, m50, m28, m51, m29, m52, m30, m53, m31, m54, m32, m55, m33, m56, m34, m57, m35, m58, m36, m59, m37, m60, m38, m61, m39, m62, m40, m63, m41, m64, m42, m65, m43, m66, m44, m67, m45, m68, m46, m69, m47, m70, m48, m71, m50, m72, m51, m73, m52, m74, m53, m75, m54, m76, m55, m77, m56, m78, m57, m79, m58, m80, m59, m81, m60, m82, m61, m83, m62, m84, m63, m85, m64, m86, m65, m87, m66, m88, m67, m89, m68, m90, m69, m91, m70, m92, m71, m93, m73, m94, m74, m95, m75, m96, m76, m97, m77, m98, m78, m99, m79, m100, m80, m101, m81, m102, m82, m103, m83, m104, m84, m105, m85, m106, m86, m107, m87, m108, m88, m109, m89, m110, m90, m111, m91, m112, m92, m113, m93, m114, m95, m115, m96, m116, m97, m117, m98, m118, m99, m119, m100, m120, m101, m121, m102, m122, m103, m123, m104, m124, m105, m125, m106, m126, m107, m127, m108, m128, m109, m129, m110, m130, m111, m131, m112, m132, m113, m133, m114, m134, m116, m135, m117, m136, m118, m137, m119, m138, m120, m139, m121, m140, m122, m141, m123, m142, m124, m143, m125, m144, m126, m145, m127, m146, m128, m147, m129, m148, m130, m149, m131, m150, m132, m151, m133, m152, m134, m153, m136, m154, m137, m155, m138, m156, m139, m157, m140, m158, m141, m159, m142, m160, m143, m161, m144, m162, m145, m163, m146, m164, m147, m165, m148, m166, m149, m167, m150, m168, m151, m169, m152, m170, m153, m171, m155, m172, m156, m173, m157, m174, m158, m175, m159, m176, m160, m177, m161, m178, m162, m179, m163, m180, m164, m181, m165, m182, m166, m183, m167, m184, m168, m185, m169, m186, m170, m187, m171, m188, m173, m189, m174, m190, m175, m191, m176, m192, m177, m193, m178, m194, m179, m195, m180, m196, m181, m197, m182, m198, m183, m199, m184, m200, m185, m201, m186, m202, m187, m203, m188, m204, m190, m205, m191, m206, m192, m207, m193, m208, m194, m209, m195, m210, m196, m211, m197, m212, m198, m213, m199, m214, m200, m215, m201, m216, m202, m217, m203, m218, m204, m219, m206, m220, m207, m221, m208, m222, m209, m223, m210, m224, m211, m225, m212, m226, m213, m227, m214, m228, m215, m229, m216, m230, m217, m231, m218, m232, m219, m233, m221, m234, m222, m235, m223, m236, m224, m237, m225, m238, m226, m239, m227, m240, m228, m241, m229, m242, m230, m243, m231, m244, m232, m245, m233, m246, m235, m247, m236, m248, m237, m249, m238, m250, m239, m251, m240, m252, m241, m253, m242, m254, m243, m255, m244, m256, m245, m257, m246, m258, m248, m259, m249, m260, m250, m261, m251, m262, m252, m263, m253, m264, m254, m265, m255, m266, m256, m267, m257, m268, m258, m269, m260, m270, m261, m271, m262, m272, m263, m273, m264, m274, m265, m275, m266, m276, m267, m277, m268, m278, m269, m279, m271, m280, m272, m281, m273, m282, m274, m283, m275, m284, m276, m285, m277, m286, m278, m287, m279, m288, m281, m289, m282, m290, m283, m291, m284, m292, m285, m293, m286, m294, m287, m295, m288, m296, m290, m297, m291, m298, m292, m299, m293, m300, m294, m301, m295, m302, m296, m303, m298, m304, m299, m305, m300, m306, m301, m307, m302, m308, m303, m309, m305, m310, m306, m311, m307, m312, m308, m313, m309, m314, m311, m315, m312, m316, m313, m317, m314, m318, m316, m319, m317, m320, m318, m321, m320, m322, m321, m323, m323, m324, m173, m326, m174, m326, m292, m327, m293, m327, m256, m328, m257, m328, m325, m320,m83,m30; }; process = in1, in2, in3, in4: model: (OutGain), (OutGain);	https://raw.githubusercontent.com/rmichon/mi_faust/9af43428a4809894b539a2e1457ad9d2bc0d67fb/examples/faust/LargeTriangleMesh.dsp	faust		import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = vslider("pos",1,-1,1,0.0001) : si.smoo; in2 = vslider("pos2",1,-1,1,0.0001) : si.smoo; in3 = vslider("pos3",1,-1,1,0.0001) : si.smoo; in4 = vslider("pos4",1,-1,1,0.0001) : si.smoo; OutGain = 50; nlK = 0.1; nlscale = 0.03; tri_M = 1.0; tri_K = 0.1; tri_Z = 0.0005; model = (RoutingLinkToMass: ground(0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), mass(tri_M,0., 0.), 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spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), spring(tri_K,tri_Z, 0., 0.), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), collision(0.,0.01,0., 0., 0), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 1814, _): par(i, 1814,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l637_f2,l638_f1,l638_f2,l639_f1,l639_f2,l640_f1,l640_f2,l641_f1,l641_f2,l642_f1,l642_f2,l643_f1,l643_f2,l644_f1,l644_f2,l645_f1,l645_f2,l646_f1,l646_f2,l647_f1,l647_f2,l648_f1,l648_f2,l649_f1,l649_f2,l650_f1,l650_f2,l651_f1,l651_f2,l652_f1,l652_f2,l653_f1,l653_f2,l654_f1,l654_f2,l655_f1,l655_f2,l656_f1,l656_f2,l657_f1,l657_f2,l658_f1,l658_f2,l659_f1,l659_f2,l660_f1,l660_f2,l661_f1,l661_f2,l662_f1,l662_f2,l663_f1,l663_f2,l664_f1,l664_f2,l665_f1,l665_f2,l666_f1,l666_f2,l667_f1,l667_f2,l668_f1,l668_f2,l669_f1,l669_f2,l670_f1,l670_f2,l671_f1,l671_f2,l672_f1,l672_f2,l673_f1,l673_f2,l674_f1,l674_f2,l675_f1,l675_f2,l676_f1,l676_f2,l677_f1,l677_f2,l678_f1,l678_f2,l679_f1,l679_f2,l680_f1,l680_f2,l681_f1,l681_f2,l682_f1,l682_f2,l683_f1,l683_f2,l684_f1,l684_f2,l685_f1,l685_f2,l686_f1,l686_f2,l687_f1,l687_f2,l688_f1,l688_f2,l689_f1,l689_f2,l690_f1,l690_f2,l691_f1,l691_f2,l692_f1,l692_f2,l693_f1,l693_f2,l694_f1,l694_f2,l695_f1,l695_f2,l696_f1,l696_f2,l697_f1,l697_f2,l698_f1,l698_f2,l699_f1,l699_f2,l700_f1,l700_f2,l701_f1,l701_f2,l702_f1,l702_f2,l703_f1,l703_f2,l704_f1,l704_f2,l705_f1,l705_f2,l706_f1,l706_f2,l707_f1,l707_f2,l708_f1,l708_f2,l709_f1,l709_f2,l710_f1,l710_f2,l711_f1,l711_f2,l712_f1,l712_f2,l713_f1,l713_f2,l714_f1,l714_f2,l715_f1,l715_f2,l716_f1,l716_f2,l717_f1,l717_f2,l718_f1,l718_f2,l719_f1,l719_f2,l720_f1,l720_f2,l721_f1,l721_f2,l722_f1,l722_f2,l723_f1,l723_f2,l724_f1,l724_f2,l725_f1,l725_f2,l726_f1,l726_f2,l727_f1,l727_f2,l728_f1,l728_f2,l729_f1,l729_f2,l730_f1,l730_f2,l731_f1,l731_f2,l732_f1,l732_f2,l733_f1,l733_f2,l734_f1,l734_f2,l735_f1,l735_f2,l736_f1,l736_f2,l737_f1,l737_f2,l738_f1,l738_f2,l739_f1,l739_f2,l740_f1,l740_f2,l741_f1,l741_f2,l742_f1,l742_f2,l743_f1,l743_f2,l744_f1,l744_f2,l745_f1,l745_f2,l746_f1,l746_f2,l747_f1,l747_f2,l748_f1,l748_f2,l749_f1,l749_f2,l750_f1,l750_f2,l751_f1,l751_f2,l752_f1,l752_f2,l753_f1,l753_f2,l754_f1,l754_f2,l755_f1,l755_f2,l756_f1,l756_f2,l757_f1,l757_f2,l758_f1,l758_f2,l759_f1,l759_f2,l760_f1,l760_f2,l761_f1,l761_f2,l762_f1,l762_f2,l763_f1,l763_f2,l764_f1,l764_f2,l765_f1,l765_f2,l766_f1,l766_f2,l767_f1,l767_f2,l768_f1,l768_f2,l769_f1,l769_f2,l770_f1,l770_f2,l771_f1,l771_f2,l772_f1,l772_f2,l773_f1,l773_f2,l774_f1,l774_f2,l775_f1,l775_f2,l776_f1,l776_f2,l777_f1,l777_f2,l778_f1,l778_f2,l779_f1,l779_f2,l780_f1,l780_f2,l781_f1,l781_f2,l782_f1,l782_f2,l783_f1,l783_f2,l784_f1,l784_f2,l785_f1,l785_f2,l786_f1,l786_f2,l787_f1,l787_f2,l788_f1,l788_f2,l789_f1,l789_f2,l790_f1,l790_f2,l791_f1,l791_f2,l792_f1,l792_f2,l793_f1,l793_f2,l794_f1,l794_f2,l795_f1,l795_f2,l796_f1,l796_f2,l797_f1,l797_f2,l798_f1,l798_f2,l799_f1,l799_f2,l800_f1,l800_f2,l801_f1,l801_f2,l802_f1,l802_f2,l803_f1,l803_f2,l804_f1,l804_f2,l805_f1,l805_f2,l806_f1,l806_f2,l807_f1,l807_f2,l808_f1,l808_f2,l809_f1,l809_f2,l810_f1,l810_f2,l811_f1,l811_f2,l812_f1,l812_f2,l813_f1,l813_f2,l814_f1,l814_f2,l815_f1,l815_f2,l816_f1,l816_f2,l817_f1,l817_f2,l818_f1,l818_f2,l819_f1,l819_f2,l820_f1,l820_f2,l821_f1,l821_f2,l822_f1,l822_f2,l823_f1,l823_f2,l824_f1,l824_f2,l825_f1,l825_f2,l826_f1,l826_f2,l827_f1,l827_f2,l828_f1,l828_f2,l829_f1,l829_f2,l830_f1,l830_f2,l831_f1,l831_f2,l832_f1,l832_f2,l833_f1,l833_f2,l834_f1,l834_f2,l835_f1,l835_f2,l836_f1,l836_f2,l837_f1,l837_f2,l838_f1,l838_f2,l839_f1,l839_f2,l840_f1,l840_f2,l841_f1,l841_f2,l842_f1,l842_f2,l843_f1,l843_f2,l844_f1,l844_f2,l845_f1,l845_f2,l846_f1,l846_f2,l847_f1,l847_f2,l848_f1,l848_f2,l849_f1,l849_f2,l850_f1,l850_f2,l851_f1,l851_f2,l852_f1,l852_f2,l853_f1,l853_f2,l854_f1,l854_f2,l855_f1,l855_f2,l856_f1,l856_f2,l857_f1,l857_f2,l858_f1,l858_f2,l859_f1,l859_f2,l860_f1,l860_f2,l861_f1,l861_f2,l862_f1,l862_f2,l863_f1,l863_f2,l864_f1,l864_f2,l865_f1,l865_f2,l866_f1,l866_f2,l867_f1,l867_f2,l868_f1,l868_f2,l869_f1,l869_f2,l870_f1,l870_f2,l871_f1,l871_f2,l872_f1,l872_f2,l873_f1,l873_f2,l874_f1,l874_f2,l875_f1,l875_f2,l876_f1,l876_f2,l877_f1,l877_f2,l878_f1,l878_f2,l879_f1,l879_f2,l880_f1,l880_f2,l881_f1,l881_f2,l882_f1,l882_f2,l883_f1,l883_f2,l884_f1,l884_f2,l885_f1,l885_f2,l886_f1,l886_f2,l887_f1,l887_f2,l888_f1,l888_f2,l889_f1,l889_f2,l890_f1,l890_f2,l891_f1,l891_f2,l892_f1,l892_f2,l893_f1,l893_f2,l894_f1,l894_f2,l895_f1,l895_f2,l896_f1,l896_f2,l897_f1,l897_f2,l898_f1,l898_f2,l899_f1,l899_f2,l900_f1,l900_f2,l901_f1,l901_f2,l902_f1,l902_f2,l903_f1,l903_f2,l904_f1,l904_f2,l905_f1,l905_f2,l906_f1,l906_f2, p_in1, p_in2, p_in3, p_in4) = l0_f1+l300_f1, l0_f2+l1_f1+l301_f1+l600_f1, l1_f2+l2_f1+l302_f1+l601_f1, l2_f2+l3_f1+l303_f1+l602_f1, l3_f2+l4_f1+l304_f1+l603_f1, l4_f2+l5_f1+l305_f1+l604_f1, l5_f2+l6_f1+l306_f1+l605_f1, l6_f2+l7_f1+l307_f1+l606_f1, l7_f2+l8_f1+l308_f1+l607_f1, l8_f2+l9_f1+l309_f1+l608_f1, l9_f2+l10_f1+l310_f1+l609_f1, l10_f2+l11_f1+l311_f1+l610_f1, l11_f2+l12_f1+l312_f1+l611_f1, l12_f2+l13_f1+l313_f1+l612_f1, l13_f2+l14_f1+l314_f1+l613_f1, l14_f2+l15_f1+l315_f1+l614_f1, l15_f2+l16_f1+l316_f1+l615_f1, l16_f2+l17_f1+l317_f1+l616_f1, l17_f2+l18_f1+l318_f1+l617_f1, l18_f2+l19_f1+l319_f1+l618_f1, l19_f2+l20_f1+l320_f1+l619_f1, l20_f2+l21_f1+l321_f1+l620_f1, l21_f2+l22_f1+l322_f1+l621_f1, l22_f2+l23_f1+l323_f1+l622_f1, l23_f2+l623_f1, l24_f1+l300_f2+l324_f1+l600_f2, l24_f2+l25_f1+l301_f2+l325_f1+l601_f2+l624_f1, l25_f2+l26_f1+l302_f2+l326_f1+l602_f2+l625_f1, l26_f2+l27_f1+l303_f2+l327_f1+l603_f2+l626_f1, l27_f2+l28_f1+l304_f2+l328_f1+l604_f2+l627_f1, l28_f2+l29_f1+l305_f2+l329_f1+l605_f2+l628_f1, l29_f2+l30_f1+l306_f2+l330_f1+l606_f2+l629_f1, l30_f2+l31_f1+l307_f2+l331_f1+l607_f2+l630_f1, l31_f2+l32_f1+l308_f2+l332_f1+l608_f2+l631_f1, l32_f2+l33_f1+l309_f2+l333_f1+l609_f2+l632_f1, l33_f2+l34_f1+l310_f2+l334_f1+l610_f2+l633_f1, l34_f2+l35_f1+l311_f2+l335_f1+l611_f2+l634_f1, l35_f2+l36_f1+l312_f2+l336_f1+l612_f2+l635_f1, l36_f2+l37_f1+l313_f2+l337_f1+l613_f2+l636_f1, l37_f2+l38_f1+l314_f2+l338_f1+l614_f2+l637_f1, l38_f2+l39_f1+l315_f2+l339_f1+l615_f2+l638_f1, l39_f2+l40_f1+l316_f2+l340_f1+l616_f2+l639_f1, l40_f2+l41_f1+l317_f2+l341_f1+l617_f2+l640_f1, l41_f2+l42_f1+l318_f2+l342_f1+l618_f2+l641_f1, l42_f2+l43_f1+l319_f2+l343_f1+l619_f2+l642_f1, l43_f2+l44_f1+l320_f2+l344_f1+l620_f2+l643_f1, l44_f2+l45_f1+l321_f2+l345_f1+l621_f2+l644_f1, l45_f2+l46_f1+l322_f2+l346_f1+l622_f2+l645_f1, l46_f2+l323_f2+l623_f2+l646_f1, l47_f1+l324_f2+l347_f1+l624_f2, l47_f2+l48_f1+l325_f2+l348_f1+l625_f2+l647_f1, l48_f2+l49_f1+l326_f2+l349_f1+l626_f2+l648_f1, l49_f2+l50_f1+l327_f2+l350_f1+l627_f2+l649_f1, l50_f2+l51_f1+l328_f2+l351_f1+l628_f2+l650_f1, l51_f2+l52_f1+l329_f2+l352_f1+l629_f2+l651_f1, l52_f2+l53_f1+l330_f2+l353_f1+l630_f2+l652_f1, l53_f2+l54_f1+l331_f2+l354_f1+l631_f2+l653_f1, l54_f2+l55_f1+l332_f2+l355_f1+l632_f2+l654_f1, l55_f2+l56_f1+l333_f2+l356_f1+l633_f2+l655_f1, l56_f2+l57_f1+l334_f2+l357_f1+l634_f2+l656_f1, l57_f2+l58_f1+l335_f2+l358_f1+l635_f2+l657_f1, l58_f2+l59_f1+l336_f2+l359_f1+l636_f2+l658_f1, l59_f2+l60_f1+l337_f2+l360_f1+l637_f2+l659_f1, l60_f2+l61_f1+l338_f2+l361_f1+l638_f2+l660_f1, l61_f2+l62_f1+l339_f2+l362_f1+l639_f2+l661_f1, l62_f2+l63_f1+l340_f2+l363_f1+l640_f2+l662_f1, l63_f2+l64_f1+l341_f2+l364_f1+l641_f2+l663_f1, l64_f2+l65_f1+l342_f2+l365_f1+l642_f2+l664_f1, l65_f2+l66_f1+l343_f2+l366_f1+l643_f2+l665_f1, l66_f2+l67_f1+l344_f2+l367_f1+l644_f2+l666_f1, l67_f2+l68_f1+l345_f2+l368_f1+l645_f2+l667_f1, l68_f2+l346_f2+l646_f2+l668_f1, l69_f1+l347_f2+l369_f1+l647_f2, l69_f2+l70_f1+l348_f2+l370_f1+l648_f2+l669_f1, l70_f2+l71_f1+l349_f2+l371_f1+l649_f2+l670_f1, l71_f2+l72_f1+l350_f2+l372_f1+l650_f2+l671_f1, l72_f2+l73_f1+l351_f2+l373_f1+l651_f2+l672_f1, l73_f2+l74_f1+l352_f2+l374_f1+l652_f2+l673_f1, l74_f2+l75_f1+l353_f2+l375_f1+l653_f2+l674_f1, l75_f2+l76_f1+l354_f2+l376_f1+l654_f2+l675_f1, l76_f2+l77_f1+l355_f2+l377_f1+l655_f2+l676_f1, l77_f2+l78_f1+l356_f2+l378_f1+l656_f2+l677_f1, l78_f2+l79_f1+l357_f2+l379_f1+l657_f2+l678_f1, l79_f2+l80_f1+l358_f2+l380_f1+l658_f2+l679_f1, l80_f2+l81_f1+l359_f2+l381_f1+l659_f2+l680_f1, l81_f2+l82_f1+l360_f2+l382_f1+l660_f2+l681_f1, l82_f2+l83_f1+l361_f2+l383_f1+l661_f2+l682_f1, l83_f2+l84_f1+l362_f2+l384_f1+l662_f2+l683_f1, l84_f2+l85_f1+l363_f2+l385_f1+l663_f2+l684_f1, l85_f2+l86_f1+l364_f2+l386_f1+l664_f2+l685_f1, l86_f2+l87_f1+l365_f2+l387_f1+l665_f2+l686_f1, l87_f2+l88_f1+l366_f2+l388_f1+l666_f2+l687_f1, l88_f2+l89_f1+l367_f2+l389_f1+l667_f2+l688_f1, l89_f2+l368_f2+l668_f2+l689_f1, l90_f1+l369_f2+l390_f1+l669_f2, l90_f2+l91_f1+l370_f2+l391_f1+l670_f2+l690_f1, l91_f2+l92_f1+l371_f2+l392_f1+l671_f2+l691_f1, l92_f2+l93_f1+l372_f2+l393_f1+l672_f2+l692_f1, l93_f2+l94_f1+l373_f2+l394_f1+l673_f2+l693_f1, l94_f2+l95_f1+l374_f2+l395_f1+l674_f2+l694_f1, l95_f2+l96_f1+l375_f2+l396_f1+l675_f2+l695_f1, l96_f2+l97_f1+l376_f2+l397_f1+l676_f2+l696_f1, l97_f2+l98_f1+l377_f2+l398_f1+l677_f2+l697_f1, l98_f2+l99_f1+l378_f2+l399_f1+l678_f2+l698_f1, l99_f2+l100_f1+l379_f2+l400_f1+l679_f2+l699_f1, l100_f2+l101_f1+l380_f2+l401_f1+l680_f2+l700_f1, l101_f2+l102_f1+l381_f2+l402_f1+l681_f2+l701_f1, l102_f2+l103_f1+l382_f2+l403_f1+l682_f2+l702_f1, l103_f2+l104_f1+l383_f2+l404_f1+l683_f2+l703_f1, l104_f2+l105_f1+l384_f2+l405_f1+l684_f2+l704_f1, l105_f2+l106_f1+l385_f2+l406_f1+l685_f2+l705_f1, l106_f2+l107_f1+l386_f2+l407_f1+l686_f2+l706_f1, l107_f2+l108_f1+l387_f2+l408_f1+l687_f2+l707_f1, l108_f2+l109_f1+l388_f2+l409_f1+l688_f2+l708_f1, l109_f2+l389_f2+l689_f2+l709_f1, l110_f1+l390_f2+l410_f1+l690_f2, l110_f2+l111_f1+l391_f2+l411_f1+l691_f2+l710_f1, l111_f2+l112_f1+l392_f2+l412_f1+l692_f2+l711_f1, l112_f2+l113_f1+l393_f2+l413_f1+l693_f2+l712_f1, l113_f2+l114_f1+l394_f2+l414_f1+l694_f2+l713_f1, l114_f2+l115_f1+l395_f2+l415_f1+l695_f2+l714_f1, l115_f2+l116_f1+l396_f2+l416_f1+l696_f2+l715_f1, l116_f2+l117_f1+l397_f2+l417_f1+l697_f2+l716_f1, l117_f2+l118_f1+l398_f2+l418_f1+l698_f2+l717_f1, l118_f2+l119_f1+l399_f2+l419_f1+l699_f2+l718_f1, l119_f2+l120_f1+l400_f2+l420_f1+l700_f2+l719_f1, l120_f2+l121_f1+l401_f2+l421_f1+l701_f2+l720_f1, l121_f2+l122_f1+l402_f2+l422_f1+l702_f2+l721_f1, l122_f2+l123_f1+l403_f2+l423_f1+l703_f2+l722_f1, l123_f2+l124_f1+l404_f2+l424_f1+l704_f2+l723_f1, l124_f2+l125_f1+l405_f2+l425_f1+l705_f2+l724_f1, l125_f2+l126_f1+l406_f2+l426_f1+l706_f2+l725_f1, l126_f2+l127_f1+l407_f2+l427_f1+l707_f2+l726_f1, l127_f2+l128_f1+l408_f2+l428_f1+l708_f2+l727_f1, l128_f2+l409_f2+l709_f2+l728_f1, l129_f1+l410_f2+l429_f1+l710_f2, l129_f2+l130_f1+l411_f2+l430_f1+l711_f2+l729_f1, l130_f2+l131_f1+l412_f2+l431_f1+l712_f2+l730_f1, l131_f2+l132_f1+l413_f2+l432_f1+l713_f2+l731_f1, l132_f2+l133_f1+l414_f2+l433_f1+l714_f2+l732_f1, l133_f2+l134_f1+l415_f2+l434_f1+l715_f2+l733_f1, l134_f2+l135_f1+l416_f2+l435_f1+l716_f2+l734_f1, l135_f2+l136_f1+l417_f2+l436_f1+l717_f2+l735_f1, l136_f2+l137_f1+l418_f2+l437_f1+l718_f2+l736_f1, l137_f2+l138_f1+l419_f2+l438_f1+l719_f2+l737_f1, l138_f2+l139_f1+l420_f2+l439_f1+l720_f2+l738_f1, l139_f2+l140_f1+l421_f2+l440_f1+l721_f2+l739_f1, l140_f2+l141_f1+l422_f2+l441_f1+l722_f2+l740_f1, l141_f2+l142_f1+l423_f2+l442_f1+l723_f2+l741_f1, l142_f2+l143_f1+l424_f2+l443_f1+l724_f2+l742_f1, l143_f2+l144_f1+l425_f2+l444_f1+l725_f2+l743_f1, l144_f2+l145_f1+l426_f2+l445_f1+l726_f2+l744_f1, l145_f2+l146_f1+l427_f2+l446_f1+l727_f2+l745_f1, l146_f2+l428_f2+l728_f2+l746_f1, l147_f1+l429_f2+l447_f1+l729_f2, l147_f2+l148_f1+l430_f2+l448_f1+l730_f2+l747_f1, l148_f2+l149_f1+l431_f2+l449_f1+l731_f2+l748_f1, l149_f2+l150_f1+l432_f2+l450_f1+l732_f2+l749_f1, l150_f2+l151_f1+l433_f2+l451_f1+l733_f2+l750_f1, l151_f2+l152_f1+l434_f2+l452_f1+l734_f2+l751_f1, l152_f2+l153_f1+l435_f2+l453_f1+l735_f2+l752_f1, l153_f2+l154_f1+l436_f2+l454_f1+l736_f2+l753_f1, l154_f2+l155_f1+l437_f2+l455_f1+l737_f2+l754_f1, l155_f2+l156_f1+l438_f2+l456_f1+l738_f2+l755_f1, l156_f2+l157_f1+l439_f2+l457_f1+l739_f2+l756_f1, l157_f2+l158_f1+l440_f2+l458_f1+l740_f2+l757_f1, l158_f2+l159_f1+l441_f2+l459_f1+l741_f2+l758_f1, l159_f2+l160_f1+l442_f2+l460_f1+l742_f2+l759_f1, l160_f2+l161_f1+l443_f2+l461_f1+l743_f2+l760_f1, l161_f2+l162_f1+l444_f2+l462_f1+l744_f2+l761_f1, l162_f2+l163_f1+l445_f2+l463_f1+l745_f2+l762_f1, l163_f2+l446_f2+l746_f2+l763_f1, l164_f1+l447_f2+l464_f1+l747_f2, l164_f2+l165_f1+l448_f2+l465_f1+l748_f2+l764_f1+l900_f1, l165_f2+l166_f1+l449_f2+l466_f1+l749_f2+l765_f1+l901_f1, l166_f2+l167_f1+l450_f2+l467_f1+l750_f2+l766_f1, l167_f2+l168_f1+l451_f2+l468_f1+l751_f2+l767_f1, l168_f2+l169_f1+l452_f2+l469_f1+l752_f2+l768_f1, l169_f2+l170_f1+l453_f2+l470_f1+l753_f2+l769_f1, l170_f2+l171_f1+l454_f2+l471_f1+l754_f2+l770_f1, l171_f2+l172_f1+l455_f2+l472_f1+l755_f2+l771_f1, l172_f2+l173_f1+l456_f2+l473_f1+l756_f2+l772_f1, l173_f2+l174_f1+l457_f2+l474_f1+l757_f2+l773_f1, l174_f2+l175_f1+l458_f2+l475_f1+l758_f2+l774_f1, l175_f2+l176_f1+l459_f2+l476_f1+l759_f2+l775_f1, l176_f2+l177_f1+l460_f2+l477_f1+l760_f2+l776_f1, l177_f2+l178_f1+l461_f2+l478_f1+l761_f2+l777_f1, l178_f2+l179_f1+l462_f2+l479_f1+l762_f2+l778_f1, l179_f2+l463_f2+l763_f2+l779_f1, l180_f1+l464_f2+l480_f1+l764_f2, l180_f2+l181_f1+l465_f2+l481_f1+l765_f2+l780_f1, l181_f2+l182_f1+l466_f2+l482_f1+l766_f2+l781_f1, l182_f2+l183_f1+l467_f2+l483_f1+l767_f2+l782_f1, l183_f2+l184_f1+l468_f2+l484_f1+l768_f2+l783_f1, l184_f2+l185_f1+l469_f2+l485_f1+l769_f2+l784_f1, l185_f2+l186_f1+l470_f2+l486_f1+l770_f2+l785_f1, l186_f2+l187_f1+l471_f2+l487_f1+l771_f2+l786_f1, l187_f2+l188_f1+l472_f2+l488_f1+l772_f2+l787_f1, l188_f2+l189_f1+l473_f2+l489_f1+l773_f2+l788_f1, l189_f2+l190_f1+l474_f2+l490_f1+l774_f2+l789_f1, l190_f2+l191_f1+l475_f2+l491_f1+l775_f2+l790_f1, l191_f2+l192_f1+l476_f2+l492_f1+l776_f2+l791_f1, l192_f2+l193_f1+l477_f2+l493_f1+l777_f2+l792_f1, l193_f2+l194_f1+l478_f2+l494_f1+l778_f2+l793_f1, l194_f2+l479_f2+l779_f2+l794_f1, l195_f1+l480_f2+l495_f1+l780_f2, l195_f2+l196_f1+l481_f2+l496_f1+l781_f2+l795_f1, l196_f2+l197_f1+l482_f2+l497_f1+l782_f2+l796_f1, l197_f2+l198_f1+l483_f2+l498_f1+l783_f2+l797_f1, l198_f2+l199_f1+l484_f2+l499_f1+l784_f2+l798_f1, l199_f2+l200_f1+l485_f2+l500_f1+l785_f2+l799_f1, l200_f2+l201_f1+l486_f2+l501_f1+l786_f2+l800_f1, l201_f2+l202_f1+l487_f2+l502_f1+l787_f2+l801_f1, l202_f2+l203_f1+l488_f2+l503_f1+l788_f2+l802_f1, l203_f2+l204_f1+l489_f2+l504_f1+l789_f2+l803_f1, l204_f2+l205_f1+l490_f2+l505_f1+l790_f2+l804_f1, l205_f2+l206_f1+l491_f2+l506_f1+l791_f2+l805_f1, l206_f2+l207_f1+l492_f2+l507_f1+l792_f2+l806_f1, l207_f2+l208_f1+l493_f2+l508_f1+l793_f2+l807_f1, l208_f2+l494_f2+l794_f2+l808_f1, l209_f1+l495_f2+l509_f1+l795_f2, l209_f2+l210_f1+l496_f2+l510_f1+l796_f2+l809_f1, l210_f2+l211_f1+l497_f2+l511_f1+l797_f2+l810_f1, l211_f2+l212_f1+l498_f2+l512_f1+l798_f2+l811_f1, l212_f2+l213_f1+l499_f2+l513_f1+l799_f2+l812_f1, l213_f2+l214_f1+l500_f2+l514_f1+l800_f2+l813_f1, l214_f2+l215_f1+l501_f2+l515_f1+l801_f2+l814_f1, l215_f2+l216_f1+l502_f2+l516_f1+l802_f2+l815_f1, l216_f2+l217_f1+l503_f2+l517_f1+l803_f2+l816_f1, l217_f2+l218_f1+l504_f2+l518_f1+l804_f2+l817_f1, l218_f2+l219_f1+l505_f2+l519_f1+l805_f2+l818_f1, l219_f2+l220_f1+l506_f2+l520_f1+l806_f2+l819_f1, l220_f2+l221_f1+l507_f2+l521_f1+l807_f2+l820_f1, l221_f2+l508_f2+l808_f2+l821_f1, l222_f1+l509_f2+l522_f1+l809_f2, l222_f2+l223_f1+l510_f2+l523_f1+l810_f2+l822_f1, l223_f2+l224_f1+l511_f2+l524_f1+l811_f2+l823_f1, l224_f2+l225_f1+l512_f2+l525_f1+l812_f2+l824_f1, l225_f2+l226_f1+l513_f2+l526_f1+l813_f2+l825_f1, l226_f2+l227_f1+l514_f2+l527_f1+l814_f2+l826_f1, l227_f2+l228_f1+l515_f2+l528_f1+l815_f2+l827_f1, l228_f2+l229_f1+l516_f2+l529_f1+l816_f2+l828_f1, l229_f2+l230_f1+l517_f2+l530_f1+l817_f2+l829_f1, l230_f2+l231_f1+l518_f2+l531_f1+l818_f2+l830_f1, l231_f2+l232_f1+l519_f2+l532_f1+l819_f2+l831_f1, l232_f2+l233_f1+l520_f2+l533_f1+l820_f2+l832_f1, l233_f2+l521_f2+l821_f2+l833_f1, l234_f1+l522_f2+l534_f1+l822_f2, l234_f2+l235_f1+l523_f2+l535_f1+l823_f2+l834_f1, l235_f2+l236_f1+l524_f2+l536_f1+l824_f2+l835_f1, l236_f2+l237_f1+l525_f2+l537_f1+l825_f2+l836_f1, l237_f2+l238_f1+l526_f2+l538_f1+l826_f2+l837_f1, l238_f2+l239_f1+l527_f2+l539_f1+l827_f2+l838_f1, l239_f2+l240_f1+l528_f2+l540_f1+l828_f2+l839_f1, l240_f2+l241_f1+l529_f2+l541_f1+l829_f2+l840_f1, l241_f2+l242_f1+l530_f2+l542_f1+l830_f2+l841_f1, l242_f2+l243_f1+l531_f2+l543_f1+l831_f2+l842_f1+l904_f1, l243_f2+l244_f1+l532_f2+l544_f1+l832_f2+l843_f1+l905_f1, l244_f2+l533_f2+l833_f2+l844_f1, l245_f1+l534_f2+l545_f1+l834_f2, l245_f2+l246_f1+l535_f2+l546_f1+l835_f2+l845_f1, l246_f2+l247_f1+l536_f2+l547_f1+l836_f2+l846_f1, l247_f2+l248_f1+l537_f2+l548_f1+l837_f2+l847_f1, l248_f2+l249_f1+l538_f2+l549_f1+l838_f2+l848_f1, l249_f2+l250_f1+l539_f2+l550_f1+l839_f2+l849_f1, l250_f2+l251_f1+l540_f2+l551_f1+l840_f2+l850_f1, l251_f2+l252_f1+l541_f2+l552_f1+l841_f2+l851_f1, l252_f2+l253_f1+l542_f2+l553_f1+l842_f2+l852_f1, l253_f2+l254_f1+l543_f2+l554_f1+l843_f2+l853_f1, l254_f2+l544_f2+l844_f2+l854_f1, l255_f1+l545_f2+l555_f1+l845_f2, l255_f2+l256_f1+l546_f2+l556_f1+l846_f2+l855_f1, l256_f2+l257_f1+l547_f2+l557_f1+l847_f2+l856_f1, l257_f2+l258_f1+l548_f2+l558_f1+l848_f2+l857_f1, l258_f2+l259_f1+l549_f2+l559_f1+l849_f2+l858_f1, l259_f2+l260_f1+l550_f2+l560_f1+l850_f2+l859_f1, l260_f2+l261_f1+l551_f2+l561_f1+l851_f2+l860_f1, l261_f2+l262_f1+l552_f2+l562_f1+l852_f2+l861_f1, l262_f2+l263_f1+l553_f2+l563_f1+l853_f2+l862_f1, l263_f2+l554_f2+l854_f2+l863_f1, l264_f1+l555_f2+l564_f1+l855_f2, l264_f2+l265_f1+l556_f2+l565_f1+l856_f2+l864_f1, l265_f2+l266_f1+l557_f2+l566_f1+l857_f2+l865_f1, l266_f2+l267_f1+l558_f2+l567_f1+l858_f2+l866_f1, l267_f2+l268_f1+l559_f2+l568_f1+l859_f2+l867_f1, l268_f2+l269_f1+l560_f2+l569_f1+l860_f2+l868_f1, l269_f2+l270_f1+l561_f2+l570_f1+l861_f2+l869_f1, l270_f2+l271_f1+l562_f2+l571_f1+l862_f2+l870_f1, l271_f2+l563_f2+l863_f2+l871_f1, l272_f1+l564_f2+l572_f1+l864_f2, l272_f2+l273_f1+l565_f2+l573_f1+l865_f2+l872_f1, l273_f2+l274_f1+l566_f2+l574_f1+l866_f2+l873_f1, l274_f2+l275_f1+l567_f2+l575_f1+l867_f2+l874_f1+l902_f1, l275_f2+l276_f1+l568_f2+l576_f1+l868_f2+l875_f1+l903_f1, l276_f2+l277_f1+l569_f2+l577_f1+l869_f2+l876_f1, l277_f2+l278_f1+l570_f2+l578_f1+l870_f2+l877_f1, l278_f2+l571_f2+l871_f2+l878_f1, l279_f1+l572_f2+l579_f1+l872_f2, l279_f2+l280_f1+l573_f2+l580_f1+l873_f2+l879_f1, l280_f2+l281_f1+l574_f2+l581_f1+l874_f2+l880_f1, l281_f2+l282_f1+l575_f2+l582_f1+l875_f2+l881_f1, l282_f2+l283_f1+l576_f2+l583_f1+l876_f2+l882_f1, l283_f2+l284_f1+l577_f2+l584_f1+l877_f2+l883_f1, l284_f2+l578_f2+l878_f2+l884_f1, l285_f1+l579_f2+l585_f1+l879_f2, l285_f2+l286_f1+l580_f2+l586_f1+l880_f2+l885_f1, l286_f2+l287_f1+l581_f2+l587_f1+l881_f2+l886_f1, l287_f2+l288_f1+l582_f2+l588_f1+l882_f2+l887_f1, l288_f2+l289_f1+l583_f2+l589_f1+l883_f2+l888_f1, l289_f2+l584_f2+l884_f2+l889_f1, l290_f1+l585_f2+l590_f1+l885_f2, l290_f2+l291_f1+l586_f2+l591_f1+l886_f2+l890_f1, l291_f2+l292_f1+l587_f2+l592_f1+l887_f2+l891_f1, l292_f2+l293_f1+l588_f2+l593_f1+l888_f2+l892_f1, l293_f2+l589_f2+l889_f2+l893_f1, l294_f1+l590_f2+l594_f1+l890_f2, l294_f2+l295_f1+l591_f2+l595_f1+l891_f2+l894_f1, l295_f2+l296_f1+l592_f2+l596_f1+l892_f2+l895_f1, l296_f2+l593_f2+l893_f2+l896_f1, l297_f1+l594_f2+l597_f1+l894_f2, l297_f2+l298_f1+l595_f2+l598_f1+l895_f2+l897_f1+l906_f2, l298_f2+l596_f2+l896_f2+l898_f1, l299_f1+l597_f2+l599_f1+l897_f2, l299_f2+l598_f2+l898_f2+l899_f1, l599_f2+l899_f2, l906_f1, p_in1, l900_f2+l901_f2, p_in2, l902_f2+l903_f2, p_in3, l904_f2+l905_f2, p_in4; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328) = m0, m1, m1, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m152, m152, m153, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m180, m181, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m210, m211, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m240, m241, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m270, m271, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m297, m298, m298, m299, m299, m300, m300, m301, m301, m302, m302, m303, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m310, m311, m311, m312, m312, m313, m313, m314, m315, m316, m316, m317, m317, m318, m319, m320, m320, m321, m322, m323, m0, m25, m1, m26, m2, m27, m3, m28, m4, m29, m5, m30, m6, m31, m7, m32, m8, m33, m9, m34, m10, m35, m11, m36, m12, m37, m13, m38, m14, m39, m15, m40, m16, m41, m17, m42, m18, m43, m19, m44, m20, m45, m21, m46, m22, m47, m23, m48, m25, m49, m26, m50, m27, m51, m28, m52, m29, m53, m30, m54, m31, m55, m32, m56, m33, m57, m34, m58, m35, m59, m36, m60, m37, m61, m38, m62, m39, m63, m40, m64, m41, m65, m42, m66, m43, m67, m44, m68, m45, m69, m46, m70, m47, m71, m49, m72, m50, m73, m51, m74, m52, m75, m53, m76, m54, m77, m55, m78, m56, m79, m57, m80, m58, m81, m59, m82, m60, m83, m61, m84, m62, m85, m63, m86, m64, m87, m65, m88, m66, m89, m67, m90, m68, m91, m69, m92, m70, m93, m72, m94, m73, m95, m74, m96, m75, m97, m76, m98, m77, m99, m78, m100, m79, m101, m80, m102, m81, m103, m82, m104, m83, m105, m84, m106, m85, m107, m86, m108, m87, m109, m88, m110, m89, m111, m90, m112, m91, m113, m92, m114, m94, m115, m95, m116, m96, m117, m97, m118, m98, m119, m99, m120, m100, m121, m101, m122, m102, m123, m103, m124, m104, m125, m105, m126, m106, m127, m107, m128, m108, m129, m109, m130, m110, m131, m111, m132, m112, m133, m113, m134, m115, m135, m116, m136, m117, m137, m118, m138, m119, m139, m120, m140, m121, m141, m122, m142, m123, m143, m124, m144, m125, m145, m126, m146, m127, m147, m128, m148, m129, m149, m130, m150, m131, m151, m132, m152, m133, m153, m135, m154, m136, m155, m137, m156, m138, m157, m139, m158, m140, m159, m141, m160, m142, m161, m143, m162, m144, m163, m145, m164, m146, m165, m147, m166, m148, m167, m149, m168, m150, m169, m151, m170, m152, m171, m154, m172, m155, m173, m156, m174, m157, m175, m158, m176, m159, m177, m160, m178, m161, m179, m162, m180, m163, m181, m164, m182, m165, m183, m166, m184, m167, m185, m168, m186, m169, m187, m170, m188, m172, m189, m173, m190, m174, m191, m175, m192, m176, m193, m177, m194, m178, m195, m179, m196, m180, m197, m181, m198, m182, m199, m183, m200, m184, m201, m185, m202, m186, m203, m187, m204, m189, m205, m190, m206, m191, m207, m192, m208, m193, m209, m194, m210, m195, m211, m196, m212, m197, m213, m198, m214, m199, m215, m200, m216, m201, m217, m202, m218, m203, m219, m205, m220, m206, m221, m207, m222, m208, m223, m209, m224, m210, m225, m211, m226, m212, m227, m213, m228, m214, m229, m215, m230, m216, m231, m217, m232, m218, m233, m220, m234, m221, m235, m222, m236, m223, m237, m224, m238, m225, m239, m226, m240, m227, m241, m228, m242, m229, m243, m230, m244, m231, m245, m232, m246, m234, m247, m235, m248, m236, m249, m237, m250, m238, m251, m239, m252, m240, m253, m241, m254, m242, m255, m243, m256, m244, m257, m245, m258, m247, m259, m248, m260, m249, m261, m250, m262, m251, m263, m252, m264, m253, m265, m254, m266, m255, m267, m256, m268, m257, m269, m259, m270, m260, m271, m261, m272, m262, m273, m263, m274, m264, m275, m265, m276, m266, m277, m267, m278, m268, m279, m270, m280, m271, m281, m272, m282, m273, m283, m274, m284, m275, m285, m276, m286, m277, m287, m278, m288, m280, m289, m281, m290, m282, m291, m283, m292, m284, m293, m285, m294, m286, m295, m287, m296, m289, m297, m290, m298, m291, m299, m292, m300, m293, m301, m294, m302, m295, m303, m297, m304, m298, m305, m299, m306, m300, m307, m301, m308, m302, m309, m304, m310, m305, m311, m306, m312, m307, m313, m308, m314, m310, m315, m311, m316, m312, m317, m313, m318, m315, m319, m316, m320, m317, m321, m319, m322, m320, m323, m322, m324, m1, m25, m2, m26, m3, m27, m4, m28, m5, m29, m6, m30, m7, m31, m8, m32, m9, m33, m10, m34, m11, m35, m12, m36, m13, m37, m14, m38, m15, m39, m16, m40, m17, m41, m18, m42, m19, m43, m20, m44, m21, m45, m22, m46, m23, m47, m24, m48, m26, m49, m27, m50, m28, m51, m29, m52, m30, m53, m31, m54, m32, m55, m33, m56, m34, m57, m35, m58, m36, m59, m37, m60, m38, m61, m39, m62, m40, m63, m41, m64, m42, m65, m43, m66, m44, m67, m45, m68, m46, m69, m47, m70, m48, m71, m50, m72, m51, m73, m52, m74, m53, m75, m54, m76, m55, m77, m56, m78, m57, m79, m58, m80, m59, m81, m60, m82, m61, m83, m62, m84, m63, m85, m64, m86, m65, m87, m66, m88, m67, m89, m68, m90, m69, m91, m70, m92, m71, m93, m73, m94, m74, m95, m75, m96, m76, m97, m77, m98, m78, m99, m79, m100, m80, m101, m81, m102, m82, m103, m83, m104, m84, m105, m85, m106, m86, m107, m87, m108, m88, m109, m89, m110, m90, m111, m91, m112, m92, m113, m93, m114, m95, m115, m96, m116, m97, m117, m98, m118, m99, m119, m100, m120, m101, m121, m102, m122, m103, m123, m104, m124, m105, m125, m106, m126, m107, m127, m108, m128, m109, m129, m110, m130, m111, m131, m112, m132, m113, m133, m114, m134, m116, m135, m117, m136, m118, m137, m119, m138, m120, m139, m121, m140, m122, m141, m123, m142, m124, m143, m125, m144, m126, m145, m127, m146, m128, m147, m129, m148, m130, m149, m131, m150, m132, m151, m133, m152, m134, m153, m136, m154, m137, m155, m138, m156, m139, m157, m140, m158, m141, m159, m142, m160, m143, m161, m144, m162, m145, m163, m146, m164, m147, m165, m148, m166, m149, m167, m150, m168, m151, m169, m152, m170, m153, m171, m155, m172, m156, m173, m157, m174, m158, m175, m159, m176, m160, m177, m161, m178, m162, m179, m163, m180, m164, m181, m165, m182, m166, m183, m167, m184, m168, m185, m169, m186, m170, m187, m171, m188, m173, m189, m174, m190, m175, m191, m176, m192, m177, m193, m178, m194, m179, m195, m180, m196, m181, m197, m182, m198, m183, m199, m184, m200, m185, m201, m186, m202, m187, m203, m188, m204, m190, m205, m191, m206, m192, m207, m193, m208, m194, m209, m195, m210, m196, m211, m197, m212, m198, m213, m199, m214, m200, m215, m201, m216, m202, m217, m203, m218, m204, m219, m206, m220, m207, m221, m208, m222, m209, m223, m210, m224, m211, m225, m212, m226, m213, m227, m214, m228, m215, m229, m216, m230, m217, m231, m218, m232, m219, m233, m221, m234, m222, m235, m223, m236, m224, m237, m225, m238, m226, m239, m227, m240, m228, m241, m229, m242, m230, m243, m231, m244, m232, m245, m233, m246, m235, m247, m236, m248, m237, m249, m238, m250, m239, m251, m240, m252, m241, m253, m242, m254, m243, m255, m244, m256, m245, m257, m246, m258, m248, m259, m249, m260, m250, m261, m251, m262, m252, m263, m253, m264, m254, m265, m255, m266, m256, m267, m257, m268, m258, m269, m260, m270, m261, m271, m262, m272, m263, m273, m264, m274, m265, m275, m266, m276, m267, m277, m268, m278, m269, m279, m271, m280, m272, m281, m273, m282, m274, m283, m275, m284, m276, m285, m277, m286, m278, m287, m279, m288, m281, m289, m282, m290, m283, m291, m284, m292, m285, m293, m286, m294, m287, m295, m288, m296, m290, m297, m291, m298, m292, m299, m293, m300, m294, m301, m295, m302, m296, m303, m298, m304, m299, m305, m300, m306, m301, m307, m302, m308, m303, m309, m305, m310, m306, m311, m307, m312, m308, m313, m309, m314, m311, m315, m312, m316, m313, m317, m314, m318, m316, m319, m317, m320, m318, m321, m320, m322, m321, m323, m323, m324, m173, m326, m174, m326, m292, m327, m293, m327, m256, m328, m257, m328, m325, m320,m83,m30; }; process = in1, in2, in3, in4: model: (OutGain), (OutGain);
344e9d8f494562a96ea3367bf4cb572821b8a68b97ce3ad7f23311b1eab524ea	rmichon/mi_faust	1000massString.dsp	import("stdfaust.lib"); import("../../faust/mi.lib"); in1 = vslider("pos",1,-1,1,0.0001) : si.smoo; OutGain = 10.; nlK = 0.1; nlscale = 0.05; str_M = 1.0; str_K = 0.1; str_Z = 0.01; model = (RoutingLinkToMass: ground(0.), ground(0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), mass(str_M,0., 0.), 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spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 2004, _): par(i, 2004,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l637_f2,l638_f1,l638_f2,l639_f1,l639_f2,l640_f1,l640_f2,l641_f1,l641_f2,l642_f1,l642_f2,l643_f1,l643_f2,l644_f1,l644_f2,l645_f1,l645_f2,l646_f1,l646_f2,l647_f1,l647_f2,l648_f1,l648_f2,l649_f1,l649_f2,l650_f1,l650_f2,l651_f1,l651_f2,l652_f1,l652_f2,l653_f1,l653_f2,l654_f1,l654_f2,l655_f1,l655_f2,l656_f1,l656_f2,l657_f1,l657_f2,l658_f1,l658_f2,l659_f1,l659_f2,l660_f1,l660_f2,l661_f1,l661_f2,l662_f1,l662_f2,l663_f1,l663_f2,l664_f1,l664_f2,l665_f1,l665_f2,l666_f1,l666_f2,l667_f1,l667_f2,l668_f1,l668_f2,l669_f1,l669_f2,l670_f1,l670_f2,l671_f1,l671_f2,l672_f1,l672_f2,l673_f1,l673_f2,l674_f1,l674_f2,l675_f1,l675_f2,l676_f1,l676_f2,l677_f1,l677_f2,l678_f1,l678_f2,l679_f1,l679_f2,l680_f1,l680_f2,l681_f1,l681_f2,l682_f1,l682_f2,l683_f1,l683_f2,l684_f1,l684_f2,l685_f1,l685_f2,l686_f1,l686_f2,l687_f1,l687_f2,l688_f1,l688_f2,l689_f1,l689_f2,l690_f1,l690_f2,l691_f1,l691_f2,l692_f1,l692_f2,l693_f1,l693_f2,l694_f1,l694_f2,l695_f1,l695_f2,l696_f1,l696_f2,l697_f1,l697_f2,l698_f1,l698_f2,l699_f1,l699_f2,l700_f1,l700_f2,l701_f1,l701_f2,l702_f1,l702_f2,l703_f1,l703_f2,l704_f1,l704_f2,l705_f1,l705_f2,l706_f1,l706_f2,l707_f1,l707_f2,l708_f1,l708_f2,l709_f1,l709_f2,l710_f1,l710_f2,l711_f1,l711_f2,l712_f1,l712_f2,l713_f1,l713_f2,l714_f1,l714_f2,l715_f1,l715_f2,l716_f1,l716_f2,l717_f1,l717_f2,l718_f1,l718_f2,l719_f1,l719_f2,l720_f1,l720_f2,l721_f1,l721_f2,l722_f1,l722_f2,l723_f1,l723_f2,l724_f1,l724_f2,l725_f1,l725_f2,l726_f1,l726_f2,l727_f1,l727_f2,l728_f1,l728_f2,l729_f1,l729_f2,l730_f1,l730_f2,l731_f1,l731_f2,l732_f1,l732_f2,l733_f1,l733_f2,l734_f1,l734_f2,l735_f1,l735_f2,l736_f1,l736_f2,l737_f1,l737_f2,l738_f1,l738_f2,l739_f1,l739_f2,l740_f1,l740_f2,l741_f1,l741_f2,l742_f1,l742_f2,l743_f1,l743_f2,l744_f1,l744_f2,l745_f1,l745_f2,l746_f1,l746_f2,l747_f1,l747_f2,l748_f1,l748_f2,l749_f1,l749_f2,l750_f1,l750_f2,l751_f1,l751_f2,l752_f1,l752_f2,l753_f1,l753_f2,l754_f1,l754_f2,l755_f1,l755_f2,l756_f1,l756_f2,l757_f1,l757_f2,l758_f1,l758_f2,l759_f1,l759_f2,l760_f1,l760_f2,l761_f1,l761_f2,l762_f1,l762_f2,l763_f1,l763_f2,l764_f1,l764_f2,l765_f1,l765_f2,l766_f1,l766_f2,l767_f1,l767_f2,l768_f1,l768_f2,l769_f1,l769_f2,l770_f1,l770_f2,l771_f1,l771_f2,l772_f1,l772_f2,l773_f1,l773_f2,l774_f1,l774_f2,l775_f1,l775_f2,l776_f1,l776_f2,l777_f1,l777_f2,l778_f1,l778_f2,l779_f1,l779_f2,l780_f1,l780_f2,l781_f1,l781_f2,l782_f1,l782_f2,l783_f1,l783_f2,l784_f1,l784_f2,l785_f1,l785_f2,l786_f1,l786_f2,l787_f1,l787_f2,l788_f1,l788_f2,l789_f1,l789_f2,l790_f1,l790_f2,l791_f1,l791_f2,l792_f1,l792_f2,l793_f1,l793_f2,l794_f1,l794_f2,l795_f1,l795_f2,l796_f1,l796_f2,l797_f1,l797_f2,l798_f1,l798_f2,l799_f1,l799_f2,l800_f1,l800_f2,l801_f1,l801_f2,l802_f1,l802_f2,l803_f1,l803_f2,l804_f1,l804_f2,l805_f1,l805_f2,l806_f1,l806_f2,l807_f1,l807_f2,l808_f1,l808_f2,l809_f1,l809_f2,l810_f1,l810_f2,l811_f1,l811_f2,l812_f1,l812_f2,l813_f1,l813_f2,l814_f1,l814_f2,l815_f1,l815_f2,l816_f1,l816_f2,l817_f1,l817_f2,l818_f1,l818_f2,l819_f1,l819_f2,l820_f1,l820_f2,l821_f1,l821_f2,l822_f1,l822_f2,l823_f1,l823_f2,l824_f1,l824_f2,l825_f1,l825_f2,l826_f1,l826_f2,l827_f1,l827_f2,l828_f1,l828_f2,l829_f1,l829_f2,l830_f1,l830_f2,l831_f1,l831_f2,l832_f1,l832_f2,l833_f1,l833_f2,l834_f1,l834_f2,l835_f1,l835_f2,l836_f1,l836_f2,l837_f1,l837_f2,l838_f1,l838_f2,l839_f1,l839_f2,l840_f1,l840_f2,l841_f1,l841_f2,l842_f1,l842_f2,l843_f1,l843_f2,l844_f1,l844_f2,l845_f1,l845_f2,l846_f1,l846_f2,l847_f1,l847_f2,l848_f1,l848_f2,l849_f1,l849_f2,l850_f1,l850_f2,l851_f1,l851_f2,l852_f1,l852_f2,l853_f1,l853_f2,l854_f1,l854_f2,l855_f1,l855_f2,l856_f1,l856_f2,l857_f1,l857_f2,l858_f1,l858_f2,l859_f1,l859_f2,l860_f1,l860_f2,l861_f1,l861_f2,l862_f1,l862_f2,l863_f1,l863_f2,l864_f1,l864_f2,l865_f1,l865_f2,l866_f1,l866_f2,l867_f1,l867_f2,l868_f1,l868_f2,l869_f1,l869_f2,l870_f1,l870_f2,l871_f1,l871_f2,l872_f1,l872_f2,l873_f1,l873_f2,l874_f1,l874_f2,l875_f1,l875_f2,l876_f1,l876_f2,l877_f1,l877_f2,l878_f1,l878_f2,l879_f1,l879_f2,l880_f1,l880_f2,l881_f1,l881_f2,l882_f1,l882_f2,l883_f1,l883_f2,l884_f1,l884_f2,l885_f1,l885_f2,l886_f1,l886_f2,l887_f1,l887_f2,l888_f1,l888_f2,l889_f1,l889_f2,l890_f1,l890_f2,l891_f1,l891_f2,l892_f1,l892_f2,l893_f1,l893_f2,l894_f1,l894_f2,l895_f1,l895_f2,l896_f1,l896_f2,l897_f1,l897_f2,l898_f1,l898_f2,l899_f1,l899_f2,l900_f1,l900_f2,l901_f1,l901_f2,l902_f1,l902_f2,l903_f1,l903_f2,l904_f1,l904_f2,l905_f1,l905_f2,l906_f1,l906_f2,l907_f1,l907_f2,l908_f1,l908_f2,l909_f1,l909_f2,l910_f1,l910_f2,l911_f1,l911_f2,l912_f1,l912_f2,l913_f1,l913_f2,l914_f1,l914_f2,l915_f1,l915_f2,l916_f1,l916_f2,l917_f1,l917_f2,l918_f1,l918_f2,l919_f1,l919_f2,l920_f1,l920_f2,l921_f1,l921_f2,l922_f1,l922_f2,l923_f1,l923_f2,l924_f1,l924_f2,l925_f1,l925_f2,l926_f1,l926_f2,l927_f1,l927_f2,l928_f1,l928_f2,l929_f1,l929_f2,l930_f1,l930_f2,l931_f1,l931_f2,l932_f1,l932_f2,l933_f1,l933_f2,l934_f1,l934_f2,l935_f1,l935_f2,l936_f1,l936_f2,l937_f1,l937_f2,l938_f1,l938_f2,l939_f1,l939_f2,l940_f1,l940_f2,l941_f1,l941_f2,l942_f1,l942_f2,l943_f1,l943_f2,l944_f1,l944_f2,l945_f1,l945_f2,l946_f1,l946_f2,l947_f1,l947_f2,l948_f1,l948_f2,l949_f1,l949_f2,l950_f1,l950_f2,l951_f1,l951_f2,l952_f1,l952_f2,l953_f1,l953_f2,l954_f1,l954_f2,l955_f1,l955_f2,l956_f1,l956_f2,l957_f1,l957_f2,l958_f1,l958_f2,l959_f1,l959_f2,l960_f1,l960_f2,l961_f1,l961_f2,l962_f1,l962_f2,l963_f1,l963_f2,l964_f1,l964_f2,l965_f1,l965_f2,l966_f1,l966_f2,l967_f1,l967_f2,l968_f1,l968_f2,l969_f1,l969_f2,l970_f1,l970_f2,l971_f1,l971_f2,l972_f1,l972_f2,l973_f1,l973_f2,l974_f1,l974_f2,l975_f1,l975_f2,l976_f1,l976_f2,l977_f1,l977_f2,l978_f1,l978_f2,l979_f1,l979_f2,l980_f1,l980_f2,l981_f1,l981_f2,l982_f1,l982_f2,l983_f1,l983_f2,l984_f1,l984_f2,l985_f1,l985_f2,l986_f1,l986_f2,l987_f1,l987_f2,l988_f1,l988_f2,l989_f1,l989_f2,l990_f1,l990_f2,l991_f1,l991_f2,l992_f1,l992_f2,l993_f1,l993_f2,l994_f1,l994_f2,l995_f1,l995_f2,l996_f1,l996_f2,l997_f1,l997_f2,l998_f1,l998_f2,l999_f1,l999_f2,l1000_f1,l1000_f2,l1001_f1,l1001_f2, p_in1) = l0_f1, l1000_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1, l38_f2+l39_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1, l51_f2+l52_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1, l76_f2+l77_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1+l1001_f2, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l150_f2+l151_f1, l151_f2+l152_f1, l152_f2+l153_f1, l153_f2+l154_f1, l154_f2+l155_f1, l155_f2+l156_f1, l156_f2+l157_f1, l157_f2+l158_f1, l158_f2+l159_f1, l159_f2+l160_f1, l160_f2+l161_f1, l161_f2+l162_f1, l162_f2+l163_f1, l163_f2+l164_f1, l164_f2+l165_f1, l165_f2+l166_f1, l166_f2+l167_f1, l167_f2+l168_f1, l168_f2+l169_f1, l169_f2+l170_f1, l170_f2+l171_f1, l171_f2+l172_f1, l172_f2+l173_f1, l173_f2+l174_f1, l174_f2+l175_f1, l175_f2+l176_f1, l176_f2+l177_f1, l177_f2+l178_f1, l178_f2+l179_f1, l179_f2+l180_f1, l180_f2+l181_f1, l181_f2+l182_f1, l182_f2+l183_f1, l183_f2+l184_f1, l184_f2+l185_f1, l185_f2+l186_f1, l186_f2+l187_f1, l187_f2+l188_f1, l188_f2+l189_f1, l189_f2+l190_f1, l190_f2+l191_f1, l191_f2+l192_f1, l192_f2+l193_f1, l193_f2+l194_f1, l194_f2+l195_f1, l195_f2+l196_f1, l196_f2+l197_f1, l197_f2+l198_f1, l198_f2+l199_f1, l199_f2+l200_f1, l200_f2+l201_f1, l201_f2+l202_f1, l202_f2+l203_f1, l203_f2+l204_f1, l204_f2+l205_f1, l205_f2+l206_f1, l206_f2+l207_f1, l207_f2+l208_f1, l208_f2+l209_f1, l209_f2+l210_f1, l210_f2+l211_f1, l211_f2+l212_f1, l212_f2+l213_f1, l213_f2+l214_f1, l214_f2+l215_f1, l215_f2+l216_f1, l216_f2+l217_f1, l217_f2+l218_f1, l218_f2+l219_f1, l219_f2+l220_f1, l220_f2+l221_f1, l221_f2+l222_f1, l222_f2+l223_f1, l223_f2+l224_f1, l224_f2+l225_f1, l225_f2+l226_f1, l226_f2+l227_f1, l227_f2+l228_f1, l228_f2+l229_f1, l229_f2+l230_f1, l230_f2+l231_f1, l231_f2+l232_f1, l232_f2+l233_f1, l233_f2+l234_f1, l234_f2+l235_f1, l235_f2+l236_f1, l236_f2+l237_f1, l237_f2+l238_f1, l238_f2+l239_f1, l239_f2+l240_f1, l240_f2+l241_f1, l241_f2+l242_f1, l242_f2+l243_f1, l243_f2+l244_f1, l244_f2+l245_f1, l245_f2+l246_f1, l246_f2+l247_f1, l247_f2+l248_f1, l248_f2+l249_f1, l249_f2+l250_f1, l250_f2+l251_f1, l251_f2+l252_f1, l252_f2+l253_f1, l253_f2+l254_f1, l254_f2+l255_f1, l255_f2+l256_f1, l256_f2+l257_f1, l257_f2+l258_f1, l258_f2+l259_f1, l259_f2+l260_f1, l260_f2+l261_f1, l261_f2+l262_f1, l262_f2+l263_f1, l263_f2+l264_f1, l264_f2+l265_f1, l265_f2+l266_f1, l266_f2+l267_f1, l267_f2+l268_f1, l268_f2+l269_f1, l269_f2+l270_f1, l270_f2+l271_f1, l271_f2+l272_f1, l272_f2+l273_f1, l273_f2+l274_f1, l274_f2+l275_f1, l275_f2+l276_f1, l276_f2+l277_f1, l277_f2+l278_f1, l278_f2+l279_f1, l279_f2+l280_f1, l280_f2+l281_f1, l281_f2+l282_f1, l282_f2+l283_f1, l283_f2+l284_f1, l284_f2+l285_f1, l285_f2+l286_f1, l286_f2+l287_f1, l287_f2+l288_f1, l288_f2+l289_f1, l289_f2+l290_f1, l290_f2+l291_f1, l291_f2+l292_f1, l292_f2+l293_f1, l293_f2+l294_f1, l294_f2+l295_f1, l295_f2+l296_f1, l296_f2+l297_f1, l297_f2+l298_f1, l298_f2+l299_f1, l299_f2+l300_f1, l300_f2+l301_f1, l301_f2+l302_f1, l302_f2+l303_f1, l303_f2+l304_f1, l304_f2+l305_f1, l305_f2+l306_f1, l306_f2+l307_f1, l307_f2+l308_f1, l308_f2+l309_f1, l309_f2+l310_f1, l310_f2+l311_f1, l311_f2+l312_f1, l312_f2+l313_f1, l313_f2+l314_f1, l314_f2+l315_f1, l315_f2+l316_f1, l316_f2+l317_f1, l317_f2+l318_f1, l318_f2+l319_f1, l319_f2+l320_f1, l320_f2+l321_f1, l321_f2+l322_f1, l322_f2+l323_f1, l323_f2+l324_f1, l324_f2+l325_f1, l325_f2+l326_f1, l326_f2+l327_f1, l327_f2+l328_f1, l328_f2+l329_f1, l329_f2+l330_f1, l330_f2+l331_f1, l331_f2+l332_f1, l332_f2+l333_f1, l333_f2+l334_f1, l334_f2+l335_f1, l335_f2+l336_f1, l336_f2+l337_f1, l337_f2+l338_f1, l338_f2+l339_f1, l339_f2+l340_f1, l340_f2+l341_f1, l341_f2+l342_f1, l342_f2+l343_f1, l343_f2+l344_f1, l344_f2+l345_f1, l345_f2+l346_f1, l346_f2+l347_f1, l347_f2+l348_f1, l348_f2+l349_f1, l349_f2+l350_f1, l350_f2+l351_f1, l351_f2+l352_f1, l352_f2+l353_f1, l353_f2+l354_f1, l354_f2+l355_f1, l355_f2+l356_f1, l356_f2+l357_f1, l357_f2+l358_f1, l358_f2+l359_f1, l359_f2+l360_f1, l360_f2+l361_f1, l361_f2+l362_f1, l362_f2+l363_f1, l363_f2+l364_f1, l364_f2+l365_f1, l365_f2+l366_f1, l366_f2+l367_f1, l367_f2+l368_f1, l368_f2+l369_f1, l369_f2+l370_f1, l370_f2+l371_f1, l371_f2+l372_f1, l372_f2+l373_f1, l373_f2+l374_f1, l374_f2+l375_f1, l375_f2+l376_f1, l376_f2+l377_f1, l377_f2+l378_f1, l378_f2+l379_f1, l379_f2+l380_f1, l380_f2+l381_f1, l381_f2+l382_f1, l382_f2+l383_f1, l383_f2+l384_f1, l384_f2+l385_f1, l385_f2+l386_f1, l386_f2+l387_f1, l387_f2+l388_f1, l388_f2+l389_f1, l389_f2+l390_f1, l390_f2+l391_f1, l391_f2+l392_f1, l392_f2+l393_f1, l393_f2+l394_f1, l394_f2+l395_f1, l395_f2+l396_f1, l396_f2+l397_f1, l397_f2+l398_f1, l398_f2+l399_f1, l399_f2+l400_f1, l400_f2+l401_f1, l401_f2+l402_f1, l402_f2+l403_f1, l403_f2+l404_f1, l404_f2+l405_f1, l405_f2+l406_f1, l406_f2+l407_f1, l407_f2+l408_f1, l408_f2+l409_f1, l409_f2+l410_f1, l410_f2+l411_f1, l411_f2+l412_f1, l412_f2+l413_f1, l413_f2+l414_f1, l414_f2+l415_f1, l415_f2+l416_f1, l416_f2+l417_f1, l417_f2+l418_f1, l418_f2+l419_f1, l419_f2+l420_f1, l420_f2+l421_f1, l421_f2+l422_f1, l422_f2+l423_f1, l423_f2+l424_f1, l424_f2+l425_f1, l425_f2+l426_f1, l426_f2+l427_f1, l427_f2+l428_f1, l428_f2+l429_f1, l429_f2+l430_f1, l430_f2+l431_f1, l431_f2+l432_f1, l432_f2+l433_f1, l433_f2+l434_f1, l434_f2+l435_f1, l435_f2+l436_f1, l436_f2+l437_f1, l437_f2+l438_f1, l438_f2+l439_f1, l439_f2+l440_f1, l440_f2+l441_f1, l441_f2+l442_f1, l442_f2+l443_f1, l443_f2+l444_f1, l444_f2+l445_f1, l445_f2+l446_f1, l446_f2+l447_f1, l447_f2+l448_f1, l448_f2+l449_f1, l449_f2+l450_f1, l450_f2+l451_f1, l451_f2+l452_f1, l452_f2+l453_f1, l453_f2+l454_f1, l454_f2+l455_f1, l455_f2+l456_f1, l456_f2+l457_f1, l457_f2+l458_f1, l458_f2+l459_f1, l459_f2+l460_f1, l460_f2+l461_f1, l461_f2+l462_f1, l462_f2+l463_f1, l463_f2+l464_f1, l464_f2+l465_f1, l465_f2+l466_f1, l466_f2+l467_f1, l467_f2+l468_f1, l468_f2+l469_f1, l469_f2+l470_f1, l470_f2+l471_f1, l471_f2+l472_f1, l472_f2+l473_f1, l473_f2+l474_f1, l474_f2+l475_f1, l475_f2+l476_f1, l476_f2+l477_f1, l477_f2+l478_f1, l478_f2+l479_f1, l479_f2+l480_f1, l480_f2+l481_f1, l481_f2+l482_f1, l482_f2+l483_f1, l483_f2+l484_f1, l484_f2+l485_f1, l485_f2+l486_f1, l486_f2+l487_f1, l487_f2+l488_f1, l488_f2+l489_f1, l489_f2+l490_f1, l490_f2+l491_f1, l491_f2+l492_f1, l492_f2+l493_f1, l493_f2+l494_f1, l494_f2+l495_f1, l495_f2+l496_f1, l496_f2+l497_f1, l497_f2+l498_f1, l498_f2+l499_f1, l499_f2+l500_f1, l500_f2+l501_f1, l501_f2+l502_f1, l502_f2+l503_f1, l503_f2+l504_f1, l504_f2+l505_f1, l505_f2+l506_f1, l506_f2+l507_f1, l507_f2+l508_f1, l508_f2+l509_f1, l509_f2+l510_f1, l510_f2+l511_f1, l511_f2+l512_f1, l512_f2+l513_f1, l513_f2+l514_f1, l514_f2+l515_f1, l515_f2+l516_f1, l516_f2+l517_f1, l517_f2+l518_f1, l518_f2+l519_f1, l519_f2+l520_f1, l520_f2+l521_f1, l521_f2+l522_f1, l522_f2+l523_f1, l523_f2+l524_f1, l524_f2+l525_f1, l525_f2+l526_f1, l526_f2+l527_f1, l527_f2+l528_f1, l528_f2+l529_f1, l529_f2+l530_f1, l530_f2+l531_f1, l531_f2+l532_f1, l532_f2+l533_f1, l533_f2+l534_f1, l534_f2+l535_f1, l535_f2+l536_f1, l536_f2+l537_f1, l537_f2+l538_f1, l538_f2+l539_f1, l539_f2+l540_f1, l540_f2+l541_f1, l541_f2+l542_f1, l542_f2+l543_f1, l543_f2+l544_f1, l544_f2+l545_f1, l545_f2+l546_f1, l546_f2+l547_f1, l547_f2+l548_f1, l548_f2+l549_f1, l549_f2+l550_f1, l550_f2+l551_f1, l551_f2+l552_f1, l552_f2+l553_f1, l553_f2+l554_f1, l554_f2+l555_f1, l555_f2+l556_f1, l556_f2+l557_f1, l557_f2+l558_f1, l558_f2+l559_f1, l559_f2+l560_f1, l560_f2+l561_f1, l561_f2+l562_f1, l562_f2+l563_f1, l563_f2+l564_f1, l564_f2+l565_f1, l565_f2+l566_f1, l566_f2+l567_f1, l567_f2+l568_f1, l568_f2+l569_f1, l569_f2+l570_f1, l570_f2+l571_f1, l571_f2+l572_f1, l572_f2+l573_f1, l573_f2+l574_f1, l574_f2+l575_f1, l575_f2+l576_f1, l576_f2+l577_f1, l577_f2+l578_f1, l578_f2+l579_f1, l579_f2+l580_f1, l580_f2+l581_f1, l581_f2+l582_f1, l582_f2+l583_f1, l583_f2+l584_f1, l584_f2+l585_f1, l585_f2+l586_f1, l586_f2+l587_f1, l587_f2+l588_f1, l588_f2+l589_f1, l589_f2+l590_f1, l590_f2+l591_f1, l591_f2+l592_f1, l592_f2+l593_f1, l593_f2+l594_f1, l594_f2+l595_f1, l595_f2+l596_f1, l596_f2+l597_f1, l597_f2+l598_f1, l598_f2+l599_f1, l599_f2+l600_f1, l600_f2+l601_f1, l601_f2+l602_f1, l602_f2+l603_f1, l603_f2+l604_f1, l604_f2+l605_f1, l605_f2+l606_f1, l606_f2+l607_f1, l607_f2+l608_f1, l608_f2+l609_f1, l609_f2+l610_f1, l610_f2+l611_f1, l611_f2+l612_f1, l612_f2+l613_f1, l613_f2+l614_f1, l614_f2+l615_f1, l615_f2+l616_f1, l616_f2+l617_f1, l617_f2+l618_f1, l618_f2+l619_f1, l619_f2+l620_f1, l620_f2+l621_f1, l621_f2+l622_f1, l622_f2+l623_f1, l623_f2+l624_f1, l624_f2+l625_f1, l625_f2+l626_f1, l626_f2+l627_f1, l627_f2+l628_f1, l628_f2+l629_f1, l629_f2+l630_f1, l630_f2+l631_f1, l631_f2+l632_f1, l632_f2+l633_f1, l633_f2+l634_f1, l634_f2+l635_f1, l635_f2+l636_f1, l636_f2+l637_f1, l637_f2+l638_f1, l638_f2+l639_f1, l639_f2+l640_f1, l640_f2+l641_f1, l641_f2+l642_f1, l642_f2+l643_f1, l643_f2+l644_f1, l644_f2+l645_f1, l645_f2+l646_f1, l646_f2+l647_f1, l647_f2+l648_f1, l648_f2+l649_f1, l649_f2+l650_f1, l650_f2+l651_f1, l651_f2+l652_f1, l652_f2+l653_f1, l653_f2+l654_f1, l654_f2+l655_f1, l655_f2+l656_f1, l656_f2+l657_f1, l657_f2+l658_f1, l658_f2+l659_f1, l659_f2+l660_f1, l660_f2+l661_f1, l661_f2+l662_f1, l662_f2+l663_f1, l663_f2+l664_f1, l664_f2+l665_f1, l665_f2+l666_f1, l666_f2+l667_f1, l667_f2+l668_f1, l668_f2+l669_f1, l669_f2+l670_f1, l670_f2+l671_f1, l671_f2+l672_f1, l672_f2+l673_f1, l673_f2+l674_f1, l674_f2+l675_f1, l675_f2+l676_f1, l676_f2+l677_f1, l677_f2+l678_f1, l678_f2+l679_f1, l679_f2+l680_f1, l680_f2+l681_f1, l681_f2+l682_f1, l682_f2+l683_f1, l683_f2+l684_f1, l684_f2+l685_f1, l685_f2+l686_f1, l686_f2+l687_f1, l687_f2+l688_f1, l688_f2+l689_f1, l689_f2+l690_f1, l690_f2+l691_f1, l691_f2+l692_f1, l692_f2+l693_f1, l693_f2+l694_f1, l694_f2+l695_f1, l695_f2+l696_f1, l696_f2+l697_f1, l697_f2+l698_f1, l698_f2+l699_f1, l699_f2+l700_f1, l700_f2+l701_f1, l701_f2+l702_f1, l702_f2+l703_f1, l703_f2+l704_f1, l704_f2+l705_f1, l705_f2+l706_f1, l706_f2+l707_f1, l707_f2+l708_f1, l708_f2+l709_f1, l709_f2+l710_f1, l710_f2+l711_f1, l711_f2+l712_f1, l712_f2+l713_f1, l713_f2+l714_f1, l714_f2+l715_f1, l715_f2+l716_f1, l716_f2+l717_f1, l717_f2+l718_f1, l718_f2+l719_f1, l719_f2+l720_f1, l720_f2+l721_f1, l721_f2+l722_f1, l722_f2+l723_f1, l723_f2+l724_f1, l724_f2+l725_f1, l725_f2+l726_f1, l726_f2+l727_f1, l727_f2+l728_f1, l728_f2+l729_f1, l729_f2+l730_f1, l730_f2+l731_f1, l731_f2+l732_f1, l732_f2+l733_f1, l733_f2+l734_f1, l734_f2+l735_f1, l735_f2+l736_f1, l736_f2+l737_f1, l737_f2+l738_f1, l738_f2+l739_f1, l739_f2+l740_f1, l740_f2+l741_f1, l741_f2+l742_f1, l742_f2+l743_f1, l743_f2+l744_f1, l744_f2+l745_f1, l745_f2+l746_f1, l746_f2+l747_f1, l747_f2+l748_f1, l748_f2+l749_f1, l749_f2+l750_f1, l750_f2+l751_f1, l751_f2+l752_f1, l752_f2+l753_f1, l753_f2+l754_f1, l754_f2+l755_f1, l755_f2+l756_f1, l756_f2+l757_f1, l757_f2+l758_f1, l758_f2+l759_f1, l759_f2+l760_f1, l760_f2+l761_f1, l761_f2+l762_f1, l762_f2+l763_f1, l763_f2+l764_f1, l764_f2+l765_f1, l765_f2+l766_f1, l766_f2+l767_f1, l767_f2+l768_f1, l768_f2+l769_f1, l769_f2+l770_f1, l770_f2+l771_f1, l771_f2+l772_f1, l772_f2+l773_f1, l773_f2+l774_f1, l774_f2+l775_f1, l775_f2+l776_f1, l776_f2+l777_f1, l777_f2+l778_f1, l778_f2+l779_f1, l779_f2+l780_f1, l780_f2+l781_f1, l781_f2+l782_f1, l782_f2+l783_f1, l783_f2+l784_f1, l784_f2+l785_f1, l785_f2+l786_f1, l786_f2+l787_f1, l787_f2+l788_f1, l788_f2+l789_f1, l789_f2+l790_f1, l790_f2+l791_f1, l791_f2+l792_f1, l792_f2+l793_f1, l793_f2+l794_f1, l794_f2+l795_f1, l795_f2+l796_f1, l796_f2+l797_f1, l797_f2+l798_f1, l798_f2+l799_f1, l799_f2+l800_f1, l800_f2+l801_f1, l801_f2+l802_f1, l802_f2+l803_f1, l803_f2+l804_f1, l804_f2+l805_f1, l805_f2+l806_f1, l806_f2+l807_f1, l807_f2+l808_f1, l808_f2+l809_f1, l809_f2+l810_f1, l810_f2+l811_f1, l811_f2+l812_f1, l812_f2+l813_f1, l813_f2+l814_f1, l814_f2+l815_f1, l815_f2+l816_f1, l816_f2+l817_f1, l817_f2+l818_f1, l818_f2+l819_f1, l819_f2+l820_f1, l820_f2+l821_f1, l821_f2+l822_f1, l822_f2+l823_f1, l823_f2+l824_f1, l824_f2+l825_f1, l825_f2+l826_f1, l826_f2+l827_f1, l827_f2+l828_f1, l828_f2+l829_f1, l829_f2+l830_f1, l830_f2+l831_f1, l831_f2+l832_f1, l832_f2+l833_f1, l833_f2+l834_f1, l834_f2+l835_f1, l835_f2+l836_f1, l836_f2+l837_f1, l837_f2+l838_f1, l838_f2+l839_f1, l839_f2+l840_f1, l840_f2+l841_f1, l841_f2+l842_f1, l842_f2+l843_f1, l843_f2+l844_f1, l844_f2+l845_f1, l845_f2+l846_f1, l846_f2+l847_f1, l847_f2+l848_f1, l848_f2+l849_f1, l849_f2+l850_f1, l850_f2+l851_f1, l851_f2+l852_f1, l852_f2+l853_f1, l853_f2+l854_f1, l854_f2+l855_f1, l855_f2+l856_f1, l856_f2+l857_f1, l857_f2+l858_f1, l858_f2+l859_f1, l859_f2+l860_f1, l860_f2+l861_f1, l861_f2+l862_f1, l862_f2+l863_f1, l863_f2+l864_f1, l864_f2+l865_f1, l865_f2+l866_f1, l866_f2+l867_f1, l867_f2+l868_f1, l868_f2+l869_f1, l869_f2+l870_f1, l870_f2+l871_f1, l871_f2+l872_f1, l872_f2+l873_f1, l873_f2+l874_f1, l874_f2+l875_f1, l875_f2+l876_f1, l876_f2+l877_f1, l877_f2+l878_f1, l878_f2+l879_f1, l879_f2+l880_f1, l880_f2+l881_f1, l881_f2+l882_f1, l882_f2+l883_f1, l883_f2+l884_f1, l884_f2+l885_f1, l885_f2+l886_f1, l886_f2+l887_f1, l887_f2+l888_f1, l888_f2+l889_f1, l889_f2+l890_f1, l890_f2+l891_f1, l891_f2+l892_f1, l892_f2+l893_f1, l893_f2+l894_f1, l894_f2+l895_f1, l895_f2+l896_f1, l896_f2+l897_f1, l897_f2+l898_f1, l898_f2+l899_f1, l899_f2+l900_f1, l900_f2+l901_f1, l901_f2+l902_f1, l902_f2+l903_f1, l903_f2+l904_f1, l904_f2+l905_f1, l905_f2+l906_f1, l906_f2+l907_f1, l907_f2+l908_f1, l908_f2+l909_f1, l909_f2+l910_f1, l910_f2+l911_f1, l911_f2+l912_f1, l912_f2+l913_f1, l913_f2+l914_f1, l914_f2+l915_f1, l915_f2+l916_f1, l916_f2+l917_f1, l917_f2+l918_f1, l918_f2+l919_f1, l919_f2+l920_f1, l920_f2+l921_f1, l921_f2+l922_f1, l922_f2+l923_f1, l923_f2+l924_f1, l924_f2+l925_f1, l925_f2+l926_f1, l926_f2+l927_f1, l927_f2+l928_f1, l928_f2+l929_f1, l929_f2+l930_f1, l930_f2+l931_f1, l931_f2+l932_f1, l932_f2+l933_f1, l933_f2+l934_f1, l934_f2+l935_f1, l935_f2+l936_f1, l936_f2+l937_f1, l937_f2+l938_f1, l938_f2+l939_f1, l939_f2+l940_f1, l940_f2+l941_f1, l941_f2+l942_f1, l942_f2+l943_f1, l943_f2+l944_f1, l944_f2+l945_f1, l945_f2+l946_f1, l946_f2+l947_f1, l947_f2+l948_f1, l948_f2+l949_f1, l949_f2+l950_f1, l950_f2+l951_f1, l951_f2+l952_f1, l952_f2+l953_f1, l953_f2+l954_f1, l954_f2+l955_f1, l955_f2+l956_f1, l956_f2+l957_f1, l957_f2+l958_f1, l958_f2+l959_f1, l959_f2+l960_f1, l960_f2+l961_f1, l961_f2+l962_f1, l962_f2+l963_f1, l963_f2+l964_f1, l964_f2+l965_f1, l965_f2+l966_f1, l966_f2+l967_f1, l967_f2+l968_f1, l968_f2+l969_f1, l969_f2+l970_f1, l970_f2+l971_f1, l971_f2+l972_f1, l972_f2+l973_f1, l973_f2+l974_f1, l974_f2+l975_f1, l975_f2+l976_f1, l976_f2+l977_f1, l977_f2+l978_f1, l978_f2+l979_f1, l979_f2+l980_f1, l980_f2+l981_f1, l981_f2+l982_f1, l982_f2+l983_f1, l983_f2+l984_f1, l984_f2+l985_f1, l985_f2+l986_f1, l986_f2+l987_f1, l987_f2+l988_f1, l988_f2+l989_f1, l989_f2+l990_f1, l990_f2+l991_f1, l991_f2+l992_f1, l992_f2+l993_f1, l993_f2+l994_f1, l994_f2+l995_f1, l995_f2+l996_f1, l996_f2+l997_f1, l997_f2+l998_f1, l998_f2+l999_f1, l999_f2+l1000_f1, l1001_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328,m329,m330,m331,m332,m333,m334,m335,m336,m337,m338,m339,m340,m341,m342,m343,m344,m345,m346,m347,m348,m349,m350,m351,m352,m353,m354,m355,m356,m357,m358,m359,m360,m361,m362,m363,m364,m365,m366,m367,m368,m369,m370,m371,m372,m373,m374,m375,m376,m377,m378,m379,m380,m381,m382,m383,m384,m385,m386,m387,m388,m389,m390,m391,m392,m393,m394,m395,m396,m397,m398,m399,m400,m401,m402,m403,m404,m405,m406,m407,m408,m409,m410,m411,m412,m413,m414,m415,m416,m417,m418,m419,m420,m421,m422,m423,m424,m425,m426,m427,m428,m429,m430,m431,m432,m433,m434,m435,m436,m437,m438,m439,m440,m441,m442,m443,m444,m445,m446,m447,m448,m449,m450,m451,m452,m453,m454,m455,m456,m457,m458,m459,m460,m461,m462,m463,m464,m465,m466,m467,m468,m469,m470,m471,m472,m473,m474,m475,m476,m477,m478,m479,m480,m481,m482,m483,m484,m485,m486,m487,m488,m489,m490,m491,m492,m493,m494,m495,m496,m497,m498,m499,m500,m501,m502,m503,m504,m505,m506,m507,m508,m509,m510,m511,m512,m513,m514,m515,m516,m517,m518,m519,m520,m521,m522,m523,m524,m525,m526,m527,m528,m529,m530,m531,m532,m533,m534,m535,m536,m537,m538,m539,m540,m541,m542,m543,m544,m545,m546,m547,m548,m549,m550,m551,m552,m553,m554,m555,m556,m557,m558,m559,m560,m561,m562,m563,m564,m565,m566,m567,m568,m569,m570,m571,m572,m573,m574,m575,m576,m577,m578,m579,m580,m581,m582,m583,m584,m585,m586,m587,m588,m589,m590,m591,m592,m593,m594,m595,m596,m597,m598,m599,m600,m601,m602,m603,m604,m605,m606,m607,m608,m609,m610,m611,m612,m613,m614,m615,m616,m617,m618,m619,m620,m621,m622,m623,m624,m625,m626,m627,m628,m629,m630,m631,m632,m633,m634,m635,m636,m637,m638,m639,m640,m641,m642,m643,m644,m645,m646,m647,m648,m649,m650,m651,m652,m653,m654,m655,m656,m657,m658,m659,m660,m661,m662,m663,m664,m665,m666,m667,m668,m669,m670,m671,m672,m673,m674,m675,m676,m677,m678,m679,m680,m681,m682,m683,m684,m685,m686,m687,m688,m689,m690,m691,m692,m693,m694,m695,m696,m697,m698,m699,m700,m701,m702,m703,m704,m705,m706,m707,m708,m709,m710,m711,m712,m713,m714,m715,m716,m717,m718,m719,m720,m721,m722,m723,m724,m725,m726,m727,m728,m729,m730,m731,m732,m733,m734,m735,m736,m737,m738,m739,m740,m741,m742,m743,m744,m745,m746,m747,m748,m749,m750,m751,m752,m753,m754,m755,m756,m757,m758,m759,m760,m761,m762,m763,m764,m765,m766,m767,m768,m769,m770,m771,m772,m773,m774,m775,m776,m777,m778,m779,m780,m781,m782,m783,m784,m785,m786,m787,m788,m789,m790,m791,m792,m793,m794,m795,m796,m797,m798,m799,m800,m801,m802,m803,m804,m805,m806,m807,m808,m809,m810,m811,m812,m813,m814,m815,m816,m817,m818,m819,m820,m821,m822,m823,m824,m825,m826,m827,m828,m829,m830,m831,m832,m833,m834,m835,m836,m837,m838,m839,m840,m841,m842,m843,m844,m845,m846,m847,m848,m849,m850,m851,m852,m853,m854,m855,m856,m857,m858,m859,m860,m861,m862,m863,m864,m865,m866,m867,m868,m869,m870,m871,m872,m873,m874,m875,m876,m877,m878,m879,m880,m881,m882,m883,m884,m885,m886,m887,m888,m889,m890,m891,m892,m893,m894,m895,m896,m897,m898,m899,m900,m901,m902,m903,m904,m905,m906,m907,m908,m909,m910,m911,m912,m913,m914,m915,m916,m917,m918,m919,m920,m921,m922,m923,m924,m925,m926,m927,m928,m929,m930,m931,m932,m933,m934,m935,m936,m937,m938,m939,m940,m941,m942,m943,m944,m945,m946,m947,m948,m949,m950,m951,m952,m953,m954,m955,m956,m957,m958,m959,m960,m961,m962,m963,m964,m965,m966,m967,m968,m969,m970,m971,m972,m973,m974,m975,m976,m977,m978,m979,m980,m981,m982,m983,m984,m985,m986,m987,m988,m989,m990,m991,m992,m993,m994,m995,m996,m997,m998,m999,m1000,m1001,m1002) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m152, m152, m153, m153, m154, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m171, m172, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m180, m181, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m188, m189, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m204, m205, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m210, m211, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m219, m220, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m233, m234, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m240, m241, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m246, m247, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m258, m259, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m269, m270, m270, m271, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m279, m280, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m288, m289, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m296, m297, m297, m298, m298, m299, m299, m300, m300, m301, m301, m302, m302, m303, m303, m304, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m309, m310, m310, m311, m311, m312, m312, m313, m313, m314, m314, m315, m315, m316, m316, m317, m317, m318, m318, m319, m319, m320, m320, m321, m321, m322, m322, m323, m323, m324, m324, m325, m325, m326, m326, m327, m327, m328, m328, m329, m329, m330, m330, m331, m331, m332, m332, m333, m333, m334, m334, m335, m335, m336, m336, m337, m337, m338, m338, m339, m339, m340, m340, m341, m341, m342, m342, m343, m343, m344, m344, m345, m345, m346, m346, m347, m347, m348, m348, m349, m349, m350, m350, m351, m351, m352, m352, m353, m353, m354, m354, m355, m355, m356, m356, m357, m357, m358, m358, m359, m359, m360, m360, m361, m361, m362, m362, m363, m363, m364, m364, m365, m365, m366, m366, m367, m367, m368, m368, m369, m369, m370, m370, m371, m371, m372, m372, m373, m373, m374, m374, m375, m375, m376, m376, m377, m377, m378, m378, m379, m379, m380, m380, m381, m381, m382, m382, m383, m383, m384, m384, m385, m385, m386, m386, m387, m387, m388, m388, m389, m389, m390, m390, m391, m391, m392, m392, m393, m393, m394, m394, m395, m395, m396, m396, m397, m397, m398, m398, m399, m399, m400, m400, m401, m401, m402, m402, m403, m403, m404, m404, m405, m405, m406, m406, m407, m407, m408, m408, m409, m409, m410, m410, m411, m411, m412, m412, m413, m413, m414, m414, m415, m415, m416, m416, m417, m417, m418, m418, m419, m419, m420, m420, m421, m421, m422, m422, m423, m423, m424, m424, m425, m425, m426, m426, m427, m427, m428, m428, m429, m429, m430, m430, m431, m431, m432, m432, m433, m433, m434, m434, m435, m435, m436, m436, m437, m437, m438, m438, m439, m439, m440, m440, m441, m441, m442, m442, m443, m443, m444, m444, m445, m445, m446, m446, m447, m447, m448, m448, m449, m449, m450, m450, m451, m451, m452, m452, m453, m453, m454, m454, m455, m455, m456, m456, m457, m457, m458, m458, m459, m459, m460, m460, m461, m461, m462, m462, m463, m463, m464, m464, m465, m465, m466, m466, m467, m467, m468, m468, m469, m469, m470, m470, m471, m471, m472, m472, m473, m473, m474, m474, m475, m475, m476, m476, m477, m477, m478, m478, m479, m479, m480, m480, m481, m481, m482, m482, m483, m483, m484, m484, m485, m485, m486, m486, m487, m487, m488, m488, m489, m489, m490, m490, m491, m491, m492, m492, m493, m493, m494, m494, m495, m495, m496, m496, m497, m497, m498, m498, m499, m499, m500, m500, m501, m501, m502, m502, m503, m503, m504, m504, m505, m505, m506, m506, m507, m507, m508, m508, m509, m509, m510, m510, m511, m511, m512, m512, m513, m513, m514, m514, m515, m515, m516, m516, m517, m517, m518, m518, m519, m519, m520, m520, m521, m521, m522, m522, m523, m523, m524, m524, m525, m525, m526, m526, m527, m527, m528, m528, m529, m529, m530, m530, m531, m531, m532, m532, m533, m533, m534, m534, m535, m535, m536, m536, m537, m537, m538, m538, m539, m539, m540, m540, m541, m541, m542, m542, m543, m543, m544, m544, m545, m545, m546, m546, m547, m547, m548, m548, m549, m549, m550, m550, m551, m551, m552, m552, m553, m553, m554, m554, m555, m555, m556, m556, m557, m557, m558, m558, m559, m559, m560, m560, m561, m561, m562, m562, m563, m563, m564, m564, m565, m565, m566, m566, m567, m567, m568, m568, m569, m569, m570, m570, m571, m571, m572, m572, m573, m573, m574, m574, m575, m575, m576, m576, m577, m577, m578, m578, m579, m579, m580, m580, m581, m581, m582, m582, m583, m583, m584, m584, m585, m585, m586, m586, m587, m587, m588, m588, m589, m589, m590, m590, m591, m591, m592, m592, m593, m593, m594, m594, m595, m595, m596, m596, m597, m597, m598, m598, m599, m599, m600, m600, m601, m601, m602, m602, m603, m603, m604, m604, m605, m605, m606, m606, m607, m607, m608, m608, m609, m609, m610, m610, m611, m611, m612, m612, m613, m613, m614, m614, m615, m615, m616, m616, m617, m617, m618, m618, m619, m619, m620, m620, m621, m621, m622, m622, m623, m623, m624, m624, m625, m625, m626, m626, m627, m627, m628, m628, m629, m629, m630, m630, m631, m631, m632, m632, m633, m633, m634, m634, m635, m635, m636, m636, m637, m637, m638, m638, m639, m639, m640, m640, m641, m641, m642, m642, m643, m643, m644, m644, m645, m645, m646, m646, m647, m647, m648, m648, m649, m649, m650, m650, m651, m651, m652, m652, m653, m653, m654, m654, m655, m655, m656, m656, m657, m657, m658, m658, m659, m659, m660, m660, m661, m661, m662, m662, m663, m663, m664, m664, m665, m665, m666, m666, m667, m667, m668, m668, m669, m669, m670, m670, m671, m671, m672, m672, m673, m673, m674, m674, m675, m675, m676, m676, m677, m677, m678, m678, m679, m679, m680, m680, m681, m681, m682, m682, m683, m683, m684, m684, m685, m685, m686, m686, m687, m687, m688, m688, m689, m689, m690, m690, m691, m691, m692, m692, m693, m693, m694, m694, m695, m695, m696, m696, m697, m697, m698, m698, m699, m699, m700, m700, m701, m701, m702, m702, m703, m703, m704, m704, m705, m705, m706, m706, m707, m707, m708, m708, m709, m709, m710, m710, m711, m711, m712, m712, m713, m713, m714, m714, m715, m715, m716, m716, m717, m717, m718, m718, m719, m719, m720, m720, m721, m721, m722, m722, m723, m723, m724, m724, m725, m725, m726, m726, m727, m727, m728, m728, m729, m729, m730, m730, m731, m731, m732, m732, m733, m733, m734, m734, m735, m735, m736, m736, m737, m737, m738, m738, m739, m739, m740, m740, m741, m741, m742, m742, m743, m743, m744, m744, m745, m745, m746, m746, m747, m747, m748, m748, m749, m749, m750, m750, m751, m751, m752, m752, m753, m753, m754, m754, m755, m755, m756, m756, m757, m757, m758, m758, m759, m759, m760, m760, m761, m761, m762, m762, m763, m763, m764, m764, m765, m765, m766, 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spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), spring(str_K,str_Z, 0., 0.), nlPluck(nlK,nlscale), par(i, 2,_) )~par(i, 2004, _): par(i, 2004,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l637_f2,l638_f1,l638_f2,l639_f1,l639_f2,l640_f1,l640_f2,l641_f1,l641_f2,l642_f1,l642_f2,l643_f1,l643_f2,l644_f1,l644_f2,l645_f1,l645_f2,l646_f1,l646_f2,l647_f1,l647_f2,l648_f1,l648_f2,l649_f1,l649_f2,l650_f1,l650_f2,l651_f1,l651_f2,l652_f1,l652_f2,l653_f1,l653_f2,l654_f1,l654_f2,l655_f1,l655_f2,l656_f1,l656_f2,l657_f1,l657_f2,l658_f1,l658_f2,l659_f1,l659_f2,l660_f1,l660_f2,l661_f1,l661_f2,l662_f1,l662_f2,l663_f1,l663_f2,l664_f1,l664_f2,l665_f1,l665_f2,l666_f1,l666_f2,l667_f1,l667_f2,l668_f1,l668_f2,l669_f1,l669_f2,l670_f1,l670_f2,l671_f1,l671_f2,l672_f1,l672_f2,l673_f1,l673_f2,l674_f1,l674_f2,l675_f1,l675_f2,l676_f1,l676_f2,l677_f1,l677_f2,l678_f1,l678_f2,l679_f1,l679_f2,l680_f1,l680_f2,l681_f1,l681_f2,l682_f1,l682_f2,l683_f1,l683_f2,l684_f1,l684_f2,l685_f1,l685_f2,l686_f1,l686_f2,l687_f1,l687_f2,l688_f1,l688_f2,l689_f1,l689_f2,l690_f1,l690_f2,l691_f1,l691_f2,l692_f1,l692_f2,l693_f1,l693_f2,l694_f1,l694_f2,l695_f1,l695_f2,l696_f1,l696_f2,l697_f1,l697_f2,l698_f1,l698_f2,l699_f1,l699_f2,l700_f1,l700_f2,l701_f1,l701_f2,l702_f1,l702_f2,l703_f1,l703_f2,l704_f1,l704_f2,l705_f1,l705_f2,l706_f1,l706_f2,l707_f1,l707_f2,l708_f1,l708_f2,l709_f1,l709_f2,l710_f1,l710_f2,l711_f1,l711_f2,l712_f1,l712_f2,l713_f1,l713_f2,l714_f1,l714_f2,l715_f1,l715_f2,l716_f1,l716_f2,l717_f1,l717_f2,l718_f1,l718_f2,l719_f1,l719_f2,l720_f1,l720_f2,l721_f1,l721_f2,l722_f1,l722_f2,l723_f1,l723_f2,l724_f1,l724_f2,l725_f1,l725_f2,l726_f1,l726_f2,l727_f1,l727_f2,l728_f1,l728_f2,l729_f1,l729_f2,l730_f1,l730_f2,l731_f1,l731_f2,l732_f1,l732_f2,l733_f1,l733_f2,l734_f1,l734_f2,l735_f1,l735_f2,l736_f1,l736_f2,l737_f1,l737_f2,l738_f1,l738_f2,l739_f1,l739_f2,l740_f1,l740_f2,l741_f1,l741_f2,l742_f1,l742_f2,l743_f1,l743_f2,l744_f1,l744_f2,l745_f1,l745_f2,l746_f1,l746_f2,l747_f1,l747_f2,l748_f1,l748_f2,l749_f1,l749_f2,l750_f1,l750_f2,l751_f1,l751_f2,l752_f1,l752_f2,l753_f1,l753_f2,l754_f1,l754_f2,l755_f1,l755_f2,l756_f1,l756_f2,l757_f1,l757_f2,l758_f1,l758_f2,l759_f1,l759_f2,l760_f1,l760_f2,l761_f1,l761_f2,l762_f1,l762_f2,l763_f1,l763_f2,l764_f1,l764_f2,l765_f1,l765_f2,l766_f1,l766_f2,l767_f1,l767_f2,l768_f1,l768_f2,l769_f1,l769_f2,l770_f1,l770_f2,l771_f1,l771_f2,l772_f1,l772_f2,l773_f1,l773_f2,l774_f1,l774_f2,l775_f1,l775_f2,l776_f1,l776_f2,l777_f1,l777_f2,l778_f1,l778_f2,l779_f1,l779_f2,l780_f1,l780_f2,l781_f1,l781_f2,l782_f1,l782_f2,l783_f1,l783_f2,l784_f1,l784_f2,l785_f1,l785_f2,l786_f1,l786_f2,l787_f1,l787_f2,l788_f1,l788_f2,l789_f1,l789_f2,l790_f1,l790_f2,l791_f1,l791_f2,l792_f1,l792_f2,l793_f1,l793_f2,l794_f1,l794_f2,l795_f1,l795_f2,l796_f1,l796_f2,l797_f1,l797_f2,l798_f1,l798_f2,l799_f1,l799_f2,l800_f1,l800_f2,l801_f1,l801_f2,l802_f1,l802_f2,l803_f1,l803_f2,l804_f1,l804_f2,l805_f1,l805_f2,l806_f1,l806_f2,l807_f1,l807_f2,l808_f1,l808_f2,l809_f1,l809_f2,l810_f1,l810_f2,l811_f1,l811_f2,l812_f1,l812_f2,l813_f1,l813_f2,l814_f1,l814_f2,l815_f1,l815_f2,l816_f1,l816_f2,l817_f1,l817_f2,l818_f1,l818_f2,l819_f1,l819_f2,l820_f1,l820_f2,l821_f1,l821_f2,l822_f1,l822_f2,l823_f1,l823_f2,l824_f1,l824_f2,l825_f1,l825_f2,l826_f1,l826_f2,l827_f1,l827_f2,l828_f1,l828_f2,l829_f1,l829_f2,l830_f1,l830_f2,l831_f1,l831_f2,l832_f1,l832_f2,l833_f1,l833_f2,l834_f1,l834_f2,l835_f1,l835_f2,l836_f1,l836_f2,l837_f1,l837_f2,l838_f1,l838_f2,l839_f1,l839_f2,l840_f1,l840_f2,l841_f1,l841_f2,l842_f1,l842_f2,l843_f1,l843_f2,l844_f1,l844_f2,l845_f1,l845_f2,l846_f1,l846_f2,l847_f1,l847_f2,l848_f1,l848_f2,l849_f1,l849_f2,l850_f1,l850_f2,l851_f1,l851_f2,l852_f1,l852_f2,l853_f1,l853_f2,l854_f1,l854_f2,l855_f1,l855_f2,l856_f1,l856_f2,l857_f1,l857_f2,l858_f1,l858_f2,l859_f1,l859_f2,l860_f1,l860_f2,l861_f1,l861_f2,l862_f1,l862_f2,l863_f1,l863_f2,l864_f1,l864_f2,l865_f1,l865_f2,l866_f1,l866_f2,l867_f1,l867_f2,l868_f1,l868_f2,l869_f1,l869_f2,l870_f1,l870_f2,l871_f1,l871_f2,l872_f1,l872_f2,l873_f1,l873_f2,l874_f1,l874_f2,l875_f1,l875_f2,l876_f1,l876_f2,l877_f1,l877_f2,l878_f1,l878_f2,l879_f1,l879_f2,l880_f1,l880_f2,l881_f1,l881_f2,l882_f1,l882_f2,l883_f1,l883_f2,l884_f1,l884_f2,l885_f1,l885_f2,l886_f1,l886_f2,l887_f1,l887_f2,l888_f1,l888_f2,l889_f1,l889_f2,l890_f1,l890_f2,l891_f1,l891_f2,l892_f1,l892_f2,l893_f1,l893_f2,l894_f1,l894_f2,l895_f1,l895_f2,l896_f1,l896_f2,l897_f1,l897_f2,l898_f1,l898_f2,l899_f1,l899_f2,l900_f1,l900_f2,l901_f1,l901_f2,l902_f1,l902_f2,l903_f1,l903_f2,l904_f1,l904_f2,l905_f1,l905_f2,l906_f1,l906_f2,l907_f1,l907_f2,l908_f1,l908_f2,l909_f1,l909_f2,l910_f1,l910_f2,l911_f1,l911_f2,l912_f1,l912_f2,l913_f1,l913_f2,l914_f1,l914_f2,l915_f1,l915_f2,l916_f1,l916_f2,l917_f1,l917_f2,l918_f1,l918_f2,l919_f1,l919_f2,l920_f1,l920_f2,l921_f1,l921_f2,l922_f1,l922_f2,l923_f1,l923_f2,l924_f1,l924_f2,l925_f1,l925_f2,l926_f1,l926_f2,l927_f1,l927_f2,l928_f1,l928_f2,l929_f1,l929_f2,l930_f1,l930_f2,l931_f1,l931_f2,l932_f1,l932_f2,l933_f1,l933_f2,l934_f1,l934_f2,l935_f1,l935_f2,l936_f1,l936_f2,l937_f1,l937_f2,l938_f1,l938_f2,l939_f1,l939_f2,l940_f1,l940_f2,l941_f1,l941_f2,l942_f1,l942_f2,l943_f1,l943_f2,l944_f1,l944_f2,l945_f1,l945_f2,l946_f1,l946_f2,l947_f1,l947_f2,l948_f1,l948_f2,l949_f1,l949_f2,l950_f1,l950_f2,l951_f1,l951_f2,l952_f1,l952_f2,l953_f1,l953_f2,l954_f1,l954_f2,l955_f1,l955_f2,l956_f1,l956_f2,l957_f1,l957_f2,l958_f1,l958_f2,l959_f1,l959_f2,l960_f1,l960_f2,l961_f1,l961_f2,l962_f1,l962_f2,l963_f1,l963_f2,l964_f1,l964_f2,l965_f1,l965_f2,l966_f1,l966_f2,l967_f1,l967_f2,l968_f1,l968_f2,l969_f1,l969_f2,l970_f1,l970_f2,l971_f1,l971_f2,l972_f1,l972_f2,l973_f1,l973_f2,l974_f1,l974_f2,l975_f1,l975_f2,l976_f1,l976_f2,l977_f1,l977_f2,l978_f1,l978_f2,l979_f1,l979_f2,l980_f1,l980_f2,l981_f1,l981_f2,l982_f1,l982_f2,l983_f1,l983_f2,l984_f1,l984_f2,l985_f1,l985_f2,l986_f1,l986_f2,l987_f1,l987_f2,l988_f1,l988_f2,l989_f1,l989_f2,l990_f1,l990_f2,l991_f1,l991_f2,l992_f1,l992_f2,l993_f1,l993_f2,l994_f1,l994_f2,l995_f1,l995_f2,l996_f1,l996_f2,l997_f1,l997_f2,l998_f1,l998_f2,l999_f1,l999_f2,l1000_f1,l1000_f2,l1001_f1,l1001_f2, p_in1) = l0_f1, l1000_f2, l0_f2+l1_f1, l1_f2+l2_f1, l2_f2+l3_f1, l3_f2+l4_f1, l4_f2+l5_f1, l5_f2+l6_f1, l6_f2+l7_f1, l7_f2+l8_f1, l8_f2+l9_f1, l9_f2+l10_f1, l10_f2+l11_f1, l11_f2+l12_f1, l12_f2+l13_f1, l13_f2+l14_f1, l14_f2+l15_f1, l15_f2+l16_f1, l16_f2+l17_f1, l17_f2+l18_f1, l18_f2+l19_f1, l19_f2+l20_f1, l20_f2+l21_f1, l21_f2+l22_f1, l22_f2+l23_f1, l23_f2+l24_f1, l24_f2+l25_f1, l25_f2+l26_f1, l26_f2+l27_f1, l27_f2+l28_f1, l28_f2+l29_f1, l29_f2+l30_f1, l30_f2+l31_f1, l31_f2+l32_f1, l32_f2+l33_f1, l33_f2+l34_f1, l34_f2+l35_f1, l35_f2+l36_f1, l36_f2+l37_f1, l37_f2+l38_f1, l38_f2+l39_f1, l39_f2+l40_f1, l40_f2+l41_f1, l41_f2+l42_f1, l42_f2+l43_f1, l43_f2+l44_f1, l44_f2+l45_f1, l45_f2+l46_f1, l46_f2+l47_f1, l47_f2+l48_f1, l48_f2+l49_f1, l49_f2+l50_f1, l50_f2+l51_f1, l51_f2+l52_f1, l52_f2+l53_f1, l53_f2+l54_f1, l54_f2+l55_f1, l55_f2+l56_f1, l56_f2+l57_f1, l57_f2+l58_f1, l58_f2+l59_f1, l59_f2+l60_f1, l60_f2+l61_f1, l61_f2+l62_f1, l62_f2+l63_f1, l63_f2+l64_f1, l64_f2+l65_f1, l65_f2+l66_f1, l66_f2+l67_f1, l67_f2+l68_f1, l68_f2+l69_f1, l69_f2+l70_f1, l70_f2+l71_f1, l71_f2+l72_f1, l72_f2+l73_f1, l73_f2+l74_f1, l74_f2+l75_f1, l75_f2+l76_f1, l76_f2+l77_f1, l77_f2+l78_f1, l78_f2+l79_f1, l79_f2+l80_f1, l80_f2+l81_f1, l81_f2+l82_f1, l82_f2+l83_f1, l83_f2+l84_f1, l84_f2+l85_f1, l85_f2+l86_f1, l86_f2+l87_f1, l87_f2+l88_f1, l88_f2+l89_f1, l89_f2+l90_f1, l90_f2+l91_f1, l91_f2+l92_f1, l92_f2+l93_f1, l93_f2+l94_f1, l94_f2+l95_f1, l95_f2+l96_f1, l96_f2+l97_f1, l97_f2+l98_f1, l98_f2+l99_f1, l99_f2+l100_f1, l100_f2+l101_f1, l101_f2+l102_f1, l102_f2+l103_f1, l103_f2+l104_f1, l104_f2+l105_f1, l105_f2+l106_f1, l106_f2+l107_f1, l107_f2+l108_f1, l108_f2+l109_f1, l109_f2+l110_f1, l110_f2+l111_f1, l111_f2+l112_f1, l112_f2+l113_f1, l113_f2+l114_f1, l114_f2+l115_f1, l115_f2+l116_f1, l116_f2+l117_f1, l117_f2+l118_f1, l118_f2+l119_f1, l119_f2+l120_f1, l120_f2+l121_f1, l121_f2+l122_f1, l122_f2+l123_f1, l123_f2+l124_f1, l124_f2+l125_f1, l125_f2+l126_f1, l126_f2+l127_f1, l127_f2+l128_f1, l128_f2+l129_f1, l129_f2+l130_f1, l130_f2+l131_f1, l131_f2+l132_f1, l132_f2+l133_f1, l133_f2+l134_f1, l134_f2+l135_f1, l135_f2+l136_f1, l136_f2+l137_f1, l137_f2+l138_f1, l138_f2+l139_f1, l139_f2+l140_f1, l140_f2+l141_f1+l1001_f2, l141_f2+l142_f1, l142_f2+l143_f1, l143_f2+l144_f1, l144_f2+l145_f1, l145_f2+l146_f1, l146_f2+l147_f1, l147_f2+l148_f1, l148_f2+l149_f1, l149_f2+l150_f1, l150_f2+l151_f1, l151_f2+l152_f1, l152_f2+l153_f1, l153_f2+l154_f1, l154_f2+l155_f1, l155_f2+l156_f1, l156_f2+l157_f1, l157_f2+l158_f1, l158_f2+l159_f1, l159_f2+l160_f1, l160_f2+l161_f1, l161_f2+l162_f1, l162_f2+l163_f1, l163_f2+l164_f1, l164_f2+l165_f1, l165_f2+l166_f1, l166_f2+l167_f1, l167_f2+l168_f1, l168_f2+l169_f1, l169_f2+l170_f1, l170_f2+l171_f1, l171_f2+l172_f1, l172_f2+l173_f1, l173_f2+l174_f1, l174_f2+l175_f1, l175_f2+l176_f1, l176_f2+l177_f1, l177_f2+l178_f1, l178_f2+l179_f1, l179_f2+l180_f1, l180_f2+l181_f1, l181_f2+l182_f1, l182_f2+l183_f1, l183_f2+l184_f1, l184_f2+l185_f1, l185_f2+l186_f1, l186_f2+l187_f1, l187_f2+l188_f1, l188_f2+l189_f1, l189_f2+l190_f1, l190_f2+l191_f1, l191_f2+l192_f1, l192_f2+l193_f1, l193_f2+l194_f1, l194_f2+l195_f1, l195_f2+l196_f1, l196_f2+l197_f1, l197_f2+l198_f1, l198_f2+l199_f1, l199_f2+l200_f1, l200_f2+l201_f1, l201_f2+l202_f1, l202_f2+l203_f1, l203_f2+l204_f1, l204_f2+l205_f1, l205_f2+l206_f1, l206_f2+l207_f1, l207_f2+l208_f1, l208_f2+l209_f1, l209_f2+l210_f1, l210_f2+l211_f1, l211_f2+l212_f1, l212_f2+l213_f1, l213_f2+l214_f1, l214_f2+l215_f1, l215_f2+l216_f1, l216_f2+l217_f1, l217_f2+l218_f1, l218_f2+l219_f1, l219_f2+l220_f1, l220_f2+l221_f1, l221_f2+l222_f1, l222_f2+l223_f1, l223_f2+l224_f1, l224_f2+l225_f1, l225_f2+l226_f1, l226_f2+l227_f1, l227_f2+l228_f1, l228_f2+l229_f1, l229_f2+l230_f1, l230_f2+l231_f1, l231_f2+l232_f1, l232_f2+l233_f1, l233_f2+l234_f1, l234_f2+l235_f1, l235_f2+l236_f1, l236_f2+l237_f1, l237_f2+l238_f1, l238_f2+l239_f1, l239_f2+l240_f1, l240_f2+l241_f1, l241_f2+l242_f1, l242_f2+l243_f1, l243_f2+l244_f1, l244_f2+l245_f1, l245_f2+l246_f1, l246_f2+l247_f1, l247_f2+l248_f1, l248_f2+l249_f1, l249_f2+l250_f1, l250_f2+l251_f1, l251_f2+l252_f1, l252_f2+l253_f1, l253_f2+l254_f1, l254_f2+l255_f1, l255_f2+l256_f1, l256_f2+l257_f1, l257_f2+l258_f1, l258_f2+l259_f1, l259_f2+l260_f1, l260_f2+l261_f1, l261_f2+l262_f1, l262_f2+l263_f1, l263_f2+l264_f1, l264_f2+l265_f1, l265_f2+l266_f1, l266_f2+l267_f1, l267_f2+l268_f1, l268_f2+l269_f1, l269_f2+l270_f1, l270_f2+l271_f1, l271_f2+l272_f1, l272_f2+l273_f1, l273_f2+l274_f1, l274_f2+l275_f1, l275_f2+l276_f1, l276_f2+l277_f1, l277_f2+l278_f1, l278_f2+l279_f1, l279_f2+l280_f1, l280_f2+l281_f1, l281_f2+l282_f1, l282_f2+l283_f1, l283_f2+l284_f1, l284_f2+l285_f1, l285_f2+l286_f1, l286_f2+l287_f1, l287_f2+l288_f1, l288_f2+l289_f1, l289_f2+l290_f1, l290_f2+l291_f1, l291_f2+l292_f1, l292_f2+l293_f1, l293_f2+l294_f1, l294_f2+l295_f1, l295_f2+l296_f1, l296_f2+l297_f1, l297_f2+l298_f1, l298_f2+l299_f1, l299_f2+l300_f1, l300_f2+l301_f1, l301_f2+l302_f1, l302_f2+l303_f1, l303_f2+l304_f1, l304_f2+l305_f1, l305_f2+l306_f1, l306_f2+l307_f1, l307_f2+l308_f1, l308_f2+l309_f1, l309_f2+l310_f1, l310_f2+l311_f1, l311_f2+l312_f1, l312_f2+l313_f1, l313_f2+l314_f1, l314_f2+l315_f1, l315_f2+l316_f1, l316_f2+l317_f1, l317_f2+l318_f1, l318_f2+l319_f1, l319_f2+l320_f1, l320_f2+l321_f1, l321_f2+l322_f1, l322_f2+l323_f1, l323_f2+l324_f1, l324_f2+l325_f1, l325_f2+l326_f1, l326_f2+l327_f1, l327_f2+l328_f1, l328_f2+l329_f1, l329_f2+l330_f1, l330_f2+l331_f1, l331_f2+l332_f1, l332_f2+l333_f1, l333_f2+l334_f1, l334_f2+l335_f1, l335_f2+l336_f1, l336_f2+l337_f1, l337_f2+l338_f1, l338_f2+l339_f1, l339_f2+l340_f1, l340_f2+l341_f1, l341_f2+l342_f1, l342_f2+l343_f1, l343_f2+l344_f1, l344_f2+l345_f1, l345_f2+l346_f1, l346_f2+l347_f1, l347_f2+l348_f1, l348_f2+l349_f1, l349_f2+l350_f1, l350_f2+l351_f1, l351_f2+l352_f1, l352_f2+l353_f1, l353_f2+l354_f1, l354_f2+l355_f1, l355_f2+l356_f1, l356_f2+l357_f1, l357_f2+l358_f1, l358_f2+l359_f1, l359_f2+l360_f1, l360_f2+l361_f1, l361_f2+l362_f1, l362_f2+l363_f1, l363_f2+l364_f1, l364_f2+l365_f1, l365_f2+l366_f1, l366_f2+l367_f1, l367_f2+l368_f1, l368_f2+l369_f1, l369_f2+l370_f1, l370_f2+l371_f1, l371_f2+l372_f1, l372_f2+l373_f1, l373_f2+l374_f1, l374_f2+l375_f1, l375_f2+l376_f1, l376_f2+l377_f1, l377_f2+l378_f1, l378_f2+l379_f1, l379_f2+l380_f1, l380_f2+l381_f1, l381_f2+l382_f1, l382_f2+l383_f1, l383_f2+l384_f1, l384_f2+l385_f1, l385_f2+l386_f1, l386_f2+l387_f1, l387_f2+l388_f1, l388_f2+l389_f1, l389_f2+l390_f1, l390_f2+l391_f1, l391_f2+l392_f1, l392_f2+l393_f1, l393_f2+l394_f1, l394_f2+l395_f1, l395_f2+l396_f1, l396_f2+l397_f1, l397_f2+l398_f1, l398_f2+l399_f1, l399_f2+l400_f1, l400_f2+l401_f1, l401_f2+l402_f1, l402_f2+l403_f1, l403_f2+l404_f1, l404_f2+l405_f1, l405_f2+l406_f1, l406_f2+l407_f1, l407_f2+l408_f1, l408_f2+l409_f1, l409_f2+l410_f1, l410_f2+l411_f1, l411_f2+l412_f1, l412_f2+l413_f1, l413_f2+l414_f1, l414_f2+l415_f1, l415_f2+l416_f1, l416_f2+l417_f1, l417_f2+l418_f1, l418_f2+l419_f1, l419_f2+l420_f1, l420_f2+l421_f1, l421_f2+l422_f1, l422_f2+l423_f1, l423_f2+l424_f1, l424_f2+l425_f1, l425_f2+l426_f1, l426_f2+l427_f1, l427_f2+l428_f1, l428_f2+l429_f1, l429_f2+l430_f1, l430_f2+l431_f1, l431_f2+l432_f1, l432_f2+l433_f1, l433_f2+l434_f1, l434_f2+l435_f1, l435_f2+l436_f1, l436_f2+l437_f1, l437_f2+l438_f1, l438_f2+l439_f1, l439_f2+l440_f1, l440_f2+l441_f1, l441_f2+l442_f1, l442_f2+l443_f1, l443_f2+l444_f1, l444_f2+l445_f1, l445_f2+l446_f1, l446_f2+l447_f1, l447_f2+l448_f1, l448_f2+l449_f1, l449_f2+l450_f1, l450_f2+l451_f1, l451_f2+l452_f1, l452_f2+l453_f1, l453_f2+l454_f1, l454_f2+l455_f1, l455_f2+l456_f1, l456_f2+l457_f1, l457_f2+l458_f1, l458_f2+l459_f1, l459_f2+l460_f1, l460_f2+l461_f1, l461_f2+l462_f1, l462_f2+l463_f1, l463_f2+l464_f1, l464_f2+l465_f1, l465_f2+l466_f1, l466_f2+l467_f1, l467_f2+l468_f1, l468_f2+l469_f1, l469_f2+l470_f1, l470_f2+l471_f1, l471_f2+l472_f1, l472_f2+l473_f1, l473_f2+l474_f1, l474_f2+l475_f1, l475_f2+l476_f1, l476_f2+l477_f1, l477_f2+l478_f1, l478_f2+l479_f1, l479_f2+l480_f1, l480_f2+l481_f1, l481_f2+l482_f1, l482_f2+l483_f1, l483_f2+l484_f1, l484_f2+l485_f1, l485_f2+l486_f1, l486_f2+l487_f1, l487_f2+l488_f1, l488_f2+l489_f1, l489_f2+l490_f1, l490_f2+l491_f1, l491_f2+l492_f1, l492_f2+l493_f1, l493_f2+l494_f1, l494_f2+l495_f1, l495_f2+l496_f1, l496_f2+l497_f1, l497_f2+l498_f1, l498_f2+l499_f1, l499_f2+l500_f1, l500_f2+l501_f1, l501_f2+l502_f1, l502_f2+l503_f1, l503_f2+l504_f1, l504_f2+l505_f1, l505_f2+l506_f1, l506_f2+l507_f1, l507_f2+l508_f1, l508_f2+l509_f1, l509_f2+l510_f1, l510_f2+l511_f1, l511_f2+l512_f1, l512_f2+l513_f1, l513_f2+l514_f1, l514_f2+l515_f1, l515_f2+l516_f1, l516_f2+l517_f1, l517_f2+l518_f1, l518_f2+l519_f1, l519_f2+l520_f1, l520_f2+l521_f1, l521_f2+l522_f1, l522_f2+l523_f1, l523_f2+l524_f1, l524_f2+l525_f1, l525_f2+l526_f1, l526_f2+l527_f1, l527_f2+l528_f1, l528_f2+l529_f1, l529_f2+l530_f1, l530_f2+l531_f1, l531_f2+l532_f1, l532_f2+l533_f1, l533_f2+l534_f1, l534_f2+l535_f1, l535_f2+l536_f1, l536_f2+l537_f1, l537_f2+l538_f1, l538_f2+l539_f1, l539_f2+l540_f1, l540_f2+l541_f1, l541_f2+l542_f1, l542_f2+l543_f1, l543_f2+l544_f1, l544_f2+l545_f1, l545_f2+l546_f1, l546_f2+l547_f1, l547_f2+l548_f1, l548_f2+l549_f1, l549_f2+l550_f1, l550_f2+l551_f1, l551_f2+l552_f1, l552_f2+l553_f1, l553_f2+l554_f1, l554_f2+l555_f1, l555_f2+l556_f1, l556_f2+l557_f1, l557_f2+l558_f1, l558_f2+l559_f1, l559_f2+l560_f1, l560_f2+l561_f1, l561_f2+l562_f1, l562_f2+l563_f1, l563_f2+l564_f1, l564_f2+l565_f1, l565_f2+l566_f1, l566_f2+l567_f1, l567_f2+l568_f1, l568_f2+l569_f1, l569_f2+l570_f1, l570_f2+l571_f1, l571_f2+l572_f1, l572_f2+l573_f1, l573_f2+l574_f1, l574_f2+l575_f1, l575_f2+l576_f1, l576_f2+l577_f1, l577_f2+l578_f1, l578_f2+l579_f1, l579_f2+l580_f1, l580_f2+l581_f1, l581_f2+l582_f1, l582_f2+l583_f1, l583_f2+l584_f1, l584_f2+l585_f1, l585_f2+l586_f1, l586_f2+l587_f1, l587_f2+l588_f1, l588_f2+l589_f1, l589_f2+l590_f1, l590_f2+l591_f1, l591_f2+l592_f1, l592_f2+l593_f1, l593_f2+l594_f1, l594_f2+l595_f1, l595_f2+l596_f1, l596_f2+l597_f1, l597_f2+l598_f1, l598_f2+l599_f1, l599_f2+l600_f1, l600_f2+l601_f1, l601_f2+l602_f1, l602_f2+l603_f1, l603_f2+l604_f1, l604_f2+l605_f1, l605_f2+l606_f1, l606_f2+l607_f1, l607_f2+l608_f1, l608_f2+l609_f1, l609_f2+l610_f1, l610_f2+l611_f1, l611_f2+l612_f1, l612_f2+l613_f1, l613_f2+l614_f1, l614_f2+l615_f1, l615_f2+l616_f1, l616_f2+l617_f1, l617_f2+l618_f1, l618_f2+l619_f1, l619_f2+l620_f1, l620_f2+l621_f1, l621_f2+l622_f1, l622_f2+l623_f1, l623_f2+l624_f1, l624_f2+l625_f1, l625_f2+l626_f1, l626_f2+l627_f1, l627_f2+l628_f1, l628_f2+l629_f1, l629_f2+l630_f1, l630_f2+l631_f1, l631_f2+l632_f1, l632_f2+l633_f1, l633_f2+l634_f1, l634_f2+l635_f1, l635_f2+l636_f1, l636_f2+l637_f1, l637_f2+l638_f1, l638_f2+l639_f1, l639_f2+l640_f1, l640_f2+l641_f1, l641_f2+l642_f1, l642_f2+l643_f1, l643_f2+l644_f1, l644_f2+l645_f1, l645_f2+l646_f1, l646_f2+l647_f1, l647_f2+l648_f1, l648_f2+l649_f1, l649_f2+l650_f1, l650_f2+l651_f1, l651_f2+l652_f1, l652_f2+l653_f1, l653_f2+l654_f1, l654_f2+l655_f1, l655_f2+l656_f1, l656_f2+l657_f1, l657_f2+l658_f1, l658_f2+l659_f1, l659_f2+l660_f1, l660_f2+l661_f1, l661_f2+l662_f1, l662_f2+l663_f1, l663_f2+l664_f1, l664_f2+l665_f1, l665_f2+l666_f1, l666_f2+l667_f1, l667_f2+l668_f1, l668_f2+l669_f1, l669_f2+l670_f1, l670_f2+l671_f1, l671_f2+l672_f1, l672_f2+l673_f1, l673_f2+l674_f1, l674_f2+l675_f1, l675_f2+l676_f1, l676_f2+l677_f1, l677_f2+l678_f1, l678_f2+l679_f1, l679_f2+l680_f1, l680_f2+l681_f1, l681_f2+l682_f1, l682_f2+l683_f1, l683_f2+l684_f1, l684_f2+l685_f1, l685_f2+l686_f1, l686_f2+l687_f1, l687_f2+l688_f1, l688_f2+l689_f1, l689_f2+l690_f1, l690_f2+l691_f1, l691_f2+l692_f1, l692_f2+l693_f1, l693_f2+l694_f1, l694_f2+l695_f1, l695_f2+l696_f1, l696_f2+l697_f1, l697_f2+l698_f1, l698_f2+l699_f1, l699_f2+l700_f1, l700_f2+l701_f1, l701_f2+l702_f1, l702_f2+l703_f1, l703_f2+l704_f1, l704_f2+l705_f1, l705_f2+l706_f1, l706_f2+l707_f1, l707_f2+l708_f1, l708_f2+l709_f1, l709_f2+l710_f1, l710_f2+l711_f1, l711_f2+l712_f1, l712_f2+l713_f1, l713_f2+l714_f1, l714_f2+l715_f1, l715_f2+l716_f1, l716_f2+l717_f1, l717_f2+l718_f1, l718_f2+l719_f1, l719_f2+l720_f1, l720_f2+l721_f1, l721_f2+l722_f1, l722_f2+l723_f1, l723_f2+l724_f1, l724_f2+l725_f1, l725_f2+l726_f1, l726_f2+l727_f1, l727_f2+l728_f1, l728_f2+l729_f1, l729_f2+l730_f1, l730_f2+l731_f1, l731_f2+l732_f1, l732_f2+l733_f1, l733_f2+l734_f1, l734_f2+l735_f1, l735_f2+l736_f1, l736_f2+l737_f1, l737_f2+l738_f1, l738_f2+l739_f1, l739_f2+l740_f1, l740_f2+l741_f1, l741_f2+l742_f1, l742_f2+l743_f1, l743_f2+l744_f1, l744_f2+l745_f1, l745_f2+l746_f1, l746_f2+l747_f1, l747_f2+l748_f1, l748_f2+l749_f1, l749_f2+l750_f1, l750_f2+l751_f1, l751_f2+l752_f1, l752_f2+l753_f1, l753_f2+l754_f1, l754_f2+l755_f1, l755_f2+l756_f1, l756_f2+l757_f1, l757_f2+l758_f1, l758_f2+l759_f1, l759_f2+l760_f1, l760_f2+l761_f1, l761_f2+l762_f1, l762_f2+l763_f1, l763_f2+l764_f1, l764_f2+l765_f1, l765_f2+l766_f1, l766_f2+l767_f1, l767_f2+l768_f1, l768_f2+l769_f1, l769_f2+l770_f1, l770_f2+l771_f1, l771_f2+l772_f1, l772_f2+l773_f1, l773_f2+l774_f1, l774_f2+l775_f1, l775_f2+l776_f1, l776_f2+l777_f1, l777_f2+l778_f1, l778_f2+l779_f1, l779_f2+l780_f1, l780_f2+l781_f1, l781_f2+l782_f1, l782_f2+l783_f1, l783_f2+l784_f1, l784_f2+l785_f1, l785_f2+l786_f1, l786_f2+l787_f1, l787_f2+l788_f1, l788_f2+l789_f1, l789_f2+l790_f1, l790_f2+l791_f1, l791_f2+l792_f1, l792_f2+l793_f1, l793_f2+l794_f1, l794_f2+l795_f1, l795_f2+l796_f1, l796_f2+l797_f1, l797_f2+l798_f1, l798_f2+l799_f1, l799_f2+l800_f1, l800_f2+l801_f1, l801_f2+l802_f1, l802_f2+l803_f1, l803_f2+l804_f1, l804_f2+l805_f1, l805_f2+l806_f1, l806_f2+l807_f1, l807_f2+l808_f1, l808_f2+l809_f1, l809_f2+l810_f1, l810_f2+l811_f1, l811_f2+l812_f1, l812_f2+l813_f1, l813_f2+l814_f1, l814_f2+l815_f1, l815_f2+l816_f1, l816_f2+l817_f1, l817_f2+l818_f1, l818_f2+l819_f1, l819_f2+l820_f1, l820_f2+l821_f1, l821_f2+l822_f1, l822_f2+l823_f1, l823_f2+l824_f1, l824_f2+l825_f1, l825_f2+l826_f1, l826_f2+l827_f1, l827_f2+l828_f1, l828_f2+l829_f1, l829_f2+l830_f1, l830_f2+l831_f1, l831_f2+l832_f1, l832_f2+l833_f1, l833_f2+l834_f1, l834_f2+l835_f1, l835_f2+l836_f1, l836_f2+l837_f1, l837_f2+l838_f1, l838_f2+l839_f1, l839_f2+l840_f1, l840_f2+l841_f1, l841_f2+l842_f1, l842_f2+l843_f1, l843_f2+l844_f1, l844_f2+l845_f1, l845_f2+l846_f1, l846_f2+l847_f1, l847_f2+l848_f1, l848_f2+l849_f1, l849_f2+l850_f1, l850_f2+l851_f1, l851_f2+l852_f1, l852_f2+l853_f1, l853_f2+l854_f1, l854_f2+l855_f1, l855_f2+l856_f1, l856_f2+l857_f1, l857_f2+l858_f1, l858_f2+l859_f1, l859_f2+l860_f1, l860_f2+l861_f1, l861_f2+l862_f1, l862_f2+l863_f1, l863_f2+l864_f1, l864_f2+l865_f1, l865_f2+l866_f1, l866_f2+l867_f1, l867_f2+l868_f1, l868_f2+l869_f1, l869_f2+l870_f1, l870_f2+l871_f1, l871_f2+l872_f1, l872_f2+l873_f1, l873_f2+l874_f1, l874_f2+l875_f1, l875_f2+l876_f1, l876_f2+l877_f1, l877_f2+l878_f1, l878_f2+l879_f1, l879_f2+l880_f1, l880_f2+l881_f1, l881_f2+l882_f1, l882_f2+l883_f1, l883_f2+l884_f1, l884_f2+l885_f1, l885_f2+l886_f1, l886_f2+l887_f1, l887_f2+l888_f1, l888_f2+l889_f1, l889_f2+l890_f1, l890_f2+l891_f1, l891_f2+l892_f1, l892_f2+l893_f1, l893_f2+l894_f1, l894_f2+l895_f1, l895_f2+l896_f1, l896_f2+l897_f1, l897_f2+l898_f1, l898_f2+l899_f1, l899_f2+l900_f1, l900_f2+l901_f1, l901_f2+l902_f1, l902_f2+l903_f1, l903_f2+l904_f1, l904_f2+l905_f1, l905_f2+l906_f1, l906_f2+l907_f1, l907_f2+l908_f1, l908_f2+l909_f1, l909_f2+l910_f1, l910_f2+l911_f1, l911_f2+l912_f1, l912_f2+l913_f1, l913_f2+l914_f1, l914_f2+l915_f1, l915_f2+l916_f1, l916_f2+l917_f1, l917_f2+l918_f1, l918_f2+l919_f1, l919_f2+l920_f1, l920_f2+l921_f1, l921_f2+l922_f1, l922_f2+l923_f1, l923_f2+l924_f1, l924_f2+l925_f1, l925_f2+l926_f1, l926_f2+l927_f1, l927_f2+l928_f1, l928_f2+l929_f1, l929_f2+l930_f1, l930_f2+l931_f1, l931_f2+l932_f1, l932_f2+l933_f1, l933_f2+l934_f1, l934_f2+l935_f1, l935_f2+l936_f1, l936_f2+l937_f1, l937_f2+l938_f1, l938_f2+l939_f1, l939_f2+l940_f1, l940_f2+l941_f1, l941_f2+l942_f1, l942_f2+l943_f1, l943_f2+l944_f1, l944_f2+l945_f1, l945_f2+l946_f1, l946_f2+l947_f1, l947_f2+l948_f1, l948_f2+l949_f1, l949_f2+l950_f1, l950_f2+l951_f1, l951_f2+l952_f1, l952_f2+l953_f1, l953_f2+l954_f1, l954_f2+l955_f1, l955_f2+l956_f1, l956_f2+l957_f1, l957_f2+l958_f1, l958_f2+l959_f1, l959_f2+l960_f1, l960_f2+l961_f1, l961_f2+l962_f1, l962_f2+l963_f1, l963_f2+l964_f1, l964_f2+l965_f1, l965_f2+l966_f1, l966_f2+l967_f1, l967_f2+l968_f1, l968_f2+l969_f1, l969_f2+l970_f1, l970_f2+l971_f1, l971_f2+l972_f1, l972_f2+l973_f1, l973_f2+l974_f1, l974_f2+l975_f1, l975_f2+l976_f1, l976_f2+l977_f1, l977_f2+l978_f1, l978_f2+l979_f1, l979_f2+l980_f1, l980_f2+l981_f1, l981_f2+l982_f1, l982_f2+l983_f1, l983_f2+l984_f1, l984_f2+l985_f1, l985_f2+l986_f1, l986_f2+l987_f1, l987_f2+l988_f1, l988_f2+l989_f1, l989_f2+l990_f1, l990_f2+l991_f1, l991_f2+l992_f1, l992_f2+l993_f1, l993_f2+l994_f1, l994_f2+l995_f1, l995_f2+l996_f1, l996_f2+l997_f1, l997_f2+l998_f1, l998_f2+l999_f1, l999_f2+l1000_f1, l1001_f1, p_in1; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328,m329,m330,m331,m332,m333,m334,m335,m336,m337,m338,m339,m340,m341,m342,m343,m344,m345,m346,m347,m348,m349,m350,m351,m352,m353,m354,m355,m356,m357,m358,m359,m360,m361,m362,m363,m364,m365,m366,m367,m368,m369,m370,m371,m372,m373,m374,m375,m376,m377,m378,m379,m380,m381,m382,m383,m384,m385,m386,m387,m388,m389,m390,m391,m392,m393,m394,m395,m396,m397,m398,m399,m400,m401,m402,m403,m404,m405,m406,m407,m408,m409,m410,m411,m412,m413,m414,m415,m416,m417,m418,m419,m420,m421,m422,m423,m424,m425,m426,m427,m428,m429,m430,m431,m432,m433,m434,m435,m436,m437,m438,m439,m440,m441,m442,m443,m444,m445,m446,m447,m448,m449,m450,m451,m452,m453,m454,m455,m456,m457,m458,m459,m460,m461,m462,m463,m464,m465,m466,m467,m468,m469,m470,m471,m472,m473,m474,m475,m476,m477,m478,m479,m480,m481,m482,m483,m484,m485,m486,m487,m488,m489,m490,m491,m492,m493,m494,m495,m496,m497,m498,m499,m500,m501,m502,m503,m504,m505,m506,m507,m508,m509,m510,m511,m512,m513,m514,m515,m516,m517,m518,m519,m520,m521,m522,m523,m524,m525,m526,m527,m528,m529,m530,m531,m532,m533,m534,m535,m536,m537,m538,m539,m540,m541,m542,m543,m544,m545,m546,m547,m548,m549,m550,m551,m552,m553,m554,m555,m556,m557,m558,m559,m560,m561,m562,m563,m564,m565,m566,m567,m568,m569,m570,m571,m572,m573,m574,m575,m576,m577,m578,m579,m580,m581,m582,m583,m584,m585,m586,m587,m588,m589,m590,m591,m592,m593,m594,m595,m596,m597,m598,m599,m600,m601,m602,m603,m604,m605,m606,m607,m608,m609,m610,m611,m612,m613,m614,m615,m616,m617,m618,m619,m620,m621,m622,m623,m624,m625,m626,m627,m628,m629,m630,m631,m632,m633,m634,m635,m636,m637,m638,m639,m640,m641,m642,m643,m644,m645,m646,m647,m648,m649,m650,m651,m652,m653,m654,m655,m656,m657,m658,m659,m660,m661,m662,m663,m664,m665,m666,m667,m668,m669,m670,m671,m672,m673,m674,m675,m676,m677,m678,m679,m680,m681,m682,m683,m684,m685,m686,m687,m688,m689,m690,m691,m692,m693,m694,m695,m696,m697,m698,m699,m700,m701,m702,m703,m704,m705,m706,m707,m708,m709,m710,m711,m712,m713,m714,m715,m716,m717,m718,m719,m720,m721,m722,m723,m724,m725,m726,m727,m728,m729,m730,m731,m732,m733,m734,m735,m736,m737,m738,m739,m740,m741,m742,m743,m744,m745,m746,m747,m748,m749,m750,m751,m752,m753,m754,m755,m756,m757,m758,m759,m760,m761,m762,m763,m764,m765,m766,m767,m768,m769,m770,m771,m772,m773,m774,m775,m776,m777,m778,m779,m780,m781,m782,m783,m784,m785,m786,m787,m788,m789,m790,m791,m792,m793,m794,m795,m796,m797,m798,m799,m800,m801,m802,m803,m804,m805,m806,m807,m808,m809,m810,m811,m812,m813,m814,m815,m816,m817,m818,m819,m820,m821,m822,m823,m824,m825,m826,m827,m828,m829,m830,m831,m832,m833,m834,m835,m836,m837,m838,m839,m840,m841,m842,m843,m844,m845,m846,m847,m848,m849,m850,m851,m852,m853,m854,m855,m856,m857,m858,m859,m860,m861,m862,m863,m864,m865,m866,m867,m868,m869,m870,m871,m872,m873,m874,m875,m876,m877,m878,m879,m880,m881,m882,m883,m884,m885,m886,m887,m888,m889,m890,m891,m892,m893,m894,m895,m896,m897,m898,m899,m900,m901,m902,m903,m904,m905,m906,m907,m908,m909,m910,m911,m912,m913,m914,m915,m916,m917,m918,m919,m920,m921,m922,m923,m924,m925,m926,m927,m928,m929,m930,m931,m932,m933,m934,m935,m936,m937,m938,m939,m940,m941,m942,m943,m944,m945,m946,m947,m948,m949,m950,m951,m952,m953,m954,m955,m956,m957,m958,m959,m960,m961,m962,m963,m964,m965,m966,m967,m968,m969,m970,m971,m972,m973,m974,m975,m976,m977,m978,m979,m980,m981,m982,m983,m984,m985,m986,m987,m988,m989,m990,m991,m992,m993,m994,m995,m996,m997,m998,m999,m1000,m1001,m1002) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m60, m61, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m90, m91, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m120, m121, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m150, m151, m151, m152, m152, m153, m153, m154, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m171, m172, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m180, m181, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m188, m189, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m204, m205, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m210, m211, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m219, m220, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m233, m234, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m240, m241, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m246, m247, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m258, m259, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m269, m270, m270, m271, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m279, m280, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m288, m289, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m296, m297, m297, m298, m298, m299, m299, m300, m300, m301, m301, m302, m302, m303, m303, m304, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m309, m310, m310, m311, m311, m312, m312, m313, m313, m314, m314, m315, m315, m316, m316, m317, m317, m318, m318, m319, m319, m320, m320, m321, m321, m322, m322, m323, m323, m324, m324, m325, m325, m326, m326, m327, m327, m328, m328, m329, m329, m330, m330, m331, m331, m332, m332, m333, m333, m334, m334, m335, m335, m336, m336, m337, m337, m338, m338, m339, m339, m340, m340, m341, m341, m342, m342, m343, m343, m344, m344, m345, m345, m346, m346, m347, m347, m348, m348, m349, m349, m350, m350, m351, m351, m352, m352, m353, m353, m354, m354, m355, m355, m356, m356, m357, m357, m358, m358, m359, m359, m360, m360, m361, m361, m362, m362, m363, m363, m364, m364, m365, m365, m366, m366, m367, m367, m368, m368, m369, m369, m370, m370, m371, m371, m372, m372, m373, m373, m374, m374, m375, m375, m376, m376, m377, m377, m378, m378, m379, m379, m380, m380, m381, m381, m382, m382, m383, m383, m384, m384, m385, m385, m386, m386, m387, m387, m388, m388, m389, m389, m390, m390, m391, m391, m392, m392, m393, m393, m394, m394, m395, m395, m396, m396, m397, m397, m398, m398, m399, m399, m400, m400, m401, m401, m402, m402, m403, m403, m404, m404, m405, m405, m406, m406, m407, m407, m408, m408, m409, m409, m410, m410, m411, m411, m412, m412, m413, m413, m414, m414, m415, m415, m416, m416, m417, m417, m418, m418, m419, m419, m420, m420, m421, m421, m422, m422, m423, m423, m424, m424, m425, m425, m426, m426, m427, m427, m428, m428, m429, m429, m430, m430, m431, m431, m432, m432, m433, m433, m434, m434, m435, m435, m436, m436, m437, m437, m438, m438, m439, m439, m440, m440, m441, m441, m442, m442, m443, m443, m444, m444, m445, m445, m446, m446, m447, m447, m448, m448, m449, m449, m450, m450, m451, m451, m452, m452, m453, m453, m454, m454, m455, m455, m456, m456, m457, m457, m458, m458, m459, m459, m460, m460, m461, m461, m462, m462, m463, m463, m464, m464, m465, m465, m466, m466, m467, m467, m468, m468, m469, m469, m470, m470, m471, m471, m472, m472, m473, m473, m474, m474, m475, m475, m476, m476, m477, m477, m478, m478, m479, m479, m480, m480, m481, m481, m482, m482, m483, m483, m484, m484, m485, m485, m486, m486, m487, m487, m488, m488, m489, m489, m490, m490, m491, m491, m492, m492, m493, m493, m494, m494, m495, m495, m496, m496, m497, m497, m498, m498, m499, m499, m500, m500, m501, m501, m502, m502, m503, m503, m504, m504, m505, m505, m506, m506, m507, m507, m508, m508, m509, m509, m510, m510, m511, m511, m512, m512, m513, m513, m514, m514, m515, m515, m516, m516, m517, m517, m518, m518, m519, m519, m520, m520, m521, m521, m522, m522, m523, m523, m524, m524, m525, m525, m526, m526, m527, m527, m528, m528, m529, m529, m530, m530, m531, m531, m532, m532, m533, m533, m534, m534, m535, m535, m536, m536, m537, m537, m538, m538, m539, m539, m540, m540, m541, m541, m542, m542, m543, m543, m544, m544, m545, m545, m546, m546, m547, m547, m548, m548, m549, m549, m550, m550, m551, m551, m552, m552, m553, m553, m554, m554, m555, m555, m556, m556, m557, m557, m558, m558, m559, m559, m560, m560, m561, m561, m562, m562, m563, m563, m564, m564, m565, m565, m566, m566, m567, m567, m568, m568, m569, m569, m570, m570, m571, m571, m572, m572, m573, m573, m574, m574, m575, m575, m576, m576, m577, m577, m578, m578, m579, m579, m580, m580, m581, m581, m582, m582, m583, m583, m584, m584, m585, m585, m586, m586, m587, m587, m588, m588, m589, m589, m590, m590, m591, m591, m592, m592, m593, m593, m594, m594, m595, m595, m596, m596, m597, m597, m598, m598, m599, m599, m600, m600, m601, m601, m602, m602, m603, m603, m604, m604, m605, m605, m606, m606, m607, m607, m608, m608, m609, m609, m610, m610, m611, m611, m612, m612, m613, m613, m614, m614, m615, m615, m616, m616, m617, m617, m618, m618, m619, m619, m620, m620, m621, m621, m622, m622, m623, m623, m624, m624, m625, m625, m626, m626, m627, m627, m628, m628, m629, m629, m630, m630, m631, m631, m632, m632, m633, m633, m634, m634, m635, m635, m636, m636, m637, m637, m638, m638, m639, m639, m640, m640, m641, m641, m642, m642, m643, m643, m644, m644, m645, m645, m646, m646, m647, m647, m648, m648, m649, m649, m650, m650, m651, m651, m652, m652, m653, m653, m654, m654, m655, m655, m656, m656, m657, m657, m658, m658, m659, m659, m660, m660, m661, m661, m662, m662, m663, m663, m664, m664, m665, m665, m666, m666, m667, m667, m668, m668, m669, m669, m670, m670, m671, m671, m672, m672, m673, m673, m674, m674, m675, m675, m676, m676, m677, m677, m678, m678, m679, m679, m680, m680, m681, m681, m682, m682, m683, m683, m684, m684, m685, m685, m686, m686, m687, m687, m688, m688, m689, m689, m690, m690, m691, m691, m692, m692, m693, m693, m694, m694, m695, m695, m696, m696, m697, m697, m698, m698, m699, m699, m700, m700, m701, m701, m702, m702, m703, m703, m704, m704, m705, m705, m706, m706, m707, m707, m708, m708, m709, m709, m710, m710, m711, m711, m712, m712, m713, m713, m714, m714, m715, m715, m716, m716, m717, m717, m718, m718, m719, m719, m720, m720, m721, m721, m722, m722, m723, m723, m724, m724, m725, m725, m726, m726, m727, m727, m728, m728, m729, m729, m730, m730, m731, m731, m732, m732, m733, m733, m734, m734, m735, m735, m736, m736, m737, m737, m738, m738, m739, m739, m740, m740, m741, m741, m742, m742, m743, m743, m744, m744, m745, m745, m746, m746, m747, m747, m748, m748, m749, m749, m750, m750, m751, m751, m752, m752, m753, m753, m754, m754, m755, m755, m756, m756, m757, m757, m758, m758, m759, m759, m760, m760, m761, m761, m762, m762, m763, m763, m764, m764, m765, m765, m766, 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spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), par(i, 2,_) )~par(i, 2300, _): par(i, 2300,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l6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50_f1,l950_f2,l951_f1,l951_f2,l952_f1,l952_f2,l953_f1,l953_f2,l954_f1,l954_f2,l955_f1,l955_f2,l956_f1,l956_f2,l957_f1,l957_f2,l958_f1,l958_f2,l959_f1,l959_f2,l960_f1,l960_f2,l961_f1,l961_f2,l962_f1,l962_f2,l963_f1,l963_f2,l964_f1,l964_f2,l965_f1,l965_f2,l966_f1,l966_f2,l967_f1,l967_f2,l968_f1,l968_f2,l969_f1,l969_f2,l970_f1,l970_f2,l971_f1,l971_f2,l972_f1,l972_f2,l973_f1,l973_f2,l974_f1,l974_f2,l975_f1,l975_f2,l976_f1,l976_f2,l977_f1,l977_f2,l978_f1,l978_f2,l979_f1,l979_f2,l980_f1,l980_f2,l981_f1,l981_f2,l982_f1,l982_f2,l983_f1,l983_f2,l984_f1,l984_f2,l985_f1,l985_f2,l986_f1,l986_f2,l987_f1,l987_f2,l988_f1,l988_f2,l989_f1,l989_f2,l990_f1,l990_f2,l991_f1,l991_f2,l992_f1,l992_f2,l993_f1,l993_f2,l994_f1,l994_f2,l995_f1,l995_f2,l996_f1,l996_f2,l997_f1,l997_f2,l998_f1,l998_f2,l999_f1,l999_f2,l1000_f1,l1000_f2,l1001_f1,l1001_f2,l1002_f1,l1002_f2,l1003_f1,l1003_f2,l1004_f1,l1004_f2,l1005_f1,l1005_f2,l1006_f1,l1006_f2,l1007_f1,l1007_f2,l1008_f1,l1008_f2,l1009_f1,l1009_f2,l1010_f1,l1010_f2,l1011_f1,l1011_f2,l1012_f1,l1012_f2,l1013_f1,l1013_f2,l1014_f1,l1014_f2,l1015_f1,l1015_f2,l1016_f1,l1016_f2,l1017_f1,l1017_f2,l1018_f1,l1018_f2,l1019_f1,l1019_f2,l1020_f1,l1020_f2,l1021_f1,l1021_f2,l1022_f1,l1022_f2,l1023_f1,l1023_f2,l1024_f1,l1024_f2,l1025_f1,l1025_f2,l1026_f1,l1026_f2,l1027_f1,l1027_f2,l1028_f1,l1028_f2,l1029_f1,l1029_f2,l1030_f1,l1030_f2,l1031_f1,l1031_f2,l1032_f1,l1032_f2,l1033_f1,l1033_f2,l1034_f1,l1034_f2,l1035_f1,l1035_f2,l1036_f1,l1036_f2,l1037_f1,l1037_f2,l1038_f1,l1038_f2,l1039_f1,l1039_f2,l1040_f1,l1040_f2,l1041_f1,l1041_f2,l1042_f1,l1042_f2,l1043_f1,l1043_f2,l1044_f1,l1044_f2,l1045_f1,l1045_f2,l1046_f1,l1046_f2,l1047_f1,l1047_f2,l1048_f1,l1048_f2,l1049_f1,l1049_f2,l1050_f1,l1050_f2,l1051_f1,l1051_f2,l1052_f1,l1052_f2,l1053_f1,l1053_f2,l1054_f1,l1054_f2,l1055_f1,l1055_f2,l1056_f1,l1056_f2,l1057_f1,l1057_f2,l1058_f1,l1058_f2,l1059_f1,l1059_f2,l1060_f1,l1060_f2,l1061_f1,l1061_f2,l1062_f1,l1062_f2,l1063_f1,l1063_f2,l1064_f1,l1064_f2,l1065_f1,l1065_f2,l1066_f1,l1066_f2,l1067_f1,l1067_f2,l1068_f1,l1068_f2,l1069_f1,l1069_f2,l1070_f1,l1070_f2,l1071_f1,l1071_f2,l1072_f1,l1072_f2,l1073_f1,l1073_f2,l1074_f1,l1074_f2,l1075_f1,l1075_f2,l1076_f1,l1076_f2,l1077_f1,l1077_f2,l1078_f1,l1078_f2,l1079_f1,l1079_f2,l1080_f1,l1080_f2,l1081_f1,l1081_f2,l1082_f1,l1082_f2,l1083_f1,l1083_f2,l1084_f1,l1084_f2,l1085_f1,l1085_f2,l1086_f1,l1086_f2,l1087_f1,l1087_f2,l1088_f1,l1088_f2,l1089_f1,l1089_f2,l1090_f1,l1090_f2,l1091_f1,l1091_f2,l1092_f1,l1092_f2,l1093_f1,l1093_f2,l1094_f1,l1094_f2,l1095_f1,l1095_f2,l1096_f1,l1096_f2,l1097_f1,l1097_f2,l1098_f1,l1098_f2,l1099_f1,l1099_f2,l1100_f1,l1100_f2,l1101_f1,l1101_f2,l1102_f1,l1102_f2,l1103_f1,l1103_f2,l1104_f1,l1104_f2,l1105_f1,l1105_f2,l1106_f1,l1106_f2,l1107_f1,l1107_f2,l1108_f1,l1108_f2,l1109_f1,l1109_f2,l1110_f1,l1110_f2,l1111_f1,l1111_f2,l1112_f1,l1112_f2,l1113_f1,l1113_f2,l1114_f1,l1114_f2,l1115_f1,l1115_f2,l1116_f1,l1116_f2,l1117_f1,l1117_f2,l1118_f1,l1118_f2,l1119_f1,l1119_f2,l1120_f1,l1120_f2,l1121_f1,l1121_f2,l1122_f1,l1122_f2,l1123_f1,l1123_f2,l1124_f1,l1124_f2,l1125_f1,l1125_f2,l1126_f1,l1126_f2,l1127_f1,l1127_f2,l1128_f1,l1128_f2,l1129_f1,l1129_f2,l1130_f1,l1130_f2,l1131_f1,l1131_f2,l1132_f1,l1132_f2,l1133_f1,l1133_f2,l1134_f1,l1134_f2,l1135_f1,l1135_f2,l1136_f1,l1136_f2,l1137_f1,l1137_f2,l1138_f1,l1138_f2,l1139_f1,l1139_f2,l1140_f1,l1140_f2,l1141_f1,l1141_f2,l1142_f1,l1142_f2,l1143_f1,l1143_f2,l1144_f1,l1144_f2,l1145_f1,l1145_f2,l1146_f1,l1146_f2,l1147_f1,l1147_f2,l1148_f1,l1148_f2,l1149_f1,l1149_f2, f_in1) = l0_f1+l580_f1, l579_f2+l1149_f2, l0_f2+l1_f1+l581_f1, l1_f2+l2_f1+l582_f1, l2_f2+l3_f1+l583_f1, l3_f2+l4_f1+l584_f1, l4_f2+l5_f1+l585_f1, l5_f2+l6_f1+l586_f1, l6_f2+l7_f1+l587_f1, l7_f2+l8_f1+l588_f1, l8_f2+l9_f1+l589_f1, l9_f2+l10_f1+l590_f1, l10_f2+l11_f1+l591_f1, l11_f2+l12_f1+l592_f1, l12_f2+l13_f1+l593_f1, l13_f2+l14_f1+l594_f1, l14_f2+l15_f1+l595_f1, l15_f2+l16_f1+l596_f1, l16_f2+l17_f1+l597_f1, l17_f2+l18_f1+l598_f1, l18_f2+l19_f1+l599_f1, l19_f2+l20_f1+l600_f1, l20_f2+l21_f1+l601_f1, l21_f2+l22_f1+l602_f1, l22_f2+l23_f1+l603_f1, l23_f2+l24_f1+l604_f1, l24_f2+l25_f1+l605_f1, l25_f2+l26_f1+l606_f1, l26_f2+l27_f1+l607_f1, l27_f2+l28_f1+l608_f1, l28_f2+l609_f1, l29_f1+l580_f2+l610_f1, l29_f2+l30_f1+l581_f2+l611_f1, l30_f2+l31_f1+l582_f2+l612_f1, l31_f2+l32_f1+l583_f2+l613_f1, l32_f2+l33_f1+l584_f2+l614_f1, l33_f2+l34_f1+l585_f2+l615_f1, l34_f2+l35_f1+l586_f2+l616_f1, l35_f2+l36_f1+l587_f2+l617_f1, l36_f2+l37_f1+l588_f2+l618_f1, l37_f2+l38_f1+l589_f2+l619_f1, l38_f2+l39_f1+l590_f2+l620_f1, l39_f2+l40_f1+l591_f2+l621_f1, l40_f2+l41_f1+l592_f2+l622_f1, l41_f2+l42_f1+l593_f2+l623_f1, l42_f2+l43_f1+l594_f2+l624_f1, l43_f2+l44_f1+l595_f2+l625_f1, l44_f2+l45_f1+l596_f2+l626_f1, l45_f2+l46_f1+l597_f2+l627_f1, l46_f2+l47_f1+l598_f2+l628_f1, l47_f2+l48_f1+l599_f2+l629_f1, l48_f2+l49_f1+l600_f2+l630_f1, l49_f2+l50_f1+l601_f2+l631_f1, l50_f2+l51_f1+l602_f2+l632_f1, l51_f2+l52_f1+l603_f2+l633_f1, l52_f2+l53_f1+l604_f2+l634_f1, l53_f2+l54_f1+l605_f2+l635_f1, l54_f2+l55_f1+l606_f2+l636_f1, l55_f2+l56_f1+l607_f2+l637_f1, l56_f2+l57_f1+l608_f2+l638_f1, l57_f2+l609_f2+l639_f1, l58_f1+l610_f2+l640_f1, l58_f2+l59_f1+l611_f2+l641_f1, l59_f2+l60_f1+l612_f2+l642_f1, l60_f2+l61_f1+l613_f2+l643_f1, l61_f2+l62_f1+l614_f2+l644_f1, l62_f2+l63_f1+l615_f2+l645_f1, f_in1+l63_f2+l64_f1+l616_f2+l646_f1, l64_f2+l65_f1+l617_f2+l647_f1, l65_f2+l66_f1+l618_f2+l648_f1, l66_f2+l67_f1+l619_f2+l649_f1, l67_f2+l68_f1+l620_f2+l650_f1, l68_f2+l69_f1+l621_f2+l651_f1, l69_f2+l70_f1+l622_f2+l652_f1, l70_f2+l71_f1+l623_f2+l653_f1, l71_f2+l72_f1+l624_f2+l654_f1, l72_f2+l73_f1+l625_f2+l655_f1, l73_f2+l74_f1+l626_f2+l656_f1, l74_f2+l75_f1+l627_f2+l657_f1, l75_f2+l76_f1+l628_f2+l658_f1, l76_f2+l77_f1+l629_f2+l659_f1, l77_f2+l78_f1+l630_f2+l660_f1, l78_f2+l79_f1+l631_f2+l661_f1, l79_f2+l80_f1+l632_f2+l662_f1, l80_f2+l81_f1+l633_f2+l663_f1, l81_f2+l82_f1+l634_f2+l664_f1, l82_f2+l83_f1+l635_f2+l665_f1, l83_f2+l84_f1+l636_f2+l666_f1, l84_f2+l85_f1+l637_f2+l667_f1, l85_f2+l86_f1+l638_f2+l668_f1, l86_f2+l639_f2+l669_f1, l87_f1+l640_f2+l670_f1, l87_f2+l88_f1+l641_f2+l671_f1, l88_f2+l89_f1+l642_f2+l672_f1, l89_f2+l90_f1+l643_f2+l673_f1, l90_f2+l91_f1+l644_f2+l674_f1, l91_f2+l92_f1+l645_f2+l675_f1, l92_f2+l93_f1+l646_f2+l676_f1, l93_f2+l94_f1+l647_f2+l677_f1, l94_f2+l95_f1+l648_f2+l678_f1, l95_f2+l96_f1+l649_f2+l679_f1, l96_f2+l97_f1+l650_f2+l680_f1, l97_f2+l98_f1+l651_f2+l681_f1, l98_f2+l99_f1+l652_f2+l682_f1, l99_f2+l100_f1+l653_f2+l683_f1, l100_f2+l101_f1+l654_f2+l684_f1, l101_f2+l102_f1+l655_f2+l685_f1, l102_f2+l103_f1+l656_f2+l686_f1, l103_f2+l104_f1+l657_f2+l687_f1, l104_f2+l105_f1+l658_f2+l688_f1, l105_f2+l106_f1+l659_f2+l689_f1, l106_f2+l107_f1+l660_f2+l690_f1, l107_f2+l108_f1+l661_f2+l691_f1, l108_f2+l109_f1+l662_f2+l692_f1, l109_f2+l110_f1+l663_f2+l693_f1, l110_f2+l111_f1+l664_f2+l694_f1, l111_f2+l112_f1+l665_f2+l695_f1, l112_f2+l113_f1+l666_f2+l696_f1, l113_f2+l114_f1+l667_f2+l697_f1, l114_f2+l115_f1+l668_f2+l698_f1, l115_f2+l669_f2+l699_f1, l116_f1+l670_f2+l700_f1, l116_f2+l117_f1+l671_f2+l701_f1, l117_f2+l118_f1+l672_f2+l702_f1, l118_f2+l119_f1+l673_f2+l703_f1, l119_f2+l120_f1+l674_f2+l704_f1, l120_f2+l121_f1+l675_f2+l705_f1, l121_f2+l122_f1+l676_f2+l706_f1, l122_f2+l123_f1+l677_f2+l707_f1, l123_f2+l124_f1+l678_f2+l708_f1, l124_f2+l125_f1+l679_f2+l709_f1, l125_f2+l126_f1+l680_f2+l710_f1, l126_f2+l127_f1+l681_f2+l711_f1, l127_f2+l128_f1+l682_f2+l712_f1, l128_f2+l129_f1+l683_f2+l713_f1, l129_f2+l130_f1+l684_f2+l714_f1, l130_f2+l131_f1+l685_f2+l715_f1, l131_f2+l132_f1+l686_f2+l716_f1, l132_f2+l133_f1+l687_f2+l717_f1, l133_f2+l134_f1+l688_f2+l718_f1, l134_f2+l135_f1+l689_f2+l719_f1, l135_f2+l136_f1+l690_f2+l720_f1, l136_f2+l137_f1+l691_f2+l721_f1, l137_f2+l138_f1+l692_f2+l722_f1, l138_f2+l139_f1+l693_f2+l723_f1, l139_f2+l140_f1+l694_f2+l724_f1, l140_f2+l141_f1+l695_f2+l725_f1, l141_f2+l142_f1+l696_f2+l726_f1, l142_f2+l143_f1+l697_f2+l727_f1, l143_f2+l144_f1+l698_f2+l728_f1, l144_f2+l699_f2+l729_f1, l145_f1+l700_f2+l730_f1, l145_f2+l146_f1+l701_f2+l731_f1, l146_f2+l147_f1+l702_f2+l732_f1, l147_f2+l148_f1+l703_f2+l733_f1, l148_f2+l149_f1+l704_f2+l734_f1, l149_f2+l150_f1+l705_f2+l735_f1, l150_f2+l151_f1+l706_f2+l736_f1, l151_f2+l152_f1+l707_f2+l737_f1, l152_f2+l153_f1+l708_f2+l738_f1, l153_f2+l154_f1+l709_f2+l739_f1, l154_f2+l155_f1+l710_f2+l740_f1, l155_f2+l156_f1+l711_f2+l741_f1, l156_f2+l157_f1+l712_f2+l742_f1, l157_f2+l158_f1+l713_f2+l743_f1, l158_f2+l159_f1+l714_f2+l744_f1, l159_f2+l160_f1+l715_f2+l745_f1, l160_f2+l161_f1+l716_f2+l746_f1, l161_f2+l162_f1+l717_f2+l747_f1, l162_f2+l163_f1+l718_f2+l748_f1, l163_f2+l164_f1+l719_f2+l749_f1, l164_f2+l165_f1+l720_f2+l750_f1, l165_f2+l166_f1+l721_f2+l751_f1, l166_f2+l167_f1+l722_f2+l752_f1, l167_f2+l168_f1+l723_f2+l753_f1, l168_f2+l169_f1+l724_f2+l754_f1, l169_f2+l170_f1+l725_f2+l755_f1, l170_f2+l171_f1+l726_f2+l756_f1, l171_f2+l172_f1+l727_f2+l757_f1, l172_f2+l173_f1+l728_f2+l758_f1, l173_f2+l729_f2+l759_f1, l174_f1+l730_f2+l760_f1, l174_f2+l175_f1+l731_f2+l761_f1, l175_f2+l176_f1+l732_f2+l762_f1, l176_f2+l177_f1+l733_f2+l763_f1, l177_f2+l178_f1+l734_f2+l764_f1, l178_f2+l179_f1+l735_f2+l765_f1, l179_f2+l180_f1+l736_f2+l766_f1, l180_f2+l181_f1+l737_f2+l767_f1, l181_f2+l182_f1+l738_f2+l768_f1, l182_f2+l183_f1+l739_f2+l769_f1, l183_f2+l184_f1+l740_f2+l770_f1, l184_f2+l185_f1+l741_f2+l771_f1, l185_f2+l186_f1+l742_f2+l772_f1, l186_f2+l187_f1+l743_f2+l773_f1, l187_f2+l188_f1+l744_f2+l774_f1, l188_f2+l189_f1+l745_f2+l775_f1, l189_f2+l190_f1+l746_f2+l776_f1, l190_f2+l191_f1+l747_f2+l777_f1, l191_f2+l192_f1+l748_f2+l778_f1, l192_f2+l193_f1+l749_f2+l779_f1, l193_f2+l194_f1+l750_f2+l780_f1, l194_f2+l195_f1+l751_f2+l781_f1, l195_f2+l196_f1+l752_f2+l782_f1, l196_f2+l197_f1+l753_f2+l783_f1, l197_f2+l198_f1+l754_f2+l784_f1, l198_f2+l199_f1+l755_f2+l785_f1, l199_f2+l200_f1+l756_f2+l786_f1, l200_f2+l201_f1+l757_f2+l787_f1, l201_f2+l202_f1+l758_f2+l788_f1, l202_f2+l759_f2+l789_f1, l203_f1+l760_f2+l790_f1, l203_f2+l204_f1+l761_f2+l791_f1, l204_f2+l205_f1+l762_f2+l792_f1, l205_f2+l206_f1+l763_f2+l793_f1, l206_f2+l207_f1+l764_f2+l794_f1, l207_f2+l208_f1+l765_f2+l795_f1, l208_f2+l209_f1+l766_f2+l796_f1, l209_f2+l210_f1+l767_f2+l797_f1, l210_f2+l211_f1+l768_f2+l798_f1, l211_f2+l212_f1+l769_f2+l799_f1, l212_f2+l213_f1+l770_f2+l800_f1, l213_f2+l214_f1+l771_f2+l801_f1, l214_f2+l215_f1+l772_f2+l802_f1, l215_f2+l216_f1+l773_f2+l803_f1, l216_f2+l217_f1+l774_f2+l804_f1, l217_f2+l218_f1+l775_f2+l805_f1, l218_f2+l219_f1+l776_f2+l806_f1, l219_f2+l220_f1+l777_f2+l807_f1, l220_f2+l221_f1+l778_f2+l808_f1, l221_f2+l222_f1+l779_f2+l809_f1, l222_f2+l223_f1+l780_f2+l810_f1, l223_f2+l224_f1+l781_f2+l811_f1, l224_f2+l225_f1+l782_f2+l812_f1, l225_f2+l226_f1+l783_f2+l813_f1, l226_f2+l227_f1+l784_f2+l814_f1, l227_f2+l228_f1+l785_f2+l815_f1, l228_f2+l229_f1+l786_f2+l816_f1, l229_f2+l230_f1+l787_f2+l817_f1, l230_f2+l231_f1+l788_f2+l818_f1, l231_f2+l789_f2+l819_f1, l232_f1+l790_f2+l820_f1, l232_f2+l233_f1+l791_f2+l821_f1, l233_f2+l234_f1+l792_f2+l822_f1, l234_f2+l235_f1+l793_f2+l823_f1, l235_f2+l236_f1+l794_f2+l824_f1, l236_f2+l237_f1+l795_f2+l825_f1, l237_f2+l238_f1+l796_f2+l826_f1, l238_f2+l239_f1+l797_f2+l827_f1, l239_f2+l240_f1+l798_f2+l828_f1, l240_f2+l241_f1+l799_f2+l829_f1, l241_f2+l242_f1+l800_f2+l830_f1, l242_f2+l243_f1+l801_f2+l831_f1, l243_f2+l244_f1+l802_f2+l832_f1, l244_f2+l245_f1+l803_f2+l833_f1, l245_f2+l246_f1+l804_f2+l834_f1, l246_f2+l247_f1+l805_f2+l835_f1, l247_f2+l248_f1+l806_f2+l836_f1, l248_f2+l249_f1+l807_f2+l837_f1, l249_f2+l250_f1+l808_f2+l838_f1, l250_f2+l251_f1+l809_f2+l839_f1, l251_f2+l252_f1+l810_f2+l840_f1, l252_f2+l253_f1+l811_f2+l841_f1, l253_f2+l254_f1+l812_f2+l842_f1, l254_f2+l255_f1+l813_f2+l843_f1, l255_f2+l256_f1+l814_f2+l844_f1, l256_f2+l257_f1+l815_f2+l845_f1, l257_f2+l258_f1+l816_f2+l846_f1, l258_f2+l259_f1+l817_f2+l847_f1, l259_f2+l260_f1+l818_f2+l848_f1, l260_f2+l819_f2+l849_f1, l261_f1+l820_f2+l850_f1, l261_f2+l262_f1+l821_f2+l851_f1, l262_f2+l263_f1+l822_f2+l852_f1, l263_f2+l264_f1+l823_f2+l853_f1, l264_f2+l265_f1+l824_f2+l854_f1, l265_f2+l266_f1+l825_f2+l855_f1, l266_f2+l267_f1+l826_f2+l856_f1, l267_f2+l268_f1+l827_f2+l857_f1, l268_f2+l269_f1+l828_f2+l858_f1, l269_f2+l270_f1+l829_f2+l859_f1, l270_f2+l271_f1+l830_f2+l860_f1, l271_f2+l272_f1+l831_f2+l861_f1, l272_f2+l273_f1+l832_f2+l862_f1, l273_f2+l274_f1+l833_f2+l863_f1, l274_f2+l275_f1+l834_f2+l864_f1, l275_f2+l276_f1+l835_f2+l865_f1, l276_f2+l277_f1+l836_f2+l866_f1, l277_f2+l278_f1+l837_f2+l867_f1, l278_f2+l279_f1+l838_f2+l868_f1, l279_f2+l280_f1+l839_f2+l869_f1, l280_f2+l281_f1+l840_f2+l870_f1, l281_f2+l282_f1+l841_f2+l871_f1, l282_f2+l283_f1+l842_f2+l872_f1, l283_f2+l284_f1+l843_f2+l873_f1, l284_f2+l285_f1+l844_f2+l874_f1, l285_f2+l286_f1+l845_f2+l875_f1, l286_f2+l287_f1+l846_f2+l876_f1, l287_f2+l288_f1+l847_f2+l877_f1, l288_f2+l289_f1+l848_f2+l878_f1, l289_f2+l849_f2+l879_f1, l290_f1+l850_f2+l880_f1, l290_f2+l291_f1+l851_f2+l881_f1, l291_f2+l292_f1+l852_f2+l882_f1, l292_f2+l293_f1+l853_f2+l883_f1, l293_f2+l294_f1+l854_f2+l884_f1, l294_f2+l295_f1+l855_f2+l885_f1, l295_f2+l296_f1+l856_f2+l886_f1, l296_f2+l297_f1+l857_f2+l887_f1, l297_f2+l298_f1+l858_f2+l888_f1, l298_f2+l299_f1+l859_f2+l889_f1, l299_f2+l300_f1+l860_f2+l890_f1, l300_f2+l301_f1+l861_f2+l891_f1, l301_f2+l302_f1+l862_f2+l892_f1, l302_f2+l303_f1+l863_f2+l893_f1, l303_f2+l304_f1+l864_f2+l894_f1, l304_f2+l305_f1+l865_f2+l895_f1, l305_f2+l306_f1+l866_f2+l896_f1, l306_f2+l307_f1+l867_f2+l897_f1, l307_f2+l308_f1+l868_f2+l898_f1, l308_f2+l309_f1+l869_f2+l899_f1, l309_f2+l310_f1+l870_f2+l900_f1, l310_f2+l311_f1+l871_f2+l901_f1, l311_f2+l312_f1+l872_f2+l902_f1, l312_f2+l313_f1+l873_f2+l903_f1, l313_f2+l314_f1+l874_f2+l904_f1, l314_f2+l315_f1+l875_f2+l905_f1, l315_f2+l316_f1+l876_f2+l906_f1, l316_f2+l317_f1+l877_f2+l907_f1, l317_f2+l318_f1+l878_f2+l908_f1, l318_f2+l879_f2+l909_f1, l319_f1+l880_f2+l910_f1, l319_f2+l320_f1+l881_f2+l911_f1, l320_f2+l321_f1+l882_f2+l912_f1, l321_f2+l322_f1+l883_f2+l913_f1, l322_f2+l323_f1+l884_f2+l914_f1, l323_f2+l324_f1+l885_f2+l915_f1, l324_f2+l325_f1+l886_f2+l916_f1, l325_f2+l326_f1+l887_f2+l917_f1, l326_f2+l327_f1+l888_f2+l918_f1, l327_f2+l328_f1+l889_f2+l919_f1, l328_f2+l329_f1+l890_f2+l920_f1, l329_f2+l330_f1+l891_f2+l921_f1, l330_f2+l331_f1+l892_f2+l922_f1, l331_f2+l332_f1+l893_f2+l923_f1, l332_f2+l333_f1+l894_f2+l924_f1, l333_f2+l334_f1+l895_f2+l925_f1, l334_f2+l335_f1+l896_f2+l926_f1, l335_f2+l336_f1+l897_f2+l927_f1, l336_f2+l337_f1+l898_f2+l928_f1, l337_f2+l338_f1+l899_f2+l929_f1, l338_f2+l339_f1+l900_f2+l930_f1, l339_f2+l340_f1+l901_f2+l931_f1, l340_f2+l341_f1+l902_f2+l932_f1, l341_f2+l342_f1+l903_f2+l933_f1, l342_f2+l343_f1+l904_f2+l934_f1, l343_f2+l344_f1+l905_f2+l935_f1, l344_f2+l345_f1+l906_f2+l936_f1, l345_f2+l346_f1+l907_f2+l937_f1, l346_f2+l347_f1+l908_f2+l938_f1, l347_f2+l909_f2+l939_f1, l348_f1+l910_f2+l940_f1, l348_f2+l349_f1+l911_f2+l941_f1, l349_f2+l350_f1+l912_f2+l942_f1, l350_f2+l351_f1+l913_f2+l943_f1, l351_f2+l352_f1+l914_f2+l944_f1, l352_f2+l353_f1+l915_f2+l945_f1, l353_f2+l354_f1+l916_f2+l946_f1, l354_f2+l355_f1+l917_f2+l947_f1, l355_f2+l356_f1+l918_f2+l948_f1, l356_f2+l357_f1+l919_f2+l949_f1, l357_f2+l358_f1+l920_f2+l950_f1, l358_f2+l359_f1+l921_f2+l951_f1, l359_f2+l360_f1+l922_f2+l952_f1, l360_f2+l361_f1+l923_f2+l953_f1, l361_f2+l362_f1+l924_f2+l954_f1, l362_f2+l363_f1+l925_f2+l955_f1, l363_f2+l364_f1+l926_f2+l956_f1, l364_f2+l365_f1+l927_f2+l957_f1, l365_f2+l366_f1+l928_f2+l958_f1, l366_f2+l367_f1+l929_f2+l959_f1, l367_f2+l368_f1+l930_f2+l960_f1, l368_f2+l369_f1+l931_f2+l961_f1, l369_f2+l370_f1+l932_f2+l962_f1, l370_f2+l371_f1+l933_f2+l963_f1, l371_f2+l372_f1+l934_f2+l964_f1, l372_f2+l373_f1+l935_f2+l965_f1, l373_f2+l374_f1+l936_f2+l966_f1, l374_f2+l375_f1+l937_f2+l967_f1, l375_f2+l376_f1+l938_f2+l968_f1, l376_f2+l939_f2+l969_f1, l377_f1+l940_f2+l970_f1, l377_f2+l378_f1+l941_f2+l971_f1, l378_f2+l379_f1+l942_f2+l972_f1, l379_f2+l380_f1+l943_f2+l973_f1, l380_f2+l381_f1+l944_f2+l974_f1, l381_f2+l382_f1+l945_f2+l975_f1, l382_f2+l383_f1+l946_f2+l976_f1, l383_f2+l384_f1+l947_f2+l977_f1, l384_f2+l385_f1+l948_f2+l978_f1, l385_f2+l386_f1+l949_f2+l979_f1, l386_f2+l387_f1+l950_f2+l980_f1, l387_f2+l388_f1+l951_f2+l981_f1, l388_f2+l389_f1+l952_f2+l982_f1, l389_f2+l390_f1+l953_f2+l983_f1, l390_f2+l391_f1+l954_f2+l984_f1, l391_f2+l392_f1+l955_f2+l985_f1, l392_f2+l393_f1+l956_f2+l986_f1, l393_f2+l394_f1+l957_f2+l987_f1, l394_f2+l395_f1+l958_f2+l988_f1, l395_f2+l396_f1+l959_f2+l989_f1, l396_f2+l397_f1+l960_f2+l990_f1, l397_f2+l398_f1+l961_f2+l991_f1, l398_f2+l399_f1+l962_f2+l992_f1, l399_f2+l400_f1+l963_f2+l993_f1, l400_f2+l401_f1+l964_f2+l994_f1, l401_f2+l402_f1+l965_f2+l995_f1, l402_f2+l403_f1+l966_f2+l996_f1, l403_f2+l404_f1+l967_f2+l997_f1, l404_f2+l405_f1+l968_f2+l998_f1, l405_f2+l969_f2+l999_f1, l406_f1+l970_f2+l1000_f1, l406_f2+l407_f1+l971_f2+l1001_f1, l407_f2+l408_f1+l972_f2+l1002_f1, l408_f2+l409_f1+l973_f2+l1003_f1, l409_f2+l410_f1+l974_f2+l1004_f1, l410_f2+l411_f1+l975_f2+l1005_f1, l411_f2+l412_f1+l976_f2+l1006_f1, l412_f2+l413_f1+l977_f2+l1007_f1, l413_f2+l414_f1+l978_f2+l1008_f1, l414_f2+l415_f1+l979_f2+l1009_f1, l415_f2+l416_f1+l980_f2+l1010_f1, l416_f2+l417_f1+l981_f2+l1011_f1, l417_f2+l418_f1+l982_f2+l1012_f1, l418_f2+l419_f1+l983_f2+l1013_f1, l419_f2+l420_f1+l984_f2+l1014_f1, l420_f2+l421_f1+l985_f2+l1015_f1, l421_f2+l422_f1+l986_f2+l1016_f1, l422_f2+l423_f1+l987_f2+l1017_f1, l423_f2+l424_f1+l988_f2+l1018_f1, l424_f2+l425_f1+l989_f2+l1019_f1, l425_f2+l426_f1+l990_f2+l1020_f1, l426_f2+l427_f1+l991_f2+l1021_f1, l427_f2+l428_f1+l992_f2+l1022_f1, l428_f2+l429_f1+l993_f2+l1023_f1, l429_f2+l430_f1+l994_f2+l1024_f1, l430_f2+l431_f1+l995_f2+l1025_f1, l431_f2+l432_f1+l996_f2+l1026_f1, l432_f2+l433_f1+l997_f2+l1027_f1, l433_f2+l434_f1+l998_f2+l1028_f1, l434_f2+l999_f2+l1029_f1, l435_f1+l1000_f2+l1030_f1, l435_f2+l436_f1+l1001_f2+l1031_f1, l436_f2+l437_f1+l1002_f2+l1032_f1, l437_f2+l438_f1+l1003_f2+l1033_f1, l438_f2+l439_f1+l1004_f2+l1034_f1, l439_f2+l440_f1+l1005_f2+l1035_f1, l440_f2+l441_f1+l1006_f2+l1036_f1, l441_f2+l442_f1+l1007_f2+l1037_f1, l442_f2+l443_f1+l1008_f2+l1038_f1, l443_f2+l444_f1+l1009_f2+l1039_f1, l444_f2+l445_f1+l1010_f2+l1040_f1, l445_f2+l446_f1+l1011_f2+l1041_f1, l446_f2+l447_f1+l1012_f2+l1042_f1, l447_f2+l448_f1+l1013_f2+l1043_f1, l448_f2+l449_f1+l1014_f2+l1044_f1, l449_f2+l450_f1+l1015_f2+l1045_f1, l450_f2+l451_f1+l1016_f2+l1046_f1, l451_f2+l452_f1+l1017_f2+l1047_f1, l452_f2+l453_f1+l1018_f2+l1048_f1, l453_f2+l454_f1+l1019_f2+l1049_f1, l454_f2+l455_f1+l1020_f2+l1050_f1, l455_f2+l456_f1+l1021_f2+l1051_f1, l456_f2+l457_f1+l1022_f2+l1052_f1, l457_f2+l458_f1+l1023_f2+l1053_f1, l458_f2+l459_f1+l1024_f2+l1054_f1, l459_f2+l460_f1+l1025_f2+l1055_f1, l460_f2+l461_f1+l1026_f2+l1056_f1, l461_f2+l462_f1+l1027_f2+l1057_f1, l462_f2+l463_f1+l1028_f2+l1058_f1, l463_f2+l1029_f2+l1059_f1, l464_f1+l1030_f2+l1060_f1, l464_f2+l465_f1+l1031_f2+l1061_f1, l465_f2+l466_f1+l1032_f2+l1062_f1, l466_f2+l467_f1+l1033_f2+l1063_f1, l467_f2+l468_f1+l1034_f2+l1064_f1, l468_f2+l469_f1+l1035_f2+l1065_f1, l469_f2+l470_f1+l1036_f2+l1066_f1, l470_f2+l471_f1+l1037_f2+l1067_f1, l471_f2+l472_f1+l1038_f2+l1068_f1, l472_f2+l473_f1+l1039_f2+l1069_f1, l473_f2+l474_f1+l1040_f2+l1070_f1, l474_f2+l475_f1+l1041_f2+l1071_f1, l475_f2+l476_f1+l1042_f2+l1072_f1, l476_f2+l477_f1+l1043_f2+l1073_f1, l477_f2+l478_f1+l1044_f2+l1074_f1, l478_f2+l479_f1+l1045_f2+l1075_f1, l479_f2+l480_f1+l1046_f2+l1076_f1, l480_f2+l481_f1+l1047_f2+l1077_f1, l481_f2+l482_f1+l1048_f2+l1078_f1, l482_f2+l483_f1+l1049_f2+l1079_f1, l483_f2+l484_f1+l1050_f2+l1080_f1, l484_f2+l485_f1+l1051_f2+l1081_f1, l485_f2+l486_f1+l1052_f2+l1082_f1, l486_f2+l487_f1+l1053_f2+l1083_f1, l487_f2+l488_f1+l1054_f2+l1084_f1, l488_f2+l489_f1+l1055_f2+l1085_f1, l489_f2+l490_f1+l1056_f2+l1086_f1, l490_f2+l491_f1+l1057_f2+l1087_f1, l491_f2+l492_f1+l1058_f2+l1088_f1, l492_f2+l1059_f2+l1089_f1, l493_f1+l1060_f2+l1090_f1, l493_f2+l494_f1+l1061_f2+l1091_f1, l494_f2+l495_f1+l1062_f2+l1092_f1, l495_f2+l496_f1+l1063_f2+l1093_f1, l496_f2+l497_f1+l1064_f2+l1094_f1, l497_f2+l498_f1+l1065_f2+l1095_f1, l498_f2+l499_f1+l1066_f2+l1096_f1, l499_f2+l500_f1+l1067_f2+l1097_f1, l500_f2+l501_f1+l1068_f2+l1098_f1, l501_f2+l502_f1+l1069_f2+l1099_f1, l502_f2+l503_f1+l1070_f2+l1100_f1, l503_f2+l504_f1+l1071_f2+l1101_f1, l504_f2+l505_f1+l1072_f2+l1102_f1, l505_f2+l506_f1+l1073_f2+l1103_f1, l506_f2+l507_f1+l1074_f2+l1104_f1, l507_f2+l508_f1+l1075_f2+l1105_f1, l508_f2+l509_f1+l1076_f2+l1106_f1, l509_f2+l510_f1+l1077_f2+l1107_f1, l510_f2+l511_f1+l1078_f2+l1108_f1, l511_f2+l512_f1+l1079_f2+l1109_f1, l512_f2+l513_f1+l1080_f2+l1110_f1, l513_f2+l514_f1+l1081_f2+l1111_f1, l514_f2+l515_f1+l1082_f2+l1112_f1, l515_f2+l516_f1+l1083_f2+l1113_f1, l516_f2+l517_f1+l1084_f2+l1114_f1, l517_f2+l518_f1+l1085_f2+l1115_f1, l518_f2+l519_f1+l1086_f2+l1116_f1, l519_f2+l520_f1+l1087_f2+l1117_f1, l520_f2+l521_f1+l1088_f2+l1118_f1, l521_f2+l1089_f2+l1119_f1, l522_f1+l1090_f2+l1120_f1, l522_f2+l523_f1+l1091_f2+l1121_f1, l523_f2+l524_f1+l1092_f2+l1122_f1, l524_f2+l525_f1+l1093_f2+l1123_f1, l525_f2+l526_f1+l1094_f2+l1124_f1, l526_f2+l527_f1+l1095_f2+l1125_f1, l527_f2+l528_f1+l1096_f2+l1126_f1, l528_f2+l529_f1+l1097_f2+l1127_f1, l529_f2+l530_f1+l1098_f2+l1128_f1, l530_f2+l531_f1+l1099_f2+l1129_f1, l531_f2+l532_f1+l1100_f2+l1130_f1, l532_f2+l533_f1+l1101_f2+l1131_f1, l533_f2+l534_f1+l1102_f2+l1132_f1, l534_f2+l535_f1+l1103_f2+l1133_f1, l535_f2+l536_f1+l1104_f2+l1134_f1, l536_f2+l537_f1+l1105_f2+l1135_f1, l537_f2+l538_f1+l1106_f2+l1136_f1, l538_f2+l539_f1+l1107_f2+l1137_f1, l539_f2+l540_f1+l1108_f2+l1138_f1, l540_f2+l541_f1+l1109_f2+l1139_f1, l541_f2+l542_f1+l1110_f2+l1140_f1, l542_f2+l543_f1+l1111_f2+l1141_f1, l543_f2+l544_f1+l1112_f2+l1142_f1, l544_f2+l545_f1+l1113_f2+l1143_f1, l545_f2+l546_f1+l1114_f2+l1144_f1, l546_f2+l547_f1+l1115_f2+l1145_f1, l547_f2+l548_f1+l1116_f2+l1146_f1, l548_f2+l549_f1+l1117_f2+l1147_f1, l549_f2+l550_f1+l1118_f2+l1148_f1, l550_f2+l1119_f2+l1149_f1, l551_f1+l1120_f2, l551_f2+l552_f1+l1121_f2, l552_f2+l553_f1+l1122_f2, l553_f2+l554_f1+l1123_f2, l554_f2+l555_f1+l1124_f2, l555_f2+l556_f1+l1125_f2, l556_f2+l557_f1+l1126_f2, l557_f2+l558_f1+l1127_f2, l558_f2+l559_f1+l1128_f2, l559_f2+l560_f1+l1129_f2, l560_f2+l561_f1+l1130_f2, l561_f2+l562_f1+l1131_f2, l562_f2+l563_f1+l1132_f2, l563_f2+l564_f1+l1133_f2, l564_f2+l565_f1+l1134_f2, l565_f2+l566_f1+l1135_f2, l566_f2+l567_f1+l1136_f2, l567_f2+l568_f1+l1137_f2, l568_f2+l569_f1+l1138_f2, l569_f2+l570_f1+l1139_f2, l570_f2+l571_f1+l1140_f2, l571_f2+l572_f1+l1141_f2, l572_f2+l573_f1+l1142_f2, l573_f2+l574_f1+l1143_f2, l574_f2+l575_f1+l1144_f2, l575_f2+l576_f1+l1145_f2, l576_f2+l577_f1+l1146_f2, l577_f2+l578_f1+l1147_f2, l578_f2+l579_f1+l1148_f2; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328,m329,m330,m331,m332,m333,m334,m335,m336,m337,m338,m339,m340,m341,m342,m343,m344,m345,m346,m347,m348,m349,m350,m351,m352,m353,m354,m355,m356,m357,m358,m359,m360,m361,m362,m363,m364,m365,m366,m367,m368,m369,m370,m371,m372,m373,m374,m375,m376,m377,m378,m379,m380,m381,m382,m383,m384,m385,m386,m387,m388,m389,m390,m391,m392,m393,m394,m395,m396,m397,m398,m399,m400,m401,m402,m403,m404,m405,m406,m407,m408,m409,m410,m411,m412,m413,m414,m415,m416,m417,m418,m419,m420,m421,m422,m423,m424,m425,m426,m427,m428,m429,m430,m431,m432,m433,m434,m435,m436,m437,m438,m439,m440,m441,m442,m443,m444,m445,m446,m447,m448,m449,m450,m451,m452,m453,m454,m455,m456,m457,m458,m459,m460,m461,m462,m463,m464,m465,m466,m467,m468,m469,m470,m471,m472,m473,m474,m475,m476,m477,m478,m479,m480,m481,m482,m483,m484,m485,m486,m487,m488,m489,m490,m491,m492,m493,m494,m495,m496,m497,m498,m499,m500,m501,m502,m503,m504,m505,m506,m507,m508,m509,m510,m511,m512,m513,m514,m515,m516,m517,m518,m519,m520,m521,m522,m523,m524,m525,m526,m527,m528,m529,m530,m531,m532,m533,m534,m535,m536,m537,m538,m539,m540,m541,m542,m543,m544,m545,m546,m547,m548,m549,m550,m551,m552,m553,m554,m555,m556,m557,m558,m559,m560,m561,m562,m563,m564,m565,m566,m567,m568,m569,m570,m571,m572,m573,m574,m575,m576,m577,m578,m579,m580,m581,m582,m583,m584,m585,m586,m587,m588,m589,m590,m591,m592,m593,m594,m595,m596,m597,m598,m599) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m151, m152, m152, m153, m153, m154, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m171, m172, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m188, m189, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m204, m205, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m219, m220, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m233, m234, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m246, m247, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m258, m259, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m269, m270, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m279, m280, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m288, m289, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m296, m297, m297, m298, m298, m299, m299, m300, m301, m302, m302, m303, m303, m304, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m309, m310, m310, m311, m311, m312, m312, m313, m313, m314, m314, m315, m315, m316, m316, m317, m317, m318, m318, m319, m319, m320, m320, m321, m321, m322, m322, m323, m323, m324, m324, m325, m325, m326, m326, m327, m327, m328, m328, m329, m329, m330, m331, m332, m332, m333, m333, m334, m334, m335, m335, m336, m336, m337, m337, m338, m338, m339, m339, m340, m340, m341, m341, m342, m342, m343, m343, m344, m344, m345, m345, m346, m346, m347, m347, m348, m348, m349, m349, m350, m350, m351, m351, m352, m352, m353, m353, m354, m354, m355, m355, m356, m356, m357, m357, m358, m358, m359, m359, m360, m361, m362, m362, 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spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), spring(mesh_K,mesh_Z, 0., 0.), par(i, 2,_) )~par(i, 2300, _): par(i, 2300,!), par(i, 2, _) with{ RoutingLinkToMass(l0_f1,l0_f2,l1_f1,l1_f2,l2_f1,l2_f2,l3_f1,l3_f2,l4_f1,l4_f2,l5_f1,l5_f2,l6_f1,l6_f2,l7_f1,l7_f2,l8_f1,l8_f2,l9_f1,l9_f2,l10_f1,l10_f2,l11_f1,l11_f2,l12_f1,l12_f2,l13_f1,l13_f2,l14_f1,l14_f2,l15_f1,l15_f2,l16_f1,l16_f2,l17_f1,l17_f2,l18_f1,l18_f2,l19_f1,l19_f2,l20_f1,l20_f2,l21_f1,l21_f2,l22_f1,l22_f2,l23_f1,l23_f2,l24_f1,l24_f2,l25_f1,l25_f2,l26_f1,l26_f2,l27_f1,l27_f2,l28_f1,l28_f2,l29_f1,l29_f2,l30_f1,l30_f2,l31_f1,l31_f2,l32_f1,l32_f2,l33_f1,l33_f2,l34_f1,l34_f2,l35_f1,l35_f2,l36_f1,l36_f2,l37_f1,l37_f2,l38_f1,l38_f2,l39_f1,l39_f2,l40_f1,l40_f2,l41_f1,l41_f2,l42_f1,l42_f2,l43_f1,l43_f2,l44_f1,l44_f2,l45_f1,l45_f2,l46_f1,l46_f2,l47_f1,l47_f2,l48_f1,l48_f2,l49_f1,l49_f2,l50_f1,l50_f2,l51_f1,l51_f2,l52_f1,l52_f2,l53_f1,l53_f2,l54_f1,l54_f2,l55_f1,l55_f2,l56_f1,l56_f2,l57_f1,l57_f2,l58_f1,l58_f2,l59_f1,l59_f2,l60_f1,l60_f2,l61_f1,l61_f2,l62_f1,l62_f2,l63_f1,l63_f2,l64_f1,l64_f2,l65_f1,l65_f2,l66_f1,l66_f2,l67_f1,l67_f2,l68_f1,l68_f2,l69_f1,l69_f2,l70_f1,l70_f2,l71_f1,l71_f2,l72_f1,l72_f2,l73_f1,l73_f2,l74_f1,l74_f2,l75_f1,l75_f2,l76_f1,l76_f2,l77_f1,l77_f2,l78_f1,l78_f2,l79_f1,l79_f2,l80_f1,l80_f2,l81_f1,l81_f2,l82_f1,l82_f2,l83_f1,l83_f2,l84_f1,l84_f2,l85_f1,l85_f2,l86_f1,l86_f2,l87_f1,l87_f2,l88_f1,l88_f2,l89_f1,l89_f2,l90_f1,l90_f2,l91_f1,l91_f2,l92_f1,l92_f2,l93_f1,l93_f2,l94_f1,l94_f2,l95_f1,l95_f2,l96_f1,l96_f2,l97_f1,l97_f2,l98_f1,l98_f2,l99_f1,l99_f2,l100_f1,l100_f2,l101_f1,l101_f2,l102_f1,l102_f2,l103_f1,l103_f2,l104_f1,l104_f2,l105_f1,l105_f2,l106_f1,l106_f2,l107_f1,l107_f2,l108_f1,l108_f2,l109_f1,l109_f2,l110_f1,l110_f2,l111_f1,l111_f2,l112_f1,l112_f2,l113_f1,l113_f2,l114_f1,l114_f2,l115_f1,l115_f2,l116_f1,l116_f2,l117_f1,l117_f2,l118_f1,l118_f2,l119_f1,l119_f2,l120_f1,l120_f2,l121_f1,l121_f2,l122_f1,l122_f2,l123_f1,l123_f2,l124_f1,l124_f2,l125_f1,l125_f2,l126_f1,l126_f2,l127_f1,l127_f2,l128_f1,l128_f2,l129_f1,l129_f2,l130_f1,l130_f2,l131_f1,l131_f2,l132_f1,l132_f2,l133_f1,l133_f2,l134_f1,l134_f2,l135_f1,l135_f2,l136_f1,l136_f2,l137_f1,l137_f2,l138_f1,l138_f2,l139_f1,l139_f2,l140_f1,l140_f2,l141_f1,l141_f2,l142_f1,l142_f2,l143_f1,l143_f2,l144_f1,l144_f2,l145_f1,l145_f2,l146_f1,l146_f2,l147_f1,l147_f2,l148_f1,l148_f2,l149_f1,l149_f2,l150_f1,l150_f2,l151_f1,l151_f2,l152_f1,l152_f2,l153_f1,l153_f2,l154_f1,l154_f2,l155_f1,l155_f2,l156_f1,l156_f2,l157_f1,l157_f2,l158_f1,l158_f2,l159_f1,l159_f2,l160_f1,l160_f2,l161_f1,l161_f2,l162_f1,l162_f2,l163_f1,l163_f2,l164_f1,l164_f2,l165_f1,l165_f2,l166_f1,l166_f2,l167_f1,l167_f2,l168_f1,l168_f2,l169_f1,l169_f2,l170_f1,l170_f2,l171_f1,l171_f2,l172_f1,l172_f2,l173_f1,l173_f2,l174_f1,l174_f2,l175_f1,l175_f2,l176_f1,l176_f2,l177_f1,l177_f2,l178_f1,l178_f2,l179_f1,l179_f2,l180_f1,l180_f2,l181_f1,l181_f2,l182_f1,l182_f2,l183_f1,l183_f2,l184_f1,l184_f2,l185_f1,l185_f2,l186_f1,l186_f2,l187_f1,l187_f2,l188_f1,l188_f2,l189_f1,l189_f2,l190_f1,l190_f2,l191_f1,l191_f2,l192_f1,l192_f2,l193_f1,l193_f2,l194_f1,l194_f2,l195_f1,l195_f2,l196_f1,l196_f2,l197_f1,l197_f2,l198_f1,l198_f2,l199_f1,l199_f2,l200_f1,l200_f2,l201_f1,l201_f2,l202_f1,l202_f2,l203_f1,l203_f2,l204_f1,l204_f2,l205_f1,l205_f2,l206_f1,l206_f2,l207_f1,l207_f2,l208_f1,l208_f2,l209_f1,l209_f2,l210_f1,l210_f2,l211_f1,l211_f2,l212_f1,l212_f2,l213_f1,l213_f2,l214_f1,l214_f2,l215_f1,l215_f2,l216_f1,l216_f2,l217_f1,l217_f2,l218_f1,l218_f2,l219_f1,l219_f2,l220_f1,l220_f2,l221_f1,l221_f2,l222_f1,l222_f2,l223_f1,l223_f2,l224_f1,l224_f2,l225_f1,l225_f2,l226_f1,l226_f2,l227_f1,l227_f2,l228_f1,l228_f2,l229_f1,l229_f2,l230_f1,l230_f2,l231_f1,l231_f2,l232_f1,l232_f2,l233_f1,l233_f2,l234_f1,l234_f2,l235_f1,l235_f2,l236_f1,l236_f2,l237_f1,l237_f2,l238_f1,l238_f2,l239_f1,l239_f2,l240_f1,l240_f2,l241_f1,l241_f2,l242_f1,l242_f2,l243_f1,l243_f2,l244_f1,l244_f2,l245_f1,l245_f2,l246_f1,l246_f2,l247_f1,l247_f2,l248_f1,l248_f2,l249_f1,l249_f2,l250_f1,l250_f2,l251_f1,l251_f2,l252_f1,l252_f2,l253_f1,l253_f2,l254_f1,l254_f2,l255_f1,l255_f2,l256_f1,l256_f2,l257_f1,l257_f2,l258_f1,l258_f2,l259_f1,l259_f2,l260_f1,l260_f2,l261_f1,l261_f2,l262_f1,l262_f2,l263_f1,l263_f2,l264_f1,l264_f2,l265_f1,l265_f2,l266_f1,l266_f2,l267_f1,l267_f2,l268_f1,l268_f2,l269_f1,l269_f2,l270_f1,l270_f2,l271_f1,l271_f2,l272_f1,l272_f2,l273_f1,l273_f2,l274_f1,l274_f2,l275_f1,l275_f2,l276_f1,l276_f2,l277_f1,l277_f2,l278_f1,l278_f2,l279_f1,l279_f2,l280_f1,l280_f2,l281_f1,l281_f2,l282_f1,l282_f2,l283_f1,l283_f2,l284_f1,l284_f2,l285_f1,l285_f2,l286_f1,l286_f2,l287_f1,l287_f2,l288_f1,l288_f2,l289_f1,l289_f2,l290_f1,l290_f2,l291_f1,l291_f2,l292_f1,l292_f2,l293_f1,l293_f2,l294_f1,l294_f2,l295_f1,l295_f2,l296_f1,l296_f2,l297_f1,l297_f2,l298_f1,l298_f2,l299_f1,l299_f2,l300_f1,l300_f2,l301_f1,l301_f2,l302_f1,l302_f2,l303_f1,l303_f2,l304_f1,l304_f2,l305_f1,l305_f2,l306_f1,l306_f2,l307_f1,l307_f2,l308_f1,l308_f2,l309_f1,l309_f2,l310_f1,l310_f2,l311_f1,l311_f2,l312_f1,l312_f2,l313_f1,l313_f2,l314_f1,l314_f2,l315_f1,l315_f2,l316_f1,l316_f2,l317_f1,l317_f2,l318_f1,l318_f2,l319_f1,l319_f2,l320_f1,l320_f2,l321_f1,l321_f2,l322_f1,l322_f2,l323_f1,l323_f2,l324_f1,l324_f2,l325_f1,l325_f2,l326_f1,l326_f2,l327_f1,l327_f2,l328_f1,l328_f2,l329_f1,l329_f2,l330_f1,l330_f2,l331_f1,l331_f2,l332_f1,l332_f2,l333_f1,l333_f2,l334_f1,l334_f2,l335_f1,l335_f2,l336_f1,l336_f2,l337_f1,l337_f2,l338_f1,l338_f2,l339_f1,l339_f2,l340_f1,l340_f2,l341_f1,l341_f2,l342_f1,l342_f2,l343_f1,l343_f2,l344_f1,l344_f2,l345_f1,l345_f2,l346_f1,l346_f2,l347_f1,l347_f2,l348_f1,l348_f2,l349_f1,l349_f2,l350_f1,l350_f2,l351_f1,l351_f2,l352_f1,l352_f2,l353_f1,l353_f2,l354_f1,l354_f2,l355_f1,l355_f2,l356_f1,l356_f2,l357_f1,l357_f2,l358_f1,l358_f2,l359_f1,l359_f2,l360_f1,l360_f2,l361_f1,l361_f2,l362_f1,l362_f2,l363_f1,l363_f2,l364_f1,l364_f2,l365_f1,l365_f2,l366_f1,l366_f2,l367_f1,l367_f2,l368_f1,l368_f2,l369_f1,l369_f2,l370_f1,l370_f2,l371_f1,l371_f2,l372_f1,l372_f2,l373_f1,l373_f2,l374_f1,l374_f2,l375_f1,l375_f2,l376_f1,l376_f2,l377_f1,l377_f2,l378_f1,l378_f2,l379_f1,l379_f2,l380_f1,l380_f2,l381_f1,l381_f2,l382_f1,l382_f2,l383_f1,l383_f2,l384_f1,l384_f2,l385_f1,l385_f2,l386_f1,l386_f2,l387_f1,l387_f2,l388_f1,l388_f2,l389_f1,l389_f2,l390_f1,l390_f2,l391_f1,l391_f2,l392_f1,l392_f2,l393_f1,l393_f2,l394_f1,l394_f2,l395_f1,l395_f2,l396_f1,l396_f2,l397_f1,l397_f2,l398_f1,l398_f2,l399_f1,l399_f2,l400_f1,l400_f2,l401_f1,l401_f2,l402_f1,l402_f2,l403_f1,l403_f2,l404_f1,l404_f2,l405_f1,l405_f2,l406_f1,l406_f2,l407_f1,l407_f2,l408_f1,l408_f2,l409_f1,l409_f2,l410_f1,l410_f2,l411_f1,l411_f2,l412_f1,l412_f2,l413_f1,l413_f2,l414_f1,l414_f2,l415_f1,l415_f2,l416_f1,l416_f2,l417_f1,l417_f2,l418_f1,l418_f2,l419_f1,l419_f2,l420_f1,l420_f2,l421_f1,l421_f2,l422_f1,l422_f2,l423_f1,l423_f2,l424_f1,l424_f2,l425_f1,l425_f2,l426_f1,l426_f2,l427_f1,l427_f2,l428_f1,l428_f2,l429_f1,l429_f2,l430_f1,l430_f2,l431_f1,l431_f2,l432_f1,l432_f2,l433_f1,l433_f2,l434_f1,l434_f2,l435_f1,l435_f2,l436_f1,l436_f2,l437_f1,l437_f2,l438_f1,l438_f2,l439_f1,l439_f2,l440_f1,l440_f2,l441_f1,l441_f2,l442_f1,l442_f2,l443_f1,l443_f2,l444_f1,l444_f2,l445_f1,l445_f2,l446_f1,l446_f2,l447_f1,l447_f2,l448_f1,l448_f2,l449_f1,l449_f2,l450_f1,l450_f2,l451_f1,l451_f2,l452_f1,l452_f2,l453_f1,l453_f2,l454_f1,l454_f2,l455_f1,l455_f2,l456_f1,l456_f2,l457_f1,l457_f2,l458_f1,l458_f2,l459_f1,l459_f2,l460_f1,l460_f2,l461_f1,l461_f2,l462_f1,l462_f2,l463_f1,l463_f2,l464_f1,l464_f2,l465_f1,l465_f2,l466_f1,l466_f2,l467_f1,l467_f2,l468_f1,l468_f2,l469_f1,l469_f2,l470_f1,l470_f2,l471_f1,l471_f2,l472_f1,l472_f2,l473_f1,l473_f2,l474_f1,l474_f2,l475_f1,l475_f2,l476_f1,l476_f2,l477_f1,l477_f2,l478_f1,l478_f2,l479_f1,l479_f2,l480_f1,l480_f2,l481_f1,l481_f2,l482_f1,l482_f2,l483_f1,l483_f2,l484_f1,l484_f2,l485_f1,l485_f2,l486_f1,l486_f2,l487_f1,l487_f2,l488_f1,l488_f2,l489_f1,l489_f2,l490_f1,l490_f2,l491_f1,l491_f2,l492_f1,l492_f2,l493_f1,l493_f2,l494_f1,l494_f2,l495_f1,l495_f2,l496_f1,l496_f2,l497_f1,l497_f2,l498_f1,l498_f2,l499_f1,l499_f2,l500_f1,l500_f2,l501_f1,l501_f2,l502_f1,l502_f2,l503_f1,l503_f2,l504_f1,l504_f2,l505_f1,l505_f2,l506_f1,l506_f2,l507_f1,l507_f2,l508_f1,l508_f2,l509_f1,l509_f2,l510_f1,l510_f2,l511_f1,l511_f2,l512_f1,l512_f2,l513_f1,l513_f2,l514_f1,l514_f2,l515_f1,l515_f2,l516_f1,l516_f2,l517_f1,l517_f2,l518_f1,l518_f2,l519_f1,l519_f2,l520_f1,l520_f2,l521_f1,l521_f2,l522_f1,l522_f2,l523_f1,l523_f2,l524_f1,l524_f2,l525_f1,l525_f2,l526_f1,l526_f2,l527_f1,l527_f2,l528_f1,l528_f2,l529_f1,l529_f2,l530_f1,l530_f2,l531_f1,l531_f2,l532_f1,l532_f2,l533_f1,l533_f2,l534_f1,l534_f2,l535_f1,l535_f2,l536_f1,l536_f2,l537_f1,l537_f2,l538_f1,l538_f2,l539_f1,l539_f2,l540_f1,l540_f2,l541_f1,l541_f2,l542_f1,l542_f2,l543_f1,l543_f2,l544_f1,l544_f2,l545_f1,l545_f2,l546_f1,l546_f2,l547_f1,l547_f2,l548_f1,l548_f2,l549_f1,l549_f2,l550_f1,l550_f2,l551_f1,l551_f2,l552_f1,l552_f2,l553_f1,l553_f2,l554_f1,l554_f2,l555_f1,l555_f2,l556_f1,l556_f2,l557_f1,l557_f2,l558_f1,l558_f2,l559_f1,l559_f2,l560_f1,l560_f2,l561_f1,l561_f2,l562_f1,l562_f2,l563_f1,l563_f2,l564_f1,l564_f2,l565_f1,l565_f2,l566_f1,l566_f2,l567_f1,l567_f2,l568_f1,l568_f2,l569_f1,l569_f2,l570_f1,l570_f2,l571_f1,l571_f2,l572_f1,l572_f2,l573_f1,l573_f2,l574_f1,l574_f2,l575_f1,l575_f2,l576_f1,l576_f2,l577_f1,l577_f2,l578_f1,l578_f2,l579_f1,l579_f2,l580_f1,l580_f2,l581_f1,l581_f2,l582_f1,l582_f2,l583_f1,l583_f2,l584_f1,l584_f2,l585_f1,l585_f2,l586_f1,l586_f2,l587_f1,l587_f2,l588_f1,l588_f2,l589_f1,l589_f2,l590_f1,l590_f2,l591_f1,l591_f2,l592_f1,l592_f2,l593_f1,l593_f2,l594_f1,l594_f2,l595_f1,l595_f2,l596_f1,l596_f2,l597_f1,l597_f2,l598_f1,l598_f2,l599_f1,l599_f2,l600_f1,l600_f2,l601_f1,l601_f2,l602_f1,l602_f2,l603_f1,l603_f2,l604_f1,l604_f2,l605_f1,l605_f2,l606_f1,l606_f2,l607_f1,l607_f2,l608_f1,l608_f2,l609_f1,l609_f2,l610_f1,l610_f2,l611_f1,l611_f2,l612_f1,l612_f2,l613_f1,l613_f2,l614_f1,l614_f2,l615_f1,l615_f2,l616_f1,l616_f2,l617_f1,l617_f2,l618_f1,l618_f2,l619_f1,l619_f2,l620_f1,l620_f2,l621_f1,l621_f2,l622_f1,l622_f2,l623_f1,l623_f2,l624_f1,l624_f2,l625_f1,l625_f2,l626_f1,l626_f2,l627_f1,l627_f2,l628_f1,l628_f2,l629_f1,l629_f2,l630_f1,l630_f2,l631_f1,l631_f2,l632_f1,l632_f2,l633_f1,l633_f2,l634_f1,l634_f2,l635_f1,l635_f2,l636_f1,l636_f2,l637_f1,l6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50_f1,l950_f2,l951_f1,l951_f2,l952_f1,l952_f2,l953_f1,l953_f2,l954_f1,l954_f2,l955_f1,l955_f2,l956_f1,l956_f2,l957_f1,l957_f2,l958_f1,l958_f2,l959_f1,l959_f2,l960_f1,l960_f2,l961_f1,l961_f2,l962_f1,l962_f2,l963_f1,l963_f2,l964_f1,l964_f2,l965_f1,l965_f2,l966_f1,l966_f2,l967_f1,l967_f2,l968_f1,l968_f2,l969_f1,l969_f2,l970_f1,l970_f2,l971_f1,l971_f2,l972_f1,l972_f2,l973_f1,l973_f2,l974_f1,l974_f2,l975_f1,l975_f2,l976_f1,l976_f2,l977_f1,l977_f2,l978_f1,l978_f2,l979_f1,l979_f2,l980_f1,l980_f2,l981_f1,l981_f2,l982_f1,l982_f2,l983_f1,l983_f2,l984_f1,l984_f2,l985_f1,l985_f2,l986_f1,l986_f2,l987_f1,l987_f2,l988_f1,l988_f2,l989_f1,l989_f2,l990_f1,l990_f2,l991_f1,l991_f2,l992_f1,l992_f2,l993_f1,l993_f2,l994_f1,l994_f2,l995_f1,l995_f2,l996_f1,l996_f2,l997_f1,l997_f2,l998_f1,l998_f2,l999_f1,l999_f2,l1000_f1,l1000_f2,l1001_f1,l1001_f2,l1002_f1,l1002_f2,l1003_f1,l1003_f2,l1004_f1,l1004_f2,l1005_f1,l1005_f2,l1006_f1,l1006_f2,l1007_f1,l1007_f2,l1008_f1,l1008_f2,l1009_f1,l1009_f2,l1010_f1,l1010_f2,l1011_f1,l1011_f2,l1012_f1,l1012_f2,l1013_f1,l1013_f2,l1014_f1,l1014_f2,l1015_f1,l1015_f2,l1016_f1,l1016_f2,l1017_f1,l1017_f2,l1018_f1,l1018_f2,l1019_f1,l1019_f2,l1020_f1,l1020_f2,l1021_f1,l1021_f2,l1022_f1,l1022_f2,l1023_f1,l1023_f2,l1024_f1,l1024_f2,l1025_f1,l1025_f2,l1026_f1,l1026_f2,l1027_f1,l1027_f2,l1028_f1,l1028_f2,l1029_f1,l1029_f2,l1030_f1,l1030_f2,l1031_f1,l1031_f2,l1032_f1,l1032_f2,l1033_f1,l1033_f2,l1034_f1,l1034_f2,l1035_f1,l1035_f2,l1036_f1,l1036_f2,l1037_f1,l1037_f2,l1038_f1,l1038_f2,l1039_f1,l1039_f2,l1040_f1,l1040_f2,l1041_f1,l1041_f2,l1042_f1,l1042_f2,l1043_f1,l1043_f2,l1044_f1,l1044_f2,l1045_f1,l1045_f2,l1046_f1,l1046_f2,l1047_f1,l1047_f2,l1048_f1,l1048_f2,l1049_f1,l1049_f2,l1050_f1,l1050_f2,l1051_f1,l1051_f2,l1052_f1,l1052_f2,l1053_f1,l1053_f2,l1054_f1,l1054_f2,l1055_f1,l1055_f2,l1056_f1,l1056_f2,l1057_f1,l1057_f2,l1058_f1,l1058_f2,l1059_f1,l1059_f2,l1060_f1,l1060_f2,l1061_f1,l1061_f2,l1062_f1,l1062_f2,l1063_f1,l1063_f2,l1064_f1,l1064_f2,l1065_f1,l1065_f2,l1066_f1,l1066_f2,l1067_f1,l1067_f2,l1068_f1,l1068_f2,l1069_f1,l1069_f2,l1070_f1,l1070_f2,l1071_f1,l1071_f2,l1072_f1,l1072_f2,l1073_f1,l1073_f2,l1074_f1,l1074_f2,l1075_f1,l1075_f2,l1076_f1,l1076_f2,l1077_f1,l1077_f2,l1078_f1,l1078_f2,l1079_f1,l1079_f2,l1080_f1,l1080_f2,l1081_f1,l1081_f2,l1082_f1,l1082_f2,l1083_f1,l1083_f2,l1084_f1,l1084_f2,l1085_f1,l1085_f2,l1086_f1,l1086_f2,l1087_f1,l1087_f2,l1088_f1,l1088_f2,l1089_f1,l1089_f2,l1090_f1,l1090_f2,l1091_f1,l1091_f2,l1092_f1,l1092_f2,l1093_f1,l1093_f2,l1094_f1,l1094_f2,l1095_f1,l1095_f2,l1096_f1,l1096_f2,l1097_f1,l1097_f2,l1098_f1,l1098_f2,l1099_f1,l1099_f2,l1100_f1,l1100_f2,l1101_f1,l1101_f2,l1102_f1,l1102_f2,l1103_f1,l1103_f2,l1104_f1,l1104_f2,l1105_f1,l1105_f2,l1106_f1,l1106_f2,l1107_f1,l1107_f2,l1108_f1,l1108_f2,l1109_f1,l1109_f2,l1110_f1,l1110_f2,l1111_f1,l1111_f2,l1112_f1,l1112_f2,l1113_f1,l1113_f2,l1114_f1,l1114_f2,l1115_f1,l1115_f2,l1116_f1,l1116_f2,l1117_f1,l1117_f2,l1118_f1,l1118_f2,l1119_f1,l1119_f2,l1120_f1,l1120_f2,l1121_f1,l1121_f2,l1122_f1,l1122_f2,l1123_f1,l1123_f2,l1124_f1,l1124_f2,l1125_f1,l1125_f2,l1126_f1,l1126_f2,l1127_f1,l1127_f2,l1128_f1,l1128_f2,l1129_f1,l1129_f2,l1130_f1,l1130_f2,l1131_f1,l1131_f2,l1132_f1,l1132_f2,l1133_f1,l1133_f2,l1134_f1,l1134_f2,l1135_f1,l1135_f2,l1136_f1,l1136_f2,l1137_f1,l1137_f2,l1138_f1,l1138_f2,l1139_f1,l1139_f2,l1140_f1,l1140_f2,l1141_f1,l1141_f2,l1142_f1,l1142_f2,l1143_f1,l1143_f2,l1144_f1,l1144_f2,l1145_f1,l1145_f2,l1146_f1,l1146_f2,l1147_f1,l1147_f2,l1148_f1,l1148_f2,l1149_f1,l1149_f2, f_in1) = l0_f1+l580_f1, l579_f2+l1149_f2, l0_f2+l1_f1+l581_f1, l1_f2+l2_f1+l582_f1, l2_f2+l3_f1+l583_f1, l3_f2+l4_f1+l584_f1, l4_f2+l5_f1+l585_f1, l5_f2+l6_f1+l586_f1, l6_f2+l7_f1+l587_f1, l7_f2+l8_f1+l588_f1, l8_f2+l9_f1+l589_f1, l9_f2+l10_f1+l590_f1, l10_f2+l11_f1+l591_f1, l11_f2+l12_f1+l592_f1, l12_f2+l13_f1+l593_f1, l13_f2+l14_f1+l594_f1, l14_f2+l15_f1+l595_f1, l15_f2+l16_f1+l596_f1, l16_f2+l17_f1+l597_f1, l17_f2+l18_f1+l598_f1, l18_f2+l19_f1+l599_f1, l19_f2+l20_f1+l600_f1, l20_f2+l21_f1+l601_f1, l21_f2+l22_f1+l602_f1, l22_f2+l23_f1+l603_f1, l23_f2+l24_f1+l604_f1, l24_f2+l25_f1+l605_f1, l25_f2+l26_f1+l606_f1, l26_f2+l27_f1+l607_f1, l27_f2+l28_f1+l608_f1, l28_f2+l609_f1, l29_f1+l580_f2+l610_f1, l29_f2+l30_f1+l581_f2+l611_f1, l30_f2+l31_f1+l582_f2+l612_f1, l31_f2+l32_f1+l583_f2+l613_f1, l32_f2+l33_f1+l584_f2+l614_f1, l33_f2+l34_f1+l585_f2+l615_f1, l34_f2+l35_f1+l586_f2+l616_f1, l35_f2+l36_f1+l587_f2+l617_f1, l36_f2+l37_f1+l588_f2+l618_f1, l37_f2+l38_f1+l589_f2+l619_f1, l38_f2+l39_f1+l590_f2+l620_f1, l39_f2+l40_f1+l591_f2+l621_f1, l40_f2+l41_f1+l592_f2+l622_f1, l41_f2+l42_f1+l593_f2+l623_f1, l42_f2+l43_f1+l594_f2+l624_f1, l43_f2+l44_f1+l595_f2+l625_f1, l44_f2+l45_f1+l596_f2+l626_f1, l45_f2+l46_f1+l597_f2+l627_f1, l46_f2+l47_f1+l598_f2+l628_f1, l47_f2+l48_f1+l599_f2+l629_f1, l48_f2+l49_f1+l600_f2+l630_f1, l49_f2+l50_f1+l601_f2+l631_f1, l50_f2+l51_f1+l602_f2+l632_f1, l51_f2+l52_f1+l603_f2+l633_f1, l52_f2+l53_f1+l604_f2+l634_f1, l53_f2+l54_f1+l605_f2+l635_f1, l54_f2+l55_f1+l606_f2+l636_f1, l55_f2+l56_f1+l607_f2+l637_f1, l56_f2+l57_f1+l608_f2+l638_f1, l57_f2+l609_f2+l639_f1, l58_f1+l610_f2+l640_f1, l58_f2+l59_f1+l611_f2+l641_f1, l59_f2+l60_f1+l612_f2+l642_f1, l60_f2+l61_f1+l613_f2+l643_f1, l61_f2+l62_f1+l614_f2+l644_f1, l62_f2+l63_f1+l615_f2+l645_f1, f_in1+l63_f2+l64_f1+l616_f2+l646_f1, l64_f2+l65_f1+l617_f2+l647_f1, l65_f2+l66_f1+l618_f2+l648_f1, l66_f2+l67_f1+l619_f2+l649_f1, l67_f2+l68_f1+l620_f2+l650_f1, l68_f2+l69_f1+l621_f2+l651_f1, l69_f2+l70_f1+l622_f2+l652_f1, l70_f2+l71_f1+l623_f2+l653_f1, l71_f2+l72_f1+l624_f2+l654_f1, l72_f2+l73_f1+l625_f2+l655_f1, l73_f2+l74_f1+l626_f2+l656_f1, l74_f2+l75_f1+l627_f2+l657_f1, l75_f2+l76_f1+l628_f2+l658_f1, l76_f2+l77_f1+l629_f2+l659_f1, l77_f2+l78_f1+l630_f2+l660_f1, l78_f2+l79_f1+l631_f2+l661_f1, l79_f2+l80_f1+l632_f2+l662_f1, l80_f2+l81_f1+l633_f2+l663_f1, l81_f2+l82_f1+l634_f2+l664_f1, l82_f2+l83_f1+l635_f2+l665_f1, l83_f2+l84_f1+l636_f2+l666_f1, l84_f2+l85_f1+l637_f2+l667_f1, l85_f2+l86_f1+l638_f2+l668_f1, l86_f2+l639_f2+l669_f1, l87_f1+l640_f2+l670_f1, l87_f2+l88_f1+l641_f2+l671_f1, l88_f2+l89_f1+l642_f2+l672_f1, l89_f2+l90_f1+l643_f2+l673_f1, l90_f2+l91_f1+l644_f2+l674_f1, l91_f2+l92_f1+l645_f2+l675_f1, l92_f2+l93_f1+l646_f2+l676_f1, l93_f2+l94_f1+l647_f2+l677_f1, l94_f2+l95_f1+l648_f2+l678_f1, l95_f2+l96_f1+l649_f2+l679_f1, l96_f2+l97_f1+l650_f2+l680_f1, l97_f2+l98_f1+l651_f2+l681_f1, l98_f2+l99_f1+l652_f2+l682_f1, l99_f2+l100_f1+l653_f2+l683_f1, l100_f2+l101_f1+l654_f2+l684_f1, l101_f2+l102_f1+l655_f2+l685_f1, l102_f2+l103_f1+l656_f2+l686_f1, l103_f2+l104_f1+l657_f2+l687_f1, l104_f2+l105_f1+l658_f2+l688_f1, l105_f2+l106_f1+l659_f2+l689_f1, l106_f2+l107_f1+l660_f2+l690_f1, l107_f2+l108_f1+l661_f2+l691_f1, l108_f2+l109_f1+l662_f2+l692_f1, l109_f2+l110_f1+l663_f2+l693_f1, l110_f2+l111_f1+l664_f2+l694_f1, l111_f2+l112_f1+l665_f2+l695_f1, l112_f2+l113_f1+l666_f2+l696_f1, l113_f2+l114_f1+l667_f2+l697_f1, l114_f2+l115_f1+l668_f2+l698_f1, l115_f2+l669_f2+l699_f1, l116_f1+l670_f2+l700_f1, l116_f2+l117_f1+l671_f2+l701_f1, l117_f2+l118_f1+l672_f2+l702_f1, l118_f2+l119_f1+l673_f2+l703_f1, l119_f2+l120_f1+l674_f2+l704_f1, l120_f2+l121_f1+l675_f2+l705_f1, l121_f2+l122_f1+l676_f2+l706_f1, l122_f2+l123_f1+l677_f2+l707_f1, l123_f2+l124_f1+l678_f2+l708_f1, l124_f2+l125_f1+l679_f2+l709_f1, l125_f2+l126_f1+l680_f2+l710_f1, l126_f2+l127_f1+l681_f2+l711_f1, l127_f2+l128_f1+l682_f2+l712_f1, l128_f2+l129_f1+l683_f2+l713_f1, l129_f2+l130_f1+l684_f2+l714_f1, l130_f2+l131_f1+l685_f2+l715_f1, l131_f2+l132_f1+l686_f2+l716_f1, l132_f2+l133_f1+l687_f2+l717_f1, l133_f2+l134_f1+l688_f2+l718_f1, l134_f2+l135_f1+l689_f2+l719_f1, l135_f2+l136_f1+l690_f2+l720_f1, l136_f2+l137_f1+l691_f2+l721_f1, l137_f2+l138_f1+l692_f2+l722_f1, l138_f2+l139_f1+l693_f2+l723_f1, l139_f2+l140_f1+l694_f2+l724_f1, l140_f2+l141_f1+l695_f2+l725_f1, l141_f2+l142_f1+l696_f2+l726_f1, l142_f2+l143_f1+l697_f2+l727_f1, l143_f2+l144_f1+l698_f2+l728_f1, l144_f2+l699_f2+l729_f1, l145_f1+l700_f2+l730_f1, l145_f2+l146_f1+l701_f2+l731_f1, l146_f2+l147_f1+l702_f2+l732_f1, l147_f2+l148_f1+l703_f2+l733_f1, l148_f2+l149_f1+l704_f2+l734_f1, l149_f2+l150_f1+l705_f2+l735_f1, l150_f2+l151_f1+l706_f2+l736_f1, l151_f2+l152_f1+l707_f2+l737_f1, l152_f2+l153_f1+l708_f2+l738_f1, l153_f2+l154_f1+l709_f2+l739_f1, l154_f2+l155_f1+l710_f2+l740_f1, l155_f2+l156_f1+l711_f2+l741_f1, l156_f2+l157_f1+l712_f2+l742_f1, l157_f2+l158_f1+l713_f2+l743_f1, l158_f2+l159_f1+l714_f2+l744_f1, l159_f2+l160_f1+l715_f2+l745_f1, l160_f2+l161_f1+l716_f2+l746_f1, l161_f2+l162_f1+l717_f2+l747_f1, l162_f2+l163_f1+l718_f2+l748_f1, l163_f2+l164_f1+l719_f2+l749_f1, l164_f2+l165_f1+l720_f2+l750_f1, l165_f2+l166_f1+l721_f2+l751_f1, l166_f2+l167_f1+l722_f2+l752_f1, l167_f2+l168_f1+l723_f2+l753_f1, l168_f2+l169_f1+l724_f2+l754_f1, l169_f2+l170_f1+l725_f2+l755_f1, l170_f2+l171_f1+l726_f2+l756_f1, l171_f2+l172_f1+l727_f2+l757_f1, l172_f2+l173_f1+l728_f2+l758_f1, l173_f2+l729_f2+l759_f1, l174_f1+l730_f2+l760_f1, l174_f2+l175_f1+l731_f2+l761_f1, l175_f2+l176_f1+l732_f2+l762_f1, l176_f2+l177_f1+l733_f2+l763_f1, l177_f2+l178_f1+l734_f2+l764_f1, l178_f2+l179_f1+l735_f2+l765_f1, l179_f2+l180_f1+l736_f2+l766_f1, l180_f2+l181_f1+l737_f2+l767_f1, l181_f2+l182_f1+l738_f2+l768_f1, l182_f2+l183_f1+l739_f2+l769_f1, l183_f2+l184_f1+l740_f2+l770_f1, l184_f2+l185_f1+l741_f2+l771_f1, l185_f2+l186_f1+l742_f2+l772_f1, l186_f2+l187_f1+l743_f2+l773_f1, l187_f2+l188_f1+l744_f2+l774_f1, l188_f2+l189_f1+l745_f2+l775_f1, l189_f2+l190_f1+l746_f2+l776_f1, l190_f2+l191_f1+l747_f2+l777_f1, l191_f2+l192_f1+l748_f2+l778_f1, l192_f2+l193_f1+l749_f2+l779_f1, l193_f2+l194_f1+l750_f2+l780_f1, l194_f2+l195_f1+l751_f2+l781_f1, l195_f2+l196_f1+l752_f2+l782_f1, l196_f2+l197_f1+l753_f2+l783_f1, l197_f2+l198_f1+l754_f2+l784_f1, l198_f2+l199_f1+l755_f2+l785_f1, l199_f2+l200_f1+l756_f2+l786_f1, l200_f2+l201_f1+l757_f2+l787_f1, l201_f2+l202_f1+l758_f2+l788_f1, l202_f2+l759_f2+l789_f1, l203_f1+l760_f2+l790_f1, l203_f2+l204_f1+l761_f2+l791_f1, l204_f2+l205_f1+l762_f2+l792_f1, l205_f2+l206_f1+l763_f2+l793_f1, l206_f2+l207_f1+l764_f2+l794_f1, l207_f2+l208_f1+l765_f2+l795_f1, l208_f2+l209_f1+l766_f2+l796_f1, l209_f2+l210_f1+l767_f2+l797_f1, l210_f2+l211_f1+l768_f2+l798_f1, l211_f2+l212_f1+l769_f2+l799_f1, l212_f2+l213_f1+l770_f2+l800_f1, l213_f2+l214_f1+l771_f2+l801_f1, l214_f2+l215_f1+l772_f2+l802_f1, l215_f2+l216_f1+l773_f2+l803_f1, l216_f2+l217_f1+l774_f2+l804_f1, l217_f2+l218_f1+l775_f2+l805_f1, l218_f2+l219_f1+l776_f2+l806_f1, l219_f2+l220_f1+l777_f2+l807_f1, l220_f2+l221_f1+l778_f2+l808_f1, l221_f2+l222_f1+l779_f2+l809_f1, l222_f2+l223_f1+l780_f2+l810_f1, l223_f2+l224_f1+l781_f2+l811_f1, l224_f2+l225_f1+l782_f2+l812_f1, l225_f2+l226_f1+l783_f2+l813_f1, l226_f2+l227_f1+l784_f2+l814_f1, l227_f2+l228_f1+l785_f2+l815_f1, l228_f2+l229_f1+l786_f2+l816_f1, l229_f2+l230_f1+l787_f2+l817_f1, l230_f2+l231_f1+l788_f2+l818_f1, l231_f2+l789_f2+l819_f1, l232_f1+l790_f2+l820_f1, l232_f2+l233_f1+l791_f2+l821_f1, l233_f2+l234_f1+l792_f2+l822_f1, l234_f2+l235_f1+l793_f2+l823_f1, l235_f2+l236_f1+l794_f2+l824_f1, l236_f2+l237_f1+l795_f2+l825_f1, l237_f2+l238_f1+l796_f2+l826_f1, l238_f2+l239_f1+l797_f2+l827_f1, l239_f2+l240_f1+l798_f2+l828_f1, l240_f2+l241_f1+l799_f2+l829_f1, l241_f2+l242_f1+l800_f2+l830_f1, l242_f2+l243_f1+l801_f2+l831_f1, l243_f2+l244_f1+l802_f2+l832_f1, l244_f2+l245_f1+l803_f2+l833_f1, l245_f2+l246_f1+l804_f2+l834_f1, l246_f2+l247_f1+l805_f2+l835_f1, l247_f2+l248_f1+l806_f2+l836_f1, l248_f2+l249_f1+l807_f2+l837_f1, l249_f2+l250_f1+l808_f2+l838_f1, l250_f2+l251_f1+l809_f2+l839_f1, l251_f2+l252_f1+l810_f2+l840_f1, l252_f2+l253_f1+l811_f2+l841_f1, l253_f2+l254_f1+l812_f2+l842_f1, l254_f2+l255_f1+l813_f2+l843_f1, l255_f2+l256_f1+l814_f2+l844_f1, l256_f2+l257_f1+l815_f2+l845_f1, l257_f2+l258_f1+l816_f2+l846_f1, l258_f2+l259_f1+l817_f2+l847_f1, l259_f2+l260_f1+l818_f2+l848_f1, l260_f2+l819_f2+l849_f1, l261_f1+l820_f2+l850_f1, l261_f2+l262_f1+l821_f2+l851_f1, l262_f2+l263_f1+l822_f2+l852_f1, l263_f2+l264_f1+l823_f2+l853_f1, l264_f2+l265_f1+l824_f2+l854_f1, l265_f2+l266_f1+l825_f2+l855_f1, l266_f2+l267_f1+l826_f2+l856_f1, l267_f2+l268_f1+l827_f2+l857_f1, l268_f2+l269_f1+l828_f2+l858_f1, l269_f2+l270_f1+l829_f2+l859_f1, l270_f2+l271_f1+l830_f2+l860_f1, l271_f2+l272_f1+l831_f2+l861_f1, l272_f2+l273_f1+l832_f2+l862_f1, l273_f2+l274_f1+l833_f2+l863_f1, l274_f2+l275_f1+l834_f2+l864_f1, l275_f2+l276_f1+l835_f2+l865_f1, l276_f2+l277_f1+l836_f2+l866_f1, l277_f2+l278_f1+l837_f2+l867_f1, l278_f2+l279_f1+l838_f2+l868_f1, l279_f2+l280_f1+l839_f2+l869_f1, l280_f2+l281_f1+l840_f2+l870_f1, l281_f2+l282_f1+l841_f2+l871_f1, l282_f2+l283_f1+l842_f2+l872_f1, l283_f2+l284_f1+l843_f2+l873_f1, l284_f2+l285_f1+l844_f2+l874_f1, l285_f2+l286_f1+l845_f2+l875_f1, l286_f2+l287_f1+l846_f2+l876_f1, l287_f2+l288_f1+l847_f2+l877_f1, l288_f2+l289_f1+l848_f2+l878_f1, l289_f2+l849_f2+l879_f1, l290_f1+l850_f2+l880_f1, l290_f2+l291_f1+l851_f2+l881_f1, l291_f2+l292_f1+l852_f2+l882_f1, l292_f2+l293_f1+l853_f2+l883_f1, l293_f2+l294_f1+l854_f2+l884_f1, l294_f2+l295_f1+l855_f2+l885_f1, l295_f2+l296_f1+l856_f2+l886_f1, l296_f2+l297_f1+l857_f2+l887_f1, l297_f2+l298_f1+l858_f2+l888_f1, l298_f2+l299_f1+l859_f2+l889_f1, l299_f2+l300_f1+l860_f2+l890_f1, l300_f2+l301_f1+l861_f2+l891_f1, l301_f2+l302_f1+l862_f2+l892_f1, l302_f2+l303_f1+l863_f2+l893_f1, l303_f2+l304_f1+l864_f2+l894_f1, l304_f2+l305_f1+l865_f2+l895_f1, l305_f2+l306_f1+l866_f2+l896_f1, l306_f2+l307_f1+l867_f2+l897_f1, l307_f2+l308_f1+l868_f2+l898_f1, l308_f2+l309_f1+l869_f2+l899_f1, l309_f2+l310_f1+l870_f2+l900_f1, l310_f2+l311_f1+l871_f2+l901_f1, l311_f2+l312_f1+l872_f2+l902_f1, l312_f2+l313_f1+l873_f2+l903_f1, l313_f2+l314_f1+l874_f2+l904_f1, l314_f2+l315_f1+l875_f2+l905_f1, l315_f2+l316_f1+l876_f2+l906_f1, l316_f2+l317_f1+l877_f2+l907_f1, l317_f2+l318_f1+l878_f2+l908_f1, l318_f2+l879_f2+l909_f1, l319_f1+l880_f2+l910_f1, l319_f2+l320_f1+l881_f2+l911_f1, l320_f2+l321_f1+l882_f2+l912_f1, l321_f2+l322_f1+l883_f2+l913_f1, l322_f2+l323_f1+l884_f2+l914_f1, l323_f2+l324_f1+l885_f2+l915_f1, l324_f2+l325_f1+l886_f2+l916_f1, l325_f2+l326_f1+l887_f2+l917_f1, l326_f2+l327_f1+l888_f2+l918_f1, l327_f2+l328_f1+l889_f2+l919_f1, l328_f2+l329_f1+l890_f2+l920_f1, l329_f2+l330_f1+l891_f2+l921_f1, l330_f2+l331_f1+l892_f2+l922_f1, l331_f2+l332_f1+l893_f2+l923_f1, l332_f2+l333_f1+l894_f2+l924_f1, l333_f2+l334_f1+l895_f2+l925_f1, l334_f2+l335_f1+l896_f2+l926_f1, l335_f2+l336_f1+l897_f2+l927_f1, l336_f2+l337_f1+l898_f2+l928_f1, l337_f2+l338_f1+l899_f2+l929_f1, l338_f2+l339_f1+l900_f2+l930_f1, l339_f2+l340_f1+l901_f2+l931_f1, l340_f2+l341_f1+l902_f2+l932_f1, l341_f2+l342_f1+l903_f2+l933_f1, l342_f2+l343_f1+l904_f2+l934_f1, l343_f2+l344_f1+l905_f2+l935_f1, l344_f2+l345_f1+l906_f2+l936_f1, l345_f2+l346_f1+l907_f2+l937_f1, l346_f2+l347_f1+l908_f2+l938_f1, l347_f2+l909_f2+l939_f1, l348_f1+l910_f2+l940_f1, l348_f2+l349_f1+l911_f2+l941_f1, l349_f2+l350_f1+l912_f2+l942_f1, l350_f2+l351_f1+l913_f2+l943_f1, l351_f2+l352_f1+l914_f2+l944_f1, l352_f2+l353_f1+l915_f2+l945_f1, l353_f2+l354_f1+l916_f2+l946_f1, l354_f2+l355_f1+l917_f2+l947_f1, l355_f2+l356_f1+l918_f2+l948_f1, l356_f2+l357_f1+l919_f2+l949_f1, l357_f2+l358_f1+l920_f2+l950_f1, l358_f2+l359_f1+l921_f2+l951_f1, l359_f2+l360_f1+l922_f2+l952_f1, l360_f2+l361_f1+l923_f2+l953_f1, l361_f2+l362_f1+l924_f2+l954_f1, l362_f2+l363_f1+l925_f2+l955_f1, l363_f2+l364_f1+l926_f2+l956_f1, l364_f2+l365_f1+l927_f2+l957_f1, l365_f2+l366_f1+l928_f2+l958_f1, l366_f2+l367_f1+l929_f2+l959_f1, l367_f2+l368_f1+l930_f2+l960_f1, l368_f2+l369_f1+l931_f2+l961_f1, l369_f2+l370_f1+l932_f2+l962_f1, l370_f2+l371_f1+l933_f2+l963_f1, l371_f2+l372_f1+l934_f2+l964_f1, l372_f2+l373_f1+l935_f2+l965_f1, l373_f2+l374_f1+l936_f2+l966_f1, l374_f2+l375_f1+l937_f2+l967_f1, l375_f2+l376_f1+l938_f2+l968_f1, l376_f2+l939_f2+l969_f1, l377_f1+l940_f2+l970_f1, l377_f2+l378_f1+l941_f2+l971_f1, l378_f2+l379_f1+l942_f2+l972_f1, l379_f2+l380_f1+l943_f2+l973_f1, l380_f2+l381_f1+l944_f2+l974_f1, l381_f2+l382_f1+l945_f2+l975_f1, l382_f2+l383_f1+l946_f2+l976_f1, l383_f2+l384_f1+l947_f2+l977_f1, l384_f2+l385_f1+l948_f2+l978_f1, l385_f2+l386_f1+l949_f2+l979_f1, l386_f2+l387_f1+l950_f2+l980_f1, l387_f2+l388_f1+l951_f2+l981_f1, l388_f2+l389_f1+l952_f2+l982_f1, l389_f2+l390_f1+l953_f2+l983_f1, l390_f2+l391_f1+l954_f2+l984_f1, l391_f2+l392_f1+l955_f2+l985_f1, l392_f2+l393_f1+l956_f2+l986_f1, l393_f2+l394_f1+l957_f2+l987_f1, l394_f2+l395_f1+l958_f2+l988_f1, l395_f2+l396_f1+l959_f2+l989_f1, l396_f2+l397_f1+l960_f2+l990_f1, l397_f2+l398_f1+l961_f2+l991_f1, l398_f2+l399_f1+l962_f2+l992_f1, l399_f2+l400_f1+l963_f2+l993_f1, l400_f2+l401_f1+l964_f2+l994_f1, l401_f2+l402_f1+l965_f2+l995_f1, l402_f2+l403_f1+l966_f2+l996_f1, l403_f2+l404_f1+l967_f2+l997_f1, l404_f2+l405_f1+l968_f2+l998_f1, l405_f2+l969_f2+l999_f1, l406_f1+l970_f2+l1000_f1, l406_f2+l407_f1+l971_f2+l1001_f1, l407_f2+l408_f1+l972_f2+l1002_f1, l408_f2+l409_f1+l973_f2+l1003_f1, l409_f2+l410_f1+l974_f2+l1004_f1, l410_f2+l411_f1+l975_f2+l1005_f1, l411_f2+l412_f1+l976_f2+l1006_f1, l412_f2+l413_f1+l977_f2+l1007_f1, l413_f2+l414_f1+l978_f2+l1008_f1, l414_f2+l415_f1+l979_f2+l1009_f1, l415_f2+l416_f1+l980_f2+l1010_f1, l416_f2+l417_f1+l981_f2+l1011_f1, l417_f2+l418_f1+l982_f2+l1012_f1, l418_f2+l419_f1+l983_f2+l1013_f1, l419_f2+l420_f1+l984_f2+l1014_f1, l420_f2+l421_f1+l985_f2+l1015_f1, l421_f2+l422_f1+l986_f2+l1016_f1, l422_f2+l423_f1+l987_f2+l1017_f1, l423_f2+l424_f1+l988_f2+l1018_f1, l424_f2+l425_f1+l989_f2+l1019_f1, l425_f2+l426_f1+l990_f2+l1020_f1, l426_f2+l427_f1+l991_f2+l1021_f1, l427_f2+l428_f1+l992_f2+l1022_f1, l428_f2+l429_f1+l993_f2+l1023_f1, l429_f2+l430_f1+l994_f2+l1024_f1, l430_f2+l431_f1+l995_f2+l1025_f1, l431_f2+l432_f1+l996_f2+l1026_f1, l432_f2+l433_f1+l997_f2+l1027_f1, l433_f2+l434_f1+l998_f2+l1028_f1, l434_f2+l999_f2+l1029_f1, l435_f1+l1000_f2+l1030_f1, l435_f2+l436_f1+l1001_f2+l1031_f1, l436_f2+l437_f1+l1002_f2+l1032_f1, l437_f2+l438_f1+l1003_f2+l1033_f1, l438_f2+l439_f1+l1004_f2+l1034_f1, l439_f2+l440_f1+l1005_f2+l1035_f1, l440_f2+l441_f1+l1006_f2+l1036_f1, l441_f2+l442_f1+l1007_f2+l1037_f1, l442_f2+l443_f1+l1008_f2+l1038_f1, l443_f2+l444_f1+l1009_f2+l1039_f1, l444_f2+l445_f1+l1010_f2+l1040_f1, l445_f2+l446_f1+l1011_f2+l1041_f1, l446_f2+l447_f1+l1012_f2+l1042_f1, l447_f2+l448_f1+l1013_f2+l1043_f1, l448_f2+l449_f1+l1014_f2+l1044_f1, l449_f2+l450_f1+l1015_f2+l1045_f1, l450_f2+l451_f1+l1016_f2+l1046_f1, l451_f2+l452_f1+l1017_f2+l1047_f1, l452_f2+l453_f1+l1018_f2+l1048_f1, l453_f2+l454_f1+l1019_f2+l1049_f1, l454_f2+l455_f1+l1020_f2+l1050_f1, l455_f2+l456_f1+l1021_f2+l1051_f1, l456_f2+l457_f1+l1022_f2+l1052_f1, l457_f2+l458_f1+l1023_f2+l1053_f1, l458_f2+l459_f1+l1024_f2+l1054_f1, l459_f2+l460_f1+l1025_f2+l1055_f1, l460_f2+l461_f1+l1026_f2+l1056_f1, l461_f2+l462_f1+l1027_f2+l1057_f1, l462_f2+l463_f1+l1028_f2+l1058_f1, l463_f2+l1029_f2+l1059_f1, l464_f1+l1030_f2+l1060_f1, l464_f2+l465_f1+l1031_f2+l1061_f1, l465_f2+l466_f1+l1032_f2+l1062_f1, l466_f2+l467_f1+l1033_f2+l1063_f1, l467_f2+l468_f1+l1034_f2+l1064_f1, l468_f2+l469_f1+l1035_f2+l1065_f1, l469_f2+l470_f1+l1036_f2+l1066_f1, l470_f2+l471_f1+l1037_f2+l1067_f1, l471_f2+l472_f1+l1038_f2+l1068_f1, l472_f2+l473_f1+l1039_f2+l1069_f1, l473_f2+l474_f1+l1040_f2+l1070_f1, l474_f2+l475_f1+l1041_f2+l1071_f1, l475_f2+l476_f1+l1042_f2+l1072_f1, l476_f2+l477_f1+l1043_f2+l1073_f1, l477_f2+l478_f1+l1044_f2+l1074_f1, l478_f2+l479_f1+l1045_f2+l1075_f1, l479_f2+l480_f1+l1046_f2+l1076_f1, l480_f2+l481_f1+l1047_f2+l1077_f1, l481_f2+l482_f1+l1048_f2+l1078_f1, l482_f2+l483_f1+l1049_f2+l1079_f1, l483_f2+l484_f1+l1050_f2+l1080_f1, l484_f2+l485_f1+l1051_f2+l1081_f1, l485_f2+l486_f1+l1052_f2+l1082_f1, l486_f2+l487_f1+l1053_f2+l1083_f1, l487_f2+l488_f1+l1054_f2+l1084_f1, l488_f2+l489_f1+l1055_f2+l1085_f1, l489_f2+l490_f1+l1056_f2+l1086_f1, l490_f2+l491_f1+l1057_f2+l1087_f1, l491_f2+l492_f1+l1058_f2+l1088_f1, l492_f2+l1059_f2+l1089_f1, l493_f1+l1060_f2+l1090_f1, l493_f2+l494_f1+l1061_f2+l1091_f1, l494_f2+l495_f1+l1062_f2+l1092_f1, l495_f2+l496_f1+l1063_f2+l1093_f1, l496_f2+l497_f1+l1064_f2+l1094_f1, l497_f2+l498_f1+l1065_f2+l1095_f1, l498_f2+l499_f1+l1066_f2+l1096_f1, l499_f2+l500_f1+l1067_f2+l1097_f1, l500_f2+l501_f1+l1068_f2+l1098_f1, l501_f2+l502_f1+l1069_f2+l1099_f1, l502_f2+l503_f1+l1070_f2+l1100_f1, l503_f2+l504_f1+l1071_f2+l1101_f1, l504_f2+l505_f1+l1072_f2+l1102_f1, l505_f2+l506_f1+l1073_f2+l1103_f1, l506_f2+l507_f1+l1074_f2+l1104_f1, l507_f2+l508_f1+l1075_f2+l1105_f1, l508_f2+l509_f1+l1076_f2+l1106_f1, l509_f2+l510_f1+l1077_f2+l1107_f1, l510_f2+l511_f1+l1078_f2+l1108_f1, l511_f2+l512_f1+l1079_f2+l1109_f1, l512_f2+l513_f1+l1080_f2+l1110_f1, l513_f2+l514_f1+l1081_f2+l1111_f1, l514_f2+l515_f1+l1082_f2+l1112_f1, l515_f2+l516_f1+l1083_f2+l1113_f1, l516_f2+l517_f1+l1084_f2+l1114_f1, l517_f2+l518_f1+l1085_f2+l1115_f1, l518_f2+l519_f1+l1086_f2+l1116_f1, l519_f2+l520_f1+l1087_f2+l1117_f1, l520_f2+l521_f1+l1088_f2+l1118_f1, l521_f2+l1089_f2+l1119_f1, l522_f1+l1090_f2+l1120_f1, l522_f2+l523_f1+l1091_f2+l1121_f1, l523_f2+l524_f1+l1092_f2+l1122_f1, l524_f2+l525_f1+l1093_f2+l1123_f1, l525_f2+l526_f1+l1094_f2+l1124_f1, l526_f2+l527_f1+l1095_f2+l1125_f1, l527_f2+l528_f1+l1096_f2+l1126_f1, l528_f2+l529_f1+l1097_f2+l1127_f1, l529_f2+l530_f1+l1098_f2+l1128_f1, l530_f2+l531_f1+l1099_f2+l1129_f1, l531_f2+l532_f1+l1100_f2+l1130_f1, l532_f2+l533_f1+l1101_f2+l1131_f1, l533_f2+l534_f1+l1102_f2+l1132_f1, l534_f2+l535_f1+l1103_f2+l1133_f1, l535_f2+l536_f1+l1104_f2+l1134_f1, l536_f2+l537_f1+l1105_f2+l1135_f1, l537_f2+l538_f1+l1106_f2+l1136_f1, l538_f2+l539_f1+l1107_f2+l1137_f1, l539_f2+l540_f1+l1108_f2+l1138_f1, l540_f2+l541_f1+l1109_f2+l1139_f1, l541_f2+l542_f1+l1110_f2+l1140_f1, l542_f2+l543_f1+l1111_f2+l1141_f1, l543_f2+l544_f1+l1112_f2+l1142_f1, l544_f2+l545_f1+l1113_f2+l1143_f1, l545_f2+l546_f1+l1114_f2+l1144_f1, l546_f2+l547_f1+l1115_f2+l1145_f1, l547_f2+l548_f1+l1116_f2+l1146_f1, l548_f2+l549_f1+l1117_f2+l1147_f1, l549_f2+l550_f1+l1118_f2+l1148_f1, l550_f2+l1119_f2+l1149_f1, l551_f1+l1120_f2, l551_f2+l552_f1+l1121_f2, l552_f2+l553_f1+l1122_f2, l553_f2+l554_f1+l1123_f2, l554_f2+l555_f1+l1124_f2, l555_f2+l556_f1+l1125_f2, l556_f2+l557_f1+l1126_f2, l557_f2+l558_f1+l1127_f2, l558_f2+l559_f1+l1128_f2, l559_f2+l560_f1+l1129_f2, l560_f2+l561_f1+l1130_f2, l561_f2+l562_f1+l1131_f2, l562_f2+l563_f1+l1132_f2, l563_f2+l564_f1+l1133_f2, l564_f2+l565_f1+l1134_f2, l565_f2+l566_f1+l1135_f2, l566_f2+l567_f1+l1136_f2, l567_f2+l568_f1+l1137_f2, l568_f2+l569_f1+l1138_f2, l569_f2+l570_f1+l1139_f2, l570_f2+l571_f1+l1140_f2, l571_f2+l572_f1+l1141_f2, l572_f2+l573_f1+l1142_f2, l573_f2+l574_f1+l1143_f2, l574_f2+l575_f1+l1144_f2, l575_f2+l576_f1+l1145_f2, l576_f2+l577_f1+l1146_f2, l577_f2+l578_f1+l1147_f2, l578_f2+l579_f1+l1148_f2; RoutingMassToLink(m0,m1,m2,m3,m4,m5,m6,m7,m8,m9,m10,m11,m12,m13,m14,m15,m16,m17,m18,m19,m20,m21,m22,m23,m24,m25,m26,m27,m28,m29,m30,m31,m32,m33,m34,m35,m36,m37,m38,m39,m40,m41,m42,m43,m44,m45,m46,m47,m48,m49,m50,m51,m52,m53,m54,m55,m56,m57,m58,m59,m60,m61,m62,m63,m64,m65,m66,m67,m68,m69,m70,m71,m72,m73,m74,m75,m76,m77,m78,m79,m80,m81,m82,m83,m84,m85,m86,m87,m88,m89,m90,m91,m92,m93,m94,m95,m96,m97,m98,m99,m100,m101,m102,m103,m104,m105,m106,m107,m108,m109,m110,m111,m112,m113,m114,m115,m116,m117,m118,m119,m120,m121,m122,m123,m124,m125,m126,m127,m128,m129,m130,m131,m132,m133,m134,m135,m136,m137,m138,m139,m140,m141,m142,m143,m144,m145,m146,m147,m148,m149,m150,m151,m152,m153,m154,m155,m156,m157,m158,m159,m160,m161,m162,m163,m164,m165,m166,m167,m168,m169,m170,m171,m172,m173,m174,m175,m176,m177,m178,m179,m180,m181,m182,m183,m184,m185,m186,m187,m188,m189,m190,m191,m192,m193,m194,m195,m196,m197,m198,m199,m200,m201,m202,m203,m204,m205,m206,m207,m208,m209,m210,m211,m212,m213,m214,m215,m216,m217,m218,m219,m220,m221,m222,m223,m224,m225,m226,m227,m228,m229,m230,m231,m232,m233,m234,m235,m236,m237,m238,m239,m240,m241,m242,m243,m244,m245,m246,m247,m248,m249,m250,m251,m252,m253,m254,m255,m256,m257,m258,m259,m260,m261,m262,m263,m264,m265,m266,m267,m268,m269,m270,m271,m272,m273,m274,m275,m276,m277,m278,m279,m280,m281,m282,m283,m284,m285,m286,m287,m288,m289,m290,m291,m292,m293,m294,m295,m296,m297,m298,m299,m300,m301,m302,m303,m304,m305,m306,m307,m308,m309,m310,m311,m312,m313,m314,m315,m316,m317,m318,m319,m320,m321,m322,m323,m324,m325,m326,m327,m328,m329,m330,m331,m332,m333,m334,m335,m336,m337,m338,m339,m340,m341,m342,m343,m344,m345,m346,m347,m348,m349,m350,m351,m352,m353,m354,m355,m356,m357,m358,m359,m360,m361,m362,m363,m364,m365,m366,m367,m368,m369,m370,m371,m372,m373,m374,m375,m376,m377,m378,m379,m380,m381,m382,m383,m384,m385,m386,m387,m388,m389,m390,m391,m392,m393,m394,m395,m396,m397,m398,m399,m400,m401,m402,m403,m404,m405,m406,m407,m408,m409,m410,m411,m412,m413,m414,m415,m416,m417,m418,m419,m420,m421,m422,m423,m424,m425,m426,m427,m428,m429,m430,m431,m432,m433,m434,m435,m436,m437,m438,m439,m440,m441,m442,m443,m444,m445,m446,m447,m448,m449,m450,m451,m452,m453,m454,m455,m456,m457,m458,m459,m460,m461,m462,m463,m464,m465,m466,m467,m468,m469,m470,m471,m472,m473,m474,m475,m476,m477,m478,m479,m480,m481,m482,m483,m484,m485,m486,m487,m488,m489,m490,m491,m492,m493,m494,m495,m496,m497,m498,m499,m500,m501,m502,m503,m504,m505,m506,m507,m508,m509,m510,m511,m512,m513,m514,m515,m516,m517,m518,m519,m520,m521,m522,m523,m524,m525,m526,m527,m528,m529,m530,m531,m532,m533,m534,m535,m536,m537,m538,m539,m540,m541,m542,m543,m544,m545,m546,m547,m548,m549,m550,m551,m552,m553,m554,m555,m556,m557,m558,m559,m560,m561,m562,m563,m564,m565,m566,m567,m568,m569,m570,m571,m572,m573,m574,m575,m576,m577,m578,m579,m580,m581,m582,m583,m584,m585,m586,m587,m588,m589,m590,m591,m592,m593,m594,m595,m596,m597,m598,m599) = m0, m2, m2, m3, m3, m4, m4, m5, m5, m6, m6, m7, m7, m8, m8, m9, m9, m10, m10, m11, m11, m12, m12, m13, m13, m14, m14, m15, m15, m16, m16, m17, m17, m18, m18, m19, m19, m20, m20, m21, m21, m22, m22, m23, m23, m24, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m31, m32, m32, m33, m33, m34, m34, m35, m35, m36, m36, m37, m37, m38, m38, m39, m39, m40, m40, m41, m41, m42, m42, m43, m43, m44, m44, m45, m45, m46, m46, m47, m47, m48, m48, m49, m49, m50, m50, m51, m51, m52, m52, m53, m53, m54, m54, m55, m55, m56, m56, m57, m57, m58, m58, m59, m59, m60, m61, m62, m62, m63, m63, m64, m64, m65, m65, m66, m66, m67, m67, m68, m68, m69, m69, m70, m70, m71, m71, m72, m72, m73, m73, m74, m74, m75, m75, m76, m76, m77, m77, m78, m78, m79, m79, m80, m80, m81, m81, m82, m82, m83, m83, m84, m84, m85, m85, m86, m86, m87, m87, m88, m88, m89, m89, m90, m91, m92, m92, m93, m93, m94, m94, m95, m95, m96, m96, m97, m97, m98, m98, m99, m99, m100, m100, m101, m101, m102, m102, m103, m103, m104, m104, m105, m105, m106, m106, m107, m107, m108, m108, m109, m109, m110, m110, m111, m111, m112, m112, m113, m113, m114, m114, m115, m115, m116, m116, m117, m117, m118, m118, m119, m119, m120, m121, m122, m122, m123, m123, m124, m124, m125, m125, m126, m126, m127, m127, m128, m128, m129, m129, m130, m130, m131, m131, m132, m132, m133, m133, m134, m134, m135, m135, m136, m136, m137, m137, m138, m138, m139, m139, m140, m140, m141, m141, m142, m142, m143, m143, m144, m144, m145, m145, m146, m146, m147, m147, m148, m148, m149, m149, m150, m151, m152, m152, m153, m153, m154, m154, m155, m155, m156, m156, m157, m157, m158, m158, m159, m159, m160, m160, m161, m161, m162, m162, m163, m163, m164, m164, m165, m165, m166, m166, m167, m167, m168, m168, m169, m169, m170, m170, m171, m171, m172, m172, m173, m173, m174, m174, m175, m175, m176, m176, m177, m177, m178, m178, m179, m179, m180, m181, m182, m182, m183, m183, m184, m184, m185, m185, m186, m186, m187, m187, m188, m188, m189, m189, m190, m190, m191, m191, m192, m192, m193, m193, m194, m194, m195, m195, m196, m196, m197, m197, m198, m198, m199, m199, m200, m200, m201, m201, m202, m202, m203, m203, m204, m204, m205, m205, m206, m206, m207, m207, m208, m208, m209, m209, m210, m211, m212, m212, m213, m213, m214, m214, m215, m215, m216, m216, m217, m217, m218, m218, m219, m219, m220, m220, m221, m221, m222, m222, m223, m223, m224, m224, m225, m225, m226, m226, m227, m227, m228, m228, m229, m229, m230, m230, m231, m231, m232, m232, m233, m233, m234, m234, m235, m235, m236, m236, m237, m237, m238, m238, m239, m239, m240, m241, m242, m242, m243, m243, m244, m244, m245, m245, m246, m246, m247, m247, m248, m248, m249, m249, m250, m250, m251, m251, m252, m252, m253, m253, m254, m254, m255, m255, m256, m256, m257, m257, m258, m258, m259, m259, m260, m260, m261, m261, m262, m262, m263, m263, m264, m264, m265, m265, m266, m266, m267, m267, m268, m268, m269, m269, m270, m271, m272, m272, m273, m273, m274, m274, m275, m275, m276, m276, m277, m277, m278, m278, m279, m279, m280, m280, m281, m281, m282, m282, m283, m283, m284, m284, m285, m285, m286, m286, m287, m287, m288, m288, m289, m289, m290, m290, m291, m291, m292, m292, m293, m293, m294, m294, m295, m295, m296, m296, m297, m297, m298, m298, m299, m299, m300, m301, m302, m302, m303, m303, m304, m304, m305, m305, m306, m306, m307, m307, m308, m308, m309, m309, m310, m310, m311, m311, m312, m312, m313, m313, m314, m314, m315, m315, m316, m316, m317, m317, m318, m318, m319, m319, m320, m320, m321, m321, m322, m322, m323, m323, m324, m324, m325, m325, m326, m326, m327, m327, m328, m328, m329, m329, m330, m331, m332, m332, m333, m333, m334, m334, m335, m335, m336, m336, m337, m337, m338, m338, m339, m339, m340, m340, m341, m341, m342, m342, m343, m343, m344, m344, m345, m345, m346, m346, m347, m347, m348, m348, m349, m349, m350, m350, m351, m351, m352, m352, m353, m353, m354, m354, m355, m355, m356, m356, m357, m357, m358, m358, m359, m359, m360, m361, m362, m362, 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m533, m563, m534, m564, m535, m565, m536, m566, m537, m567, m538, m568, m539, m569, m540, m570, m541, m571, m542, m572, m543, m573, m544, m574, m545, m575, m546, m576, m547, m577, m548, m578, m549, m579, m550, m580, m551, m581, m552, m582, m553, m583, m554, m584, m555, m585, m556, m586, m557, m587, m558, m588, m559, m589, m560, m590, m561, m591, m562, m592, m563, m593, m564, m594, m565, m595, m566, m596, m567, m597, m568, m598, m569, m599, m570, m1,m574,m111; }; process = in1: model: (OutGain), (OutGain);
a2dbfd43ef0b99953b3f70de8327ede5543a0d4d9263f9862c92e955981d3d9a	TobiasKozel/GuitarD	ParametricEq.dsp	import("stdfaust.lib"); minb = -50; maxb = 30; maxq = 4000; maxf = 20000; minf = 20; highf = vslider("highF", minf, minf, maxf, 1) : si.smooth(0.999); highq = vslider("highQ", 1, 0.1, 5, 0.1) : si.smooth(0.999); peak1 = vslider("peak1", 0, minb, maxb, 1) : si.smooth(0.999); f1 = vslider("f1", 300, minf, maxf, 1) : si.smooth(0.999); q1 = vslider("q1", 300, 0, maxq, 1) : si.smooth(0.999); peak2 = vslider("peak2", 0, minb, maxb, 0.1) : si.smooth(0.999); f2 = vslider("f2", 3000, minf, maxf, 1) : si.smooth(0.999); q2 = vslider("q2", 500, 0, maxq, 1) : si.smooth(0.999); lowf = vslider("lowF", maxf, minf, maxf, 1) : si.smooth(0.999); lowq = vslider("lowQ", 1, 0.1, 5, 0.1) : si.smooth(0.999); eq = fi.resonhp(highf, highq, 1) : fi.peak_eq(peak1, f1, q1) : fi.peak_eq(peak2, f2, q2) : fi.resonlp(lowf, lowq, 1); process = sp.stereoize(eq);	https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/paramerticeq/ParametricEq.dsp	faust		import("stdfaust.lib"); minb = -50; maxb = 30; maxq = 4000; maxf = 20000; minf = 20; highf = vslider("highF", minf, minf, maxf, 1) : si.smooth(0.999); highq = vslider("highQ", 1, 0.1, 5, 0.1) : si.smooth(0.999); peak1 = vslider("peak1", 0, minb, maxb, 1) : si.smooth(0.999); f1 = vslider("f1", 300, minf, maxf, 1) : si.smooth(0.999); q1 = vslider("q1", 300, 0, maxq, 1) : si.smooth(0.999); peak2 = vslider("peak2", 0, minb, maxb, 0.1) : si.smooth(0.999); f2 = vslider("f2", 3000, minf, maxf, 1) : si.smooth(0.999); q2 = vslider("q2", 500, 0, maxq, 1) : si.smooth(0.999); lowf = vslider("lowF", maxf, minf, maxf, 1) : si.smooth(0.999); lowq = vslider("lowQ", 1, 0.1, 5, 0.1) : si.smooth(0.999); eq = fi.resonhp(highf, highq, 1) : fi.peak_eq(peak1, f1, q1) : fi.peak_eq(peak2, f2, q2) : fi.resonlp(lowf, lowq, 1); process = sp.stereoize(eq);
5f3d724ff7cd1b153edb5045f4ff3feb1e72efedaac465a2ca5d3f1e9fc063a5	TobiasKozel/GuitarD	PhaseTool.dsp	import("stdfaust.lib"); maxdelay = 1; samplerate = ma.SR; maxdelaySamples = samplerate * maxdelay; scaleL = vslider("Left", 1, -1, 1, 2) : si.smooth(0.999); scaleR = vslider("Right", 1, -1, 1, 2) : si.smooth(0.999); phaseOffsetFine = vslider("Phase Fine", 0, 0, 0.010, 0.00001) * samplerate : si.smooth(0.999); phaseOffsetRough = vslider("Phase Rough", 0, 0, maxdelay, 0.001) * samplerate : si.smooth(0.999); phaseLROffset = vslider("Left/Right Offset", 0, -1, 1, 0.001) : si.smooth(0.999); scaleIn(in) = (((in * 2) ^ 4) * 0.0625), 0 : max; phaseOffset = (phaseOffsetFine + phaseOffsetRough, maxdelaySamples : min, 0 : max); phaseLOffset = scaleIn((phaseLROffset * -1, 0) : max) * samplerate; phaseROffset = scaleIn((phaseLROffset, 0) : max) * samplerate; scale(l, r) = l * scaleL, r * scaleR; totalOffsetL = phaseOffset + phaseLOffset; totalOffsetR = phaseOffset + phaseROffset; phase(l, r) = (de.fdelay(totalOffsetL, maxdelaySamples * 2, l), l : select2(totalOffsetL < 0.3)), (de.fdelay(totalOffsetR, maxdelaySamples * 2, r), r : select2(totalOffsetR < 0.3)); process = scale : phase;	https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/phasetool/PhaseTool.dsp	faust		import("stdfaust.lib"); maxdelay = 1; samplerate = ma.SR; maxdelaySamples = samplerate * maxdelay; scaleL = vslider("Left", 1, -1, 1, 2) : si.smooth(0.999); scaleR = vslider("Right", 1, -1, 1, 2) : si.smooth(0.999); phaseOffsetFine = vslider("Phase Fine", 0, 0, 0.010, 0.00001) * samplerate : si.smooth(0.999); phaseOffsetRough = vslider("Phase Rough", 0, 0, maxdelay, 0.001) * samplerate : si.smooth(0.999); phaseLROffset = vslider("Left/Right Offset", 0, -1, 1, 0.001) : si.smooth(0.999); scaleIn(in) = (((in * 2) ^ 4) * 0.0625), 0 : max; phaseOffset = (phaseOffsetFine + phaseOffsetRough, maxdelaySamples : min, 0 : max); phaseLOffset = scaleIn((phaseLROffset * -1, 0) : max) * samplerate; phaseROffset = scaleIn((phaseLROffset, 0) : max) * samplerate; scale(l, r) = l * scaleL, r * scaleR; totalOffsetL = phaseOffset + phaseLOffset; totalOffsetR = phaseOffset + phaseROffset; phase(l, r) = (de.fdelay(totalOffsetL, maxdelaySamples * 2, l), l : select2(totalOffsetL < 0.3)), (de.fdelay(totalOffsetR, maxdelaySamples * 2, r), r : select2(totalOffsetR < 0.3)); process = scale : phase;
7b53cd04f01c8082e896fa0154bfd6fc31b99726caa4ab93b202a9ed00d9225a	TobiasKozel/GuitarD	ReverseDelay.dsp	// Stolen from this gist // https://gist.github.com/tomoyanonymous/d527fca58e929de6a021565505589406 // // Tomoya Matsuura (github) tomoyanonymous import("stdfaust.lib"); MAX_DELAY = 48000; phasor_phase(dtime,phase)= ((os.lf_rawsaw(dtime)+phase)% dtime) :int; //phase shift in sample indexphasor(dtime,phase) = phasor_phase(dtime2,phase)<: <=(dtime),((-1)+dtime2),_ : select2; //folded triangle delay_module(dtime,phase) = rwtable(MAX_DELAY,0.0,indexphasor(dtime,phase):int,_,indexphasor(dtime,phase+1):int):window with{ window = ( sin(0.5ma.PI phasor_phase(dtime,phase)/dtime)); };//init have to be 0.0 floating point reversedelay_mono(dtime) = _<:delay_module(dtime,0),delay_module(dtime,dtime/2):>_; reversedelay_pingpong(dtime,spread,fb) = (si.bus(2),pingpong_premix :>reversedelay_mono(dtime),reversedelay_mono(dtime)) ~ distribute with{ distribute = _,_<:(1-spread),(spread),(spread),(1-spread):+,+:fbgain; pingpong_premix = _,_<:_,(spread),(0),(1-spread):>+,+; fbgain = (fb) ,(fbsi.interpolate(spread,1,0.5)); }; reversedelay_pingpong_mix(dtime,spread,fb,mix) = _,_<:_,_,reversedelay_pingpong(dtime,spread,fb):ro.cross2 : si.interpolate(mix),si.interpolate(mix); process =reversedelay_pingpong_mix(hslider("delaytime",20000,0,MAX_DELAY-1,1),hslider("spread",0,0,1,0.001),hslider("fb",0,0,0.9999,0.001),hslider("mix",0,0,1,0.001)); //ping pong effect is little weird, maybe feedback occur when spread is close to 1	https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/reverse_delay/ReverseDelay.dsp	faust	Stolen from this gist https://gist.github.com/tomoyanonymous/d527fca58e929de6a021565505589406 Tomoya Matsuura (github) tomoyanonymous phase shift in sample folded triangle init have to be 0.0 floating point ping pong effect is little weird, maybe feedback occur when spread is close to 1	import("stdfaust.lib"); MAX_DELAY = 48000; delay_module(dtime,phase) = rwtable(MAX_DELAY,0.0,indexphasor(dtime,phase):int,_,indexphasor(dtime,phase+1):int):window with{ window = ( sin(0.5ma.PI* phasor_phase(dtime,phase)/dtime)); reversedelay_mono(dtime) = _<:delay_module(dtime,0),delay_module(dtime,dtime/2):>_; reversedelay_pingpong(dtime,spread,fb) = (si.bus(2),pingpong_premix :>reversedelay_mono(dtime),reversedelay_mono(dtime)) ~ distribute with{ distribute = _,_<:(1-spread),(spread),(spread),(1-spread):+,+:fbgain; pingpong_premix = _,_<:_,(spread),(0),(1-spread):>+,+; fbgain = (fb) ,(fbsi.interpolate(spread,1,0.5)); }; reversedelay_pingpong_mix(dtime,spread,fb,mix) = _,_<:_,_,reversedelay_pingpong(dtime,spread,fb):ro.cross2 : si.interpolate(mix),si.interpolate(mix); process =reversedelay_pingpong_mix(hslider("delaytime",20000,0,MAX_DELAY-1,1),hslider("spread",0,0,1,0.001),hslider("fb",0,0,0.9999,0.001),hslider("mix",0,0,1,0.001));
6e2029ed5b814611361f5d66e0ec5620eab4b61621a4acbea0655a743463a7a5	TobiasKozel/GuitarD	Fuzz.dsp	// TODO replace with own implemenation // generated automatically // DO NOT MODIFY! declare id "fuzzface"; declare name "Fuzz Face"; declare category "Fuzz"; declare description "J Hendrix Fuzz Face simulation"; declare insert_p "clipper"; import("stdfaust.lib"); fuzz = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0)) with { Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; // clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; Level = vslider("Level", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Fuzz(Fuzz(Levelpow(fs,3)(4.76991513499346e-20fs + 5.38351707988916e-15) + pow(fs,3)(-4.76991513499346e-20fs - 5.38351707988916e-15)) + Levelpow(fs,3)(-4.76991513499346e-20fs + 5.00346713698171e-13) + pow(fs,3)(4.76991513499346e-20fs - 5.00346713698171e-13)) + Levelpow(fs,2)(-5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(5.05730339185222e-13fs + 1.16162215422261e-12); b1 = Fuzz(Fuzz(Levelpow(fs,3)(-1.43097454049804e-19fs - 5.38351707988916e-15) + pow(fs,3)(1.43097454049804e-19fs + 5.38351707988916e-15)) + Levelpow(fs,3)(1.43097454049804e-19fs - 5.00346713698171e-13) + pow(fs,3)(-1.43097454049804e-19fs + 5.00346713698171e-13)) + Levelpow(fs,2)(5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(-5.05730339185222e-13fs + 1.16162215422261e-12); b2 = Fuzz(Fuzz(Levelpow(fs,3)(9.53983026998693e-20fs - 1.07670341597783e-14) + pow(fs,3)(-9.53983026998693e-20fs + 1.07670341597783e-14)) + Levelpow(fs,3)(-9.53983026998693e-20fs - 1.00069342739634e-12) + pow(fs,3)(9.53983026998693e-20fs + 1.00069342739634e-12)) + Levelpow(fs,2)(1.01146067837044e-12fs + 2.32324430844522e-12) + pow(fs,2)(-1.01146067837044e-12fs - 2.32324430844522e-12); b3 = Fuzz(Fuzz(Levelpow(fs,3)(9.53983026998693e-20fs + 1.07670341597783e-14) + pow(fs,3)(-9.53983026998693e-20fs - 1.07670341597783e-14)) + Levelpow(fs,3)(-9.53983026998693e-20fs + 1.00069342739634e-12) + pow(fs,3)(9.53983026998693e-20fs - 1.00069342739634e-12)) + Levelpow(fs,2)(-1.01146067837044e-12fs + 2.32324430844522e-12) + pow(fs,2)(1.01146067837044e-12fs - 2.32324430844522e-12); b4 = Fuzz(Fuzz(Levelpow(fs,3)(-1.43097454049804e-19fs + 5.38351707988916e-15) + pow(fs,3)(1.43097454049804e-19fs - 5.38351707988916e-15)) + Levelpow(fs,3)(1.43097454049804e-19fs + 5.00346713698171e-13) + pow(fs,3)(-1.43097454049804e-19fs - 5.00346713698171e-13)) + Levelpow(fs,2)(-5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(5.05730339185222e-13fs + 1.16162215422261e-12); b5 = Fuzz(Fuzz(Levelpow(fs,3)(4.76991513499346e-20fs - 5.38351707988916e-15) + pow(fs,3)(-4.76991513499346e-20fs + 5.38351707988916e-15)) + Levelpow(fs,3)(-4.76991513499346e-20fs - 5.00346713698171e-13) + pow(fs,3)(4.76991513499346e-20fs + 5.00346713698171e-13)) + Levelpow(fs,2)(5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(-5.05730339185222e-13fs + 1.16162215422261e-12); a0 = Fuzz(Fuzzfs(fs(fs(fs(-3.73292075290073e-29fs - 1.05633134620746e-20) - 3.11506369039915e-14) - 2.30719916990074e-11) - 1.07493164710329e-9) + fs(fs(fs(fs(3.73292075290073e-29fs + 1.01643277726662e-20) + 2.91602352831988e-14) + 2.29636966370042e-11) + 1.07449105454163e-9)) + fs(fs(fs(3.98985774247549e-22fs + 1.99042653510896e-15) + 1.83615604104971e-13) + 5.31230624730483e-11) + 2.44402781742033e-9; a1 = Fuzz(Fuzzfs(fs(fs(fs(1.86646037645036e-28fs + 3.16899403862238e-20) + 3.11506369039915e-14) - 2.30719916990074e-11) - 3.22479494130986e-9) + fs(fs(fs(fs(-1.86646037645036e-28fs - 3.04929833179984e-20) - 2.91602352831988e-14) + 2.29636966370042e-11) + 3.22347316362488e-9)) + fs(fs(fs(-1.19695732274265e-21fs - 1.99042653510896e-15) + 1.83615604104971e-13) + 1.59369187419145e-10) + 1.22201390871017e-8; a2 = Fuzz(Fuzzfs(fs(fs(fs(-3.73292075290073e-28fs - 2.11266269241492e-20) + 6.2301273807983e-14) + 4.61439833980148e-11) - 2.14986329420657e-9) + fs(fs(fs(fs(3.73292075290073e-28fs + 2.03286555453323e-20) - 5.83204705663976e-14) - 4.59273932740084e-11) + 2.14898210908325e-9)) + fs(fs(fs(7.97971548495099e-22fs - 3.98085307021793e-15) - 3.67231208209942e-13) + 1.06246124946097e-10) + 2.44402781742033e-8; a3 = Fuzz(Fuzzfs(fs(fs(fs(3.73292075290073e-28fs - 2.11266269241492e-20) - 6.2301273807983e-14) + 4.61439833980148e-11) + 2.14986329420657e-9) + fs(fs(fs(fs(-3.73292075290073e-28fs + 2.03286555453323e-20) + 5.83204705663976e-14) - 4.59273932740084e-11) - 2.14898210908325e-9)) + fs(fs(fs(7.97971548495099e-22fs + 3.98085307021793e-15) - 3.67231208209942e-13) - 1.06246124946097e-10) + 2.44402781742033e-8; a4 = Fuzz(Fuzzfs(fs(fs(fs(-1.86646037645036e-28fs + 3.16899403862238e-20) - 3.11506369039915e-14) - 2.30719916990074e-11) + 3.22479494130986e-9) + fs(fs(fs(fs(1.86646037645036e-28fs - 3.04929833179984e-20) + 2.91602352831988e-14) + 2.29636966370042e-11) - 3.22347316362488e-9)) + fs(fs(fs(-1.19695732274265e-21fs + 1.99042653510896e-15) + 1.83615604104971e-13) - 1.59369187419145e-10) + 1.22201390871017e-8; a5 = Fuzz(Fuzzfs(fs(fs(fs(3.73292075290073e-29fs - 1.05633134620746e-20) + 3.11506369039915e-14) - 2.30719916990074e-11) + 1.07493164710329e-9) + fs(fs(fs(fs(-3.73292075290073e-29fs + 1.01643277726662e-20) - 2.91602352831988e-14) + 2.29636966370042e-11) - 1.07449105454163e-9)) + fs(fs(fs(3.98985774247549e-22fs - 1.99042653510896e-15) + 1.83615604104971e-13) - 5.31230624730483e-11) + 2.44402781742033e-9; }; process = sp.stereoize(fuzz);	https://raw.githubusercontent.com/TobiasKozel/GuitarD/80d5b8e6fa2eab99bbee80e6dacb5f0f482bbb52/src/nodes/fuzz/Fuzz.dsp	faust	TODO replace with own implemenation generated automatically DO NOT MODIFY! clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ;	declare id "fuzzface"; declare name "Fuzz Face"; declare category "Fuzz"; declare description "J Hendrix Fuzz Face simulation"; declare insert_p "clipper"; import("stdfaust.lib"); fuzz = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0)) with { Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Level = vslider("Level", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Fuzz(Fuzz(Levelpow(fs,3)(4.76991513499346e-20fs + 5.38351707988916e-15) + pow(fs,3)(-4.76991513499346e-20fs - 5.38351707988916e-15)) + Levelpow(fs,3)(-4.76991513499346e-20fs + 5.00346713698171e-13) + pow(fs,3)(4.76991513499346e-20fs - 5.00346713698171e-13)) + Levelpow(fs,2)(-5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(5.05730339185222e-13fs + 1.16162215422261e-12); b1 = Fuzz(Fuzz(Levelpow(fs,3)(-1.43097454049804e-19fs - 5.38351707988916e-15) + pow(fs,3)(1.43097454049804e-19fs + 5.38351707988916e-15)) + Levelpow(fs,3)(1.43097454049804e-19fs - 5.00346713698171e-13) + pow(fs,3)(-1.43097454049804e-19fs + 5.00346713698171e-13)) + Levelpow(fs,2)(5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(-5.05730339185222e-13fs + 1.16162215422261e-12); b2 = Fuzz(Fuzz(Levelpow(fs,3)(9.53983026998693e-20fs - 1.07670341597783e-14) + pow(fs,3)(-9.53983026998693e-20fs + 1.07670341597783e-14)) + Levelpow(fs,3)(-9.53983026998693e-20fs - 1.00069342739634e-12) + pow(fs,3)(9.53983026998693e-20fs + 1.00069342739634e-12)) + Levelpow(fs,2)(1.01146067837044e-12fs + 2.32324430844522e-12) + pow(fs,2)(-1.01146067837044e-12fs - 2.32324430844522e-12); b3 = Fuzz(Fuzz(Levelpow(fs,3)(9.53983026998693e-20fs + 1.07670341597783e-14) + pow(fs,3)(-9.53983026998693e-20fs - 1.07670341597783e-14)) + Levelpow(fs,3)(-9.53983026998693e-20fs + 1.00069342739634e-12) + pow(fs,3)(9.53983026998693e-20fs - 1.00069342739634e-12)) + Levelpow(fs,2)(-1.01146067837044e-12fs + 2.32324430844522e-12) + pow(fs,2)(1.01146067837044e-12fs - 2.32324430844522e-12); b4 = Fuzz(Fuzz(Levelpow(fs,3)(-1.43097454049804e-19fs + 5.38351707988916e-15) + pow(fs,3)(1.43097454049804e-19fs - 5.38351707988916e-15)) + Levelpow(fs,3)(1.43097454049804e-19fs + 5.00346713698171e-13) + pow(fs,3)(-1.43097454049804e-19fs - 5.00346713698171e-13)) + Levelpow(fs,2)(-5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(5.05730339185222e-13fs + 1.16162215422261e-12); b5 = Fuzz(Fuzz(Levelpow(fs,3)(4.76991513499346e-20fs - 5.38351707988916e-15) + pow(fs,3)(-4.76991513499346e-20fs + 5.38351707988916e-15)) + Levelpow(fs,3)(-4.76991513499346e-20fs - 5.00346713698171e-13) + pow(fs,3)(4.76991513499346e-20fs + 5.00346713698171e-13)) + Levelpow(fs,2)(5.05730339185222e-13fs - 1.16162215422261e-12) + pow(fs,2)(-5.05730339185222e-13fs + 1.16162215422261e-12); a0 = Fuzz(Fuzzfs(fs(fs(fs(-3.73292075290073e-29fs - 1.05633134620746e-20) - 3.11506369039915e-14) - 2.30719916990074e-11) - 1.07493164710329e-9) + fs(fs(fs(fs(3.73292075290073e-29fs + 1.01643277726662e-20) + 2.91602352831988e-14) + 2.29636966370042e-11) + 1.07449105454163e-9)) + fs(fs(fs(3.98985774247549e-22fs + 1.99042653510896e-15) + 1.83615604104971e-13) + 5.31230624730483e-11) + 2.44402781742033e-9; a1 = Fuzz(Fuzzfs(fs(fs(fs(1.86646037645036e-28fs + 3.16899403862238e-20) + 3.11506369039915e-14) - 2.30719916990074e-11) - 3.22479494130986e-9) + fs(fs(fs(fs(-1.86646037645036e-28fs - 3.04929833179984e-20) - 2.91602352831988e-14) + 2.29636966370042e-11) + 3.22347316362488e-9)) + fs(fs(fs(-1.19695732274265e-21fs - 1.99042653510896e-15) + 1.83615604104971e-13) + 1.59369187419145e-10) + 1.22201390871017e-8; a2 = Fuzz(Fuzzfs(fs(fs(fs(-3.73292075290073e-28fs - 2.11266269241492e-20) + 6.2301273807983e-14) + 4.61439833980148e-11) - 2.14986329420657e-9) + fs(fs(fs(fs(3.73292075290073e-28fs + 2.03286555453323e-20) - 5.83204705663976e-14) - 4.59273932740084e-11) + 2.14898210908325e-9)) + fs(fs(fs(7.97971548495099e-22fs - 3.98085307021793e-15) - 3.67231208209942e-13) + 1.06246124946097e-10) + 2.44402781742033e-8; a3 = Fuzz(Fuzzfs(fs(fs(fs(3.73292075290073e-28fs - 2.11266269241492e-20) - 6.2301273807983e-14) + 4.61439833980148e-11) + 2.14986329420657e-9) + fs(fs(fs(fs(-3.73292075290073e-28fs + 2.03286555453323e-20) + 5.83204705663976e-14) - 4.59273932740084e-11) - 2.14898210908325e-9)) + fs(fs(fs(7.97971548495099e-22fs + 3.98085307021793e-15) - 3.67231208209942e-13) - 1.06246124946097e-10) + 2.44402781742033e-8; a4 = Fuzz(Fuzzfs(fs(fs(fs(-1.86646037645036e-28fs + 3.16899403862238e-20) - 3.11506369039915e-14) - 2.30719916990074e-11) + 3.22479494130986e-9) + fs(fs(fs(fs(1.86646037645036e-28fs - 3.04929833179984e-20) + 2.91602352831988e-14) + 2.29636966370042e-11) - 3.22347316362488e-9)) + fs(fs(fs(-1.19695732274265e-21fs + 1.99042653510896e-15) + 1.83615604104971e-13) - 1.59369187419145e-10) + 1.22201390871017e-8; a5 = Fuzz(Fuzzfs(fs(fs(fs(3.73292075290073e-29fs - 1.05633134620746e-20) + 3.11506369039915e-14) - 2.30719916990074e-11) + 1.07493164710329e-9) + fs(fs(fs(fs(-3.73292075290073e-29fs + 1.01643277726662e-20) - 2.91602352831988e-14) + 2.29636966370042e-11) - 1.07449105454163e-9)) + fs(fs(fs(3.98985774247549e-22fs - 1.99042653510896e-15) + 1.83615604104971e-13) - 5.31230624730483e-11) + 2.44402781742033e-9; }; process = sp.stereoize(fuzz);
6e3677bd619c290edd3d51d1d2b2dd292705b42e33939bfc4261f0ba5123d9e6	bluenote10/RustFaustExperiments	reverb.dsp	import("stdfaust.lib"); process = dm.zita_light;	https://raw.githubusercontent.com/bluenote10/RustFaustExperiments/23dab88f47cff4f3ad9efe0119b2d32ed1b5559b/Benchmarks/dsp/reverb.dsp	faust		import("stdfaust.lib"); process = dm.zita_light;
96e3dbfdb913526240e59b9ded7de16ed01405473c948b6503c6546f973fea6d	bluenote10/RustFaustExperiments	splitter.dsp	import("stdfaust.lib"); panner = _ : (level) <: (1-g), *(g) with { level = hslider("level", 0.5, 0.0, 1.0, 0.01); g = hslider("pan", 0.5, 0.0, 1.0, 0.01); }; process = panner;	https://raw.githubusercontent.com/bluenote10/RustFaustExperiments/23dab88f47cff4f3ad9efe0119b2d32ed1b5559b/Benchmarks/dsp/splitter.dsp	faust		import("stdfaust.lib"); panner = _ : (level) <: (1-g), *(g) with { level = hslider("level", 0.5, 0.0, 1.0, 0.01); g = hslider("pan", 0.5, 0.0, 1.0, 0.01); }; process = panner;
c24278f88160ad70c2ce09c07b12954b21f70f1d34db2317314593f01e3dd921	theGuen/unbeatable-zig	multifx2.dsp	import("stdfaust.lib"); echo(d,f) = +~de.delay(48000,del)f with { del = dma.SR; }; pitchGroup(x) = vgroup("Pitch",x); sw_transpose = pitchGroup(nentry("sw_pitch",1,0,1,1)); tr_semis = pitchGroup(nentry("pi_semis",0,-12,12,1)); echoGroup(x) = vgroup("Delay",x); sw_echo=echoGroup(nentry("sw_echo",1,0,1,1)); ec_delay = echoGroup(nentry("delay",0.25,0,1,0.01) : si.smoo); ec_feedback = echoGroup(nentry("feedback",0.5,0,1,0.01) : si.smoo); lowpassGroup(x) = vgroup("LowPass",x); sw_lowpass = lowpassGroup(nentry("sw_lowpass",1,0,1,1)); lp_Q = lowpassGroup(nentry("lp_Q",1,0,1000,1) : si.smoo); lp_freq = lowpassGroup(nentry("lp_freq",20000,100,20000,100) : si.smoo); highpassGroup(x) = vgroup("HighPass",x); sw_highpass = highpassGroup(nentry("sw_highpass",1,0,1,1)); hp_Q = highpassGroup(nentry("hp_Q",1,0,1000,1) : si.smoo); hp_freq = highpassGroup(nentry("hp_freq",20000,100,20000,100) : si.smoo); flangerGroup(x) = vgroup("Flanger",x); sw_flange= flangerGroup(nentry("sw_flange",1,0,1,1)); fl_del = flangerGroup(nentry("fl_delay",10,0,1024,10) : si.smoo); fl_depth = flangerGroup(nentry("fl_depth",0,0,1,0.01) : si.smoo); fl_fb = flangerGroup(nentry("fl_fb",0.5,0,1,0.01) : si.smoo); phaserGroup(x) = vgroup("Phaser",x); sw_phase= phaserGroup(nentry("sw_phase",1,0,1,1)); ph_depth = phaserGroup(nentry("ph_depth",0,0,2,1) : si.smoo); ph_speed= phaserGroup(nentry("ph_speed",0.5,0,120,1) : si.smoo); ph_ratio= phaserGroup(nentry("ph_ratio",0.5,0,1,0.1) : si.smoo); DriveGroup(x) = vgroup("Distortion",x); sw_drive = DriveGroup(nentry("sw_drive",1,0,1,1)); dr_drive = DriveGroup(nentry("dr_drive",0, 0, 1, 0.01) : si.smoo); dr_offset = DriveGroup(nentry("dr_offset",0, 0, 1, 0.01) : si.smoo); CompGroup(x) = vgroup("Compressor",x); sw_comp=CompGroup(nentry("sw_comp",1,0,1,1)); process = ba.bypass2(sw_transpose,par(i,2,ef.transpose(512,512,tr_semis))): ba.bypass2(sw_lowpass,par(i,2,fi.resonlp(lp_freq,lp_Q,1))): ba.bypass2(sw_highpass,par(i,2,fi.resonhp(hp_freq,hp_Q,1))): ba.bypass2(sw_flange,pf.flanger_stereo(1024,fl_del,fl_del,fl_depth,fl_fb,0)): ba.bypass2(sw_phase,pf.phaser2_stereo(12,100,500,ph_ratio,2000,ph_speed,ph_depth,0,0)): ba.bypass2(sw_echo,par(i,2,echo(ec_delay,ec_feedback))): ba.bypass2(sw_drive,par(i,2,ef.cubicnl_nodc(dr_drive,dr_offset))): ba.bypass2(sw_comp,co.compressor_stereo(4,-6,0.0008,0.5));	https://raw.githubusercontent.com/theGuen/unbeatable-zig/82e3bda7c1790ad11c54f73941dae5c73db1b7fe/multifx/multifx2.dsp	faust		import("stdfaust.lib"); echo(d,f) = +~de.delay(48000,del)f with { del = dma.SR; }; pitchGroup(x) = vgroup("Pitch",x); sw_transpose = pitchGroup(nentry("sw_pitch",1,0,1,1)); tr_semis = pitchGroup(nentry("pi_semis",0,-12,12,1)); echoGroup(x) = vgroup("Delay",x); sw_echo=echoGroup(nentry("sw_echo",1,0,1,1)); ec_delay = echoGroup(nentry("delay",0.25,0,1,0.01) : si.smoo); ec_feedback = echoGroup(nentry("feedback",0.5,0,1,0.01) : si.smoo); lowpassGroup(x) = vgroup("LowPass",x); sw_lowpass = lowpassGroup(nentry("sw_lowpass",1,0,1,1)); lp_Q = lowpassGroup(nentry("lp_Q",1,0,1000,1) : si.smoo); lp_freq = lowpassGroup(nentry("lp_freq",20000,100,20000,100) : si.smoo); highpassGroup(x) = vgroup("HighPass",x); sw_highpass = highpassGroup(nentry("sw_highpass",1,0,1,1)); hp_Q = highpassGroup(nentry("hp_Q",1,0,1000,1) : si.smoo); hp_freq = highpassGroup(nentry("hp_freq",20000,100,20000,100) : si.smoo); flangerGroup(x) = vgroup("Flanger",x); sw_flange= flangerGroup(nentry("sw_flange",1,0,1,1)); fl_del = flangerGroup(nentry("fl_delay",10,0,1024,10) : si.smoo); fl_depth = flangerGroup(nentry("fl_depth",0,0,1,0.01) : si.smoo); fl_fb = flangerGroup(nentry("fl_fb",0.5,0,1,0.01) : si.smoo); phaserGroup(x) = vgroup("Phaser",x); sw_phase= phaserGroup(nentry("sw_phase",1,0,1,1)); ph_depth = phaserGroup(nentry("ph_depth",0,0,2,1) : si.smoo); ph_speed= phaserGroup(nentry("ph_speed",0.5,0,120,1) : si.smoo); ph_ratio= phaserGroup(nentry("ph_ratio",0.5,0,1,0.1) : si.smoo); DriveGroup(x) = vgroup("Distortion",x); sw_drive = DriveGroup(nentry("sw_drive",1,0,1,1)); dr_drive = DriveGroup(nentry("dr_drive",0, 0, 1, 0.01) : si.smoo); dr_offset = DriveGroup(nentry("dr_offset",0, 0, 1, 0.01) : si.smoo); CompGroup(x) = vgroup("Compressor",x); sw_comp=CompGroup(nentry("sw_comp",1,0,1,1)); process = ba.bypass2(sw_transpose,par(i,2,ef.transpose(512,512,tr_semis))): ba.bypass2(sw_lowpass,par(i,2,fi.resonlp(lp_freq,lp_Q,1))): ba.bypass2(sw_highpass,par(i,2,fi.resonhp(hp_freq,hp_Q,1))): ba.bypass2(sw_flange,pf.flanger_stereo(1024,fl_del,fl_del,fl_depth,fl_fb,0)): ba.bypass2(sw_phase,pf.phaser2_stereo(12,100,500,ph_ratio,2000,ph_speed,ph_depth,0,0)): ba.bypass2(sw_echo,par(i,2,echo(ec_delay,ec_feedback))): ba.bypass2(sw_drive,par(i,2,ef.cubicnl_nodc(dr_drive,dr_offset))): ba.bypass2(sw_comp,co.compressor_stereo(4,-6,0.0008,0.5));
387e3cda46e9dfd25706bfc980fcc0a7d35d702447bf8c1343a02d76125ce279	sonosaurus/sonobus	parametric_eq.dsp	import("stdfaust.lib"); parametric_eq = fi.low_shelf(LL,FL) : fi.peak_eq(LP1,FP1,BP1) : fi.peak_eq(LP2,FP2,BP2) : fi.high_shelf(LH,FH) with{ eq_group(x) = hgroup("[0] parametric eq [tooltip: See Faust's filters.lib for info and pointers]",x); ls_group(x) = eq_group(vgroup("[1] low shelf",x)); LL = ls_group(hslider("[0] gain [unit:dB] [style:knob] [tooltip: Amount of low-frequency boost or cut in decibels]",0,-40,40,0.1)) : si.smoo; FL = ls_group(hslider("[1] transition freq [unit:Hz] [style:knob] [scale:log] [tooltip: Transition-frequency from boost (cut) to unity gain]",200,1,5000,1)) : si.smooth(0.999); pq1_group(x) = eq_group(vgroup("[2] para1 [tooltip: Parametric Equalizer sections from filters.lib]",x)); LP1 = pq1_group(hslider("[0] peak gain [unit:dB] [style:knob][tooltip: Amount of local boost or cut in decibels]",0,-40,40,0.1)) : si.smoo; FP1 = pq1_group(hslider("[1] peak frequency [unit:Hz] [style:knob] [tooltip: Peak Frequency in Hz]",400,40,10000,1)) : si.smooth(0.999); Q1 = pq1_group(hslider("[2] peak q [style:knob] [scale:log] [tooltip: Quality factor (Q) of the peak = center-frequency/bandwidth]",40,1,1000,0.1)); BP1 = FP1/Q1; pq2_group(x) = eq_group(vgroup("[2] para2 [tooltip: Parametric Equalizer sections from filters.lib]",x)); LP2 = pq2_group(hslider("[0] peak gain [unit:dB] [style:knob][tooltip: Amount of local boost or cut in decibels]",0,-40,40,0.1)) : si.smoo ; FP2 = pq2_group(hslider("[1] peak frequency [unit:Hz] [style:knob] [tooltip: Peak Frequency in Hz]",800,40,10000,1)) : si.smooth(0.999); Q2 = pq2_group(hslider("[2] peak q [style:knob] [scale:log] [tooltip: Quality factor (Q) of the peak = center-frequency/bandwidth]",40,1,1000,0.1)) : si.smoo ; BP2 = FP2/Q2; hs_group(x) = eq_group(vgroup("[3] high shelf [tooltip: A high shelf provides a boost or cut above some frequency]",x)); LH = hs_group(hslider("[0] gain [unit:dB] [style:knob] [tooltip: Amount of high-frequency boost or cut in decibels]",0,-40,40,.1)) : si.smoo; FH = hs_group(hslider("[1] transition freq [unit:Hz] [style:knob] [scale:log] [tooltip: Transition-frequency from boost (cut) to unity gain]",8000,20,10000,1)) : si.smooth(0.999); }; process = parametric_eq;	https://raw.githubusercontent.com/sonosaurus/sonobus/52cb09f046b94ba2d5d9d47e85c8d9789d86c96e/scripts/parametric_eq.dsp	faust		import("stdfaust.lib"); parametric_eq = fi.low_shelf(LL,FL) : fi.peak_eq(LP1,FP1,BP1) : fi.peak_eq(LP2,FP2,BP2) : fi.high_shelf(LH,FH) with{ eq_group(x) = hgroup("[0] parametric eq [tooltip: See Faust's filters.lib for info and pointers]",x); ls_group(x) = eq_group(vgroup("[1] low shelf",x)); LL = ls_group(hslider("[0] gain [unit:dB] [style:knob] [tooltip: Amount of low-frequency boost or cut in decibels]",0,-40,40,0.1)) : si.smoo; FL = ls_group(hslider("[1] transition freq [unit:Hz] [style:knob] [scale:log] [tooltip: Transition-frequency from boost (cut) to unity gain]",200,1,5000,1)) : si.smooth(0.999); pq1_group(x) = eq_group(vgroup("[2] para1 [tooltip: Parametric Equalizer sections from filters.lib]",x)); LP1 = pq1_group(hslider("[0] peak gain [unit:dB] [style:knob][tooltip: Amount of local boost or cut in decibels]",0,-40,40,0.1)) : si.smoo; FP1 = pq1_group(hslider("[1] peak frequency [unit:Hz] [style:knob] [tooltip: Peak Frequency in Hz]",400,40,10000,1)) : si.smooth(0.999); Q1 = pq1_group(hslider("[2] peak q [style:knob] [scale:log] [tooltip: Quality factor (Q) of the peak = center-frequency/bandwidth]",40,1,1000,0.1)); BP1 = FP1/Q1; pq2_group(x) = eq_group(vgroup("[2] para2 [tooltip: Parametric Equalizer sections from filters.lib]",x)); LP2 = pq2_group(hslider("[0] peak gain [unit:dB] [style:knob][tooltip: Amount of local boost or cut in decibels]",0,-40,40,0.1)) : si.smoo ; FP2 = pq2_group(hslider("[1] peak frequency [unit:Hz] [style:knob] [tooltip: Peak Frequency in Hz]",800,40,10000,1)) : si.smooth(0.999); Q2 = pq2_group(hslider("[2] peak q [style:knob] [scale:log] [tooltip: Quality factor (Q) of the peak = center-frequency/bandwidth]",40,1,1000,0.1)) : si.smoo ; BP2 = FP2/Q2; hs_group(x) = eq_group(vgroup("[3] high shelf [tooltip: A high shelf provides a boost or cut above some frequency]",x)); LH = hs_group(hslider("[0] gain [unit:dB] [style:knob] [tooltip: Amount of high-frequency boost or cut in decibels]",0,-40,40,.1)) : si.smoo; FH = hs_group(hslider("[1] transition freq [unit:Hz] [style:knob] [scale:log] [tooltip: Transition-frequency from boost (cut) to unity gain]",8000,20,10000,1)) : si.smooth(0.999); }; process = parametric_eq;
88a371c2ddb23f29c89156e94cd9cc619ef337506222162142d8a09c7c7d6dec	bgaster/aa_examples	ADSR.dsp	declare aavoices "1"; import("stdfaust.lib"); gain = hslider("gain", 0.5, 0, 1, 0.01): si.smoo; waveforms = piano, fantasy, violin, flute, guitar1, guitar2, horn, electro1, electro2, electro3 : ba.selectn(10, wave) with { wave = nentry("/Waveform", 0, 0, 9, 1); freq = hslider("freq", 440, 50, 2000, 0.01); piano = os.pulsetrain(freq + vibrato, 0.7) * envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; fantasy = os.pulsetrain(2freq + vibrato, 0.5) envelope * tremelo : filter with { filter = fi.resonlp(3000,0.5,gain); }; violin = ((os.pulsetrain(freq + vibrato, 0.5) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.4) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.3) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.2) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.1) * envelope * tremelo))/5 : filter with { filter = fi.resonlp(3500,5,gain); }; flute = os.pulsetrain(freq + vibrato, 0.5) * envelope * tremelo : filter with { filter = fi.resonlp(3000,0.5,gain); }; guitar1 = (os.pulsetrain(0.5freq + vibrato, 0.1) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.2) envelope * tremelo)/2 : filter with { filter = fi.resonlp(3500,1,gain); }; guitar2 = (os.pulsetrain(0.5freq + vibrato, 0.5) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.25) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.125) envelope * tremelo) /3 : filter with { filter = fi.resonlp(3000,2,gain); }; horn = os.pulsetrain(0.5freq + vibrato, 0.125) envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro1 = os.pulsetrain(freq + vibrato + (pitchMod220), 0.7) envelope * tremelo: filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro2 = os.pulsetrain(2freq + vibrato + (pitchMod440), 0.5) * envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro3 = ((os.pulsetrain(freq + vibrato + (pitchMod220), 0.5) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.4) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.3) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.2) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.1) envelope * tremelo))/5 : filter with { filter = fi.resonlp(3500,10,gain); }; }; vibrato = os.lf_triangle(5.7)vdepth with { vdepth = nentry("/Vibrato", 0, 0, 10, 1); }; tremelo = os.lf_triangle(tremFreq)5 with { tremFreq = nentry("/Tremelo", 0, 0, 10, 1); }; pitchMod = os.lf_squarewavepos(modFreq)-1 with { modFreq = nentry("/PitchMod", 4.5,2.7, 10, 0.365); }; envelope = en.adsr(a,d,s,r,g) gain with { a = nentry("/Attack", 0.005, 0.001, 0.5,0.05); d = nentry("/Decay", 0.178, 0.001, 2, 0.2); s = nentry("/Sustain", 0.306, 0.1, 1, 0.1); r = nentry("/Release", 0.178, 0.001, 2, 0.2); g = button("gate") : si.smoo; }; process = vgroup("voices", par(n, 1, vgroup("aavoice%n", waveforms))) : _;	https://raw.githubusercontent.com/bgaster/aa_examples/98d70668d6784b426726366148a74109b682ec4f/vl1/dsp/ADSR.dsp	faust		declare aavoices "1"; import("stdfaust.lib"); gain = hslider("gain", 0.5, 0, 1, 0.01): si.smoo; waveforms = piano, fantasy, violin, flute, guitar1, guitar2, horn, electro1, electro2, electro3 : ba.selectn(10, wave) with { wave = nentry("/Waveform", 0, 0, 9, 1); freq = hslider("freq", 440, 50, 2000, 0.01); piano = os.pulsetrain(freq + vibrato, 0.7) * envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; fantasy = os.pulsetrain(2freq + vibrato, 0.5) envelope * tremelo : filter with { filter = fi.resonlp(3000,0.5,gain); }; violin = ((os.pulsetrain(freq + vibrato, 0.5) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.4) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.3) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.2) * envelope * tremelo) + (os.pulsetrain(freq + vibrato, 0.1) * envelope * tremelo))/5 : filter with { filter = fi.resonlp(3500,5,gain); }; flute = os.pulsetrain(freq + vibrato, 0.5) * envelope * tremelo : filter with { filter = fi.resonlp(3000,0.5,gain); }; guitar1 = (os.pulsetrain(0.5freq + vibrato, 0.1) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.2) envelope * tremelo)/2 : filter with { filter = fi.resonlp(3500,1,gain); }; guitar2 = (os.pulsetrain(0.5freq + vibrato, 0.5) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.25) envelope * tremelo + os.pulsetrain(0.5freq + vibrato, 0.125) envelope * tremelo) /3 : filter with { filter = fi.resonlp(3000,2,gain); }; horn = os.pulsetrain(0.5freq + vibrato, 0.125) envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro1 = os.pulsetrain(freq + vibrato + (pitchMod220), 0.7) envelope * tremelo: filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro2 = os.pulsetrain(2freq + vibrato + (pitchMod440), 0.5) * envelope * tremelo : filter with{ filter = fi.resonlp(3000,0.5,gain); }; electro3 = ((os.pulsetrain(freq + vibrato + (pitchMod220), 0.5) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.4) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.3) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.2) envelope * tremelo) + (os.pulsetrain(freq + vibrato + (pitchMod220), 0.1) envelope * tremelo))/5 : filter with { filter = fi.resonlp(3500,10,gain); }; }; vibrato = os.lf_triangle(5.7)vdepth with { vdepth = nentry("/Vibrato", 0, 0, 10, 1); }; tremelo = os.lf_triangle(tremFreq)5 with { tremFreq = nentry("/Tremelo", 0, 0, 10, 1); }; pitchMod = os.lf_squarewavepos(modFreq)-1 with { modFreq = nentry("/PitchMod", 4.5,2.7, 10, 0.365); }; envelope = en.adsr(a,d,s,r,g) gain with { a = nentry("/Attack", 0.005, 0.001, 0.5,0.05); d = nentry("/Decay", 0.178, 0.001, 2, 0.2); s = nentry("/Sustain", 0.306, 0.1, 1, 0.1); r = nentry("/Release", 0.178, 0.001, 2, 0.2); g = button("gate") : si.smoo; }; process = vgroup("voices", par(n, 1, vgroup("aavoice%n", waveforms))) : _;
8e108c14f1ae743660f2c2c83eda7c62136af9e904c90d63cc3af1e92ad2c2bb	bgaster/aa_examples	reflect.dsp	/* Black Hole Reverb for the OTTO -- By Jonatan Midtgaard Adapted by with permission from the "OWLGAZER" modules by Xavier Godart (Empirical Noises). To-Do: - Perhaps adjust allpass values to be closer to freeverb? - Add stereo spread. Are some delay lines for left/right?? Modulation for this? - Look at shimmer. More modulation? - Being able to change number of AP filters. Few makes more of a metallic clang. / import("stdfaust.lib"); blackhole(decay,shape,pitchmix,spread) = _ <: ( (si.bus(N2) :> networkline)~(feedbackline) ) : si.bus(N) <: (par(i, N, (1-spread)), (ro.cross(N) : par(i,N,(1+spread)))) :> ef.gate_stereo(gate_amount64-60,0.001,0.01,0.04) with { N = 4; //Number of comb filters earlyAPNb = 4; //Number of allpass filters. hicut = 10000; MAXDELAY = 8192; gate_amount = (shape-1) : max(0); duck_amount = (1-shape) : max(0); //delays = (1356, 1422, 1557, 1617, 1933, 2401, 3125, 6561, 14641); //latereflections values (comb) delays = (1422, 1617, 2401, 6561); delayval(i) = ba.take(i+1,delays) : (time_lfo_late); time_lfo_late = os.osc(lfo_rate)(lfo_strength_late) : +(1); lfo_strength_late = 0.001; lfo_rate = 0.25; pitchshifter(delay, pitch, amount) = _ <: de.delay(MAXDELAY, delay)(1-amount),(ef.transpose(delay,delay,pitch)amount) :> _; earlyreflections(i) = seq(j, earlyAPNb, fi.allpass_fcomb(2048, delayval(j+1), -allpassfb)) with{ allpassfb = 0.6; //delays = (243, 343, 441, 625, 727, 1331, 2403, 3119); //earlyreflections values (allpass) delays = (243, 441, 727, 2403, 3119); time_lfo = os.osc(lfo_rate)(lfo_strength) : +(1); lfo_strength = 0.001; delayval(x) = ba.take(x+1, delays) : (time_lfo); }; latereflections(i) = _ <: de.fdelay(MAXDELAY, delayval(i))(i!=3), pitchshifter(MAXDELAY + delayval(i),12,pitchmix)(i==3) :> _; networkline = par(i,N, _ : earlyreflections(i) : latereflections(i) : _/sqrt(N) ) : _,_,fi.highpass(2, 100),_; feedbackline = ro.hadamard(N) : par(i,N,((decay) : fi.lowpass(2, hicut) )); }; blackhole_master = blackhole(decay,shape,pitchmix,spread) with { decay = hslider("/Length", 0.5, 0.0, 1.50, 0.01) :si.smoo ; shape = hslider("/Shape[scale:log]", 1, 0, 2, 0.01) :si.smoo; pitchmix = hslider("/Shimmer", 0.0, 0, 1.2, 0.01); spread = hslider("/Spread", 0, 0, 1, 0.01) : si.smoo; }; dry_wet = hslider("/Drywet", 0.0, 0.0, 1.0, 0.01); output_gain = hslider("/Outputgain", 1.0, 0.0, 1.0, 0.01); original = _ : (1.0 - dry_wet) <: (_,_); effect = blackhole_master : (dry_wet) , (dry_wet); dry_wet_signal = _ <: original, effect :> (output_gain), *(output_gain); //process = _ : blackhole_master : _ , _ ; process = _ : dry_wet_signal;	https://raw.githubusercontent.com/bgaster/aa_examples/98d70668d6784b426726366148a74109b682ec4f/reflect/dsp/reflect.dsp	faust	Black Hole Reverb for the OTTO -- By Jonatan Midtgaard Adapted by with permission from the "OWLGAZER" modules by Xavier Godart (Empirical Noises). To-Do: - Perhaps adjust allpass values to be closer to freeverb? - Add stereo spread. Are some delay lines for left/right?? Modulation for this? - Look at shimmer. More modulation? - Being able to change number of AP filters. Few makes more of a metallic clang. Number of comb filters Number of allpass filters. delays = (1356, 1422, 1557, 1617, 1933, 2401, 3125, 6561, 14641); //latereflections values (comb) delays = (243, 343, 441, 625, 727, 1331, 2403, 3119); //earlyreflections values (allpass) process = _ : blackhole_master : _ , _ ;	import("stdfaust.lib"); blackhole(decay,shape,pitchmix,spread) = _ <: ( (si.bus(N2) :> networkline)~(feedbackline) ) : si.bus(N) <: (par(i, N, (1-spread)), (ro.cross(N) : par(i,N,(1+spread)))) :> ef.gate_stereo(gate_amount64-60,0.001,0.01,0.04) with { hicut = 10000; MAXDELAY = 8192; gate_amount = (shape-1) : max(0); duck_amount = (1-shape) : max(0); delays = (1422, 1617, 2401, 6561); delayval(i) = ba.take(i+1,delays) : (time_lfo_late); time_lfo_late = os.osc(lfo_rate)(lfo_strength_late) : +(1); lfo_strength_late = 0.001; lfo_rate = 0.25; pitchshifter(delay, pitch, amount) = _ <: de.delay(MAXDELAY, delay)(1-amount),(ef.transpose(delay,delay,pitch)amount) :> _; earlyreflections(i) = seq(j, earlyAPNb, fi.allpass_fcomb(2048, delayval(j+1), -allpassfb)) with{ allpassfb = 0.6; delays = (243, 441, 727, 2403, 3119); time_lfo = os.osc(lfo_rate)(lfo_strength) : +(1); lfo_strength = 0.001; delayval(x) = ba.take(x+1, delays) : (time_lfo); }; latereflections(i) = _ <: de.fdelay(MAXDELAY, delayval(i))(i!=3), pitchshifter(MAXDELAY + delayval(i),12,pitchmix)(i==3) :> _; networkline = par(i,N, _ : earlyreflections(i) : latereflections(i) : _/sqrt(N) ) : _,_,fi.highpass(2, 100),_; feedbackline = ro.hadamard(N) : par(i,N,((decay) : fi.lowpass(2, hicut) )); }; blackhole_master = blackhole(decay,shape,pitchmix,spread) with { decay = hslider("/Length", 0.5, 0.0, 1.50, 0.01) :si.smoo ; shape = hslider("/Shape[scale:log]", 1, 0, 2, 0.01) :si.smoo; pitchmix = hslider("/Shimmer", 0.0, 0, 1.2, 0.01); spread = hslider("/Spread", 0, 0, 1, 0.01) : si.smoo; }; dry_wet = hslider("/Drywet", 0.0, 0.0, 1.0, 0.01); output_gain = hslider("/Outputgain", 1.0, 0.0, 1.0, 0.01); original = _ : (1.0 - dry_wet) <: (_,_); effect = blackhole_master : (dry_wet) , (dry_wet); dry_wet_signal = _ <: original, effect :> (output_gain), (output_gain); process = _ : dry_wet_signal;
c770c460841b048dd0059b4625b536c62ae32c0e573bbcf4fe9e9464cd23133a	bgaster/aa_examples	nuke.dsp	// An analog style synth with ringmod and hardsync. // Based on an earlier Faust synth from OTTO declare aavoices "2"; import("stdfaust.lib"); process = vgroup("voices", par(n, 2, vgroup("aavoice%n", voice))) :> _ ; voice = hgroup("midi", ( multi_osc(osc1_freq) , multi_osc(osc2_freq) ) <: mixer :> VCF : (envelope) ) with { midigate = button ("gate"): si.smoo; midifreq = hslider("freq", 440, 20, 1000, 1); midigain = hslider("gain", 1, 0, 1, 1/127): si.smoo; // Filter flt = hslider("/Filter",0.5, 0, 1, 0.01) : si.smoo; fc = fltflt10000 + 100; Q = 1.25; VCF = fi.resonlp(fc,Q,0.5) : fi.resonlp(fc,Q,0.5); //Oscillators-------------------------- wave = hslider("/Wave", 1, 0.08, 4, 0.01) : si.smoo; //Waveform modifiers hardsync = wave : max(3) : -(3) : (midifreq) : (0.1); //Amount of hardsync of the saw-wave duty = wave(0.5) : min(0.5); //Duty cycle in the pulse wave sq_amount = 2-(wave) : max(0) : min(1); saw_amount = wave-(2) : max(0) : min(1); tri_amount = 1-(sq_amount) : -(saw_amount); multi_osc(frequency) = ( os.pulsetrain(frequency, duty)(sq_amount) , os.triangle(frequency)(tri_amount)(1.5) , saw2_own(frequency+(hardsync),clock)(saw_amount) ) :> _ with{ clock = ba.pulse(ba.sec2samp(1/(frequency))); //Master osc. for hardsync phase(slave_freq,master_freq) = 2 * (os.hs_phasor(1<<16,slave_freq,master_freq)/(1<<16) ) - 1.0; //Zero-mean sawtooth saw2_own(slave_freq,master_freq) = phase(slave_freq,master_freq) <: * <: -(mem) : (0.25'ma.SR/slave_freq); //Hard-syncable anti-alialised saw }; //----------------------------------------------- //Oscillator relations relation = hslider("/Relation", 2, 0, 3.001, 0.001) : (2) : /(2) : si.smoo ; detune_amount = (1, (relation-2.1 :(0.02) : +(1.0)), (1-relation : (0.02) : +(1.0) ) ) : (max, _) : max ; detune = ba.if( (relation == 0) + (relation >= 3) , 1, detune_amount); mixer = (_,_,_,_) <: (_,_,_,!,!,!,_,_) : ((+ : (relation >= 2)), (1-(octave)) , ( : (octave))) : (_, (+ : (relation<2)), third_osc_send) ; octave = 2-relation : max(0) : min(1); detune_osc2 = 1.0/(detune); fifth = ba.if( (relation >= 3) , 1.49830, 1 ); //A fifth is seven semitones above osc1_freq = midifreqdetune; osc2_freq = midifreq(detune_osc2) : (fifth); //Fourth knob Sub = hslider("/Sub", 0, 0, 1, 0.001) : si.smoo; tonic_osc_send = multi_osc(midifreq)(1-Sub); sub_osc_send = multi_osc(midifreq/(2))(Sub); third_osc_send = tonic_osc_send+sub_osc_send; //ADSR envelope---------------------------- envelope = adsre(a,d,s,r,midigate)(midigain); a = hslider("/v:envelope/Attack", 0.001, 0.001, 4, 0.001); d = hslider("/v:envelope/Decay", 0.0, 0.0, 4, 0.001); s = hslider("/v:envelope/Sustain", 1.0, 0.0, 1.0, 0.01); r = hslider("/v:envelope/Release", 0.0, 0.0, 4.0, 0.01); adsre(attT60,decT60,susLvl,relT60,gate) = envel with { ugate = gate>0; samps = ugate : +~((ugate)); // ramp time in samples attSamps = int(attT60 ma.SR); target = select2(ugate, 0.0, select2(samps<attSamps, (susLvl)float(ugate), 1/0.63)); t60 = select2(ugate, relT60, select2(samps<attSamps, decT60, attT606.91)); pole = ba.tau2pole(t60/6.91); envel = target : si.smooth(pole) : min(1.0); }; };	https://raw.githubusercontent.com/bgaster/aa_examples/98d70668d6784b426726366148a74109b682ec4f/nuke/dsp/nuke.dsp	faust	An analog style synth with ringmod and hardsync. Based on an earlier Faust synth from OTTO Filter Oscillators-------------------------- Waveform modifiers Amount of hardsync of the saw-wave Duty cycle in the pulse wave Master osc. for hardsync Zero-mean sawtooth Hard-syncable anti-alialised saw ----------------------------------------------- Oscillator relations A fifth is seven semitones above Fourth knob ADSR envelope---------------------------- ramp time in samples	declare aavoices "2"; import("stdfaust.lib"); process = vgroup("voices", par(n, 2, vgroup("aavoice%n", voice))) :> _ ; voice = hgroup("midi", ( multi_osc(osc1_freq) , multi_osc(osc2_freq) ) <: mixer :> VCF : (envelope) ) with { midigate = button ("gate"): si.smoo; midifreq = hslider("freq", 440, 20, 1000, 1); midigain = hslider("gain", 1, 0, 1, 1/127): si.smoo; flt = hslider("/Filter",0.5, 0, 1, 0.01) : si.smoo; fc = fltflt10000 + 100; Q = 1.25; VCF = fi.resonlp(fc,Q,0.5) : fi.resonlp(fc,Q,0.5); wave = hslider("/Wave", 1, 0.08, 4, 0.01) : si.smoo; sq_amount = 2-(wave) : max(0) : min(1); saw_amount = wave-(2) : max(0) : min(1); tri_amount = 1-(sq_amount) : -(saw_amount); multi_osc(frequency) = ( os.pulsetrain(frequency, duty)(sq_amount) , os.triangle(frequency)(tri_amount)(1.5) , saw2_own(frequency+(hardsync),clock)(saw_amount) ) :> _ with{ }; relation = hslider("/Relation", 2, 0, 3.001, 0.001) : (2) : /(2) : si.smoo ; detune_amount = (1, (relation-2.1 :(0.02) : +(1.0)), (1-relation : (0.02) : +(1.0) ) ) : (max, _) : max ; detune = ba.if( (relation == 0) + (relation >= 3) , 1, detune_amount); mixer = (_,_,_,_) <: (_,_,_,!,!,!,_,_) : ((+ : (relation >= 2)), (1-(octave)) , (* : (octave))) : (_, (+ : (relation<2)), third_osc_send) ; octave = 2-relation : max(0) : min(1); detune_osc2 = 1.0/(detune); osc1_freq = midifreqdetune; osc2_freq = midifreq(detune_osc2) : (fifth); Sub = hslider("/Sub", 0, 0, 1, 0.001) : si.smoo; tonic_osc_send = multi_osc(midifreq)(1-Sub); sub_osc_send = multi_osc(midifreq/(2))(Sub); third_osc_send = tonic_osc_send+sub_osc_send; envelope = adsre(a,d,s,r,midigate)(midigain); a = hslider("/v:envelope/Attack", 0.001, 0.001, 4, 0.001); d = hslider("/v:envelope/Decay", 0.0, 0.0, 4, 0.001); s = hslider("/v:envelope/Sustain", 1.0, 0.0, 1.0, 0.01); r = hslider("/v:envelope/Release", 0.0, 0.0, 4.0, 0.01); adsre(attT60,decT60,susLvl,relT60,gate) = envel with { ugate = gate>0; attSamps = int(attT60 * ma.SR); target = select2(ugate, 0.0, select2(samps<attSamps, (susLvl)float(ugate), 1/0.63)); t60 = select2(ugate, relT60, select2(samps<attSamps, decT60, attT606.91)); pole = ba.tau2pole(t60/6.91); envel = target : si.smooth(pole) : min(1.0); }; };
9358c92eb65823cb8e065deef2c8af01d7f7f4431f9df0efaa6338c726f3eda1	tomara-x/magi	trashcake.dsp	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian, 3); N = outputs(scale); trig = ba.beat(804); z = ba.counter(trig : ba.resetCtr(4,1))%8; x = ba.counter(trig : ba.resetCtr(8,1))%N; y = ba.counter(trig)%8; num(i,j,k) = f(j)+g(j)i+h(j)k with { f(x) = rdtable(waveform{1,4,5,6,7,2,5,1},x); g(x) = rdtable(waveform{1,3,2,3,7,1,1,1},x); h(x) = rdtable(waveform{2,6,8,6,4,3,6,2},x); }; rat = scale : ba.selectn(N,num(x,y,z)%N); midc = 261.626; frq = midcrat; process = frq/2 : os.osc0.1 <: _,_;	https://raw.githubusercontent.com/tomara-x/magi/045f3c4126861e481ba71fec2197b34a1f3bbeb8/practice/trashcake.dsp	faust		import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian, 3); N = outputs(scale); trig = ba.beat(804); z = ba.counter(trig : ba.resetCtr(4,1))%8; x = ba.counter(trig : ba.resetCtr(8,1))%N; y = ba.counter(trig)%8; num(i,j,k) = f(j)+g(j)i+h(j)k with { f(x) = rdtable(waveform{1,4,5,6,7,2,5,1},x); g(x) = rdtable(waveform{1,3,2,3,7,1,1,1},x); h(x) = rdtable(waveform{2,6,8,6,4,3,6,2},x); }; rat = scale : ba.selectn(N,num(x,y,z)%N); midc = 261.626; frq = midcrat; process = frq/2 : os.osc0.1 <: _,_;
0f6b036340689b09513675da611823b721ba3f7ba1382703e3c88e5c443df905	tomara-x/magi	bluegirl.dsp	//thank you aria <3, thank you mog <3 import("stdfaust.lib"); trig = ba.beat(1324); //quarter notes at 132 bpm x = ba.counter(trig)%16; //16 steps y = hslider("y",0,0,64,1); z = hslider("z",0,0,64,1); index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{1,0,0,0,1,0,0,2,0,7,0,1,0,0,1,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,0,0,0,0,4,9,0,7},x); }; rat = ba.semi2ratio(index(x,y,z)%144); midc = 261.626; frq = midcrat; //frq = midcrat : qu.quantize(midc,qu.lydian); env = en.adsr(0,0,1,0.2,trig); mel = frq/16 : os.squareenv : fi.resonlp(midc16env+midc*2,4,0.1); process = mel <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/c4667df41afc67b87f4a3c2ac660835e87958703/practice/bluegirl.dsp	faust	thank you aria <3, thank you mog <3 quarter notes at 132 bpm 16 steps frq = midc*rat : qu.quantize(midc,qu.lydian);	import("stdfaust.lib"); y = hslider("y",0,0,64,1); z = hslider("z",0,0,64,1); index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{1,0,0,0,1,0,0,2,0,7,0,1,0,0,1,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,0,0,0,0,4,9,0,7},x); }; rat = ba.semi2ratio(index(x,y,z)%144); midc = 261.626; frq = midcrat; env = en.adsr(0,0,1,0.2,trig); mel = frq/16 : os.squareenv : fi.resonlp(midc16env+midc*2,4,0.1); process = mel <: dm.freeverb_demo;
8952b33ec21bb22118eddb317b25966828af5dd4eb78de2e811dd6ad98362cb2	tomara-x/magi	guitar.dsp	import("stdfaust.lib"); sek = (0.5,2,4,7.5,0,9+12,6.25,4.5); //go back to ints for 12tet gate = ba.pulsen(S0.25,S) with{S=ba.sec2samp(1/((128)/60));}; env = en.adsr(0.005,0.05,.5,0.01,gate); cnt = ba.counter(gate)%outputs(sek); step = sek : ba.selectn(outputs(sek),cnt); rat = ba.semi2ratio(step); midc = 261.626; frq = midcrat; //what if you want a long thin string (high freq and resonates long) sig = pm.nylonGuitar(pm.f2l(frq/4),0.1,0.8,gate);// : fi.resonlp(12000,8,2); process = sig : aa.clip(-.5,.5) <: _,_; // process = frq : os.osc0.1env <: _,_;	https://raw.githubusercontent.com/tomara-x/magi/bcf22a4ef23899cd8ce3bf5e08e374994907f81a/practice/guitar.dsp	faust	go back to ints for 12tet what if you want a long thin string (high freq and resonates long) : fi.resonlp(12000,8,2); process = frq : os.osc0.1env <: _,_;	import("stdfaust.lib"); gate = ba.pulsen(S0.25,S) with{S=ba.sec2samp(1/((128)/60));}; env = en.adsr(0.005,0.05,.5,0.01,gate); cnt = ba.counter(gate)%outputs(sek); step = sek : ba.selectn(outputs(sek),cnt); rat = ba.semi2ratio(step); midc = 261.626; frq = midcrat; process = sig : aa.clip(-.5,.5) <: _,_;
0a75eec9f2eb2e30eb5079e61caf3b8956ad49f8165fd21bc8e803511f113557	tomara-x/magi	res.dsp	//trans rights //don't even need a "multiplied clock" you can just delay signaals by values! import("stdfaust.lib"); trig2gate(t,time) = t : ba.peakholder(ba.sec2samp(time)); bpm = 86; htrig = ba.beat(bpm3); hbeat = ba.cycle(12, htrig) : _,!,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kbeat = ba.cycle(16, ktrig) : _,!,!,!,_,!,!,!,_,!,!,!,(_ <: _,_@(ba.tempo(bpm)/8)),!,!,! :> _; //play the 4, then a delayed by 8th version kick = sy.kick(44, 0.002, 0.0005, .1, 1, trig2gate(kbeat,0.05)); process = kick+hat /: (5) : aa.sine2 : (5) : aa.cubic1 : (0.5)*/ <: dm.freeverb_demo; //aim, you're dirty	https://raw.githubusercontent.com/tomara-x/magi/43f5af6acb97973b3b82004f433925851b44d7d0/practice/res.dsp	faust	trans rights don't even need a "multiplied clock" you can just delay signaals by values! play the 4, then a delayed by 8th version : (5) : aa.sine2 : (5) : aa.cubic1 : *(0.5) aim, you're dirty	import("stdfaust.lib"); trig2gate(t,time) = t : ba.peakholder(ba.sec2samp(time)); bpm = 86; htrig = ba.beat(bpm3); hbeat = ba.cycle(12, htrig) : _,!,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kick = sy.kick(44, 0.002, 0.0005, .1, 1, trig2gate(kbeat,0.05));
20da80d490830cda76cac2c79db8b33efc49da873dac59da189e91b022c4f24e	tomara-x/magi	pm.dsp	//trans rights import("stdfaust.lib"); modAmp = hslider("[0]mod amp",1,0,10,0.001) : si.smoo; carAmp = hslider("[1]car amp",0.1,0,1,0.001) : si.smoo; modFrq = hslider("[2]mod frq",220,20,2e4,1) : si.smoo; carFrq = hslider("[3]car frq",440,20,2e4,1) : si.smoo; modFB = hslider("[4]mod feedback",0,0,100,0.001) : si.smoo; carFB = hslider("[5]car feedback",0,0,100,0.001) : si.smoo; op(amp,frq,fb) = (_+_ : os.oscp(frq)amp) ~ (fb); process = 0 : op(modAmp,modFrq,modFB) : op(carAmp,carFrq,carFB) <: _,_;	https://raw.githubusercontent.com/tomara-x/magi/59260e0b967aee001302b56c9758d49d0a63b919/practice/pm.dsp	faust	trans rights	import("stdfaust.lib"); modAmp = hslider("[0]mod amp",1,0,10,0.001) : si.smoo; carAmp = hslider("[1]car amp",0.1,0,1,0.001) : si.smoo; modFrq = hslider("[2]mod frq",220,20,2e4,1) : si.smoo; carFrq = hslider("[3]car frq",440,20,2e4,1) : si.smoo; modFB = hslider("[4]mod feedback",0,0,100,0.001) : si.smoo; carFB = hslider("[5]car feedback",0,0,100,0.001) : si.smoo; op(amp,frq,fb) = (_+_ : os.oscp(frq)amp) ~ (fb); process = 0 : op(modAmp,modFrq,modFB) : op(carAmp,carFrq,carFB) <: _,_;
cdf7776157c9ae2ce4b745df255129abe754e728a05c458e41b93ba538b876b3	tomara-x/magi	schedule.dsp	import("stdfaust.lib"); // schedule(in,p2,p3) = ba.if(ba.time < ba.sec2samp(p2+p3), in@(ba.sec2samp(p2)), 0); // outputs input signal delayed by `start` seconds for `dur` seconds schedule(in,start,dur) = in@(ba.sec2samp(start)) * gate with { gate = 1 + -1@(ba.sec2samp(start+dur)); }; // start and dur in samples scheduleSamp(in,start,dur) = in@(start) * gate with { gate = 1 + -1@(start+dur); }; process = scheduleSamp(no.pink_noise,44100,2*44100); //i think the muted signal will still be computed, so this is nothing like a csound schedule	https://raw.githubusercontent.com/tomara-x/magi/1160f577269e5c82565cda06170cd954222ba905/practice/schedule.dsp	faust	schedule(in,p2,p3) = ba.if(ba.time < ba.sec2samp(p2+p3), in@(ba.sec2samp(p2)), 0); outputs input signal delayed by `start` seconds for `dur` seconds start and dur in samples i think the muted signal will still be computed, so this is nothing like a csound schedule	import("stdfaust.lib"); schedule(in,start,dur) = in@(ba.sec2samp(start)) * gate with { gate = 1 + -1@(ba.sec2samp(start+dur)); }; scheduleSamp(in,start,dur) = in@(start) * gate with { gate = 1 + -1@(start+dur); }; process = scheduleSamp(no.pink_noise,44100,2*44100);
cd182ed664f1b58fa959922d13f3f5f14b8c70b676ca659b0f0bc7db59193b91	tomara-x/magi	non-par-sequence.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); trig = ba.beat(128); x = ba.counter(trig : ba.resetCtr(8,1))%14; y = ba.counter(trig)%8; num(i,j) = f(j)+g(j)i with { f(x) = rdtable(waveform{1,4,5,6,7,2,5,1},x); g(x) = rdtable(waveform{1,3,0,6,8,2,3,0},x); }; //sure you can table the scale gate = ba.pulsen(S0.75,S) with{S=ba.sec2samp(1/((128)/60));}; rat = scale : ba.selectn(outputs(scale),num(x,y)%16); midc = 261.626; frq = midcrat; sig = pm.nylonGuitar(pm.f2l(frq/4),0.05,0.8,gate); process = sig <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/bcf22a4ef23899cd8ce3bf5e08e374994907f81a/practice/non-par-sequence.dsp	faust	sure you can table the scale	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); trig = ba.beat(128); x = ba.counter(trig : ba.resetCtr(8,1))%14; y = ba.counter(trig)%8; num(i,j) = f(j)+g(j)i with { f(x) = rdtable(waveform{1,4,5,6,7,2,5,1},x); g(x) = rdtable(waveform{1,3,0,6,8,2,3,0},x); }; gate = ba.pulsen(S0.75,S) with{S=ba.sec2samp(1/((128)/60));}; rat = scale : ba.selectn(outputs(scale),num(x,y)%16); midc = 261.626; frq = midcrat; sig = pm.nylonGuitar(pm.f2l(frq/4),0.05,0.8,gate); process = sig <: dm.freeverb_demo;
58b770524f46d712c86e4fc658359b5117b744b32dd6db8a4f9cc3eeb429d909	tomara-x/magi	poly.dsp	//trans rights import("stdfaust.lib"); trig2gate(t,time) = t : ba.peakholder(ba.sec2samp(time)); bpm = 96; //polyriddim htrig = ba.beat(bpm3); hbeat = ba.cycle(12, htrig) : _,!,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kbeat = ba.cycle(16, ktrig) : _,!,!,!,_,!,!,!,_,!,!,!,_,!,!,! :> _; kick = sy.kick(44, 0.01, 0.001, .6, 1, trig2gate(kbeat,0.05)); /* //polymeter htrig = ba.beat(bpm4); hbeat = ba.cycle(12, htrig) : _,_,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kbeat = ba.cycle(16, ktrig) : _,_,!,!,_,!,!,!,_,!,!,!,_,!,!,! :> _; kick = sy.kick(44, 0.01, 0.001, .6, 1, trig2gate(kbeat,0.05)); */ process = kick+hat <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/43f5af6acb97973b3b82004f433925851b44d7d0/practice/poly.dsp	faust	trans rights polyriddim //polymeter htrig = ba.beat(bpm4); hbeat = ba.cycle(12, htrig) : _,_,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kbeat = ba.cycle(16, ktrig) : _,_,!,!,_,!,!,!,_,!,!,!,_,!,!,! :> _; kick = sy.kick(44, 0.01, 0.001, .6, 1, trig2gate(kbeat,0.05));	import("stdfaust.lib"); trig2gate(t,time) = t : ba.peakholder(ba.sec2samp(time)); bpm = 96; htrig = ba.beat(bpm3); hbeat = ba.cycle(12, htrig) : _,!,!,!,_,!,!,!,_,!,!,! :> _; hat = sy.hat(3100,18e3,0.0005,0,hbeat); ktrig = ba.beat(bpm4); kbeat = ba.cycle(16, ktrig) : _,!,!,!,_,!,!,!,_,!,!,!,_,!,!,! :> _; kick = sy.kick(44, 0.01, 0.001, .6, 1, trig2gate(kbeat,0.05)); process = kick+hat <: dm.freeverb_demo;
cc34d85828e9d682711d27b60a8b3b3b1275701a330c517122f6f4bd42eaa1b2	tomara-x/magi	16x4.dsp	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian,4); N = outputs(scale); trig = ba.beat(1104); z = ba.counter(trig : ba.resetCtr(N4,1))%16; x = ba.counter(trig : ba.resetCtr(8,1))%N; y = ba.counter(trig)%8; num(i,j,k) = f(j) +g(j)i +h(j)k with { f(x) = rdtable(waveform{1,1,1,1,1,1,1,1},x); g(x) = rdtable(waveform{0,3,0,0,1,2,0,-1},x); h(x) = rdtable(waveform{1,6,8,6,4,3,6,2},x); }; rat = scale : ba.selectn(N,num(x,y,z)%N); midc = 261.626; frq = midcrat; b = ba.sec2samp((60/440)8N); //not sure t = ba.pulsen(b*.5, b); kick = sy.kick(44, 0.01, 0.001, 8, 1, t); process = frq/4 : os.saw3 : fi.resonlp(2000,6,0.1) + kick <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/3c6d8955bd97df4312d9ce0bfdd88e8f5dd930ce/practice/16x4.dsp	faust	not sure	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian,4); N = outputs(scale); trig = ba.beat(1104); z = ba.counter(trig : ba.resetCtr(N4,1))%16; x = ba.counter(trig : ba.resetCtr(8,1))%N; y = ba.counter(trig)%8; num(i,j,k) = f(j) +g(j)i +h(j)k with { f(x) = rdtable(waveform{1,1,1,1,1,1,1,1},x); g(x) = rdtable(waveform{0,3,0,0,1,2,0,-1},x); h(x) = rdtable(waveform{1,6,8,6,4,3,6,2},x); }; rat = scale : ba.selectn(N,num(x,y,z)%N); midc = 261.626; frq = midcrat; t = ba.pulsen(b*.5, b); kick = sy.kick(44, 0.01, 0.001, 8, 1, t); process = frq/4 : os.saw3 : fi.resonlp(2000,6,0.1) + kick <: dm.freeverb_demo;
dc12b942e9bf041723ee6e1cc02322358d5f5c4e903063fe6400c5adabf71195	tomara-x/magi	bricks.dsp	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian,4); //4 octaves of the scale N = outputs(scale); //number of notes in selected range trig1 = ba.beat(1104); //quarter notes at 110 bpm trig2 = trig1 : ba.resetCtr(16,1); //pulse every 16th trig1 trig3 = trig2 : ba.resetCtr(8,1); //pulse every 8th trig2 x = ba.counter(trig1)%16; //16 steps y = ba.counter(trig2)%N; z = ba.counter(trig3)%32; index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{2,3,1,3,1,2,0,2,0,8,3,1,0,0,0,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,6,8,4,7,4,9,4,7},x); }; rat = scale : ba.selectn(N,index(x,y,z)%N); midc = 261.626; frq = midcrat; env = en.adsr(0,0,1,0.2,trig1); mel = frq/2 : os.squareenv0.1 : ve.moog_vcf(0.6,midc4env); t = trig3 : ba.peakholder(2ba.sec2samp(60/110)); kick = sy.kick(44, 0.03, 0.001, 4, 1, t); process = mel + kick <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/37cf21ae35d717fee9899faed16359efff3e7cd7/practice/bricks.dsp	faust	4 octaves of the scale number of notes in selected range quarter notes at 110 bpm pulse every 16th trig1 pulse every 8th trig2 16 steps	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); y = ba.counter(trig2)%N; z = ba.counter(trig3)%32; index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{2,3,1,3,1,2,0,2,0,8,3,1,0,0,0,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,6,8,4,7,4,9,4,7},x); }; rat = scale : ba.selectn(N,index(x,y,z)%N); midc = 261.626; frq = midcrat; env = en.adsr(0,0,1,0.2,trig1); mel = frq/2 : os.squareenv0.1 : ve.moog_vcf(0.6,midc4env); t = trig3 : ba.peakholder(2*ba.sec2samp(60/110)); kick = sy.kick(44, 0.03, 0.001, 4, 1, t); process = mel + kick <: dm.freeverb_demo;
0bba4e761007ebb4d4ea709749b20cf692ba95219128d0944f5acbc273ecba8e	tomara-x/magi	brickgirl.dsp	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); scale = scaleRep(qu.lydian,4); //4 octaves of the scale N = outputs(scale); //number of notes in selected range trig1 = ba.beat(1104); //quarter notes at 110 bpm trig2 = trig1 : ba.resetCtr(16,1); //pulse every 16th trig1 trig3 = trig2 : ba.resetCtr(4,1); //pulse every 4th trig2 x = ba.counter(trig1)%16; //16 steps // y = ba.counter(trig2)%N; // z = ba.counter(trig3)%8; y = hslider("y",0,0,64,1); z = hslider("z",0,0,64,1); index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{1,0,0,0,1,0,0,2,0,7,0,1,0,0,1,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,0,0,0,0,4,9,0,7},x); }; rat = scale : ba.selectn(N,index(x,y,z)%N); midc = 261.626; frq = midcrat; trig2gate(trig,time) = trig : ba.peakholder(ba.sec2samp(time)); t = trig2gate(trig3,260/110); kick = sy.kick(44, 0.03, 0.001, 4, 1, t); env = en.adsr(0,0,1,0.2,trig1); // mel = frq/2 : os.square0.1(env+0.1) : ve.moog_vcf(0.1,midc8(env+0.5)); // mel = frq/2 : os.squareenv0.1 : ve.moog_vcf(0.9,midc4env+midc2); mel = frq : os.squareenv : fi.resonlp(midc16env+midc*2,4,0.1); process = mel + kick <: dm.freeverb_demo;	https://raw.githubusercontent.com/tomara-x/magi/7719ba50f5262137187a242bf3b38c5e36674e0f/practice/brickgirl.dsp	faust	4 octaves of the scale number of notes in selected range quarter notes at 110 bpm pulse every 16th trig1 pulse every 4th trig2 16 steps y = ba.counter(trig2)%N; z = ba.counter(trig3)%8; mel = frq/2 : os.square0.1(env+0.1) : ve.moog_vcf(0.1,midc8(env+0.5)); mel = frq/2 : os.squareenv0.1 : ve.moog_vcf(0.9,midc4env+midc*2);	import("stdfaust.lib"); scaleRep(scal,octs) = par(i,octs,par(j,outputs(scal),ba.take(j+1,scal)(i+1))); y = hslider("y",0,0,64,1); z = hslider("z",0,0,64,1); index(i,j,k) = f(i) +g(i)j +h(i)k with { f(x) = rdtable(waveform{0,0,2,0,5,0,7,3,6,3,1,0,5,3,7,2},x); g(x) = rdtable(waveform{1,0,0,0,1,0,0,2,0,7,0,1,0,0,1,0},x); h(x) = rdtable(waveform{1,6,5,2,1,9,1,3,0,0,0,0,4,9,0,7},x); }; rat = scale : ba.selectn(N,index(x,y,z)%N); midc = 261.626; frq = midcrat; trig2gate(trig,time) = trig : ba.peakholder(ba.sec2samp(time)); t = trig2gate(trig3,260/110); kick = sy.kick(44, 0.03, 0.001, 4, 1, t); env = en.adsr(0,0,1,0.2,trig1); mel = frq : os.squareenv : fi.resonlp(midc16env+midc*2,4,0.1); process = mel + kick <: dm.freeverb_demo;
f738f67423e5c7fe4f4513e680e23e64696aaf89a33c83fec3770566988509c9	tomara-x/magi	uvgirl.dsp	// this is a very unfaithful replication of one aspeect of msr [https://aria.dog/modules] // thank you aria <3 import("stdfaust.lib"); N = 16; //number of steps index(t,x,y,z) = f(t) +g(t)x +h(t)y +i(t)z with { //quarter tones enough? f(n) = hgroup("[3]t val", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); g(n) = hgroup("[4]x mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); h(n) = hgroup("[5]y mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); i(n) = hgroup("[6]z mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); }; trig = ba.beat(hgroup("[0]main",hslider("[0]bpm",120,1,960,1)4)); ratio = ba.semi2ratio((index(t,x,y,z)%maxrange)+minrange) with { t = ba.counter(trig)%hgroup("[0]main",hslider("[2]active steps",N,1,N,1)); x = hgroup("[1]dimension", hslider("[0]x mult",1,0,64,1)); y = hgroup("[1]dimension", hslider("[1]y mult",1,0,64,1)); z = hgroup("[1]dimension", hslider("[2]z mult",1,0,64,1)); minrange = hgroup("[7]range", hslider("[0]min", 0, 0, 128, 1)); maxrange = hgroup("[7]range", hslider("[1]max", 36, 1, 128, 1)); }; midc = 261.626; root = hgroup("[0]main",hslider("[1]root note", 0,0,11,1)); oct = hgroup("[7]range",hslider("[2]octave", 0,-8,8,1)); frq = midc2^(root/12)ratio * 2^oct; //commiting crimes since 2012 mel = frq : os.square(envose+(1-ose)) <: fi.resonlp(cf1cfmult1(envcf1e+(1-cf1e))+cf1, q1((env+0.01)q1e+(1-q1e)),gain1), fi.resonlp(cf2cfmult2(envcf2e+(1-cf2e))+cf1, q2((env+0.01)q2e+(1-q2e)),gain2) :> aa.clip(-clip,clip) * pgain with { etrig = sum(i,N,trig : ba.resetCtr(N,i+1) * hgroup("[2]env",nentry("[%2i] %2i",1,0,1,1))); rel = hgroup("[8]misc", vslider("[0] release",0.1,0,2,0.001)); env = en.ar(0,rel,etrig); cf1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[0] cf",261.626,1,261.626,1))); cfmult1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[1] cf mult",1,1,64,1))); q1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[2] Q",1,1,100,1))); gain1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[3] gain",0.1,0,2,0.01))); cf2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf",261.626,1,261.626,1))); cfmult2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf mult",1,1,64,1))); q2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[1] Q",1,1,100,1))); gain2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[2] gain",0.1,0,2,0.01))); clip = hgroup("[8]misc",vslider("[4] clip",1,0,1,0.001)); pgain = hgroup("[8]misc",vslider("[5] post gain",1,0,16,0.001)); //make those db ose = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[0] osc"))); cf1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[1] cf1"))); cf2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[2] cf2"))); q1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[3] q1"))); q2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[4] q2"))); }; midi = ba.hz2midikey(frq) : hgroup("[8]misc",vbargraph("midi",0,128)); process = attach(mel, midi) <: hgroup("[8]misc",dm.freeverb_demo);	https://raw.githubusercontent.com/tomara-x/magi/8d2cbf25c960afe0d69929d30d2a43669ed3c31d/practice/uvgirl.dsp	faust	this is a very unfaithful replication of one aspeect of msr [https://aria.dog/modules] thank you aria <3 number of steps quarter tones enough? commiting crimes since 2012 make those db	import("stdfaust.lib"); index(t,x,y,z) = f(t) +g(t)x +h(t)y +i(t)z with { f(n) = hgroup("[3]t val", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); g(n) = hgroup("[4]x mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); h(n) = hgroup("[5]y mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); i(n) = hgroup("[6]z mod", par(j,N, nentry("[%2j] %2j",0,-24,24,0.5))) : ba.selectn(N,n); }; trig = ba.beat(hgroup("[0]main",hslider("[0]bpm",120,1,960,1)4)); ratio = ba.semi2ratio((index(t,x,y,z)%maxrange)+minrange) with { t = ba.counter(trig)%hgroup("[0]main",hslider("[2]active steps",N,1,N,1)); x = hgroup("[1]dimension", hslider("[0]x mult",1,0,64,1)); y = hgroup("[1]dimension", hslider("[1]y mult",1,0,64,1)); z = hgroup("[1]dimension", hslider("[2]z mult",1,0,64,1)); minrange = hgroup("[7]range", hslider("[0]min", 0, 0, 128, 1)); maxrange = hgroup("[7]range", hslider("[1]max", 36, 1, 128, 1)); }; midc = 261.626; root = hgroup("[0]main",hslider("[1]root note", 0,0,11,1)); oct = hgroup("[7]range",hslider("[2]octave", 0,-8,8,1)); frq = midc2^(root/12)ratio * 2^oct; mel = frq : os.square(envose+(1-ose)) <: fi.resonlp(cf1cfmult1(envcf1e+(1-cf1e))+cf1, q1((env+0.01)q1e+(1-q1e)),gain1), fi.resonlp(cf2cfmult2(envcf2e+(1-cf2e))+cf1, q2((env+0.01)q2e+(1-q2e)),gain2) :> aa.clip(-clip,clip) * pgain with { etrig = sum(i,N,trig : ba.resetCtr(N,i+1) * hgroup("[2]env",nentry("[%2i] %2i",1,0,1,1))); rel = hgroup("[8]misc", vslider("[0] release",0.1,0,2,0.001)); env = en.ar(0,rel,etrig); cf1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[0] cf",261.626,1,261.626,1))); cfmult1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[1] cf mult",1,1,64,1))); q1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[2] Q",1,1,100,1))); gain1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[3] gain",0.1,0,2,0.01))); cf2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf",261.626,1,261.626,1))); cfmult2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf mult",1,1,64,1))); q2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[1] Q",1,1,100,1))); gain2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[2] gain",0.1,0,2,0.01))); clip = hgroup("[8]misc",vslider("[4] clip",1,0,1,0.001)); ose = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[0] osc"))); cf1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[1] cf1"))); cf2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[2] cf2"))); q1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[3] q1"))); q2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[4] q2"))); }; midi = ba.hz2midikey(frq) : hgroup("[8]misc",vbargraph("midi",0,128)); process = attach(mel, midi) <: hgroup("[8]misc",dm.freeverb_demo);
12915103dd1ff74625f845d4826e11595633813e599c28a5f98b747f2ab1ecc6	tomara-x/magi	purplegirl.dsp	// this is a very unfaithful replication of one aspeect of msr [https://aria.dog/modules] // thank you aria <3 import("stdfaust.lib"); N = 16; //number of steps mode = qu.lydian; index(t,x,y,z) = f(t) +g(t)x +h(t)y +i(t)z with { f(n) = hgroup("[3]t val", par(j,N, nentry("[%2j] %2j",0,-14,14,1))) : ba.selectn(N,n); g(n) = hgroup("[4]x mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); h(n) = hgroup("[5]y mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); i(n) = hgroup("[6]z mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); }; trig = ba.beat(hgroup("[0]main",hslider("[0]bpm",120,1,960,1)4)); rat = ba.semi2ratio((index(t,x,y,z)%maxrange)+minrange) with { t = ba.counter(trig)%hgroup("[0]main",hslider("[2]active steps",N,1,N,1)); x = hgroup("[1]dimension", hslider("[0]x mult",1,0,64,1)); y = hgroup("[1]dimension", hslider("[1]y mult",1,0,64,1)); z = hgroup("[1]dimension", hslider("[2]z mult",1,0,64,1)); minrange = hgroup("[7]range", hslider("[0]min", 0, 0, 128, 1)); maxrange = hgroup("[7]range", hslider("[1]max", 36, 1, 128, 1)); }; midc = 261.626; oct = hgroup("[7]range",hslider("[2]octave", 0,-8,8,1)); root = hgroup("[0]main",hslider("[1]root note", 0,0,11,1)); frq = midc2^(root/12)rat : qu.quantize(midc,mode) * 2^oct; //commiting crimes since 2012 mel = frq : os.square(envose+(1-ose)) <: fi.resonlp(cf1cfmult1(envcf1e+(1-cf1e))+cf1, q1((env+0.01)q1e+(1-q1e)),gain1), fi.resonlp(cf2cfmult2(envcf2e+(1-cf2e))+cf1, q2((env+0.01)q2e+(1-q2e)),gain2) :> aa.clip(-clip,clip) * pgain with { etrig = sum(i,N,trig : ba.resetCtr(N,i+1) * hgroup("[2]env",nentry("[%2i] %2i",1,0,1,1))); rel = hgroup("[8]misc", vslider("[0] release",0.1,0,2,0.001)); env = en.ar(0,rel,etrig); cf1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[0] cf",261.626,1,261.626,1))); cfmult1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[1] cf mult",1,1,64,1))); q1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[2] Q",1,1,100,1))); gain1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[3] gain",0.1,0,2,0.01))); cf2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf",261.626,1,261.626,1))); cfmult2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf mult",1,1,64,1))); q2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[1] Q",1,1,100,1))); gain2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[2] gain",0.1,0,2,0.01))); clip = hgroup("[8]misc",vslider("[4] clip",1,0,1,0.001)); pgain = hgroup("[8]misc",vslider("[5] post gain",1,0,16,0.001)); //make those db ose = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[0] osc"))); cf1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[1] cf1"))); cf2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[2] cf2"))); q1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[3] q1"))); q2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[4] q2"))); }; process = mel <: hgroup("[8]misc",dm.freeverb_demo);	https://raw.githubusercontent.com/tomara-x/magi/8d2cbf25c960afe0d69929d30d2a43669ed3c31d/practice/purplegirl.dsp	faust	this is a very unfaithful replication of one aspeect of msr [https://aria.dog/modules] thank you aria <3 number of steps commiting crimes since 2012 make those db	import("stdfaust.lib"); mode = qu.lydian; index(t,x,y,z) = f(t) +g(t)x +h(t)y +i(t)z with { f(n) = hgroup("[3]t val", par(j,N, nentry("[%2j] %2j",0,-14,14,1))) : ba.selectn(N,n); g(n) = hgroup("[4]x mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); h(n) = hgroup("[5]y mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); i(n) = hgroup("[6]z mod", par(j,N, nentry("[%2j] %2j",1,-14,14,1))) : ba.selectn(N,n); }; trig = ba.beat(hgroup("[0]main",hslider("[0]bpm",120,1,960,1)4)); rat = ba.semi2ratio((index(t,x,y,z)%maxrange)+minrange) with { t = ba.counter(trig)%hgroup("[0]main",hslider("[2]active steps",N,1,N,1)); x = hgroup("[1]dimension", hslider("[0]x mult",1,0,64,1)); y = hgroup("[1]dimension", hslider("[1]y mult",1,0,64,1)); z = hgroup("[1]dimension", hslider("[2]z mult",1,0,64,1)); minrange = hgroup("[7]range", hslider("[0]min", 0, 0, 128, 1)); maxrange = hgroup("[7]range", hslider("[1]max", 36, 1, 128, 1)); }; midc = 261.626; oct = hgroup("[7]range",hslider("[2]octave", 0,-8,8,1)); root = hgroup("[0]main",hslider("[1]root note", 0,0,11,1)); frq = midc2^(root/12)rat : qu.quantize(midc,mode) * 2^oct; mel = frq : os.square(envose+(1-ose)) <: fi.resonlp(cf1cfmult1(envcf1e+(1-cf1e))+cf1, q1((env+0.01)q1e+(1-q1e)),gain1), fi.resonlp(cf2cfmult2(envcf2e+(1-cf2e))+cf1, q2((env+0.01)q2e+(1-q2e)),gain2) :> aa.clip(-clip,clip) * pgain with { etrig = sum(i,N,trig : ba.resetCtr(N,i+1) * hgroup("[2]env",nentry("[%2i] %2i",1,0,1,1))); rel = hgroup("[8]misc", vslider("[0] release",0.1,0,2,0.001)); env = en.ar(0,rel,etrig); cf1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[0] cf",261.626,1,261.626,1))); cfmult1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[1] cf mult",1,1,64,1))); q1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[2] Q",1,1,100,1))); gain1 = hgroup("[8]misc", hgroup("[1]filter1", vslider("[3] gain",0.1,0,2,0.01))); cf2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf",261.626,1,261.626,1))); cfmult2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[0] cf mult",1,1,64,1))); q2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[1] Q",1,1,100,1))); gain2 = hgroup("[8]misc", hgroup("[2]filter2", vslider("[2] gain",0.1,0,2,0.01))); clip = hgroup("[8]misc",vslider("[4] clip",1,0,1,0.001)); ose = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[0] osc"))); cf1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[1] cf1"))); cf2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[2] cf2"))); q1e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[3] q1"))); q2e = hgroup("[8]misc",vgroup("[3] env mod", checkbox("[4] q2"))); }; process = mel <: hgroup("[8]misc",dm.freeverb_demo);
10d6f3ee1ac3262005dd03042cae2278b3d8ea484e4783cd1aa8fc96c8326d68	tomara-x/magi	adhesivegirl.dsp	//trans rights declare name "adhesivegirl"; declare author "amy universe"; declare version "0.11"; declare license "WTFPL"; declare options "[midi:on][nvoices:8]"; import("stdfaust.lib"); //TODO: meditate on the hz shift N = 16; //oscillators per group //frequency of each partial, making sure it's in range [10 to sr/2] Hz, //going into oscillators, mult by 0 for inactive ones, mult by envelopes and velocity, //then summed into filter (tracking key), and divided for loudness group(x) = par(i,N, frq(i) : max(10) : min(ma.SR/2) : os.osc (i<m) env(i) * vel) :> fi.svf.lp(min(frq(0)+offset,ma.SR/2),q)/N with { offset = vslider("v:[0]part/[1]filter cf [style:knob]",0,0,1e4,0.1); q = vslider("v:[0]part/[2]filter q [style:knob]",1,0.001,4,0.001); m = vslider("v:[0]part/[0]n [style:knob]",N,0,N,1); noise = no.multinoise(N); rnd(i) = noise : ba.selector(i,N); //midi key frequency, shifted by group shift, then by partial shift, all shifted by group and partial //semitone shift, then frequency randomness is added frq(i) = (base_frq + gshift_hz + ipshift_hz) 2^(gshift_sm/12) * 2^(pshift_smi/12) (2^(rnd_amtrnd(i)/12) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter)) //FIX: glides from 0 to 1 when no rnd with { gshift_hz = vslider("v:[2]freq/h:[0]group shift/hz [style:knob]",0,0,2000,0.1); gshift_sm = vslider("v:[2]freq/h:[0]group shift/semi [style:knob]",0,-48,48,0.1); pshift_hz = vslider("v:[2]freq/h:[1]partial shift/hz [style:knob]",0,0,2000,0.1); pshift_sm = vslider("v:[2]freq/h:[1]partial shift/semi [style:knob]",0,-24,24,0.1); rnd_amt = vslider("v:[1]noise/[0]rnd amount [style:knob]",0,0,48,0.1); noise_rate = vslider("v:[1]noise/[1]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("v:[1]noise/[2]filter [style:knob]",20,1,200,1); }; //envelope segments, each with its own randomess amount, rate, and smoothness env(i) = gate : en.adsr(a+ar,d+dr,min(max(s+sr,0),1),r+rr) with { a = vslider("h:[a]env/v:[0]attack/[0]attack [style:knob]",0,0,1,0.0001); ar = att_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { att_rnd = vslider("h:[a]env/v:[0]attack/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[0]attack/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[0]attack/[3]filter [style:knob]",20,1,200,1); }; d = vslider("h:[a]env/v:[1]decay/[0]decay [style:knob]",0,0,1,0.0001); dr = dec_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { dec_rnd = vslider("h:[a]env/v:[1]decay/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[1]decay/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[1]decay/[3]filter [style:knob]",20,1,200,1); }; s = vslider("h:[a]env/v:[2]sustain/[0]sustain [style:knob]",0,0,1,0.0001); sr = sus_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { sus_rnd = vslider("h:[a]env/v:[2]sustain/[1]rnd amount [style:knob]",0,0,1,0.001); noise_rate = vslider("h:[a]env/v:[2]sustain/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[2]sustain/[3]filter [style:knob]",20,1,200,1); }; r = vslider("h:[a]env/v:[3]release/[0]release [style:knob]",0.01,0,1,0.0001); rr = rel_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { rel_rnd = vslider("h:[a]env/v:[3]release/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[3]release/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[3]release/[3]filter [style:knob]",20,1,200,1); }; }; }; G = 4; //number of groups process = tgroup("adhesivegirl",par(i,G,hgroup("%i",group(i)))) :> _/G <: _,_; //midi base_frq = nentry("/t:adhesivegirl/h:midistuff/freq",0,0,2e4,1)*bend; gate = button("/t:adhesivegirl/h:midistuff/gate"); vel = nentry("/t:adhesivegirl/h:midistuff/gain",0.5,0,1,0.01); bend = ba.semi2ratio(hslider("/t:adhesivegirl/h:midistuff/bend[midi:pitchwheel]",0,-2,2,0.01)) : si.polySmooth(gate,0.999,1);	https://raw.githubusercontent.com/tomara-x/magi/4eb4d7540a5d6df447873f1e661c3f9ffc44a312/source/adhesivegirl.dsp	faust	trans rights TODO: meditate on the hz shift oscillators per group frequency of each partial, making sure it's in range [10 to sr/2] Hz, going into oscillators, mult by 0 for inactive ones, mult by envelopes and velocity, then summed into filter (tracking key), and divided for loudness midi key frequency, shifted by group shift, then by partial shift, all shifted by group and partial semitone shift, then frequency randomness is added FIX: glides from 0 to 1 when no rnd envelope segments, each with its own randomess amount, rate, and smoothness number of groups midi	declare name "adhesivegirl"; declare author "amy universe"; declare version "0.11"; declare license "WTFPL"; declare options "[midi:on][nvoices:8]"; import("stdfaust.lib"); group(x) = par(i,N, frq(i) : max(10) : min(ma.SR/2) : os.osc (i<m) env(i) * vel) :> fi.svf.lp(min(frq(0)+offset,ma.SR/2),q)/N with { offset = vslider("v:[0]part/[1]filter cf [style:knob]",0,0,1e4,0.1); q = vslider("v:[0]part/[2]filter q [style:knob]",1,0.001,4,0.001); m = vslider("v:[0]part/[0]n [style:knob]",N,0,N,1); noise = no.multinoise(N); rnd(i) = noise : ba.selector(i,N); frq(i) = (base_frq + gshift_hz + ipshift_hz) 2^(gshift_sm/12) * 2^(pshift_smi/12) with { gshift_hz = vslider("v:[2]freq/h:[0]group shift/hz [style:knob]",0,0,2000,0.1); gshift_sm = vslider("v:[2]freq/h:[0]group shift/semi [style:knob]",0,-48,48,0.1); pshift_hz = vslider("v:[2]freq/h:[1]partial shift/hz [style:knob]",0,0,2000,0.1); pshift_sm = vslider("v:[2]freq/h:[1]partial shift/semi [style:knob]",0,-24,24,0.1); rnd_amt = vslider("v:[1]noise/[0]rnd amount [style:knob]",0,0,48,0.1); noise_rate = vslider("v:[1]noise/[1]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("v:[1]noise/[2]filter [style:knob]",20,1,200,1); }; env(i) = gate : en.adsr(a+ar,d+dr,min(max(s+sr,0),1),r+rr) with { a = vslider("h:[a]env/v:[0]attack/[0]attack [style:knob]",0,0,1,0.0001); ar = att_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { att_rnd = vslider("h:[a]env/v:[0]attack/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[0]attack/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[0]attack/[3]filter [style:knob]",20,1,200,1); }; d = vslider("h:[a]env/v:[1]decay/[0]decay [style:knob]",0,0,1,0.0001); dr = dec_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { dec_rnd = vslider("h:[a]env/v:[1]decay/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[1]decay/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[1]decay/[3]filter [style:knob]",20,1,200,1); }; s = vslider("h:[a]env/v:[2]sustain/[0]sustain [style:knob]",0,0,1,0.0001); sr = sus_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { sus_rnd = vslider("h:[a]env/v:[2]sustain/[1]rnd amount [style:knob]",0,0,1,0.001); noise_rate = vslider("h:[a]env/v:[2]sustain/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[2]sustain/[3]filter [style:knob]",20,1,200,1); }; r = vslider("h:[a]env/v:[3]release/[0]release [style:knob]",0.01,0,1,0.0001); rr = rel_rndrnd(i) : ba.sAndH(ba.beat(noise_rate)) : fi.lowpass(1,noise_filter) with { rel_rnd = vslider("h:[a]env/v:[3]release/[1]rnd amount [style:knob]",0,0,10,0.001); noise_rate = vslider("h:[a]env/v:[3]release/[2]rate [style:knob]",20,0.1,200,0.1)60; noise_filter = vslider("h:[a]env/v:[3]release/[3]filter [style:knob]",20,1,200,1); }; }; }; process = tgroup("adhesivegirl",par(i,G,hgroup("%i",group(i)))) :> _/G <: _,_; base_frq = nentry("/t:adhesivegirl/h:midistuff/freq",0,0,2e4,1)bend; gate = button("/t:adhesivegirl/h:midistuff/gate"); vel = nentry("/t:adhesivegirl/h:midistuff/gain",0.5,0,1,0.01); bend = ba.semi2ratio(hslider("/t:adhesivegirl/h:midistuff/bend[midi:pitchwheel]",0,-2,2,0.01)) : si.polySmooth(gate,0.999,1);
850e920768821c1c40eeaf379f211e154414b45a675a96d43863698a89043ecd	tomara-x/magi	amaranthgirl.dsp	//trans rights //dedicated to the girl jamming with this <3 declare name "amaranthgirl"; declare author "amy universe"; declare version "10.05"; declare license "WTFPL"; import("stdfaust.lib"); N = 16; //number of steps // t val x offset y offset z offset abc offset semis(ta,tb,tc,mx,my,mz,ma,mb,mc) = t(ta) +x(ta)mx +y(ta)my +z(ta)mz +a(ta)ma, t(tb) +x(tb)mx +y(tb)my +z(tb)mz +b(tb)mb, t(tc) +x(tc)mx +y(tc)my +z(tc)mz +c(tc)mc : _,_,_ with { t(n) = par(j,N, nentry("h:amaranthgirl/v:[3]t val/[%2j] t %2j",0,-24,24,0.1)) : ba.selectn(N,n); x(n) = par(j,N, nentry("h:amaranthgirl/v:[4]x mod/[%2j] x %2j",0,-24,24,0.1)) : ba.selectn(N,n); y(n) = par(j,N, nentry("h:amaranthgirl/v:[5]y mod/[%2j] y %2j",0,-24,24,0.1)) : ba.selectn(N,n); z(n) = par(j,N, nentry("h:amaranthgirl/v:[6]z mod/[%2j] z %2j",0,-24,24,0.1)) : ba.selectn(N,n); a(n) = par(j,N, nentry("h:amaranthgirl/v:[7]a trans/[%2j] a %2j",0,-24,24,0.1)) : ba.selectn(N,n); b(n) = par(j,N, nentry("h:amaranthgirl/v:[8]b trans/[%2j] b %2j",0,-24,24,0.1)) : ba.selectn(N,n); c(n) = par(j,N, nentry("h:amaranthgirl/v:[9]c trans/[%2j] c %2j",0,-24,24,0.1)) : ba.selectn(N,n); }; frqs = semis(ta,tb,tc,mx,my,mz,ma,mb,mc) : par(i,3, %(maxrange) : ba.semi2ratio : (rootf2^oct)) <: _,_,_,par(i,3,qu.quantize(rootf,qu.ionian)),par(i,3,qu.quantize(rootf,qu.eolian)) : f(key) : _,_,_ with { trig1 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[0]bpm a",120,0,600000,0.001)4); trig2 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[1]bpm b",120,0,600000,0.001)4); trig3 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[2]bpm c",120,0,600000,0.001)4); ta = ba.counter(trig1)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[0]steps a",N,1,N,1); tb = ba.counter(trig2)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[1]steps b",N,1,N,1); tc = ba.counter(trig3)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[2]steps c",N,1,N,1); mx = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[0]x [style:knob]",1,0,64,1); my = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[1]y [style:knob]",1,0,64,1); mz = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[2]z [style:knob]",1,0,64,1); ma = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]a [style:knob]",1,0,64,1); mb = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]b [style:knob]",1,0,64,1); mc = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]c [style:knob]",1,0,64,1); maxrange = hslider("h:amaranthgirl/v:[a]controls/h:[d]range/[1]max [style:knob]", 36, 1, 128, 0.1); midc = 2202^(3/12); rootf = midc * 2^(nentry("h:amaranthgirl/v:[a]controls/h:[0]key/[2]root note", 0,0,11.5,0.1)/12); oct = hslider("h:amaranthgirl/v:[a]controls/h:[d]range/[2]octave [style:knob]", 0,-8,8,1); f(n) = par(i,9,_) <: par(i,3,ba.selectn(9,n3+i)); //output nth 3 signals of the 9 inputs key = hslider("h:amaranthgirl/v:[a]controls/h:[0]key/[1]quantization [style:menu{'none':0;'major':1;'minor':2}]",0,0,2,1); }; process = frqs :os.squareagainen.are(0,arel,atrig), os.squarebgainen.are(0,brel,btrig), os.squarecgainen.are(0,crel,ctrig) :> fi.svf.lp(cf1,q1) : aa.clip(-clp,clp)pgain : fi.svf.lp(cf2,q2) <: _,_ with { arel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[0]a [style:knob]",0.1,0,8,0.00001); brel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[1]b [style:knob]",0.1,0,8,0.00001); crel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[2]c [style:knob]",0.1,0,8,0.00001); aclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm a",120,0,600000,0.001)4); bclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm b",120,0,600000,0.001)4); cclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm c",120,0,600000,0.001)4); //sorry! this way we go N,1,2,...,N-1 atrig = sum(i,N,aclk : ba.resetCtr(N,(N+i-1)%N+1) checkbox("h:amaranthgirl/v:[0]env trig a/[%2i] a %2i")); btrig = sum(i,N,bclk : ba.resetCtr(N,(N+i-1)%N+1) * checkbox("h:amaranthgirl/v:[1]env trig b/[%2i] b %2i")); ctrig = sum(i,N,cclk : ba.resetCtr(N,(N+i-1)%N+1) * checkbox("h:amaranthgirl/v:[2]env trig c/[%2i] c %2i")); cf1 = vslider("h:amaranthgirl/v:[b]voice/h:[2]filter 1/[0]cf [style:knob]",20000,0,21000,0.001); cf2 = vslider("h:amaranthgirl/v:[b]voice/h:[4]filter 2/[0]cf [style:knob]",20000,0,21000,0.001); q1 = vslider("h:amaranthgirl/v:[b]voice/h:[2]filter 1/[1]q [style:knob]",1,0.001,100,0.001); q2 = vslider("h:amaranthgirl/v:[b]voice/h:[4]filter 2/[1]q [style:knob]",1,0.001,100,0.001); again = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]a [style:knob]",0.1,0,2,0.001); bgain = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]b [style:knob]",0.1,0,2,0.001); cgain = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]c [style:knob]",0.1,0,2,0.001); clp = vslider("h:amaranthgirl/v:[b]voice/h:[3]post/[0]clip [style:knob]",0.5,0,1,0.001); pgain = vslider("h:amaranthgirl/v:[b]voice/h:[3]post/[1]gain [style:knob]",0.5,0,2,0.001); };	https://raw.githubusercontent.com/tomara-x/magi/d7c8c6b959f4685e86230266f01d00f5fa3f1535/amaranthgirl.dsp	faust	trans rights dedicated to the girl jamming with this <3 number of steps t val x offset y offset z offset abc offset output nth 3 signals of the 9 inputs sorry! this way we go N,1,2,...,N-1	declare name "amaranthgirl"; declare author "amy universe"; declare version "10.05"; declare license "WTFPL"; import("stdfaust.lib"); semis(ta,tb,tc,mx,my,mz,ma,mb,mc) = t(ta) +x(ta)mx +y(ta)my +z(ta)mz +a(ta)ma, t(tb) +x(tb)mx +y(tb)my +z(tb)mz +b(tb)mb, t(tc) +x(tc)mx +y(tc)my +z(tc)mz +c(tc)mc : _,_,_ with { t(n) = par(j,N, nentry("h:amaranthgirl/v:[3]t val/[%2j] t %2j",0,-24,24,0.1)) : ba.selectn(N,n); x(n) = par(j,N, nentry("h:amaranthgirl/v:[4]x mod/[%2j] x %2j",0,-24,24,0.1)) : ba.selectn(N,n); y(n) = par(j,N, nentry("h:amaranthgirl/v:[5]y mod/[%2j] y %2j",0,-24,24,0.1)) : ba.selectn(N,n); z(n) = par(j,N, nentry("h:amaranthgirl/v:[6]z mod/[%2j] z %2j",0,-24,24,0.1)) : ba.selectn(N,n); a(n) = par(j,N, nentry("h:amaranthgirl/v:[7]a trans/[%2j] a %2j",0,-24,24,0.1)) : ba.selectn(N,n); b(n) = par(j,N, nentry("h:amaranthgirl/v:[8]b trans/[%2j] b %2j",0,-24,24,0.1)) : ba.selectn(N,n); c(n) = par(j,N, nentry("h:amaranthgirl/v:[9]c trans/[%2j] c %2j",0,-24,24,0.1)) : ba.selectn(N,n); }; frqs = semis(ta,tb,tc,mx,my,mz,ma,mb,mc) : par(i,3, %(maxrange) : ba.semi2ratio : (rootf2^oct)) <: _,_,_,par(i,3,qu.quantize(rootf,qu.ionian)),par(i,3,qu.quantize(rootf,qu.eolian)) : f(key) : _,_,_ with { trig1 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[0]bpm a",120,0,600000,0.001)4); trig2 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[1]bpm b",120,0,600000,0.001)4); trig3 = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[2]seq speed/[2]bpm c",120,0,600000,0.001)4); ta = ba.counter(trig1)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[0]steps a",N,1,N,1); tb = ba.counter(trig2)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[1]steps b",N,1,N,1); tc = ba.counter(trig3)%nentry("h:amaranthgirl/v:[a]controls/h:[1]length/[2]steps c",N,1,N,1); mx = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[0]x [style:knob]",1,0,64,1); my = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[1]y [style:knob]",1,0,64,1); mz = hslider("h:amaranthgirl/v:[a]controls/h:[3]mult/[2]z [style:knob]",1,0,64,1); ma = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]a [style:knob]",1,0,64,1); mb = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]b [style:knob]",1,0,64,1); mc = hslider("h:amaranthgirl/v:[a]controls/h:[4]trans mult/[0]c [style:knob]",1,0,64,1); maxrange = hslider("h:amaranthgirl/v:[a]controls/h:[d]range/[1]max [style:knob]", 36, 1, 128, 0.1); midc = 2202^(3/12); rootf = midc * 2^(nentry("h:amaranthgirl/v:[a]controls/h:[0]key/[2]root note", 0,0,11.5,0.1)/12); oct = hslider("h:amaranthgirl/v:[a]controls/h:[d]range/[2]octave [style:knob]", 0,-8,8,1); key = hslider("h:amaranthgirl/v:[a]controls/h:[0]key/[1]quantization [style:menu{'none':0;'major':1;'minor':2}]",0,0,2,1); }; process = frqs :os.squareagainen.are(0,arel,atrig), os.squarebgainen.are(0,brel,btrig), os.squarecgainen.are(0,crel,ctrig) :> fi.svf.lp(cf1,q1) : aa.clip(-clp,clp)pgain : fi.svf.lp(cf2,q2) <: _,_ with { arel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[0]a [style:knob]",0.1,0,8,0.00001); brel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[1]b [style:knob]",0.1,0,8,0.00001); crel = vslider("h:amaranthgirl/v:[b]voice/h:[1]env release/[2]c [style:knob]",0.1,0,8,0.00001); aclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm a",120,0,600000,0.001)4); bclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm b",120,0,600000,0.001)4); cclk = ba.beat(nentry("h:amaranthgirl/v:[a]controls/h:[3]env clock/bpm c",120,0,600000,0.001)4); atrig = sum(i,N,aclk : ba.resetCtr(N,(N+i-1)%N+1) * checkbox("h:amaranthgirl/v:[0]env trig a/[%2i] a %2i")); btrig = sum(i,N,bclk : ba.resetCtr(N,(N+i-1)%N+1) * checkbox("h:amaranthgirl/v:[1]env trig b/[%2i] b %2i")); ctrig = sum(i,N,cclk : ba.resetCtr(N,(N+i-1)%N+1) * checkbox("h:amaranthgirl/v:[2]env trig c/[%2i] c %2i")); cf1 = vslider("h:amaranthgirl/v:[b]voice/h:[2]filter 1/[0]cf [style:knob]",20000,0,21000,0.001); cf2 = vslider("h:amaranthgirl/v:[b]voice/h:[4]filter 2/[0]cf [style:knob]",20000,0,21000,0.001); q1 = vslider("h:amaranthgirl/v:[b]voice/h:[2]filter 1/[1]q [style:knob]",1,0.001,100,0.001); q2 = vslider("h:amaranthgirl/v:[b]voice/h:[4]filter 2/[1]q [style:knob]",1,0.001,100,0.001); again = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]a [style:knob]",0.1,0,2,0.001); bgain = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]b [style:knob]",0.1,0,2,0.001); cgain = vslider("h:amaranthgirl/v:[b]voice/h:[0]gain/[0]c [style:knob]",0.1,0,2,0.001); clp = vslider("h:amaranthgirl/v:[b]voice/h:[3]post/[0]clip [style:knob]",0.5,0,1,0.001); pgain = vslider("h:amaranthgirl/v:[b]voice/h:[3]post/[1]gain [style:knob]",0.5,0,2,0.001); };
e4cfe57d015b037076c667671e1e6707832257eb15c373519146000fa2b4cd98	tomara-x/magi	quamarotorgirl.dsp	//trans rights declare name "quamarotorgirl"; declare author "amy universe"; declare version "0.05"; declare license "WTFPL"; import("stdfaust.lib"); //amaranth connected to quadrotorgirl //but frequency a controls the grain frequency, b controls gate 1, and c controls gate 2 N = 16; //number of steps bi2uni = _ : +(1) : /(2) : _; // t val x offset y offset z offset abc offset semis(ta,mx,my,mz,ma,mb,mc) = t(ta) +x(ta)mx +y(ta)my +z(ta)mz +a(ta)ma, t(ta) +x(ta)mx +y(ta)my +z(ta)mz +b(ta)mb, t(ta) +x(ta)mx +y(ta)my +z(ta)mz +c(ta)mc : _,_,_ with { t(n) = par(j,N, nentry("h:[0]seq/v:[5]t val/[%2j] t %2j",0,-24,24,0.1)) : ba.selectn(N,n); x(n) = par(j,N, nentry("h:[0]seq/v:[6]x mod/[%2j] x %2j",0,-24,24,0.1)) : ba.selectn(N,n); y(n) = par(j,N, nentry("h:[0]seq/v:[7]y mod/[%2j] y %2j",0,-24,24,0.1)) : ba.selectn(N,n); z(n) = par(j,N, nentry("h:[0]seq/v:[8]z mod/[%2j] z %2j",0,-24,24,0.1)) : ba.selectn(N,n); a(n) = par(j,N, nentry("h:[0]seq/v:[9]a trans/[%2j] a %2j",0,-24,24,0.1)) : ba.selectn(N,n); b(n) = par(j,N, nentry("h:[0]seq/v:[a]b trans/[%2j] b %2j",0,-24,24,0.1)) : ba.selectn(N,n); c(n) = par(j,N, nentry("h:[0]seq/v:[b]c trans/[%2j] c %2j",0,-24,24,0.1)) : ba.selectn(N,n); }; amaranth = semis(ta,mx,my,mz,ma,mb,mc) : par(i,3, %(maxrange) : +(minrange) : ba.semi2ratio : (rootf2^oct)) <: _,_,_,par(i,3,qu.quantize(rootf,qu.ionian)),par(i,3,qu.quantize(rootf,qu.eolian)) : f(key) : os.oscenv,_,_ with { g1 = os.lf_pulsetrain(nentry("h:[0]seq/v:controls/h:[1]length n speed/[0]bpm",120,0,600000,0.001)4/60,0.5); ta = ba.counter(g1)%nentry("h:[0]seq/v:controls/h:[1]length n speed/[0]active steps",N,1,N,1); mx = hslider("h:[0]seq/v:controls/v:[3]mult/[0]x",1,0,64,1); my = hslider("h:[0]seq/v:controls/v:[3]mult/[1]y",1,0,64,1); mz = hslider("h:[0]seq/v:controls/v:[3]mult/[2]z",1,0,64,1); ma = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]a",1,0,64,1); mb = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]b",1,0,64,1); mc = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]c",1,0,64,1); minrange = hslider("h:[0]seq/v:controls/v:[d]range/[0]offset", 0, 0, 128, 0.1); maxrange = hslider("h:[0]seq/v:controls/v:[d]range/[1]max", 36, 1, 128, 0.1); midc = 2202^(3/12); rootf = midc 2^(nentry("h:[0]seq/v:controls/h:[0]key/[2]root note", 0,0,11.5,0.1)/12); oct = hslider("h:[0]seq/v:controls/v:[d]range/[2]octave", 0,-8,8,1); f(n) = par(i,9,_) <: par(i,3,ba.selectn(9,n3+i)); //output nth 3 signals of the 9 inputs key = hslider("h:[0]seq/v:controls/h:[0]key/[1]quantization [style:menu{'none':0;'major':1;'minor':2}]",0,0,2,1); env = g1 : en.adsre(a,d,s,r) with { a = vslider("h:[0]seq/v:controls/h:[2]env/[0]attack [style:knob]",0,0,4,0.0001); d = vslider("h:[0]seq/v:controls/h:[2]env/[1]decay [style:knob]",0,0,4,0.0001); s = vslider("h:[0]seq/v:controls/h:[2]env/[2]sustain [style:knob]",0,0,1,0.0001); r = vslider("h:[0]seq/v:controls/h:[2]env/[3]release [style:knob]",0.01,0,4,0.0001); }; }; rain(x,in,f2,f3) = g1 g2 : en.adsre(a,d,s,r) * in with { rnd = no.noise : ba.sAndH(ba.beat(rate60)) : fi.lowpass(1,cf) with { rate = vslider("h:%2x/h:[2]grain noise (rnd)/rate [style:knob]",2e4,1,2e4,1); cf = vslider("h:%2x/h:[2]grain noise (rnd)/filter [style:knob]",2e4,1,2e4,1); }; freq_rnd1 = vslider("h:%2x/h:[0]g1/[1]frq rnd [style:knob]",0,0,1000,1) rnd; oct1 = vslider("h:%2x/h:[0]g1/[0]frq oct [style:knob]",0,-8,8,1); g1 = os.lf_pulsetrain(f22^oct1 + freq_rnd1,width+wr) : bi2uni with { width = vslider("h:%2x/h:[0]g1/[2]pw [style:knob]",0,0,1,0.001); wr = vslider("h:%2x/h:[0]g1/[3]pw rnd [style:knob]",0,0,1,0.001) abs(rnd); }; freq_rnd2 = vslider("h:%2x/h:[1]g2/[1]frq rnd [style:knob]",0,0,1000,1) * rnd; oct2 = vslider("h:%2x/h:[1]g2/[0]frq oct [style:knob]",0,-8,8,1); g2 = os.lf_pulsetrain(f32^oct2 + freq_rnd2,width+wr) : bi2uni with { width = vslider("h:%2x/h:[1]g2/[2]pw [style:knob]",0,0,1,0.001); wr = vslider("h:%2x/h:[1]g2/[3]pw rnd [style:knob]",0,0,1,0.001) abs(rnd); }; a = vslider("h:%2x/h:[3]grain env/[0]attack [style:knob]",0,0,0.01,0.0001); d = vslider("h:%2x/h:[3]grain env/[1]decay [style:knob]",0,0,0.01,0.0001); s = vslider("h:%2x/h:[3]grain env/[2]sustain [style:knob]",0,0,1,0.0001); r = vslider("h:%2x/h:[3]grain env/[3]release [style:knob]",0.01,0,1,0.0001); }; quadrotor = par(i,4,rain(i)/4); filter = fi.svf.lp(freq,q) with { freq = vslider("t:quamarotorgirl/v:quadrotor/h:filter/freq [style:knob]",2e4,1,2e4,1); q = vslider("t:quamarotorgirl/v:quadrotor/h:filter/q [style:knob]",1,0.01,8,0.01); }; process = tgroup("quamarotorgirl", vgroup("amaranth",amaranth) <: vgroup("quadrotor",quadrotor)) :> filter <: _,_;	https://raw.githubusercontent.com/tomara-x/magi/9ee1006664c4079af687649ce43fdbf2b65c7a9b/source/quamarotorgirl.dsp	faust	trans rights amaranth connected to quadrotorgirl but frequency a controls the grain frequency, b controls gate 1, and c controls gate 2 number of steps t val x offset y offset z offset abc offset output nth 3 signals of the 9 inputs	declare name "quamarotorgirl"; declare author "amy universe"; declare version "0.05"; declare license "WTFPL"; import("stdfaust.lib"); bi2uni = _ : +(1) : /(2) : _; semis(ta,mx,my,mz,ma,mb,mc) = t(ta) +x(ta)mx +y(ta)my +z(ta)mz +a(ta)ma, t(ta) +x(ta)mx +y(ta)my +z(ta)mz +b(ta)mb, t(ta) +x(ta)mx +y(ta)my +z(ta)mz +c(ta)mc : _,_,_ with { t(n) = par(j,N, nentry("h:[0]seq/v:[5]t val/[%2j] t %2j",0,-24,24,0.1)) : ba.selectn(N,n); x(n) = par(j,N, nentry("h:[0]seq/v:[6]x mod/[%2j] x %2j",0,-24,24,0.1)) : ba.selectn(N,n); y(n) = par(j,N, nentry("h:[0]seq/v:[7]y mod/[%2j] y %2j",0,-24,24,0.1)) : ba.selectn(N,n); z(n) = par(j,N, nentry("h:[0]seq/v:[8]z mod/[%2j] z %2j",0,-24,24,0.1)) : ba.selectn(N,n); a(n) = par(j,N, nentry("h:[0]seq/v:[9]a trans/[%2j] a %2j",0,-24,24,0.1)) : ba.selectn(N,n); b(n) = par(j,N, nentry("h:[0]seq/v:[a]b trans/[%2j] b %2j",0,-24,24,0.1)) : ba.selectn(N,n); c(n) = par(j,N, nentry("h:[0]seq/v:[b]c trans/[%2j] c %2j",0,-24,24,0.1)) : ba.selectn(N,n); }; amaranth = semis(ta,mx,my,mz,ma,mb,mc) : par(i,3, %(maxrange) : +(minrange) : ba.semi2ratio : (rootf2^oct)) <: _,_,_,par(i,3,qu.quantize(rootf,qu.ionian)),par(i,3,qu.quantize(rootf,qu.eolian)) : f(key) : os.oscenv,_,_ with { g1 = os.lf_pulsetrain(nentry("h:[0]seq/v:controls/h:[1]length n speed/[0]bpm",120,0,600000,0.001)4/60,0.5); ta = ba.counter(g1)%nentry("h:[0]seq/v:controls/h:[1]length n speed/[0]active steps",N,1,N,1); mx = hslider("h:[0]seq/v:controls/v:[3]mult/[0]x",1,0,64,1); my = hslider("h:[0]seq/v:controls/v:[3]mult/[1]y",1,0,64,1); mz = hslider("h:[0]seq/v:controls/v:[3]mult/[2]z",1,0,64,1); ma = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]a",1,0,64,1); mb = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]b",1,0,64,1); mc = hslider("h:[0]seq/v:controls/v:[4]trans mult/[0]c",1,0,64,1); minrange = hslider("h:[0]seq/v:controls/v:[d]range/[0]offset", 0, 0, 128, 0.1); maxrange = hslider("h:[0]seq/v:controls/v:[d]range/[1]max", 36, 1, 128, 0.1); midc = 2202^(3/12); rootf = midc 2^(nentry("h:[0]seq/v:controls/h:[0]key/[2]root note", 0,0,11.5,0.1)/12); oct = hslider("h:[0]seq/v:controls/v:[d]range/[2]octave", 0,-8,8,1); key = hslider("h:[0]seq/v:controls/h:[0]key/[1]quantization [style:menu{'none':0;'major':1;'minor':2}]",0,0,2,1); env = g1 : en.adsre(a,d,s,r) with { a = vslider("h:[0]seq/v:controls/h:[2]env/[0]attack [style:knob]",0,0,4,0.0001); d = vslider("h:[0]seq/v:controls/h:[2]env/[1]decay [style:knob]",0,0,4,0.0001); s = vslider("h:[0]seq/v:controls/h:[2]env/[2]sustain [style:knob]",0,0,1,0.0001); r = vslider("h:[0]seq/v:controls/h:[2]env/[3]release [style:knob]",0.01,0,4,0.0001); }; }; rain(x,in,f2,f3) = g1 * g2 : en.adsre(a,d,s,r) * in with { rnd = no.noise : ba.sAndH(ba.beat(rate60)) : fi.lowpass(1,cf) with { rate = vslider("h:%2x/h:[2]grain noise (rnd)/rate [style:knob]",2e4,1,2e4,1); cf = vslider("h:%2x/h:[2]grain noise (rnd)/filter [style:knob]",2e4,1,2e4,1); }; freq_rnd1 = vslider("h:%2x/h:[0]g1/[1]frq rnd [style:knob]",0,0,1000,1) rnd; oct1 = vslider("h:%2x/h:[0]g1/[0]frq oct [style:knob]",0,-8,8,1); g1 = os.lf_pulsetrain(f22^oct1 + freq_rnd1,width+wr) : bi2uni with { width = vslider("h:%2x/h:[0]g1/[2]pw [style:knob]",0,0,1,0.001); wr = vslider("h:%2x/h:[0]g1/[3]pw rnd [style:knob]",0,0,1,0.001) abs(rnd); }; freq_rnd2 = vslider("h:%2x/h:[1]g2/[1]frq rnd [style:knob]",0,0,1000,1) * rnd; oct2 = vslider("h:%2x/h:[1]g2/[0]frq oct [style:knob]",0,-8,8,1); g2 = os.lf_pulsetrain(f32^oct2 + freq_rnd2,width+wr) : bi2uni with { width = vslider("h:%2x/h:[1]g2/[2]pw [style:knob]",0,0,1,0.001); wr = vslider("h:%2x/h:[1]g2/[3]pw rnd [style:knob]",0,0,1,0.001) abs(rnd); }; a = vslider("h:%2x/h:[3]grain env/[0]attack [style:knob]",0,0,0.01,0.0001); d = vslider("h:%2x/h:[3]grain env/[1]decay [style:knob]",0,0,0.01,0.0001); s = vslider("h:%2x/h:[3]grain env/[2]sustain [style:knob]",0,0,1,0.0001); r = vslider("h:%2x/h:[3]grain env/[3]release [style:knob]",0.01,0,1,0.0001); }; quadrotor = par(i,4,rain(i)/4); filter = fi.svf.lp(freq,q) with { freq = vslider("t:quamarotorgirl/v:quadrotor/h:filter/freq [style:knob]",2e4,1,2e4,1); q = vslider("t:quamarotorgirl/v:quadrotor/h:filter/q [style:knob]",1,0.01,8,0.01); }; process = tgroup("quamarotorgirl", vgroup("amaranth",amaranth) <: vgroup("quadrotor",quadrotor)) :> filter <: _,_;
67473aedb5090d60c8ec901c6141ac85d21bd57f09fb22e757627f1b5e78f4b8	ml-wo/VirtualGuitarAmp-Guitarix	vibe_lfo_triangle.dsp	import("guitarix.lib"); import("stdfaust.lib"); rawsaw_stereo(periodsamps, phasesamps) = rawsaw(periodsamps) <: _, shift(phasesamps) with { shift(x) = _+x, periodsamps : fmod; }; triangle_stereo(periodsamps, phasesamps) = rawsaw_stereo(periodsamps, phasesamps) : os.triangle with { triangleshaper = 2 * _ / periodsamps <: select2(_ > 1, _, 2 - _); os.triangle = triangleshaper, triangleshaper; }; process = triangle_stereo(periodsamps, phasesamps) with { periodsamps = ma.SR/vibe_lfo_ctrl.freq; phasesamps = periodsamps * (1 + vibe_lfo_ctrl.phase / (2 * ma.PI)); };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/vibe_lfo_triangle.dsp	faust		import("guitarix.lib"); import("stdfaust.lib"); rawsaw_stereo(periodsamps, phasesamps) = rawsaw(periodsamps) <: _, shift(phasesamps) with { shift(x) = _+x, periodsamps : fmod; }; triangle_stereo(periodsamps, phasesamps) = rawsaw_stereo(periodsamps, phasesamps) : os.triangle with { triangleshaper = 2 * _ / periodsamps <: select2(_ > 1, _, 2 - _); os.triangle = triangleshaper, triangleshaper; }; process = triangle_stereo(periodsamps, phasesamps) with { periodsamps = ma.SR/vibe_lfo_ctrl.freq; phasesamps = periodsamps * (1 + vibe_lfo_ctrl.phase / (2 * ma.PI)); };
592a5ab4965011e8e8d6640fa80e90bd0d079cca6ec8a7d53da4d958d30be279	ml-wo/VirtualGuitarAmp-Guitarix	gxtubedelay.dsp	declare name "Tube Delay"; declare category "Echo / Delay"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); level = vslider("level[style:knob]", 0, 0, 1, 0.1):LogPot(1):smoothi(0.993); feedback = vslider("feedback[style:knob]", 0, 0.0, 1, 0.01); dtime = vslider("de.delay[unit:ms][style:knob]", 0.1, 0.1, 2500, 0.1)ma.SR/1000.0; interp = 100ma.SR/1000.0; // for a 2.5 sec de.delay N = int( 2^17 ) ; delayed = de.sdelay(N, interp, dtime) ; // added a de.delay bypass output to get a real tape de.delay, // and a low/fi.highpass filter section in the feedback loop // to avoid self oscillation process = input12au7:(0.1):_<:((+:_<:_ ,( delayed:(level)) :>_)~(*(feedback): fi.highpass(1,120):fi.lowpass(1,12000))):>_:output12au7;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxtubedelay.dsp	faust	for a 2.5 sec de.delay added a de.delay bypass output to get a real tape de.delay, and a low/fi.highpass filter section in the feedback loop to avoid self oscillation	declare name "Tube Delay"; declare category "Echo / Delay"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); level = vslider("level[style:knob]", 0, 0, 1, 0.1):LogPot(1):smoothi(0.993); feedback = vslider("feedback[style:knob]", 0, 0.0, 1, 0.01); dtime = vslider("de.delay[unit:ms][style:knob]", 0.1, 0.1, 2500, 0.1)ma.SR/1000.0; interp = 100ma.SR/1000.0; N = int( 2^17 ) ; delayed = de.sdelay(N, interp, dtime) ; process = input12au7:(0.1):_<:((+:_<:_ ,( delayed:(level)) :>_)~(*(feedback): fi.highpass(1,120):fi.lowpass(1,12000))):>_:output12au7;
8c1bea0bd2ee6726146a5bf8eb3d07e55d170b531a2d9b6107bcdb40402de9c2	ml-wo/VirtualGuitarAmp-Guitarix	bmfp.dsp	declare id "bmpf"; declare name "BigMuffFuzzPadel"; declare shortname "FuzzPadel"; declare category "Distortion"; declare description "BigMuffFuzzPadel"; import("guitarix.lib"); import("stdfaust.lib"); bigmuff = _<: filter1,filter2:>_ with { tone = vslider("tone",0.5,0,1,0.01); filter1 = fi.highpass( 1, 1856):(tone); filter2 = fi.lowpass( 1, 408 ) :(1-tone); }; process = _<:(dry),((wet):(gain):bigmuff:fuzz:fuzzy:fiz):>downfilter with { //fuzz(x) = x-0.15x^2-0.15x^3; //fuzz(x) = 1.5x-0.5x^3; fuzz(x) = (1+drive/101)x/(1+drive/101*abs(x)); drive = vslider("drive", 1, -3, 100, 1); fuzzy = fuzzy_tube(2,1,0.5,drive); fiz(x) = x+(x^7); downfilter = fi.lowpass(1,5631): fi.highpass(1,80); gain = vslider("Input",0,-24,20,0.1) : ba.db2linear : smoothi(0.999); wet = vslider("Output", 100, 50, 100, 1) : /(100); dry = 1 - wet; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/bmfp.dsp	faust	fuzz(x) = x-0.15x^2-0.15x^3; fuzz(x) = 1.5x-0.5x^3;	declare id "bmpf"; declare name "BigMuffFuzzPadel"; declare shortname "FuzzPadel"; declare category "Distortion"; declare description "BigMuffFuzzPadel"; import("guitarix.lib"); import("stdfaust.lib"); bigmuff = _<: filter1,filter2:>_ with { tone = vslider("tone",0.5,0,1,0.01); filter1 = fi.highpass( 1, 1856):(tone); filter2 = fi.lowpass( 1, 408 ) :(1-tone); }; process = _<:(dry),((wet):(gain):bigmuff:fuzz:fuzzy:fiz):>downfilter with { fuzz(x) = (1+drive/101)x/(1+drive/101*abs(x)); drive = vslider("drive", 1, -3, 100, 1); fuzzy = fuzzy_tube(2,1,0.5,drive); fiz(x) = x+(x^7); downfilter = fi.lowpass(1,5631): fi.highpass(1,80); gain = vslider("Input",0,-24,20,0.1) : ba.db2linear : smoothi(0.999); wet = vslider("Output", 100, 50, 100, 1) : /(100); dry = 1 - wet; };
da38ec25f424f4b51aa2320dbfd4899f2b5320425c3fbae72172abd5f5dd012d	ml-wo/VirtualGuitarAmp-Guitarix	switched_tremolo.dsp	//------------------------------------ //Inspired by:Line 6 POD-3 //Found this effect somewhere here //------------------------------------ //------------------------------------ //Description: //The modulated signal got using 4 oscillations, //which are switched. // //Parameters description: //steps - number of oscillators in bank //sw_freq - oscillators switching freq //freq0..4 - oscillators freqs //depth - as is //------------------------------------ import("stdfaust.lib"); steps = hslider("Steps", 4, 1, 4, 1); sw_freq = hslider("Switch Freq", 1, 0.25, 5, 0.25); freq0 = hslider("Freq 0", 1, 0.25, 15, 0.5); freq1 = hslider("Freq 1", 1, 0.25, 15, 0.5); freq2 = hslider("Freq 2", 1, 0.25, 15, 0.5); freq3 = hslider("Freq 3", 1, 0.25, 15, 0.5); depth = hslider("Depth", 0.5, 0, 1, 0.05); in_range(min_val, max_val, x) = x>min_val,x<=max_val::_; N = 4; freqs = (freq0, freq1, freq2, freq3); process = (par(i,N,os.osc(ba.take(i+1,freqs))), (os.lf_sawpos(sw_freq)<:par(i,N,in_range(i/steps,(i+1)/steps): si.smooth(ba.tau2pole(0.05))))),_: (si.dot(N):_depth:_+1:_-depth),_:_*_:_;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/switched_tremolo.dsp	faust	------------------------------------ Inspired by:Line 6 POD-3 Found this effect somewhere here ------------------------------------ ------------------------------------ Description: The modulated signal got using 4 oscillations, which are switched. Parameters description: steps - number of oscillators in bank sw_freq - oscillators switching freq freq0..4 - oscillators freqs depth - as is ------------------------------------	import("stdfaust.lib"); steps = hslider("Steps", 4, 1, 4, 1); sw_freq = hslider("Switch Freq", 1, 0.25, 5, 0.25); freq0 = hslider("Freq 0", 1, 0.25, 15, 0.5); freq1 = hslider("Freq 1", 1, 0.25, 15, 0.5); freq2 = hslider("Freq 2", 1, 0.25, 15, 0.5); freq3 = hslider("Freq 3", 1, 0.25, 15, 0.5); depth = hslider("Depth", 0.5, 0, 1, 0.05); in_range(min_val, max_val, x) = x>min_val,x<=max_val::_; N = 4; freqs = (freq0, freq1, freq2, freq3); process = (par(i,N,os.osc(ba.take(i+1,freqs))), (os.lf_sawpos(sw_freq)<:par(i,N,in_range(i/steps,(i+1)/steps): si.smooth(ba.tau2pole(0.05))))),_: (si.dot(N):_depth:_+1:_-depth),_:_*_:_;
1cf57f00e876da6eac2df774a74708dec15309bb9b7084a705187e359f579f9c	ml-wo/VirtualGuitarAmp-Guitarix	gx_chump.dsp	declare id "Redeye Chump"; // in amp tube ba.selector declare name "Redeye Chumo"; declare category "Amplifier"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 SHP : Experiment with the presence control as a feedback loop Created a loop with high shelf filter cutting around 1khz and up pot controls the amount of cut 0 > -70dB If feedback loop is inverted get mad distortion and feedback! With no inversion get required effect so guess the combination of filter and processing de.delay may be shifting phase some ** To do : / process = chumpPreamp:(0.1):poweramp:transformer :(volume) with{ volume = vslider("Volume[alias][style:knob]",0.5,0,1,0.01):smoothi(0.999); poweramp = fi.lowpass(1,6531.0):tubestage(TB_6V6_250k,120.0,820.0,1.130462) ; transformer = fi.lowpass( 1, 6531 ):fi.highpass( 1, 80) ; feedback = (checkbox("feedback") ):fi.high_shelf( 3, 6531 ): *(-0.5); };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gx_chump.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 SHP : Experiment with the presence control as a feedback loop Created a loop with high shelf filter cutting around 1khz and up pot controls the amount of cut 0 > -70dB If feedback loop is inverted get mad distortion and feedback! With no inversion get required effect so guess the combination of filter and processing de.delay may be shifting phase some ** To do :	declare name "Redeye Chumo"; declare category "Amplifier"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); process = chumpPreamp:(0.1):poweramp:transformer :(volume) with{ volume = vslider("Volume[alias][style:knob]",0.5,0,1,0.01):smoothi(0.999); poweramp = fi.lowpass(1,6531.0):tubestage(TB_6V6_250k,120.0,820.0,1.130462) ; transformer = fi.lowpass( 1, 6531 ):fi.highpass( 1, 80) ; feedback = (checkbox("feedback") ):fi.high_shelf( 3, 6531 ): (-0.5); };
5f559acdd3c46e1741793fcb7c18f82e7e9284b199cca53e7b188efafb26327c	ml-wo/VirtualGuitarAmp-Guitarix	bigmuff.dsp	// Big Muff tone model // import("stdfaust.lib"); // Is basically 2 filters mixed together with a knob. //Top filter is 39K( R1 ) -> 0.01u( C2 ) to ground - 408Hz fi.lowpass // Bottom filter is 3900pF( C1 ) -> 22k( R2 ) to ground - 1855.9Hz // Seems OK but does not create the 1K dip seen on real thing // assume that the tone pot needs better model as must intercat with the // other 2 filters such that at mid point both filters are still working // There shgould be interaction between the pot ( R3 ) and both of thge other RC filters // Also as pot changes so do cutoff frequencies // Reduction moves both frequencies up by roughly 400Hz max // Increase moves both down by around same // So need +-400Hz calculated by curent tone position // pot = 0 -> +400 // pot = 1 -> -400 bigmuff = _<: filter1,filter2:>_ with { tone = vslider("tone[style:knob]",0.5,0,1,0.01); filter1 = fi.highpass( 1, 1856):(tone) ; filter2 = fi.lowpass( 1, 408 ) :(1-tone ) ; }; process = bigmuff ;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/bigmuff.dsp	faust	Big Muff tone model Is basically 2 filters mixed together with a knob. Top filter is 39K( R1 ) -> 0.01u( C2 ) to ground - 408Hz fi.lowpass Bottom filter is 3900pF( C1 ) -> 22k( R2 ) to ground - 1855.9Hz Seems OK but does not create the 1K dip seen on real thing assume that the tone pot needs better model as must intercat with the other 2 filters such that at mid point both filters are still working There shgould be interaction between the pot ( R3 ) and both of thge other RC filters Also as pot changes so do cutoff frequencies Reduction moves both frequencies up by roughly 400Hz max Increase moves both down by around same So need +-400Hz calculated by curent tone position pot = 0 -> +400 pot = 1 -> -400	import("stdfaust.lib"); bigmuff = _<: filter1,filter2:>_ with { tone = vslider("tone[style:knob]",0.5,0,1,0.01); filter1 = fi.highpass( 1, 1856):(tone) ; filter2 = fi.lowpass( 1, 408 ) :(1-tone ) ; }; process = bigmuff ;
e4c3a801d7c29e76472a38d9883345ebb08886747ca9b5433c600df363da2683	ml-wo/VirtualGuitarAmp-Guitarix	jconv_post.dsp	declare id "jconv"; import("stdfaust.lib"); import("guitarix.lib"); wet = vslider("wet_dry[name:wet/dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; deltadelay = vslider("diff_delay[name:Delta Delay][tooltip:de.delay left or right channel by the specified amount (unit: ms)]", 0, -100, 100, 0.01)ba.millisec : smoothi(0.999); gain = vslider("gain[name:Gain][tooltip:gain trim for processed signal (unit: dB)]", 0, -20, 20, 0.1) : ba.db2linear : smoothi(0.999); jbal = vslider("balance[name:Balance][tooltip:left/right trim for processed signal]", 0, -1, 1, 0.1): smoothi(0.999); bal = balance_ctrl.bal; / We want to move the sound source to the right with increasing values of deltadelay; this means ** we have to de.delay the left channel / //bug in faust (at least up to version 0.9.27) //rdelay = -deltadelay : max(0); //ldelay = deltadelay : max(0); rdelay = select2(deltadelay > 0, -deltadelay, 0); ldelay = select2(deltadelay < 0, deltadelay, 0); fx = gain de.fdelay1s(ldelay), gain * de.fdelay1s(rdelay) : balance(jbal); process = (dry), (dry), ((wet),(wet) : fx) :> balance(bal);	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/jconv_post.dsp	faust	We want to move the sound source to the right with increasing values of deltadelay; this means ** we have to de.delay the left channel bug in faust (at least up to version 0.9.27) rdelay = -deltadelay : max(0); ldelay = deltadelay : max(0);	declare id "jconv"; import("stdfaust.lib"); import("guitarix.lib"); wet = vslider("wet_dry[name:wet/dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; deltadelay = vslider("diff_delay[name:Delta Delay][tooltip:de.delay left or right channel by the specified amount (unit: ms)]", 0, -100, 100, 0.01)ba.millisec : smoothi(0.999); gain = vslider("gain[name:Gain][tooltip:gain trim for processed signal (unit: dB)]", 0, -20, 20, 0.1) : ba.db2linear : smoothi(0.999); jbal = vslider("balance[name:Balance][tooltip:left/right trim for processed signal]", 0, -1, 1, 0.1): smoothi(0.999); bal = balance_ctrl.bal; rdelay = select2(deltadelay > 0, -deltadelay, 0); ldelay = select2(deltadelay < 0, deltadelay, 0); fx = gain de.fdelay1s(ldelay), gain * de.fdelay1s(rdelay) : balance(jbal); process = (dry), (dry), ((wet),(wet) : fx) :> balance(bal);
419f67c83b22462b7f052ce0ea32f128e8b51bfcbce02d11825c956f0cd0a045	ml-wo/VirtualGuitarAmp-Guitarix	expander.dsp	/* Expander unit. / / This is pretty much the same as compressor.dsp, but here the given ratio is applied to attenuate levels below the threshold. / declare name "Expander"; declare category "Guitar Effects"; declare description "expander unit"; declare author "Albert Graef"; declare version "1.0"; import("stdfaust.lib"); rd = library("reducemaps.lib"); / Controls. / ratio = nentry("ratio", 2, 1, 20, 0.1); threshold = nentry("threshold", -40, -96, 10, 0.1); knee = nentry("knee", 3, 0, 20, 0.1); attack = hslider("attack", 0.001, 0, 1, 0.001) : max(1/ma.SR); release = hslider("release", 0.1, 0, 10, 0.01) : max(1/ma.SR); t = 0.1; g = exp(-1/(ma.SRt)); env = abs : (1-g) : + ~ (g); rms = sqr : (1-g) : + ~ (g) : sqrt; sqr(x) = xx; env2(x) = max(env(x)); expand(env) = level(1-r) with { level = env : h ~ _ : ba.linear2db : (threshold+knee-_) : max(0) with { h(x,y) = fx+(1-f)y with { f = (x<y)ga+(x>=y)gr; }; ga = exp(-1/(ma.SRattack)); gr = exp(-1/(ma.SRrelease)); }; p = level/(knee+eps) : max(0) : min(1) with { eps = 0.001; }; r = 1-p+pratio; }; vmeter1(x) = attach(x, envelop(x) : vbargraph("v1[nomidi:no]", -70, +5)); envelop = abs : max ~ (1.0/ma.SR) : rd.mean(2048); // : max(ba.db2linear(-70)) : ba.linear2db; process(x) = (g(x)x) with { g = env2(x) : expand : vmeter1 : ba.db2linear; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/expander.dsp	faust	Expander unit. This is pretty much the same as compressor.dsp, but here the given ratio is applied to attenuate levels below the threshold. Controls. : max(ba.db2linear(-70)) : ba.linear2db;	declare name "Expander"; declare category "Guitar Effects"; declare description "expander unit"; declare author "Albert Graef"; declare version "1.0"; import("stdfaust.lib"); rd = library("reducemaps.lib"); ratio = nentry("ratio", 2, 1, 20, 0.1); threshold = nentry("threshold", -40, -96, 10, 0.1); knee = nentry("knee", 3, 0, 20, 0.1); attack = hslider("attack", 0.001, 0, 1, 0.001) : max(1/ma.SR); release = hslider("release", 0.1, 0, 10, 0.01) : max(1/ma.SR); t = 0.1; g = exp(-1/(ma.SRt)); env = abs : (1-g) : + ~ (g); rms = sqr : (1-g) : + ~ (g) : sqrt; sqr(x) = xx; env2(x) = max(env(x)); expand(env) = level(1-r) with { level = env : h ~ _ : ba.linear2db : (threshold+knee-_) : max(0) with { h(x,y) = fx+(1-f)y with { f = (x<y)ga+(x>=y)gr; }; ga = exp(-1/(ma.SRattack)); gr = exp(-1/(ma.SRrelease)); }; p = level/(knee+eps) : max(0) : min(1) with { eps = 0.001; }; r = 1-p+pratio; }; vmeter1(x) = attach(x, envelop(x) : vbargraph("v1[nomidi:no]", -70, +5)); process(x) = (g(x)*x) with { g = env2(x) : expand : vmeter1 : ba.db2linear; };
45543a70fedeaede37ef9b4f27a6f3215f6e6c44ffd6c3978a4c59ecd5f84c9a	ml-wo/VirtualGuitarAmp-Guitarix	gxamp12.dsp	declare id "pre 6DJ8/ master 6V6"; // in amp tube ba.selector declare name "pre 6DJ8/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / a = 0.75; r(x) = x-sym_clip(a0.88); soft_clip(x) = x:sym_clip(a0.75) <:+(r(x)0.333); hard_clip = sym_clip(0.88); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / stage1 = (preamp): tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : fi.lowpass(1,6531.0) : tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) :tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :> _ with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ } ; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp12.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 6DJ8/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); a = 0.75; r(x) = x-sym_clip(a0.88); soft_clip(x) = x:sym_clip(a0.75) <:+(r(x)0.333); hard_clip = sym_clip(0.88); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; stage1 = (preamp): tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : fi.lowpass(1,6531.0) : tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) :tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :> _ with { gain1 = ampctrl.gain1; } ; };
6a662af60ee3831d515e7fc0540597d1048ec22e160940324a9210b64db84375	ml-wo/VirtualGuitarAmp-Guitarix	gxamp15.dsp	declare id "pre 12AT7/ master 6V6"; // in amp tube ba.selector declare name "pre 12AT7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> master 6V6 / a = 0.75; r(x) = x-sym_clip(a0.88); soft_clip(x) = x:sym_clip(a0.75) <:+(r(x)0.333); hard_clip = sym_clip(0.88); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / stage1 = (preamp): tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : fi.lowpass(1,6531.0) : tubestage(TB_12AT7_250k,132.0,1500.0,1.887332) :tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :> _ with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ } ; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp15.dsp	faust	in amp tube ba.selector ************************************************************* Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> master 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AT7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); a = 0.75; r(x) = x-sym_clip(a0.88); soft_clip(x) = x:sym_clip(a0.75) <:+(r(x)0.333); hard_clip = sym_clip(0.88); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; stage1 = (preamp): tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : fi.lowpass(1,6531.0) : tubestage(TB_12AT7_250k,132.0,1500.0,1.887332) :tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :> _ with { gain1 = ampctrl.gain1; } ; };
6cb07f0c039fba954d33105a04b09e98dab8c4cb68c284b6a1cb61f3fafd90b5	ml-wo/VirtualGuitarAmp-Guitarix	gxtubetremelo.dsp	declare name "Tube Tremolo"; declare category "Modulation"; /* Model of a vactrol tremolo unit by "transmogrify" c.f. http://sourceforge.net/apps/phpbb/guitarix/viewtopic.php?f=7&t=44&p=233&hilit=transmogrifox#p233 ** http://transmogrifox.webs.com/vactrol.m / import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); / vactrol model / R1 = 2700; Ra = 1e6; Rb = 300; b = exp(log(Ra)/log(Rb)) - exp(1); dTC = 0.06; minTC = log(0.005/dTC); cds = ((_ <: _,_),_ : _+(1-alpha)_) ~ (_<:(alpha)) with { iSR = 1/ma.SR; dRC = dTC exp((minTC)); alpha = 1 - iSR / (dRC + iSR); }; vactrol = pow(_,1.9) : cds : (b) + exp(1) : exp(log(Ra)/log) : R1/(_ + R1); /* os.triangle oscillator (not bandlimited, frequency is approximate) / trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; / tremolo unit, using os.triangle or sine oscillator as lfo / tremolo(freq, depth) = lfo depth + 1 - depth : vactrol with { sine(freq) = (os.oscs(freq) + 1) / 2 : max(0); // max(0) because of numerical inaccuracy SINE=checkbox("SINEWAVE[enum:os.triangle\|sine]"); lfo = select2(SINE, trianglewave(freq), sine(freq)); }; process = input12at7:(0.1):(tremolo(vslider("speed[style:knob]",5,0.1,14,0.1),vslider("depth[style:knob]",0.5,0,1,0.01))):output12au7;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxtubetremelo.dsp	faust	Model of a vactrol tremolo unit by "transmogrify" c.f. http://sourceforge.net/apps/phpbb/guitarix/viewtopic.php?f=7&t=44&p=233&hilit=transmogrifox#p233 ** http://transmogrifox.webs.com/vactrol.m vactrol model os.triangle oscillator (not bandlimited, frequency is approximate) tremolo unit, using os.triangle or sine oscillator as lfo max(0) because of numerical inaccuracy	declare name "Tube Tremolo"; declare category "Modulation"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); R1 = 2700; Ra = 1e6; Rb = 300; b = exp(log(Ra)/log(Rb)) - exp(1); dTC = 0.06; minTC = log(0.005/dTC); cds = ((_ <: _,_),_ : _+(1-alpha)_) ~ (_<:(alpha)) with { iSR = 1/ma.SR; dRC = dTC * exp((minTC)); alpha = 1 - iSR / (dRC + iSR); }; vactrol = pow(_,1.9) : cds : (b) + exp(1) : exp(log(Ra)/log) : R1/(_ + R1); trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 * (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; tremolo(freq, depth) = lfo depth + 1 - depth : vactrol with { SINE=checkbox("SINEWAVE[enum:os.triangle\|sine]"); lfo = select2(SINE, trianglewave(freq), sine(freq)); }; process = input12at7:(0.1):(tremolo(vslider("speed[style:knob]",5,0.1,14,0.1),vslider("depth[style:knob]",0.5,0,1,0.01))):output12au7;
853d02c9dc7dc34460c188b5e28672804ac9b3c956330e17cb515a46770295f5	ml-wo/VirtualGuitarAmp-Guitarix	gx_bigchump.dsp	declare name "Redeye Big Chump"; declare category "Amplifier"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); trannie = coil1,coil2:>_ with { coil1 = fi.lowpass( 1, ( 8075 ) ):fi.highpass( 1, 84):(0.98) ; coil2 = fi.lowpass( 1, 8925 ):fi.highpass( 1, 76) ; }; process = chumpPreamp:(0.1):(volume):amp with { volume = vslider("Volume[2][alias][style:knob]",0.5, 0.0, 1.0,0.01) : smoothi(0.999); // Look into these so we can more accurately copy PP 6V6 design pp1 = tubestage(TB_6V6_250k,60.0,822.0,1.130462); pp2 = tubestage(TB_6V6_250k,60.0,818.0,1.130462); // This splits positive and negative signals and sends each to different valves positive(x) = x ( x >= 0.0 ) ; negative(x) = x * ( x <= 0.0 ) ; stage1 = tubestage(TB_12AX7_68k,40.0,2700.0,1.83); stage2 = fi.lowpass( 1, 6531):tubestage(TB_12AX7_250k,40.0,2700.0,1.83) ; driver1 = fi.lowpass( 1, 6531):tubestage(TB_12AU7_250k,132.0,1525.0,1.214285); driver2 = fi.lowpass( 1, 6531):tubestage(TB_12AU7_250k,132.0,1475.0,1.204285); feedback = (checkbox("feedback") ):(0.5); // This is bodge for transformer simple low and high pass roll off pushpull = (positive:pp1),(negative:pp2) ; amp = (+:_<:pushpull:trannie:>_)~feedback ; atten = 0.5; cabinet = fi.lowpass(2,5500):fi.peak_eq(-15.0,400.0,600):fi.highpass(2,80); };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gx_bigchump.dsp	faust	Look into these so we can more accurately copy PP 6V6 design This splits positive and negative signals and sends each to different valves This is bodge for transformer simple low and high pass roll off	declare name "Redeye Big Chump"; declare category "Amplifier"; import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); trannie = coil1,coil2:>_ with { coil1 = fi.lowpass( 1, ( 8075 ) ):fi.highpass( 1, 84):(0.98) ; coil2 = fi.lowpass( 1, 8925 ):fi.highpass( 1, 76) ; }; process = chumpPreamp:(0.1):(volume):amp with { volume = vslider("Volume[2][alias][style:knob]",0.5, 0.0, 1.0,0.01) : smoothi(0.999); pp1 = tubestage(TB_6V6_250k,60.0,822.0,1.130462); pp2 = tubestage(TB_6V6_250k,60.0,818.0,1.130462); positive(x) = x ( x >= 0.0 ) ; negative(x) = x * ( x <= 0.0 ) ; stage1 = tubestage(TB_12AX7_68k,40.0,2700.0,1.83); stage2 = fi.lowpass( 1, 6531):tubestage(TB_12AX7_250k,40.0,2700.0,1.83) ; driver1 = fi.lowpass( 1, 6531):tubestage(TB_12AU7_250k,132.0,1525.0,1.214285); driver2 = fi.lowpass( 1, 6531):tubestage(TB_12AU7_250k,132.0,1475.0,1.204285); feedback = (checkbox("feedback") ):(0.5); pushpull = (positive:pp1),(negative:pp2) ; amp = (+:_<:pushpull:trannie:>_)~feedback ; atten = 0.5; cabinet = fi.lowpass(2,5500):fi.peak_eq(-15.0,400.0,600):fi.highpass(2,80); };
60845aeb17b0990df8a6783e37e7a3e2f4ef59ef545ae390d3d9ba3f7913e16e	ml-wo/VirtualGuitarAmp-Guitarix	gxamp6.dsp	declare id "pre 6DJ8/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 6DJ8/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp6.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 6DJ8/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
b69c365ba1e2a65313d124a8ecbd245f4f9766531fa80ef8289edb936487926c	ml-wo/VirtualGuitarAmp-Guitarix	buzz.dsp	// generated automatically // DO NOT MODIFY! declare id "buzz"; declare name "Buzz Box"; declare category "Fuzz"; declare shortname "Buzz Box"; declare description "Buzz Box"; import("stdfaust.lib"); import("trany.lib"); process = pre : _<:(dry),((wet) : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : clip):>_ 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 = _; wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; clip = tranystageb(TB_7199P_68k,86.0,2700.0,5.571981) : tranystageb(TB_7199P_68k,86.0,2700.0,5.571981) ; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = 3.81347663375185e-13Levelpow(fs,3); b1 = -1.14404299012556e-12Levelpow(fs,3); b2 = 1.14404299012556e-12Levelpow(fs,3); b3 = -3.81347663375185e-13Levelpow(fs,3); a0 = fs(fs(9.04201686922855e-15fs + 1.0967885210812e-14) + 8.14058347559848e-15) + 2.46256378077601e-15; a1 = fs(fs(-2.71260506076857e-14fs - 1.0967885210812e-14) + 8.14058347559848e-15) + 7.38769134232804e-15; a2 = fs(fs(2.71260506076857e-14fs - 1.0967885210812e-14) - 8.14058347559848e-15) + 7.38769134232804e-15; a3 = fs(fs(-9.04201686922855e-15fs + 1.0967885210812e-14) - 8.14058347559848e-15) + 2.46256378077601e-15; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/plugins/buzz.dsp	faust	generated automatically DO NOT MODIFY!	declare id "buzz"; declare name "Buzz Box"; declare category "Fuzz"; declare shortname "Buzz Box"; declare description "Buzz Box"; import("stdfaust.lib"); import("trany.lib"); process = pre : _<:(dry),((wet) : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : clip):>_ 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 = _; wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; clip = tranystageb(TB_7199P_68k,86.0,2700.0,5.571981) : tranystageb(TB_7199P_68k,86.0,2700.0,5.571981) ; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = 3.81347663375185e-13Levelpow(fs,3); b1 = -1.14404299012556e-12Levelpow(fs,3); b2 = 1.14404299012556e-12Levelpow(fs,3); b3 = -3.81347663375185e-13Levelpow(fs,3); a0 = fs(fs(9.04201686922855e-15fs + 1.0967885210812e-14) + 8.14058347559848e-15) + 2.46256378077601e-15; a1 = fs(fs(-2.71260506076857e-14fs - 1.0967885210812e-14) + 8.14058347559848e-15) + 7.38769134232804e-15; a2 = fs(fs(2.71260506076857e-14fs - 1.0967885210812e-14) - 8.14058347559848e-15) + 7.38769134232804e-15; a3 = fs(fs(-9.04201686922855e-15fs + 1.0967885210812e-14) - 8.14058347559848e-15) + 2.46256378077601e-15; };
f5d346e8939f12b959ae2c7cf4f682ed20b653edd9f05c7ee4455204ec12f1b1	ml-wo/VirtualGuitarAmp-Guitarix	duck_delay.dsp	declare id "duckDelay"; declare name "Duck Delay"; declare category "Echo / Delay"; //------------------------------------ //Inspired by: //http://www.gvst.co.uk/gduckdly.htm //Axe-FX II Owner's manual:5.6 //------------------------------------ //------------------------------------ //Description: //The delayed signal added to output dependent of input signal amplitude. //If the input signal is high. The delayed signall turned off, and vise versa. //The switching controlled by envelope follower //(parameters: "attack", "release", and main - "amount", what controls envelope follower influence). // //Parameters description: //time - de.delay time in milliseconds //feedback - de.delay feedback //attack, release - envelope follower time in seconds controls //amount dB - envelope follower influence //------------------------------------ import("stdfaust.lib"); //Constrols p_time = hslider("time[name:Delay]", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback[name:Feedback]", 0, 0, 1, 0.05); p_attack_time = hslider("attack[name:Attack]", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("relese[name:Release]", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount[name:Amount]", 0.5, 0,56, 0.05):ba.db2linear; //Consts c_channels_sw_time = 0.1; c_fdelay_max_len = 393216; get_delay_length(x) = xma.SR:_0.001; process = _<: _,(_<:(_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_p_feedback, (an.amp_follower_ud(p_attack_time,p_release_time):_p_amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)))):_,_*_ :>_;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/duck_delay.dsp	faust	------------------------------------ Inspired by: http://www.gvst.co.uk/gduckdly.htm Axe-FX II Owner's manual:5.6 ------------------------------------ ------------------------------------ Description: The delayed signal added to output dependent of input signal amplitude. If the input signal is high. The delayed signall turned off, and vise versa. The switching controlled by envelope follower (parameters: "attack", "release", and main - "amount", what controls envelope follower influence). Parameters description: time - de.delay time in milliseconds feedback - de.delay feedback attack, release - envelope follower time in seconds controls amount dB - envelope follower influence ------------------------------------ Constrols Consts	declare id "duckDelay"; declare name "Duck Delay"; declare category "Echo / Delay"; import("stdfaust.lib"); p_time = hslider("time[name:Delay]", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback[name:Feedback]", 0, 0, 1, 0.05); p_attack_time = hslider("attack[name:Attack]", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("relese[name:Release]", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount[name:Amount]", 0.5, 0,56, 0.05):ba.db2linear; c_channels_sw_time = 0.1; c_fdelay_max_len = 393216; get_delay_length(x) = xma.SR:_0.001; process = _<: _,(_<:(_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_p_feedback, (an.amp_follower_ud(p_attack_time,p_release_time):_p_amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)))):_,_*_ :>_;
bd30936381b740708a86db3f49c5011e9bf63ccf9e1e023d86dfe959f90db3f8	ml-wo/VirtualGuitarAmp-Guitarix	gxamp8.dsp	declare id "pre 12AU7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12AU7/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; /* gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp8.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AU7/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : *(gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
8d8357e42a48167c016f77e2179c524d5d3810d0b12c9f1af7589166aca78359	ml-wo/VirtualGuitarAmp-Guitarix	gxamp7.dsp	declare id "pre 12ax7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12ax7/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp7.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12ax7/ push-pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
2a3fda7a490010aa2cb37d6b1cb661c9b5cafa855c20d68614ed61784ceb626b	ml-wo/VirtualGuitarAmp-Guitarix	gxamp16.dsp	declare id "pre 12AT7/ push pull 6V6"; // in amp tube ba.selector declare name "pre 12AT7/ push pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp16.dsp	faust	in amp tube ba.selector ************************************************************* Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AT7/ push pull 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
96b71806f501a8bb7a8003193cb4046597d3b220a6036df9ed8332e8ba8dc6c0	ml-wo/VirtualGuitarAmp-Guitarix	gxamp7_stereo.dsp	declare id "pre 12ax7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12ax7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; }; process = amp,amp;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp7_stereo.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12ax7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; }; process = amp,amp;
b81b0c6dcbe20ede6a35c909dab6d6343151de159e622d024129caa40e858de8	ml-wo/VirtualGuitarAmp-Guitarix	gxamp8_stereo.dsp	declare id "pre 12AU7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12AU7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; /* gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; }; process = amp,amp;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp8_stereo.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AU7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : *(gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; }; process = amp,amp;
084d00e2aee4d4c25e904b2269a3e3cc82d4740e41dcd658088b153ed5d80470	ml-wo/VirtualGuitarAmp-Guitarix	gxamp7.dsp	declare id "pre 12ax7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12ax7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp7.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12ax7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12ax7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage(TB_12AX7_68k,86.0,2700.0,1.581656) : + ~ (attentubestage(TB_12AX7_250k,132.0,1500.0,1.204285))) : fi.lowpass(1,6531.0) : (tubestage(TB_12AX7_250k,132.0,1500.0,1.204285) : + ~ (attentubestage(TB_12AX7_250k,194.0,820.0,0.840703))) : tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
afdf28405aa72078377352bf570fdd8f876a16de4e6651e4d335d6311e62a4da	ml-wo/VirtualGuitarAmp-Guitarix	gxamp8.dsp	declare id "pre 12AU7/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 12AU7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; /* gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp8.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 * 12AU7 -> pusch pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AU7/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp):(2.0): (tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : + ~ (attentubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162))): fi.lowpass(1,6531.0) : (tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162) : + ~ (attentubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487))) : tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : *(gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
07c2ba966094009e058a59e946d22f43b1f175c354b1442f30390246f8af79ff	ml-wo/VirtualGuitarAmp-Guitarix	gxamp16_stereo.dsp	declare id "pre 12AT7/ push pull 6V6"; // in amp tube ba.selector declare name "pre 12AT7/ push pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; }; process = amp,amp;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp16_stereo.dsp	faust	in amp tube ba.selector ************************************************************* Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AT7/ push pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; }; process = amp,amp;
10bbe93cdf7c13452334839548165d8994302b34ea6e374b0f3c16e33e60cfe0	ml-wo/VirtualGuitarAmp-Guitarix	gxamp6_stereo.dsp	declare id "pre 6DJ8/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 6DJ8/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; }; process = amp,amp;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp6_stereo.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 6DJ8/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; amp = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; }; process = amp,amp;
fbae0a046e0aec39c786aa49cd1f46a38a7c0d4ed533701afe452b36878a7f8e	ml-wo/VirtualGuitarAmp-Guitarix	duck_delay.dsp	declare id "duckDelay"; declare name "Duck Delay"; declare category "Echo / Delay"; //------------------------------------ //Inspired by: //http://www.gvst.co.uk/gduckdly.htm //Axe-FX II Owner's manual:5.6 //------------------------------------ //------------------------------------ //Description: //The delayed signal added to output dependent of input signal amplitude. //If the input signal is high. The delayed signall turned off, and vise versa. //The switching controlled by envelope follower //(parameters: "attack", "release", and main - "amount", what controls envelope follower influence). // //Parameters description: //time - de.delay time in milliseconds //feedback - de.delay feedback //attack, release - envelope follower time in seconds controls //amount dB - envelope follower influence //------------------------------------ import("stdfaust.lib"); //Constrols p_time = hslider("time", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback", 0, 0, 1, 0.05); p_attack_time = hslider("attack", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("relese", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount", 0.5, 0,56, 0.05):ba.db2linear; //Consts c_channels_sw_time = 0.1; c_fdelay_max_len = 393216; get_delay_length(x) = xma.SR:_0.001; process = _<: _,(_<:(_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_p_feedback, (an.amp_follower_ud(p_attack_time,p_release_time):_p_amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)))):_,_*_ :>_;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/duck_delay.dsp	faust	------------------------------------ Inspired by: http://www.gvst.co.uk/gduckdly.htm Axe-FX II Owner's manual:5.6 ------------------------------------ ------------------------------------ Description: The delayed signal added to output dependent of input signal amplitude. If the input signal is high. The delayed signall turned off, and vise versa. The switching controlled by envelope follower (parameters: "attack", "release", and main - "amount", what controls envelope follower influence). Parameters description: time - de.delay time in milliseconds feedback - de.delay feedback attack, release - envelope follower time in seconds controls amount dB - envelope follower influence ------------------------------------ Constrols Consts	declare id "duckDelay"; declare name "Duck Delay"; declare category "Echo / Delay"; import("stdfaust.lib"); p_time = hslider("time", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback", 0, 0, 1, 0.05); p_attack_time = hslider("attack", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("relese", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount", 0.5, 0,56, 0.05):ba.db2linear; c_channels_sw_time = 0.1; c_fdelay_max_len = 393216; get_delay_length(x) = xma.SR:_0.001; process = _<: _,(_<:(_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_p_feedback, (an.amp_follower_ud(p_attack_time,p_release_time):_p_amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)))):_,_*_ :>_;
7e6b6dbd3c595e884f31f09f3724203eec7ba5cef7ee99b9608e7eaac1eec750	ml-wo/VirtualGuitarAmp-Guitarix	gxamp16.dsp	declare id "pre 12AT7/ push pull 6V6"; // in amp tube ba.selector declare name "pre 12AT7/ push pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp16.dsp	faust	in amp tube ba.selector ************************************************************* Tube amp Emulation stage 1 - 2 - 3 * 12AT7 -> push pull 6V6 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AT7/ push pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp) : (tubestage(TB_12AT7_68k,86.0,2700.0,2.617753) : + ~ (attentubestage(TB_12AT7_250k,132.0,1500.0,1.887333))): fi.lowpass(1,6531.0) : (tubestage(TB_12AT7_250k,132.0,1500.0,1.887333) : + ~ (attentubestage(TB_12AT7_250k,194.0,820.0,1.256962))) : tubestage(TB_12AT7_250k,194.0,820.0,1.256962); stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
7428af11a21a42420fd03365ad7506a19954acf35f30fdae754f8ced08086576	ml-wo/VirtualGuitarAmp-Guitarix	gxamp6.dsp	declare id "pre 6DJ8/ push-pull 6V6"; // in amp tube ba.selector declare name "pre 6DJ8/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; /* drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxamp6.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 6DJ8/ push-pull 6V6"; import("stdfaust.lib"); import("guitarix.lib"); peak1 = fi.allpassn(4,(-0.2, 0.3, 0.4, 0.5)); gx_drive(drive) = _ <: _ + nonlin(4,4,0.125) * drive * 10 ; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist2(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; atten = 0.6; stage1 = ef.speakerbp(310.0, 12000.0) : (preamp): (tubestage130_20(TB_6DJ8_68k,86.0,2700.0,1.863946) : + ~ (attentubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609))): fi.lowpass(1,6531.0) : (tubestage130_20(TB_6DJ8_250k,132.0,1500.0,1.271609) : + ~ (attentubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043))) : tubestage130_20(TB_6DJ8_250k,194.0,820.0,0.797043) ; stage2 = fi.lowpass(1,6531.0) : (gain1) <: ((min(0.7,tubestage(TB_6V6_250k,6531.0,410.0,0.659761))),(max(-0.75,tubestage(TB_6V6_68k,6531.0,410.0,0.664541)))) :> peak1 with { gain1 = ampctrl.gain1; }; };
35739e6577ff3f29b12fe728a00c541a7edfdc477573695b4248940eae76c858	ml-wo/VirtualGuitarAmp-Guitarix	gxamp4.dsp	declare id "pre 12AU7/ master 6V6"; // in amp tube ba.selector declare name "pre 12AU7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; //b0 = 1; //b1 = -1.01; //b2 = 0; //a1 = -1.84; //a2 = 0.846416; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; / drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / stage1 = (preamp): tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : fi.lowpass(1,6531.0) : tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162): tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :>_ with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp4.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 b0 = 1; b1 = -1.01; b2 = 0; a1 = -1.84; a2 = 0.846416; drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12AU7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; stage1 = (preamp): tubestage130_10(TB_12AU7_68k,86.0,2700.0,1.257240) : fi.lowpass(1,6531.0) : tubestage130_10(TB_12AU7_250k,132.0,1500.0,0.776162): tubestage130_10(TB_12AU7_250k,194.0,820.0,0.445487); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :>_ with { gain1 = ampctrl.gain1; }; };
c05ce0f52deb3ef3eda2fff20c2f29ba53158bf7ce84ae07a407fc18a07860b0	ml-wo/VirtualGuitarAmp-Guitarix	gxamp5.dsp	declare id "pre 12ax7/ master 6V6"; // in amp tube ba.selector declare name "pre 12ax7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; //b0 = 1; //b1 = -1.01; //b2 = 0; //a1 = -1.84; //a2 = 0.846416; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; / drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); / stage1 = (preamp): tubestage(TB_12AX7_68k,86.0,2700.0,1.581656): fi.lowpass(1,6531.0) : tubestage(TB_12AX7_250k,132.0,1500.0,1.204285):tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :>_ with { gain1 = ampctrl.gain1; / gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ }; };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp5.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 b0 = 1; b1 = -1.01; b2 = 0; a1 = -1.84; a2 = 0.846416; drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "pre 12ax7/ master 6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; process = hgroup("stage1", stage1) : component("gxdistortion.dsp").dist(drive,wet_dry) : hgroup("stage2", stage2) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; stage1 = (preamp): tubestage(TB_12AX7_68k,86.0,2700.0,1.581656): fi.lowpass(1,6531.0) : tubestage(TB_12AX7_250k,132.0,1500.0,1.204285):tubestage(TB_12AX7_250k,194.0,820.0,0.840703); stage2 = fi.lowpass(1,6531.0) : (gain1) <: (tubestage(TB_6V6_250k,6531.0,820.0,1.130462),tubestage(TB_6V6_68k,6531.0,820.0,1.130740)) :>_ with { gain1 = ampctrl.gain1; }; };
c0adf3f84b745acad3e128e7bf7e1b41080df697704a58bd0cbf4961bffee64c	ml-wo/VirtualGuitarAmp-Guitarix	gxtubevibrato.dsp	/* Attempt at a true vibrato And it works well! Sounds very sweet with tubes wrapped Need LFO to modulate de.delay - LFO 5 - 14Hz speed and depth / import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); / os.triangle oscillator (not bandlimited, frequency is approximate) / trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; / vibrato unit, using os.triangle or sine oscillator as lfo to modulate the de.delay time / vibrato = ((( lfo + 1 ) 5)+5)depth with { sine(freq) = (os.oscs(freq) + 1) / 2 : max(0); // max(0) because of numerical inaccuracy SINE=checkbox("SINEWAVE[enum:os.triangle\|sine]"); lfo = select2(SINE, trianglewave(freq), sine(freq)); freq = vslider("speed[style:knob]",5,0,14,0.1) ; depth = vslider("depth[style:knob]",0.5,0,1,0.01) ; }; delayed = de.sdelay(65536, interp, vibratoma.SR/1000.0) with{ N = int(2^12); //65536 interp = 100.0 ma.SR/1000.0; // interp = hslider("interpolation[unit:ms][style:knob]",10,1,100,0.1)ma.SR/1000.0; dtime = hslider("de.delay[unit:ms][style:knob]", 0, 0, 14, 0.1)ma.SR/1000.0; }; //stage1 = tubestage(TB_12AX7_68k,120,1500.0,1.204541) ; // Gain 2.9 2nd -29.8 3rd -26.24 //stage2 = fi.lowpass( 1, 6531 ):tubestage(TB_12AX7_250k,80,1500.0,1.204285) ; // Gain 2.41 2nd -34.34 3rd -23.36 //drive = vslider("gain[style:knob]", 0, -64, 6, 0.1) :ba.db2linear: smoothi(0.999); //process = stage1:delayed:(drive):stage2; process = input12au7:*(0.1):delayed:output12au7;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/gxtubevibrato.dsp	faust	Attempt at a true vibrato And it works well! Sounds very sweet with tubes wrapped Need LFO to modulate de.delay - LFO 5 - 14Hz speed and depth os.triangle oscillator (not bandlimited, frequency is approximate) vibrato unit, using os.triangle or sine oscillator as lfo to modulate the de.delay time max(0) because of numerical inaccuracy 65536 interp = hslider("interpolation[unit:ms][style:knob]",10,1,100,0.1)ma.SR/1000.0; stage1 = tubestage(TB_12AX7_68k,120,1500.0,1.204541) ; // Gain 2.9 2nd -29.8 3rd -26.24 stage2 = fi.lowpass( 1, 6531 ):tubestage(TB_12AX7_250k,80,1500.0,1.204285) ; // Gain 2.41 2nd -34.34 3rd -23.36 drive = vslider("gain[style:knob]", 0, -64, 6, 0.1) :ba.db2linear: smoothi(0.999); process = stage1:delayed:(drive):stage2;	import("stdfaust.lib"); import("guitarix.lib"); import("redeye.lib"); trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 * (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; vibrato = ((( lfo + 1 ) 5)+5)depth with { SINE=checkbox("SINEWAVE[enum:os.triangle\|sine]"); lfo = select2(SINE, trianglewave(freq), sine(freq)); freq = vslider("speed[style:knob]",5,0,14,0.1) ; depth = vslider("depth[style:knob]",0.5,0,1,0.01) ; }; delayed = de.sdelay(65536, interp, vibratoma.SR/1000.0) with{ interp = 100.0 ma.SR/1000.0; dtime = hslider("de.delay[unit:ms][style:knob]", 0, 0, 14, 0.1)ma.SR/1000.0; }; process = input12au7:*(0.1):delayed:output12au7;
5240f9929eb9ab8b967dac5d166df13d4c5ecb72cbc1fcd26171dc5ad7af8e36	ml-wo/VirtualGuitarAmp-Guitarix	tremolo.dsp	declare name "Tremolo"; declare category "Modulation"; declare gladefile "tremolo_ui.glade"; /* Model of a vactrol tremolo unit by "transmogrify" c.f. http://sourceforge.net/apps/phpbb/guitarix/viewtopic.php?f=7&t=44&p=233&hilit=transmogrifox#p233 ** http://transmogrifox.webs.com/vactrol.m / import("stdfaust.lib"); / vactrol model / / transcendental functions in fast signal path: cds: 2 exp() (2 alpha containing each 1 exp()) vactrol: 1 exp(), 1 pow(), 1 log() / R1 = 2700; Ra = 1e6; Rb = 300; b = exp(log(Ra)/log(Rb)) - exp(1); dTC = 0.06; minTC = log(0.005/dTC); cds = ((_ <: _,_),_ : _+(1-alpha)_) ~ (_<:(alpha)) with { iSR = 1/ma.SR; dRC = dTC exp((minTC)); alpha = 1 - iSR / (dRC + iSR); }; vactrol = pow(_,1.9) : cds : (b) + exp(1) : exp(log(Ra)/log) : R1/(_ + R1); /* os.triangle oscillator (not bandlimited, frequency is approximate) / trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; / tremolo unit, using os.triangle or sine oscillator as lfo / tremolo(freq, depth) = lfo depth + 1 - depth : vactrol with { sine(freq) = (os.oscs(freq) + 1) / 2 : max(0); // max(0) because of numerical inaccuracy SINE=checkbox("SINE[enum:os.triangle\|sine\|os.square]"); lfo = select3(SINE, trianglewave(freq), sine(freq), os.lf_squarewavepos(freq)); }; wet = vslider("wet_dry[name:Dry/Wet][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; process = _<:(dry),((wet): *(tremolo(vslider("freq[name:Freq]",5,0.1,50,0.1),vslider("depth[name:Depth]",0.5,0,1,0.01)))):>_;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/tremolo.dsp	faust	Model of a vactrol tremolo unit by "transmogrify" c.f. http://sourceforge.net/apps/phpbb/guitarix/viewtopic.php?f=7&t=44&p=233&hilit=transmogrifox#p233 http://transmogrifox.webs.com/vactrol.m vactrol model transcendental functions in fast signal path: cds: 2 exp() (2 alpha containing each 1 exp()) ** vactrol: 1 exp(), 1 pow(), 1 log() os.triangle oscillator (not bandlimited, frequency is approximate) tremolo unit, using os.triangle or sine oscillator as lfo max(0) because of numerical inaccuracy	declare name "Tremolo"; declare category "Modulation"; declare gladefile "tremolo_ui.glade"; import("stdfaust.lib"); R1 = 2700; Ra = 1e6; Rb = 300; b = exp(log(Ra)/log(Rb)) - exp(1); dTC = 0.06; minTC = log(0.005/dTC); cds = ((_ <: _,_),_ : _+(1-alpha)_) ~ (_<:(alpha)) with { iSR = 1/ma.SR; dRC = dTC * exp((minTC)); alpha = 1 - iSR / (dRC + iSR); }; vactrol = pow(_,1.9) : cds : (b) + exp(1) : exp(log(Ra)/log) : R1/(_ + R1); trianglewave(freq) = _ ~ (_ <: _ + hyst) : /(periodsamps) with { if(c,t,e) = select2(c,e,t); hyst(x) = if(_ > 0, 2 * (x < periodsamps) - 1, 1 - 2 * (x > 0)) ~ _; periodsamps = int(ma.SR / (2float(freq))); }; tremolo(freq, depth) = lfo depth + 1 - depth : vactrol with { SINE=checkbox("SINE[enum:os.triangle\|sine\|os.square]"); lfo = select3(SINE, trianglewave(freq), sine(freq), os.lf_squarewavepos(freq)); }; wet = vslider("wet_dry[name:Dry/Wet][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; process = _<:(dry),((wet): *(tremolo(vslider("freq[name:Freq]",5,0.1,50,0.1),vslider("depth[name:Depth]",0.5,0,1,0.01)))):>_;
e8caf2329c5c50d4189ff21a53995bf7f4ba04a94953d696cb6930cf8ac3424f	ml-wo/VirtualGuitarAmp-Guitarix	thick_distortion.dsp	declare id "thick_distortion"; declare name "Thick Distortion"; declare category "Distortion"; declare author "Viacheslav Lotsmanov"; declare license "BSD"; declare copyright "(c) 2018 Viacheslav Lotsmanov"; /* This effect was written first in Haskell as standalone JACK application. Can be found here: https://github.com/unclechu/haskell-audio-dsp There's simple idea behind this distortion effect. Main thing is that current sample depends on previous one, "Thickness" value is a coefficient of how much previous sample will be dominating on current one. Imagine N is a current sample and "Thickness" is set to 0.8 then N will be multipled by 0.2 (1-0.8) and N-1 by 0.8 so it is N0.2 + (N-1)0.8. Just turn input gain knob to extreme value to make signal clipping (it will be hard limited to 0dB) and then make it being smooth by big "Thickness" level. Even if we have square signal it will be smoothed. This effect could also be combined with the "BitDowner" (put "Thick Distortion" after it) to get interesting harmonics and reducing higher ones (because signal would be less sharp). / import("stdfaust.lib"); gain = vslider("input_gain[name:Input][tooltip:Gain (dB)]", 0, 0, 120, 0.1) : ba.db2linear : si.smoo ; thickness = vslider("thickness[name:Thickness]", 0.8, 0, 1, 0.01) : si.smoo ; // coefficient for pure signal (for current sample, not previous one) pureness = 1 - thickness; volume = vslider("volume[name:Volume][tooltip:Volume (dB)]", 0, -90, 40, 0.1) : ba.db2linear : si.smoo ; hardLimit = min(1) : max(-1); thick = (pureness) : + ~((thickness)); process = (gain) : hardLimit : thick : *(volume);	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/thick_distortion.dsp	faust	This effect was written first in Haskell as standalone JACK application. Can be found here: https://github.com/unclechu/haskell-audio-dsp There's simple idea behind this distortion effect. Main thing is that current sample depends on previous one, "Thickness" value is a coefficient of how much previous sample will be dominating on current one. Imagine N is a current sample and "Thickness" is set to 0.8 then N will be multipled by 0.2 (1-0.8) and N-1 by 0.8 so it is N0.2 + (N-1)0.8. Just turn input gain knob to extreme value to make signal clipping (it will be hard limited to 0dB) and then make it being smooth by big "Thickness" level. Even if we have square signal it will be smoothed. This effect could also be combined with the "BitDowner" (put "Thick Distortion" after it) to get interesting harmonics and reducing higher ones (because signal would be less sharp). coefficient for pure signal (for current sample, not previous one)	declare id "thick_distortion"; declare name "Thick Distortion"; declare category "Distortion"; declare author "Viacheslav Lotsmanov"; declare license "BSD"; declare copyright "(c) 2018 Viacheslav Lotsmanov"; import("stdfaust.lib"); gain = vslider("input_gain[name:Input][tooltip:Gain (dB)]", 0, 0, 120, 0.1) : ba.db2linear : si.smoo ; thickness = vslider("thickness[name:Thickness]", 0.8, 0, 1, 0.01) : si.smoo ; pureness = 1 - thickness; volume = vslider("volume[name:Volume][tooltip:Volume (dB)]", 0, -90, 40, 0.1) : ba.db2linear : si.smoo ; hardLimit = min(1) : max(-1); thick = (pureness) : + ~((thickness)); process = (gain) : hardLimit : thick : (volume);
133867e538409c6cf85f9fe27c21379368e8a44e3561db25ce69c443c8cf2dc5	ml-wo/VirtualGuitarAmp-Guitarix	gxamp2.dsp	declare id "6V6"; // in amp tube ba.selector declare name "6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); /************************************************************** Tube Preamp Emulation stage 1 - 2 / bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; //b0 = 1; //b1 = -1.01; //b2 = 0; //a1 = -1.84; //a2 = 0.846416; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; tubec(preamp,gain1) = hgroup("stage1", stage1) : hgroup("stage2", stage2) with { stage1 = tubestage(TB_6V6_68k,86.0,2700.0,2.296150): fi.lowpass(1,6531.0) : (preamp) : tubestage(TB_6V6_250k,132.0,1500.0,1.675587); stage2 = fi.lowpass(1,6531.0) : (gain1) : tubestage(TB_6V6_250k,194.0,820.0,1.130462); }; tubeax(preamp,gain1) = hgroup("stage1", stage1) : hgroup("stage2", stage2) with { stage1 = (preamp): tubestage(TB_6V6_68k,86.0,2700.0,2.296150): (0.77) : fi.lowpass(1,6531.0) : (preamp) : tubestage(TB_6V6_250k,132.0,1500.0,1.675587): (0.77); stage2 = fi.lowpass(1,6531.0) : (gain1) : bifilter : tubestage(TB_6V6_250k,194.0,820.0,1.130462) : (0.77); } ; process = component("gxdistortion.dsp").dist(drive,wet_dry) : tubeax(preamp,gain1) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; gain1 = ampctrl.gain1; / drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999); */ };	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/faust/gxamp2.dsp	faust	in amp tube ba.selector ************************************************************* Tube Preamp Emulation stage 1 - 2 b0 = 1; b1 = -1.01; b2 = 0; a1 = -1.84; a2 = 0.846416; drive = vslider(".gxdistortion.drive[alias]",0.35, 0, 1, 0.01); wet_dry = vslider(".gxdistortion.wet_dry[alias]", 100, 0, 100, 1) : /(100) : smoothi(0.999); preamp = vslider(".amp2.stage1.Pregain[alias]",0,-20,20,0.1) : ba.db2linear : smoothi(0.999); gain1 = vslider(".amp2.stage2.gain1[alias]", 6, -20.0, 20.0, 0.1) : ba.db2linear : smoothi(0.999);	declare name "6V6"; declare samplerate "96000"; import("stdfaust.lib"); import("guitarix.lib"); bifilter = fi.tf2(b0,b1,b2,a1,a2) with { c = 1.059; R = 0.9221; lc0 = 0.00506158; lc1 = 0.06446806; lc2 = 0.27547621; lc3 = 0.43359433; lc4 = 1.31282248; lc5 = 0.07238887; fc = 1200 : (2ma.PI/ma.SR) : log; p = lc0pow(fc,5) + lc1pow(fc,4) + lc2pow(fc,3) + lc3pow(fc,2) + lc4fc + lc5 : exp; b0 = 1; b1 = -c; b2 = 0; a1 = -2Rcos(p); a2 = RR; }; tubec(preamp,gain1) = hgroup("stage1", stage1) : hgroup("stage2", stage2) with { stage1 = tubestage(TB_6V6_68k,86.0,2700.0,2.296150): fi.lowpass(1,6531.0) : (preamp) : tubestage(TB_6V6_250k,132.0,1500.0,1.675587); stage2 = fi.lowpass(1,6531.0) : (gain1) : tubestage(TB_6V6_250k,194.0,820.0,1.130462); }; tubeax(preamp,gain1) = hgroup("stage1", stage1) : hgroup("stage2", stage2) with { stage1 = (preamp): tubestage(TB_6V6_68k,86.0,2700.0,2.296150): (0.77) : fi.lowpass(1,6531.0) : (preamp) : tubestage(TB_6V6_250k,132.0,1500.0,1.675587): (0.77); stage2 = fi.lowpass(1,6531.0) : (gain1) : bifilter : tubestage(TB_6V6_250k,194.0,820.0,1.130462) : (0.77); } ; process = component("gxdistortion.dsp").dist(drive,wet_dry) : tubeax(preamp,gain1) with { drive = ampctrl.drive; wet_dry = ampctrl.wet_dry; preamp = ampctrl.preamp; gain1 = ampctrl.gain1; };
1ce6ac6bc8eed242c38ef696de65ba2d6a0d0ef972deff9fb91155258f81de93	ml-wo/VirtualGuitarAmp-Guitarix	dunwah.dsp	declare id "dunwah"; declare name "DunWah"; import("stdfaust.lib"); dunwah = (gs) : fi.tf2(1,-1,0,a1s,a2s) with { // calculated by dunwah1.py theta2pi = (1892.75 - 1 / (((0.000927476wah+-0.00197293)wah+0.002474)wah+-0.00152132))/ma.SR; Q = ((-12.1248wah+21.9241)wah+-33.2116)wah+25.8564; g = 0.025 - 1 / ((((-127.479wah+387.412)wah+-466.009)wah+302.062)wah+-96.9872); R = 1 - theta2pi/(2Q); a1 = 0-2.0Rcos(theta2pi); // biquad coeff a2 = RR; // biquad coeff // dezippering of slider-driven signals: s = 0.999; // smoothing parameter (one-fi.pole fi.pole location) a1s = a1 : si.smooth(s); a2s = a2 : si.smooth(s); gs = g : si.smooth(s); fi.tf2 = component("filter.lib").fi.tf2; //wah = vslider("wah", 0, 0, 1, 0.01) : (9) : +(1) : log10; wah = vslider("wah", 0, 0, 1, 0.01); }; dunwah2 = (gs) : fi.iir((b0, b1, b2, b3), (A1, A2, A3)) with { // calculated by dunwah2.py theta2pi = (1973.48 - 1000 / ((((((12.499wah+-40.3658)wah+49.9836)wah+-28.3434)wah+5.76598)wah+1.9841)wah+-1.6086)) / ma.SR; Q = ((((-52.3051wah+115.375)wah+-99.7712)wah+42.2734)wah+-24.555)wah+21.9737; g = -0.933975 - 1 / (((((2.85511wah+-5.20364)wah+3.64419)wah+-0.86331)wah+0.270546)wah+-0.814203); gc = (-8.38823e-12ma.SR+1.73888e-06)ma.SR+-0.193457; p1 = exp(-1000/(0.808471ma.SR)); z1 = 1.00038; z2 = (-8.52216e-12ma.SR+1.77528e-06)ma.SR+0.879905; z3 = (-6.43963e-11ma.SR+1.54419e-05)ma.SR+-0.386688; b0 = 1.0; b1 = -z1-z2-z3; b2 = z1z2+z1z3+z2z3; b3 = -z1z2z3; // dezippering of slider-driven signals: s = 0.993; // smoothing parameter (one-fi.pole fi.pole location) R = 1 - theta2pi/(2Q); a1 = -2.0Rcos(theta2pi) : si.smooth(s); // biquad coeff a2 = RR : si.smooth(s); // biquad coeff gs = g gc : si.smooth(s); A1 = a1 - p1; A2 = a2 - a1 * p1; A3 = -a2 * p1; fi.iir = component("filter.lib").fi.iir; //wah = vslider("wah", 0, 0, 1, 0.01) : *(9) : +(1) : log10; wah = vslider("wah", 0, 0, 1, 0.01); }; process = dunwah2;	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/plugins/dunwah.dsp	faust	calculated by dunwah1.py biquad coeff biquad coeff dezippering of slider-driven signals: smoothing parameter (one-fi.pole fi.pole location) wah = vslider("wah", 0, 0, 1, 0.01) : (9) : +(1) : log10; calculated by dunwah2.py dezippering of slider-driven signals: smoothing parameter (one-fi.pole fi.pole location) biquad coeff biquad coeff wah = vslider("wah", 0, 0, 1, 0.01) : (9) : +(1) : log10;	declare id "dunwah"; declare name "DunWah"; import("stdfaust.lib"); dunwah = (gs) : fi.tf2(1,-1,0,a1s,a2s) with { theta2pi = (1892.75 - 1 / (((0.000927476wah+-0.00197293)wah+0.002474)wah+-0.00152132))/ma.SR; Q = ((-12.1248wah+21.9241)wah+-33.2116)wah+25.8564; g = 0.025 - 1 / ((((-127.479wah+387.412)wah+-466.009)wah+302.062)wah+-96.9872); R = 1 - theta2pi/(2Q); a1s = a1 : si.smooth(s); a2s = a2 : si.smooth(s); gs = g : si.smooth(s); fi.tf2 = component("filter.lib").fi.tf2; wah = vslider("wah", 0, 0, 1, 0.01); }; dunwah2 = (gs) : fi.iir((b0, b1, b2, b3), (A1, A2, A3)) with { theta2pi = (1973.48 - 1000 / ((((((12.499wah+-40.3658)wah+49.9836)wah+-28.3434)wah+5.76598)wah+1.9841)wah+-1.6086)) / ma.SR; Q = ((((-52.3051wah+115.375)wah+-99.7712)wah+42.2734)wah+-24.555)wah+21.9737; g = -0.933975 - 1 / (((((2.85511wah+-5.20364)wah+3.64419)wah+-0.86331)wah+0.270546)wah+-0.814203); gc = (-8.38823e-12ma.SR+1.73888e-06)ma.SR+-0.193457; p1 = exp(-1000/(0.808471ma.SR)); z1 = 1.00038; z2 = (-8.52216e-12ma.SR+1.77528e-06)ma.SR+0.879905; z3 = (-6.43963e-11ma.SR+1.54419e-05)ma.SR+-0.386688; b0 = 1.0; b1 = -z1-z2-z3; b2 = z1z2+z1z3+z2z3; b3 = -z1z2z3; R = 1 - theta2pi/(2Q); gs = g * gc : si.smooth(s); A1 = a1 - p1; A2 = a2 - a1 * p1; A3 = -a2 * p1; fi.iir = component("filter.lib").fi.iir; wah = vslider("wah", 0, 0, 1, 0.01); }; process = dunwah2;
ff203f49a7a3c08d6dd5c2d77b579a1a4fdb001afc66f218b514c0c25ada2e9c	ml-wo/VirtualGuitarAmp-Guitarix	duck_delay_st.dsp	declare id "duckDelaySt"; declare name "Duck Delay St"; declare category "Echo / Delay"; //------------------------------------ //Description: //The delayed signal added to output dependent of input signal amplitude. //If the input signal is high. The delayed signall turned off, and vise versa. //The switching controlled by envelope follower //(parameters: "attack", "release", and main - "amount", what is controls envelope follower influence). // //Parameters description: //time - de.delay time in milliseconds //feedback - de.delay feedback //pingpong - changes feedback character //coloration - LP/HP coloration filter //attack, release - envelope follower time in seconds controls //amount dB - envelope follower influence //effect - amplitude of effect signal in mix //------------------------------------ import("stdfaust.lib"); //Constrols p_time = hslider("time", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback", 0, 0, 1, 0.05); p_pingpong = hslider("pingpong", 0, 0, 1, 0.05); coloration = hslider("coloration", 0, -1, 1, 0.05); p_attack_time = hslider("attack", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("release", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount", 0.5, 0,56, 0.05):ba.db2linear; p_effect = hslider("effect", 0, -16, +4, 0.1) : ba.db2linear : si.smooth(0.999); //Consts c_fdelay_max_len = 393216; c_channels_sw_time = 0.1; //Funcs X = (_,_)<:(!,_,_,!); get_delay_length(x) = xma.SR:_0.001; coloration_filter(coloration) = _<:(fi.lowshelf(5,(1 - coloration)12,440), fi.highshelf(5,coloration12,880)):>_ba.db2linear(-15); pp_delay(time,fb_coef,pp_fb_coef) = _,_(1 - pp_fb_coef): (_,X,_:(X:(pp_fb_delay(time, fb_coef,pp_fb_coef))), (X:(pp_fb_delay(time, fb_coef,pp_fb_coef))):_,_)~X :>_,_ with { pp_fb_delay(time,fb_coef,pp_fb_coef) = _+_pp_fb_coef: (_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_fb_coef; }; switcher(att, rel, amount) = an.amp_follower_ud(att,rel): _amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)); process = (_<:_,_,_),(_<:_,_,_): _, switcher(p_attack_time, p_release_time, p_amount), (pp_delay(p_time,p_feedback(1 - p_pingpong),p_pingpongp_feedback): coloration_filter(coloration),coloration_filter(coloration)), switcher(p_attack_time, p_release_time, p_amount), _: _,__,__,_:(_,_p_effect:>_),(_*p_effect,_:>_);	https://raw.githubusercontent.com/ml-wo/VirtualGuitarAmp-Guitarix/b4f4caaed9caba9826af7d2862f7789a26e730be/trunk/src/LV2/faust/duck_delay_st.dsp	faust	------------------------------------ Description: The delayed signal added to output dependent of input signal amplitude. If the input signal is high. The delayed signall turned off, and vise versa. The switching controlled by envelope follower (parameters: "attack", "release", and main - "amount", what is controls envelope follower influence). Parameters description: time - de.delay time in milliseconds feedback - de.delay feedback pingpong - changes feedback character coloration - LP/HP coloration filter attack, release - envelope follower time in seconds controls amount dB - envelope follower influence effect - amplitude of effect signal in mix ------------------------------------ Constrols Consts Funcs	declare id "duckDelaySt"; declare name "Duck Delay St"; declare category "Echo / Delay"; import("stdfaust.lib"); p_time = hslider("time", 500, 1, 2000, 1):si.smooth(ba.tau2pole(0.1)); p_feedback = hslider("feedback", 0, 0, 1, 0.05); p_pingpong = hslider("pingpong", 0, 0, 1, 0.05); coloration = hslider("coloration", 0, -1, 1, 0.05); p_attack_time = hslider("attack", 0.1, 0.05, 0.5, 0.05); p_release_time = hslider("release", 0.1, 0.05, 2, 0.05); p_amount = hslider("amount", 0.5, 0,56, 0.05):ba.db2linear; p_effect = hslider("effect", 0, -16, +4, 0.1) : ba.db2linear : si.smooth(0.999); c_fdelay_max_len = 393216; c_channels_sw_time = 0.1; X = (_,_)<:(!,_,_,!); get_delay_length(x) = xma.SR:_0.001; coloration_filter(coloration) = _<:(fi.lowshelf(5,(1 - coloration)12,440), fi.highshelf(5,coloration12,880)):>_ba.db2linear(-15); pp_delay(time,fb_coef,pp_fb_coef) = _,_(1 - pp_fb_coef): (_,X,_:(X:(pp_fb_delay(time, fb_coef,pp_fb_coef))), (X:(pp_fb_delay(time, fb_coef,pp_fb_coef))):_,_)~X :>_,_ with { pp_fb_delay(time,fb_coef,pp_fb_coef) = _+_pp_fb_coef: (_+_:de.fdelay(c_fdelay_max_len,get_delay_length(p_time)))~_fb_coef; }; switcher(att, rel, amount) = an.amp_follower_ud(att,rel): _amount:_>1:(1 - _): si.smooth(ba.tau2pole(c_channels_sw_time)); process = (_<:_,_,_),(_<:_,_,_): _, switcher(p_attack_time, p_release_time, p_amount), (pp_delay(p_time,p_feedback(1 - p_pingpong),p_pingpongp_feedback): coloration_filter(coloration),coloration_filter(coloration)), switcher(p_attack_time, p_release_time, p_amount), _: _,__,__,_:(_,_p_effect:>_),(_*p_effect,_:>_);

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