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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
8b9eb6c25c9f4f05ccf7ad41605a95cf1cc8b22cb3148e827eab4eac7d144312	brummer10/guitarix	mbc.dsp	declare id "mbc"; declare name "Multi Band Compressor"; declare shortname "MB Compressor"; declare category "Guitar Effects"; declare description "Multi Band Compressor contributed by kokoko3k"; import("stdfaust.lib"); rd = library("reducemaps.lib"); vmeter1(x) = attach(x, envelop(x) : vbargraph("v1[tooltip:no]", -70, +5)); vmeter2(x) = attach(x, envelop(x) : vbargraph("v2[tooltip:no]", -70, +5)); vmeter3(x) = attach(x, envelop(x) : vbargraph("v3[tooltip:no]", -70, +5)); vmeter4(x) = attach(x, envelop(x) : vbargraph("v4[tooltip:no]", -70, +5)); vmeter5(x) = attach(x, envelop(x) : vbargraph("v5[tooltip:no]", -70, +5)); vmeter6(x) = attach(x, envelop(x) : vbargraph("v6[tooltip:no]", -70, +5)); vmeter7(x) = attach(x, envelop(x) : vbargraph("v7[tooltip:no]", -70, +5)); vmeter8(x) = attach(x, envelop(x) : vbargraph("v8[tooltip:no]", -70, +5)); vmeter9(x) = attach(x, envelop(x) : vbargraph("v9[tooltip:no]", -70, +5)); vmeter10(x) = attach(x, envelop(x) : vbargraph("v10[tooltip:no]", -70, +5)); envelop = abs : max ~ (1.0/ma.SR) : rd.maxn(4096) ; //envelop = abs : max ~ (1.0/ma.SR) : mean(4096) ; // : max(ba.db2linear(-70)) : ba.linear2db; //Mono process = geq : ( gcomp5s , gcomp4s , gcomp3s, gcomp2s, gcomp1s) :>_ with { gcomp1s = vmeter6:ba.bypass1(bswitch1,co.compressor_mono(ratio1,-push1,attack1,release1)):(Makeup1) : vmeter1; gcomp2s = vmeter7:ba.bypass1(bswitch2,co.compressor_mono(ratio2,-push2,attack2,release2)):(Makeup2) : vmeter2; gcomp3s = vmeter8:ba.bypass1(bswitch3,co.compressor_mono(ratio3,-push3,attack3,release3)):(Makeup3) : vmeter3; gcomp4s = vmeter9:ba.bypass1(bswitch4,co.compressor_mono(ratio4,-push4,attack4,release4)):(Makeup4) : vmeter4; gcomp5s = vmeter10:ba.bypass1(bswitch5,co.compressor_mono(ratio5,-push5,attack5,release5)):(Makeup5) : vmeter5; }; sel1 = hslider("Mode1[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel2 = hslider("Mode2[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel3 = hslider("Mode3[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel4 = hslider("Mode4[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel5 = hslider("Mode5[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); not(x) = abs(x-1); mute1 = not(max(0,sel1-2)); mute2 = not(max(0,sel2-2)); mute3 = not(max(0,sel3-2)); mute4 = not(max(0,sel4-2)); mute5 = not(max(0,sel5-2)); bypass(switch, block) = _ <: select2(switch, _, block); bswitch1 = max(0,sel1-1); bswitch2 = max(0,sel2-1); bswitch3 = max(0,sel3-1); bswitch4 = max(0,sel4-1); bswitch5 = max(0,sel5-1); hifr1 =hslider("crossover_b1_b2 [log][name:Crossover B1-B2 (hz)][tooltip: Crossover fi.bandpass frequency]" ,80 , 20, 20000, 1.08); hifr2 =hslider("crossover_b2_b3 [log][name:Crossover B2-B3 (hz)][tooltip: Crossover fi.bandpass frequency]",210,20,20000,1.08); hifr3 =hslider("crossover_b3_b4 [log][name:Crossover B3-B4 (hz)][tooltip: Crossover fi.bandpass frequency]",1700,20,20000,1.08); hifr4 =hslider("crossover_b4_b5 [log][name:Crossover B4-B5 (hz)][tooltip: Crossover fi.bandpass frequency]",5000,20,20000,1.08); geq = fi.filterbank(3, (hifr1,hifr2,hifr3,hifr4)); ratio1 = hslider("[9] Ratio1 [tooltip: Compression ratio]",2,1,100,0.1); attack1 = hslider("[A] Attack1 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release1 = hslider("[B] Release1 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio2 = hslider("[9] Ratio2 [tooltip: Compression ratio]",2,1,100,0.1); attack2 = hslider("[A] Attack2 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release2 = hslider("[B] Release2 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio3 = hslider("[9] Ratio3 [tooltip: Compression ratio]",2,1,100,0.1); attack3 = hslider("[A] Attack3 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release3 = hslider("[B] Release3 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio4 = hslider("[9] Ratio4 [tooltip: Compression ratio]",2,1,100,0.1); attack4 = hslider("[A] Attack4 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release4 = hslider("[B] Release4 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio5 = hslider("[9] Ratio5 [tooltip: Compression ratio]",2,1,100,0.1); attack5 = hslider("[A] Attack5 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release5 = hslider("[B] Release5 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); push1 = hslider("[5] Makeup1 [tooltip: Post amplification and threshold]" , 13, -50, +50, 0.1) ; // threshold-=push ; makeup+=push push2 = hslider("[5] Makeup2 [tooltip: Post amplification and threshold]" , 10, -50, +50, 0.1) ; // threshold-=push ; makeup+=push push3 = hslider("[5] Makeup3 [tooltip: Post amplification and threshold]" , 4, -50, +50, 0.1) ; // threshold-=push ; makeup+=push push4 = hslider("[5] Makeup4 [tooltip: Post amplification and threshold]" , 8, -50, +50, 0.1) ; // threshold-=push ; makeup+=push push5 = hslider("[5] Makeup5 [tooltip: Post amplification and threshold]" , 11, -50, +50, 0.1) ; // threshold-=push ; makeup+=push safe1 = hslider("[6] MakeupThreshold1 [tooltip: Threshold correction, an anticlip measure]" , 2, 0, +10, 0.1) ; // makeup-=safe safe2 = hslider("[6] MakeupThreshold2 [tooltip: Threshold correction, an anticlip measure]" , 2, 0, +10, 0.1) ; // makeup-=safe safe3 = hslider("[6] MakeupThreshold3 [tooltip: Threshold correction, an anticlip measure]" , 2, 0, +10, 0.1) ; // makeup-=safe safe4 = hslider("[6] MakeupThreshold4 [tooltip: Threshold correction, an anticlip measure]" , 2, 0, +10, 0.1) ; // makeup-=safe safe5 = hslider("[6] MakeupThreshold5 [tooltip: Threshold correction, an anticlip measure]" , 2, 0, +10, 0.1) ; // makeup-=safe Makeup1 = mute1 (not(bswitch1)(push1-safe1) : ba.db2linear : si.smooth(0.999)); Makeup2 = mute2 (not(bswitch2)(push2-safe2) : ba.db2linear : si.smooth(0.999)); Makeup3 = mute3 (not(bswitch3)(push3-safe3) : ba.db2linear : si.smooth(0.999)); Makeup4 = mute4 (not(bswitch4)(push4-safe4) : ba.db2linear : si.smooth(0.999)); Makeup5 = mute5 (not(bswitch5)*(push5-safe5) : ba.db2linear : si.smooth(0.999)); //Low end headsets: 13,10,4,8,11 (split 80,210,1700,5000) //Mid-high end headsets: 17,20.5,20,10.5,10 (split 44,180,800,5000)	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/mbc.dsp	faust	envelop = abs : max ~ (1.0/ma.SR) : mean(4096) ; // : max(ba.db2linear(-70)) : ba.linear2db; Mono threshold-=push ; makeup+=push threshold-=push ; makeup+=push threshold-=push ; makeup+=push threshold-=push ; makeup+=push threshold-=push ; makeup+=push makeup-=safe makeup-=safe makeup-=safe makeup-=safe makeup-=safe Low end headsets: 13,10,4,8,11 (split 80,210,1700,5000) Mid-high end headsets: 17,20.5,20,10.5,10 (split 44,180,800,5000)	declare id "mbc"; declare name "Multi Band Compressor"; declare shortname "MB Compressor"; declare category "Guitar Effects"; declare description "Multi Band Compressor contributed by kokoko3k"; import("stdfaust.lib"); rd = library("reducemaps.lib"); vmeter1(x) = attach(x, envelop(x) : vbargraph("v1[tooltip:no]", -70, +5)); vmeter2(x) = attach(x, envelop(x) : vbargraph("v2[tooltip:no]", -70, +5)); vmeter3(x) = attach(x, envelop(x) : vbargraph("v3[tooltip:no]", -70, +5)); vmeter4(x) = attach(x, envelop(x) : vbargraph("v4[tooltip:no]", -70, +5)); vmeter5(x) = attach(x, envelop(x) : vbargraph("v5[tooltip:no]", -70, +5)); vmeter6(x) = attach(x, envelop(x) : vbargraph("v6[tooltip:no]", -70, +5)); vmeter7(x) = attach(x, envelop(x) : vbargraph("v7[tooltip:no]", -70, +5)); vmeter8(x) = attach(x, envelop(x) : vbargraph("v8[tooltip:no]", -70, +5)); vmeter9(x) = attach(x, envelop(x) : vbargraph("v9[tooltip:no]", -70, +5)); vmeter10(x) = attach(x, envelop(x) : vbargraph("v10[tooltip:no]", -70, +5)); envelop = abs : max ~ (1.0/ma.SR) : rd.maxn(4096) ; process = geq : ( gcomp5s , gcomp4s , gcomp3s, gcomp2s, gcomp1s) :>_ with { gcomp1s = vmeter6:ba.bypass1(bswitch1,co.compressor_mono(ratio1,-push1,attack1,release1)):(Makeup1) : vmeter1; gcomp2s = vmeter7:ba.bypass1(bswitch2,co.compressor_mono(ratio2,-push2,attack2,release2)):(Makeup2) : vmeter2; gcomp3s = vmeter8:ba.bypass1(bswitch3,co.compressor_mono(ratio3,-push3,attack3,release3)):(Makeup3) : vmeter3; gcomp4s = vmeter9:ba.bypass1(bswitch4,co.compressor_mono(ratio4,-push4,attack4,release4)):(Makeup4) : vmeter4; gcomp5s = vmeter10:ba.bypass1(bswitch5,co.compressor_mono(ratio5,-push5,attack5,release5)):(Makeup5) : vmeter5; }; sel1 = hslider("Mode1[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel2 = hslider("Mode2[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel3 = hslider("Mode3[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel4 = hslider("Mode4[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); sel5 = hslider("Mode5[enum:Compress\|Bypass\|Mute][tooltip: Compress or Mute the selected band, or Bypass The Compressor]",1,1,3,1); not(x) = abs(x-1); mute1 = not(max(0,sel1-2)); mute2 = not(max(0,sel2-2)); mute3 = not(max(0,sel3-2)); mute4 = not(max(0,sel4-2)); mute5 = not(max(0,sel5-2)); bypass(switch, block) = _ <: select2(switch, _, block); bswitch1 = max(0,sel1-1); bswitch2 = max(0,sel2-1); bswitch3 = max(0,sel3-1); bswitch4 = max(0,sel4-1); bswitch5 = max(0,sel5-1); hifr1 =hslider("crossover_b1_b2 [log][name:Crossover B1-B2 (hz)][tooltip: Crossover fi.bandpass frequency]" ,80 , 20, 20000, 1.08); hifr2 =hslider("crossover_b2_b3 [log][name:Crossover B2-B3 (hz)][tooltip: Crossover fi.bandpass frequency]",210,20,20000,1.08); hifr3 =hslider("crossover_b3_b4 [log][name:Crossover B3-B4 (hz)][tooltip: Crossover fi.bandpass frequency]",1700,20,20000,1.08); hifr4 =hslider("crossover_b4_b5 [log][name:Crossover B4-B5 (hz)][tooltip: Crossover fi.bandpass frequency]",5000,20,20000,1.08); geq = fi.filterbank(3, (hifr1,hifr2,hifr3,hifr4)); ratio1 = hslider("[9] Ratio1 [tooltip: Compression ratio]",2,1,100,0.1); attack1 = hslider("[A] Attack1 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release1 = hslider("[B] Release1 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio2 = hslider("[9] Ratio2 [tooltip: Compression ratio]",2,1,100,0.1); attack2 = hslider("[A] Attack2 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release2 = hslider("[B] Release2 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio3 = hslider("[9] Ratio3 [tooltip: Compression ratio]",2,1,100,0.1); attack3 = hslider("[A] Attack3 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release3 = hslider("[B] Release3 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio4 = hslider("[9] Ratio4 [tooltip: Compression ratio]",2,1,100,0.1); attack4 = hslider("[A] Attack4 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release4 = hslider("[B] Release4 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); ratio5 = hslider("[9] Ratio5 [tooltip: Compression ratio]",2,1,100,0.1); attack5 = hslider("[A] Attack5 [tooltip: Time before the compressor starts to kick in]", 0.012, 0.001, 1, 0.001); release5 = hslider("[B] Release5 [tooltip: Time before the compressor releases the sound]", 1.25, 0.01, 10, 0.01); Makeup1 = mute1 (not(bswitch1)(push1-safe1) : ba.db2linear : si.smooth(0.999)); Makeup2 = mute2 (not(bswitch2)(push2-safe2) : ba.db2linear : si.smooth(0.999)); Makeup3 = mute3 (not(bswitch3)(push3-safe3) : ba.db2linear : si.smooth(0.999)); Makeup4 = mute4 (not(bswitch4)(push4-safe4) : ba.db2linear : si.smooth(0.999)); Makeup5 = mute5 (not(bswitch5)*(push5-safe5) : ba.db2linear : si.smooth(0.999));
a5cd0bffcbe9718544b39c15e632f12d5b24445439148e3e5fd04d75bf54ab58	brummer10/guitarix	fuzzfacefm.dsp	// generated automatically // DO NOT MODIFY! declare id "fuzzfacefm"; declare name "Fuzz Face Fuller"; declare category "Distortion"; declare shortname "Fuzz Face FM"; declare description "Micke Fuller Fuzz Face simulation"; import("stdfaust.lib"); import("trany.lib"); process = 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 = _; clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; Drive = vslider("Drive[name:Drive]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 0.99, 0.01) : Inverted(1) : si.smooth(s); Input = vslider("AUDIO_IN[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Drive(Fuzz(Fuzz(-1.12927979815576e-15Levelpow(fs,3) + 1.4115997476947e-15pow(fs,3)) - 1.11420586447254e-13Levelpow(fs,3) + 1.39275733059067e-13pow(fs,3)) + Levelpow(fs,2)(1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(-1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(1.66004130328897e-15Levelpow(fs,3) - 2.07505162911121e-15pow(fs,3)) + 1.63788262077463e-13Levelpow(fs,3) - 2.04735327596828e-13pow(fs,3)) + Levelpow(fs,2)(-1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(2.0681037922594e-13fs + 4.74739615579661e-12); b1 = Drive(Fuzz(Fuzz(3.38783939446729e-15Levelpow(fs,3) - 4.23479924308411e-15pow(fs,3)) + 3.34261759341761e-13Levelpow(fs,3) - 4.17827199177201e-13pow(fs,3)) + Levelpow(fs,2)(-3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(-4.98012390986691e-15Levelpow(fs,3) + 6.22515488733364e-15pow(fs,3)) - 4.91364786232388e-13Levelpow(fs,3) + 6.14205982790485e-13pow(fs,3)) + Levelpow(fs,2)(4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(-6.20431137677819e-13fs - 4.74739615579661e-12); b2 = Drive(Fuzz(Fuzz(-3.38783939446729e-15Levelpow(fs,3) + 4.23479924308411e-15pow(fs,3)) - 3.34261759341761e-13Levelpow(fs,3) + 4.17827199177201e-13pow(fs,3)) + Levelpow(fs,2)(3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(-4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(4.98012390986691e-15Levelpow(fs,3) - 6.22515488733364e-15pow(fs,3)) + 4.91364786232388e-13Levelpow(fs,3) - 6.14205982790485e-13pow(fs,3)) + Levelpow(fs,2)(-4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(6.20431137677819e-13fs - 4.74739615579661e-12); b3 = Drive(Fuzz(Fuzz(1.12927979815576e-15Levelpow(fs,3) - 1.4115997476947e-15pow(fs,3)) + 1.11420586447254e-13Levelpow(fs,3) - 1.39275733059067e-13pow(fs,3)) + Levelpow(fs,2)(-1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(-1.66004130328897e-15Levelpow(fs,3) + 2.07505162911121e-15pow(fs,3)) - 1.63788262077463e-13Levelpow(fs,3) + 2.04735327596828e-13pow(fs,3)) + Levelpow(fs,2)(1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(-2.0681037922594e-13fs + 4.74739615579661e-12); a0 = Drive(Fuzz(Fuzzfs(fs(1.42504059392599e-16fs + 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(-1.42392288693486e-16fs - 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(-1.1177069911304e-19fs - 3.24149709132582e-15) - 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(-7.14615106636066e-14fs - 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(7.14054610111223e-14fs + 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(5.02096331201311e-20fs + 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(-7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(-2.51786247207522e-17fs - 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(5.60496524842164e-17fs + 1.63110208134281e-12) + 1.69410806769336e-10) + 7.31444772672817e-10; a1 = Drive(Fuzz(Fuzzfs(fs(-4.27512178177797e-16fs - 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(4.27176866080457e-16fs + 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(3.35312097339121e-19fs + 3.24149709132582e-15) - 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(2.1438453199082e-13fs + 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(-2.14216383033367e-13fs - 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(-4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(-1.50628899360393e-19fs - 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(7.55358741622564e-17fs + 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(-1.68148957452649e-16fs - 1.63110208134281e-12) + 1.69410806769336e-10) + 2.19433431801845e-9; a2 = Drive(Fuzz(Fuzzfs(fs(4.27512178177797e-16fs - 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(-4.27176866080457e-16fs + 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(-3.35312097339121e-19fs + 3.24149709132582e-15) + 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(-2.1438453199082e-13fs + 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(2.14216383033367e-13fs - 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(1.50628899360393e-19fs - 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(-2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(-7.55358741622564e-17fs + 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(1.68148957452649e-16fs - 1.63110208134281e-12) - 1.69410806769336e-10) + 2.19433431801845e-9; a3 = Drive(Fuzz(Fuzzfs(fs(-1.42504059392599e-16fs + 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(1.42392288693486e-16fs - 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(1.1177069911304e-19fs - 3.24149709132582e-15) + 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(7.14615106636066e-14fs - 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(-7.14054610111223e-14fs + 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(-1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(-5.02096331201311e-20fs + 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(2.51786247207522e-17fs - 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(-5.60496524842164e-17fs + 1.63110208134281e-12) - 1.69410806769336e-10) + 7.31444772672817e-10; };	https://raw.githubusercontent.com/brummer10/guitarix/9734478d71ac7190dc8814ce250e28ce174ebaf1/trunk/src/LV2/faust/fuzzfacefm.dsp	faust	generated automatically DO NOT MODIFY!	declare id "fuzzfacefm"; declare name "Fuzz Face Fuller"; declare category "Distortion"; declare shortname "Fuzz Face FM"; declare description "Micke Fuller Fuzz Face simulation"; import("stdfaust.lib"); import("trany.lib"); process = 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 = _; clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; Drive = vslider("Drive[name:Drive]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 0.99, 0.01) : Inverted(1) : si.smooth(s); Input = vslider("AUDIO_IN[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Drive(Fuzz(Fuzz(-1.12927979815576e-15Levelpow(fs,3) + 1.4115997476947e-15pow(fs,3)) - 1.11420586447254e-13Levelpow(fs,3) + 1.39275733059067e-13pow(fs,3)) + Levelpow(fs,2)(1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(-1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(1.66004130328897e-15Levelpow(fs,3) - 2.07505162911121e-15pow(fs,3)) + 1.63788262077463e-13Levelpow(fs,3) - 2.04735327596828e-13pow(fs,3)) + Levelpow(fs,2)(-1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(2.0681037922594e-13fs + 4.74739615579661e-12); b1 = Drive(Fuzz(Fuzz(3.38783939446729e-15Levelpow(fs,3) - 4.23479924308411e-15pow(fs,3)) + 3.34261759341761e-13Levelpow(fs,3) - 4.17827199177201e-13pow(fs,3)) + Levelpow(fs,2)(-3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(-4.98012390986691e-15Levelpow(fs,3) + 6.22515488733364e-15pow(fs,3)) - 4.91364786232388e-13Levelpow(fs,3) + 6.14205982790485e-13pow(fs,3)) + Levelpow(fs,2)(4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(-6.20431137677819e-13fs - 4.74739615579661e-12); b2 = Drive(Fuzz(Fuzz(-3.38783939446729e-15Levelpow(fs,3) + 4.23479924308411e-15pow(fs,3)) - 3.34261759341761e-13Levelpow(fs,3) + 4.17827199177201e-13pow(fs,3)) + Levelpow(fs,2)(3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(-4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(4.98012390986691e-15Levelpow(fs,3) - 6.22515488733364e-15pow(fs,3)) + 4.91364786232388e-13Levelpow(fs,3) - 6.14205982790485e-13pow(fs,3)) + Levelpow(fs,2)(-4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(6.20431137677819e-13fs - 4.74739615579661e-12); b3 = Drive(Fuzz(Fuzz(1.12927979815576e-15Levelpow(fs,3) - 1.4115997476947e-15pow(fs,3)) + 1.11420586447254e-13Levelpow(fs,3) - 1.39275733059067e-13pow(fs,3)) + Levelpow(fs,2)(-1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(-1.66004130328897e-15Levelpow(fs,3) + 2.07505162911121e-15pow(fs,3)) - 1.63788262077463e-13Levelpow(fs,3) + 2.04735327596828e-13pow(fs,3)) + Levelpow(fs,2)(1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(-2.0681037922594e-13fs + 4.74739615579661e-12); a0 = Drive(Fuzz(Fuzzfs(fs(1.42504059392599e-16fs + 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(-1.42392288693486e-16fs - 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(-1.1177069911304e-19fs - 3.24149709132582e-15) - 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(-7.14615106636066e-14fs - 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(7.14054610111223e-14fs + 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(5.02096331201311e-20fs + 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(-7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(-2.51786247207522e-17fs - 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(5.60496524842164e-17fs + 1.63110208134281e-12) + 1.69410806769336e-10) + 7.31444772672817e-10; a1 = Drive(Fuzz(Fuzzfs(fs(-4.27512178177797e-16fs - 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(4.27176866080457e-16fs + 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(3.35312097339121e-19fs + 3.24149709132582e-15) - 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(2.1438453199082e-13fs + 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(-2.14216383033367e-13fs - 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(-4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(-1.50628899360393e-19fs - 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(7.55358741622564e-17fs + 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(-1.68148957452649e-16fs - 1.63110208134281e-12) + 1.69410806769336e-10) + 2.19433431801845e-9; a2 = Drive(Fuzz(Fuzzfs(fs(4.27512178177797e-16fs - 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(-4.27176866080457e-16fs + 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(-3.35312097339121e-19fs + 3.24149709132582e-15) + 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(-2.1438453199082e-13fs + 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(2.14216383033367e-13fs - 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(1.50628899360393e-19fs - 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(-2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(-7.55358741622564e-17fs + 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(1.68148957452649e-16fs - 1.63110208134281e-12) - 1.69410806769336e-10) + 2.19433431801845e-9; a3 = Drive(Fuzz(Fuzzfs(fs(-1.42504059392599e-16fs + 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(1.42392288693486e-16fs - 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(1.1177069911304e-19fs - 3.24149709132582e-15) + 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(7.14615106636066e-14fs - 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(-7.14054610111223e-14fs + 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(-1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(-5.02096331201311e-20fs + 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(2.51786247207522e-17fs - 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(-5.60496524842164e-17fs + 1.63110208134281e-12) - 1.69410806769336e-10) + 7.31444772672817e-10; };
9753c000bb3a4afcbf96d9c78e50242ce875b434005637002c0fe5f823de4d21	brummer10/guitarix	fuzzfacefm.dsp	// generated automatically // DO NOT MODIFY! declare id "fuzzfacefm"; declare name "Fuzz Face Fuller"; declare category "Fuzz"; declare shortname "FF Fuller"; declare description "Micke Fuller Fuzz Face simulation"; declare insert_p "clipper"; declare volume_p "Level"; import("stdfaust.lib"); import("trany.lib"); process = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; //clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; Drive = vslider("Drive[name:Drive]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Input = vslider("Input[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); //Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Drive(Fuzz(Fuzz(-1.12927979815576e-15pow(fs,3) + 1.4115997476947e-15pow(fs,3)) - 1.11420586447254e-13pow(fs,3) + 1.39275733059067e-13pow(fs,3)) + pow(fs,2)(1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(-1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(1.66004130328897e-15pow(fs,3) - 2.07505162911121e-15pow(fs,3)) + 1.63788262077463e-13pow(fs,3) - 2.04735327596828e-13pow(fs,3)) + pow(fs,2)(-1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(2.0681037922594e-13fs + 4.74739615579661e-12); b1 = Drive(Fuzz(Fuzz(3.38783939446729e-15pow(fs,3) - 4.23479924308411e-15pow(fs,3)) + 3.34261759341761e-13pow(fs,3) - 4.17827199177201e-13pow(fs,3)) + pow(fs,2)(-3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(-4.98012390986691e-15pow(fs,3) + 6.22515488733364e-15pow(fs,3)) - 4.91364786232388e-13pow(fs,3) + 6.14205982790485e-13pow(fs,3)) + pow(fs,2)(4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(-6.20431137677819e-13fs - 4.74739615579661e-12); b2 = Drive(Fuzz(Fuzz(-3.38783939446729e-15pow(fs,3) + 4.23479924308411e-15pow(fs,3)) - 3.34261759341761e-13pow(fs,3) + 4.17827199177201e-13pow(fs,3)) + pow(fs,2)(3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(-4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(4.98012390986691e-15pow(fs,3) - 6.22515488733364e-15pow(fs,3)) + 4.91364786232388e-13pow(fs,3) - 6.14205982790485e-13pow(fs,3)) + pow(fs,2)(-4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(6.20431137677819e-13fs - 4.74739615579661e-12); b3 = Drive(Fuzz(Fuzz(1.12927979815576e-15pow(fs,3) - 1.4115997476947e-15pow(fs,3)) + 1.11420586447254e-13pow(fs,3) - 1.39275733059067e-13pow(fs,3)) + pow(fs,2)(-1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(-1.66004130328897e-15pow(fs,3) + 2.07505162911121e-15pow(fs,3)) - 1.63788262077463e-13pow(fs,3) + 2.04735327596828e-13pow(fs,3)) + pow(fs,2)(1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(-2.0681037922594e-13fs + 4.74739615579661e-12); a0 = Drive(Fuzz(Fuzzfs(fs(1.42504059392599e-16fs + 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(-1.42392288693486e-16fs - 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(-1.1177069911304e-19fs - 3.24149709132582e-15) - 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(-7.14615106636066e-14fs - 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(7.14054610111223e-14fs + 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(5.02096331201311e-20fs + 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(-7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(-2.51786247207522e-17fs - 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(5.60496524842164e-17fs + 1.63110208134281e-12) + 1.69410806769336e-10) + 7.31444772672817e-10; a1 = Drive(Fuzz(Fuzzfs(fs(-4.27512178177797e-16fs - 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(4.27176866080457e-16fs + 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(3.35312097339121e-19fs + 3.24149709132582e-15) - 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(2.1438453199082e-13fs + 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(-2.14216383033367e-13fs - 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(-4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(-1.50628899360393e-19fs - 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(7.55358741622564e-17fs + 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(-1.68148957452649e-16fs - 1.63110208134281e-12) + 1.69410806769336e-10) + 2.19433431801845e-9; a2 = Drive(Fuzz(Fuzzfs(fs(4.27512178177797e-16fs - 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(-4.27176866080457e-16fs + 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(-3.35312097339121e-19fs + 3.24149709132582e-15) + 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(-2.1438453199082e-13fs + 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(2.14216383033367e-13fs - 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(1.50628899360393e-19fs - 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(-2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(-7.55358741622564e-17fs + 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(1.68148957452649e-16fs - 1.63110208134281e-12) - 1.69410806769336e-10) + 2.19433431801845e-9; a3 = Drive(Fuzz(Fuzzfs(fs(-1.42504059392599e-16fs + 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(1.42392288693486e-16fs - 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(1.1177069911304e-19fs - 3.24149709132582e-15) + 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(7.14615106636066e-14fs - 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(-7.14054610111223e-14fs + 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(-1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(-5.02096331201311e-20fs + 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(2.51786247207522e-17fs - 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(-5.60496524842164e-17fs + 1.63110208134281e-12) - 1.69410806769336e-10) + 7.31444772672817e-10; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/fuzzfacefm.dsp	faust	generated automatically DO NOT MODIFY! clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s);	declare id "fuzzfacefm"; declare name "Fuzz Face Fuller"; declare category "Fuzz"; declare shortname "FF Fuller"; declare description "Micke Fuller Fuzz Face simulation"; declare insert_p "clipper"; declare volume_p "Level"; import("stdfaust.lib"); import("trany.lib"); process = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Drive = vslider("Drive[name:Drive]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Input = vslider("Input[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Drive(Fuzz(Fuzz(-1.12927979815576e-15pow(fs,3) + 1.4115997476947e-15pow(fs,3)) - 1.11420586447254e-13pow(fs,3) + 1.39275733059067e-13pow(fs,3)) + pow(fs,2)(1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(-1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(1.66004130328897e-15pow(fs,3) - 2.07505162911121e-15pow(fs,3)) + 1.63788262077463e-13pow(fs,3) - 2.04735327596828e-13pow(fs,3)) + pow(fs,2)(-1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(2.0681037922594e-13fs + 4.74739615579661e-12); b1 = Drive(Fuzz(Fuzz(3.38783939446729e-15pow(fs,3) - 4.23479924308411e-15pow(fs,3)) + 3.34261759341761e-13pow(fs,3) - 4.17827199177201e-13pow(fs,3)) + pow(fs,2)(-3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(-4.98012390986691e-15pow(fs,3) + 6.22515488733364e-15pow(fs,3)) - 4.91364786232388e-13pow(fs,3) + 6.14205982790485e-13pow(fs,3)) + pow(fs,2)(4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(-6.20431137677819e-13fs - 4.74739615579661e-12); b2 = Drive(Fuzz(Fuzz(-3.38783939446729e-15pow(fs,3) + 4.23479924308411e-15pow(fs,3)) - 3.34261759341761e-13pow(fs,3) + 4.17827199177201e-13pow(fs,3)) + pow(fs,2)(3.37649598736228e-13fs - 2.58361695553557e-12) + pow(fs,2)(-4.22061998420285e-13fs + 3.22952119441946e-12)) + Fuzz(Fuzz(4.98012390986691e-15pow(fs,3) - 6.22515488733364e-15pow(fs,3)) + 4.91364786232388e-13pow(fs,3) - 6.14205982790485e-13pow(fs,3)) + pow(fs,2)(-4.96344910142255e-13fs + 3.79791692463729e-12) + pow(fs,2)(6.20431137677819e-13fs - 4.74739615579661e-12); b3 = Drive(Fuzz(Fuzz(1.12927979815576e-15pow(fs,3) - 1.4115997476947e-15pow(fs,3)) + 1.11420586447254e-13pow(fs,3) - 1.39275733059067e-13pow(fs,3)) + pow(fs,2)(-1.12549866245409e-13fs + 2.58361695553557e-12) + pow(fs,2)(1.40687332806762e-13fs - 3.22952119441946e-12)) + Fuzz(Fuzz(-1.66004130328897e-15pow(fs,3) + 2.07505162911121e-15pow(fs,3)) - 1.63788262077463e-13pow(fs,3) + 2.04735327596828e-13pow(fs,3)) + pow(fs,2)(1.65448303380752e-13fs - 3.79791692463729e-12) + pow(fs,2)(-2.0681037922594e-13fs + 4.74739615579661e-12); a0 = Drive(Fuzz(Fuzzfs(fs(1.42504059392599e-16fs + 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(-1.42392288693486e-16fs - 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(-1.1177069911304e-19fs - 3.24149709132582e-15) - 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(-7.14615106636066e-14fs - 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(7.14054610111223e-14fs + 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(5.02096331201311e-20fs + 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(-7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(-2.51786247207522e-17fs - 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(5.60496524842164e-17fs + 1.63110208134281e-12) + 1.69410806769336e-10) + 7.31444772672817e-10; a1 = Drive(Fuzz(Fuzzfs(fs(-4.27512178177797e-16fs - 6.43443174346988e-16) - 3.26234246975457e-55) + fs(fs(4.27176866080457e-16fs + 6.43214948741896e-16) + 3.45797348759893e-55)) + fs(fs(3.35312097339121e-19fs + 3.24149709132582e-15) - 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(2.1438453199082e-13fs + 7.44787041826973e-12) - 3.21721587173494e-11) + fs(fs(-2.14216383033367e-13fs - 7.44216743501989e-12) + 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(-4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(-1.50628899360393e-19fs - 3.21835699976039e-15) - 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(7.55358741622564e-17fs + 1.61641996632585e-12) - 1.6091784998802e-10)) + fs(fs(-1.68148957452649e-16fs - 1.63110208134281e-12) + 1.69410806769336e-10) + 2.19433431801845e-9; a2 = Drive(Fuzz(Fuzzfs(fs(4.27512178177797e-16fs - 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(-4.27176866080457e-16fs + 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(-3.35312097339121e-19fs + 3.24149709132582e-15) + 1.46288954534563e-14) + 2.09093962630242e-53) + Fuzz(Fuzzfs(fs(-2.1438453199082e-13fs + 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(2.14216383033367e-13fs - 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(-4.24672495069012e-16fs - 7.17715343346006e-56) + pow(fs,2)(4.24521866169651e-16fs + 7.60754167271764e-56)) + fs(fs(1.50628899360393e-19fs - 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(2.12960516102257e-13fs - 7.07787491781686e-12) + pow(fs,2)(-2.12884980228095e-13fs + 7.07536443616085e-12)) + fs(fs(-7.55358741622564e-17fs + 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(1.68148957452649e-16fs - 1.63110208134281e-12) - 1.69410806769336e-10) + 2.19433431801845e-9; a3 = Drive(Fuzz(Fuzzfs(fs(-1.42504059392599e-16fs + 6.43443174346988e-16) + 3.26234246975457e-55) + fs(fs(1.42392288693486e-16fs - 6.43214948741896e-16) - 3.45797348759893e-55)) + fs(fs(1.1177069911304e-19fs - 3.24149709132582e-15) + 1.46288954534563e-14) + 6.96979875434139e-54) + Fuzz(Fuzzfs(fs(7.14615106636066e-14fs - 7.44787041826973e-12) + 3.21721587173494e-11) + fs(fs(-7.14054610111223e-14fs + 7.44216743501989e-12) - 3.21607474370948e-11)) + Input(Drive(Fuzz(Fuzzpow(fs,2)(1.41557498356337e-16fs + 7.17715343346006e-56) + pow(fs,2)(-1.41507288723217e-16fs - 7.60754167271764e-56)) + fs(fs(-5.02096331201311e-20fs + 3.21835699976039e-15) + 1.53335572595511e-54)) + Fuzz(Fuzzpow(fs,2)(-7.09868387007524e-14fs + 7.07787491781686e-12) + pow(fs,2)(7.09616600760317e-14fs - 7.07536443616085e-12)) + fs(fs(2.51786247207522e-17fs - 1.61641996632585e-12) + 1.6091784998802e-10)) + fs(fs(-5.60496524842164e-17fs + 1.63110208134281e-12) - 1.69410806769336e-10) + 7.31444772672817e-10; };
13978390847ede7dce72a9c843cf1261e15cf140b931cbc9221fb83064b307d3	brummer10/guitarix	susta.dsp	// generated automatically // DO NOT MODIFY! declare id "susta"; declare name "Sustainer"; declare category "Fuzz"; declare shortname "Sustainer"; declare description "Sustainer"; declare insert_p "tranyclipper"; declare volume_p "Volume"; import("stdfaust.lib"); import("trany.lib"); process = 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 { 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 = _; clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; //Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Sustain = vslider("Sustain[name:Sustain]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Sustainpow(fs,3)(fs(4.07249439024394e-27fs - 1.34118849842818e-20) + 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(-3.9514408494262e-27fs + 1.26300907176988e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-3.9514408494262e-29fs + 1.26300907176988e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(4.07249439024394e-29fs - 1.34118849842818e-22) + 1.23525177556824e-17); b1 = Sustainpow(fs,3)(fs(-2.03624719512197e-26fs + 4.02356549528453e-20) - 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(1.9757204247131e-26fs - 3.78902721530964e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(1.9757204247131e-28fs - 3.78902721530964e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-2.03624719512197e-28fs + 4.02356549528453e-22) - 1.23525177556824e-17); b2 = Sustainpow(fs,3)(fs(4.07249439024394e-26fs - 2.68237699685635e-20) - 2.47050355113649e-15) + (Sustainpow(fs,3)(fs(-3.9514408494262e-26fs + 2.52601814353976e-20) - 5.37808427171532e-17) + pow(fs,3)(fs(-3.9514408494262e-28fs + 2.52601814353976e-22) - 5.37808427171532e-19)) + pow(fs,3)(fs(4.07249439024394e-28fs - 2.68237699685635e-22) - 2.47050355113649e-17); b3 = Sustainpow(fs,3)(fs(-4.07249439024394e-26fs - 2.68237699685635e-20) + 2.47050355113649e-15) + (Sustainpow(fs,3)(fs(3.9514408494262e-26fs + 2.52601814353976e-20) + 5.37808427171532e-17) + pow(fs,3)(fs(3.9514408494262e-28fs + 2.52601814353976e-22) + 5.37808427171532e-19)) + pow(fs,3)(fs(-4.07249439024394e-28fs - 2.68237699685635e-22) + 2.47050355113649e-17); b4 = Sustainpow(fs,3)(fs(2.03624719512197e-26fs + 4.02356549528453e-20) + 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(-1.9757204247131e-26fs - 3.78902721530964e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-1.9757204247131e-28fs - 3.78902721530964e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(2.03624719512197e-28fs + 4.02356549528453e-22) + 1.23525177556824e-17); b5 = Sustainpow(fs,3)(fs(-4.07249439024394e-27fs - 1.34118849842818e-20) - 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(3.9514408494262e-27fs + 1.26300907176988e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(3.9514408494262e-29fs + 1.26300907176988e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-4.07249439024394e-29fs - 1.34118849842818e-22) - 1.23525177556824e-17); a0 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-24fs - 9.36483991458906e-20) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(9.84499037599778e-24fs + 9.42766173980015e-20) + 1.78421312766784e-16) + 3.39775512445924e-15) + 1.56108178903595e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-24fs + 6.98874158230498e-20) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-5.07545362580621e-24fs - 7.00613593632107e-20) - 1.47460849525455e-16) - 2.81034919192636e-15) - 1.29152092545966e-14)) + fs(fs(fs(fs(-1.03973026841637e-24fs - 5.71785438210912e-20) - 1.41224926366503e-16) - 3.77185698680303e-15) - 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(1.58888527196851e-24fs + 6.14378170525581e-20) + 1.4867852143994e-16) + 4.14135154627774e-15) + 3.80287926742832e-14) + 1.14785425664408e-13; a1 = Sustain(Sustainpow(fs,2)(fs(fs(4.95688793492651e-23fs + 2.80945197437672e-19) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-4.92249518799889e-23fs - 2.82829852194005e-19) - 1.78421312766784e-16) + 3.39775512445924e-15) + 4.68324536710785e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-2.55545753537499e-23fs - 2.09662247469149e-19) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(2.53772681290311e-23fs + 2.10184078089632e-19) + 1.47460849525455e-16) - 2.81034919192636e-15) - 3.87456277637898e-14)) + fs(fs(fs(fs(5.19865134208184e-24fs + 1.71535631463274e-19) + 1.41224926366503e-16) - 3.77185698680303e-15) - 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(-7.94442635984257e-24fs - 1.84313451157674e-19) - 1.4867852143994e-16) + 4.14135154627774e-15) + 1.1408637802285e-13) + 5.7392712832204e-13; a2 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-23fs - 1.87296798291781e-19) + 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(9.84499037599778e-23fs + 1.88553234796003e-19) - 3.56842625533568e-16) - 6.79551024891847e-15) + 3.1221635780719e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-23fs + 1.397748316461e-19) - 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(-5.07545362580621e-23fs - 1.40122718726421e-19) + 2.94921699050911e-16) + 5.62069838385272e-15) - 2.58304185091932e-14)) + fs(fs(fs(fs(-1.03973026841637e-23fs - 1.14357087642182e-19) + 2.82449852733007e-16) + 7.54371397360606e-15) - 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(1.58888527196851e-23fs + 1.22875634105116e-19) - 2.97357042879881e-16) - 8.28270309255548e-15) + 7.60575853485664e-14) + 1.14785425664408e-12; a3 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-23fs - 1.87296798291781e-19) - 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(-9.84499037599778e-23fs + 1.88553234796003e-19) + 3.56842625533568e-16) - 6.79551024891847e-15) - 3.1221635780719e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-23fs + 1.397748316461e-19) + 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(5.07545362580621e-23fs - 1.40122718726421e-19) - 2.94921699050911e-16) + 5.62069838385272e-15) + 2.58304185091932e-14)) + fs(fs(fs(fs(1.03973026841637e-23fs - 1.14357087642182e-19) - 2.82449852733007e-16) + 7.54371397360606e-15) + 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(-1.58888527196851e-23fs + 1.22875634105116e-19) + 2.97357042879881e-16) - 8.28270309255548e-15) - 7.60575853485664e-14) + 1.14785425664408e-12; a4 = Sustain(Sustainpow(fs,2)(fs(fs(-4.95688793492651e-23fs + 2.80945197437672e-19) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(4.92249518799889e-23fs - 2.82829852194005e-19) + 1.78421312766784e-16) + 3.39775512445924e-15) - 4.68324536710785e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(2.55545753537499e-23fs - 2.09662247469149e-19) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-2.53772681290311e-23fs + 2.10184078089632e-19) - 1.47460849525455e-16) - 2.81034919192636e-15) + 3.87456277637898e-14)) + fs(fs(fs(fs(-5.19865134208184e-24fs + 1.71535631463274e-19) - 1.41224926366503e-16) - 3.77185698680303e-15) + 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(7.94442635984257e-24fs - 1.84313451157674e-19) + 1.4867852143994e-16) + 4.14135154627774e-15) - 1.1408637802285e-13) + 5.7392712832204e-13; a5 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-24fs - 9.36483991458906e-20) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-9.84499037599778e-24fs + 9.42766173980015e-20) - 1.78421312766784e-16) + 3.39775512445924e-15) - 1.56108178903595e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-24fs + 6.98874158230498e-20) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(5.07545362580621e-24fs - 7.00613593632107e-20) + 1.47460849525455e-16) - 2.81034919192636e-15) + 1.29152092545966e-14)) + fs(fs(fs(fs(1.03973026841637e-24fs - 5.71785438210912e-20) + 1.41224926366503e-16) - 3.77185698680303e-15) + 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(-1.58888527196851e-24fs + 6.14378170525581e-20) - 1.4867852143994e-16) + 4.14135154627774e-15) - 3.80287926742832e-14) + 1.14785425664408e-13; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/susta.dsp	faust	generated automatically DO NOT MODIFY! Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s);	declare id "susta"; declare name "Sustainer"; declare category "Fuzz"; declare shortname "Sustainer"; declare description "Sustainer"; declare insert_p "tranyclipper"; declare volume_p "Volume"; import("stdfaust.lib"); import("trany.lib"); process = 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 { 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 = _; clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; Sustain = vslider("Sustain[name:Sustain]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Sustainpow(fs,3)(fs(4.07249439024394e-27fs - 1.34118849842818e-20) + 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(-3.9514408494262e-27fs + 1.26300907176988e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-3.9514408494262e-29fs + 1.26300907176988e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(4.07249439024394e-29fs - 1.34118849842818e-22) + 1.23525177556824e-17); b1 = Sustainpow(fs,3)(fs(-2.03624719512197e-26fs + 4.02356549528453e-20) - 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(1.9757204247131e-26fs - 3.78902721530964e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(1.9757204247131e-28fs - 3.78902721530964e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-2.03624719512197e-28fs + 4.02356549528453e-22) - 1.23525177556824e-17); b2 = Sustainpow(fs,3)(fs(4.07249439024394e-26fs - 2.68237699685635e-20) - 2.47050355113649e-15) + (Sustainpow(fs,3)(fs(-3.9514408494262e-26fs + 2.52601814353976e-20) - 5.37808427171532e-17) + pow(fs,3)(fs(-3.9514408494262e-28fs + 2.52601814353976e-22) - 5.37808427171532e-19)) + pow(fs,3)(fs(4.07249439024394e-28fs - 2.68237699685635e-22) - 2.47050355113649e-17); b3 = Sustainpow(fs,3)(fs(-4.07249439024394e-26fs - 2.68237699685635e-20) + 2.47050355113649e-15) + (Sustainpow(fs,3)(fs(3.9514408494262e-26fs + 2.52601814353976e-20) + 5.37808427171532e-17) + pow(fs,3)(fs(3.9514408494262e-28fs + 2.52601814353976e-22) + 5.37808427171532e-19)) + pow(fs,3)(fs(-4.07249439024394e-28fs - 2.68237699685635e-22) + 2.47050355113649e-17); b4 = Sustainpow(fs,3)(fs(2.03624719512197e-26fs + 4.02356549528453e-20) + 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(-1.9757204247131e-26fs - 3.78902721530964e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-1.9757204247131e-28fs - 3.78902721530964e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(2.03624719512197e-28fs + 4.02356549528453e-22) + 1.23525177556824e-17); b5 = Sustainpow(fs,3)(fs(-4.07249439024394e-27fs - 1.34118849842818e-20) - 1.23525177556824e-15) + (Sustainpow(fs,3)(fs(3.9514408494262e-27fs + 1.26300907176988e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(3.9514408494262e-29fs + 1.26300907176988e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-4.07249439024394e-29fs - 1.34118849842818e-22) - 1.23525177556824e-17); a0 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-24fs - 9.36483991458906e-20) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(9.84499037599778e-24fs + 9.42766173980015e-20) + 1.78421312766784e-16) + 3.39775512445924e-15) + 1.56108178903595e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-24fs + 6.98874158230498e-20) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-5.07545362580621e-24fs - 7.00613593632107e-20) - 1.47460849525455e-16) - 2.81034919192636e-15) - 1.29152092545966e-14)) + fs(fs(fs(fs(-1.03973026841637e-24fs - 5.71785438210912e-20) - 1.41224926366503e-16) - 3.77185698680303e-15) - 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(1.58888527196851e-24fs + 6.14378170525581e-20) + 1.4867852143994e-16) + 4.14135154627774e-15) + 3.80287926742832e-14) + 1.14785425664408e-13; a1 = Sustain(Sustainpow(fs,2)(fs(fs(4.95688793492651e-23fs + 2.80945197437672e-19) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-4.92249518799889e-23fs - 2.82829852194005e-19) - 1.78421312766784e-16) + 3.39775512445924e-15) + 4.68324536710785e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-2.55545753537499e-23fs - 2.09662247469149e-19) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(2.53772681290311e-23fs + 2.10184078089632e-19) + 1.47460849525455e-16) - 2.81034919192636e-15) - 3.87456277637898e-14)) + fs(fs(fs(fs(5.19865134208184e-24fs + 1.71535631463274e-19) + 1.41224926366503e-16) - 3.77185698680303e-15) - 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(-7.94442635984257e-24fs - 1.84313451157674e-19) - 1.4867852143994e-16) + 4.14135154627774e-15) + 1.1408637802285e-13) + 5.7392712832204e-13; a2 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-23fs - 1.87296798291781e-19) + 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(9.84499037599778e-23fs + 1.88553234796003e-19) - 3.56842625533568e-16) - 6.79551024891847e-15) + 3.1221635780719e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-23fs + 1.397748316461e-19) - 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(-5.07545362580621e-23fs - 1.40122718726421e-19) + 2.94921699050911e-16) + 5.62069838385272e-15) - 2.58304185091932e-14)) + fs(fs(fs(fs(-1.03973026841637e-23fs - 1.14357087642182e-19) + 2.82449852733007e-16) + 7.54371397360606e-15) - 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(1.58888527196851e-23fs + 1.22875634105116e-19) - 2.97357042879881e-16) - 8.28270309255548e-15) + 7.60575853485664e-14) + 1.14785425664408e-12; a3 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-23fs - 1.87296798291781e-19) - 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(-9.84499037599778e-23fs + 1.88553234796003e-19) + 3.56842625533568e-16) - 6.79551024891847e-15) - 3.1221635780719e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-23fs + 1.397748316461e-19) + 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(5.07545362580621e-23fs - 1.40122718726421e-19) - 2.94921699050911e-16) + 5.62069838385272e-15) + 2.58304185091932e-14)) + fs(fs(fs(fs(1.03973026841637e-23fs - 1.14357087642182e-19) - 2.82449852733007e-16) + 7.54371397360606e-15) + 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(-1.58888527196851e-23fs + 1.22875634105116e-19) + 2.97357042879881e-16) - 8.28270309255548e-15) - 7.60575853485664e-14) + 1.14785425664408e-12; a4 = Sustain(Sustainpow(fs,2)(fs(fs(-4.95688793492651e-23fs + 2.80945197437672e-19) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(4.92249518799889e-23fs - 2.82829852194005e-19) + 1.78421312766784e-16) + 3.39775512445924e-15) - 4.68324536710785e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(2.55545753537499e-23fs - 2.09662247469149e-19) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-2.53772681290311e-23fs + 2.10184078089632e-19) - 1.47460849525455e-16) - 2.81034919192636e-15) + 3.87456277637898e-14)) + fs(fs(fs(fs(-5.19865134208184e-24fs + 1.71535631463274e-19) - 1.41224926366503e-16) - 3.77185698680303e-15) + 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(7.94442635984257e-24fs - 1.84313451157674e-19) + 1.4867852143994e-16) + 4.14135154627774e-15) - 1.1408637802285e-13) + 5.7392712832204e-13; a5 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-24fs - 9.36483991458906e-20) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-9.84499037599778e-24fs + 9.42766173980015e-20) - 1.78421312766784e-16) + 3.39775512445924e-15) - 1.56108178903595e-14)) + (Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-24fs + 6.98874158230498e-20) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(5.07545362580621e-24fs - 7.00613593632107e-20) + 1.47460849525455e-16) - 2.81034919192636e-15) + 1.29152092545966e-14)) + fs(fs(fs(fs(1.03973026841637e-24fs - 5.71785438210912e-20) + 1.41224926366503e-16) - 3.77185698680303e-15) + 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(-1.58888527196851e-24fs + 6.14378170525581e-20) - 1.4867852143994e-16) + 4.14135154627774e-15) - 3.80287926742832e-14) + 1.14785425664408e-13; };
9f649e46b8f93acf0a3f83c80b3726e83ac4248ce5df8254cc2716f9e58e127a	brummer10/guitarix	fuzzwah.dsp	// generated automatically // DO NOT MODIFY! declare id "fuzzwah"; declare name "Fuzz Wah Face"; declare category "Guitar Effects"; declare shortname "Fuzz Wah"; declare description "Dallas Arbiter Fuzz Wah Face"; import("stdfaust.lib"); LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; fs = float(ma.SR); s = 0.993; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : clipper with { shape = 10.; atan_v=1.0/atan(shape); clipper(x) = atan_v * atan(xshape); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(0) : si.smooth(s); b0 = Volumepow(fs,2)(2.03293413775766e-12fs + 3.76950304482722e-11) + pow(fs,2)(2.03293413775766e-15fs + 3.76950304482722e-14); b1 = Volumepow(fs,2)(-6.09880241327297e-12fs - 3.76950304482722e-11) + pow(fs,2)(-6.09880241327297e-15fs - 3.76950304482722e-14); b2 = Volumepow(fs,2)(6.09880241327297e-12fs - 3.76950304482722e-11) + pow(fs,2)(6.09880241327297e-15fs - 3.76950304482722e-14); b3 = Volumepow(fs,2)(-2.03293413775766e-12fs + 3.76950304482722e-11) + pow(fs,2)(-2.03293413775766e-15fs + 3.76950304482722e-14); a0 = fs(fs(7.84175196356216e-15fs + 5.70450678139714e-11) + 2.77707446985809e-8) + 1.34856811452293e-7; a1 = fs(fs(-2.35252558906865e-14fs - 5.70450678139714e-11) + 2.77707446985809e-8) + 4.04570434356877e-7; a2 = fs(fs(2.35252558906865e-14fs - 5.70450678139714e-11) - 2.77707446985809e-8) + 4.04570434356877e-7; a3 = fs(fs(-7.84175196356216e-15fs + 5.70450678139714e-11) - 2.77707446985809e-8) + 1.34856811452293e-7; }; wah = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { Wah = vslider("Wah[name:Wah]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(0) : si.smooth(s); b0 = Wah(Wahpow(fs,3)(fs(fs(1.66116058346743e-30fs + 6.25504074203227e-26) + 9.16801777179336e-23) + 6.33211249030232e-21) + pow(fs,2)(fs(fs(fs(-1.83963551537025e-30fs - 6.95139897479738e-26) - 1.03102897783929e-22) - 8.88807636639375e-21) - 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-3.35923180991732e-30fs - 2.84219286401136e-25) - 4.27409553426189e-22) - 3.20024979131437e-20) - 1.77668700625766e-19); b1 = Wah(Wahpow(fs,4)(fs(-9.96696350080457e-30fs - 2.50201629681291e-25) - 1.83360355435867e-22) + pow(fs,2)(pow(fs,2)(fs(1.10378130922215e-29fs + 2.78055958991895e-25) + 2.06205795567859e-22) - 2.56161432484054e-19)) + pow(fs,2)(pow(fs,2)(fs(2.01553908595039e-29fs + 1.13687714560455e-24) + 8.54819106852377e-22) - 3.55337401251533e-19); b2 = Wah(Wahpow(fs,3)(fs(fs(2.49174087520114e-29fs + 3.12752037101614e-25) - 9.16801777179336e-23) - 1.8996337470907e-20) + pow(fs,2)(fs(fs(fs(-2.75945327305537e-29fs - 3.47569948739869e-25) + 1.03102897783929e-22) + 2.66642290991813e-20) + 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-5.03884771487598e-29fs - 1.42109643200568e-24) + 4.27409553426189e-22) + 9.60074937394311e-20) + 1.77668700625766e-19); b3 = Wah(Wahpow(fs,4)(-3.32232116693486e-29pow(fs,2) + 3.66720710871734e-22) + pow(fs,2)(pow(fs,2)(3.6792710307405e-29pow(fs,2) - 4.12411591135718e-22) + 5.12322864968107e-19)) + pow(fs,2)(pow(fs,2)(6.71846361983464e-29pow(fs,2) - 1.70963821370475e-21) + 7.10674802503066e-19); b4 = Wah(Wahpow(fs,3)(fs(fs(2.49174087520114e-29fs - 3.12752037101614e-25) - 9.16801777179336e-23) + 1.8996337470907e-20) + pow(fs,2)(fs(fs(fs(-2.75945327305537e-29fs + 3.47569948739869e-25) + 1.03102897783929e-22) - 2.66642290991813e-20) + 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-5.03884771487598e-29fs + 1.42109643200568e-24) + 4.27409553426189e-22) - 9.60074937394311e-20) + 1.77668700625766e-19); b5 = Wah(Wahpow(fs,4)(fs(-9.96696350080457e-30fs + 2.50201629681291e-25) - 1.83360355435867e-22) + pow(fs,2)(pow(fs,2)(fs(1.10378130922215e-29fs - 2.78055958991895e-25) + 2.06205795567859e-22) - 2.56161432484054e-19)) + pow(fs,2)(pow(fs,2)(fs(2.01553908595039e-29fs - 1.13687714560455e-24) + 8.54819106852377e-22) - 3.55337401251533e-19); b6 = Wah(Wahpow(fs,3)(fs(fs(1.66116058346743e-30fs - 6.25504074203227e-26) + 9.16801777179336e-23) - 6.33211249030232e-21) + pow(fs,2)(fs(fs(fs(-1.83963551537025e-30fs + 6.95139897479738e-26) - 1.03102897783929e-22) + 8.88807636639375e-21) - 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-3.35923180991732e-30fs + 2.84219286401136e-25) - 4.27409553426189e-22) + 3.20024979131437e-20) - 1.77668700625766e-19); a0 = Wah(Wahfs(fs(fs(fs(fs(-2.56352431682851e-29fs - 5.82156326166346e-26) - 1.38049274052799e-22) - 2.27598160591724e-19) - 2.18551035017861e-18) - 2.26238718666108e-30) + fs(fs(fs(fs(fs(1.56831555560877e-28fs + 3.15119485962137e-25) + 1.66997410870093e-22) + 2.51284408514286e-19) + 8.10744438516679e-18) + 5.51896553075366e-17)) + fs(fs(fs(fs(fs(5.4124550626461e-30fs + 4.82535581868538e-26) + 7.47693155349632e-22) + 1.30467913352008e-18) + 4.28304388592412e-17) + 4.42021332853857e-16) + 1.39367816433173e-15; a1 = Wah(Wahfs(fs(pow(fs,2)(fs(1.53811459009711e-28fs + 2.32862530466538e-25) + 2.76098548105598e-22) - 4.37102070035722e-18) - 9.0495487466443e-30) + fs(fs(pow(fs,2)(fs(-9.40989333365263e-28fs - 1.26047794384855e-24) - 3.33994821740186e-22) + 1.62148887703336e-17) + 2.20758621230146e-16)) + fs(fs(pow(fs,2)(fs(-3.24747303758766e-29fs - 1.93014232747415e-25) - 1.49538631069926e-21) + 8.56608777184824e-17) + 1.76808533141543e-15) + 8.3620689859904e-15; a2 = Wah(Wahfs(fs(fs(fs(fs(-3.84528647524277e-28fs - 2.91078163083173e-25) + 1.38049274052799e-22) + 6.82794481775172e-19) + 2.18551035017861e-18) - 1.13119359333054e-29) + fs(fs(fs(fs(fs(2.35247333341316e-27fs + 1.57559742981069e-24) - 1.66997410870093e-22) - 7.53853225542858e-19) - 8.10744438516679e-18) + 2.75948276537683e-16)) + fs(fs(fs(fs(fs(8.11868259396916e-29fs + 2.41267790934269e-25) - 7.47693155349632e-22) - 3.91403740056023e-18) - 4.28304388592412e-17) + 2.21010666426929e-15) + 2.0905172464976e-14; a3 = Wah(Wahpow(fs,2)(pow(fs,2)(5.12704863365702e-28pow(fs,2) - 5.52197096211195e-22) + 8.74204140071444e-18) + pow(fs,2)(pow(fs,2)(-3.13663111121754e-27pow(fs,2) + 6.67989643480371e-22) - 3.24297775406672e-17)) + pow(fs,2)(pow(fs,2)(-1.08249101252922e-28pow(fs,2) + 2.99077262139853e-21) - 1.71321755436965e-16) + 2.78735632866347e-14; a4 = Wah(Wahfs(fs(fs(fs(fs(-3.84528647524277e-28fs + 2.91078163083173e-25) + 1.38049274052799e-22) - 6.82794481775172e-19) + 2.18551035017861e-18) + 1.13119359333054e-29) + fs(fs(fs(fs(fs(2.35247333341316e-27fs - 1.57559742981069e-24) - 1.66997410870093e-22) + 7.53853225542858e-19) - 8.10744438516679e-18) - 2.75948276537683e-16)) + fs(fs(fs(fs(fs(8.11868259396916e-29fs - 2.41267790934269e-25) - 7.47693155349632e-22) + 3.91403740056023e-18) - 4.28304388592412e-17) - 2.21010666426929e-15) + 2.0905172464976e-14; a5 = Wah(Wahfs(fs(pow(fs,2)(fs(1.53811459009711e-28fs - 2.32862530466538e-25) + 2.76098548105598e-22) - 4.37102070035722e-18) + 9.0495487466443e-30) + fs(fs(pow(fs,2)(fs(-9.40989333365263e-28fs + 1.26047794384855e-24) - 3.33994821740186e-22) + 1.62148887703336e-17) - 2.20758621230146e-16)) + fs(fs(pow(fs,2)(fs(-3.24747303758766e-29fs + 1.93014232747415e-25) - 1.49538631069926e-21) + 8.56608777184824e-17) - 1.76808533141543e-15) + 8.3620689859904e-15; a6 = Wah(Wahfs(fs(fs(fs(fs(-2.56352431682851e-29fs + 5.82156326166346e-26) - 1.38049274052799e-22) + 2.27598160591724e-19) - 2.18551035017861e-18) + 2.26238718666108e-30) + fs(fs(fs(fs(fs(1.56831555560877e-28fs - 3.15119485962137e-25) + 1.66997410870093e-22) - 2.51284408514286e-19) + 8.10744438516679e-18) - 5.51896553075366e-17)) + fs(fs(fs(fs(fs(5.4124550626461e-30fs - 4.82535581868538e-26) + 7.47693155349632e-22) - 1.30467913352008e-18) + 4.28304388592412e-17) - 4.42021332853857e-16) + 1.39367816433173e-15; }; process = _<:(dry),((wet) : fuzz : wah ):>_;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/fuzzwah.dsp	faust	generated automatically DO NOT MODIFY!	declare id "fuzzwah"; declare name "Fuzz Wah Face"; declare category "Guitar Effects"; declare shortname "Fuzz Wah"; declare description "Dallas Arbiter Fuzz Wah Face"; import("stdfaust.lib"); LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; fs = float(ma.SR); s = 0.993; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : clipper with { shape = 10.; atan_v=1.0/atan(shape); clipper(x) = atan_v * atan(xshape); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(0) : si.smooth(s); b0 = Volumepow(fs,2)(2.03293413775766e-12fs + 3.76950304482722e-11) + pow(fs,2)(2.03293413775766e-15fs + 3.76950304482722e-14); b1 = Volumepow(fs,2)(-6.09880241327297e-12fs - 3.76950304482722e-11) + pow(fs,2)(-6.09880241327297e-15fs - 3.76950304482722e-14); b2 = Volumepow(fs,2)(6.09880241327297e-12fs - 3.76950304482722e-11) + pow(fs,2)(6.09880241327297e-15fs - 3.76950304482722e-14); b3 = Volumepow(fs,2)(-2.03293413775766e-12fs + 3.76950304482722e-11) + pow(fs,2)(-2.03293413775766e-15fs + 3.76950304482722e-14); a0 = fs(fs(7.84175196356216e-15fs + 5.70450678139714e-11) + 2.77707446985809e-8) + 1.34856811452293e-7; a1 = fs(fs(-2.35252558906865e-14fs - 5.70450678139714e-11) + 2.77707446985809e-8) + 4.04570434356877e-7; a2 = fs(fs(2.35252558906865e-14fs - 5.70450678139714e-11) - 2.77707446985809e-8) + 4.04570434356877e-7; a3 = fs(fs(-7.84175196356216e-15fs + 5.70450678139714e-11) - 2.77707446985809e-8) + 1.34856811452293e-7; }; wah = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { Wah = vslider("Wah[name:Wah]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(0) : si.smooth(s); b0 = Wah(Wahpow(fs,3)(fs(fs(1.66116058346743e-30fs + 6.25504074203227e-26) + 9.16801777179336e-23) + 6.33211249030232e-21) + pow(fs,2)(fs(fs(fs(-1.83963551537025e-30fs - 6.95139897479738e-26) - 1.03102897783929e-22) - 8.88807636639375e-21) - 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-3.35923180991732e-30fs - 2.84219286401136e-25) - 4.27409553426189e-22) - 3.20024979131437e-20) - 1.77668700625766e-19); b1 = Wah(Wahpow(fs,4)(fs(-9.96696350080457e-30fs - 2.50201629681291e-25) - 1.83360355435867e-22) + pow(fs,2)(pow(fs,2)(fs(1.10378130922215e-29fs + 2.78055958991895e-25) + 2.06205795567859e-22) - 2.56161432484054e-19)) + pow(fs,2)(pow(fs,2)(fs(2.01553908595039e-29fs + 1.13687714560455e-24) + 8.54819106852377e-22) - 3.55337401251533e-19); b2 = Wah(Wahpow(fs,3)(fs(fs(2.49174087520114e-29fs + 3.12752037101614e-25) - 9.16801777179336e-23) - 1.8996337470907e-20) + pow(fs,2)(fs(fs(fs(-2.75945327305537e-29fs - 3.47569948739869e-25) + 1.03102897783929e-22) + 2.66642290991813e-20) + 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-5.03884771487598e-29fs - 1.42109643200568e-24) + 4.27409553426189e-22) + 9.60074937394311e-20) + 1.77668700625766e-19); b3 = Wah(Wahpow(fs,4)(-3.32232116693486e-29pow(fs,2) + 3.66720710871734e-22) + pow(fs,2)(pow(fs,2)(3.6792710307405e-29pow(fs,2) - 4.12411591135718e-22) + 5.12322864968107e-19)) + pow(fs,2)(pow(fs,2)(6.71846361983464e-29pow(fs,2) - 1.70963821370475e-21) + 7.10674802503066e-19); b4 = Wah(Wahpow(fs,3)(fs(fs(2.49174087520114e-29fs - 3.12752037101614e-25) - 9.16801777179336e-23) + 1.8996337470907e-20) + pow(fs,2)(fs(fs(fs(-2.75945327305537e-29fs + 3.47569948739869e-25) + 1.03102897783929e-22) - 2.66642290991813e-20) + 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-5.03884771487598e-29fs + 1.42109643200568e-24) + 4.27409553426189e-22) - 9.60074937394311e-20) + 1.77668700625766e-19); b5 = Wah(Wahpow(fs,4)(fs(-9.96696350080457e-30fs + 2.50201629681291e-25) - 1.83360355435867e-22) + pow(fs,2)(pow(fs,2)(fs(1.10378130922215e-29fs - 2.78055958991895e-25) + 2.06205795567859e-22) - 2.56161432484054e-19)) + pow(fs,2)(pow(fs,2)(fs(2.01553908595039e-29fs - 1.13687714560455e-24) + 8.54819106852377e-22) - 3.55337401251533e-19); b6 = Wah(Wahpow(fs,3)(fs(fs(1.66116058346743e-30fs - 6.25504074203227e-26) + 9.16801777179336e-23) - 6.33211249030232e-21) + pow(fs,2)(fs(fs(fs(-1.83963551537025e-30fs + 6.95139897479738e-26) - 1.03102897783929e-22) + 8.88807636639375e-21) - 1.28080716242027e-19)) + pow(fs,2)(fs(fs(fs(-3.35923180991732e-30fs + 2.84219286401136e-25) - 4.27409553426189e-22) + 3.20024979131437e-20) - 1.77668700625766e-19); a0 = Wah(Wahfs(fs(fs(fs(fs(-2.56352431682851e-29fs - 5.82156326166346e-26) - 1.38049274052799e-22) - 2.27598160591724e-19) - 2.18551035017861e-18) - 2.26238718666108e-30) + fs(fs(fs(fs(fs(1.56831555560877e-28fs + 3.15119485962137e-25) + 1.66997410870093e-22) + 2.51284408514286e-19) + 8.10744438516679e-18) + 5.51896553075366e-17)) + fs(fs(fs(fs(fs(5.4124550626461e-30fs + 4.82535581868538e-26) + 7.47693155349632e-22) + 1.30467913352008e-18) + 4.28304388592412e-17) + 4.42021332853857e-16) + 1.39367816433173e-15; a1 = Wah(Wahfs(fs(pow(fs,2)(fs(1.53811459009711e-28fs + 2.32862530466538e-25) + 2.76098548105598e-22) - 4.37102070035722e-18) - 9.0495487466443e-30) + fs(fs(pow(fs,2)(fs(-9.40989333365263e-28fs - 1.26047794384855e-24) - 3.33994821740186e-22) + 1.62148887703336e-17) + 2.20758621230146e-16)) + fs(fs(pow(fs,2)(fs(-3.24747303758766e-29fs - 1.93014232747415e-25) - 1.49538631069926e-21) + 8.56608777184824e-17) + 1.76808533141543e-15) + 8.3620689859904e-15; a2 = Wah(Wahfs(fs(fs(fs(fs(-3.84528647524277e-28fs - 2.91078163083173e-25) + 1.38049274052799e-22) + 6.82794481775172e-19) + 2.18551035017861e-18) - 1.13119359333054e-29) + fs(fs(fs(fs(fs(2.35247333341316e-27fs + 1.57559742981069e-24) - 1.66997410870093e-22) - 7.53853225542858e-19) - 8.10744438516679e-18) + 2.75948276537683e-16)) + fs(fs(fs(fs(fs(8.11868259396916e-29fs + 2.41267790934269e-25) - 7.47693155349632e-22) - 3.91403740056023e-18) - 4.28304388592412e-17) + 2.21010666426929e-15) + 2.0905172464976e-14; a3 = Wah(Wahpow(fs,2)(pow(fs,2)(5.12704863365702e-28pow(fs,2) - 5.52197096211195e-22) + 8.74204140071444e-18) + pow(fs,2)(pow(fs,2)(-3.13663111121754e-27pow(fs,2) + 6.67989643480371e-22) - 3.24297775406672e-17)) + pow(fs,2)(pow(fs,2)(-1.08249101252922e-28pow(fs,2) + 2.99077262139853e-21) - 1.71321755436965e-16) + 2.78735632866347e-14; a4 = Wah(Wahfs(fs(fs(fs(fs(-3.84528647524277e-28fs + 2.91078163083173e-25) + 1.38049274052799e-22) - 6.82794481775172e-19) + 2.18551035017861e-18) + 1.13119359333054e-29) + fs(fs(fs(fs(fs(2.35247333341316e-27fs - 1.57559742981069e-24) - 1.66997410870093e-22) + 7.53853225542858e-19) - 8.10744438516679e-18) - 2.75948276537683e-16)) + fs(fs(fs(fs(fs(8.11868259396916e-29fs - 2.41267790934269e-25) - 7.47693155349632e-22) + 3.91403740056023e-18) - 4.28304388592412e-17) - 2.21010666426929e-15) + 2.0905172464976e-14; a5 = Wah(Wahfs(fs(pow(fs,2)(fs(1.53811459009711e-28fs - 2.32862530466538e-25) + 2.76098548105598e-22) - 4.37102070035722e-18) + 9.0495487466443e-30) + fs(fs(pow(fs,2)(fs(-9.40989333365263e-28fs + 1.26047794384855e-24) - 3.33994821740186e-22) + 1.62148887703336e-17) - 2.20758621230146e-16)) + fs(fs(pow(fs,2)(fs(-3.24747303758766e-29fs + 1.93014232747415e-25) - 1.49538631069926e-21) + 8.56608777184824e-17) - 1.76808533141543e-15) + 8.3620689859904e-15; a6 = Wah(Wahfs(fs(fs(fs(fs(-2.56352431682851e-29fs + 5.82156326166346e-26) - 1.38049274052799e-22) + 2.27598160591724e-19) - 2.18551035017861e-18) + 2.26238718666108e-30) + fs(fs(fs(fs(fs(1.56831555560877e-28fs - 3.15119485962137e-25) + 1.66997410870093e-22) - 2.51284408514286e-19) + 8.10744438516679e-18) - 5.51896553075366e-17)) + fs(fs(fs(fs(fs(5.4124550626461e-30fs - 4.82535581868538e-26) + 7.47693155349632e-22) - 1.30467913352008e-18) + 4.28304388592412e-17) - 4.42021332853857e-16) + 1.39367816433173e-15; }; process = _<:(dry),((wet) : fuzz : wah ):>_;
53f7e4538e5b93b5d41fdd7f092d5d8302b10269c47ebe449fc8a8a73c19e3bb	brummer10/guitarix	susta.dsp	// generated automatically // DO NOT MODIFY! declare id "susta"; declare name "Sustainer"; declare category "Distortion"; declare shortname "Sustainer"; declare description "Sustainer"; import("stdfaust.lib"); import("trany.lib"); process = 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)) : 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 = _; clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Sustain = vslider("Sustain[name:Sustain]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Sustainpow(fs,3)(fs(4.07249439024394e-27fs - 1.34118849842818e-20) + 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(-3.9514408494262e-27fs + 1.26300907176988e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-3.9514408494262e-29fs + 1.26300907176988e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(4.07249439024394e-29fs - 1.34118849842818e-22) + 1.23525177556824e-17); b1 = Sustainpow(fs,3)(fs(-2.03624719512197e-26fs + 4.02356549528453e-20) - 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(1.9757204247131e-26fs - 3.78902721530964e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(1.9757204247131e-28fs - 3.78902721530964e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-2.03624719512197e-28fs + 4.02356549528453e-22) - 1.23525177556824e-17); b2 = Sustainpow(fs,3)(fs(4.07249439024394e-26fs - 2.68237699685635e-20) - 2.47050355113649e-15) + Volume(Sustainpow(fs,3)(fs(-3.9514408494262e-26fs + 2.52601814353976e-20) - 5.37808427171532e-17) + pow(fs,3)(fs(-3.9514408494262e-28fs + 2.52601814353976e-22) - 5.37808427171532e-19)) + pow(fs,3)(fs(4.07249439024394e-28fs - 2.68237699685635e-22) - 2.47050355113649e-17); b3 = Sustainpow(fs,3)(fs(-4.07249439024394e-26fs - 2.68237699685635e-20) + 2.47050355113649e-15) + Volume(Sustainpow(fs,3)(fs(3.9514408494262e-26fs + 2.52601814353976e-20) + 5.37808427171532e-17) + pow(fs,3)(fs(3.9514408494262e-28fs + 2.52601814353976e-22) + 5.37808427171532e-19)) + pow(fs,3)(fs(-4.07249439024394e-28fs - 2.68237699685635e-22) + 2.47050355113649e-17); b4 = Sustainpow(fs,3)(fs(2.03624719512197e-26fs + 4.02356549528453e-20) + 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(-1.9757204247131e-26fs - 3.78902721530964e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-1.9757204247131e-28fs - 3.78902721530964e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(2.03624719512197e-28fs + 4.02356549528453e-22) + 1.23525177556824e-17); b5 = Sustainpow(fs,3)(fs(-4.07249439024394e-27fs - 1.34118849842818e-20) - 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(3.9514408494262e-27fs + 1.26300907176988e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(3.9514408494262e-29fs + 1.26300907176988e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-4.07249439024394e-29fs - 1.34118849842818e-22) - 1.23525177556824e-17); a0 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-24fs - 9.36483991458906e-20) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(9.84499037599778e-24fs + 9.42766173980015e-20) + 1.78421312766784e-16) + 3.39775512445924e-15) + 1.56108178903595e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-24fs + 6.98874158230498e-20) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-5.07545362580621e-24fs - 7.00613593632107e-20) - 1.47460849525455e-16) - 2.81034919192636e-15) - 1.29152092545966e-14)) + fs(fs(fs(fs(-1.03973026841637e-24fs - 5.71785438210912e-20) - 1.41224926366503e-16) - 3.77185698680303e-15) - 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(1.58888527196851e-24fs + 6.14378170525581e-20) + 1.4867852143994e-16) + 4.14135154627774e-15) + 3.80287926742832e-14) + 1.14785425664408e-13; a1 = Sustain(Sustainpow(fs,2)(fs(fs(4.95688793492651e-23fs + 2.80945197437672e-19) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-4.92249518799889e-23fs - 2.82829852194005e-19) - 1.78421312766784e-16) + 3.39775512445924e-15) + 4.68324536710785e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-2.55545753537499e-23fs - 2.09662247469149e-19) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(2.53772681290311e-23fs + 2.10184078089632e-19) + 1.47460849525455e-16) - 2.81034919192636e-15) - 3.87456277637898e-14)) + fs(fs(fs(fs(5.19865134208184e-24fs + 1.71535631463274e-19) + 1.41224926366503e-16) - 3.77185698680303e-15) - 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(-7.94442635984257e-24fs - 1.84313451157674e-19) - 1.4867852143994e-16) + 4.14135154627774e-15) + 1.1408637802285e-13) + 5.7392712832204e-13; a2 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-23fs - 1.87296798291781e-19) + 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(9.84499037599778e-23fs + 1.88553234796003e-19) - 3.56842625533568e-16) - 6.79551024891847e-15) + 3.1221635780719e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-23fs + 1.397748316461e-19) - 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(-5.07545362580621e-23fs - 1.40122718726421e-19) + 2.94921699050911e-16) + 5.62069838385272e-15) - 2.58304185091932e-14)) + fs(fs(fs(fs(-1.03973026841637e-23fs - 1.14357087642182e-19) + 2.82449852733007e-16) + 7.54371397360606e-15) - 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(1.58888527196851e-23fs + 1.22875634105116e-19) - 2.97357042879881e-16) - 8.28270309255548e-15) + 7.60575853485664e-14) + 1.14785425664408e-12; a3 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-23fs - 1.87296798291781e-19) - 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(-9.84499037599778e-23fs + 1.88553234796003e-19) + 3.56842625533568e-16) - 6.79551024891847e-15) - 3.1221635780719e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-23fs + 1.397748316461e-19) + 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(5.07545362580621e-23fs - 1.40122718726421e-19) - 2.94921699050911e-16) + 5.62069838385272e-15) + 2.58304185091932e-14)) + fs(fs(fs(fs(1.03973026841637e-23fs - 1.14357087642182e-19) - 2.82449852733007e-16) + 7.54371397360606e-15) + 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(-1.58888527196851e-23fs + 1.22875634105116e-19) + 2.97357042879881e-16) - 8.28270309255548e-15) - 7.60575853485664e-14) + 1.14785425664408e-12; a4 = Sustain(Sustainpow(fs,2)(fs(fs(-4.95688793492651e-23fs + 2.80945197437672e-19) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(4.92249518799889e-23fs - 2.82829852194005e-19) + 1.78421312766784e-16) + 3.39775512445924e-15) - 4.68324536710785e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(2.55545753537499e-23fs - 2.09662247469149e-19) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-2.53772681290311e-23fs + 2.10184078089632e-19) - 1.47460849525455e-16) - 2.81034919192636e-15) + 3.87456277637898e-14)) + fs(fs(fs(fs(-5.19865134208184e-24fs + 1.71535631463274e-19) - 1.41224926366503e-16) - 3.77185698680303e-15) + 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(7.94442635984257e-24fs - 1.84313451157674e-19) + 1.4867852143994e-16) + 4.14135154627774e-15) - 1.1408637802285e-13) + 5.7392712832204e-13; a5 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-24fs - 9.36483991458906e-20) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-9.84499037599778e-24fs + 9.42766173980015e-20) - 1.78421312766784e-16) + 3.39775512445924e-15) - 1.56108178903595e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-24fs + 6.98874158230498e-20) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(5.07545362580621e-24fs - 7.00613593632107e-20) + 1.47460849525455e-16) - 2.81034919192636e-15) + 1.29152092545966e-14)) + fs(fs(fs(fs(1.03973026841637e-24fs - 5.71785438210912e-20) + 1.41224926366503e-16) - 3.77185698680303e-15) + 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(-1.58888527196851e-24fs + 6.14378170525581e-20) - 1.4867852143994e-16) + 4.14135154627774e-15) - 3.80287926742832e-14) + 1.14785425664408e-13; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/susta.dsp	faust	generated automatically DO NOT MODIFY!	declare id "susta"; declare name "Sustainer"; declare category "Distortion"; declare shortname "Sustainer"; declare description "Sustainer"; import("stdfaust.lib"); import("trany.lib"); process = 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)) : 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 = _; clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Sustain = vslider("Sustain[name:Sustain]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Sustainpow(fs,3)(fs(4.07249439024394e-27fs - 1.34118849842818e-20) + 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(-3.9514408494262e-27fs + 1.26300907176988e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-3.9514408494262e-29fs + 1.26300907176988e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(4.07249439024394e-29fs - 1.34118849842818e-22) + 1.23525177556824e-17); b1 = Sustainpow(fs,3)(fs(-2.03624719512197e-26fs + 4.02356549528453e-20) - 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(1.9757204247131e-26fs - 3.78902721530964e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(1.9757204247131e-28fs - 3.78902721530964e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-2.03624719512197e-28fs + 4.02356549528453e-22) - 1.23525177556824e-17); b2 = Sustainpow(fs,3)(fs(4.07249439024394e-26fs - 2.68237699685635e-20) - 2.47050355113649e-15) + Volume(Sustainpow(fs,3)(fs(-3.9514408494262e-26fs + 2.52601814353976e-20) - 5.37808427171532e-17) + pow(fs,3)(fs(-3.9514408494262e-28fs + 2.52601814353976e-22) - 5.37808427171532e-19)) + pow(fs,3)(fs(4.07249439024394e-28fs - 2.68237699685635e-22) - 2.47050355113649e-17); b3 = Sustainpow(fs,3)(fs(-4.07249439024394e-26fs - 2.68237699685635e-20) + 2.47050355113649e-15) + Volume(Sustainpow(fs,3)(fs(3.9514408494262e-26fs + 2.52601814353976e-20) + 5.37808427171532e-17) + pow(fs,3)(fs(3.9514408494262e-28fs + 2.52601814353976e-22) + 5.37808427171532e-19)) + pow(fs,3)(fs(-4.07249439024394e-28fs - 2.68237699685635e-22) + 2.47050355113649e-17); b4 = Sustainpow(fs,3)(fs(2.03624719512197e-26fs + 4.02356549528453e-20) + 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(-1.9757204247131e-26fs - 3.78902721530964e-20) + 2.68904213585766e-17) + pow(fs,3)(fs(-1.9757204247131e-28fs - 3.78902721530964e-22) + 2.68904213585766e-19)) + pow(fs,3)(fs(2.03624719512197e-28fs + 4.02356549528453e-22) + 1.23525177556824e-17); b5 = Sustainpow(fs,3)(fs(-4.07249439024394e-27fs - 1.34118849842818e-20) - 1.23525177556824e-15) + Volume(Sustainpow(fs,3)(fs(3.9514408494262e-27fs + 1.26300907176988e-20) - 2.68904213585766e-17) + pow(fs,3)(fs(3.9514408494262e-29fs + 1.26300907176988e-22) - 2.68904213585766e-19)) + pow(fs,3)(fs(-4.07249439024394e-29fs - 1.34118849842818e-22) - 1.23525177556824e-17); a0 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-24fs - 9.36483991458906e-20) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(9.84499037599778e-24fs + 9.42766173980015e-20) + 1.78421312766784e-16) + 3.39775512445924e-15) + 1.56108178903595e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-24fs + 6.98874158230498e-20) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-5.07545362580621e-24fs - 7.00613593632107e-20) - 1.47460849525455e-16) - 2.81034919192636e-15) - 1.29152092545966e-14)) + fs(fs(fs(fs(-1.03973026841637e-24fs - 5.71785438210912e-20) - 1.41224926366503e-16) - 3.77185698680303e-15) - 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(1.58888527196851e-24fs + 6.14378170525581e-20) + 1.4867852143994e-16) + 4.14135154627774e-15) + 3.80287926742832e-14) + 1.14785425664408e-13; a1 = Sustain(Sustainpow(fs,2)(fs(fs(4.95688793492651e-23fs + 2.80945197437672e-19) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-4.92249518799889e-23fs - 2.82829852194005e-19) - 1.78421312766784e-16) + 3.39775512445924e-15) + 4.68324536710785e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-2.55545753537499e-23fs - 2.09662247469149e-19) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(2.53772681290311e-23fs + 2.10184078089632e-19) + 1.47460849525455e-16) - 2.81034919192636e-15) - 3.87456277637898e-14)) + fs(fs(fs(fs(5.19865134208184e-24fs + 1.71535631463274e-19) + 1.41224926366503e-16) - 3.77185698680303e-15) - 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(-7.94442635984257e-24fs - 1.84313451157674e-19) - 1.4867852143994e-16) + 4.14135154627774e-15) + 1.1408637802285e-13) + 5.7392712832204e-13; a2 = Sustain(Sustainpow(fs,2)(fs(fs(-9.91377586985301e-23fs - 1.87296798291781e-19) + 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(9.84499037599778e-23fs + 1.88553234796003e-19) - 3.56842625533568e-16) - 6.79551024891847e-15) + 3.1221635780719e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(5.11091507074998e-23fs + 1.397748316461e-19) - 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(-5.07545362580621e-23fs - 1.40122718726421e-19) + 2.94921699050911e-16) + 5.62069838385272e-15) - 2.58304185091932e-14)) + fs(fs(fs(fs(-1.03973026841637e-23fs - 1.14357087642182e-19) + 2.82449852733007e-16) + 7.54371397360606e-15) - 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(1.58888527196851e-23fs + 1.22875634105116e-19) - 2.97357042879881e-16) - 8.28270309255548e-15) + 7.60575853485664e-14) + 1.14785425664408e-12; a3 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-23fs - 1.87296798291781e-19) - 3.40972106897249e-16) + 4.24614246617778e-15) + fs(fs(fs(fs(-9.84499037599778e-23fs + 1.88553234796003e-19) + 3.56842625533568e-16) - 6.79551024891847e-15) - 3.1221635780719e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-23fs + 1.397748316461e-19) + 2.81905136399941e-16) - 3.51293691725028e-15) + fs(fs(fs(fs(5.07545362580621e-23fs - 1.40122718726421e-19) - 2.94921699050911e-16) + 5.62069838385272e-15) + 2.58304185091932e-14)) + fs(fs(fs(fs(1.03973026841637e-23fs - 1.14357087642182e-19) - 2.82449852733007e-16) + 7.54371397360606e-15) + 6.60635170699196e-14) - 9.49647739308574e-13) + fs(fs(fs(fs(-1.58888527196851e-23fs + 1.22875634105116e-19) + 2.97357042879881e-16) - 8.28270309255548e-15) - 7.60575853485664e-14) + 1.14785425664408e-12; a4 = Sustain(Sustainpow(fs,2)(fs(fs(-4.95688793492651e-23fs + 2.80945197437672e-19) - 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(4.92249518799889e-23fs - 2.82829852194005e-19) + 1.78421312766784e-16) + 3.39775512445924e-15) - 4.68324536710785e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(2.55545753537499e-23fs - 2.09662247469149e-19) + 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(-2.53772681290311e-23fs + 2.10184078089632e-19) - 1.47460849525455e-16) - 2.81034919192636e-15) + 3.87456277637898e-14)) + fs(fs(fs(fs(-5.19865134208184e-24fs + 1.71535631463274e-19) - 1.41224926366503e-16) - 3.77185698680303e-15) + 9.90952756048795e-14) - 4.74823869654287e-13) + fs(fs(fs(fs(7.94442635984257e-24fs - 1.84313451157674e-19) + 1.4867852143994e-16) + 4.14135154627774e-15) - 1.1408637802285e-13) + 5.7392712832204e-13; a5 = Sustain(Sustainpow(fs,2)(fs(fs(9.91377586985301e-24fs - 9.36483991458906e-20) + 1.70486053448624e-16) - 2.12307123308889e-15) + fs(fs(fs(fs(-9.84499037599778e-24fs + 9.42766173980015e-20) - 1.78421312766784e-16) + 3.39775512445924e-15) - 1.56108178903595e-14)) + Volume(Sustain(Sustainpow(fs,2)(fs(fs(-5.11091507074998e-24fs + 6.98874158230498e-20) - 1.4095256819997e-16) + 1.75646845862514e-15) + fs(fs(fs(fs(5.07545362580621e-24fs - 7.00613593632107e-20) + 1.47460849525455e-16) - 2.81034919192636e-15) + 1.29152092545966e-14)) + fs(fs(fs(fs(1.03973026841637e-24fs - 5.71785438210912e-20) + 1.41224926366503e-16) - 3.77185698680303e-15) + 3.30317585349598e-14) - 9.49647739308574e-14) + fs(fs(fs(fs(-1.58888527196851e-24fs + 6.14378170525581e-20) - 1.4867852143994e-16) + 4.14135154627774e-15) - 3.80287926742832e-14) + 1.14785425664408e-13; };
784a94f7a5d264e173c9c9b530a09515aba0a13fc8f5495bfa22983de751d7ec	brummer10/guitarix	tonestack_bm.dsp	//tonestack ba.selector declare id "tonestack_bm"; import("stdfaust.lib"); /************************************************************** Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ ** - / /************************************************************* Guitar tone stacks values from CAPS plugin tonestack (based on work from D.T. Yeh) this version use only one controller like the Big Muff / ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); / Fender / bassman = environment { / 59 Bassman 5F6-A / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; mesa = environment { / Mesa Boogie Mark / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; twin = environment { / 69 Twin Reverb AA270 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; princeton = environment { / 64 Princeton AA1164 / R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; / Marshall / jcm800 = environment { / 59/81 JCM-800 Lead 100 2203 / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; / 90 JCM-900 Master 2100: same as JCM-800 / jcm2000 = environment { / 81 2000 Lead / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; / a 10 k fixed + 100 k pot in series actually / C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; jtm45 = environment { / JTM 45 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; / parameter order is R1 - R4, C1 - C3 / mlead = environment { / 67 Major Lead 200 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; m2199 = environment { / undated M2199 30W solid state / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; / Vox / ac30 = environment { / 59/86 AC-30 / / R3 is fixed (circuit differs anyway) / R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; ac15 = environment { / VOX AC-15 / R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; soldano = environment { / Soldano SLO 100 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; sovtek = environment { / MIG 100 H/ R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; peavey = environment { / c20/ R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; ibanez = environment { / gx20 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; roland = environment { / Cube 60 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; ampeg = environment { / VL 501 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; ampeg_rev = environment { / reverbrocket/ R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; bogner = environment { / Triple Giant Preamp / R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; groove = environment { / Trio Preamp / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; crunch = environment { / Hughes&Kettner / R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; fender_blues = environment { / Fender blues junior / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; fender_default = environment { / Fender / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; fender_deville = environment { / Fender Hot Rod / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; gibsen = environment { / gs12 reverbrocket / R1 = 1:M; R2 = 1:M; R3 = 94:k; // 47k fixed R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; }; t = vslider(".amp.tonestack.tone[alias]", 0.5, 0, 1, 0.01); m = 0.5; l = 1-t : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3*pow(c,3); }; tse = ts.bassman; process = tonestack;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/tonestack_bm.dsp	faust	tonestack ba.selector ************************************************************* Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ - *********************************************************** Guitar tone stacks values from CAPS plugin tonestack (based on work from D.T. Yeh) this version use only one controller like the Big Muff Fender 59 Bassman 5F6-A Mesa Boogie Mark 69 Twin Reverb AA270 64 Princeton AA1164 Marshall 59/81 JCM-800 Lead 100 2203 90 JCM-900 Master 2100: same as JCM-800 81 2000 Lead a 10 k fixed + 100 k pot in series actually JTM 45 parameter order is R1 - R4, C1 - C3 67 Major Lead 200 undated M2199 30W solid state Vox 59/86 AC-30 R3 is fixed (circuit differs anyway) VOX AC-15 Soldano SLO 100 MIG 100 H c20 gx20 Cube 60 VL 501 reverbrocket Triple Giant Preamp Trio Preamp Hughes&Kettner Fender blues junior Fender Fender Hot Rod gs12 reverbrocket 47k fixed	declare id "tonestack_bm"; import("stdfaust.lib"); ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; R1 = 1:M; R2 = 1:M; R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; }; t = vslider(".amp.tonestack.tone[alias]", 0.5, 0, 1, 0.01); m = 0.5; l = 1-t : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3pow(c,3); }; tse = ts.bassman; process = tonestack;
e517f61db7a8d36c9e82e3926326195b65e96a53cf01be1f9ca89ff93ff8e155	brummer10/guitarix	tonestack.dsp	//tonestack ba.selector // use double precision, single precision suffers from numerical cancellation. declare id "tonestack_imp"; import("stdfaust.lib"); /************************************************************** Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ ** - / /************************************************************* Guitar tone stacks ** values from CAPS plugin tonestack (based on work from D.T. Yeh) / ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); / Fender / bassman = environment { / 59 Bassman 5F6-A / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; mesa = environment { / Mesa Boogie Mark / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; twin = environment { / 69 Twin Reverb AA270 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; princeton = environment { / 64 Princeton AA1164 / R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; / Marshall / jcm800 = environment { / 59/81 JCM-800 Lead 100 2203 / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; / 90 JCM-900 Master 2100: same as JCM-800 / jcm2000 = environment { / 81 2000 Lead / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; / a 10 k fixed + 100 k pot in series actually / C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; jtm45 = environment { / JTM 45 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; / parameter order is R1 - R4, C1 - C3 / mlead = environment { / 67 Major Lead 200 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; m2199 = environment { / undated M2199 30W solid state / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; / Vox / ac30 = environment { / 59/86 AC-30 / / R3 is fixed (circuit differs anyway) / R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; ac15 = environment { / VOX AC-15 / R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; soldano = environment { / Soldano SLO 100 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; sovtek = environment { / MIG 100 H/ R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; peavey = environment { / c20/ R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; ibanez = environment { / gx20 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; roland = environment { / Cube 60 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; ampeg = environment { / VL 501 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; ampeg_rev = environment { / reverbrocket/ R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; bogner = environment { / Triple Giant Preamp / R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; groove = environment { / Trio Preamp / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; crunch = environment { / Hughes&Kettner / R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; fender_blues = environment { / Fender blues junior / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; fender_default = environment { / Fender / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; fender_deville = environment { / Fender Hot Rod / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; gibsen = environment { / gs12 reverbrocket / R1 = 1:M; R2 = 1:M; R3 = 94:k; // 47k fixed R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; engl = environment { / engl / R1 = 250:k; R2 = 1:M; R3 = 20:k; R4 = 100:k; C1 = 600:pF; C2 = 47:nF; C3 = 47:nF; }; }; t = vslider(".amp.tonestack.Treble[alias]", 0.5, 0, 1, 0.01); m = vslider(".amp.tonestack.Middle[alias]", 0.5, 0, 1, 0.01); l = vslider(".amp.tonestack.Bass[alias]", 0.5, 0, 1, 0.01) : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3*pow(c,3); }; tse = ts.bassman; process = tonestack;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/faust/tonestack.dsp	faust	tonestack ba.selector use double precision, single precision suffers from numerical cancellation. ************************************************************* Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ - *********************************************************** Guitar tone stacks ** values from CAPS plugin tonestack (based on work from D.T. Yeh) Fender 59 Bassman 5F6-A Mesa Boogie Mark 69 Twin Reverb AA270 64 Princeton AA1164 Marshall 59/81 JCM-800 Lead 100 2203 90 JCM-900 Master 2100: same as JCM-800 81 2000 Lead a 10 k fixed + 100 k pot in series actually JTM 45 parameter order is R1 - R4, C1 - C3 67 Major Lead 200 undated M2199 30W solid state Vox 59/86 AC-30 R3 is fixed (circuit differs anyway) VOX AC-15 Soldano SLO 100 MIG 100 H c20 gx20 Cube 60 VL 501 reverbrocket Triple Giant Preamp Trio Preamp Hughes&Kettner Fender blues junior Fender Fender Hot Rod gs12 reverbrocket 47k fixed engl	declare id "tonestack_imp"; import("stdfaust.lib"); ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; R1 = 1:M; R2 = 1:M; R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; R1 = 250:k; R2 = 1:M; R3 = 20:k; R4 = 100:k; C1 = 600:pF; C2 = 47:nF; C3 = 47:nF; }; }; t = vslider(".amp.tonestack.Treble[alias]", 0.5, 0, 1, 0.01); m = vslider(".amp.tonestack.Middle[alias]", 0.5, 0, 1, 0.01); l = vslider(".amp.tonestack.Bass[alias]", 0.5, 0, 1, 0.01) : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3pow(c,3); }; tse = ts.bassman; process = tonestack;
4a580e383fc1d227e355a8c9021c50ee7dfcd03227dd740d5c8ff67af2332f89	brummer10/guitarix	foxeylady.dsp	// generated automatically // DO NOT MODIFY! declare id "foxeylady"; declare name "Foxey Lady"; declare category "Fuzz"; declare shortname "Foxey Lady"; declare description "Foxey Lady fuzz pedal simulation"; declare insert_p "tranyclipper"; import("stdfaust.lib"); import("trany.lib"); process = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; //clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Fuzz(Levelpow(fs,2)(fs(fs(fs(6.42669378638762e-27fs + 2.86240593005591e-23) + 1.79551930386446e-19) + 3.55668379874028e-17) + 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(6.42669378638762e-29fs + 2.86240593005591e-25) + 1.79551930386446e-21) + 3.55668379874028e-19) + 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-3.28344197367049e-28fs - 1.8701619702637e-23) - 2.16157324062859e-19) - 4.33524374895714e-17) - 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-3.28344197367049e-30fs - 1.8701619702637e-25) - 2.16157324062859e-21) - 4.33524374895714e-19) - 5.90848481409701e-18); b1 = Fuzz(Levelpow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-26fs - 1.14496237202237e-22) - 3.59103860772892e-19) + 9.68604067884756e-16) + pow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-28fs - 1.14496237202237e-24) - 3.59103860772892e-21) + 9.68604067884756e-18)) + Levelpow(fs,2)(pow(fs,2)(fs(1.97006518420229e-27fs + 7.48064788105479e-23) + 4.32314648125718e-19) - 1.1816969628194e-15) + pow(fs,2)(pow(fs,2)(fs(1.97006518420229e-29fs + 7.48064788105479e-25) + 4.32314648125718e-21) - 1.1816969628194e-17); b2 = Fuzz(Levelpow(fs,2)(fs(fs(fs(9.64004067958143e-26fs + 1.43120296502796e-22) - 1.79551930386446e-19) - 1.06700513962208e-16) - 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(9.64004067958143e-28fs + 1.43120296502796e-24) - 1.79551930386446e-21) - 1.06700513962208e-18) - 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-4.92516296050573e-27fs - 9.35080985131849e-23) + 2.16157324062859e-19) + 1.30057312468714e-16) + 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-4.92516296050573e-29fs - 9.35080985131849e-25) + 2.16157324062859e-21) + 1.30057312468714e-18) + 5.90848481409701e-18); b3 = Fuzz(Levelpow(fs,2)(pow(fs,2)(-1.28533875727752e-25pow(fs,2) + 7.18207721545784e-19) - 1.93720813576951e-15) + pow(fs,2)(pow(fs,2)(-1.28533875727752e-27pow(fs,2) + 7.18207721545784e-21) - 1.93720813576951e-17)) + Levelpow(fs,2)(pow(fs,2)(6.56688394734098e-27pow(fs,2) - 8.64629296251435e-19) + 2.3633939256388e-15) + pow(fs,2)(pow(fs,2)(6.56688394734098e-29pow(fs,2) - 8.64629296251435e-21) + 2.3633939256388e-17); b4 = Fuzz(Levelpow(fs,2)(fs(fs(fs(9.64004067958143e-26fs - 1.43120296502796e-22) - 1.79551930386446e-19) + 1.06700513962208e-16) - 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(9.64004067958143e-28fs - 1.43120296502796e-24) - 1.79551930386446e-21) + 1.06700513962208e-18) - 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-4.92516296050573e-27fs + 9.35080985131849e-23) + 2.16157324062859e-19) - 1.30057312468714e-16) + 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-4.92516296050573e-29fs + 9.35080985131849e-25) + 2.16157324062859e-21) - 1.30057312468714e-18) + 5.90848481409701e-18); b5 = Fuzz(Levelpow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-26fs + 1.14496237202237e-22) - 3.59103860772892e-19) + 9.68604067884756e-16) + pow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-28fs + 1.14496237202237e-24) - 3.59103860772892e-21) + 9.68604067884756e-18)) + Levelpow(fs,2)(pow(fs,2)(fs(1.97006518420229e-27fs - 7.48064788105479e-23) + 4.32314648125718e-19) - 1.1816969628194e-15) + pow(fs,2)(pow(fs,2)(fs(1.97006518420229e-29fs - 7.48064788105479e-25) + 4.32314648125718e-21) - 1.1816969628194e-17); b6 = Fuzz(Levelpow(fs,2)(fs(fs(fs(6.42669378638762e-27fs - 2.86240593005591e-23) + 1.79551930386446e-19) - 3.55668379874028e-17) + 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(6.42669378638762e-29fs - 2.86240593005591e-25) + 1.79551930386446e-21) - 3.55668379874028e-19) + 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-3.28344197367049e-28fs + 1.8701619702637e-23) - 2.16157324062859e-19) + 4.33524374895714e-17) - 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-3.28344197367049e-30fs + 1.8701619702637e-25) - 2.16157324062859e-21) + 4.33524374895714e-19) - 5.90848481409701e-18); a0 = Fuzz(Fuzzfs(fs(fs(fs(fs(-4.59387215604116e-29fs - 4.36933720361044e-25) - 8.96539812308464e-22) - 3.5938048928126e-19) - 4.96738293767392e-17) - 2.0568206880379e-15) + fs(fs(fs(fs(fs(4.57704216569471e-29fs + 4.12221097685163e-25) + 2.55877854891379e-22) - 9.9587457844786e-19) - 4.94708666311112e-16) - 7.32065571555064e-14) - 3.1163949818756e-12) + fs(fs(fs(fs(fs(5.24588897595767e-29fs + 7.02844574269719e-25) + 2.89396306244108e-21) + 3.61888994332083e-18) + 1.29693461432975e-15) + 1.71281273151154e-13) + 6.94956080958259e-12; a1 = Fuzz(Fuzzfs(fs(pow(fs,2)(fs(2.7563232936247e-28fs + 1.74773488144418e-24) + 1.79307962461693e-21) - 9.93476587534785e-17) - 8.22728275215159e-15) + fs(fs(pow(fs,2)(fs(-2.74622529941683e-28fs - 1.64888439074065e-24) - 5.11755709782759e-22) - 9.89417332622223e-16) - 2.92826228622026e-13) - 1.86983698912536e-11) + fs(fs(pow(fs,2)(fs(-3.1475333855746e-28fs - 2.81137829707888e-24) - 5.78792612488216e-21) + 2.5938692286595e-15) + 6.85125092604618e-13) + 4.16973648574956e-11; a2 = Fuzz(Fuzzfs(fs(fs(fs(fs(-6.89080823406175e-28fs - 2.18466860180522e-24) + 8.96539812308464e-22) + 1.07814146784378e-18) + 4.96738293767392e-17) - 1.02841034401895e-14) + fs(fs(fs(fs(fs(6.86556324854206e-28fs + 2.06110548842582e-24) - 2.55877854891379e-22) + 2.98762373534358e-18) + 4.94708666311112e-16) - 3.66032785777532e-13) - 4.6745924728134e-11) + fs(fs(fs(fs(fs(7.8688334639365e-28fs + 3.51422287134859e-24) - 2.89396306244108e-21) - 1.08566698299625e-17) - 1.29693461432975e-15) + 8.56406365755772e-13) + 1.04243412143739e-10; a3 = Fuzz(Fuzzpow(fs,2)(pow(fs,2)(9.18774431208233e-28pow(fs,2) - 3.58615924923386e-21) + 1.98695317506957e-16) + pow(fs,2)(pow(fs,2)(-9.15408433138942e-28pow(fs,2) + 1.02351141956552e-21) + 1.97883466524445e-15) - 6.23278996375121e-11) + pow(fs,2)(pow(fs,2)(-1.04917779519153e-27pow(fs,2) + 1.15758522497643e-20) - 5.18773845731899e-15) + 1.38991216191652e-10; a4 = Fuzz(Fuzzfs(fs(fs(fs(fs(-6.89080823406175e-28fs + 2.18466860180522e-24) + 8.96539812308464e-22) - 1.07814146784378e-18) + 4.96738293767392e-17) + 1.02841034401895e-14) + fs(fs(fs(fs(fs(6.86556324854206e-28fs - 2.06110548842582e-24) - 2.55877854891379e-22) - 2.98762373534358e-18) + 4.94708666311112e-16) + 3.66032785777532e-13) - 4.6745924728134e-11) + fs(fs(fs(fs(fs(7.8688334639365e-28fs - 3.51422287134859e-24) - 2.89396306244108e-21) + 1.08566698299625e-17) - 1.29693461432975e-15) - 8.56406365755772e-13) + 1.04243412143739e-10; a5 = Fuzz(Fuzzfs(fs(pow(fs,2)(fs(2.7563232936247e-28fs - 1.74773488144418e-24) + 1.79307962461693e-21) - 9.93476587534785e-17) + 8.22728275215159e-15) + fs(fs(pow(fs,2)(fs(-2.74622529941683e-28fs + 1.64888439074065e-24) - 5.11755709782759e-22) - 9.89417332622223e-16) + 2.92826228622026e-13) - 1.86983698912536e-11) + fs(fs(pow(fs,2)(fs(-3.1475333855746e-28fs + 2.81137829707888e-24) - 5.78792612488216e-21) + 2.5938692286595e-15) - 6.85125092604618e-13) + 4.16973648574956e-11; a6 = Fuzz(Fuzzfs(fs(fs(fs(fs(-4.59387215604116e-29fs + 4.36933720361044e-25) - 8.96539812308464e-22) + 3.5938048928126e-19) - 4.96738293767392e-17) + 2.0568206880379e-15) + fs(fs(fs(fs(fs(4.57704216569471e-29fs - 4.12221097685163e-25) + 2.55877854891379e-22) + 9.9587457844786e-19) - 4.94708666311112e-16) + 7.32065571555064e-14) - 3.1163949818756e-12) + fs(fs(fs(fs(fs(5.24588897595767e-29fs - 7.02844574269719e-25) + 2.89396306244108e-21) - 3.61888994332083e-18) + 1.29693461432975e-15) - 1.71281273151154e-13) + 6.94956080958259e-12; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/foxeylady.dsp	faust	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) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ;	declare id "foxeylady"; declare name "Foxey Lady"; declare category "Fuzz"; declare shortname "Foxey Lady"; declare description "Foxey Lady fuzz pedal simulation"; declare insert_p "tranyclipper"; import("stdfaust.lib"); import("trany.lib"); process = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Fuzz(Levelpow(fs,2)(fs(fs(fs(6.42669378638762e-27fs + 2.86240593005591e-23) + 1.79551930386446e-19) + 3.55668379874028e-17) + 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(6.42669378638762e-29fs + 2.86240593005591e-25) + 1.79551930386446e-21) + 3.55668379874028e-19) + 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-3.28344197367049e-28fs - 1.8701619702637e-23) - 2.16157324062859e-19) - 4.33524374895714e-17) - 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-3.28344197367049e-30fs - 1.8701619702637e-25) - 2.16157324062859e-21) - 4.33524374895714e-19) - 5.90848481409701e-18); b1 = Fuzz(Levelpow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-26fs - 1.14496237202237e-22) - 3.59103860772892e-19) + 9.68604067884756e-16) + pow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-28fs - 1.14496237202237e-24) - 3.59103860772892e-21) + 9.68604067884756e-18)) + Levelpow(fs,2)(pow(fs,2)(fs(1.97006518420229e-27fs + 7.48064788105479e-23) + 4.32314648125718e-19) - 1.1816969628194e-15) + pow(fs,2)(pow(fs,2)(fs(1.97006518420229e-29fs + 7.48064788105479e-25) + 4.32314648125718e-21) - 1.1816969628194e-17); b2 = Fuzz(Levelpow(fs,2)(fs(fs(fs(9.64004067958143e-26fs + 1.43120296502796e-22) - 1.79551930386446e-19) - 1.06700513962208e-16) - 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(9.64004067958143e-28fs + 1.43120296502796e-24) - 1.79551930386446e-21) - 1.06700513962208e-18) - 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-4.92516296050573e-27fs - 9.35080985131849e-23) + 2.16157324062859e-19) + 1.30057312468714e-16) + 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-4.92516296050573e-29fs - 9.35080985131849e-25) + 2.16157324062859e-21) + 1.30057312468714e-18) + 5.90848481409701e-18); b3 = Fuzz(Levelpow(fs,2)(pow(fs,2)(-1.28533875727752e-25pow(fs,2) + 7.18207721545784e-19) - 1.93720813576951e-15) + pow(fs,2)(pow(fs,2)(-1.28533875727752e-27pow(fs,2) + 7.18207721545784e-21) - 1.93720813576951e-17)) + Levelpow(fs,2)(pow(fs,2)(6.56688394734098e-27pow(fs,2) - 8.64629296251435e-19) + 2.3633939256388e-15) + pow(fs,2)(pow(fs,2)(6.56688394734098e-29pow(fs,2) - 8.64629296251435e-21) + 2.3633939256388e-17); b4 = Fuzz(Levelpow(fs,2)(fs(fs(fs(9.64004067958143e-26fs - 1.43120296502796e-22) - 1.79551930386446e-19) + 1.06700513962208e-16) - 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(9.64004067958143e-28fs - 1.43120296502796e-24) - 1.79551930386446e-21) + 1.06700513962208e-18) - 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-4.92516296050573e-27fs + 9.35080985131849e-23) + 2.16157324062859e-19) - 1.30057312468714e-16) + 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-4.92516296050573e-29fs + 9.35080985131849e-25) + 2.16157324062859e-21) - 1.30057312468714e-18) + 5.90848481409701e-18); b5 = Fuzz(Levelpow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-26fs + 1.14496237202237e-22) - 3.59103860772892e-19) + 9.68604067884756e-16) + pow(fs,2)(pow(fs,2)(fs(-3.85601627183257e-28fs + 1.14496237202237e-24) - 3.59103860772892e-21) + 9.68604067884756e-18)) + Levelpow(fs,2)(pow(fs,2)(fs(1.97006518420229e-27fs - 7.48064788105479e-23) + 4.32314648125718e-19) - 1.1816969628194e-15) + pow(fs,2)(pow(fs,2)(fs(1.97006518420229e-29fs - 7.48064788105479e-25) + 4.32314648125718e-21) - 1.1816969628194e-17); b6 = Fuzz(Levelpow(fs,2)(fs(fs(fs(6.42669378638762e-27fs - 2.86240593005591e-23) + 1.79551930386446e-19) - 3.55668379874028e-17) + 4.84302033942378e-16) + pow(fs,2)(fs(fs(fs(6.42669378638762e-29fs - 2.86240593005591e-25) + 1.79551930386446e-21) - 3.55668379874028e-19) + 4.84302033942378e-18)) + Levelpow(fs,2)(fs(fs(fs(-3.28344197367049e-28fs + 1.8701619702637e-23) - 2.16157324062859e-19) + 4.33524374895714e-17) - 5.90848481409701e-16) + pow(fs,2)(fs(fs(fs(-3.28344197367049e-30fs + 1.8701619702637e-25) - 2.16157324062859e-21) + 4.33524374895714e-19) - 5.90848481409701e-18); a0 = Fuzz(Fuzzfs(fs(fs(fs(fs(-4.59387215604116e-29fs - 4.36933720361044e-25) - 8.96539812308464e-22) - 3.5938048928126e-19) - 4.96738293767392e-17) - 2.0568206880379e-15) + fs(fs(fs(fs(fs(4.57704216569471e-29fs + 4.12221097685163e-25) + 2.55877854891379e-22) - 9.9587457844786e-19) - 4.94708666311112e-16) - 7.32065571555064e-14) - 3.1163949818756e-12) + fs(fs(fs(fs(fs(5.24588897595767e-29fs + 7.02844574269719e-25) + 2.89396306244108e-21) + 3.61888994332083e-18) + 1.29693461432975e-15) + 1.71281273151154e-13) + 6.94956080958259e-12; a1 = Fuzz(Fuzzfs(fs(pow(fs,2)(fs(2.7563232936247e-28fs + 1.74773488144418e-24) + 1.79307962461693e-21) - 9.93476587534785e-17) - 8.22728275215159e-15) + fs(fs(pow(fs,2)(fs(-2.74622529941683e-28fs - 1.64888439074065e-24) - 5.11755709782759e-22) - 9.89417332622223e-16) - 2.92826228622026e-13) - 1.86983698912536e-11) + fs(fs(pow(fs,2)(fs(-3.1475333855746e-28fs - 2.81137829707888e-24) - 5.78792612488216e-21) + 2.5938692286595e-15) + 6.85125092604618e-13) + 4.16973648574956e-11; a2 = Fuzz(Fuzzfs(fs(fs(fs(fs(-6.89080823406175e-28fs - 2.18466860180522e-24) + 8.96539812308464e-22) + 1.07814146784378e-18) + 4.96738293767392e-17) - 1.02841034401895e-14) + fs(fs(fs(fs(fs(6.86556324854206e-28fs + 2.06110548842582e-24) - 2.55877854891379e-22) + 2.98762373534358e-18) + 4.94708666311112e-16) - 3.66032785777532e-13) - 4.6745924728134e-11) + fs(fs(fs(fs(fs(7.8688334639365e-28fs + 3.51422287134859e-24) - 2.89396306244108e-21) - 1.08566698299625e-17) - 1.29693461432975e-15) + 8.56406365755772e-13) + 1.04243412143739e-10; a3 = Fuzz(Fuzzpow(fs,2)(pow(fs,2)(9.18774431208233e-28pow(fs,2) - 3.58615924923386e-21) + 1.98695317506957e-16) + pow(fs,2)(pow(fs,2)(-9.15408433138942e-28pow(fs,2) + 1.02351141956552e-21) + 1.97883466524445e-15) - 6.23278996375121e-11) + pow(fs,2)(pow(fs,2)(-1.04917779519153e-27pow(fs,2) + 1.15758522497643e-20) - 5.18773845731899e-15) + 1.38991216191652e-10; a4 = Fuzz(Fuzzfs(fs(fs(fs(fs(-6.89080823406175e-28fs + 2.18466860180522e-24) + 8.96539812308464e-22) - 1.07814146784378e-18) + 4.96738293767392e-17) + 1.02841034401895e-14) + fs(fs(fs(fs(fs(6.86556324854206e-28fs - 2.06110548842582e-24) - 2.55877854891379e-22) - 2.98762373534358e-18) + 4.94708666311112e-16) + 3.66032785777532e-13) - 4.6745924728134e-11) + fs(fs(fs(fs(fs(7.8688334639365e-28fs - 3.51422287134859e-24) - 2.89396306244108e-21) + 1.08566698299625e-17) - 1.29693461432975e-15) - 8.56406365755772e-13) + 1.04243412143739e-10; a5 = Fuzz(Fuzzfs(fs(pow(fs,2)(fs(2.7563232936247e-28fs - 1.74773488144418e-24) + 1.79307962461693e-21) - 9.93476587534785e-17) + 8.22728275215159e-15) + fs(fs(pow(fs,2)(fs(-2.74622529941683e-28fs + 1.64888439074065e-24) - 5.11755709782759e-22) - 9.89417332622223e-16) + 2.92826228622026e-13) - 1.86983698912536e-11) + fs(fs(pow(fs,2)(fs(-3.1475333855746e-28fs + 2.81137829707888e-24) - 5.78792612488216e-21) + 2.5938692286595e-15) - 6.85125092604618e-13) + 4.16973648574956e-11; a6 = Fuzz(Fuzzfs(fs(fs(fs(fs(-4.59387215604116e-29fs + 4.36933720361044e-25) - 8.96539812308464e-22) + 3.5938048928126e-19) - 4.96738293767392e-17) + 2.0568206880379e-15) + fs(fs(fs(fs(fs(4.57704216569471e-29fs - 4.12221097685163e-25) + 2.55877854891379e-22) + 9.9587457844786e-19) - 4.94708666311112e-16) + 7.32065571555064e-14) - 3.1163949818756e-12) + fs(fs(fs(fs(fs(5.24588897595767e-29fs - 7.02844574269719e-25) + 2.89396306244108e-21) - 3.61888994332083e-18) + 1.29693461432975e-15) - 1.71281273151154e-13) + 6.94956080958259e-12; };
0c2a8f1d538abd96df208625f854d139fec38dd034ff8b1f6a33d34d63134faf	brummer10/guitarix	tonestack.dsp	//tonestack ba.selector declare id "tonestack_imp"; import("stdfaust.lib"); /************************************************************** Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ ** - / /************************************************************* Guitar tone stacks ** values from CAPS plugin tonestack (based on work from D.T. Yeh) / ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); / Fender / bassman = environment { / 59 Bassman 5F6-A / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; mesa = environment { / Mesa Boogie Mark / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; twin = environment { / 69 Twin Reverb AA270 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; princeton = environment { / 64 Princeton AA1164 / R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; / Marshall / jcm800 = environment { / 59/81 JCM-800 Lead 100 2203 / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; / 90 JCM-900 Master 2100: same as JCM-800 / jcm2000 = environment { / 81 2000 Lead / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; / a 10 k fixed + 100 k pot in series actually / C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; jtm45 = environment { / JTM 45 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; / parameter order is R1 - R4, C1 - C3 / mlead = environment { / 67 Major Lead 200 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; m2199 = environment { / undated M2199 30W solid state / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; / Vox / ac30 = environment { / 59/86 AC-30 / / R3 is fixed (circuit differs anyway) / R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; ac15 = environment { / VOX AC-15 / R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; soldano = environment { / Soldano SLO 100 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; sovtek = environment { / MIG 100 H/ R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; peavey = environment { / c20/ R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; ibanez = environment { / gx20 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; roland = environment { / Cube 60 / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; ampeg = environment { / VL 501 / R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; ampeg_rev = environment { / reverbrocket/ R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; bogner = environment { / Triple Giant Preamp / R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; groove = environment { / Trio Preamp / R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; crunch = environment { / Hughes&Kettner / R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; fender_blues = environment { / Fender blues junior / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; fender_default = environment { / Fender / R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; fender_deville = environment { / Fender Hot Rod / R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; gibsen = environment { / gs12 reverbrocket / R1 = 1:M; R2 = 1:M; R3 = 94:k; // 47k fixed R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; }; t = vslider(".amp.tonestack.Treble[alias]", 0.5, 0, 1, 0.01); m = vslider(".amp.tonestack.Middle[alias]", 0.5, 0, 1, 0.01); l = vslider(".amp.tonestack.Bass[alias]", 0.5, 0, 1, 0.01) : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3*pow(c,3); }; tse = ts.bassman; process = tonestack;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/tonestack.dsp	faust	tonestack ba.selector ************************************************************* Equalisation 3 bandes C1 IN >---------\|\|--------- \| \| \| \| R4 \| \| R1 Treble \| \| \| \|<------< Out \| \| \| \| \| C2 \| \|-------\|\|--------\|------ \| \| \| \| \| \| \| \| \| \|<---- R2 Bass \| \| \| \| \| \| C3 \| \| --------\|\|------>\| \| R3 Middle \| \| \| _\|_ - *********************************************************** Guitar tone stacks ** values from CAPS plugin tonestack (based on work from D.T. Yeh) Fender 59 Bassman 5F6-A Mesa Boogie Mark 69 Twin Reverb AA270 64 Princeton AA1164 Marshall 59/81 JCM-800 Lead 100 2203 90 JCM-900 Master 2100: same as JCM-800 81 2000 Lead a 10 k fixed + 100 k pot in series actually JTM 45 parameter order is R1 - R4, C1 - C3 67 Major Lead 200 undated M2199 30W solid state Vox 59/86 AC-30 R3 is fixed (circuit differs anyway) VOX AC-15 Soldano SLO 100 MIG 100 H c20 gx20 Cube 60 VL 501 reverbrocket Triple Giant Preamp Trio Preamp Hughes&Kettner Fender blues junior Fender Fender Hot Rod gs12 reverbrocket 47k fixed	declare id "tonestack_imp"; import("stdfaust.lib"); ts = environment { k = (1e3); M = (1e6); nF = (1e-9); pF = (1e-12); R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 120:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 4.8:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 33:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 33:k; C1 = 500:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 56:k; C1 = 250:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 1:M; R2 = 1:M; R3 = 10:k; R4 = 100:k; C1 = 50:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 220:k; R4 = 100:k; C1 = 470:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 47:k; C1 = 470:pF; C2 = 20:nF; C3 = 20:nF; }; R1 = 500:k; R2 = 1:M; R3 = 10:k; R4 = 47:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 20:k; R4 = 68:k; C1 = 270:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 270:pF; C2 = 100:nF; C3 = 40:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 41:k; C1 = 240:pF; C2 = 33:nF; C3 = 82:nF; }; R1 = 250:k; R2 = 1:M; R3 = 25:k; R4 = 32:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 100:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 1:M; R3 = 33:k; R4 = 51:k; C1 = 220:pF; C2 = 15:nF; C3 = 47:nF; }; R1 = 220:k; R2 = 1:M; R3 = 22:k; R4 = 68:k; C1 = 470:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 220:k; R2 = 220:k; R3 = 10:k; R4 = 100:k; C1 = 220:pF; C2 = 47:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 100:k; C1 = 250:pF; C2 = 22:nF; C3 = 22:nF; }; R1 = 250:k; R2 = 250:k; R3 = 10:k; R4 = 100:k; C1 = 250:pF; C2 = 100:nF; C3 = 47:nF; }; R1 = 250:k; R2 = 250:k; R3 = 25:k; R4 = 130:k; C1 = 250:pF; C2 = 100:nF; C3 = 22:nF; }; R1 = 1:M; R2 = 1:M; R4 = 270:k; C1 = 25:pF; C2 = 60:nF; C3 = 20:nF; }; }; t = vslider(".amp.tonestack.Treble[alias]", 0.5, 0, 1, 0.01); m = vslider(".amp.tonestack.Middle[alias]", 0.5, 0, 1, 0.01); l = vslider(".amp.tonestack.Bass[alias]", 0.5, 0, 1, 0.01) : (_-1)3.4 : exp; tonestack = 1/A0fi.iir((B0,B1,B2,B3),(A1/A0,A2/A0,A3/A0)) with { C1 = tse.C1; C2 = tse.C2; C3 = tse.C3; R1 = tse.R1; R2 = tse.R2; R3 = tse.R3; R4 = tse.R4; b1 = tC1R1 + mC3R3 + l(C1R2 + C2R2) + (C1R3 + C2R3); b2 = t(C1C2R1R4 + C1C3R1R4) - mm(C1C3R3R3 + C2C3R3R3) + m(C1C3R1R3 + C1C3R3R3 + C2C3R3R3) + l(C1C2R1R2 + C1C2R2R4 + C1C3R2R4) + lm(C1C3R2R3 + C2C3R2R3) + (C1C2R1R3 + C1C2R3R4 + C1C3R3R4); b3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R1R3R3 + C1C2C3R3R3R4) + tC1C2C3R1R3R4 - tmC1C2C3R1R3R4 + tlC1C2C3R1R2R4; a0 = 1; a1 = (C1R1 + C1R3 + C2R3 + C2R4 + C3R4) + mC3R3 + l(C1R2 + C2R2); a2 = m(C1C3R1R3 - C2C3R3R4 + C1C3R3R3 + C2C3R3R3) + lm(C1C3R2R3 + C2C3R2R3) - mm(C1C3R3R3 + C2C3R3R3) + l(C1C2R2R4 + C1C2R1R2 + C1C3R2R4 + C2C3R2R4) + (C1C2R1R4 + C1C3R1R4 + C1C2R3R4 + C1C2R1R3 + C1C3R3R4 + C2C3R3R4); a3 = lm(C1C2C3R1R2R3 + C1C2C3R2R3R4) - mm(C1C2C3R1R3R3 + C1C2C3R3R3R4) + m(C1C2C3R3R3R4 + C1C2C3R1R3R3 - C1C2C3R1R3R4) + lC1C2C3R1R2R4 + C1C2C3R1R3R4; c = 2float(ma.SR); B0 = -b1c - b2pow(c,2) - b3pow(c,3); B1 = -b1c + b2pow(c,2) + 3b3pow(c,3); B2 = b1c + b2pow(c,2) - 3b3pow(c,3); B3 = b1c - b2pow(c,2) + b3pow(c,3); A0 = -a0 - a1c - a2pow(c,2) - a3pow(c,3); A1 = -3a0 - a1c + a2pow(c,2) + 3a3pow(c,3); A2 = -3a0 + a1c + a2pow(c,2) - 3a3pow(c,3); A3 = -a0 + a1c - a2pow(c,2) + a3pow(c,3); }; tse = ts.bassman; process = tonestack;
e036d8dcf9a58bcc0eed61c737f38c9ca05e62cf95ea8e28c58f857755fe25d7	brummer10/guitarix	fuzzdrive.dsp	// generated automatically // DO NOT MODIFY! declare id "fuzzdrive"; declare name "Fuzz Drive"; declare category "Fuzz"; declare shortname "Fuzz Drive"; declare description "Fuzz Distortion"; import("stdfaust.lib"); import("trany.lib"); 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; wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; //Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); gain = hslider("Level[name:Level]", -2, -20, 12, 0.1) : ba.db2linear : si.smooth(s); Fuzz = 0.5 ; //vslider("Fuzz[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Distortion = vslider("Distortion[name:Drive]", 0.5, 0, 0.99, 0.01) : Inverted(1) : si.smooth(s); clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0,b8/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0,a8/a0)) with { fs = float(ma.SR); b0 = Fuzzpow(fs,3)(fs(fs(fs(fs(1.29594227235659e-40fs - 8.87073657190112e-34) - 1.64126469795529e-30) - 1.58018238163299e-26) - 1.52868099778786e-23) - 4.36734685990874e-21) + pow(fs,2)(fs(fs(fs(fs(fs(1.17227175222998e-40fs - 8.60503380045389e-34) + 3.96129387282593e-28) + 4.46652612440854e-25) + 6.72185939565773e-21) + 2.17087377052947e-18) - 1.32343844239659e-17); b1 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-1.03675381788527e-39fs + 5.32244194314067e-33) + 6.56505879182116e-30) + 3.16036476326599e-26) - 8.73469371981747e-21) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-9.37817401783986e-40fs + 5.16302028027233e-33) - 1.58451754913037e-27) - 8.93305224881709e-25) + 4.34174754105893e-18) - 5.29375376958635e-17); b2 = Fuzzpow(fs,3)(fs(fs(fs(fs(3.62863836259845e-39fs - 1.24190312006616e-32) - 6.56505879182116e-30) + 3.16036476326599e-26) + 6.11472399115143e-23) + 8.73469371981747e-21) + pow(fs,2)(fs(fs(fs(fs(fs(3.28236090624395e-39fs - 1.20470473206354e-32) + 1.58451754913037e-27) - 8.93305224881709e-25) - 2.68874375826309e-20) - 4.34174754105893e-18) - 5.29375376958635e-17); b3 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-7.2572767251969e-39fs + 1.24190312006616e-32) - 6.56505879182116e-30) - 9.48109428979796e-26) + 2.62040811594524e-20) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-6.5647218124879e-39fs + 1.20470473206354e-32) + 1.58451754913037e-27) + 2.67991567464513e-24) - 1.30252426231768e-17) + 5.29375376958635e-17); b4 = Fuzzpow(fs,4)(pow(fs,2)(9.07159590649613e-39pow(fs,2) + 1.64126469795529e-29) - 9.17208598672714e-23) + pow(fs,2)(pow(fs,2)(pow(fs,2)(8.20590226560988e-39pow(fs,2) - 3.96129387282593e-27) + 4.03311563739464e-20) + 1.32343844239659e-16); b5 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-7.2572767251969e-39fs - 1.24190312006616e-32) - 6.56505879182116e-30) + 9.48109428979796e-26) - 2.62040811594524e-20) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-6.5647218124879e-39fs - 1.20470473206354e-32) + 1.58451754913037e-27) - 2.67991567464513e-24) + 1.30252426231768e-17) + 5.29375376958635e-17); b6 = Fuzzpow(fs,3)(fs(fs(fs(fs(3.62863836259845e-39fs + 1.24190312006616e-32) - 6.56505879182116e-30) - 3.16036476326599e-26) + 6.11472399115143e-23) - 8.73469371981747e-21) + pow(fs,2)(fs(fs(fs(fs(fs(3.28236090624395e-39fs + 1.20470473206354e-32) + 1.58451754913037e-27) + 8.93305224881709e-25) - 2.68874375826309e-20) + 4.34174754105893e-18) - 5.29375376958635e-17); b7 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-1.03675381788527e-39fs - 5.32244194314067e-33) + 6.56505879182116e-30) - 3.16036476326599e-26) + 8.73469371981747e-21) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-9.37817401783986e-40fs - 5.16302028027233e-33) - 1.58451754913037e-27) + 8.93305224881709e-25) - 4.34174754105893e-18) - 5.29375376958635e-17); b8 = Fuzzpow(fs,3)(fs(fs(fs(fs(1.29594227235659e-40fs + 8.87073657190112e-34) - 1.64126469795529e-30) + 1.58018238163299e-26) - 1.52868099778786e-23) + 4.36734685990874e-21) + pow(fs,2)(fs(fs(fs(fs(fs(1.17227175222998e-40fs + 8.60503380045389e-34) + 3.96129387282593e-28) - 4.46652612440854e-25) + 6.72185939565773e-21) - 2.17087377052947e-18) - 1.32343844239659e-17); a0 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-1.20954612086615e-39fs - 2.86589792702458e-34) - 6.29844123704863e-30) - 6.96590249983833e-27) - 2.97472992156056e-24) - 4.85407145719168e-22) - 2.26821940920998e-20) + fs(fs(fs(fs(fs(fs(fs(2.45020046020493e-40fs - 1.12017008405057e-33) - 2.68390877243249e-29) - 2.76343706770825e-26) - 1.93946085329172e-23) - 8.29607943811672e-21) - 1.41480755159492e-18) - 6.87339214912114e-17)) + fs(fs(fs(fs(fs(fs(fs(1.21134747730432e-39fs + 1.63282987404348e-33) + 4.4344097371444e-29) + 1.07298568411666e-25) + 1.73266579347222e-22) + 1.31102852092565e-19) + 4.74767687606168e-17) + 7.12034665177176e-15) + 3.12426915869143e-13; a1 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(9.6763689669292e-39fs + 1.71953875621475e-33) + 2.51937649481945e-29) + 1.39318049996767e-26) - 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.96016036816394e-39fs + 6.7210205043034e-33) + 1.073563508973e-28) + 5.52687413541649e-26) - 1.65921588762334e-20) - 5.65923020637969e-18) - 4.12403528947268e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-9.69077981843452e-39fs - 9.79697924426087e-33) - 1.77376389485776e-28) - 2.14597136823331e-25) + 2.62205704185131e-19) + 1.89907075042467e-16) + 4.27220799106305e-14) + 2.49941532695314e-12; a2 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-3.38672913842522e-38fs - 4.01225709783442e-33) - 2.51937649481945e-29) + 1.39318049996767e-26) + 1.18989196862423e-23) + 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(fs(fs(fs(fs(6.86056128857379e-39fs - 1.56823811767079e-32) - 1.073563508973e-28) + 5.52687413541649e-26) + 7.75784341316688e-23) + 1.65921588762334e-20) - 5.65923020637969e-18) - 9.62274900876959e-16)) + fs(fs(fs(fs(fs(fs(fs(3.39177293645208e-38fs + 2.28596182366087e-32) + 1.77376389485776e-28) - 2.14597136823331e-25) - 6.93066317388889e-22) - 2.62205704185131e-19) + 1.89907075042467e-16) + 9.96848531248046e-14) + 8.74795364433599e-12; a3 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(6.77345827685044e-38fs + 4.01225709783442e-33) - 2.51937649481945e-29) - 4.179541499903e-26) + 2.91244287431501e-21) + 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.37211225771476e-38fs + 1.56823811767079e-32) - 1.073563508973e-28) - 1.65806224062495e-25) + 4.97764766287003e-20) + 5.65923020637969e-18) - 9.62274900876959e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-6.78354587290416e-38fs - 2.28596182366087e-32) + 1.77376389485776e-28) + 6.43791410469994e-25) - 7.86617112555392e-19) - 1.89907075042467e-16) + 9.96848531248046e-14) + 1.7495907288672e-11; a4 = Fuzz(Fuzzpow(fs,2)(pow(fs,2)(pow(fs,2)(-8.46682284606305e-38pow(fs,2) + 6.29844123704863e-29) - 1.78483795293634e-23) + 2.26821940920998e-19) + pow(fs,2)(pow(fs,2)(pow(fs,2)(1.71514032214345e-38pow(fs,2) + 2.68390877243249e-28) - 1.16367651197503e-22) + 1.41480755159492e-17)) + pow(fs,2)(pow(fs,2)(pow(fs,2)(8.47943234113021e-38pow(fs,2) - 4.4344097371444e-28) + 1.03959947608333e-21) - 4.74767687606168e-16) + 2.186988411084e-11; a5 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(6.77345827685044e-38fs - 4.01225709783442e-33) - 2.51937649481945e-29) + 4.179541499903e-26) - 2.91244287431501e-21) + 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.37211225771476e-38fs - 1.56823811767079e-32) - 1.073563508973e-28) + 1.65806224062495e-25) - 4.97764766287003e-20) + 5.65923020637969e-18) + 9.62274900876959e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-6.78354587290416e-38fs + 2.28596182366087e-32) + 1.77376389485776e-28) - 6.43791410469994e-25) + 7.86617112555392e-19) - 1.89907075042467e-16) - 9.96848531248046e-14) + 1.7495907288672e-11; a6 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-3.38672913842522e-38fs + 4.01225709783442e-33) - 2.51937649481945e-29) - 1.39318049996767e-26) + 1.18989196862423e-23) - 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(fs(fs(fs(fs(6.86056128857379e-39fs + 1.56823811767079e-32) - 1.073563508973e-28) - 5.52687413541649e-26) + 7.75784341316688e-23) - 1.65921588762334e-20) - 5.65923020637969e-18) + 9.62274900876959e-16)) + fs(fs(fs(fs(fs(fs(fs(3.39177293645208e-38fs - 2.28596182366087e-32) + 1.77376389485776e-28) + 2.14597136823331e-25) - 6.93066317388889e-22) + 2.62205704185131e-19) + 1.89907075042467e-16) - 9.96848531248046e-14) + 8.74795364433599e-12; a7 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(9.6763689669292e-39fs - 1.71953875621475e-33) + 2.51937649481945e-29) - 1.39318049996767e-26) + 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.96016036816394e-39fs - 6.7210205043034e-33) + 1.073563508973e-28) - 5.52687413541649e-26) + 1.65921588762334e-20) - 5.65923020637969e-18) + 4.12403528947268e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-9.69077981843452e-39fs + 9.79697924426087e-33) - 1.77376389485776e-28) + 2.14597136823331e-25) - 2.62205704185131e-19) + 1.89907075042467e-16) - 4.27220799106305e-14) + 2.49941532695314e-12; a8 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-1.20954612086615e-39fs + 2.86589792702458e-34) - 6.29844123704863e-30) + 6.96590249983833e-27) - 2.97472992156056e-24) + 4.85407145719168e-22) - 2.26821940920998e-20) + fs(fs(fs(fs(fs(fs(fs(2.45020046020493e-40fs + 1.12017008405057e-33) - 2.68390877243249e-29) + 2.76343706770825e-26) - 1.93946085329172e-23) + 8.29607943811672e-21) - 1.41480755159492e-18) + 6.87339214912114e-17)) + fs(fs(fs(fs(fs(fs(fs(1.21134747730432e-39fs - 1.63282987404348e-33) + 4.4344097371444e-29) - 1.07298568411666e-25) + 1.73266579347222e-22) - 1.31102852092565e-19) + 4.74767687606168e-17) - 7.12034665177176e-15) + 3.12426915869143e-13; }; dist = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { fs = float(ma.SR); b0 = 3.45357917689612e-13Distortion0.1pow(fs,3) + 0.1pow(fs,2)(1.79347857986842e-13fs + 3.45357917689612e-12); b1 = -1.03607375306884e-12Distortion0.1pow(fs,3) + 0.1pow(fs,2)(-5.38043573960525e-13fs - 3.45357917689612e-12); b2 = 1.03607375306884e-12Distortion0.1pow(fs,3) + 0.1pow(fs,2)(5.38043573960525e-13fs - 3.45357917689612e-12); b3 = -3.45357917689612e-13Distortion0.1pow(fs,3) + 0.1pow(fs,2)(-1.79347857986842e-13fs + 3.45357917689612e-12); a0 = Distortionfs(fs(1.2099049942893e-14fs + 2.51801622165627e-10) + 2.49252253398618e-8) + fs(fs(3.57407648445144e-16fs + 2.81736895109737e-13) + 2.53046873750701e-9) + 2.49252253398618e-7; a1 = Distortionfs(fs(-3.62971498286789e-14fs - 2.51801622165627e-10) + 2.49252253398618e-8) + fs(fs(-1.07222294533543e-15fs - 2.81736895109737e-13) + 2.53046873750701e-9) + 7.47756760195853e-7; a2 = Distortionfs(fs(3.62971498286789e-14fs - 2.51801622165627e-10) - 2.49252253398618e-8) + fs(fs(1.07222294533543e-15fs - 2.81736895109737e-13) - 2.53046873750701e-9) + 7.47756760195853e-7; a3 = Distortionfs(fs(-1.2099049942893e-14fs + 2.51801622165627e-10) - 2.49252253398618e-8) + fs(fs(-3.57407648445144e-16fs + 2.81736895109737e-13) - 2.53046873750701e-9) + 2.49252253398618e-7; }; X2 = fuzz : dist; opamp = ffunction(float opamp(float), "clipping.h", ""); X3 = _ <: _ - opamp(X2-_) :> _ ; asymclip = ffunction(float asymhardclip2(float), "clipping.h", ""); aclip = asymclip(X3); process = _<:(dry),((wet) : aclip :*(gain) ):>_;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/fuzzdrive.dsp	faust	generated automatically DO NOT MODIFY! Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); vslider("Fuzz[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s);	declare id "fuzzdrive"; declare name "Fuzz Drive"; declare category "Fuzz"; declare shortname "Fuzz Drive"; declare description "Fuzz Distortion"; import("stdfaust.lib"); import("trany.lib"); 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; wet = vslider("wet_dry[name:Wet/Dry][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; gain = hslider("Level[name:Level]", -2, -20, 12, 0.1) : ba.db2linear : si.smooth(s); Distortion = vslider("Distortion[name:Drive]", 0.5, 0, 0.99, 0.01) : Inverted(1) : si.smooth(s); clip = tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) : tranystage(TB_7199P_68k,86.0,2700.0,3.571981) ; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0,b8/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0,a8/a0)) with { fs = float(ma.SR); b0 = Fuzzpow(fs,3)(fs(fs(fs(fs(1.29594227235659e-40fs - 8.87073657190112e-34) - 1.64126469795529e-30) - 1.58018238163299e-26) - 1.52868099778786e-23) - 4.36734685990874e-21) + pow(fs,2)(fs(fs(fs(fs(fs(1.17227175222998e-40fs - 8.60503380045389e-34) + 3.96129387282593e-28) + 4.46652612440854e-25) + 6.72185939565773e-21) + 2.17087377052947e-18) - 1.32343844239659e-17); b1 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-1.03675381788527e-39fs + 5.32244194314067e-33) + 6.56505879182116e-30) + 3.16036476326599e-26) - 8.73469371981747e-21) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-9.37817401783986e-40fs + 5.16302028027233e-33) - 1.58451754913037e-27) - 8.93305224881709e-25) + 4.34174754105893e-18) - 5.29375376958635e-17); b2 = Fuzzpow(fs,3)(fs(fs(fs(fs(3.62863836259845e-39fs - 1.24190312006616e-32) - 6.56505879182116e-30) + 3.16036476326599e-26) + 6.11472399115143e-23) + 8.73469371981747e-21) + pow(fs,2)(fs(fs(fs(fs(fs(3.28236090624395e-39fs - 1.20470473206354e-32) + 1.58451754913037e-27) - 8.93305224881709e-25) - 2.68874375826309e-20) - 4.34174754105893e-18) - 5.29375376958635e-17); b3 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-7.2572767251969e-39fs + 1.24190312006616e-32) - 6.56505879182116e-30) - 9.48109428979796e-26) + 2.62040811594524e-20) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-6.5647218124879e-39fs + 1.20470473206354e-32) + 1.58451754913037e-27) + 2.67991567464513e-24) - 1.30252426231768e-17) + 5.29375376958635e-17); b4 = Fuzzpow(fs,4)(pow(fs,2)(9.07159590649613e-39pow(fs,2) + 1.64126469795529e-29) - 9.17208598672714e-23) + pow(fs,2)(pow(fs,2)(pow(fs,2)(8.20590226560988e-39pow(fs,2) - 3.96129387282593e-27) + 4.03311563739464e-20) + 1.32343844239659e-16); b5 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-7.2572767251969e-39fs - 1.24190312006616e-32) - 6.56505879182116e-30) + 9.48109428979796e-26) - 2.62040811594524e-20) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-6.5647218124879e-39fs - 1.20470473206354e-32) + 1.58451754913037e-27) - 2.67991567464513e-24) + 1.30252426231768e-17) + 5.29375376958635e-17); b6 = Fuzzpow(fs,3)(fs(fs(fs(fs(3.62863836259845e-39fs + 1.24190312006616e-32) - 6.56505879182116e-30) - 3.16036476326599e-26) + 6.11472399115143e-23) - 8.73469371981747e-21) + pow(fs,2)(fs(fs(fs(fs(fs(3.28236090624395e-39fs + 1.20470473206354e-32) + 1.58451754913037e-27) + 8.93305224881709e-25) - 2.68874375826309e-20) + 4.34174754105893e-18) - 5.29375376958635e-17); b7 = Fuzzpow(fs,3)(pow(fs,2)(fs(fs(-1.03675381788527e-39fs - 5.32244194314067e-33) + 6.56505879182116e-30) - 3.16036476326599e-26) + 8.73469371981747e-21) + pow(fs,2)(fs(pow(fs,2)(fs(fs(-9.37817401783986e-40fs - 5.16302028027233e-33) - 1.58451754913037e-27) + 8.93305224881709e-25) - 4.34174754105893e-18) - 5.29375376958635e-17); b8 = Fuzzpow(fs,3)(fs(fs(fs(fs(1.29594227235659e-40fs + 8.87073657190112e-34) - 1.64126469795529e-30) + 1.58018238163299e-26) - 1.52868099778786e-23) + 4.36734685990874e-21) + pow(fs,2)(fs(fs(fs(fs(fs(1.17227175222998e-40fs + 8.60503380045389e-34) + 3.96129387282593e-28) - 4.46652612440854e-25) + 6.72185939565773e-21) - 2.17087377052947e-18) - 1.32343844239659e-17); a0 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-1.20954612086615e-39fs - 2.86589792702458e-34) - 6.29844123704863e-30) - 6.96590249983833e-27) - 2.97472992156056e-24) - 4.85407145719168e-22) - 2.26821940920998e-20) + fs(fs(fs(fs(fs(fs(fs(2.45020046020493e-40fs - 1.12017008405057e-33) - 2.68390877243249e-29) - 2.76343706770825e-26) - 1.93946085329172e-23) - 8.29607943811672e-21) - 1.41480755159492e-18) - 6.87339214912114e-17)) + fs(fs(fs(fs(fs(fs(fs(1.21134747730432e-39fs + 1.63282987404348e-33) + 4.4344097371444e-29) + 1.07298568411666e-25) + 1.73266579347222e-22) + 1.31102852092565e-19) + 4.74767687606168e-17) + 7.12034665177176e-15) + 3.12426915869143e-13; a1 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(9.6763689669292e-39fs + 1.71953875621475e-33) + 2.51937649481945e-29) + 1.39318049996767e-26) - 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.96016036816394e-39fs + 6.7210205043034e-33) + 1.073563508973e-28) + 5.52687413541649e-26) - 1.65921588762334e-20) - 5.65923020637969e-18) - 4.12403528947268e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-9.69077981843452e-39fs - 9.79697924426087e-33) - 1.77376389485776e-28) - 2.14597136823331e-25) + 2.62205704185131e-19) + 1.89907075042467e-16) + 4.27220799106305e-14) + 2.49941532695314e-12; a2 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-3.38672913842522e-38fs - 4.01225709783442e-33) - 2.51937649481945e-29) + 1.39318049996767e-26) + 1.18989196862423e-23) + 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(fs(fs(fs(fs(6.86056128857379e-39fs - 1.56823811767079e-32) - 1.073563508973e-28) + 5.52687413541649e-26) + 7.75784341316688e-23) + 1.65921588762334e-20) - 5.65923020637969e-18) - 9.62274900876959e-16)) + fs(fs(fs(fs(fs(fs(fs(3.39177293645208e-38fs + 2.28596182366087e-32) + 1.77376389485776e-28) - 2.14597136823331e-25) - 6.93066317388889e-22) - 2.62205704185131e-19) + 1.89907075042467e-16) + 9.96848531248046e-14) + 8.74795364433599e-12; a3 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(6.77345827685044e-38fs + 4.01225709783442e-33) - 2.51937649481945e-29) - 4.179541499903e-26) + 2.91244287431501e-21) + 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.37211225771476e-38fs + 1.56823811767079e-32) - 1.073563508973e-28) - 1.65806224062495e-25) + 4.97764766287003e-20) + 5.65923020637969e-18) - 9.62274900876959e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-6.78354587290416e-38fs - 2.28596182366087e-32) + 1.77376389485776e-28) + 6.43791410469994e-25) - 7.86617112555392e-19) - 1.89907075042467e-16) + 9.96848531248046e-14) + 1.7495907288672e-11; a4 = Fuzz(Fuzzpow(fs,2)(pow(fs,2)(pow(fs,2)(-8.46682284606305e-38pow(fs,2) + 6.29844123704863e-29) - 1.78483795293634e-23) + 2.26821940920998e-19) + pow(fs,2)(pow(fs,2)(pow(fs,2)(1.71514032214345e-38pow(fs,2) + 2.68390877243249e-28) - 1.16367651197503e-22) + 1.41480755159492e-17)) + pow(fs,2)(pow(fs,2)(pow(fs,2)(8.47943234113021e-38pow(fs,2) - 4.4344097371444e-28) + 1.03959947608333e-21) - 4.74767687606168e-16) + 2.186988411084e-11; a5 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(6.77345827685044e-38fs - 4.01225709783442e-33) - 2.51937649481945e-29) + 4.179541499903e-26) - 2.91244287431501e-21) + 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.37211225771476e-38fs - 1.56823811767079e-32) - 1.073563508973e-28) + 1.65806224062495e-25) - 4.97764766287003e-20) + 5.65923020637969e-18) + 9.62274900876959e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-6.78354587290416e-38fs + 2.28596182366087e-32) + 1.77376389485776e-28) - 6.43791410469994e-25) + 7.86617112555392e-19) - 1.89907075042467e-16) - 9.96848531248046e-14) + 1.7495907288672e-11; a6 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-3.38672913842522e-38fs + 4.01225709783442e-33) - 2.51937649481945e-29) - 1.39318049996767e-26) + 1.18989196862423e-23) - 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(fs(fs(fs(fs(6.86056128857379e-39fs + 1.56823811767079e-32) - 1.073563508973e-28) - 5.52687413541649e-26) + 7.75784341316688e-23) - 1.65921588762334e-20) - 5.65923020637969e-18) + 9.62274900876959e-16)) + fs(fs(fs(fs(fs(fs(fs(3.39177293645208e-38fs - 2.28596182366087e-32) + 1.77376389485776e-28) + 2.14597136823331e-25) - 6.93066317388889e-22) + 2.62205704185131e-19) + 1.89907075042467e-16) - 9.96848531248046e-14) + 8.74795364433599e-12; a7 = Fuzz(Fuzzpow(fs,2)(fs(pow(fs,2)(fs(fs(9.6763689669292e-39fs - 1.71953875621475e-33) + 2.51937649481945e-29) - 1.39318049996767e-26) + 9.70814291438336e-22) - 9.0728776368399e-20) + fs(fs(fs(pow(fs,2)(fs(fs(-1.96016036816394e-39fs - 6.7210205043034e-33) + 1.073563508973e-28) - 5.52687413541649e-26) + 1.65921588762334e-20) - 5.65923020637969e-18) + 4.12403528947268e-16)) + fs(fs(fs(pow(fs,2)(fs(fs(-9.69077981843452e-39fs + 9.79697924426087e-33) - 1.77376389485776e-28) + 2.14597136823331e-25) - 2.62205704185131e-19) + 1.89907075042467e-16) - 4.27220799106305e-14) + 2.49941532695314e-12; a8 = Fuzz(Fuzzpow(fs,2)(fs(fs(fs(fs(fs(-1.20954612086615e-39fs + 2.86589792702458e-34) - 6.29844123704863e-30) + 6.96590249983833e-27) - 2.97472992156056e-24) + 4.85407145719168e-22) - 2.26821940920998e-20) + fs(fs(fs(fs(fs(fs(fs(2.45020046020493e-40fs + 1.12017008405057e-33) - 2.68390877243249e-29) + 2.76343706770825e-26) - 1.93946085329172e-23) + 8.29607943811672e-21) - 1.41480755159492e-18) + 6.87339214912114e-17)) + fs(fs(fs(fs(fs(fs(fs(1.21134747730432e-39fs - 1.63282987404348e-33) + 4.4344097371444e-29) - 1.07298568411666e-25) + 1.73266579347222e-22) - 1.31102852092565e-19) + 4.74767687606168e-17) - 7.12034665177176e-15) + 3.12426915869143e-13; }; dist = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { fs = float(ma.SR); b0 = 3.45357917689612e-13Distortion0.1pow(fs,3) + 0.1pow(fs,2)(1.79347857986842e-13fs + 3.45357917689612e-12); b1 = -1.03607375306884e-12Distortion0.1pow(fs,3) + 0.1pow(fs,2)(-5.38043573960525e-13fs - 3.45357917689612e-12); b2 = 1.03607375306884e-12Distortion0.1pow(fs,3) + 0.1pow(fs,2)(5.38043573960525e-13fs - 3.45357917689612e-12); b3 = -3.45357917689612e-13Distortion0.1pow(fs,3) + 0.1pow(fs,2)(-1.79347857986842e-13fs + 3.45357917689612e-12); a0 = Distortionfs(fs(1.2099049942893e-14fs + 2.51801622165627e-10) + 2.49252253398618e-8) + fs(fs(3.57407648445144e-16fs + 2.81736895109737e-13) + 2.53046873750701e-9) + 2.49252253398618e-7; a1 = Distortionfs(fs(-3.62971498286789e-14fs - 2.51801622165627e-10) + 2.49252253398618e-8) + fs(fs(-1.07222294533543e-15fs - 2.81736895109737e-13) + 2.53046873750701e-9) + 7.47756760195853e-7; a2 = Distortionfs(fs(3.62971498286789e-14fs - 2.51801622165627e-10) - 2.49252253398618e-8) + fs(fs(1.07222294533543e-15fs - 2.81736895109737e-13) - 2.53046873750701e-9) + 7.47756760195853e-7; a3 = Distortionfs(fs(-1.2099049942893e-14fs + 2.51801622165627e-10) - 2.49252253398618e-8) + fs(fs(-3.57407648445144e-16fs + 2.81736895109737e-13) - 2.53046873750701e-9) + 2.49252253398618e-7; }; X2 = fuzz : dist; opamp = ffunction(float opamp(float), "clipping.h", ""); X3 = _ <: _ - opamp(X2-_) :> _ ; asymclip = ffunction(float asymhardclip2(float), "clipping.h", ""); aclip = asymclip(X3); process = _<:(dry),((wet) : aclip :*(gain) ):>_;
2cdb6cee46eced07cdc49823dc58d1ebd00b4674ca961d37ffc3158273fc50a3	brummer10/guitarix	rolandwah.dsp	// generated automatically // DO NOT MODIFY! declare id "rolandwah"; declare name "Roland Double Beat"; declare category "Guitar Effects"; declare shortname "Double Beat"; declare description "Roland Double Beat"; import("stdfaust.lib"); import("trany.lib"); 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); wet = vslider("wet_dry[name:Dry/Wet][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; // gain = vslider("Gain[name:Gain][tooltip:Gain of the Fuzz Section (dB)]", -12, -40, 4, 0.1) : ba.db2linear : si.smooth(s); clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0,b8/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0,a8/a0)) with { shape = (1.1 -Fuzz ) * 20.; atan_v=1.0/atan(shape); //clip(x) = 0.4 * (min(0.7514,max(-0.4514,x))); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Fuzzpow(fs,4)(fs(fs(8.60349117319693e-33fs + 7.42470650533226e-26) + 3.80828462584721e-23) + 8.28085042193987e-22) + pow(fs,3)(fs(fs(fs(-2.62267793598193e-32fs - 2.30252524666021e-25) - 1.21809214941527e-22) - 4.47006878788668e-21) - 4.14042521096994e-20); b1 = Fuzzpow(fs,5)(fs(-5.16209470391816e-32fs - 2.9698826021329e-25) - 7.61656925169443e-23) + pow(fs,3)(pow(fs,2)(fs(1.57360676158916e-31fs + 9.21010098664083e-25) + 2.43618429883054e-22) - 8.28085042193987e-20); b2 = Fuzzpow(fs,4)(fs(fs(1.20448876424757e-31fs + 2.9698826021329e-25) - 7.61656925169443e-23) - 3.31234016877595e-21) + pow(fs,3)(fs(fs(fs(-3.6717491103747e-31fs - 9.21010098664083e-25) + 2.43618429883054e-22) + 1.78802751515467e-20) + 8.28085042193987e-20); b3 = Fuzzpow(fs,5)(fs(-1.20448876424757e-31fs + 2.9698826021329e-25) + 2.28497077550833e-22) + pow(fs,3)(pow(fs,2)(fs(3.6717491103747e-31fs - 9.21010098664083e-25) - 7.30855289649162e-22) + 2.48425512658196e-19); b4 = Fuzzpow(fs,4)(-7.42470650533226e-25pow(fs,2) + 4.96851025316392e-21) + pow(fs,4)(2.30252524666021e-24pow(fs,2) - 2.68204127273201e-20); b5 = Fuzzpow(fs,5)(fs(1.20448876424757e-31fs + 2.9698826021329e-25) - 2.28497077550833e-22) + pow(fs,3)(pow(fs,2)(fs(-3.6717491103747e-31fs - 9.21010098664083e-25) + 7.30855289649162e-22) - 2.48425512658196e-19); b6 = Fuzzpow(fs,4)(fs(fs(-1.20448876424757e-31fs + 2.9698826021329e-25) + 7.61656925169443e-23) - 3.31234016877595e-21) + pow(fs,3)(fs(fs(fs(3.6717491103747e-31fs - 9.21010098664083e-25) - 2.43618429883054e-22) + 1.78802751515467e-20) - 8.28085042193987e-20); b7 = Fuzzpow(fs,5)(fs(5.16209470391816e-32fs - 2.9698826021329e-25) + 7.61656925169443e-23) + pow(fs,3)(pow(fs,2)(fs(-1.57360676158916e-31fs + 9.21010098664083e-25) - 2.43618429883054e-22) + 8.28085042193987e-20); b8 = Fuzzpow(fs,4)(fs(fs(-8.60349117319693e-33fs + 7.42470650533226e-26) - 3.80828462584721e-23) + 8.28085042193987e-22) + pow(fs,3)(fs(fs(fs(2.62267793598193e-32fs - 2.30252524666021e-25) + 1.21809214941527e-22) - 4.47006878788668e-21) + 4.14042521096994e-20); a0 = Fuzzfs(fs(fs(fs(fs(fs(fs(9.64198439050231e-55fs - 5.76952472985784e-34) - 1.84629565839962e-29) - 5.28116058056682e-26) - 3.4488417342687e-23) - 6.7753494863719e-21) - 1.6046797673707e-19) - 6.03074438986166e-19) + fs(fs(fs(fs(fs(fs(fs(-1.08067210692624e-54fs + 1.6917880698614e-33) + 2.29812823706864e-29) + 5.73340871630524e-26) + 3.80795187898005e-23) + 8.56555972538848e-21) + 5.00114968075696e-19) + 8.62923424920947e-18) + 3.01537219493083e-17; a1 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-7.71358751240185e-54fs + 3.46171483791471e-33) + 7.38518263359847e-29) + 1.05623211611336e-25) - 1.35506989727438e-20) - 6.41871906948282e-19) - 3.618446633917e-18) + fs(fs(fs(pow(fs,2)(fs(fs(8.64537685540996e-54fs - 1.01507284191684e-32) - 9.19251294827458e-29) - 1.14668174326105e-25) + 1.7131119450777e-20) + 2.00045987230279e-18) + 5.17754054952568e-17) + 2.41229775594467e-16; a2 = Fuzzfs(fs(fs(fs(fs(fs(fs(2.69975562934065e-53fs - 8.07733462180098e-33) - 7.38518263359847e-29) + 1.05623211611336e-25) + 1.37953669370748e-22) + 1.35506989727438e-20) - 6.41871906948282e-19) - 8.44304214580633e-18) + fs(fs(fs(fs(fs(fs(fs(-3.02588189939348e-53fs + 2.36850329780596e-32) + 9.19251294827458e-29) - 1.14668174326105e-25) - 1.52318075159202e-22) - 1.7131119450777e-20) + 2.00045987230279e-18) + 1.20809279488933e-16) + 8.44304214580633e-16; a3 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-5.3995112586813e-53fs + 8.07733462180098e-33) - 7.38518263359847e-29) - 3.16869634834009e-25) + 4.06520969182314e-20) + 6.41871906948282e-19) - 8.44304214580633e-18) + fs(fs(fs(pow(fs,2)(fs(fs(6.05176379878697e-53fs - 2.36850329780596e-32) + 9.19251294827458e-29) + 3.44004522978315e-25) - 5.13933583523309e-20) - 2.00045987230279e-18) + 1.20809279488933e-16) + 1.68860842916127e-15; a4 = Fuzzpow(fs,2)(pow(fs,2)(pow(fs,2)(6.74938907335162e-53pow(fs,2) + 1.84629565839962e-28) - 2.06930504056122e-22) + 1.6046797673707e-18) + pow(fs,2)(pow(fs,2)(pow(fs,2)(-7.56470474848371e-53pow(fs,2) - 2.29812823706864e-28) + 2.28477112738803e-22) - 5.00114968075697e-18) + 2.11076053645158e-15; a5 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-5.3995112586813e-53fs - 8.07733462180098e-33) - 7.38518263359847e-29) + 3.16869634834009e-25) - 4.06520969182314e-20) + 6.41871906948282e-19) + 8.44304214580633e-18) + fs(fs(fs(pow(fs,2)(fs(fs(6.05176379878697e-53fs + 2.36850329780596e-32) + 9.19251294827458e-29) - 3.44004522978315e-25) + 5.13933583523309e-20) - 2.00045987230279e-18) - 1.20809279488933e-16) + 1.68860842916127e-15; a6 = Fuzzfs(fs(fs(fs(fs(fs(fs(2.69975562934065e-53fs + 8.07733462180098e-33) - 7.38518263359847e-29) - 1.05623211611336e-25) + 1.37953669370748e-22) - 1.35506989727438e-20) - 6.41871906948282e-19) + 8.44304214580633e-18) + fs(fs(fs(fs(fs(fs(fs(-3.02588189939348e-53fs - 2.36850329780596e-32) + 9.19251294827458e-29) + 1.14668174326105e-25) - 1.52318075159202e-22) + 1.7131119450777e-20) + 2.00045987230279e-18) - 1.20809279488933e-16) + 8.44304214580633e-16; a7 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-7.71358751240185e-54fs - 3.46171483791471e-33) + 7.38518263359847e-29) - 1.05623211611336e-25) + 1.35506989727438e-20) - 6.41871906948282e-19) + 3.618446633917e-18) + fs(fs(fs(pow(fs,2)(fs(fs(8.64537685540996e-54fs + 1.01507284191684e-32) - 9.19251294827458e-29) + 1.14668174326105e-25) - 1.7131119450777e-20) + 2.00045987230279e-18) - 5.17754054952568e-17) + 2.41229775594467e-16; a8 = Fuzzfs(fs(fs(fs(fs(fs(fs(9.64198439050231e-55fs + 5.76952472985784e-34) - 1.84629565839962e-29) + 5.28116058056682e-26) - 3.4488417342687e-23) + 6.7753494863719e-21) - 1.6046797673707e-19) + 6.03074438986166e-19) + fs(fs(fs(fs(fs(fs(fs(-1.08067210692624e-54fs - 1.6917880698614e-33) + 2.29812823706864e-29) - 5.73340871630524e-26) + 3.80795187898005e-23) - 8.56555972538848e-21) + 5.00114968075696e-19) - 8.62923424920947e-18) + 3.01537219493083e-17; }; wah(x) = x : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { Wah1 = (x : an.amp_follower_ud(0.01,0.1) : min(0.9) : max(0.09) ); Wah2 = vslider("Wah[name:Wah]", 0.5, 0.02, 1, 0.01) : Inverted(1) : LogPot(1) : si.smooth(s); sl = checkbox("mode[enum:manual\|auto\|alien]"); Wah3 = (os.oscs(freq) + 1) / 2 : min(0.9) : max(0.09) : Inverted(1) with { freq = vslider("lfobpm[name:Alien Freq][tooltip:LFO in Beats per Minute]",24,24,360,1)/60; }; Wah = select3(sl, Wah2, Wah1, Wah3); b0 = Wah(Wahpow(fs,3)(fs(fs(7.18082556296232e-31fs + 1.2196809675607e-26) + 1.81635217972948e-23) + 9.8345184835125e-22) + pow(fs,2)(fs(fs(fs(-7.16633351212421e-31fs - 1.22012125074374e-26) - 1.83126711766163e-23) - 1.21592229012527e-21) - 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-9.65744972703433e-31fs - 3.08822188644282e-26) - 4.82624719521696e-23) - 2.88264605310366e-21) - 1.49007855810795e-20); b1 = Wah(Wahpow(fs,4)(fs(-4.30849533777739e-30fs - 4.87872387024281e-26) - 3.63270435945895e-23) + pow(fs,2)(pow(fs,2)(fs(4.29980010727452e-30fs + 4.88048500297496e-26) + 3.66253423532326e-23) - 2.5217032663318e-20)) + pow(fs,2)(pow(fs,2)(fs(5.7944698362206e-30fs + 1.23528875457713e-25) + 9.65249439043393e-23) - 2.98015711621591e-20); b2 = Wah(Wahpow(fs,3)(fs(fs(1.07712383444435e-29fs + 6.09840483780351e-26) - 1.81635217972948e-23) - 2.95035554505375e-21) + pow(fs,2)(fs(fs(fs(-1.07495002681863e-29fs - 6.1006062537187e-26) + 1.83126711766163e-23) + 3.64776687037582e-21) + 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-1.44861745905515e-29fs - 1.54411094322141e-25) + 4.82624719521696e-23) + 8.64793815931099e-21) + 1.49007855810795e-20); b3 = Wah(Wahpow(fs,4)(-1.43616511259246e-29pow(fs,2) + 7.2654087189179e-23) + pow(fs,2)(pow(fs,2)(1.43326670242484e-29pow(fs,2) - 7.32506847064652e-23) + 5.0434065326636e-20)) + pow(fs,2)(pow(fs,2)(1.93148994540687e-29pow(fs,2) - 1.93049887808679e-22) + 5.96031423243182e-20); b4 = Wah(Wahpow(fs,3)(fs(fs(1.07712383444435e-29fs - 6.09840483780351e-26) - 1.81635217972948e-23) + 2.95035554505375e-21) + pow(fs,2)(fs(fs(fs(-1.07495002681863e-29fs + 6.1006062537187e-26) + 1.83126711766163e-23) - 3.64776687037582e-21) + 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-1.44861745905515e-29fs + 1.54411094322141e-25) + 4.82624719521696e-23) - 8.64793815931099e-21) + 1.49007855810795e-20); b5 = Wah(Wahpow(fs,4)(fs(-4.30849533777739e-30fs + 4.87872387024281e-26) - 3.63270435945895e-23) + pow(fs,2)(pow(fs,2)(fs(4.29980010727452e-30fs - 4.88048500297496e-26) + 3.66253423532326e-23) - 2.5217032663318e-20)) + pow(fs,2)(pow(fs,2)(fs(5.7944698362206e-30fs - 1.23528875457713e-25) + 9.65249439043393e-23) - 2.98015711621591e-20); b6 = Wah(Wahpow(fs,3)(fs(fs(7.18082556296232e-31fs - 1.2196809675607e-26) + 1.81635217972948e-23) - 9.8345184835125e-22) + pow(fs,2)(fs(fs(fs(-7.16633351212421e-31fs + 1.22012125074374e-26) - 1.83126711766163e-23) + 1.21592229012527e-21) - 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-9.65744972703433e-31fs + 3.08822188644282e-26) - 4.82624719521696e-23) + 2.88264605310366e-21) - 1.49007855810795e-20); a0 = Wah(Wahpow(fs,2)(fs(fs(fs(-4.29845675581904e-29fs - 3.19373566665743e-26) - 8.90038927961101e-23) - 4.87042253786579e-20) - 3.50713071672392e-19) + fs(fs(fs(fs(fs(1.72206886126217e-28fs + 1.1453389852842e-25) + 9.7683567600612e-23) + 5.2144154673581e-20) + 1.07969798611464e-18) + 5.31383441927866e-18)) + fs(fs(fs(fs(fs(5.0345082751012e-30fs + 1.05561747816346e-26) + 2.55142258602227e-22) + 1.48648313435063e-19) + 3.76182116601294e-18) + 3.09198451037471e-17) + 8.05126427163433e-17; a1 = Wah(Wahpow(fs,2)(pow(fs,2)(fs(2.57907405349142e-28fs + 1.27749426666297e-25) + 1.7800778559222e-22) - 7.01426143344783e-19) + fs(fs(pow(fs,2)(fs(-1.0332413167573e-27fs - 4.5813559411368e-25) - 1.95367135201224e-22) + 2.15939597222928e-18) + 2.12553376771146e-17)) + fs(fs(pow(fs,2)(fs(-3.02070496506072e-29fs - 4.22246991265385e-26) - 5.10284517204454e-22) + 7.52364233202588e-18) + 1.23679380414989e-16) + 4.8307585629806e-16; a2 = Wah(Wahpow(fs,2)(fs(fs(fs(-6.44768513372856e-28fs - 1.59686783332872e-25) + 8.90038927961101e-23) + 1.46112676135974e-19) + 3.50713071672392e-19) + fs(fs(fs(fs(fs(2.58310329189325e-27fs + 5.726694926421e-25) - 9.7683567600612e-23) - 1.56432464020743e-19) - 1.07969798611464e-18) + 2.65691720963933e-17)) + fs(fs(fs(fs(fs(7.55176241265181e-29fs + 5.27808739081731e-26) - 2.55142258602227e-22) - 4.4594494030519e-19) - 3.76182116601294e-18) + 1.54599225518736e-16) + 1.20768964074515e-15; a3 = Wah(Wahpow(fs,2)(pow(fs,2)(8.59691351163808e-28pow(fs,2) - 3.5601557118444e-22) + 1.40285228668957e-18) + pow(fs,2)(pow(fs,2)(-3.44413772252433e-27pow(fs,2) + 3.90734270402448e-22) - 4.31879194445857e-18)) + pow(fs,2)(pow(fs,2)(-1.00690165502024e-28pow(fs,2) + 1.02056903440891e-21) - 1.50472846640518e-17) + 1.61025285432687e-15; a4 = Wah(Wahpow(fs,2)(fs(fs(fs(-6.44768513372856e-28fs + 1.59686783332872e-25) + 8.90038927961101e-23) - 1.46112676135974e-19) + 3.50713071672392e-19) + fs(fs(fs(fs(fs(2.58310329189325e-27fs - 5.726694926421e-25) - 9.7683567600612e-23) + 1.56432464020743e-19) - 1.07969798611464e-18) - 2.65691720963933e-17)) + fs(fs(fs(fs(fs(7.55176241265181e-29fs - 5.27808739081731e-26) - 2.55142258602227e-22) + 4.4594494030519e-19) - 3.76182116601294e-18) - 1.54599225518736e-16) + 1.20768964074515e-15; a5 = Wah(Wahpow(fs,2)(pow(fs,2)(fs(2.57907405349142e-28fs - 1.27749426666297e-25) + 1.7800778559222e-22) - 7.01426143344783e-19) + fs(fs(pow(fs,2)(fs(-1.0332413167573e-27fs + 4.5813559411368e-25) - 1.95367135201224e-22) + 2.15939597222928e-18) - 2.12553376771146e-17)) + fs(fs(pow(fs,2)(fs(-3.02070496506072e-29fs + 4.22246991265385e-26) - 5.10284517204454e-22) + 7.52364233202588e-18) - 1.23679380414989e-16) + 4.8307585629806e-16; a6 = Wah(Wahpow(fs,2)(fs(fs(fs(-4.29845675581904e-29fs + 3.19373566665743e-26) - 8.90038927961101e-23) + 4.87042253786579e-20) - 3.50713071672392e-19) + fs(fs(fs(fs(fs(1.72206886126217e-28fs - 1.1453389852842e-25) + 9.7683567600612e-23) - 5.2144154673581e-20) + 1.07969798611464e-18) - 5.31383441927866e-18)) + fs(fs(fs(fs(fs(5.0345082751012e-30fs - 1.05561747816346e-26) + 2.55142258602227e-22) - 1.48648313435063e-19) + 3.76182116601294e-18) - 3.09198451037471e-17) + 8.05126427163433e-17; }; process = _<:(dry),(*(wet) : fuzz : wah : clip ):>_;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/rolandwah.dsp	faust	generated automatically DO NOT MODIFY! gain = vslider("Gain[name:Gain][tooltip:Gain of the Fuzz Section (dB)]", -12, -40, 4, 0.1) : ba.db2linear : si.smooth(s); clip(x) = 0.4 * (min(0.7514,max(-0.4514,x)));	declare id "rolandwah"; declare name "Roland Double Beat"; declare category "Guitar Effects"; declare shortname "Double Beat"; declare description "Roland Double Beat"; import("stdfaust.lib"); import("trany.lib"); 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); wet = vslider("wet_dry[name:Dry/Wet][tooltip:percentage of processed signal in output signal]", 100, 0, 100, 1) : /(100); dry = 1 - wet; clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; fuzz = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0,b8/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0,a8/a0)) with { shape = (1.1 -Fuzz ) * 20.; atan_v=1.0/atan(shape); Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Fuzzpow(fs,4)(fs(fs(8.60349117319693e-33fs + 7.42470650533226e-26) + 3.80828462584721e-23) + 8.28085042193987e-22) + pow(fs,3)(fs(fs(fs(-2.62267793598193e-32fs - 2.30252524666021e-25) - 1.21809214941527e-22) - 4.47006878788668e-21) - 4.14042521096994e-20); b1 = Fuzzpow(fs,5)(fs(-5.16209470391816e-32fs - 2.9698826021329e-25) - 7.61656925169443e-23) + pow(fs,3)(pow(fs,2)(fs(1.57360676158916e-31fs + 9.21010098664083e-25) + 2.43618429883054e-22) - 8.28085042193987e-20); b2 = Fuzzpow(fs,4)(fs(fs(1.20448876424757e-31fs + 2.9698826021329e-25) - 7.61656925169443e-23) - 3.31234016877595e-21) + pow(fs,3)(fs(fs(fs(-3.6717491103747e-31fs - 9.21010098664083e-25) + 2.43618429883054e-22) + 1.78802751515467e-20) + 8.28085042193987e-20); b3 = Fuzzpow(fs,5)(fs(-1.20448876424757e-31fs + 2.9698826021329e-25) + 2.28497077550833e-22) + pow(fs,3)(pow(fs,2)(fs(3.6717491103747e-31fs - 9.21010098664083e-25) - 7.30855289649162e-22) + 2.48425512658196e-19); b4 = Fuzzpow(fs,4)(-7.42470650533226e-25pow(fs,2) + 4.96851025316392e-21) + pow(fs,4)(2.30252524666021e-24pow(fs,2) - 2.68204127273201e-20); b5 = Fuzzpow(fs,5)(fs(1.20448876424757e-31fs + 2.9698826021329e-25) - 2.28497077550833e-22) + pow(fs,3)(pow(fs,2)(fs(-3.6717491103747e-31fs - 9.21010098664083e-25) + 7.30855289649162e-22) - 2.48425512658196e-19); b6 = Fuzzpow(fs,4)(fs(fs(-1.20448876424757e-31fs + 2.9698826021329e-25) + 7.61656925169443e-23) - 3.31234016877595e-21) + pow(fs,3)(fs(fs(fs(3.6717491103747e-31fs - 9.21010098664083e-25) - 2.43618429883054e-22) + 1.78802751515467e-20) - 8.28085042193987e-20); b7 = Fuzzpow(fs,5)(fs(5.16209470391816e-32fs - 2.9698826021329e-25) + 7.61656925169443e-23) + pow(fs,3)(pow(fs,2)(fs(-1.57360676158916e-31fs + 9.21010098664083e-25) - 2.43618429883054e-22) + 8.28085042193987e-20); b8 = Fuzzpow(fs,4)(fs(fs(-8.60349117319693e-33fs + 7.42470650533226e-26) - 3.80828462584721e-23) + 8.28085042193987e-22) + pow(fs,3)(fs(fs(fs(2.62267793598193e-32fs - 2.30252524666021e-25) + 1.21809214941527e-22) - 4.47006878788668e-21) + 4.14042521096994e-20); a0 = Fuzzfs(fs(fs(fs(fs(fs(fs(9.64198439050231e-55fs - 5.76952472985784e-34) - 1.84629565839962e-29) - 5.28116058056682e-26) - 3.4488417342687e-23) - 6.7753494863719e-21) - 1.6046797673707e-19) - 6.03074438986166e-19) + fs(fs(fs(fs(fs(fs(fs(-1.08067210692624e-54fs + 1.6917880698614e-33) + 2.29812823706864e-29) + 5.73340871630524e-26) + 3.80795187898005e-23) + 8.56555972538848e-21) + 5.00114968075696e-19) + 8.62923424920947e-18) + 3.01537219493083e-17; a1 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-7.71358751240185e-54fs + 3.46171483791471e-33) + 7.38518263359847e-29) + 1.05623211611336e-25) - 1.35506989727438e-20) - 6.41871906948282e-19) - 3.618446633917e-18) + fs(fs(fs(pow(fs,2)(fs(fs(8.64537685540996e-54fs - 1.01507284191684e-32) - 9.19251294827458e-29) - 1.14668174326105e-25) + 1.7131119450777e-20) + 2.00045987230279e-18) + 5.17754054952568e-17) + 2.41229775594467e-16; a2 = Fuzzfs(fs(fs(fs(fs(fs(fs(2.69975562934065e-53fs - 8.07733462180098e-33) - 7.38518263359847e-29) + 1.05623211611336e-25) + 1.37953669370748e-22) + 1.35506989727438e-20) - 6.41871906948282e-19) - 8.44304214580633e-18) + fs(fs(fs(fs(fs(fs(fs(-3.02588189939348e-53fs + 2.36850329780596e-32) + 9.19251294827458e-29) - 1.14668174326105e-25) - 1.52318075159202e-22) - 1.7131119450777e-20) + 2.00045987230279e-18) + 1.20809279488933e-16) + 8.44304214580633e-16; a3 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-5.3995112586813e-53fs + 8.07733462180098e-33) - 7.38518263359847e-29) - 3.16869634834009e-25) + 4.06520969182314e-20) + 6.41871906948282e-19) - 8.44304214580633e-18) + fs(fs(fs(pow(fs,2)(fs(fs(6.05176379878697e-53fs - 2.36850329780596e-32) + 9.19251294827458e-29) + 3.44004522978315e-25) - 5.13933583523309e-20) - 2.00045987230279e-18) + 1.20809279488933e-16) + 1.68860842916127e-15; a4 = Fuzzpow(fs,2)(pow(fs,2)(pow(fs,2)(6.74938907335162e-53pow(fs,2) + 1.84629565839962e-28) - 2.06930504056122e-22) + 1.6046797673707e-18) + pow(fs,2)(pow(fs,2)(pow(fs,2)(-7.56470474848371e-53pow(fs,2) - 2.29812823706864e-28) + 2.28477112738803e-22) - 5.00114968075697e-18) + 2.11076053645158e-15; a5 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-5.3995112586813e-53fs - 8.07733462180098e-33) - 7.38518263359847e-29) + 3.16869634834009e-25) - 4.06520969182314e-20) + 6.41871906948282e-19) + 8.44304214580633e-18) + fs(fs(fs(pow(fs,2)(fs(fs(6.05176379878697e-53fs + 2.36850329780596e-32) + 9.19251294827458e-29) - 3.44004522978315e-25) + 5.13933583523309e-20) - 2.00045987230279e-18) - 1.20809279488933e-16) + 1.68860842916127e-15; a6 = Fuzzfs(fs(fs(fs(fs(fs(fs(2.69975562934065e-53fs + 8.07733462180098e-33) - 7.38518263359847e-29) - 1.05623211611336e-25) + 1.37953669370748e-22) - 1.35506989727438e-20) - 6.41871906948282e-19) + 8.44304214580633e-18) + fs(fs(fs(fs(fs(fs(fs(-3.02588189939348e-53fs - 2.36850329780596e-32) + 9.19251294827458e-29) + 1.14668174326105e-25) - 1.52318075159202e-22) + 1.7131119450777e-20) + 2.00045987230279e-18) - 1.20809279488933e-16) + 8.44304214580633e-16; a7 = Fuzzfs(fs(fs(pow(fs,2)(fs(fs(-7.71358751240185e-54fs - 3.46171483791471e-33) + 7.38518263359847e-29) - 1.05623211611336e-25) + 1.35506989727438e-20) - 6.41871906948282e-19) + 3.618446633917e-18) + fs(fs(fs(pow(fs,2)(fs(fs(8.64537685540996e-54fs + 1.01507284191684e-32) - 9.19251294827458e-29) + 1.14668174326105e-25) - 1.7131119450777e-20) + 2.00045987230279e-18) - 5.17754054952568e-17) + 2.41229775594467e-16; a8 = Fuzzfs(fs(fs(fs(fs(fs(fs(9.64198439050231e-55fs + 5.76952472985784e-34) - 1.84629565839962e-29) + 5.28116058056682e-26) - 3.4488417342687e-23) + 6.7753494863719e-21) - 1.6046797673707e-19) + 6.03074438986166e-19) + fs(fs(fs(fs(fs(fs(fs(-1.08067210692624e-54fs - 1.6917880698614e-33) + 2.29812823706864e-29) - 5.73340871630524e-26) + 3.80795187898005e-23) - 8.56555972538848e-21) + 5.00114968075696e-19) - 8.62923424920947e-18) + 3.01537219493083e-17; }; wah(x) = x : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { Wah1 = (x : an.amp_follower_ud(0.01,0.1) : min(0.9) : max(0.09) ); Wah2 = vslider("Wah[name:Wah]", 0.5, 0.02, 1, 0.01) : Inverted(1) : LogPot(1) : si.smooth(s); sl = checkbox("mode[enum:manual\|auto\|alien]"); Wah3 = (os.oscs(freq) + 1) / 2 : min(0.9) : max(0.09) : Inverted(1) with { freq = vslider("lfobpm[name:Alien Freq][tooltip:LFO in Beats per Minute]",24,24,360,1)/60; }; Wah = select3(sl, Wah2, Wah1, Wah3); b0 = Wah(Wahpow(fs,3)(fs(fs(7.18082556296232e-31fs + 1.2196809675607e-26) + 1.81635217972948e-23) + 9.8345184835125e-22) + pow(fs,2)(fs(fs(fs(-7.16633351212421e-31fs - 1.22012125074374e-26) - 1.83126711766163e-23) - 1.21592229012527e-21) - 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-9.65744972703433e-31fs - 3.08822188644282e-26) - 4.82624719521696e-23) - 2.88264605310366e-21) - 1.49007855810795e-20); b1 = Wah(Wahpow(fs,4)(fs(-4.30849533777739e-30fs - 4.87872387024281e-26) - 3.63270435945895e-23) + pow(fs,2)(pow(fs,2)(fs(4.29980010727452e-30fs + 4.88048500297496e-26) + 3.66253423532326e-23) - 2.5217032663318e-20)) + pow(fs,2)(pow(fs,2)(fs(5.7944698362206e-30fs + 1.23528875457713e-25) + 9.65249439043393e-23) - 2.98015711621591e-20); b2 = Wah(Wahpow(fs,3)(fs(fs(1.07712383444435e-29fs + 6.09840483780351e-26) - 1.81635217972948e-23) - 2.95035554505375e-21) + pow(fs,2)(fs(fs(fs(-1.07495002681863e-29fs - 6.1006062537187e-26) + 1.83126711766163e-23) + 3.64776687037582e-21) + 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-1.44861745905515e-29fs - 1.54411094322141e-25) + 4.82624719521696e-23) + 8.64793815931099e-21) + 1.49007855810795e-20); b3 = Wah(Wahpow(fs,4)(-1.43616511259246e-29pow(fs,2) + 7.2654087189179e-23) + pow(fs,2)(pow(fs,2)(1.43326670242484e-29pow(fs,2) - 7.32506847064652e-23) + 5.0434065326636e-20)) + pow(fs,2)(pow(fs,2)(1.93148994540687e-29pow(fs,2) - 1.93049887808679e-22) + 5.96031423243182e-20); b4 = Wah(Wahpow(fs,3)(fs(fs(1.07712383444435e-29fs - 6.09840483780351e-26) - 1.81635217972948e-23) + 2.95035554505375e-21) + pow(fs,2)(fs(fs(fs(-1.07495002681863e-29fs + 6.1006062537187e-26) + 1.83126711766163e-23) - 3.64776687037582e-21) + 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-1.44861745905515e-29fs + 1.54411094322141e-25) + 4.82624719521696e-23) - 8.64793815931099e-21) + 1.49007855810795e-20); b5 = Wah(Wahpow(fs,4)(fs(-4.30849533777739e-30fs + 4.87872387024281e-26) - 3.63270435945895e-23) + pow(fs,2)(pow(fs,2)(fs(4.29980010727452e-30fs - 4.88048500297496e-26) + 3.66253423532326e-23) - 2.5217032663318e-20)) + pow(fs,2)(pow(fs,2)(fs(5.7944698362206e-30fs - 1.23528875457713e-25) + 9.65249439043393e-23) - 2.98015711621591e-20); b6 = Wah(Wahpow(fs,3)(fs(fs(7.18082556296232e-31fs - 1.2196809675607e-26) + 1.81635217972948e-23) - 9.8345184835125e-22) + pow(fs,2)(fs(fs(fs(-7.16633351212421e-31fs + 1.22012125074374e-26) - 1.83126711766163e-23) + 1.21592229012527e-21) - 1.2608516331659e-20)) + pow(fs,2)(fs(fs(fs(-9.65744972703433e-31fs + 3.08822188644282e-26) - 4.82624719521696e-23) + 2.88264605310366e-21) - 1.49007855810795e-20); a0 = Wah(Wahpow(fs,2)(fs(fs(fs(-4.29845675581904e-29fs - 3.19373566665743e-26) - 8.90038927961101e-23) - 4.87042253786579e-20) - 3.50713071672392e-19) + fs(fs(fs(fs(fs(1.72206886126217e-28fs + 1.1453389852842e-25) + 9.7683567600612e-23) + 5.2144154673581e-20) + 1.07969798611464e-18) + 5.31383441927866e-18)) + fs(fs(fs(fs(fs(5.0345082751012e-30fs + 1.05561747816346e-26) + 2.55142258602227e-22) + 1.48648313435063e-19) + 3.76182116601294e-18) + 3.09198451037471e-17) + 8.05126427163433e-17; a1 = Wah(Wahpow(fs,2)(pow(fs,2)(fs(2.57907405349142e-28fs + 1.27749426666297e-25) + 1.7800778559222e-22) - 7.01426143344783e-19) + fs(fs(pow(fs,2)(fs(-1.0332413167573e-27fs - 4.5813559411368e-25) - 1.95367135201224e-22) + 2.15939597222928e-18) + 2.12553376771146e-17)) + fs(fs(pow(fs,2)(fs(-3.02070496506072e-29fs - 4.22246991265385e-26) - 5.10284517204454e-22) + 7.52364233202588e-18) + 1.23679380414989e-16) + 4.8307585629806e-16; a2 = Wah(Wahpow(fs,2)(fs(fs(fs(-6.44768513372856e-28fs - 1.59686783332872e-25) + 8.90038927961101e-23) + 1.46112676135974e-19) + 3.50713071672392e-19) + fs(fs(fs(fs(fs(2.58310329189325e-27fs + 5.726694926421e-25) - 9.7683567600612e-23) - 1.56432464020743e-19) - 1.07969798611464e-18) + 2.65691720963933e-17)) + fs(fs(fs(fs(fs(7.55176241265181e-29fs + 5.27808739081731e-26) - 2.55142258602227e-22) - 4.4594494030519e-19) - 3.76182116601294e-18) + 1.54599225518736e-16) + 1.20768964074515e-15; a3 = Wah(Wahpow(fs,2)(pow(fs,2)(8.59691351163808e-28pow(fs,2) - 3.5601557118444e-22) + 1.40285228668957e-18) + pow(fs,2)(pow(fs,2)(-3.44413772252433e-27pow(fs,2) + 3.90734270402448e-22) - 4.31879194445857e-18)) + pow(fs,2)(pow(fs,2)(-1.00690165502024e-28pow(fs,2) + 1.02056903440891e-21) - 1.50472846640518e-17) + 1.61025285432687e-15; a4 = Wah(Wahpow(fs,2)(fs(fs(fs(-6.44768513372856e-28fs + 1.59686783332872e-25) + 8.90038927961101e-23) - 1.46112676135974e-19) + 3.50713071672392e-19) + fs(fs(fs(fs(fs(2.58310329189325e-27fs - 5.726694926421e-25) - 9.7683567600612e-23) + 1.56432464020743e-19) - 1.07969798611464e-18) - 2.65691720963933e-17)) + fs(fs(fs(fs(fs(7.55176241265181e-29fs - 5.27808739081731e-26) - 2.55142258602227e-22) + 4.4594494030519e-19) - 3.76182116601294e-18) - 1.54599225518736e-16) + 1.20768964074515e-15; a5 = Wah(Wahpow(fs,2)(pow(fs,2)(fs(2.57907405349142e-28fs - 1.27749426666297e-25) + 1.7800778559222e-22) - 7.01426143344783e-19) + fs(fs(pow(fs,2)(fs(-1.0332413167573e-27fs + 4.5813559411368e-25) - 1.95367135201224e-22) + 2.15939597222928e-18) - 2.12553376771146e-17)) + fs(fs(pow(fs,2)(fs(-3.02070496506072e-29fs + 4.22246991265385e-26) - 5.10284517204454e-22) + 7.52364233202588e-18) - 1.23679380414989e-16) + 4.8307585629806e-16; a6 = Wah(Wahpow(fs,2)(fs(fs(fs(-4.29845675581904e-29fs + 3.19373566665743e-26) - 8.90038927961101e-23) + 4.87042253786579e-20) - 3.50713071672392e-19) + fs(fs(fs(fs(fs(1.72206886126217e-28fs - 1.1453389852842e-25) + 9.7683567600612e-23) - 5.2144154673581e-20) + 1.07969798611464e-18) - 5.31383441927866e-18)) + fs(fs(fs(fs(fs(5.0345082751012e-30fs - 1.05561747816346e-26) + 2.55142258602227e-22) - 1.48648313435063e-19) + 3.76182116601294e-18) - 3.09198451037471e-17) + 8.05126427163433e-17; }; process = _<:(dry),(*(wet) : fuzz : wah : clip ):>_;
bf7fe1d8976ef01229e25d8d454046179baf70d88051f1095313d693583a1333	brummer10/guitarix	cstb.dsp	// generated automatically // DO NOT MODIFY! declare id "cstbt1"; declare name "Colorsound Tone Blender"; declare category "Fuzz"; declare shortname "CS Tone"; declare description "Colorsound Tone Blender"; declare insert_p "tranyclipper"; declare drywetbox "true"; import("stdfaust.lib"); import("trany.lib"); process = 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 { 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); //clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ; Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Tone = vslider("Tone[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Attack = vslider("Attack[name:Attack]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Attack(Attack(Levelpow(fs,4)(9.05450478550043e-24fs + 1.42343600786794e-21) + pow(fs,4)(9.05450478550042e-27fs + 1.42343600786794e-24)) + Levelpow(fs,4)(-9.09472774076109e-22fs - 1.42975935787076e-19) + pow(fs,4)(-9.09472774076109e-25fs - 1.42975935787076e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-7.65662400320161e-24fs + 3.10739610519547e-20) + pow(fs,4)(-7.65662400320161e-27fs + 3.10739610519547e-23)) + Levelpow(fs,4)(7.69063713280111e-22fs - 3.12120013506539e-18) + pow(fs,4)(7.69063713280111e-25fs - 3.1212001350654e-21)) + Levelpow(fs,3)(8.18152886468203e-20fs - 3.32042567560148e-16) + pow(fs,3)(8.18152886468203e-23fs - 3.32042567560148e-19)) + Levelpow(fs,3)(-9.67524227740542e-20fs - 1.52102059347953e-17) + pow(fs,3)(-9.67524227740541e-23fs - 1.52102059347953e-20); b1 = Attack(Attack(Levelpow(fs,4)(-4.52725239275021e-23fs - 4.27030802360382e-21) + pow(fs,4)(-4.52725239275021e-26fs - 4.27030802360382e-24)) + Levelpow(fs,4)(4.54736387038055e-21fs + 4.28927807361227e-19) + pow(fs,4)(4.54736387038055e-24fs + 4.28927807361227e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(3.82831200160081e-23fs - 9.3221883155864e-20) + pow(fs,4)(3.82831200160081e-26fs - 9.3221883155864e-23)) + Levelpow(fs,4)(-3.84531856640056e-21fs + 9.36360040519619e-18) + pow(fs,4)(-3.84531856640056e-24fs + 9.36360040519619e-21)) + Levelpow(fs,3)(-2.45445865940461e-19fs + 3.32042567560148e-16) + pow(fs,3)(-2.45445865940461e-22fs + 3.32042567560148e-19)) + Levelpow(fs,3)(2.90257268322162e-19fs + 1.52102059347953e-17) + pow(fs,3)(2.90257268322162e-22fs + 1.52102059347953e-20); b2 = Attack(Attack(Levelpow(fs,4)(9.05450478550042e-23fs + 2.84687201573588e-21) + pow(fs,4)(9.05450478550042e-26fs + 2.84687201573588e-24)) + Levelpow(fs,4)(-9.09472774076109e-21fs - 2.85951871574151e-19) + pow(fs,4)(-9.09472774076109e-24fs - 2.85951871574151e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-7.65662400320161e-23fs + 6.21479221039094e-20) + pow(fs,4)(-7.65662400320161e-26fs + 6.21479221039094e-23)) + Levelpow(fs,4)(7.69063713280111e-21fs - 6.24240027013079e-18) + pow(fs,4)(7.69063713280111e-24fs - 6.24240027013079e-21)) + Levelpow(fs,3)(1.63630577293641e-19fs + 6.64085135120297e-16) + pow(fs,3)(1.63630577293641e-22fs + 6.64085135120297e-19)) + Levelpow(fs,3)(-1.93504845548108e-19fs + 3.04204118695905e-17) + pow(fs,3)(-1.93504845548108e-22fs + 3.04204118695905e-20); b3 = Attack(Attack(Levelpow(fs,4)(-9.05450478550042e-23fs + 2.84687201573588e-21) + pow(fs,4)(-9.05450478550042e-26fs + 2.84687201573588e-24)) + Levelpow(fs,4)(9.09472774076109e-21fs - 2.85951871574151e-19) + pow(fs,4)(9.09472774076109e-24fs - 2.85951871574151e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(7.65662400320161e-23fs + 6.21479221039094e-20) + pow(fs,4)(7.65662400320161e-26fs + 6.21479221039094e-23)) + Levelpow(fs,4)(-7.69063713280111e-21fs - 6.24240027013079e-18) + pow(fs,4)(-7.69063713280111e-24fs - 6.24240027013079e-21)) + Levelpow(fs,3)(1.63630577293641e-19fs - 6.64085135120297e-16) + pow(fs,3)(1.63630577293641e-22fs - 6.64085135120297e-19)) + Levelpow(fs,3)(-1.93504845548108e-19fs - 3.04204118695905e-17) + pow(fs,3)(-1.93504845548108e-22fs - 3.04204118695905e-20); b4 = Attack(Attack(Levelpow(fs,4)(4.52725239275021e-23fs - 4.27030802360382e-21) + pow(fs,4)(4.52725239275021e-26fs - 4.27030802360382e-24)) + Levelpow(fs,4)(-4.54736387038055e-21fs + 4.28927807361227e-19) + pow(fs,4)(-4.54736387038055e-24fs + 4.28927807361227e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-3.82831200160081e-23fs - 9.3221883155864e-20) + pow(fs,4)(-3.82831200160081e-26fs - 9.3221883155864e-23)) + Levelpow(fs,4)(3.84531856640056e-21fs + 9.36360040519619e-18) + pow(fs,4)(3.84531856640056e-24fs + 9.36360040519619e-21)) + Levelpow(fs,3)(-2.45445865940461e-19fs - 3.32042567560148e-16) + pow(fs,3)(-2.45445865940461e-22fs - 3.32042567560148e-19)) + Levelpow(fs,3)(2.90257268322162e-19fs - 1.52102059347953e-17) + pow(fs,3)(2.90257268322162e-22fs - 1.52102059347953e-20); b5 = Attack(Attack(Levelpow(fs,4)(-9.05450478550043e-24fs + 1.42343600786794e-21) + pow(fs,4)(-9.05450478550042e-27fs + 1.42343600786794e-24)) + Levelpow(fs,4)(9.09472774076109e-22fs - 1.42975935787076e-19) + pow(fs,4)(9.09472774076109e-25fs - 1.42975935787076e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(7.65662400320161e-24fs + 3.10739610519547e-20) + pow(fs,4)(7.65662400320161e-27fs + 3.10739610519547e-23)) + Levelpow(fs,4)(-7.69063713280111e-22fs - 3.12120013506539e-18) + pow(fs,4)(-7.69063713280111e-25fs - 3.1212001350654e-21)) + Levelpow(fs,3)(8.18152886468203e-20fs + 3.32042567560148e-16) + pow(fs,3)(8.18152886468203e-23fs + 3.32042567560148e-19)) + Levelpow(fs,3)(-9.67524227740542e-20fs + 1.52102059347953e-17) + pow(fs,3)(-9.67524227740541e-23fs + 1.52102059347953e-20); a0 = Attack(Attackfs(fs(fs(fs(-7.2677502129384e-24fs - 1.11622970892275e-19) - 5.44781387848185e-17) - 1.11859678983445e-15) - 2.16342879110166e-15) + fs(fs(fs(fs(7.40213650437857e-24fs + 1.13632945852435e-19) + 5.46818779890163e-17) + 1.12211896081664e-15) + 2.17010750008645e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-1.70008798003816e-23fs - 2.35724702889288e-19) - 1.14989728218871e-16) - 2.52121869652107e-15) - 4.91241778179305e-15) + fs(fs(fs(fs(1.73152391441475e-23fs + 2.39957070065024e-19) + 1.15424860004575e-16) + 2.52915851496938e-15) + 4.92758287939703e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(1.72098866161537e-23fs + 2.43964228204556e-19) + 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(-1.75281106567011e-23fs - 2.48347397038037e-19) - 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(-1.86469262305331e-21fs - 2.64199358551104e-17) - 1.21896224477789e-14) - 2.62105472308353e-14)) + fs(fs(fs(1.8420467174625e-21fs + 2.55273478792579e-17) + 1.22792404260186e-14) + 2.69059416486104e-13) + 5.24210944616705e-13) + fs(fs(fs(7.8746133025304e-22fs + 1.20886112608973e-17) + 5.81722106266131e-15) + 1.19374357533685e-13) + 2.30862500009197e-13; a1 = Attack(Attackfs(fs(fs(fs(3.6338751064692e-23fs + 3.34868912676825e-19) + 5.44781387848185e-17) - 1.11859678983445e-15) - 6.49028637330497e-15) + fs(fs(fs(fs(-3.70106825218929e-23fs - 3.40898837557304e-19) - 5.46818779890163e-17) + 1.12211896081664e-15) + 6.51032250025936e-15)) + Tone(Attack(Attackfs(fs(fs(fs(8.50043990019081e-23fs + 7.07174108667865e-19) + 1.14989728218871e-16) - 2.52121869652107e-15) - 1.47372533453791e-14) + fs(fs(fs(fs(-8.65761957207373e-23fs - 7.19871210195072e-19) - 1.15424860004575e-16) + 2.52915851496938e-15) + 1.47827486381911e-14)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-8.60494330807685e-23fs - 7.31892684613668e-19) - 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(8.76405532835057e-23fs + 7.45042191114112e-19) + 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(5.59407786915994e-21fs + 2.64199358551104e-17) - 1.21896224477789e-14) - 7.86316416925058e-14)) + fs(fs(fs(-5.52614015238749e-21fs - 2.55273478792579e-17) + 1.22792404260186e-14) + 8.07178249458312e-13) + 2.62105472308353e-12) + fs(fs(fs(-2.36238399075912e-21fs - 1.20886112608973e-17) + 5.81722106266131e-15) + 3.58123072601056e-13) + 1.15431250004598e-12; a2 = Attack(Attackfs(fs(fs(fs(-7.2677502129384e-23fs - 2.2324594178455e-19) + 1.08956277569637e-16) + 2.2371935796689e-15) - 4.32685758220331e-15) + fs(fs(fs(fs(7.40213650437857e-23fs + 2.27265891704869e-19) - 1.09363755978033e-16) - 2.24423792163328e-15) + 4.3402150001729e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-1.70008798003816e-22fs - 4.71449405778577e-19) + 2.29979456437742e-16) + 5.04243739304215e-15) - 9.82483556358609e-15) + fs(fs(fs(fs(1.73152391441475e-22fs + 4.79914140130048e-19) - 2.3084972000915e-16) - 5.05831702993876e-15) + 9.85516575879406e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(1.72098866161537e-22fs + 4.87928456409112e-19) - 2.28444015943865e-16) - 4.91241778179304e-16) + pow(fs,2)(fs(fs(-1.75281106567011e-22fs - 4.96694794076075e-19) + 2.29164902018244e-16) + 4.92758287939703e-16)) + fs(fs(fs(-3.72938524610662e-21fs + 5.28398717102207e-17) + 2.43792448955579e-14) - 5.24210944616705e-14)) + fs(fs(fs(3.68409343492499e-21fs - 5.10546957585158e-17) - 2.45584808520372e-14) + 5.38118832972208e-13) + 5.24210944616705e-12) + fs(fs(fs(1.57492266050608e-21fs - 2.41772225217946e-17) - 1.16344421253226e-14) + 2.3874871506737e-13) + 2.30862500009197e-12; a3 = Attack(Attackfs(fs(fs(fs(7.2677502129384e-23fs - 2.2324594178455e-19) - 1.08956277569637e-16) + 2.2371935796689e-15) + 4.32685758220331e-15) + fs(fs(fs(fs(-7.40213650437857e-23fs + 2.27265891704869e-19) + 1.09363755978033e-16) - 2.24423792163328e-15) - 4.3402150001729e-15)) + Tone(Attack(Attackfs(fs(fs(fs(1.70008798003816e-22fs - 4.71449405778577e-19) - 2.29979456437742e-16) + 5.04243739304215e-15) + 9.82483556358609e-15) + fs(fs(fs(fs(-1.73152391441475e-22fs + 4.79914140130048e-19) + 2.3084972000915e-16) - 5.05831702993876e-15) - 9.85516575879406e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-1.72098866161537e-22fs + 4.87928456409112e-19) + 2.28444015943865e-16) - 4.91241778179304e-16) + pow(fs,2)(fs(fs(1.75281106567011e-22fs - 4.96694794076075e-19) - 2.29164902018244e-16) + 4.92758287939703e-16)) + fs(fs(fs(-3.72938524610662e-21fs - 5.28398717102207e-17) + 2.43792448955579e-14) + 5.24210944616705e-14)) + fs(fs(fs(3.68409343492499e-21fs + 5.10546957585158e-17) - 2.45584808520372e-14) - 5.38118832972208e-13) + 5.24210944616705e-12) + fs(fs(fs(1.57492266050608e-21fs + 2.41772225217946e-17) - 1.16344421253226e-14) - 2.3874871506737e-13) + 2.30862500009197e-12; a4 = Attack(Attackfs(fs(fs(fs(-3.6338751064692e-23fs + 3.34868912676825e-19) - 5.44781387848185e-17) - 1.11859678983445e-15) + 6.49028637330497e-15) + fs(fs(fs(fs(3.70106825218929e-23fs - 3.40898837557304e-19) + 5.46818779890163e-17) + 1.12211896081664e-15) - 6.51032250025936e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-8.50043990019081e-23fs + 7.07174108667865e-19) - 1.14989728218871e-16) - 2.52121869652107e-15) + 1.47372533453791e-14) + fs(fs(fs(fs(8.65761957207373e-23fs - 7.19871210195072e-19) + 1.15424860004575e-16) + 2.52915851496938e-15) - 1.47827486381911e-14)) + Tone(Attack(Attackpow(fs,2)(fs(fs(8.60494330807685e-23fs - 7.31892684613668e-19) + 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(-8.76405532835057e-23fs + 7.45042191114112e-19) - 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(5.59407786915994e-21fs - 2.64199358551104e-17) - 1.21896224477789e-14) + 7.86316416925058e-14)) + fs(fs(fs(-5.52614015238749e-21fs + 2.55273478792579e-17) + 1.22792404260186e-14) - 8.07178249458312e-13) + 2.62105472308353e-12) + fs(fs(fs(-2.36238399075912e-21fs + 1.20886112608973e-17) + 5.81722106266131e-15) - 3.58123072601056e-13) + 1.15431250004598e-12; a5 = Attack(Attackfs(fs(fs(fs(7.2677502129384e-24fs - 1.11622970892275e-19) + 5.44781387848185e-17) - 1.11859678983445e-15) + 2.16342879110166e-15) + fs(fs(fs(fs(-7.40213650437857e-24fs + 1.13632945852435e-19) - 5.46818779890163e-17) + 1.12211896081664e-15) - 2.17010750008645e-15)) + Tone(Attack(Attackfs(fs(fs(fs(1.70008798003816e-23fs - 2.35724702889288e-19) + 1.14989728218871e-16) - 2.52121869652107e-15) + 4.91241778179305e-15) + fs(fs(fs(fs(-1.73152391441475e-23fs + 2.39957070065024e-19) - 1.15424860004575e-16) + 2.52915851496938e-15) - 4.92758287939703e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-1.72098866161537e-23fs + 2.43964228204556e-19) - 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(1.75281106567011e-23fs - 2.48347397038037e-19) + 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(-1.86469262305331e-21fs + 2.64199358551104e-17) - 1.21896224477789e-14) + 2.62105472308353e-14)) + fs(fs(fs(1.8420467174625e-21fs - 2.55273478792579e-17) + 1.22792404260186e-14) - 2.69059416486104e-13) + 5.24210944616705e-13) + fs(fs(fs(7.8746133025304e-22fs - 1.20886112608973e-17) + 5.81722106266131e-15) - 1.19374357533685e-13) + 2.30862500009197e-13; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/cstb.dsp	faust	generated automatically DO NOT MODIFY! clip = tranystage(TB_KT88_68k,86.0,2700.0,5.562895) : tranystage(TB_KT88_68k,86.0,2700.0,5.562895) ;	declare id "cstbt1"; declare name "Colorsound Tone Blender"; declare category "Fuzz"; declare shortname "CS Tone"; declare description "Colorsound Tone Blender"; declare insert_p "tranyclipper"; declare drywetbox "true"; import("stdfaust.lib"); import("trany.lib"); process = 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 { 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); Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Tone = vslider("Tone[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Attack = vslider("Attack[name:Attack]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Attack(Attack(Levelpow(fs,4)(9.05450478550043e-24fs + 1.42343600786794e-21) + pow(fs,4)(9.05450478550042e-27fs + 1.42343600786794e-24)) + Levelpow(fs,4)(-9.09472774076109e-22fs - 1.42975935787076e-19) + pow(fs,4)(-9.09472774076109e-25fs - 1.42975935787076e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-7.65662400320161e-24fs + 3.10739610519547e-20) + pow(fs,4)(-7.65662400320161e-27fs + 3.10739610519547e-23)) + Levelpow(fs,4)(7.69063713280111e-22fs - 3.12120013506539e-18) + pow(fs,4)(7.69063713280111e-25fs - 3.1212001350654e-21)) + Levelpow(fs,3)(8.18152886468203e-20fs - 3.32042567560148e-16) + pow(fs,3)(8.18152886468203e-23fs - 3.32042567560148e-19)) + Levelpow(fs,3)(-9.67524227740542e-20fs - 1.52102059347953e-17) + pow(fs,3)(-9.67524227740541e-23fs - 1.52102059347953e-20); b1 = Attack(Attack(Levelpow(fs,4)(-4.52725239275021e-23fs - 4.27030802360382e-21) + pow(fs,4)(-4.52725239275021e-26fs - 4.27030802360382e-24)) + Levelpow(fs,4)(4.54736387038055e-21fs + 4.28927807361227e-19) + pow(fs,4)(4.54736387038055e-24fs + 4.28927807361227e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(3.82831200160081e-23fs - 9.3221883155864e-20) + pow(fs,4)(3.82831200160081e-26fs - 9.3221883155864e-23)) + Levelpow(fs,4)(-3.84531856640056e-21fs + 9.36360040519619e-18) + pow(fs,4)(-3.84531856640056e-24fs + 9.36360040519619e-21)) + Levelpow(fs,3)(-2.45445865940461e-19fs + 3.32042567560148e-16) + pow(fs,3)(-2.45445865940461e-22fs + 3.32042567560148e-19)) + Levelpow(fs,3)(2.90257268322162e-19fs + 1.52102059347953e-17) + pow(fs,3)(2.90257268322162e-22fs + 1.52102059347953e-20); b2 = Attack(Attack(Levelpow(fs,4)(9.05450478550042e-23fs + 2.84687201573588e-21) + pow(fs,4)(9.05450478550042e-26fs + 2.84687201573588e-24)) + Levelpow(fs,4)(-9.09472774076109e-21fs - 2.85951871574151e-19) + pow(fs,4)(-9.09472774076109e-24fs - 2.85951871574151e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-7.65662400320161e-23fs + 6.21479221039094e-20) + pow(fs,4)(-7.65662400320161e-26fs + 6.21479221039094e-23)) + Levelpow(fs,4)(7.69063713280111e-21fs - 6.24240027013079e-18) + pow(fs,4)(7.69063713280111e-24fs - 6.24240027013079e-21)) + Levelpow(fs,3)(1.63630577293641e-19fs + 6.64085135120297e-16) + pow(fs,3)(1.63630577293641e-22fs + 6.64085135120297e-19)) + Levelpow(fs,3)(-1.93504845548108e-19fs + 3.04204118695905e-17) + pow(fs,3)(-1.93504845548108e-22fs + 3.04204118695905e-20); b3 = Attack(Attack(Levelpow(fs,4)(-9.05450478550042e-23fs + 2.84687201573588e-21) + pow(fs,4)(-9.05450478550042e-26fs + 2.84687201573588e-24)) + Levelpow(fs,4)(9.09472774076109e-21fs - 2.85951871574151e-19) + pow(fs,4)(9.09472774076109e-24fs - 2.85951871574151e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(7.65662400320161e-23fs + 6.21479221039094e-20) + pow(fs,4)(7.65662400320161e-26fs + 6.21479221039094e-23)) + Levelpow(fs,4)(-7.69063713280111e-21fs - 6.24240027013079e-18) + pow(fs,4)(-7.69063713280111e-24fs - 6.24240027013079e-21)) + Levelpow(fs,3)(1.63630577293641e-19fs - 6.64085135120297e-16) + pow(fs,3)(1.63630577293641e-22fs - 6.64085135120297e-19)) + Levelpow(fs,3)(-1.93504845548108e-19fs - 3.04204118695905e-17) + pow(fs,3)(-1.93504845548108e-22fs - 3.04204118695905e-20); b4 = Attack(Attack(Levelpow(fs,4)(4.52725239275021e-23fs - 4.27030802360382e-21) + pow(fs,4)(4.52725239275021e-26fs - 4.27030802360382e-24)) + Levelpow(fs,4)(-4.54736387038055e-21fs + 4.28927807361227e-19) + pow(fs,4)(-4.54736387038055e-24fs + 4.28927807361227e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(-3.82831200160081e-23fs - 9.3221883155864e-20) + pow(fs,4)(-3.82831200160081e-26fs - 9.3221883155864e-23)) + Levelpow(fs,4)(3.84531856640056e-21fs + 9.36360040519619e-18) + pow(fs,4)(3.84531856640056e-24fs + 9.36360040519619e-21)) + Levelpow(fs,3)(-2.45445865940461e-19fs - 3.32042567560148e-16) + pow(fs,3)(-2.45445865940461e-22fs - 3.32042567560148e-19)) + Levelpow(fs,3)(2.90257268322162e-19fs - 1.52102059347953e-17) + pow(fs,3)(2.90257268322162e-22fs - 1.52102059347953e-20); b5 = Attack(Attack(Levelpow(fs,4)(-9.05450478550043e-24fs + 1.42343600786794e-21) + pow(fs,4)(-9.05450478550042e-27fs + 1.42343600786794e-24)) + Levelpow(fs,4)(9.09472774076109e-22fs - 1.42975935787076e-19) + pow(fs,4)(9.09472774076109e-25fs - 1.42975935787076e-22)) + Tone(Attack(Attack(Levelpow(fs,4)(7.65662400320161e-24fs + 3.10739610519547e-20) + pow(fs,4)(7.65662400320161e-27fs + 3.10739610519547e-23)) + Levelpow(fs,4)(-7.69063713280111e-22fs - 3.12120013506539e-18) + pow(fs,4)(-7.69063713280111e-25fs - 3.1212001350654e-21)) + Levelpow(fs,3)(8.18152886468203e-20fs + 3.32042567560148e-16) + pow(fs,3)(8.18152886468203e-23fs + 3.32042567560148e-19)) + Levelpow(fs,3)(-9.67524227740542e-20fs + 1.52102059347953e-17) + pow(fs,3)(-9.67524227740541e-23fs + 1.52102059347953e-20); a0 = Attack(Attackfs(fs(fs(fs(-7.2677502129384e-24fs - 1.11622970892275e-19) - 5.44781387848185e-17) - 1.11859678983445e-15) - 2.16342879110166e-15) + fs(fs(fs(fs(7.40213650437857e-24fs + 1.13632945852435e-19) + 5.46818779890163e-17) + 1.12211896081664e-15) + 2.17010750008645e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-1.70008798003816e-23fs - 2.35724702889288e-19) - 1.14989728218871e-16) - 2.52121869652107e-15) - 4.91241778179305e-15) + fs(fs(fs(fs(1.73152391441475e-23fs + 2.39957070065024e-19) + 1.15424860004575e-16) + 2.52915851496938e-15) + 4.92758287939703e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(1.72098866161537e-23fs + 2.43964228204556e-19) + 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(-1.75281106567011e-23fs - 2.48347397038037e-19) - 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(-1.86469262305331e-21fs - 2.64199358551104e-17) - 1.21896224477789e-14) - 2.62105472308353e-14)) + fs(fs(fs(1.8420467174625e-21fs + 2.55273478792579e-17) + 1.22792404260186e-14) + 2.69059416486104e-13) + 5.24210944616705e-13) + fs(fs(fs(7.8746133025304e-22fs + 1.20886112608973e-17) + 5.81722106266131e-15) + 1.19374357533685e-13) + 2.30862500009197e-13; a1 = Attack(Attackfs(fs(fs(fs(3.6338751064692e-23fs + 3.34868912676825e-19) + 5.44781387848185e-17) - 1.11859678983445e-15) - 6.49028637330497e-15) + fs(fs(fs(fs(-3.70106825218929e-23fs - 3.40898837557304e-19) - 5.46818779890163e-17) + 1.12211896081664e-15) + 6.51032250025936e-15)) + Tone(Attack(Attackfs(fs(fs(fs(8.50043990019081e-23fs + 7.07174108667865e-19) + 1.14989728218871e-16) - 2.52121869652107e-15) - 1.47372533453791e-14) + fs(fs(fs(fs(-8.65761957207373e-23fs - 7.19871210195072e-19) - 1.15424860004575e-16) + 2.52915851496938e-15) + 1.47827486381911e-14)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-8.60494330807685e-23fs - 7.31892684613668e-19) - 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(8.76405532835057e-23fs + 7.45042191114112e-19) + 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(5.59407786915994e-21fs + 2.64199358551104e-17) - 1.21896224477789e-14) - 7.86316416925058e-14)) + fs(fs(fs(-5.52614015238749e-21fs - 2.55273478792579e-17) + 1.22792404260186e-14) + 8.07178249458312e-13) + 2.62105472308353e-12) + fs(fs(fs(-2.36238399075912e-21fs - 1.20886112608973e-17) + 5.81722106266131e-15) + 3.58123072601056e-13) + 1.15431250004598e-12; a2 = Attack(Attackfs(fs(fs(fs(-7.2677502129384e-23fs - 2.2324594178455e-19) + 1.08956277569637e-16) + 2.2371935796689e-15) - 4.32685758220331e-15) + fs(fs(fs(fs(7.40213650437857e-23fs + 2.27265891704869e-19) - 1.09363755978033e-16) - 2.24423792163328e-15) + 4.3402150001729e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-1.70008798003816e-22fs - 4.71449405778577e-19) + 2.29979456437742e-16) + 5.04243739304215e-15) - 9.82483556358609e-15) + fs(fs(fs(fs(1.73152391441475e-22fs + 4.79914140130048e-19) - 2.3084972000915e-16) - 5.05831702993876e-15) + 9.85516575879406e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(1.72098866161537e-22fs + 4.87928456409112e-19) - 2.28444015943865e-16) - 4.91241778179304e-16) + pow(fs,2)(fs(fs(-1.75281106567011e-22fs - 4.96694794076075e-19) + 2.29164902018244e-16) + 4.92758287939703e-16)) + fs(fs(fs(-3.72938524610662e-21fs + 5.28398717102207e-17) + 2.43792448955579e-14) - 5.24210944616705e-14)) + fs(fs(fs(3.68409343492499e-21fs - 5.10546957585158e-17) - 2.45584808520372e-14) + 5.38118832972208e-13) + 5.24210944616705e-12) + fs(fs(fs(1.57492266050608e-21fs - 2.41772225217946e-17) - 1.16344421253226e-14) + 2.3874871506737e-13) + 2.30862500009197e-12; a3 = Attack(Attackfs(fs(fs(fs(7.2677502129384e-23fs - 2.2324594178455e-19) - 1.08956277569637e-16) + 2.2371935796689e-15) + 4.32685758220331e-15) + fs(fs(fs(fs(-7.40213650437857e-23fs + 2.27265891704869e-19) + 1.09363755978033e-16) - 2.24423792163328e-15) - 4.3402150001729e-15)) + Tone(Attack(Attackfs(fs(fs(fs(1.70008798003816e-22fs - 4.71449405778577e-19) - 2.29979456437742e-16) + 5.04243739304215e-15) + 9.82483556358609e-15) + fs(fs(fs(fs(-1.73152391441475e-22fs + 4.79914140130048e-19) + 2.3084972000915e-16) - 5.05831702993876e-15) - 9.85516575879406e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-1.72098866161537e-22fs + 4.87928456409112e-19) + 2.28444015943865e-16) - 4.91241778179304e-16) + pow(fs,2)(fs(fs(1.75281106567011e-22fs - 4.96694794076075e-19) - 2.29164902018244e-16) + 4.92758287939703e-16)) + fs(fs(fs(-3.72938524610662e-21fs - 5.28398717102207e-17) + 2.43792448955579e-14) + 5.24210944616705e-14)) + fs(fs(fs(3.68409343492499e-21fs + 5.10546957585158e-17) - 2.45584808520372e-14) - 5.38118832972208e-13) + 5.24210944616705e-12) + fs(fs(fs(1.57492266050608e-21fs + 2.41772225217946e-17) - 1.16344421253226e-14) - 2.3874871506737e-13) + 2.30862500009197e-12; a4 = Attack(Attackfs(fs(fs(fs(-3.6338751064692e-23fs + 3.34868912676825e-19) - 5.44781387848185e-17) - 1.11859678983445e-15) + 6.49028637330497e-15) + fs(fs(fs(fs(3.70106825218929e-23fs - 3.40898837557304e-19) + 5.46818779890163e-17) + 1.12211896081664e-15) - 6.51032250025936e-15)) + Tone(Attack(Attackfs(fs(fs(fs(-8.50043990019081e-23fs + 7.07174108667865e-19) - 1.14989728218871e-16) - 2.52121869652107e-15) + 1.47372533453791e-14) + fs(fs(fs(fs(8.65761957207373e-23fs - 7.19871210195072e-19) + 1.15424860004575e-16) + 2.52915851496938e-15) - 1.47827486381911e-14)) + Tone(Attack(Attackpow(fs,2)(fs(fs(8.60494330807685e-23fs - 7.31892684613668e-19) + 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(-8.76405532835057e-23fs + 7.45042191114112e-19) - 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(5.59407786915994e-21fs - 2.64199358551104e-17) - 1.21896224477789e-14) + 7.86316416925058e-14)) + fs(fs(fs(-5.52614015238749e-21fs + 2.55273478792579e-17) + 1.22792404260186e-14) - 8.07178249458312e-13) + 2.62105472308353e-12) + fs(fs(fs(-2.36238399075912e-21fs + 1.20886112608973e-17) + 5.81722106266131e-15) - 3.58123072601056e-13) + 1.15431250004598e-12; a5 = Attack(Attackfs(fs(fs(fs(7.2677502129384e-24fs - 1.11622970892275e-19) + 5.44781387848185e-17) - 1.11859678983445e-15) + 2.16342879110166e-15) + fs(fs(fs(fs(-7.40213650437857e-24fs + 1.13632945852435e-19) - 5.46818779890163e-17) + 1.12211896081664e-15) - 2.17010750008645e-15)) + Tone(Attack(Attackfs(fs(fs(fs(1.70008798003816e-23fs - 2.35724702889288e-19) + 1.14989728218871e-16) - 2.52121869652107e-15) + 4.91241778179305e-15) + fs(fs(fs(fs(-1.73152391441475e-23fs + 2.39957070065024e-19) - 1.15424860004575e-16) + 2.52915851496938e-15) - 4.92758287939703e-15)) + Tone(Attack(Attackpow(fs,2)(fs(fs(-1.72098866161537e-23fs + 2.43964228204556e-19) - 1.14222007971933e-16) + 2.45620889089652e-16) + pow(fs,2)(fs(fs(1.75281106567011e-23fs - 2.48347397038037e-19) + 1.14582451009122e-16) - 2.46379143969851e-16)) + fs(fs(fs(-1.86469262305331e-21fs + 2.64199358551104e-17) - 1.21896224477789e-14) + 2.62105472308353e-14)) + fs(fs(fs(1.8420467174625e-21fs - 2.55273478792579e-17) + 1.22792404260186e-14) - 2.69059416486104e-13) + 5.24210944616705e-13) + fs(fs(fs(7.8746133025304e-22fs - 1.20886112608973e-17) + 5.81722106266131e-15) - 1.19374357533685e-13) + 2.30862500009197e-13; };
3291b9274e0755dcdd2e5a3c26436e39ac06376b9a853af3fa5f1e37c6a44dac	brummer10/guitarix	ffreak.dsp	// generated automatically // DO NOT MODIFY! declare id "ffreak"; declare name "Fat Furry Freak"; declare category "Fuzz"; declare shortname "Fat FFreak"; declare description "Extreme Bass Fuzz Monster"; declare drywetbox "true"; import("stdfaust.lib"); process = 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)) : 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 = _; clip(x) = atan(x)/ma.PI; Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Tone = vslider("Tone[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Gate = vslider("Gate[name:Gate]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : +(0.01) : (0.05) : Inverted(0) : si.smooth(s); b0 = Gate(ToneLevel(Fuzzpow(fs,4)(2.31663605170274e-21fs + 1.15904771305164e-17) + pow(fs,3)(fs(-3.33595591445214e-21fs - 1.66926037039962e-17) - 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(1.55887720056646e-18fs + 1.29589876827223e-14) + pow(fs,2)(fs(-2.24478316881583e-18fs - 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(-2.79019064029167e-21fs - 1.39597416617563e-17) + pow(fs,3)(fs(4.01337447559094e-21fs + 2.00823037773104e-17) + 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(-1.87753470001801e-18fs - 1.56079959618215e-14) + pow(fs,2)(fs(2.70062186191725e-18fs + 2.24522189930002e-14) + 1.56079959618215e-14)); b1 = Gate(ToneLevel(Fuzzpow(fs,4)(-1.15831802585137e-20fs - 3.47714313915491e-17) + pow(fs,3)(fs(1.66797795722607e-20fs + 5.00778111119886e-17) + 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(-4.67663160169938e-18fs - 1.29589876827223e-14) + pow(fs,2)(fs(6.7343495064475e-18fs + 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(1.39509532014583e-20fs + 4.18792249852688e-17) + pow(fs,3)(fs(-2.00668723779547e-20fs - 6.02469113319311e-17) - 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(5.63260410005403e-18fs + 1.56079959618215e-14) + pow(fs,2)(fs(-8.10186558575176e-18fs - 2.24522189930002e-14) + 1.56079959618215e-14)); b2 = Gate(ToneLevel(Fuzzpow(fs,4)(2.31663605170274e-20fs + 2.31809542610327e-17) + pow(fs,3)(fs(-3.33595591445214e-20fs - 3.33852074079924e-17) + 2.31809542610327e-17)) + Level(Fuzzpow(fs,3)(3.11775440113292e-18fs - 2.59179753654445e-14) + pow(fs,2)(fs(-4.48956633763166e-18fs + 3.73250022806433e-14) + 2.59179753654445e-14))) + ToneLevel(Fuzzpow(fs,4)(-2.79019064029167e-20fs - 2.79194833235126e-17) + pow(fs,3)(fs(4.01337447559094e-20fs + 4.01646075546207e-17) - 2.79194833235126e-17)) + Level(Fuzzpow(fs,3)(-3.75506940003602e-18fs + 3.12159919236431e-14) + pow(fs,2)(fs(5.40124372383451e-18fs - 4.49044379860004e-14) - 3.12159919236431e-14)); b3 = Gate(ToneLevel(Fuzzpow(fs,4)(-2.31663605170274e-20fs + 2.31809542610327e-17) + pow(fs,3)(fs(3.33595591445214e-20fs - 3.33852074079924e-17) - 2.31809542610327e-17)) + Level(Fuzzpow(fs,3)(3.11775440113292e-18fs + 2.59179753654445e-14) + pow(fs,2)(fs(-4.48956633763166e-18fs - 3.73250022806433e-14) + 2.59179753654445e-14))) + ToneLevel(Fuzzpow(fs,4)(2.79019064029167e-20fs - 2.79194833235126e-17) + pow(fs,3)(fs(-4.01337447559094e-20fs + 4.01646075546207e-17) + 2.79194833235126e-17)) + Level(Fuzzpow(fs,3)(-3.75506940003602e-18fs - 3.12159919236431e-14) + pow(fs,2)(fs(5.40124372383451e-18fs + 4.49044379860004e-14) - 3.12159919236431e-14)); b4 = Gate(ToneLevel(Fuzzpow(fs,4)(1.15831802585137e-20fs - 3.47714313915491e-17) + pow(fs,3)(fs(-1.66797795722607e-20fs + 5.00778111119886e-17) - 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(-4.67663160169938e-18fs + 1.29589876827223e-14) + pow(fs,2)(fs(6.7343495064475e-18fs - 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(-1.39509532014583e-20fs + 4.18792249852688e-17) + pow(fs,3)(fs(2.00668723779547e-20fs - 6.02469113319311e-17) + 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(5.63260410005403e-18fs - 1.56079959618215e-14) + pow(fs,2)(fs(-8.10186558575176e-18fs + 2.24522189930002e-14) + 1.56079959618215e-14)); b5 = Gate(ToneLevel(Fuzzpow(fs,4)(-2.31663605170274e-21fs + 1.15904771305164e-17) + pow(fs,3)(fs(3.33595591445214e-21fs - 1.66926037039962e-17) + 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(1.55887720056646e-18fs - 1.29589876827223e-14) + pow(fs,2)(fs(-2.24478316881583e-18fs + 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(2.79019064029167e-21fs - 1.39597416617563e-17) + pow(fs,3)(fs(-4.01337447559094e-21fs + 2.00823037773104e-17) - 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(-1.87753470001801e-18fs + 1.56079959618215e-14) + pow(fs,2)(fs(2.70062186191725e-18fs - 2.24522189930002e-14) + 1.56079959618215e-14)); a0 = Fuzzfs(fs(fs(fs(-7.85412319843037e-24fs - 7.78792746651557e-20) - 9.37831383212842e-17) - 2.2395439003671e-14) - 6.9809489892874e-15) + Gate(Fuzzfs(fs(fs(fs(6.54379653368279e-24fs + 5.8178250366366e-20) + 1.85568523263077e-17) + 1.66102929456909e-16) + 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(6.54379653368279e-24fs + 5.62612870500991e-20) + 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-4.65295447579144e-24fs - 2.3734396603456e-20) - 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(4.76440117855883e-24fs + 2.43075314241076e-20) + 2.40711435730575e-18) + 2.16097599157672e-17) + 1.88310920685508e-17)) + fs(fs(fs(fs(-6.70053233478593e-24fs - 5.76153907610497e-20) - 3.80725717138185e-18) - 3.24770777204501e-17) - 2.81398235873665e-17)) + fs(fs(fs(fs(-6.70053233478593e-24fs - 5.95782688271891e-20) - 1.90595008624394e-17) - 1.88638248347695e-16) - 2.17339588935373e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-7.85412319843037e-24fs - 7.55784595381368e-20) - 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(5.5846598379774e-24fs + 3.42119219586653e-20) + 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(-5.71839588129828e-24fs - 3.49001694087958e-20) - 3.20489931550843e-17) - 2.65988017960028e-15) - 2.62717307381708e-15)) + fs(fs(fs(fs(8.04220615975415e-24fs + 7.72040670186403e-20) + 7.37353569889037e-17) + 4.00054450346227e-15) + 3.92585764869989e-15)) + fs(fs(fs(fs(8.04220615975415e-24fs + 7.95599798455062e-20) + 9.44004344622607e-17) + 2.24958749395835e-14) + 2.93784119708285e-14) + 6.9809489892874e-15; a1 = Fuzzfs(fs(fs(fs(3.92706159921519e-23fs + 2.33637823995467e-19) + 9.37831383212842e-17) - 2.2395439003671e-14) - 2.09428469678622e-14) + Gate(Fuzzfs(fs(fs(fs(-3.27189826684139e-23fs - 1.74534751099098e-19) - 1.85568523263077e-17) + 1.66102929456909e-16) + 1.50114464615909e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-3.27189826684139e-23fs - 1.68783861150297e-19) - 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(2.32647723789572e-23fs + 7.1203189810368e-20) + 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(-2.38220058927942e-23fs - 7.29225942723227e-20) - 2.40711435730575e-18) + 2.16097599157672e-17) + 5.64932762056525e-17)) + fs(fs(fs(fs(3.35026616739297e-23fs + 1.72846172283149e-19) + 3.80725717138185e-18) - 3.24770777204501e-17) - 8.44194707620995e-17)) + fs(fs(fs(fs(3.35026616739297e-23fs + 1.78734806481567e-19) + 1.90595008624394e-17) - 1.88638248347695e-16) - 6.52018766806119e-16) - 2.50190774359849e-16) + Tone(Fuzzpow(fs,2)(fs(fs(3.92706159921519e-23fs + 2.2673537861441e-19) + 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-2.7923299189887e-23fs - 1.02635765875996e-19) - 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(2.85919794064914e-23fs + 1.04700508226387e-19) + 3.20489931550843e-17) - 2.65988017960028e-15) - 7.88151922145125e-15)) + fs(fs(fs(fs(-4.02110307987707e-23fs - 2.31612201055921e-19) - 7.37353569889037e-17) + 4.00054450346227e-15) + 1.17775729460997e-14)) + fs(fs(fs(fs(-4.02110307987707e-23fs - 2.38679939536519e-19) - 9.44004344622607e-17) + 2.24958749395835e-14) + 8.81352359124856e-14) + 3.4904744946437e-14; a2 = Fuzzfs(fs(fs(fs(-7.85412319843037e-23fs - 1.55758549330311e-19) + 1.87566276642568e-16) + 4.4790878007342e-14) - 1.39618979785748e-14) + Gate(Fuzzfs(fs(fs(fs(6.54379653368279e-23fs + 1.16356500732732e-19) - 3.71137046526153e-17) - 3.32205858913818e-16) + 1.00076309743939e-16) + Tone(Fuzzpow(fs,2)(fs(fs(6.54379653368279e-23fs + 1.12522574100198e-19) - 7.32650859344974e-18) - 5.6279647174733e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-4.65295447579144e-23fs - 4.7468793206912e-20) + 4.65525804399867e-18) + 3.76621841371017e-17) + fs(fs(fs(fs(4.76440117855883e-23fs + 4.86150628482151e-20) - 4.8142287146115e-18) - 4.32195198315344e-17) + 3.76621841371017e-17)) + fs(fs(fs(fs(-6.70053233478593e-23fs - 1.15230781522099e-19) + 7.6145143427637e-18) + 6.49541554409002e-17) - 5.6279647174733e-17)) + fs(fs(fs(fs(-6.70053233478593e-23fs - 1.19156537654378e-19) + 3.81190017248788e-17) + 3.7727649669539e-16) - 4.34679177870746e-16) - 5.00381548719697e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-7.85412319843037e-23fs - 1.51156919076274e-19) + 1.47097271460383e-16) + 7.85171529739978e-15) + Tone(Fuzzpow(fs,2)(fs(fs(5.5846598379774e-23fs + 6.84238439173306e-20) - 6.38908255136844e-17) - 5.25434614763417e-15) + fs(fs(fs(fs(-5.71839588129828e-23fs - 6.98003388175915e-20) + 6.40979863101685e-17) + 5.31976035920056e-15) - 5.25434614763417e-15)) + fs(fs(fs(fs(8.04220615975415e-23fs + 1.54408134037281e-19) - 1.47470713977807e-16) - 8.00108900692453e-15) + 7.85171529739978e-15)) + fs(fs(fs(fs(8.04220615975415e-23fs + 1.59119959691012e-19) - 1.88800868924521e-16) - 4.49917498791669e-14) + 5.87568239416571e-14) + 6.9809489892874e-14; a3 = Fuzzfs(fs(fs(fs(7.85412319843037e-23fs - 1.55758549330311e-19) - 1.87566276642568e-16) + 4.4790878007342e-14) + 1.39618979785748e-14) + Gate(Fuzzfs(fs(fs(fs(-6.54379653368279e-23fs + 1.16356500732732e-19) + 3.71137046526153e-17) - 3.32205858913818e-16) - 1.00076309743939e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-6.54379653368279e-23fs + 1.12522574100198e-19) + 7.32650859344974e-18) - 5.6279647174733e-17) + Tone(Fuzzpow(fs,2)(fs(fs(4.65295447579144e-23fs - 4.7468793206912e-20) - 4.65525804399867e-18) + 3.76621841371017e-17) + fs(fs(fs(fs(-4.76440117855883e-23fs + 4.86150628482151e-20) + 4.8142287146115e-18) - 4.32195198315344e-17) - 3.76621841371017e-17)) + fs(fs(fs(fs(6.70053233478593e-23fs - 1.15230781522099e-19) - 7.6145143427637e-18) + 6.49541554409002e-17) + 5.6279647174733e-17)) + fs(fs(fs(fs(6.70053233478593e-23fs - 1.19156537654378e-19) - 3.81190017248788e-17) + 3.7727649669539e-16) + 4.34679177870746e-16) - 5.00381548719697e-16) + Tone(Fuzzpow(fs,2)(fs(fs(7.85412319843037e-23fs - 1.51156919076274e-19) - 1.47097271460383e-16) + 7.85171529739978e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-5.5846598379774e-23fs + 6.84238439173306e-20) + 6.38908255136844e-17) - 5.25434614763417e-15) + fs(fs(fs(fs(5.71839588129828e-23fs - 6.98003388175915e-20) - 6.40979863101685e-17) + 5.31976035920056e-15) + 5.25434614763417e-15)) + fs(fs(fs(fs(-8.04220615975415e-23fs + 1.54408134037281e-19) + 1.47470713977807e-16) - 8.00108900692453e-15) - 7.85171529739978e-15)) + fs(fs(fs(fs(-8.04220615975415e-23fs + 1.59119959691012e-19) + 1.88800868924521e-16) - 4.49917498791669e-14) - 5.87568239416571e-14) + 6.9809489892874e-14; a4 = Fuzzfs(fs(fs(fs(-3.92706159921519e-23fs + 2.33637823995467e-19) - 9.37831383212842e-17) - 2.2395439003671e-14) + 2.09428469678622e-14) + Gate(Fuzzfs(fs(fs(fs(3.27189826684139e-23fs - 1.74534751099098e-19) + 1.85568523263077e-17) + 1.66102929456909e-16) - 1.50114464615909e-16) + Tone(Fuzzpow(fs,2)(fs(fs(3.27189826684139e-23fs - 1.68783861150297e-19) + 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-2.32647723789572e-23fs + 7.1203189810368e-20) - 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(2.38220058927942e-23fs - 7.29225942723227e-20) + 2.40711435730575e-18) + 2.16097599157672e-17) - 5.64932762056525e-17)) + fs(fs(fs(fs(-3.35026616739297e-23fs + 1.72846172283149e-19) - 3.80725717138185e-18) - 3.24770777204501e-17) + 8.44194707620995e-17)) + fs(fs(fs(fs(-3.35026616739297e-23fs + 1.78734806481567e-19) - 1.90595008624394e-17) - 1.88638248347695e-16) + 6.52018766806119e-16) - 2.50190774359849e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-3.92706159921519e-23fs + 2.2673537861441e-19) - 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(2.7923299189887e-23fs - 1.02635765875996e-19) + 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(-2.85919794064914e-23fs + 1.04700508226387e-19) - 3.20489931550843e-17) - 2.65988017960028e-15) + 7.88151922145125e-15)) + fs(fs(fs(fs(4.02110307987707e-23fs - 2.31612201055921e-19) + 7.37353569889037e-17) + 4.00054450346227e-15) - 1.17775729460997e-14)) + fs(fs(fs(fs(4.02110307987707e-23fs - 2.38679939536519e-19) + 9.44004344622607e-17) + 2.24958749395835e-14) - 8.81352359124856e-14) + 3.4904744946437e-14; a5 = Fuzzfs(fs(fs(fs(7.85412319843037e-24fs - 7.78792746651557e-20) + 9.37831383212842e-17) - 2.2395439003671e-14) + 6.9809489892874e-15) + Gate(Fuzzfs(fs(fs(fs(-6.54379653368279e-24fs + 5.8178250366366e-20) - 1.85568523263077e-17) + 1.66102929456909e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-6.54379653368279e-24fs + 5.62612870500991e-20) - 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(4.65295447579144e-24fs - 2.3734396603456e-20) + 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(-4.76440117855883e-24fs + 2.43075314241076e-20) - 2.40711435730575e-18) + 2.16097599157672e-17) - 1.88310920685508e-17)) + fs(fs(fs(fs(6.70053233478593e-24fs - 5.76153907610497e-20) + 3.80725717138185e-18) - 3.24770777204501e-17) + 2.81398235873665e-17)) + fs(fs(fs(fs(6.70053233478593e-24fs - 5.95782688271891e-20) + 1.90595008624394e-17) - 1.88638248347695e-16) + 2.17339588935373e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(7.85412319843037e-24fs - 7.55784595381368e-20) + 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-5.5846598379774e-24fs + 3.42119219586653e-20) - 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(5.71839588129828e-24fs - 3.49001694087958e-20) + 3.20489931550843e-17) - 2.65988017960028e-15) + 2.62717307381708e-15)) + fs(fs(fs(fs(-8.04220615975415e-24fs + 7.72040670186403e-20) - 7.37353569889037e-17) + 4.00054450346227e-15) - 3.92585764869989e-15)) + fs(fs(fs(fs(-8.04220615975415e-24*fs + 7.95599798455062e-20) - 9.44004344622607e-17) + 2.24958749395835e-14) - 2.93784119708285e-14) + 6.9809489892874e-15; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/ffreak.dsp	faust	generated automatically DO NOT MODIFY!	declare id "ffreak"; declare name "Fat Furry Freak"; declare category "Fuzz"; declare shortname "Fat FFreak"; declare description "Extreme Bass Fuzz Monster"; declare drywetbox "true"; import("stdfaust.lib"); process = 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)) : 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 = _; clip(x) = atan(x)/ma.PI; Fuzz = vslider("Fuzz[name:Fuzz]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Tone = vslider("Tone[name:Tone]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Gate = vslider("Gate[name:Gate]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Level = vslider("Level[name:Level]", 0.5, 0, 1, 0.01) : +(0.01) : (0.05) : Inverted(0) : si.smooth(s); b0 = Gate(ToneLevel(Fuzzpow(fs,4)(2.31663605170274e-21fs + 1.15904771305164e-17) + pow(fs,3)(fs(-3.33595591445214e-21fs - 1.66926037039962e-17) - 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(1.55887720056646e-18fs + 1.29589876827223e-14) + pow(fs,2)(fs(-2.24478316881583e-18fs - 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(-2.79019064029167e-21fs - 1.39597416617563e-17) + pow(fs,3)(fs(4.01337447559094e-21fs + 2.00823037773104e-17) + 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(-1.87753470001801e-18fs - 1.56079959618215e-14) + pow(fs,2)(fs(2.70062186191725e-18fs + 2.24522189930002e-14) + 1.56079959618215e-14)); b1 = Gate(ToneLevel(Fuzzpow(fs,4)(-1.15831802585137e-20fs - 3.47714313915491e-17) + pow(fs,3)(fs(1.66797795722607e-20fs + 5.00778111119886e-17) + 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(-4.67663160169938e-18fs - 1.29589876827223e-14) + pow(fs,2)(fs(6.7343495064475e-18fs + 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(1.39509532014583e-20fs + 4.18792249852688e-17) + pow(fs,3)(fs(-2.00668723779547e-20fs - 6.02469113319311e-17) - 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(5.63260410005403e-18fs + 1.56079959618215e-14) + pow(fs,2)(fs(-8.10186558575176e-18fs - 2.24522189930002e-14) + 1.56079959618215e-14)); b2 = Gate(ToneLevel(Fuzzpow(fs,4)(2.31663605170274e-20fs + 2.31809542610327e-17) + pow(fs,3)(fs(-3.33595591445214e-20fs - 3.33852074079924e-17) + 2.31809542610327e-17)) + Level(Fuzzpow(fs,3)(3.11775440113292e-18fs - 2.59179753654445e-14) + pow(fs,2)(fs(-4.48956633763166e-18fs + 3.73250022806433e-14) + 2.59179753654445e-14))) + ToneLevel(Fuzzpow(fs,4)(-2.79019064029167e-20fs - 2.79194833235126e-17) + pow(fs,3)(fs(4.01337447559094e-20fs + 4.01646075546207e-17) - 2.79194833235126e-17)) + Level(Fuzzpow(fs,3)(-3.75506940003602e-18fs + 3.12159919236431e-14) + pow(fs,2)(fs(5.40124372383451e-18fs - 4.49044379860004e-14) - 3.12159919236431e-14)); b3 = Gate(ToneLevel(Fuzzpow(fs,4)(-2.31663605170274e-20fs + 2.31809542610327e-17) + pow(fs,3)(fs(3.33595591445214e-20fs - 3.33852074079924e-17) - 2.31809542610327e-17)) + Level(Fuzzpow(fs,3)(3.11775440113292e-18fs + 2.59179753654445e-14) + pow(fs,2)(fs(-4.48956633763166e-18fs - 3.73250022806433e-14) + 2.59179753654445e-14))) + ToneLevel(Fuzzpow(fs,4)(2.79019064029167e-20fs - 2.79194833235126e-17) + pow(fs,3)(fs(-4.01337447559094e-20fs + 4.01646075546207e-17) + 2.79194833235126e-17)) + Level(Fuzzpow(fs,3)(-3.75506940003602e-18fs - 3.12159919236431e-14) + pow(fs,2)(fs(5.40124372383451e-18fs + 4.49044379860004e-14) - 3.12159919236431e-14)); b4 = Gate(ToneLevel(Fuzzpow(fs,4)(1.15831802585137e-20fs - 3.47714313915491e-17) + pow(fs,3)(fs(-1.66797795722607e-20fs + 5.00778111119886e-17) - 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(-4.67663160169938e-18fs + 1.29589876827223e-14) + pow(fs,2)(fs(6.7343495064475e-18fs - 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(-1.39509532014583e-20fs + 4.18792249852688e-17) + pow(fs,3)(fs(2.00668723779547e-20fs - 6.02469113319311e-17) + 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(5.63260410005403e-18fs - 1.56079959618215e-14) + pow(fs,2)(fs(-8.10186558575176e-18fs + 2.24522189930002e-14) + 1.56079959618215e-14)); b5 = Gate(ToneLevel(Fuzzpow(fs,4)(-2.31663605170274e-21fs + 1.15904771305164e-17) + pow(fs,3)(fs(3.33595591445214e-21fs - 1.66926037039962e-17) + 1.15904771305164e-17)) + Level(Fuzzpow(fs,3)(1.55887720056646e-18fs - 1.29589876827223e-14) + pow(fs,2)(fs(-2.24478316881583e-18fs + 1.86625011403217e-14) - 1.29589876827223e-14))) + ToneLevel(Fuzzpow(fs,4)(2.79019064029167e-21fs - 1.39597416617563e-17) + pow(fs,3)(fs(-4.01337447559094e-21fs + 2.00823037773104e-17) - 1.39597416617563e-17)) + Level(Fuzzpow(fs,3)(-1.87753470001801e-18fs + 1.56079959618215e-14) + pow(fs,2)(fs(2.70062186191725e-18fs - 2.24522189930002e-14) + 1.56079959618215e-14)); a0 = Fuzzfs(fs(fs(fs(-7.85412319843037e-24fs - 7.78792746651557e-20) - 9.37831383212842e-17) - 2.2395439003671e-14) - 6.9809489892874e-15) + Gate(Fuzzfs(fs(fs(fs(6.54379653368279e-24fs + 5.8178250366366e-20) + 1.85568523263077e-17) + 1.66102929456909e-16) + 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(6.54379653368279e-24fs + 5.62612870500991e-20) + 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-4.65295447579144e-24fs - 2.3734396603456e-20) - 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(4.76440117855883e-24fs + 2.43075314241076e-20) + 2.40711435730575e-18) + 2.16097599157672e-17) + 1.88310920685508e-17)) + fs(fs(fs(fs(-6.70053233478593e-24fs - 5.76153907610497e-20) - 3.80725717138185e-18) - 3.24770777204501e-17) - 2.81398235873665e-17)) + fs(fs(fs(fs(-6.70053233478593e-24fs - 5.95782688271891e-20) - 1.90595008624394e-17) - 1.88638248347695e-16) - 2.17339588935373e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-7.85412319843037e-24fs - 7.55784595381368e-20) - 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(5.5846598379774e-24fs + 3.42119219586653e-20) + 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(-5.71839588129828e-24fs - 3.49001694087958e-20) - 3.20489931550843e-17) - 2.65988017960028e-15) - 2.62717307381708e-15)) + fs(fs(fs(fs(8.04220615975415e-24fs + 7.72040670186403e-20) + 7.37353569889037e-17) + 4.00054450346227e-15) + 3.92585764869989e-15)) + fs(fs(fs(fs(8.04220615975415e-24fs + 7.95599798455062e-20) + 9.44004344622607e-17) + 2.24958749395835e-14) + 2.93784119708285e-14) + 6.9809489892874e-15; a1 = Fuzzfs(fs(fs(fs(3.92706159921519e-23fs + 2.33637823995467e-19) + 9.37831383212842e-17) - 2.2395439003671e-14) - 2.09428469678622e-14) + Gate(Fuzzfs(fs(fs(fs(-3.27189826684139e-23fs - 1.74534751099098e-19) - 1.85568523263077e-17) + 1.66102929456909e-16) + 1.50114464615909e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-3.27189826684139e-23fs - 1.68783861150297e-19) - 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(2.32647723789572e-23fs + 7.1203189810368e-20) + 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(-2.38220058927942e-23fs - 7.29225942723227e-20) - 2.40711435730575e-18) + 2.16097599157672e-17) + 5.64932762056525e-17)) + fs(fs(fs(fs(3.35026616739297e-23fs + 1.72846172283149e-19) + 3.80725717138185e-18) - 3.24770777204501e-17) - 8.44194707620995e-17)) + fs(fs(fs(fs(3.35026616739297e-23fs + 1.78734806481567e-19) + 1.90595008624394e-17) - 1.88638248347695e-16) - 6.52018766806119e-16) - 2.50190774359849e-16) + Tone(Fuzzpow(fs,2)(fs(fs(3.92706159921519e-23fs + 2.2673537861441e-19) + 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-2.7923299189887e-23fs - 1.02635765875996e-19) - 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(2.85919794064914e-23fs + 1.04700508226387e-19) + 3.20489931550843e-17) - 2.65988017960028e-15) - 7.88151922145125e-15)) + fs(fs(fs(fs(-4.02110307987707e-23fs - 2.31612201055921e-19) - 7.37353569889037e-17) + 4.00054450346227e-15) + 1.17775729460997e-14)) + fs(fs(fs(fs(-4.02110307987707e-23fs - 2.38679939536519e-19) - 9.44004344622607e-17) + 2.24958749395835e-14) + 8.81352359124856e-14) + 3.4904744946437e-14; a2 = Fuzzfs(fs(fs(fs(-7.85412319843037e-23fs - 1.55758549330311e-19) + 1.87566276642568e-16) + 4.4790878007342e-14) - 1.39618979785748e-14) + Gate(Fuzzfs(fs(fs(fs(6.54379653368279e-23fs + 1.16356500732732e-19) - 3.71137046526153e-17) - 3.32205858913818e-16) + 1.00076309743939e-16) + Tone(Fuzzpow(fs,2)(fs(fs(6.54379653368279e-23fs + 1.12522574100198e-19) - 7.32650859344974e-18) - 5.6279647174733e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-4.65295447579144e-23fs - 4.7468793206912e-20) + 4.65525804399867e-18) + 3.76621841371017e-17) + fs(fs(fs(fs(4.76440117855883e-23fs + 4.86150628482151e-20) - 4.8142287146115e-18) - 4.32195198315344e-17) + 3.76621841371017e-17)) + fs(fs(fs(fs(-6.70053233478593e-23fs - 1.15230781522099e-19) + 7.6145143427637e-18) + 6.49541554409002e-17) - 5.6279647174733e-17)) + fs(fs(fs(fs(-6.70053233478593e-23fs - 1.19156537654378e-19) + 3.81190017248788e-17) + 3.7727649669539e-16) - 4.34679177870746e-16) - 5.00381548719697e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-7.85412319843037e-23fs - 1.51156919076274e-19) + 1.47097271460383e-16) + 7.85171529739978e-15) + Tone(Fuzzpow(fs,2)(fs(fs(5.5846598379774e-23fs + 6.84238439173306e-20) - 6.38908255136844e-17) - 5.25434614763417e-15) + fs(fs(fs(fs(-5.71839588129828e-23fs - 6.98003388175915e-20) + 6.40979863101685e-17) + 5.31976035920056e-15) - 5.25434614763417e-15)) + fs(fs(fs(fs(8.04220615975415e-23fs + 1.54408134037281e-19) - 1.47470713977807e-16) - 8.00108900692453e-15) + 7.85171529739978e-15)) + fs(fs(fs(fs(8.04220615975415e-23fs + 1.59119959691012e-19) - 1.88800868924521e-16) - 4.49917498791669e-14) + 5.87568239416571e-14) + 6.9809489892874e-14; a3 = Fuzzfs(fs(fs(fs(7.85412319843037e-23fs - 1.55758549330311e-19) - 1.87566276642568e-16) + 4.4790878007342e-14) + 1.39618979785748e-14) + Gate(Fuzzfs(fs(fs(fs(-6.54379653368279e-23fs + 1.16356500732732e-19) + 3.71137046526153e-17) - 3.32205858913818e-16) - 1.00076309743939e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-6.54379653368279e-23fs + 1.12522574100198e-19) + 7.32650859344974e-18) - 5.6279647174733e-17) + Tone(Fuzzpow(fs,2)(fs(fs(4.65295447579144e-23fs - 4.7468793206912e-20) - 4.65525804399867e-18) + 3.76621841371017e-17) + fs(fs(fs(fs(-4.76440117855883e-23fs + 4.86150628482151e-20) + 4.8142287146115e-18) - 4.32195198315344e-17) - 3.76621841371017e-17)) + fs(fs(fs(fs(6.70053233478593e-23fs - 1.15230781522099e-19) - 7.6145143427637e-18) + 6.49541554409002e-17) + 5.6279647174733e-17)) + fs(fs(fs(fs(6.70053233478593e-23fs - 1.19156537654378e-19) - 3.81190017248788e-17) + 3.7727649669539e-16) + 4.34679177870746e-16) - 5.00381548719697e-16) + Tone(Fuzzpow(fs,2)(fs(fs(7.85412319843037e-23fs - 1.51156919076274e-19) - 1.47097271460383e-16) + 7.85171529739978e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-5.5846598379774e-23fs + 6.84238439173306e-20) + 6.38908255136844e-17) - 5.25434614763417e-15) + fs(fs(fs(fs(5.71839588129828e-23fs - 6.98003388175915e-20) - 6.40979863101685e-17) + 5.31976035920056e-15) + 5.25434614763417e-15)) + fs(fs(fs(fs(-8.04220615975415e-23fs + 1.54408134037281e-19) + 1.47470713977807e-16) - 8.00108900692453e-15) - 7.85171529739978e-15)) + fs(fs(fs(fs(-8.04220615975415e-23fs + 1.59119959691012e-19) + 1.88800868924521e-16) - 4.49917498791669e-14) - 5.87568239416571e-14) + 6.9809489892874e-14; a4 = Fuzzfs(fs(fs(fs(-3.92706159921519e-23fs + 2.33637823995467e-19) - 9.37831383212842e-17) - 2.2395439003671e-14) + 2.09428469678622e-14) + Gate(Fuzzfs(fs(fs(fs(3.27189826684139e-23fs - 1.74534751099098e-19) + 1.85568523263077e-17) + 1.66102929456909e-16) - 1.50114464615909e-16) + Tone(Fuzzpow(fs,2)(fs(fs(3.27189826684139e-23fs - 1.68783861150297e-19) + 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-2.32647723789572e-23fs + 7.1203189810368e-20) - 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(2.38220058927942e-23fs - 7.29225942723227e-20) + 2.40711435730575e-18) + 2.16097599157672e-17) - 5.64932762056525e-17)) + fs(fs(fs(fs(-3.35026616739297e-23fs + 1.72846172283149e-19) - 3.80725717138185e-18) - 3.24770777204501e-17) + 8.44194707620995e-17)) + fs(fs(fs(fs(-3.35026616739297e-23fs + 1.78734806481567e-19) - 1.90595008624394e-17) - 1.88638248347695e-16) + 6.52018766806119e-16) - 2.50190774359849e-16) + Tone(Fuzzpow(fs,2)(fs(fs(-3.92706159921519e-23fs + 2.2673537861441e-19) - 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(2.7923299189887e-23fs - 1.02635765875996e-19) + 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(-2.85919794064914e-23fs + 1.04700508226387e-19) - 3.20489931550843e-17) - 2.65988017960028e-15) + 7.88151922145125e-15)) + fs(fs(fs(fs(4.02110307987707e-23fs - 2.31612201055921e-19) + 7.37353569889037e-17) + 4.00054450346227e-15) - 1.17775729460997e-14)) + fs(fs(fs(fs(4.02110307987707e-23fs - 2.38679939536519e-19) + 9.44004344622607e-17) + 2.24958749395835e-14) - 8.81352359124856e-14) + 3.4904744946437e-14; a5 = Fuzzfs(fs(fs(fs(7.85412319843037e-24fs - 7.78792746651557e-20) + 9.37831383212842e-17) - 2.2395439003671e-14) + 6.9809489892874e-15) + Gate(Fuzzfs(fs(fs(fs(-6.54379653368279e-24fs + 5.8178250366366e-20) - 1.85568523263077e-17) + 1.66102929456909e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(-6.54379653368279e-24fs + 5.62612870500991e-20) - 3.66325429672487e-18) + 2.81398235873665e-17) + Tone(Fuzzpow(fs,2)(fs(fs(4.65295447579144e-24fs - 2.3734396603456e-20) + 2.32762902199933e-18) - 1.88310920685508e-17) + fs(fs(fs(fs(-4.76440117855883e-24fs + 2.43075314241076e-20) - 2.40711435730575e-18) + 2.16097599157672e-17) - 1.88310920685508e-17)) + fs(fs(fs(fs(6.70053233478593e-24fs - 5.76153907610497e-20) + 3.80725717138185e-18) - 3.24770777204501e-17) + 2.81398235873665e-17)) + fs(fs(fs(fs(6.70053233478593e-24fs - 5.95782688271891e-20) + 1.90595008624394e-17) - 1.88638248347695e-16) + 2.17339588935373e-16) - 5.00381548719697e-17) + Tone(Fuzzpow(fs,2)(fs(fs(7.85412319843037e-24fs - 7.55784595381368e-20) + 7.35486357301917e-17) - 3.92585764869989e-15) + Tone(Fuzzpow(fs,2)(fs(fs(-5.5846598379774e-24fs + 3.42119219586653e-20) - 3.19454127568422e-17) + 2.62717307381708e-15) + fs(fs(fs(fs(5.71839588129828e-24fs - 3.49001694087958e-20) + 3.20489931550843e-17) - 2.65988017960028e-15) + 2.62717307381708e-15)) + fs(fs(fs(fs(-8.04220615975415e-24fs + 7.72040670186403e-20) - 7.37353569889037e-17) + 4.00054450346227e-15) - 3.92585764869989e-15)) + fs(fs(fs(fs(-8.04220615975415e-24*fs + 7.95599798455062e-20) - 9.44004344622607e-17) + 2.24958749395835e-14) - 2.93784119708285e-14) + 6.9809489892874e-15; };
1040abc6b63667fef905d5fa3505b972daaf69ef89d63c77c91027468fc0b125	brummer10/MetalTone	metaltone_post.dsp	/***************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i MetalZone.sch -b ****************************************************************************/ // generated automatically // DO NOT MODIFY! declare id "metalzone"; declare name "metalzone"; declare category "Extern"; declare shortname "metalzone"; declare description "metalzone"; import("stdfaust.lib"); p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(fs(fs(9.44166524782917e-31fs + 3.47874807701104e-24) + 9.42324983049416e-20) + 7.20586689015013e-16) + 1.5402082244362e-13) + 6.67432573373632e-11); b1 = fs(fs(pow(fs,2)(fs(-5.6649991486975e-30fs - 1.39149923080442e-23) - 1.88464996609883e-19) + 3.08041644887241e-13) + 2.66973029349453e-10); b2 = fs(fs(fs(fs(fs(1.41624978717438e-29fs + 1.73937403850552e-23) - 9.42324983049416e-20) - 2.16176006704504e-15) - 1.5402082244362e-13) + 3.33716286686816e-10); b3 = pow(fs,2)(pow(fs,2)(-1.88833304956583e-29pow(fs,2) + 3.76929993219766e-19) - 6.16083289774482e-13); b4 = fs(fs(fs(fs(fs(1.41624978717438e-29fs - 1.73937403850552e-23) - 9.42324983049416e-20) + 2.16176006704504e-15) - 1.5402082244362e-13) - 3.33716286686816e-10); b5 = fs(fs(pow(fs,2)(fs(-5.6649991486975e-30fs + 1.39149923080442e-23) - 1.88464996609883e-19) + 3.08041644887241e-13) - 2.66973029349453e-10); b6 = fs(fs(fs(fs(fs(9.44166524782917e-31fs - 3.47874807701104e-24) + 9.42324983049416e-20) - 7.20586689015013e-16) + 1.5402082244362e-13) - 6.67432573373632e-11); a0 = fs(fs(fs(fs(fs(9.44178363793602e-31fs + 3.05164021419149e-24) + 2.55561788812715e-20) + 6.78999193907624e-16) + 5.38983190449059e-14) + 6.69966140468255e-11) + 3.33720471194168e-10; a1 = fs(fs(pow(fs,2)(fs(-5.66507018276161e-30fs - 1.2206560856766e-23) - 5.11123577625429e-20) + 1.07796638089812e-13) + 2.67986456187302e-10) + 2.00232282716501e-9; a2 = fs(fs(fs(fs(fs(1.4162675456904e-29fs + 1.52582010709574e-23) - 2.55561788812715e-20) - 2.03699758172287e-15) - 5.38983190449059e-14) + 3.34983070234128e-10) + 5.00580706791252e-9; a3 = pow(fs,2)(pow(fs,2)(-1.8883567275872e-29pow(fs,2) + 1.02224715525086e-19) - 2.15593276179624e-13) + 6.67440942388336e-9; a4 = fs(fs(fs(fs(fs(1.4162675456904e-29fs - 1.52582010709574e-23) - 2.55561788812715e-20) + 2.03699758172287e-15) - 5.38983190449059e-14) - 3.34983070234128e-10) + 5.00580706791252e-9; a5 = fs(fs(pow(fs,2)(fs(-5.66507018276161e-30fs + 1.2206560856766e-23) - 5.11123577625429e-20) + 1.07796638089812e-13) - 2.67986456187302e-10) + 2.00232282716501e-9; a6 = fs(fs(fs(fs(fs(9.44178363793602e-31fs - 3.05164021419149e-24) + 2.55561788812715e-20) - 6.78999193907624e-16) + 5.38983190449059e-14) - 6.69966140468255e-11) + 3.33720471194168e-10; }; p4 = pre : fi.iir((b0/a0,b1/a0),(a1/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = -0.979214847738530; b1 = -0.979214847738530; a0 = 4.30877203236301e-7fs + 0.979317894244658; a1 = -4.30877203236301e-7fs + 0.979317894244658; }; p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Low = vslider("Low[name:Low][style:knob]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); High = vslider("High[name:High][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = High(High(Low(Lowpow(fs,2)(fs(7.27654843982413e-21fs + 1.65727764517951e-14) + 7.99235483766977e-11) + pow(fs,2)(fs(-7.27654843982413e-21fs - 1.29345022318831e-14) - 6.23403677338242e-11)) + fs(fs(fs(-7.27240351389247e-21fs - 2.01674030602623e-14) - 1.97181527174289e-11) - 1.81644428128858e-9)) + Low(Lowpow(fs,2)(fs(-7.27647567433973e-21fs - 2.02108849439427e-14) - 9.75059297840874e-11) + pow(fs,2)(fs(7.27647567433973e-21fs + 1.65726471067728e-14) + 7.99229249730203e-11)) + fs(fs(fs(7.27233078985733e-21fs + 2.3803403143178e-14) + 2.01874735604975e-11) + 2.21604385872926e-9)) + Low(Lowfs(fs(fs(-1.60158432001186e-22fs - 3.68445149059683e-16) - 1.0045781804538e-11) - 3.99621738060907e-8) + fs(fs(fs(1.60158432001186e-22fs + 2.88365933059091e-16) + 7.83961682896149e-12) + 3.11704955687508e-8)) + fs(fs(fs(1.60067201269546e-22fs + 4.4756157832158e-16) + 1.05178079416309e-11) + 9.89915928390436e-9) + 9.08231222865698e-7; b1 = High(High(Low(Lowpow(fs,3)(-2.91061937592965e-20fs - 3.31455529035902e-14) + pow(fs,3)(2.91061937592965e-20fs + 2.58690044637661e-14)) + fs(pow(fs,2)(2.90896140555699e-20fs + 4.03348061205247e-14) - 3.63288856257717e-9)) + Low(Lowpow(fs,3)(2.91059026973589e-20fs + 4.04217698878853e-14) + pow(fs,3)(-2.91059026973589e-20fs - 3.31452942135456e-14)) + fs(pow(fs,2)(-2.90893231594293e-20fs - 4.76068062863559e-14) + 4.43208771745852e-9)) + Low(Lowfs(pow(fs,2)(6.40633728004743e-22fs + 7.36890298119367e-16) - 7.99243476121814e-8) + fs(pow(fs,2)(-6.40633728004743e-22fs - 5.76731866118181e-16) + 6.23409911375015e-8)) + fs(pow(fs,2)(-6.40268805078186e-22fs - 8.95123156643161e-16) + 1.97983185678087e-8) + 3.63292489146279e-6; b2 = High(High(Low(Lowpow(fs,2)(4.36592906389448e-20pow(fs,2) - 1.59847096753395e-10) + pow(fs,2)(-4.36592906389448e-20pow(fs,2) + 1.24680735467648e-10)) + pow(fs,2)(-4.36344210833548e-20pow(fs,2) + 3.94363054348578e-11)) + Low(Lowpow(fs,2)(-4.36588540460384e-20pow(fs,2) + 1.95011859568175e-10) + pow(fs,2)(4.36588540460384e-20pow(fs,2) - 1.59845849946041e-10)) + pow(fs,2)(4.3633984739144e-20pow(fs,2) - 4.0374947120995e-11)) + Low(Lowpow(fs,2)(-9.60950592007115e-22pow(fs,2) + 2.0091563609076e-11) + pow(fs,2)(9.60950592007115e-22pow(fs,2) - 1.5679233657923e-11)) + pow(fs,2)(9.60403207617278e-22pow(fs,2) - 2.10356158832618e-11) + 5.44938733719419e-6; b3 = High(High(Low(Lowpow(fs,3)(-2.91061937592965e-20fs + 3.31455529035902e-14) + pow(fs,3)(2.91061937592965e-20fs - 2.58690044637661e-14)) + fs(pow(fs,2)(2.90896140555699e-20fs - 4.03348061205247e-14) + 3.63288856257717e-9)) + Low(Lowpow(fs,3)(2.91059026973589e-20fs - 4.04217698878853e-14) + pow(fs,3)(-2.91059026973589e-20fs + 3.31452942135456e-14)) + fs(pow(fs,2)(-2.90893231594293e-20fs + 4.76068062863559e-14) - 4.43208771745852e-9)) + Low(Lowfs(pow(fs,2)(6.40633728004743e-22fs - 7.36890298119367e-16) + 7.99243476121814e-8) + fs(pow(fs,2)(-6.40633728004743e-22fs + 5.76731866118181e-16) - 6.23409911375015e-8)) + fs(pow(fs,2)(-6.40268805078186e-22fs + 8.95123156643161e-16) - 1.97983185678087e-8) + 3.63292489146279e-6; b4 = High(High(Low(Lowpow(fs,2)(fs(7.27654843982413e-21fs - 1.65727764517951e-14) + 7.99235483766977e-11) + pow(fs,2)(fs(-7.27654843982413e-21fs + 1.29345022318831e-14) - 6.23403677338242e-11)) + fs(fs(fs(-7.27240351389247e-21fs + 2.01674030602623e-14) - 1.97181527174289e-11) + 1.81644428128858e-9)) + Low(Lowpow(fs,2)(fs(-7.27647567433973e-21fs + 2.02108849439427e-14) - 9.75059297840874e-11) + pow(fs,2)(fs(7.27647567433973e-21fs - 1.65726471067728e-14) + 7.99229249730203e-11)) + fs(fs(fs(7.27233078985733e-21fs - 2.3803403143178e-14) + 2.01874735604975e-11) - 2.21604385872926e-9)) + Low(Lowfs(fs(fs(-1.60158432001186e-22fs + 3.68445149059683e-16) - 1.0045781804538e-11) + 3.99621738060907e-8) + fs(fs(fs(1.60158432001186e-22fs - 2.88365933059091e-16) + 7.83961682896149e-12) - 3.11704955687508e-8)) + fs(fs(fs(1.60067201269546e-22fs - 4.4756157832158e-16) + 1.05178079416309e-11) - 9.89915928390436e-9) + 9.08231222865698e-7; a0 = High(High(Low(Lowpow(fs,2)(fs(7.2766212045808e-21fs + 1.65729421779022e-14) + 7.99243476041882e-11) + pow(fs,2)(fs(-8.87747786974867e-21fs - 2.02189530746631e-14) - 9.75075282470618e-11)) + fs(fs(fs(-7.27249223648803e-21fs - 1.65294112430321e-14) - 2.13521733098528e-12) - 1.81647043790457e-9)) + Low(Lowpow(fs,2)(fs(-5.67569177320088e-21fs - 1.29267655517195e-14) - 6.23403677178387e-11) + pow(fs,2)(fs(7.2765324298021e-21fs + 1.6572755996778e-14) + 7.99234498949006e-11)) + fs(fs(fs(5.67247473922159e-21fs + 1.28928295977734e-14) + 1.66546343765405e-12) + 1.4168345313167e-9)) + Low(Lowfs(fs(fs(-1.76101705092231e-21fs - 4.01446934498545e-15) - 2.7629145745247e-11) - 3.99627492556386e-8) + fs(fs(fs(1.79625225831112e-21fs + 4.09551127915918e-15) + 2.98391404153207e-11) + 4.87544274929785e-8)) + fs(fs(fs(1.7600142784018e-21fs + 4.00392275737179e-15) + 8.78156559685452e-12) + 1.50724796535871e-9) + 9.08248297481893e-7; a1 = High(High(Low(Lowpow(fs,3)(-2.91064848183232e-20fs - 3.31458843558044e-14) + pow(fs,3)(3.55099114789947e-20fs + 4.04379061493262e-14)) + fs(pow(fs,2)(2.90899689459521e-20fs + 3.30588224860642e-14) - 3.63294087580914e-9)) + Low(Lowpow(fs,3)(2.27027670928035e-20fs + 2.5853531103439e-14) + pow(fs,3)(-2.91061297192084e-20fs - 3.3145511993556e-14)) + fs(pow(fs,2)(-2.26898989568864e-20fs - 2.57856591955469e-14) + 2.83366906263341e-9)) + Low(Lowfs(pow(fs,2)(7.04406820368923e-21fs + 8.02893868997089e-15) - 7.99254985112771e-8) + fs(pow(fs,2)(-7.18500903324448e-21fs - 8.19102255831836e-15) + 9.75088549859571e-8)) + fs(pow(fs,2)(-7.04005711360719e-21fs - 8.00784551474358e-15) + 3.01449593071743e-9) + 3.63299318992757e-6; a2 = High(High(Low(Lowpow(fs,2)(4.36597272274848e-20pow(fs,2) - 1.59848695208376e-10) + pow(fs,2)(-5.3264867218492e-20pow(fs,2) + 1.95015056494124e-10)) + pow(fs,2)(-4.36349534189282e-20pow(fs,2) + 4.27043466197056e-12)) + Low(Lowpow(fs,2)(-3.40541506392052e-20pow(fs,2) + 1.24680735435677e-10) + pow(fs,2)(4.36591945788126e-20pow(fs,2) - 1.59846899789801e-10)) + pow(fs,2)(3.40348484353295e-20pow(fs,2) - 3.33092687530809e-12)) + Low(Lowpow(fs,2)(-1.05661023055338e-20pow(fs,2) + 5.52582914904939e-11) + pow(fs,2)(1.07775135498667e-20pow(fs,2) - 5.96782808306414e-11)) + pow(fs,2)(1.05600856704108e-20pow(fs,2) - 1.7563131193709e-11) + 5.44948978489136e-6; a3 = High(High(Low(Lowpow(fs,3)(-2.91064848183232e-20fs + 3.31458843558044e-14) + pow(fs,3)(3.55099114789947e-20fs - 4.04379061493262e-14)) + fs(pow(fs,2)(2.90899689459521e-20fs - 3.30588224860642e-14) + 3.63294087580914e-9)) + Low(Lowpow(fs,3)(2.27027670928035e-20fs - 2.5853531103439e-14) + pow(fs,3)(-2.91061297192084e-20fs + 3.3145511993556e-14)) + fs(pow(fs,2)(-2.26898989568864e-20fs + 2.57856591955469e-14) - 2.83366906263341e-9)) + Low(Lowfs(pow(fs,2)(7.04406820368923e-21fs - 8.02893868997089e-15) + 7.99254985112771e-8) + fs(pow(fs,2)(-7.18500903324448e-21fs + 8.19102255831836e-15) - 9.75088549859571e-8)) + fs(pow(fs,2)(-7.04005711360719e-21fs + 8.00784551474358e-15) - 3.01449593071743e-9) + 3.63299318992757e-6; a4 = High(High(Low(Lowpow(fs,2)(fs(7.2766212045808e-21fs - 1.65729421779022e-14) + 7.99243476041882e-11) + pow(fs,2)(fs(-8.87747786974867e-21fs + 2.02189530746631e-14) - 9.75075282470618e-11)) + fs(fs(fs(-7.27249223648803e-21fs + 1.65294112430321e-14) - 2.13521733098528e-12) + 1.81647043790457e-9)) + Low(Lowpow(fs,2)(fs(-5.67569177320088e-21fs + 1.29267655517195e-14) - 6.23403677178387e-11) + pow(fs,2)(fs(7.2765324298021e-21fs - 1.6572755996778e-14) + 7.99234498949006e-11)) + fs(fs(fs(5.67247473922159e-21fs - 1.28928295977734e-14) + 1.66546343765405e-12) - 1.4168345313167e-9)) + Low(Lowfs(fs(fs(-1.76101705092231e-21fs + 4.01446934498545e-15) - 2.7629145745247e-11) + 3.99627492556386e-8) + fs(fs(fs(1.79625225831112e-21fs - 4.09551127915918e-15) + 2.98391404153207e-11) - 4.87544274929785e-8)) + fs(fs(fs(1.7600142784018e-21fs - 4.00392275737179e-15) + 8.78156559685452e-12) - 1.50724796535871e-9) + 9.08248297481893e-7; }; p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; MidFreq = vslider("MidFreq[name:MidFreq][style:knob]", 0.5, 0, 1, 0.01) : Inverted(1) : LogPot(3) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = MidFreq(MidFreqpow(fs,3)(fs(-8.50745535127841e-24fs - 6.03542364493838e-22) - 2.78801903928758e-21) + pow(fs,2)(fs(fs(fs(1.59413660419242e-33fs - 6.51283582428871e-25) - 3.98794778017077e-21) - 3.78333483968283e-19) - 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-1.58889325644614e-33fs - 9.72217975441437e-26) - 2.0613560670033e-20) + pow(fs,4)(fs(-6.99113032836304e-35fs - 4.27969676664531e-27) - 9.07408940694853e-22)) + fs(fs(fs(fs(fs(7.01420105844664e-35fs - 1.21840999977658e-26) - 1.74095101616584e-22) - 4.73252562358157e-18) - 4.70826567683485e-17) - 1.17123972411678e-16); b1 = MidFreq(MidFreqpow(fs,4)(3.40298214051137e-23fs + 1.20708472898768e-21) + pow(fs,2)(pow(fs,2)(fs(-9.5648196251545e-33fs + 2.60513432971549e-24) + 7.97589556034154e-21) - 3.56525372021147e-18)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs + 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs + 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-4.20852063506798e-34fs + 4.87363999910633e-26) + 3.48190203233167e-22) - 9.4165313536697e-17) - 4.68495889646711e-16); b2 = MidFreq(MidFreqpow(fs,3)(fs(-4.25372767563921e-23fs + 6.03542364493838e-22) + 8.36405711786274e-21) + pow(fs,2)(fs(fs(fs(2.39120490628863e-32fs - 3.25641791214436e-24) + 3.98794778017077e-21) + 1.13500045190485e-18) + 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-2.38333988466922e-32fs - 4.86108987720719e-25) + 2.0613560670033e-20) + pow(fs,4)(fs(-1.04866954925446e-33fs - 2.13984838332265e-26) + 9.07408940694853e-22)) + fs(fs(fs(fs(fs(1.052130158767e-33fs - 6.09204999888292e-26) + 1.74095101616584e-22) + 1.41975768707447e-17) + 4.70826567683485e-17) - 5.85619862058389e-16); b3 = MidFreq(-2.41416945797535e-21MidFreqpow(fs,4) + pow(fs,2)(pow(fs,2)(-3.18827320838483e-32pow(fs,2) - 1.59517911206831e-20) + 7.13050744042295e-18)) + Middle(MidFreqpow(fs,4)(3.17778651289229e-32pow(fs,2) - 8.24542426801321e-20) + pow(fs,4)(1.39822606567261e-33pow(fs,2) - 3.62963576277941e-21)) + pow(fs,2)(pow(fs,2)(-1.40284021168933e-33pow(fs,2) - 6.96380406466334e-22) + 1.88330627073394e-16); b4 = MidFreq(MidFreqpow(fs,3)(fs(4.25372767563921e-23fs + 6.03542364493838e-22) - 8.36405711786274e-21) + pow(fs,2)(fs(fs(fs(2.39120490628863e-32fs + 3.25641791214436e-24) + 3.98794778017077e-21) - 1.13500045190485e-18) + 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-2.38333988466922e-32fs + 4.86108987720719e-25) + 2.0613560670033e-20) + pow(fs,4)(fs(-1.04866954925446e-33fs + 2.13984838332265e-26) + 9.07408940694853e-22)) + fs(fs(fs(fs(fs(1.052130158767e-33fs + 6.09204999888292e-26) + 1.74095101616584e-22) - 1.41975768707447e-17) + 4.70826567683485e-17) + 5.85619862058389e-16); b5 = MidFreq(MidFreqpow(fs,4)(-3.40298214051137e-23fs + 1.20708472898768e-21) + pow(fs,2)(pow(fs,2)(fs(-9.5648196251545e-33fs - 2.60513432971549e-24) + 7.97589556034154e-21) - 3.56525372021147e-18)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs - 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs - 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-4.20852063506798e-34fs - 4.87363999910633e-26) + 3.48190203233167e-22) - 9.4165313536697e-17) + 4.68495889646711e-16); b6 = MidFreq(MidFreqpow(fs,3)(fs(8.50745535127841e-24fs - 6.03542364493838e-22) + 2.78801903928758e-21) + pow(fs,2)(fs(fs(fs(1.59413660419242e-33fs + 6.51283582428871e-25) - 3.98794778017077e-21) + 3.78333483968283e-19) - 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-1.58889325644614e-33fs + 9.72217975441437e-26) - 2.0613560670033e-20) + pow(fs,4)(fs(-6.99113032836304e-35fs + 4.27969676664531e-27) - 9.07408940694853e-22)) + fs(fs(fs(fs(fs(7.01420105844664e-35fs + 1.21840999977658e-26) - 1.74095101616584e-22) + 4.73252562358157e-18) - 4.70826567683485e-17) + 1.17123972411678e-16); a0 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(7.99710830561595e-29fs + 8.5145900624638e-24) + 7.78694052465638e-22) + 1.47852197219515e-20) + 2.9660148921093e-20) + fs(fs(fs(fs(fs(7.03904948565599e-30fs + 9.80535079572056e-25) + 2.46246374242121e-20) + 7.75550855077932e-19) + 9.92126976603426e-18) + 1.89643533262912e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-1.58889325644614e-33fs - 9.72217975441437e-26) - 2.0613560670033e-20) + 1.0184476711071e-33) + pow(fs,3)(fs(fs(-6.99113032836304e-35fs - 4.27969676664531e-27) - 9.07408940694853e-22) + 4.48320664821347e-35)) + fs(fs(fs(fs(fs(1.54894160572139e-31fs + 2.66612412581844e-26) + 1.12651252649031e-21) + 4.75123392465829e-18) + 1.44468636894667e-16) + 8.52275112210641e-16) + 1.24601533024252e-15; a1 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(fs(-4.79826498336957e-28fs - 3.40583602498552e-23) - 1.55738810493128e-21) + 5.9320297842186e-20) + fs(fs(pow(fs,2)(fs(-4.2234296913936e-29fs - 3.92214031828822e-24) - 4.92492748484242e-20) + 1.98425395320685e-17) + 7.58574133051647e-17)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs + 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs + 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-9.29364963432833e-31fs - 1.06644965032738e-25) - 2.25302505298062e-21) + 2.88937273789334e-16) + 3.40910044884256e-15) + 7.47609198145513e-15; a2 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(1.19956624584239e-27fs + 4.2572950312319e-23) - 7.78694052465638e-22) - 4.43556591658545e-20) - 2.9660148921093e-20) + fs(fs(fs(fs(fs(1.0558574228484e-28fs + 4.90267539786028e-24) - 2.46246374242121e-20) - 2.3266525652338e-18) - 9.92126976603426e-18) + 9.48217666314559e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-2.38333988466922e-32fs - 4.86108987720719e-25) + 2.0613560670033e-20) - 3.05534301332131e-33) + pow(fs,3)(fs(fs(-1.04866954925446e-33fs - 2.13984838332265e-26) + 9.07408940694853e-22) - 1.34496199446404e-34)) + fs(fs(fs(fs(fs(2.32341240858208e-30fs + 1.33306206290922e-25) - 1.12651252649031e-21) - 1.42537017739749e-17) - 1.44468636894667e-16) + 4.2613755610532e-15) + 1.86902299536378e-14; a3 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(-1.59942166112319e-27pow(fs,2) + 3.11477620986255e-21) - 1.18640595684372e-19) + pow(fs,2)(pow(fs,2)(-1.4078098971312e-28pow(fs,2) + 9.84985496968484e-20) - 3.9685079064137e-17)) + Middle(MidFreqpow(fs,4)(3.17778651289229e-32pow(fs,2) - 8.24542426801321e-20) + pow(fs,4)(1.39822606567261e-33pow(fs,2) - 3.62963576277941e-21)) + pow(fs,2)(pow(fs,2)(-3.09788321144278e-30pow(fs,2) + 4.50605010596125e-21) - 5.77874547578669e-16) + 2.49203066048504e-14; a4 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(1.19956624584239e-27fs - 4.2572950312319e-23) - 7.78694052465638e-22) + 4.43556591658545e-20) - 2.9660148921093e-20) + fs(fs(fs(fs(fs(1.0558574228484e-28fs - 4.90267539786028e-24) - 2.46246374242121e-20) + 2.3266525652338e-18) - 9.92126976603426e-18) - 9.48217666314559e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-2.38333988466922e-32fs + 4.86108987720719e-25) + 2.0613560670033e-20) + 3.05534301332131e-33) + pow(fs,3)(fs(fs(-1.04866954925446e-33fs + 2.13984838332265e-26) + 9.07408940694853e-22) + 1.34496199446404e-34)) + fs(fs(fs(fs(fs(2.32341240858208e-30fs - 1.33306206290922e-25) - 1.12651252649031e-21) + 1.42537017739749e-17) - 1.44468636894667e-16) - 4.2613755610532e-15) + 1.86902299536378e-14; a5 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(fs(-4.79826498336957e-28fs + 3.40583602498552e-23) - 1.55738810493128e-21) + 5.9320297842186e-20) + fs(fs(pow(fs,2)(fs(-4.2234296913936e-29fs + 3.92214031828822e-24) - 4.92492748484242e-20) + 1.98425395320685e-17) - 7.58574133051647e-17)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs - 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs - 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-9.29364963432833e-31fs + 1.06644965032738e-25) - 2.25302505298062e-21) + 2.88937273789334e-16) - 3.40910044884256e-15) + 7.47609198145513e-15; a6 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(7.99710830561595e-29fs - 8.5145900624638e-24) + 7.78694052465638e-22) - 1.47852197219515e-20) + 2.9660148921093e-20) + fs(fs(fs(fs(fs(7.03904948565599e-30fs - 9.80535079572056e-25) + 2.46246374242121e-20) - 7.75550855077932e-19) + 9.92126976603426e-18) - 1.89643533262912e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-1.58889325644614e-33fs + 9.72217975441437e-26) - 2.0613560670033e-20) - 1.0184476711071e-33) + pow(fs,3)(fs(fs(-6.99113032836304e-35fs + 4.27969676664531e-27) - 9.07408940694853e-22) - 4.48320664821347e-35)) + fs(fs(fs(fs(fs(1.54894160572139e-31fs - 2.66612412581844e-26) + 1.12651252649031e-21) - 4.75123392465829e-18) + 1.44468636894667e-16) - 8.52275112210641e-16) + 1.24601533024252e-15; }; p7 = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Level = vslider("Level[name:Level][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = 3.8263106690977e-10Levelpow(fs,2); b1 = -7.65262133819539e-10Levelpow(fs,2); b2 = 3.8263106690977e-10Levelpow(fs,2); a0 = Level(Levelfs(-1.94205568898967e-10fs - 9.69714192020253e-11) + fs(1.94205568898967e-10fs + 9.69714192020253e-11)) + fs(3.8546782189863e-10fs + 3.86810536439698e-10) + 9.69714192020253e-11; a1 = Level(3.88411137797935e-10Levelpow(fs,2) - 3.88411137797935e-10pow(fs,2)) - 7.7093564379726e-10pow(fs,2) + 1.93942838404051e-10; a2 = Level(Levelfs(-1.94205568898967e-10fs + 9.69714192020253e-11) + fs(1.94205568898967e-10fs - 9.69714192020253e-11)) + fs(3.8546782189863e-10*fs - 3.86810536439698e-10) + 9.69714192020253e-11; }; process = p3 : p4 : p5 : p6 : p7;	https://raw.githubusercontent.com/brummer10/MetalTone/610736038723c8470962a4d862943e9a8c8aecab/MetalTone/metaltone_post.dsp	faust	**************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i MetalZone.sch -b **************************************************************************** generated automatically DO NOT MODIFY!	declare id "metalzone"; declare name "metalzone"; declare category "Extern"; declare shortname "metalzone"; declare description "metalzone"; import("stdfaust.lib"); p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(fs(fs(9.44166524782917e-31fs + 3.47874807701104e-24) + 9.42324983049416e-20) + 7.20586689015013e-16) + 1.5402082244362e-13) + 6.67432573373632e-11); b1 = fs(fs(pow(fs,2)(fs(-5.6649991486975e-30fs - 1.39149923080442e-23) - 1.88464996609883e-19) + 3.08041644887241e-13) + 2.66973029349453e-10); b2 = fs(fs(fs(fs(fs(1.41624978717438e-29fs + 1.73937403850552e-23) - 9.42324983049416e-20) - 2.16176006704504e-15) - 1.5402082244362e-13) + 3.33716286686816e-10); b3 = pow(fs,2)(pow(fs,2)(-1.88833304956583e-29pow(fs,2) + 3.76929993219766e-19) - 6.16083289774482e-13); b4 = fs(fs(fs(fs(fs(1.41624978717438e-29fs - 1.73937403850552e-23) - 9.42324983049416e-20) + 2.16176006704504e-15) - 1.5402082244362e-13) - 3.33716286686816e-10); b5 = fs(fs(pow(fs,2)(fs(-5.6649991486975e-30fs + 1.39149923080442e-23) - 1.88464996609883e-19) + 3.08041644887241e-13) - 2.66973029349453e-10); b6 = fs(fs(fs(fs(fs(9.44166524782917e-31fs - 3.47874807701104e-24) + 9.42324983049416e-20) - 7.20586689015013e-16) + 1.5402082244362e-13) - 6.67432573373632e-11); a0 = fs(fs(fs(fs(fs(9.44178363793602e-31fs + 3.05164021419149e-24) + 2.55561788812715e-20) + 6.78999193907624e-16) + 5.38983190449059e-14) + 6.69966140468255e-11) + 3.33720471194168e-10; a1 = fs(fs(pow(fs,2)(fs(-5.66507018276161e-30fs - 1.2206560856766e-23) - 5.11123577625429e-20) + 1.07796638089812e-13) + 2.67986456187302e-10) + 2.00232282716501e-9; a2 = fs(fs(fs(fs(fs(1.4162675456904e-29fs + 1.52582010709574e-23) - 2.55561788812715e-20) - 2.03699758172287e-15) - 5.38983190449059e-14) + 3.34983070234128e-10) + 5.00580706791252e-9; a3 = pow(fs,2)(pow(fs,2)(-1.8883567275872e-29pow(fs,2) + 1.02224715525086e-19) - 2.15593276179624e-13) + 6.67440942388336e-9; a4 = fs(fs(fs(fs(fs(1.4162675456904e-29fs - 1.52582010709574e-23) - 2.55561788812715e-20) + 2.03699758172287e-15) - 5.38983190449059e-14) - 3.34983070234128e-10) + 5.00580706791252e-9; a5 = fs(fs(pow(fs,2)(fs(-5.66507018276161e-30fs + 1.2206560856766e-23) - 5.11123577625429e-20) + 1.07796638089812e-13) - 2.67986456187302e-10) + 2.00232282716501e-9; a6 = fs(fs(fs(fs(fs(9.44178363793602e-31fs - 3.05164021419149e-24) + 2.55561788812715e-20) - 6.78999193907624e-16) + 5.38983190449059e-14) - 6.69966140468255e-11) + 3.33720471194168e-10; }; p4 = pre : fi.iir((b0/a0,b1/a0),(a1/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = -0.979214847738530; b1 = -0.979214847738530; a0 = 4.30877203236301e-7fs + 0.979317894244658; a1 = -4.30877203236301e-7fs + 0.979317894244658; }; p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Low = vslider("Low[name:Low][style:knob]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); High = vslider("High[name:High][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = High(High(Low(Lowpow(fs,2)(fs(7.27654843982413e-21fs + 1.65727764517951e-14) + 7.99235483766977e-11) + pow(fs,2)(fs(-7.27654843982413e-21fs - 1.29345022318831e-14) - 6.23403677338242e-11)) + fs(fs(fs(-7.27240351389247e-21fs - 2.01674030602623e-14) - 1.97181527174289e-11) - 1.81644428128858e-9)) + Low(Lowpow(fs,2)(fs(-7.27647567433973e-21fs - 2.02108849439427e-14) - 9.75059297840874e-11) + pow(fs,2)(fs(7.27647567433973e-21fs + 1.65726471067728e-14) + 7.99229249730203e-11)) + fs(fs(fs(7.27233078985733e-21fs + 2.3803403143178e-14) + 2.01874735604975e-11) + 2.21604385872926e-9)) + Low(Lowfs(fs(fs(-1.60158432001186e-22fs - 3.68445149059683e-16) - 1.0045781804538e-11) - 3.99621738060907e-8) + fs(fs(fs(1.60158432001186e-22fs + 2.88365933059091e-16) + 7.83961682896149e-12) + 3.11704955687508e-8)) + fs(fs(fs(1.60067201269546e-22fs + 4.4756157832158e-16) + 1.05178079416309e-11) + 9.89915928390436e-9) + 9.08231222865698e-7; b1 = High(High(Low(Lowpow(fs,3)(-2.91061937592965e-20fs - 3.31455529035902e-14) + pow(fs,3)(2.91061937592965e-20fs + 2.58690044637661e-14)) + fs(pow(fs,2)(2.90896140555699e-20fs + 4.03348061205247e-14) - 3.63288856257717e-9)) + Low(Lowpow(fs,3)(2.91059026973589e-20fs + 4.04217698878853e-14) + pow(fs,3)(-2.91059026973589e-20fs - 3.31452942135456e-14)) + fs(pow(fs,2)(-2.90893231594293e-20fs - 4.76068062863559e-14) + 4.43208771745852e-9)) + Low(Lowfs(pow(fs,2)(6.40633728004743e-22fs + 7.36890298119367e-16) - 7.99243476121814e-8) + fs(pow(fs,2)(-6.40633728004743e-22fs - 5.76731866118181e-16) + 6.23409911375015e-8)) + fs(pow(fs,2)(-6.40268805078186e-22fs - 8.95123156643161e-16) + 1.97983185678087e-8) + 3.63292489146279e-6; b2 = High(High(Low(Lowpow(fs,2)(4.36592906389448e-20pow(fs,2) - 1.59847096753395e-10) + pow(fs,2)(-4.36592906389448e-20pow(fs,2) + 1.24680735467648e-10)) + pow(fs,2)(-4.36344210833548e-20pow(fs,2) + 3.94363054348578e-11)) + Low(Lowpow(fs,2)(-4.36588540460384e-20pow(fs,2) + 1.95011859568175e-10) + pow(fs,2)(4.36588540460384e-20pow(fs,2) - 1.59845849946041e-10)) + pow(fs,2)(4.3633984739144e-20pow(fs,2) - 4.0374947120995e-11)) + Low(Lowpow(fs,2)(-9.60950592007115e-22pow(fs,2) + 2.0091563609076e-11) + pow(fs,2)(9.60950592007115e-22pow(fs,2) - 1.5679233657923e-11)) + pow(fs,2)(9.60403207617278e-22pow(fs,2) - 2.10356158832618e-11) + 5.44938733719419e-6; b3 = High(High(Low(Lowpow(fs,3)(-2.91061937592965e-20fs + 3.31455529035902e-14) + pow(fs,3)(2.91061937592965e-20fs - 2.58690044637661e-14)) + fs(pow(fs,2)(2.90896140555699e-20fs - 4.03348061205247e-14) + 3.63288856257717e-9)) + Low(Lowpow(fs,3)(2.91059026973589e-20fs - 4.04217698878853e-14) + pow(fs,3)(-2.91059026973589e-20fs + 3.31452942135456e-14)) + fs(pow(fs,2)(-2.90893231594293e-20fs + 4.76068062863559e-14) - 4.43208771745852e-9)) + Low(Lowfs(pow(fs,2)(6.40633728004743e-22fs - 7.36890298119367e-16) + 7.99243476121814e-8) + fs(pow(fs,2)(-6.40633728004743e-22fs + 5.76731866118181e-16) - 6.23409911375015e-8)) + fs(pow(fs,2)(-6.40268805078186e-22fs + 8.95123156643161e-16) - 1.97983185678087e-8) + 3.63292489146279e-6; b4 = High(High(Low(Lowpow(fs,2)(fs(7.27654843982413e-21fs - 1.65727764517951e-14) + 7.99235483766977e-11) + pow(fs,2)(fs(-7.27654843982413e-21fs + 1.29345022318831e-14) - 6.23403677338242e-11)) + fs(fs(fs(-7.27240351389247e-21fs + 2.01674030602623e-14) - 1.97181527174289e-11) + 1.81644428128858e-9)) + Low(Lowpow(fs,2)(fs(-7.27647567433973e-21fs + 2.02108849439427e-14) - 9.75059297840874e-11) + pow(fs,2)(fs(7.27647567433973e-21fs - 1.65726471067728e-14) + 7.99229249730203e-11)) + fs(fs(fs(7.27233078985733e-21fs - 2.3803403143178e-14) + 2.01874735604975e-11) - 2.21604385872926e-9)) + Low(Lowfs(fs(fs(-1.60158432001186e-22fs + 3.68445149059683e-16) - 1.0045781804538e-11) + 3.99621738060907e-8) + fs(fs(fs(1.60158432001186e-22fs - 2.88365933059091e-16) + 7.83961682896149e-12) - 3.11704955687508e-8)) + fs(fs(fs(1.60067201269546e-22fs - 4.4756157832158e-16) + 1.05178079416309e-11) - 9.89915928390436e-9) + 9.08231222865698e-7; a0 = High(High(Low(Lowpow(fs,2)(fs(7.2766212045808e-21fs + 1.65729421779022e-14) + 7.99243476041882e-11) + pow(fs,2)(fs(-8.87747786974867e-21fs - 2.02189530746631e-14) - 9.75075282470618e-11)) + fs(fs(fs(-7.27249223648803e-21fs - 1.65294112430321e-14) - 2.13521733098528e-12) - 1.81647043790457e-9)) + Low(Lowpow(fs,2)(fs(-5.67569177320088e-21fs - 1.29267655517195e-14) - 6.23403677178387e-11) + pow(fs,2)(fs(7.2765324298021e-21fs + 1.6572755996778e-14) + 7.99234498949006e-11)) + fs(fs(fs(5.67247473922159e-21fs + 1.28928295977734e-14) + 1.66546343765405e-12) + 1.4168345313167e-9)) + Low(Lowfs(fs(fs(-1.76101705092231e-21fs - 4.01446934498545e-15) - 2.7629145745247e-11) - 3.99627492556386e-8) + fs(fs(fs(1.79625225831112e-21fs + 4.09551127915918e-15) + 2.98391404153207e-11) + 4.87544274929785e-8)) + fs(fs(fs(1.7600142784018e-21fs + 4.00392275737179e-15) + 8.78156559685452e-12) + 1.50724796535871e-9) + 9.08248297481893e-7; a1 = High(High(Low(Lowpow(fs,3)(-2.91064848183232e-20fs - 3.31458843558044e-14) + pow(fs,3)(3.55099114789947e-20fs + 4.04379061493262e-14)) + fs(pow(fs,2)(2.90899689459521e-20fs + 3.30588224860642e-14) - 3.63294087580914e-9)) + Low(Lowpow(fs,3)(2.27027670928035e-20fs + 2.5853531103439e-14) + pow(fs,3)(-2.91061297192084e-20fs - 3.3145511993556e-14)) + fs(pow(fs,2)(-2.26898989568864e-20fs - 2.57856591955469e-14) + 2.83366906263341e-9)) + Low(Lowfs(pow(fs,2)(7.04406820368923e-21fs + 8.02893868997089e-15) - 7.99254985112771e-8) + fs(pow(fs,2)(-7.18500903324448e-21fs - 8.19102255831836e-15) + 9.75088549859571e-8)) + fs(pow(fs,2)(-7.04005711360719e-21fs - 8.00784551474358e-15) + 3.01449593071743e-9) + 3.63299318992757e-6; a2 = High(High(Low(Lowpow(fs,2)(4.36597272274848e-20pow(fs,2) - 1.59848695208376e-10) + pow(fs,2)(-5.3264867218492e-20pow(fs,2) + 1.95015056494124e-10)) + pow(fs,2)(-4.36349534189282e-20pow(fs,2) + 4.27043466197056e-12)) + Low(Lowpow(fs,2)(-3.40541506392052e-20pow(fs,2) + 1.24680735435677e-10) + pow(fs,2)(4.36591945788126e-20pow(fs,2) - 1.59846899789801e-10)) + pow(fs,2)(3.40348484353295e-20pow(fs,2) - 3.33092687530809e-12)) + Low(Lowpow(fs,2)(-1.05661023055338e-20pow(fs,2) + 5.52582914904939e-11) + pow(fs,2)(1.07775135498667e-20pow(fs,2) - 5.96782808306414e-11)) + pow(fs,2)(1.05600856704108e-20pow(fs,2) - 1.7563131193709e-11) + 5.44948978489136e-6; a3 = High(High(Low(Lowpow(fs,3)(-2.91064848183232e-20fs + 3.31458843558044e-14) + pow(fs,3)(3.55099114789947e-20fs - 4.04379061493262e-14)) + fs(pow(fs,2)(2.90899689459521e-20fs - 3.30588224860642e-14) + 3.63294087580914e-9)) + Low(Lowpow(fs,3)(2.27027670928035e-20fs - 2.5853531103439e-14) + pow(fs,3)(-2.91061297192084e-20fs + 3.3145511993556e-14)) + fs(pow(fs,2)(-2.26898989568864e-20fs + 2.57856591955469e-14) - 2.83366906263341e-9)) + Low(Lowfs(pow(fs,2)(7.04406820368923e-21fs - 8.02893868997089e-15) + 7.99254985112771e-8) + fs(pow(fs,2)(-7.18500903324448e-21fs + 8.19102255831836e-15) - 9.75088549859571e-8)) + fs(pow(fs,2)(-7.04005711360719e-21fs + 8.00784551474358e-15) - 3.01449593071743e-9) + 3.63299318992757e-6; a4 = High(High(Low(Lowpow(fs,2)(fs(7.2766212045808e-21fs - 1.65729421779022e-14) + 7.99243476041882e-11) + pow(fs,2)(fs(-8.87747786974867e-21fs + 2.02189530746631e-14) - 9.75075282470618e-11)) + fs(fs(fs(-7.27249223648803e-21fs + 1.65294112430321e-14) - 2.13521733098528e-12) + 1.81647043790457e-9)) + Low(Lowpow(fs,2)(fs(-5.67569177320088e-21fs + 1.29267655517195e-14) - 6.23403677178387e-11) + pow(fs,2)(fs(7.2765324298021e-21fs - 1.6572755996778e-14) + 7.99234498949006e-11)) + fs(fs(fs(5.67247473922159e-21fs - 1.28928295977734e-14) + 1.66546343765405e-12) - 1.4168345313167e-9)) + Low(Lowfs(fs(fs(-1.76101705092231e-21fs + 4.01446934498545e-15) - 2.7629145745247e-11) + 3.99627492556386e-8) + fs(fs(fs(1.79625225831112e-21fs - 4.09551127915918e-15) + 2.98391404153207e-11) - 4.87544274929785e-8)) + fs(fs(fs(1.7600142784018e-21fs - 4.00392275737179e-15) + 8.78156559685452e-12) - 1.50724796535871e-9) + 9.08248297481893e-7; }; p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; MidFreq = vslider("MidFreq[name:MidFreq][style:knob]", 0.5, 0, 1, 0.01) : Inverted(1) : LogPot(3) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = MidFreq(MidFreqpow(fs,3)(fs(-8.50745535127841e-24fs - 6.03542364493838e-22) - 2.78801903928758e-21) + pow(fs,2)(fs(fs(fs(1.59413660419242e-33fs - 6.51283582428871e-25) - 3.98794778017077e-21) - 3.78333483968283e-19) - 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-1.58889325644614e-33fs - 9.72217975441437e-26) - 2.0613560670033e-20) + pow(fs,4)(fs(-6.99113032836304e-35fs - 4.27969676664531e-27) - 9.07408940694853e-22)) + fs(fs(fs(fs(fs(7.01420105844664e-35fs - 1.21840999977658e-26) - 1.74095101616584e-22) - 4.73252562358157e-18) - 4.70826567683485e-17) - 1.17123972411678e-16); b1 = MidFreq(MidFreqpow(fs,4)(3.40298214051137e-23fs + 1.20708472898768e-21) + pow(fs,2)(pow(fs,2)(fs(-9.5648196251545e-33fs + 2.60513432971549e-24) + 7.97589556034154e-21) - 3.56525372021147e-18)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs + 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs + 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-4.20852063506798e-34fs + 4.87363999910633e-26) + 3.48190203233167e-22) - 9.4165313536697e-17) - 4.68495889646711e-16); b2 = MidFreq(MidFreqpow(fs,3)(fs(-4.25372767563921e-23fs + 6.03542364493838e-22) + 8.36405711786274e-21) + pow(fs,2)(fs(fs(fs(2.39120490628863e-32fs - 3.25641791214436e-24) + 3.98794778017077e-21) + 1.13500045190485e-18) + 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-2.38333988466922e-32fs - 4.86108987720719e-25) + 2.0613560670033e-20) + pow(fs,4)(fs(-1.04866954925446e-33fs - 2.13984838332265e-26) + 9.07408940694853e-22)) + fs(fs(fs(fs(fs(1.052130158767e-33fs - 6.09204999888292e-26) + 1.74095101616584e-22) + 1.41975768707447e-17) + 4.70826567683485e-17) - 5.85619862058389e-16); b3 = MidFreq(-2.41416945797535e-21MidFreqpow(fs,4) + pow(fs,2)(pow(fs,2)(-3.18827320838483e-32pow(fs,2) - 1.59517911206831e-20) + 7.13050744042295e-18)) + Middle(MidFreqpow(fs,4)(3.17778651289229e-32pow(fs,2) - 8.24542426801321e-20) + pow(fs,4)(1.39822606567261e-33pow(fs,2) - 3.62963576277941e-21)) + pow(fs,2)(pow(fs,2)(-1.40284021168933e-33pow(fs,2) - 6.96380406466334e-22) + 1.88330627073394e-16); b4 = MidFreq(MidFreqpow(fs,3)(fs(4.25372767563921e-23fs + 6.03542364493838e-22) - 8.36405711786274e-21) + pow(fs,2)(fs(fs(fs(2.39120490628863e-32fs + 3.25641791214436e-24) + 3.98794778017077e-21) - 1.13500045190485e-18) + 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-2.38333988466922e-32fs + 4.86108987720719e-25) + 2.0613560670033e-20) + pow(fs,4)(fs(-1.04866954925446e-33fs + 2.13984838332265e-26) + 9.07408940694853e-22)) + fs(fs(fs(fs(fs(1.052130158767e-33fs + 6.09204999888292e-26) + 1.74095101616584e-22) - 1.41975768707447e-17) + 4.70826567683485e-17) + 5.85619862058389e-16); b5 = MidFreq(MidFreqpow(fs,4)(-3.40298214051137e-23fs + 1.20708472898768e-21) + pow(fs,2)(pow(fs,2)(fs(-9.5648196251545e-33fs - 2.60513432971549e-24) + 7.97589556034154e-21) - 3.56525372021147e-18)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs - 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs - 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-4.20852063506798e-34fs - 4.87363999910633e-26) + 3.48190203233167e-22) - 9.4165313536697e-17) + 4.68495889646711e-16); b6 = MidFreq(MidFreqpow(fs,3)(fs(8.50745535127841e-24fs - 6.03542364493838e-22) + 2.78801903928758e-21) + pow(fs,2)(fs(fs(fs(1.59413660419242e-33fs + 6.51283582428871e-25) - 3.98794778017077e-21) + 3.78333483968283e-19) - 1.78262686010574e-18)) + Middle(MidFreqpow(fs,4)(fs(-1.58889325644614e-33fs + 9.72217975441437e-26) - 2.0613560670033e-20) + pow(fs,4)(fs(-6.99113032836304e-35fs + 4.27969676664531e-27) - 9.07408940694853e-22)) + fs(fs(fs(fs(fs(7.01420105844664e-35fs + 1.21840999977658e-26) - 1.74095101616584e-22) + 4.73252562358157e-18) - 4.70826567683485e-17) + 1.17123972411678e-16); a0 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(7.99710830561595e-29fs + 8.5145900624638e-24) + 7.78694052465638e-22) + 1.47852197219515e-20) + 2.9660148921093e-20) + fs(fs(fs(fs(fs(7.03904948565599e-30fs + 9.80535079572056e-25) + 2.46246374242121e-20) + 7.75550855077932e-19) + 9.92126976603426e-18) + 1.89643533262912e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-1.58889325644614e-33fs - 9.72217975441437e-26) - 2.0613560670033e-20) + 1.0184476711071e-33) + pow(fs,3)(fs(fs(-6.99113032836304e-35fs - 4.27969676664531e-27) - 9.07408940694853e-22) + 4.48320664821347e-35)) + fs(fs(fs(fs(fs(1.54894160572139e-31fs + 2.66612412581844e-26) + 1.12651252649031e-21) + 4.75123392465829e-18) + 1.44468636894667e-16) + 8.52275112210641e-16) + 1.24601533024252e-15; a1 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(fs(-4.79826498336957e-28fs - 3.40583602498552e-23) - 1.55738810493128e-21) + 5.9320297842186e-20) + fs(fs(pow(fs,2)(fs(-4.2234296913936e-29fs - 3.92214031828822e-24) - 4.92492748484242e-20) + 1.98425395320685e-17) + 7.58574133051647e-17)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs + 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs + 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-9.29364963432833e-31fs - 1.06644965032738e-25) - 2.25302505298062e-21) + 2.88937273789334e-16) + 3.40910044884256e-15) + 7.47609198145513e-15; a2 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(1.19956624584239e-27fs + 4.2572950312319e-23) - 7.78694052465638e-22) - 4.43556591658545e-20) - 2.9660148921093e-20) + fs(fs(fs(fs(fs(1.0558574228484e-28fs + 4.90267539786028e-24) - 2.46246374242121e-20) - 2.3266525652338e-18) - 9.92126976603426e-18) + 9.48217666314559e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-2.38333988466922e-32fs - 4.86108987720719e-25) + 2.0613560670033e-20) - 3.05534301332131e-33) + pow(fs,3)(fs(fs(-1.04866954925446e-33fs - 2.13984838332265e-26) + 9.07408940694853e-22) - 1.34496199446404e-34)) + fs(fs(fs(fs(fs(2.32341240858208e-30fs + 1.33306206290922e-25) - 1.12651252649031e-21) - 1.42537017739749e-17) - 1.44468636894667e-16) + 4.2613755610532e-15) + 1.86902299536378e-14; a3 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(-1.59942166112319e-27pow(fs,2) + 3.11477620986255e-21) - 1.18640595684372e-19) + pow(fs,2)(pow(fs,2)(-1.4078098971312e-28pow(fs,2) + 9.84985496968484e-20) - 3.9685079064137e-17)) + Middle(MidFreqpow(fs,4)(3.17778651289229e-32pow(fs,2) - 8.24542426801321e-20) + pow(fs,4)(1.39822606567261e-33pow(fs,2) - 3.62963576277941e-21)) + pow(fs,2)(pow(fs,2)(-3.09788321144278e-30pow(fs,2) + 4.50605010596125e-21) - 5.77874547578669e-16) + 2.49203066048504e-14; a4 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(1.19956624584239e-27fs - 4.2572950312319e-23) - 7.78694052465638e-22) + 4.43556591658545e-20) - 2.9660148921093e-20) + fs(fs(fs(fs(fs(1.0558574228484e-28fs - 4.90267539786028e-24) - 2.46246374242121e-20) + 2.3266525652338e-18) - 9.92126976603426e-18) - 9.48217666314559e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-2.38333988466922e-32fs + 4.86108987720719e-25) + 2.0613560670033e-20) + 3.05534301332131e-33) + pow(fs,3)(fs(fs(-1.04866954925446e-33fs + 2.13984838332265e-26) + 9.07408940694853e-22) + 1.34496199446404e-34)) + fs(fs(fs(fs(fs(2.32341240858208e-30fs - 1.33306206290922e-25) - 1.12651252649031e-21) + 1.42537017739749e-17) - 1.44468636894667e-16) - 4.2613755610532e-15) + 1.86902299536378e-14; a5 = MidFreq(MidFreqpow(fs,2)(pow(fs,2)(fs(-4.79826498336957e-28fs + 3.40583602498552e-23) - 1.55738810493128e-21) + 5.9320297842186e-20) + fs(fs(pow(fs,2)(fs(-4.2234296913936e-29fs + 3.92214031828822e-24) - 4.92492748484242e-20) + 1.98425395320685e-17) - 7.58574133051647e-17)) + Middle(MidFreqpow(fs,4)(fs(9.53335953867687e-33fs - 3.88887190176575e-25) + 4.1227121340066e-20) + pow(fs,4)(fs(4.19467819701782e-34fs - 1.71187870665812e-26) + 1.81481788138971e-21)) + fs(fs(pow(fs,2)(fs(-9.29364963432833e-31fs + 1.06644965032738e-25) - 2.25302505298062e-21) + 2.88937273789334e-16) - 3.40910044884256e-15) + 7.47609198145513e-15; a6 = MidFreq(MidFreqpow(fs,2)(fs(fs(fs(7.99710830561595e-29fs - 8.5145900624638e-24) + 7.78694052465638e-22) - 1.47852197219515e-20) + 2.9660148921093e-20) + fs(fs(fs(fs(fs(7.03904948565599e-30fs - 9.80535079572056e-25) + 2.46246374242121e-20) - 7.75550855077932e-19) + 9.92126976603426e-18) - 1.89643533262912e-17)) + Middle(MidFreqpow(fs,3)(fs(fs(-1.58889325644614e-33fs + 9.72217975441437e-26) - 2.0613560670033e-20) - 1.0184476711071e-33) + pow(fs,3)(fs(fs(-6.99113032836304e-35fs + 4.27969676664531e-27) - 9.07408940694853e-22) - 4.48320664821347e-35)) + fs(fs(fs(fs(fs(1.54894160572139e-31fs - 2.66612412581844e-26) + 1.12651252649031e-21) - 4.75123392465829e-18) + 1.44468636894667e-16) - 8.52275112210641e-16) + 1.24601533024252e-15; }; p7 = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Level = vslider("Level[name:Level][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = 3.8263106690977e-10Levelpow(fs,2); b1 = -7.65262133819539e-10Levelpow(fs,2); b2 = 3.8263106690977e-10Levelpow(fs,2); a0 = Level(Levelfs(-1.94205568898967e-10fs - 9.69714192020253e-11) + fs(1.94205568898967e-10fs + 9.69714192020253e-11)) + fs(3.8546782189863e-10fs + 3.86810536439698e-10) + 9.69714192020253e-11; a1 = Level(3.88411137797935e-10Levelpow(fs,2) - 3.88411137797935e-10pow(fs,2)) - 7.7093564379726e-10pow(fs,2) + 1.93942838404051e-10; a2 = Level(Levelfs(-1.94205568898967e-10fs + 9.69714192020253e-11) + fs(1.94205568898967e-10fs - 9.69714192020253e-11)) + fs(3.8546782189863e-10*fs - 3.86810536439698e-10) + 9.69714192020253e-11; }; process = p3 : p4 : p5 : p6 : p7;
76855133f732c3c096772d14dd862db8b604e5ffa024d36cc2917ed26168e604	brummer10/guitarix	coverd.dsp	// generated automatically // DO NOT MODIFY! declare id "coverd"; declare name "C Overdrive"; declare category "Distortion"; declare shortname "C Overdrive"; declare description "Colorsound Overdrive"; import("stdfaust.lib"); 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; p1 = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0)) : overdrive with { Gain = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); overdrive(x) = (x(abs(x) + 0.5)/(xx + (0.5-1)abs(x) + 1)) Gain; b0 = Gainfs(fs(fs(fs(3.97647190322603e-27fs - 4.95880631786145e-19) - 2.12282875792926e-17) - 2.95727845714664e-18) - 2.63401345836477e-31) + fs(fs(fs(fs(-7.42702058644117e-27fs + 7.89889133199585e-19) + 3.48875412150739e-17) + 5.04598373508118e-17) + 6.57172990476634e-18); b1 = Gainfs(fs(fs(fs(-1.98823595161302e-26fs + 1.48764189535843e-18) + 2.12282875792926e-17) - 2.95727845714664e-18) - 7.9020403750943e-31) + fs(fs(fs(fs(3.71351029322059e-26fs - 2.36966739959876e-18) - 3.48875412150739e-17) + 5.04598373508118e-17) + 1.9715189714299e-17); b2 = Gainfs(fs(fs(fs(3.97647190322603e-26fs - 9.91761263572289e-19) + 4.24565751585853e-17) + 5.91455691429328e-18) - 5.26802691672954e-31) + fs(fs(fs(fs(-7.42702058644117e-26fs + 1.57977826639917e-18) - 6.97750824301479e-17) - 1.00919674701624e-16) + 1.31434598095327e-17); b3 = Gainfs(fs(fs(fs(-3.97647190322603e-26fs - 9.91761263572289e-19) - 4.24565751585853e-17) + 5.91455691429328e-18) + 5.26802691672954e-31) + fs(fs(fs(fs(7.42702058644117e-26fs + 1.57977826639917e-18) + 6.97750824301479e-17) - 1.00919674701624e-16) - 1.31434598095327e-17); b4 = Gainfs(fs(fs(fs(1.98823595161302e-26fs + 1.48764189535843e-18) - 2.12282875792926e-17) - 2.95727845714664e-18) + 7.9020403750943e-31) + fs(fs(fs(fs(-3.71351029322059e-26fs - 2.36966739959876e-18) + 3.48875412150739e-17) + 5.04598373508118e-17) - 1.9715189714299e-17); b5 = Gainfs(fs(fs(fs(-3.97647190322603e-27fs - 4.95880631786145e-19) + 2.12282875792926e-17) - 2.95727845714664e-18) + 2.63401345836477e-31) + fs(fs(fs(fs(7.42702058644117e-27fs + 7.89889133199585e-19) - 3.48875412150739e-17) + 5.04598373508118e-17) - 6.57172990476634e-18); a0 = Gain(fs(fs(fs(fs(-2.40788246727257e-24fs - 1.83337089189981e-19) - 1.0884037880131e-17) - 2.17663092851014e-16) - 5.23377299648722e-16) - 4.66166061483529e-29) + fs(fs(fs(fs(2.78713041660513e-24fs + 2.03907877623046e-19) + 1.25272695161612e-17) + 3.13137866048362e-16) + 1.42685467015479e-15) + 1.16306066588601e-15; a1 = Gain(fs(fs(fs(fs(1.20394123363628e-23fs + 5.50011267569942e-19) + 1.0884037880131e-17) - 2.17663092851014e-16) - 1.57013189894617e-15) - 2.33083030741764e-28) + fs(fs(fs(fs(-1.39356520830257e-23fs - 6.11723632869138e-19) - 1.25272695161612e-17) + 3.13137866048362e-16) + 4.28056401046438e-15) + 5.81530332943008e-15; a2 = Gain(fs(fs(fs(fs(-2.40788246727257e-23fs - 3.66674178379961e-19) + 2.17680757602621e-17) + 4.35326185702027e-16) - 1.04675459929744e-15) - 4.66166061483529e-28) + fs(fs(fs(fs(2.78713041660513e-23fs + 4.07815755246092e-19) - 2.50545390323223e-17) - 6.26275732096724e-16) + 2.85370934030959e-15) + 1.16306066588602e-14; a3 = Gain(fs(fs(fs(fs(2.40788246727257e-23fs - 3.66674178379961e-19) - 2.17680757602621e-17) + 4.35326185702027e-16) + 1.04675459929744e-15) - 4.66166061483529e-28) + fs(fs(fs(fs(-2.78713041660513e-23fs + 4.07815755246092e-19) + 2.50545390323223e-17) - 6.26275732096724e-16) - 2.85370934030959e-15) + 1.16306066588602e-14; a4 = Gain(fs(fs(fs(fs(-1.20394123363628e-23fs + 5.50011267569942e-19) - 1.0884037880131e-17) - 2.17663092851014e-16) + 1.57013189894617e-15) - 2.33083030741764e-28) + fs(fs(fs(fs(1.39356520830257e-23fs - 6.11723632869138e-19) + 1.25272695161612e-17) + 3.13137866048362e-16) - 4.28056401046438e-15) + 5.81530332943008e-15; a5 = Gain(fs(fs(fs(fs(2.40788246727257e-24fs - 1.83337089189981e-19) + 1.0884037880131e-17) - 2.17663092851014e-16) + 5.23377299648722e-16) - 4.66166061483529e-29) + fs(fs(fs(fs(-2.78713041660513e-24fs + 2.03907877623046e-19) - 1.25272695161612e-17) + 3.13137866048362e-16) - 1.42685467015479e-15) + 1.16306066588601e-15; }; p2 = 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 { Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Bass(Basspow(fs,2)(fs(fs(-2.08000946656956e-27fs + 3.29838842203039e-21) + 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(3.70058120006252e-25fs + 3.84955928653808e-22) + 1.66273197458755e-18) + 7.0086493617754e-17) + 1.76992271032142e-31)) + Treble(Bass(Basspow(fs,3)(fs(6.58813040006868e-24fs + 2.80345974471016e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(1.91438372832372e-27fs - 9.28894735127254e-24) - 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(-6.58813040006868e-24fs - 2.80345974471016e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(6.88899571441955e-24fs + 2.95929420463955e-22) + 1.1408541599688e-23)) + pow(fs,3)(fs(-1.0025039931634e-23fs - 4.24692905313867e-22) - 6.08366393926321e-36)) + fs(fs(fs(fs(-3.8335982187148e-25fs - 5.42251622369686e-21) - 1.95786469833648e-18) - 7.39993880685971e-17) - 2.85213539992201e-18); b1 = Bass(Basspow(fs,2)(fs(fs(1.04000473328478e-26fs - 9.89516526609117e-21) - 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(-1.85029060003126e-24fs - 1.15486778596142e-21) - 1.66273197458755e-18) + 7.0086493617754e-17) + 5.30976813096426e-31)) + Treble(Bass(Basspow(fs,3)(fs(-3.29406520003434e-23fs - 8.41037923413049e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(-9.57191864161859e-27fs + 2.78668420538176e-23) + 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(3.29406520003434e-23fs + 8.41037923413049e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(-3.44449785720978e-23fs - 8.87788261391865e-22) - 1.1408541599688e-23)) + pow(fs,3)(fs(5.012519965817e-23fs + 1.2740787159416e-21) + 6.08366393926321e-36)) + fs(fs(fs(fs(1.9167991093574e-24fs + 1.62675486710906e-20) + 1.95786469833648e-18) - 7.39993880685971e-17) - 8.55640619976602e-18); b2 = Bass(Basspow(fs,2)(fs(fs(-2.08000946656956e-26fs + 6.59677684406078e-21) - 2.80368791554216e-19) - 7.07969084128568e-34) + fs(fs(fs(fs(3.70058120006252e-24fs + 7.69911857307616e-22) - 3.32546394917509e-18) - 1.40172987235508e-16) + 3.53984542064284e-31)) + Treble(Bass(Basspow(fs,3)(fs(6.58813040006868e-23fs + 5.60691948942032e-22) - 1.41593816825714e-36) + pow(fs,3)(fs(1.91438372832372e-26fs - 1.85778947025451e-23) + 4.56341663987291e-23)) + Treble(Basspow(fs,3)(fs(-6.58813040006868e-23fs - 5.60691948942032e-22) + 1.41593816825714e-36) + pow(fs,3)(fs(6.88899571441955e-23fs + 5.9185884092791e-22) - 2.28170831993761e-23)) + pow(fs,3)(fs(-1.0025039931634e-22fs - 8.49385810627733e-22) + 1.21673278785264e-35)) + fs(fs(fs(fs(-3.8335982187148e-24fs - 1.08450324473937e-20) + 3.91572939667295e-18) + 1.47998776137194e-16) - 5.70427079984401e-18); b3 = Bass(Basspow(fs,2)(fs(fs(2.08000946656956e-26fs + 6.59677684406078e-21) + 2.80368791554216e-19) - 7.07969084128568e-34) + fs(fs(fs(fs(-3.70058120006252e-24fs + 7.69911857307616e-22) + 3.32546394917509e-18) - 1.40172987235508e-16) - 3.53984542064284e-31)) + Treble(Bass(Basspow(fs,3)(fs(-6.58813040006868e-23fs + 5.60691948942032e-22) + 1.41593816825714e-36) + pow(fs,3)(fs(-1.91438372832372e-26fs - 1.85778947025451e-23) - 4.56341663987291e-23)) + Treble(Basspow(fs,3)(fs(6.58813040006868e-23fs - 5.60691948942032e-22) - 1.41593816825714e-36) + pow(fs,3)(fs(-6.88899571441955e-23fs + 5.9185884092791e-22) + 2.28170831993761e-23)) + pow(fs,3)(fs(1.0025039931634e-22fs - 8.49385810627733e-22) - 1.21673278785264e-35)) + fs(fs(fs(fs(3.8335982187148e-24fs - 1.08450324473937e-20) - 3.91572939667295e-18) + 1.47998776137194e-16) + 5.70427079984401e-18); b4 = Bass(Basspow(fs,2)(fs(fs(-1.04000473328478e-26fs - 9.89516526609117e-21) + 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(1.85029060003126e-24fs - 1.15486778596142e-21) + 1.66273197458755e-18) + 7.0086493617754e-17) - 5.30976813096426e-31)) + Treble(Bass(Basspow(fs,3)(fs(3.29406520003434e-23fs - 8.41037923413049e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(9.57191864161859e-27fs + 2.78668420538176e-23) - 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(-3.29406520003434e-23fs + 8.41037923413049e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(3.44449785720978e-23fs - 8.87788261391865e-22) + 1.1408541599688e-23)) + pow(fs,3)(fs(-5.012519965817e-23fs + 1.2740787159416e-21) - 6.08366393926321e-36)) + fs(fs(fs(fs(-1.9167991093574e-24fs + 1.62675486710906e-20) - 1.95786469833648e-18) - 7.39993880685971e-17) + 8.55640619976602e-18); b5 = Bass(Basspow(fs,2)(fs(fs(2.08000946656956e-27fs + 3.29838842203039e-21) - 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(-3.70058120006252e-25fs + 3.84955928653808e-22) - 1.66273197458755e-18) + 7.0086493617754e-17) - 1.76992271032142e-31)) + Treble(Bass(Basspow(fs,3)(fs(-6.58813040006868e-24fs + 2.80345974471016e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(-1.91438372832372e-27fs - 9.28894735127254e-24) + 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(6.58813040006868e-24fs - 2.80345974471016e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(-6.88899571441955e-24fs + 2.95929420463955e-22) - 1.1408541599688e-23)) + pow(fs,3)(fs(1.0025039931634e-23fs - 4.24692905313867e-22) + 6.08366393926321e-36)) + fs(fs(fs(fs(3.8335982187148e-25fs - 5.42251622369686e-21) + 1.95786469833648e-18) - 7.39993880685971e-17) + 2.85213539992201e-18); a0 = Bass(Bass(fs(fs(fs(fs(-6.72581680534004e-24fs - 4.41586600140972e-21) - 7.47371530788388e-19) - 9.57970935359556e-17) + 1.78867236680673e-28) + 4.51350125457133e-43) + fs(fs(fs(fs(7.09491773348213e-24fs + 8.1036807179337e-21) + 2.55872993315156e-18) + 1.677855547693e-16) + 8.47611869896916e-17) - 1.90136609408475e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(5.49427436280305e-24fs - 3.14344447184204e-23) + 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(1.11582073532266e-24fs + 3.23543557700559e-22) + 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(1.11390635159433e-24fs + 3.18702063081927e-22) - 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(-7.72208706599171e-24fs - 6.05969681445433e-22) - 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(-9.07610804066639e-25fs - 3.13971543026984e-22) - 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(-2.23797473617709e-24fs + 1.74849041434644e-22) + 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(3.22318393238815e-24fs + 2.32489770791907e-21) + 5.44196016387214e-19) + 9.66029729825488e-17) + 4.5272406798381e-15) + 4.23805934949371e-15; a1 = Bass(Bass(fs(fs(fs(fs(3.36290840267002e-23fs + 1.32475980042292e-20) + 7.47371530788388e-19) - 9.57970935359556e-17) + 5.3660171004202e-28) + 2.25675062728566e-42) + fs(fs(fs(fs(-3.54745886674106e-23fs - 2.43110421538011e-20) - 2.55872993315156e-18) + 1.677855547693e-16) + 2.54283560969075e-16) - 9.50683047042375e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(-2.74713718140152e-23fs + 9.43033341552612e-23) - 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(-5.57910367661329e-24fs - 9.70630673101678e-22) - 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.56953175797167e-24fs - 9.5610618924578e-22) + 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(3.86104353299586e-23fs + 1.8179090443363e-21) + 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(4.53805402033319e-24fs + 9.41914629080951e-22) + 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(1.11898736808855e-23fs - 5.24547124303932e-22) - 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(-1.61159196619408e-23fs - 6.9746931237572e-21) - 5.44196016387214e-19) + 9.66029729825488e-17) + 1.35817220395143e-14) + 2.11902967474685e-14; a2 = Bass(Bass(fs(fs(fs(fs(-6.72581680534004e-23fs - 8.83173200281944e-21) + 1.49474306157678e-18) + 1.91594187071911e-16) + 3.57734473361347e-28) + 4.51350125457133e-42) + fs(fs(fs(fs(7.09491773348213e-23fs + 1.62073614358674e-20) - 5.11745986630311e-18) - 3.35571109538599e-16) + 1.69522373979383e-16) - 1.90136609408475e-27) + Treble(Bass(Basspow(fs,2)(fs(fs(5.49427436280305e-23fs - 6.28688894368408e-23) - 6.78089495920395e-22) + 1.52109287526779e-33) + pow(fs,2)(fs(fs(1.11582073532266e-23fs + 6.47087115401119e-22) - 1.70623420868666e-21) - 6.78089495919005e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(1.11390635159433e-23fs + 6.37404126163853e-22) + 1.42821764020433e-33) + 3.61080100365706e-48) + pow(fs,2)(fs(fs(-7.72208706599171e-23fs - 1.21193936289087e-21) + 6.78089495917539e-22) - 1.5210928752678e-33)) + pow(fs,2)(fs(fs(-9.07610804066639e-24fs - 6.27943086053967e-22) + 3.60154479152234e-20) + 3.39044747959497e-20)) + pow(fs,2)(fs(fs(-2.23797473617709e-23fs + 3.49698082869288e-22) - 3.48396490405458e-20) - 1.39493895550264e-34)) + fs(fs(fs(fs(3.22318393238815e-23fs + 4.64979541583813e-21) - 1.08839203277443e-18) - 1.93205945965098e-16) + 9.05448135967619e-15) + 4.23805934949371e-14; a3 = Bass(Bass(fs(fs(fs(fs(6.72581680534004e-23fs - 8.83173200281944e-21) - 1.49474306157678e-18) + 1.91594187071911e-16) - 3.57734473361347e-28) + 4.51350125457133e-42) + fs(fs(fs(fs(-7.09491773348213e-23fs + 1.62073614358674e-20) + 5.11745986630311e-18) - 3.35571109538599e-16) - 1.69522373979383e-16) - 1.90136609408475e-27) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.49427436280305e-23fs - 6.28688894368408e-23) + 6.78089495920395e-22) + 1.52109287526779e-33) + pow(fs,2)(fs(fs(-1.11582073532266e-23fs + 6.47087115401119e-22) + 1.70623420868666e-21) - 6.78089495919005e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-1.11390635159433e-23fs + 6.37404126163853e-22) - 1.42821764020433e-33) + 3.61080100365706e-48) + pow(fs,2)(fs(fs(7.72208706599171e-23fs - 1.21193936289087e-21) - 6.78089495917539e-22) - 1.5210928752678e-33)) + pow(fs,2)(fs(fs(9.07610804066639e-24fs - 6.27943086053967e-22) - 3.60154479152234e-20) + 3.39044747959497e-20)) + pow(fs,2)(fs(fs(2.23797473617709e-23fs + 3.49698082869288e-22) + 3.48396490405458e-20) - 1.39493895550264e-34)) + fs(fs(fs(fs(-3.22318393238815e-23fs + 4.64979541583813e-21) + 1.08839203277443e-18) - 1.93205945965098e-16) - 9.05448135967619e-15) + 4.23805934949371e-14; a4 = Bass(Bass(fs(fs(fs(fs(-3.36290840267002e-23fs + 1.32475980042292e-20) - 7.47371530788388e-19) - 9.57970935359556e-17) - 5.3660171004202e-28) + 2.25675062728566e-42) + fs(fs(fs(fs(3.54745886674106e-23fs - 2.43110421538011e-20) + 2.55872993315156e-18) + 1.677855547693e-16) - 2.54283560969075e-16) - 9.50683047042375e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(2.74713718140152e-23fs + 9.43033341552612e-23) + 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(5.57910367661329e-24fs - 9.70630673101678e-22) + 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(5.56953175797167e-24fs - 9.5610618924578e-22) - 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(-3.86104353299586e-23fs + 1.8179090443363e-21) - 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(-4.53805402033319e-24fs + 9.41914629080951e-22) - 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(-1.11898736808855e-23fs - 5.24547124303932e-22) + 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(1.61159196619408e-23fs - 6.9746931237572e-21) + 5.44196016387214e-19) + 9.66029729825488e-17) - 1.35817220395143e-14) + 2.11902967474685e-14; a5 = Bass(Bass(fs(fs(fs(fs(6.72581680534004e-24fs - 4.41586600140972e-21) + 7.47371530788388e-19) - 9.57970935359556e-17) - 1.78867236680673e-28) + 4.51350125457133e-43) + fs(fs(fs(fs(-7.09491773348213e-24fs + 8.1036807179337e-21) - 2.55872993315156e-18) + 1.677855547693e-16) - 8.47611869896916e-17) - 1.90136609408475e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.49427436280305e-24fs - 3.14344447184204e-23) - 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(-1.11582073532266e-24fs + 3.23543557700559e-22) - 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-1.11390635159433e-24fs + 3.18702063081927e-22) + 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(7.72208706599171e-24fs - 6.05969681445433e-22) + 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(9.07610804066639e-25fs - 3.13971543026984e-22) + 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(2.23797473617709e-24fs + 1.74849041434644e-22) - 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(-3.22318393238815e-24fs + 2.32489770791907e-21) - 5.44196016387214e-19) + 9.66029729825488e-17) - 4.5272406798381e-15) + 4.23805934949371e-15; }; process = _<:(dry),((wet) :p1:p2):>_;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/plugins/coverd.dsp	faust	generated automatically DO NOT MODIFY!	declare id "coverd"; declare name "C Overdrive"; declare category "Distortion"; declare shortname "C Overdrive"; declare description "Colorsound Overdrive"; import("stdfaust.lib"); 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; p1 = fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0)) : overdrive with { Gain = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); overdrive(x) = (x(abs(x) + 0.5)/(xx + (0.5-1)abs(x) + 1)) Gain; b0 = Gainfs(fs(fs(fs(3.97647190322603e-27fs - 4.95880631786145e-19) - 2.12282875792926e-17) - 2.95727845714664e-18) - 2.63401345836477e-31) + fs(fs(fs(fs(-7.42702058644117e-27fs + 7.89889133199585e-19) + 3.48875412150739e-17) + 5.04598373508118e-17) + 6.57172990476634e-18); b1 = Gainfs(fs(fs(fs(-1.98823595161302e-26fs + 1.48764189535843e-18) + 2.12282875792926e-17) - 2.95727845714664e-18) - 7.9020403750943e-31) + fs(fs(fs(fs(3.71351029322059e-26fs - 2.36966739959876e-18) - 3.48875412150739e-17) + 5.04598373508118e-17) + 1.9715189714299e-17); b2 = Gainfs(fs(fs(fs(3.97647190322603e-26fs - 9.91761263572289e-19) + 4.24565751585853e-17) + 5.91455691429328e-18) - 5.26802691672954e-31) + fs(fs(fs(fs(-7.42702058644117e-26fs + 1.57977826639917e-18) - 6.97750824301479e-17) - 1.00919674701624e-16) + 1.31434598095327e-17); b3 = Gainfs(fs(fs(fs(-3.97647190322603e-26fs - 9.91761263572289e-19) - 4.24565751585853e-17) + 5.91455691429328e-18) + 5.26802691672954e-31) + fs(fs(fs(fs(7.42702058644117e-26fs + 1.57977826639917e-18) + 6.97750824301479e-17) - 1.00919674701624e-16) - 1.31434598095327e-17); b4 = Gainfs(fs(fs(fs(1.98823595161302e-26fs + 1.48764189535843e-18) - 2.12282875792926e-17) - 2.95727845714664e-18) + 7.9020403750943e-31) + fs(fs(fs(fs(-3.71351029322059e-26fs - 2.36966739959876e-18) + 3.48875412150739e-17) + 5.04598373508118e-17) - 1.9715189714299e-17); b5 = Gainfs(fs(fs(fs(-3.97647190322603e-27fs - 4.95880631786145e-19) + 2.12282875792926e-17) - 2.95727845714664e-18) + 2.63401345836477e-31) + fs(fs(fs(fs(7.42702058644117e-27fs + 7.89889133199585e-19) - 3.48875412150739e-17) + 5.04598373508118e-17) - 6.57172990476634e-18); a0 = Gain(fs(fs(fs(fs(-2.40788246727257e-24fs - 1.83337089189981e-19) - 1.0884037880131e-17) - 2.17663092851014e-16) - 5.23377299648722e-16) - 4.66166061483529e-29) + fs(fs(fs(fs(2.78713041660513e-24fs + 2.03907877623046e-19) + 1.25272695161612e-17) + 3.13137866048362e-16) + 1.42685467015479e-15) + 1.16306066588601e-15; a1 = Gain(fs(fs(fs(fs(1.20394123363628e-23fs + 5.50011267569942e-19) + 1.0884037880131e-17) - 2.17663092851014e-16) - 1.57013189894617e-15) - 2.33083030741764e-28) + fs(fs(fs(fs(-1.39356520830257e-23fs - 6.11723632869138e-19) - 1.25272695161612e-17) + 3.13137866048362e-16) + 4.28056401046438e-15) + 5.81530332943008e-15; a2 = Gain(fs(fs(fs(fs(-2.40788246727257e-23fs - 3.66674178379961e-19) + 2.17680757602621e-17) + 4.35326185702027e-16) - 1.04675459929744e-15) - 4.66166061483529e-28) + fs(fs(fs(fs(2.78713041660513e-23fs + 4.07815755246092e-19) - 2.50545390323223e-17) - 6.26275732096724e-16) + 2.85370934030959e-15) + 1.16306066588602e-14; a3 = Gain(fs(fs(fs(fs(2.40788246727257e-23fs - 3.66674178379961e-19) - 2.17680757602621e-17) + 4.35326185702027e-16) + 1.04675459929744e-15) - 4.66166061483529e-28) + fs(fs(fs(fs(-2.78713041660513e-23fs + 4.07815755246092e-19) + 2.50545390323223e-17) - 6.26275732096724e-16) - 2.85370934030959e-15) + 1.16306066588602e-14; a4 = Gain(fs(fs(fs(fs(-1.20394123363628e-23fs + 5.50011267569942e-19) - 1.0884037880131e-17) - 2.17663092851014e-16) + 1.57013189894617e-15) - 2.33083030741764e-28) + fs(fs(fs(fs(1.39356520830257e-23fs - 6.11723632869138e-19) + 1.25272695161612e-17) + 3.13137866048362e-16) - 4.28056401046438e-15) + 5.81530332943008e-15; a5 = Gain(fs(fs(fs(fs(2.40788246727257e-24fs - 1.83337089189981e-19) + 1.0884037880131e-17) - 2.17663092851014e-16) + 5.23377299648722e-16) - 4.66166061483529e-29) + fs(fs(fs(fs(-2.78713041660513e-24fs + 2.03907877623046e-19) - 1.25272695161612e-17) + 3.13137866048362e-16) - 1.42685467015479e-15) + 1.16306066588601e-15; }; p2 = 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 { Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Bass(Basspow(fs,2)(fs(fs(-2.08000946656956e-27fs + 3.29838842203039e-21) + 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(3.70058120006252e-25fs + 3.84955928653808e-22) + 1.66273197458755e-18) + 7.0086493617754e-17) + 1.76992271032142e-31)) + Treble(Bass(Basspow(fs,3)(fs(6.58813040006868e-24fs + 2.80345974471016e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(1.91438372832372e-27fs - 9.28894735127254e-24) - 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(-6.58813040006868e-24fs - 2.80345974471016e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(6.88899571441955e-24fs + 2.95929420463955e-22) + 1.1408541599688e-23)) + pow(fs,3)(fs(-1.0025039931634e-23fs - 4.24692905313867e-22) - 6.08366393926321e-36)) + fs(fs(fs(fs(-3.8335982187148e-25fs - 5.42251622369686e-21) - 1.95786469833648e-18) - 7.39993880685971e-17) - 2.85213539992201e-18); b1 = Bass(Basspow(fs,2)(fs(fs(1.04000473328478e-26fs - 9.89516526609117e-21) - 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(-1.85029060003126e-24fs - 1.15486778596142e-21) - 1.66273197458755e-18) + 7.0086493617754e-17) + 5.30976813096426e-31)) + Treble(Bass(Basspow(fs,3)(fs(-3.29406520003434e-23fs - 8.41037923413049e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(-9.57191864161859e-27fs + 2.78668420538176e-23) + 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(3.29406520003434e-23fs + 8.41037923413049e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(-3.44449785720978e-23fs - 8.87788261391865e-22) - 1.1408541599688e-23)) + pow(fs,3)(fs(5.012519965817e-23fs + 1.2740787159416e-21) + 6.08366393926321e-36)) + fs(fs(fs(fs(1.9167991093574e-24fs + 1.62675486710906e-20) + 1.95786469833648e-18) - 7.39993880685971e-17) - 8.55640619976602e-18); b2 = Bass(Basspow(fs,2)(fs(fs(-2.08000946656956e-26fs + 6.59677684406078e-21) - 2.80368791554216e-19) - 7.07969084128568e-34) + fs(fs(fs(fs(3.70058120006252e-24fs + 7.69911857307616e-22) - 3.32546394917509e-18) - 1.40172987235508e-16) + 3.53984542064284e-31)) + Treble(Bass(Basspow(fs,3)(fs(6.58813040006868e-23fs + 5.60691948942032e-22) - 1.41593816825714e-36) + pow(fs,3)(fs(1.91438372832372e-26fs - 1.85778947025451e-23) + 4.56341663987291e-23)) + Treble(Basspow(fs,3)(fs(-6.58813040006868e-23fs - 5.60691948942032e-22) + 1.41593816825714e-36) + pow(fs,3)(fs(6.88899571441955e-23fs + 5.9185884092791e-22) - 2.28170831993761e-23)) + pow(fs,3)(fs(-1.0025039931634e-22fs - 8.49385810627733e-22) + 1.21673278785264e-35)) + fs(fs(fs(fs(-3.8335982187148e-24fs - 1.08450324473937e-20) + 3.91572939667295e-18) + 1.47998776137194e-16) - 5.70427079984401e-18); b3 = Bass(Basspow(fs,2)(fs(fs(2.08000946656956e-26fs + 6.59677684406078e-21) + 2.80368791554216e-19) - 7.07969084128568e-34) + fs(fs(fs(fs(-3.70058120006252e-24fs + 7.69911857307616e-22) + 3.32546394917509e-18) - 1.40172987235508e-16) - 3.53984542064284e-31)) + Treble(Bass(Basspow(fs,3)(fs(-6.58813040006868e-23fs + 5.60691948942032e-22) + 1.41593816825714e-36) + pow(fs,3)(fs(-1.91438372832372e-26fs - 1.85778947025451e-23) - 4.56341663987291e-23)) + Treble(Basspow(fs,3)(fs(6.58813040006868e-23fs - 5.60691948942032e-22) - 1.41593816825714e-36) + pow(fs,3)(fs(-6.88899571441955e-23fs + 5.9185884092791e-22) + 2.28170831993761e-23)) + pow(fs,3)(fs(1.0025039931634e-22fs - 8.49385810627733e-22) - 1.21673278785264e-35)) + fs(fs(fs(fs(3.8335982187148e-24fs - 1.08450324473937e-20) - 3.91572939667295e-18) + 1.47998776137194e-16) + 5.70427079984401e-18); b4 = Bass(Basspow(fs,2)(fs(fs(-1.04000473328478e-26fs - 9.89516526609117e-21) + 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(1.85029060003126e-24fs - 1.15486778596142e-21) + 1.66273197458755e-18) + 7.0086493617754e-17) - 5.30976813096426e-31)) + Treble(Bass(Basspow(fs,3)(fs(3.29406520003434e-23fs - 8.41037923413049e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(9.57191864161859e-27fs + 2.78668420538176e-23) - 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(-3.29406520003434e-23fs + 8.41037923413049e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(3.44449785720978e-23fs - 8.87788261391865e-22) + 1.1408541599688e-23)) + pow(fs,3)(fs(-5.012519965817e-23fs + 1.2740787159416e-21) - 6.08366393926321e-36)) + fs(fs(fs(fs(-1.9167991093574e-24fs + 1.62675486710906e-20) - 1.95786469833648e-18) - 7.39993880685971e-17) + 8.55640619976602e-18); b5 = Bass(Basspow(fs,2)(fs(fs(2.08000946656956e-27fs + 3.29838842203039e-21) - 1.40184395777108e-19) + 3.53984542064284e-34) + fs(fs(fs(fs(-3.70058120006252e-25fs + 3.84955928653808e-22) - 1.66273197458755e-18) + 7.0086493617754e-17) - 1.76992271032142e-31)) + Treble(Bass(Basspow(fs,3)(fs(-6.58813040006868e-24fs + 2.80345974471016e-22) - 7.07969084128568e-37) + pow(fs,3)(fs(-1.91438372832372e-27fs - 9.28894735127254e-24) + 2.28170831993645e-23)) + Treble(Basspow(fs,3)(fs(6.58813040006868e-24fs - 2.80345974471016e-22) + 7.07969084128568e-37) + pow(fs,3)(fs(-6.88899571441955e-24fs + 2.95929420463955e-22) - 1.1408541599688e-23)) + pow(fs,3)(fs(1.0025039931634e-23fs - 4.24692905313867e-22) + 6.08366393926321e-36)) + fs(fs(fs(fs(3.8335982187148e-25fs - 5.42251622369686e-21) + 1.95786469833648e-18) - 7.39993880685971e-17) + 2.85213539992201e-18); a0 = Bass(Bass(fs(fs(fs(fs(-6.72581680534004e-24fs - 4.41586600140972e-21) - 7.47371530788388e-19) - 9.57970935359556e-17) + 1.78867236680673e-28) + 4.51350125457133e-43) + fs(fs(fs(fs(7.09491773348213e-24fs + 8.1036807179337e-21) + 2.55872993315156e-18) + 1.677855547693e-16) + 8.47611869896916e-17) - 1.90136609408475e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(5.49427436280305e-24fs - 3.14344447184204e-23) + 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(1.11582073532266e-24fs + 3.23543557700559e-22) + 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(1.11390635159433e-24fs + 3.18702063081927e-22) - 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(-7.72208706599171e-24fs - 6.05969681445433e-22) - 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(-9.07610804066639e-25fs - 3.13971543026984e-22) - 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(-2.23797473617709e-24fs + 1.74849041434644e-22) + 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(3.22318393238815e-24fs + 2.32489770791907e-21) + 5.44196016387214e-19) + 9.66029729825488e-17) + 4.5272406798381e-15) + 4.23805934949371e-15; a1 = Bass(Bass(fs(fs(fs(fs(3.36290840267002e-23fs + 1.32475980042292e-20) + 7.47371530788388e-19) - 9.57970935359556e-17) + 5.3660171004202e-28) + 2.25675062728566e-42) + fs(fs(fs(fs(-3.54745886674106e-23fs - 2.43110421538011e-20) - 2.55872993315156e-18) + 1.677855547693e-16) + 2.54283560969075e-16) - 9.50683047042375e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(-2.74713718140152e-23fs + 9.43033341552612e-23) - 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(-5.57910367661329e-24fs - 9.70630673101678e-22) - 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.56953175797167e-24fs - 9.5610618924578e-22) + 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(3.86104353299586e-23fs + 1.8179090443363e-21) + 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(4.53805402033319e-24fs + 9.41914629080951e-22) + 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(1.11898736808855e-23fs - 5.24547124303932e-22) - 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(-1.61159196619408e-23fs - 6.9746931237572e-21) - 5.44196016387214e-19) + 9.66029729825488e-17) + 1.35817220395143e-14) + 2.11902967474685e-14; a2 = Bass(Bass(fs(fs(fs(fs(-6.72581680534004e-23fs - 8.83173200281944e-21) + 1.49474306157678e-18) + 1.91594187071911e-16) + 3.57734473361347e-28) + 4.51350125457133e-42) + fs(fs(fs(fs(7.09491773348213e-23fs + 1.62073614358674e-20) - 5.11745986630311e-18) - 3.35571109538599e-16) + 1.69522373979383e-16) - 1.90136609408475e-27) + Treble(Bass(Basspow(fs,2)(fs(fs(5.49427436280305e-23fs - 6.28688894368408e-23) - 6.78089495920395e-22) + 1.52109287526779e-33) + pow(fs,2)(fs(fs(1.11582073532266e-23fs + 6.47087115401119e-22) - 1.70623420868666e-21) - 6.78089495919005e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(1.11390635159433e-23fs + 6.37404126163853e-22) + 1.42821764020433e-33) + 3.61080100365706e-48) + pow(fs,2)(fs(fs(-7.72208706599171e-23fs - 1.21193936289087e-21) + 6.78089495917539e-22) - 1.5210928752678e-33)) + pow(fs,2)(fs(fs(-9.07610804066639e-24fs - 6.27943086053967e-22) + 3.60154479152234e-20) + 3.39044747959497e-20)) + pow(fs,2)(fs(fs(-2.23797473617709e-23fs + 3.49698082869288e-22) - 3.48396490405458e-20) - 1.39493895550264e-34)) + fs(fs(fs(fs(3.22318393238815e-23fs + 4.64979541583813e-21) - 1.08839203277443e-18) - 1.93205945965098e-16) + 9.05448135967619e-15) + 4.23805934949371e-14; a3 = Bass(Bass(fs(fs(fs(fs(6.72581680534004e-23fs - 8.83173200281944e-21) - 1.49474306157678e-18) + 1.91594187071911e-16) - 3.57734473361347e-28) + 4.51350125457133e-42) + fs(fs(fs(fs(-7.09491773348213e-23fs + 1.62073614358674e-20) + 5.11745986630311e-18) - 3.35571109538599e-16) - 1.69522373979383e-16) - 1.90136609408475e-27) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.49427436280305e-23fs - 6.28688894368408e-23) + 6.78089495920395e-22) + 1.52109287526779e-33) + pow(fs,2)(fs(fs(-1.11582073532266e-23fs + 6.47087115401119e-22) + 1.70623420868666e-21) - 6.78089495919005e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-1.11390635159433e-23fs + 6.37404126163853e-22) - 1.42821764020433e-33) + 3.61080100365706e-48) + pow(fs,2)(fs(fs(7.72208706599171e-23fs - 1.21193936289087e-21) - 6.78089495917539e-22) - 1.5210928752678e-33)) + pow(fs,2)(fs(fs(9.07610804066639e-24fs - 6.27943086053967e-22) - 3.60154479152234e-20) + 3.39044747959497e-20)) + pow(fs,2)(fs(fs(2.23797473617709e-23fs + 3.49698082869288e-22) + 3.48396490405458e-20) - 1.39493895550264e-34)) + fs(fs(fs(fs(-3.22318393238815e-23fs + 4.64979541583813e-21) + 1.08839203277443e-18) - 1.93205945965098e-16) - 9.05448135967619e-15) + 4.23805934949371e-14; a4 = Bass(Bass(fs(fs(fs(fs(-3.36290840267002e-23fs + 1.32475980042292e-20) - 7.47371530788388e-19) - 9.57970935359556e-17) - 5.3660171004202e-28) + 2.25675062728566e-42) + fs(fs(fs(fs(3.54745886674106e-23fs - 2.43110421538011e-20) + 2.55872993315156e-18) + 1.677855547693e-16) - 2.54283560969075e-16) - 9.50683047042375e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(2.74713718140152e-23fs + 9.43033341552612e-23) + 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(5.57910367661329e-24fs - 9.70630673101678e-22) + 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(5.56953175797167e-24fs - 9.5610618924578e-22) - 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(-3.86104353299586e-23fs + 1.8179090443363e-21) - 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(-4.53805402033319e-24fs + 9.41914629080951e-22) - 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(-1.11898736808855e-23fs - 5.24547124303932e-22) + 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(1.61159196619408e-23fs - 6.9746931237572e-21) + 5.44196016387214e-19) + 9.66029729825488e-17) - 1.35817220395143e-14) + 2.11902967474685e-14; a5 = Bass(Bass(fs(fs(fs(fs(6.72581680534004e-24fs - 4.41586600140972e-21) + 7.47371530788388e-19) - 9.57970935359556e-17) - 1.78867236680673e-28) + 4.51350125457133e-43) + fs(fs(fs(fs(-7.09491773348213e-24fs + 8.1036807179337e-21) - 2.55872993315156e-18) + 1.677855547693e-16) - 8.47611869896916e-17) - 1.90136609408475e-28) + Treble(Bass(Basspow(fs,2)(fs(fs(-5.49427436280305e-24fs - 3.14344447184204e-23) - 3.39044747960198e-22) - 7.60546437633897e-34) + pow(fs,2)(fs(fs(-1.11582073532266e-24fs + 3.23543557700559e-22) - 8.5311710434333e-22) + 3.39044747959503e-20)) + Treble(Bass(Basspow(fs,2)(fs(fs(-1.11390635159433e-24fs + 3.18702063081927e-22) + 7.14108820102165e-34) - 1.80540050182853e-48) + pow(fs,2)(fs(fs(7.72208706599171e-24fs - 6.05969681445433e-22) + 3.39044747958769e-22) + 7.605464376339e-34)) + pow(fs,2)(fs(fs(9.07610804066639e-25fs - 3.13971543026984e-22) + 1.80077239576117e-20) - 1.69522373979748e-20)) + pow(fs,2)(fs(fs(2.23797473617709e-24fs + 1.74849041434644e-22) - 1.74198245202729e-20) + 6.97469477751319e-35)) + fs(fs(fs(fs(-3.22318393238815e-24fs + 2.32489770791907e-21) - 5.44196016387214e-19) + 9.66029729825488e-17) - 4.5272406798381e-15) + 4.23805934949371e-15; }; process = _<:(dry),((wet) :p1:p2):>_;
cc99c2aa7c64d4b0b1a0b34f736f9633fc982104a14729b5d7bec9436a8f5d97	brummer10/FatFrog.lv2	FatFrog.dsp	/***************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i FatFrog_p1.sch FatFrog_p2.sch FatFrog_p3.sch PlexiPowerAmpEL34.sch JMP_p1.sch JMP_p2.sch -T --table_neg 2 4 -o 10 -x 15.0 -N --switch 1=Bright --bypass -r 1=0.333 3=0.666 4=0.666 5=0.555 6=0.555 --build --name FatFrog ***************************************************************************/ // generated automatically // DO NOT MODIFY! declare id "fatfrog"; declare name "FatFrog"; declare category "Extern"; declare shortname "FatFrog"; declare description "HighGain Amplifier"; import("stdfaust.lib"); /***************************************************************************** * 1-dimensional function table for linear interpolation ******************************************************************************/ rd = library("reducemaps.lib"); //-- Rdtable from waveform rtable(table, r) = (table, int(r)):rdtable; //-- Copy the sign of x to f ccopysign(f, x) = ma.fabs(f) sign(x); //-- Get sign of value x sign(x) = x<0, 1, -1 : select2; //-- Check if value x is negative fsignbit(x) = x<0; //-- Get fractal part of value n fractal(n) = n - int(n); //-- Interpolate value between i and i+1 in table with fractal coefficient f. interpolation(table, size, f, i) = select2(i<0,select2(i>size-2, rtable(table, i)(1-f) + rtable(table,i+1)f, rtable(table, size-1)), rtable(table, 0)) : table_gate(table); //-- reduce dc-offset (noise) from table response for very low values table_gate(table,x) = select2(ma.fabs(x):rd.maxn(4096)<ma.fabs(rtable(table, 1))(0.12), x, xxx); //-- Linear interpolation for value x in rdtable circuit_response(table, low, high, step, size, x) = interpolation(table, size, fractal(linindex(step, x)), int(linindex(step, x))), x : ccopysign; //-- Calculate linear table index for value x linindex(step, x) = ma.fabs(x) step; //-- predefined filterbank freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); /******************************************************************************* * fatfrog_p1 generated by dkbuiler from FatFrog_p1.sch ******************************************************************************/ p1 = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(4.16735243056623e-10fs - 1.34532561213629e-5) - 0.00381962735513334; b1 = -8.33470486113245e-10pow(fs,2) - 0.00763925471026669; b2 = fs(4.16735243056623e-10fs + 1.34532561213629e-5) - 0.00381962735513334; a0 = fs(4.16735243056623e-10fs + 8.26427569712678e-7) + 0.000173476651332639; a1 = -8.33470486113245e-10pow(fs,2) + 0.000346953302665278; a2 = fs(4.16735243056623e-10fs - 8.26427569712678e-7) + 0.000173476651332639; }; /**************************************************************************************** * fatfrog_p2_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max 15.000000 // --table_div 24.187463 // --table_op 10.000000 fatfrog_p2_clip = circuit_response(fatfrog_p2_table, low, high, step, size) with{ low = 0; high =-0.833333; step =132.667; size =200; fatfrog_p2_table = waveform { 0.000000000000,-0.010712151353,-0.020788209399,-0.030288758114,-0.039268727972, -0.047777878957,-0.055861253976,-0.063559601086,-0.070909764322,-0.077945043733, -0.084695525822,-0.091188385904,-0.097448164100,-0.103497016752,-0.109354945070, -0.115040002789,-0.120568484534,-0.125955096528,-0.131213111156,-0.136354506821, -0.141390094406,-0.146329631577,-0.151181926031,-0.155954928737,-0.160655818100, -0.165291075921,-0.169866555921,-0.174387545552,-0.178858821741,-0.183284701150, -0.187669085492,-0.192015502374,-0.196327142115,-0.200606890924,-0.204857360800, -0.209080916478,-0.213279699707,-0.217455651124,-0.221610529963,-0.225745931815, -0.229863304625,-0.233963963109,-0.238049101740,-0.242119806446,-0.246177065159, -0.250221777310,-0.254254762385,-0.258276767646,-0.262288475074,-0.266290507633, -0.270283434918,-0.274267778242,-0.278244015219,-0.282212583903,-0.286173886510, -0.290128292786,-0.294076143032,-0.298017750841,-0.301953405562,-0.305883374529, -0.309807905062,-0.313727226289,-0.317641550772,-0.321551075990,-0.325455985674, -0.329356451010,-0.333252631727,-0.337144677089,-0.341032726776,-0.344916911697, -0.348797354719,-0.352674171321,-0.356547470200,-0.360417353807,-0.364283918841, -0.368147256694,-0.372007453859,-0.375864592290,-0.379718749745,-0.383570000084, -0.387418413547,-0.391264057005,-0.395106994195,-0.398947285921,-0.402784990254, -0.406620162699,-0.410452856364,-0.414283122097,-0.418111008630,-0.421936562697, -0.425759829147,-0.429580851053,-0.433399669805,-0.437216325201,-0.441030855527, -0.444843297634,-0.448653687011,-0.452462057847,-0.456268443094,-0.460072874521, -0.463875382772,-0.467675997409,-0.471474746966,-0.475271658982,-0.479066760051, -0.482860075855,-0.486651631202,-0.490441450058,-0.494229555581,-0.498015970149, -0.501800715391,-0.505583812212,-0.509365280819,-0.513145140748,-0.516923410882, -0.520700109479,-0.524475254190,-0.528248862079,-0.532020949643,-0.535791532830, -0.539560627060,-0.543328247235,-0.547094407762,-0.550859122566,-0.554622405105, -0.558384268384,-0.562144724971,-0.565903787008,-0.569661466225,-0.573417773953, -0.577172721136,-0.580926318342,-0.584678575774,-0.588429503283,-0.592179110376, -0.595927406228,-0.599674399689,-0.603420099300,-0.607164513294,-0.610907649610, -0.614649515903,-0.618390119547,-0.622129467649,-0.625867567053,-0.629604424348, -0.633340045879,-0.637074437750,-0.640807605833,-0.644539555775,-0.648270293005, -0.651999822738,-0.655728149984,-0.659455279554,-0.663181216063,-0.666905963940, -0.670629527429,-0.674351910599,-0.678073117346,-0.681793151398,-0.685512016324, -0.689229715533,-0.692946252284,-0.696661629687,-0.700375850709,-0.704088918178, -0.707800834787,-0.711511603098,-0.715221225547,-0.718929704448,-0.722637041994, -0.726343240263,-0.730048301221,-0.733752226727,-0.737455018533,-0.741156678289, -0.744857207547,-0.748556607765,-0.752254880305,-0.755952026441,-0.759648047360, -0.763342944165,-0.767036717877,-0.770729369438,-0.774420899714,-0.778111309497, -0.781800599506,-0.785488770393,-0.789175822741,-0.792861757070,-0.796546573836, -0.800230273435,-0.803912856202,-0.807594322420,-0.811274672313,-0.814953906054, -0.818632023765,-0.822309025516,-0.825984911333,-0.829659681193,-0.833333335030 }; }; /************************************************************************************** * fatfrog_p2_neg_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max -15.000000 // --table_div 24.187463 // --table_op 10.000000 fatfrog_p2_neg_clip = circuit_response(fatfrog_p2_neg_table, low, high, step, size) with{ low = 0; high =0.550206; step =132.667; size =200; fatfrog_p2_neg_table = waveform { 0.000000000000,0.010689788950,0.020704100806,0.030110387046,0.038969146539, 0.047334652345,0.055255601546,0.062775696308,0.069934163529,0.076766219616, 0.083303486286,0.089574362602,0.095604357934,0.101416390011,0.107031051779, 0.112466850390,0.117740421276,0.122866719950,0.127859193885,0.132729936577, 0.137489825657,0.142148646743,0.146715204506,0.151197422304,0.155602431561, 0.159936651967,0.164205863459,0.168415270810,0.172569561627,0.176672958401, 0.180729265255,0.184741909912,0.188713981390,0.192648263856,0.196547267032, 0.200413253506,0.204248263277,0.208054135791,0.211832529755,0.215584940928, 0.219312718116,0.223017077541,0.226699115755,0.230359821245,0.234000084864, 0.237620709205,0.241222417027,0.244805858825,0.248371619639,0.251920225171, 0.255452147280,0.258967808926,0.262467588611,0.265951824368,0.269420817349, 0.272874835046,0.276314114187,0.279738863334,0.283149265224,0.286545478856, 0.289927641386,0.293295869804,0.296650262457,0.299990900404,0.303317848633, 0.306631157153,0.309930861966,0.313216985943,0.316489539595,0.319748521778, 0.322993920300,0.326225712477,0.329443865619,0.332648337459,0.335839076535, 0.339016022523,0.342179106530,0.345328251350,0.348463371679,0.351584374310, 0.354691158288,0.357783615049,0.360861628529,0.363925075253,0.366973824408, 0.370007737893,0.373026670354,0.376030469211,0.379018974658,0.381992019666, 0.384949429965,0.387891024015,0.390816612979,0.393726000673,0.396618983521, 0.399495350497,0.402354883062,0.405197355103,0.408022532855,0.410830174836, 0.413620031765,0.416391846489,0.419145353907,0.421880280892,0.424596346217, 0.427293260482,0.429970726049,0.432628436977,0.435266078966,0.437883329304, 0.440479856835,0.443055321921,0.445609376432,0.448141663738,0.450651818724, 0.453139467821,0.455604229059,0.458045712136,0.460463518524,0.462857241591, 0.465226466759,0.467570771697,0.469889726546,0.472182894186,0.474449830551, 0.476690084982,0.478903200634,0.481088714942,0.483246160139,0.485375063837, 0.487474949674,0.489545338033,0.491585746830,0.493595692384,0.495574690361, 0.497522256806,0.499437909259,0.501321167961,0.503171557148,0.504988606437, 0.506771852302,0.508520839644,0.510235123443,0.511914270507,0.513557861287, 0.515165491787,0.516736775524,0.518271345564,0.519768856600,0.521228987068, 0.522651441289,0.524035951619,0.525382280592,0.526690223025,0.527959608090, 0.529190301302,0.530382206421,0.531535267232,0.532649469193,0.533724840907, 0.534761455413,0.535759431267,0.536718933388,0.537640173654,0.538523411235, 0.539368952636,0.540177151460,0.540948407866,0.541683167728,0.542381921495, 0.543045202761,0.543673586549,0.544267687332,0.544828156796,0.545355681386, 0.545850979647,0.546314799384,0.546747914694,0.547151122873,0.547525241250, 0.547871103981,0.548189558816,0.548481463903,0.548747684625,0.548989090523, 0.549206552318,0.549400939057,0.549573115407,0.549723939108,0.549854258601, 0.549964910839,0.550056719295,0.550130492159,0.550187020738,0.550227078049, 0.550251417605,0.550260772389,0.550255854006,0.550237352009,0.550205933387 }; }; /***************************************************************************** * fatfrog_p2 generated by dkbuiler from FatFrog_p2.sch ******************************************************************************/ p2 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : fatfrog_p2clip 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 = _; Volume = vslider("Volume[name:Volume][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Volume(Volumepow(fs,2)(1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(-1.12794330933527e-13fs - 3.11703482654466e-10) - 1.27653158593851e-7)); b1 = Volume(Volumepow(fs,2)(-3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(3.3838299280058e-13fs + 3.11703482654466e-10) - 1.27653158593851e-7)); b2 = Volume(Volumepow(fs,2)(3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(-3.3838299280058e-13fs + 3.11703482654466e-10) + 1.27653158593851e-7)); b3 = Volume(Volumepow(fs,2)(-1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(1.12794330933527e-13fs - 3.11703482654466e-10) + 1.27653158593851e-7)); a0 = Volume(Volumefs(fs(-3.18232353484157e-14fs - 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(3.18232353484157e-14fs + 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(4.97661233640118e-11fs + 5.40406043934383e-8) + 1.16799996131758e-6; a1 = Volume(Volumefs(fs(9.54697060452472e-14fs + 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(-9.54697060452472e-14fs - 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs + 5.40406043934383e-8) + 3.50399988395273e-6; a2 = Volume(Volumefs(fs(-9.54697060452472e-14fs + 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(9.54697060452472e-14fs - 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs - 5.40406043934383e-8) + 3.50399988395273e-6; a3 = Volume(Volumefs(fs(3.18232353484157e-14fs - 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(-3.18232353484157e-14fs + 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(4.97661233640118e-11fs - 5.40406043934383e-8) + 1.16799996131758e-6; }; fatfrog_p2p = _<: ba.if(fsignbit(_), fatfrog_p2_neg_clip, fatfrog_p2_clip) :>_ ; fatfrog_p2clip = freq_split: ( fatfrog_p2p , fatfrog_p2p , fatfrog_p2p, fatfrog_p2p, fatfrog_p2p) :>_; /******************************************************************************* * fatfrog_p3 generated by dkbuiler from FatFrog_p3.sch ******************************************************************************/ p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Master = vslider("Master[name:Master][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Bass = vslider("Bass[name:Bass][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(7) : si.smooth(s); Treble = vslider("Treble[name:Treble][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Master(Bass(Middlepow(fs,2)(-3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(-7.65965608134806e-15fs - 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(-4.54129807194549e-13Basspow(fs,3) + 9.99085575828008e-15Middlepow(fs,3) + fs(fs(-9.99085575828008e-15fs - 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs - 3.39833297621287e-8)); b1 = Master(Bass(Middlepow(fs,2)(1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(2.29789682440442e-14fs + 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(1.36238942158365e-12Basspow(fs,3) - 2.99725672748402e-14Middlepow(fs,3) + fs(fs(2.99725672748402e-14fs + 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(8.94498105080173e-12fs - 3.39833297621287e-8)); b2 = Master(Bass(Middlepow(fs,2)(-1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(-2.29789682440442e-14fs + 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(-1.36238942158365e-12Basspow(fs,3) + 2.99725672748402e-14Middlepow(fs,3) + fs(fs(-2.99725672748402e-14fs + 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(8.94498105080173e-12fs + 3.39833297621287e-8)); b3 = Master(Bass(Middlepow(fs,2)(3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(7.65965608134806e-15fs - 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(4.54129807194549e-13Basspow(fs,3) - 9.99085575828008e-15Middlepow(fs,3) + fs(fs(9.99085575828008e-15fs - 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs + 3.39833297621287e-8)); a0 = Bass(Middlefs(fs(8.4448446570892e-15fs + 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(1.08432864509182e-14fs + 6.24344932141459e-11) + 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(-1.85786582455962e-16fs - 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(-5.27657194642384e-17fs - 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(2.38552301920201e-15fs + 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(-2.31243875101266e-17fs - 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(-1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(-2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(-5.23934856412778e-17fs - 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(5.24815064224442e-17fs + 3.86701328713641e-13) + 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(2.38552301920201e-16fs + 1.86643550757113e-12) + 3.40420425733631e-9) + 8.27983099470864e-7; a1 = Bass(Middlefs(fs(-2.53345339712676e-14fs - 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(-3.25298593527547e-14fs - 6.24344932141459e-11) + 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(5.57359747367887e-16fs + 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(1.58297158392715e-16fs + 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(-7.15656905760603e-15fs - 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(6.93731625303797e-17fs + 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(-1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(-5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(1.57180456923833e-16fs + 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(-1.57444519267333e-16fs - 3.86701328713641e-13) + 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(-7.15656905760603e-16fs - 1.86643550757113e-12) + 3.40420425733631e-9) + 2.48394929841259e-6; a2 = Bass(Middlefs(fs(2.53345339712676e-14fs - 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(3.25298593527547e-14fs - 6.24344932141459e-11) - 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(-5.57359747367887e-16fs + 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(-1.58297158392715e-16fs + 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(7.15656905760603e-15fs - 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(-6.93731625303797e-17fs + 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(-4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(-7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(-1.57180456923833e-16fs + 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(1.57444519267333e-16fs - 3.86701328713641e-13) - 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(7.15656905760603e-16fs - 1.86643550757113e-12) - 3.40420425733631e-9) + 2.48394929841259e-6; a3 = Bass(Middlefs(fs(-8.4448446570892e-15fs + 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(-1.08432864509182e-14fs + 6.24344932141459e-11) - 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(1.85786582455962e-16fs - 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(5.27657194642384e-17fs - 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(-2.38552301920201e-15fs + 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(2.31243875101266e-17fs - 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(-3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(-1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(5.23934856412778e-17fs - 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(-5.24815064224442e-17fs + 3.86701328713641e-13) - 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(-2.38552301920201e-16fs + 1.86643550757113e-12) - 3.40420425733631e-9) + 8.27983099470864e-7; }; /**************************************************************************************** * fatfrog_poweramp_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max 1.400000 // --table_div 1.684552 // --table_op 1.000000 fatfrog_poweramp_clip = circuit_response(fatfrog_poweramp_table, low, high, step, size) with{ low = 0; high =0.833333; step =142.143; size =200; fatfrog_poweramp_table = waveform { 0.000000000000,0.008825069056,0.017581566729,0.026269903187,0.034890465555, 0.043443658654,0.051929868850,0.060349505962,0.068702951545,0.076990613410, 0.085212874669,0.093370128103,0.101462771605,0.109491192293,0.117455779277, 0.125356920917,0.133195001455,0.140970418466,0.148683539107,0.156334761409, 0.163924456272,0.171453013208,0.178920811925,0.186328222432,0.193675625016, 0.200963407969,0.208191932778,0.215361567217,0.222472697993,0.229525680172, 0.236520901792,0.243458710457,0.250339474548,0.257163569576,0.263931348881, 0.270643177811,0.277299409324,0.283900407919,0.290446529521,0.296938122771, 0.303375546946,0.309759151256,0.316089285597,0.322366298196,0.328590535608, 0.334762342540,0.340882060475,0.346950036585,0.352966603290,0.358932104243, 0.364846877639,0.370711249622,0.376525560168,0.382290140574,0.388005315775, 0.393671416942,0.399288772025,0.404857702297,0.410378536938,0.415851589047, 0.421277181468,0.426655631817,0.431987254468,0.437272366677,0.442511279324, 0.447704303409,0.452851747777,0.457953921154,0.463011125387,0.468023669161, 0.472991851195,0.477915974277,0.482796332150,0.487633229188,0.492426956125, 0.497177807362,0.501886073846,0.506552046948,0.511176018334,0.515758270335, 0.520299087251,0.524798755416,0.529257556663,0.533675768918,0.538053670789, 0.542391540684,0.546689653613,0.550948279398,0.555167696010,0.559348168034, 0.563489964912,0.567593355127,0.571658603749,0.575685970920,0.579675724258, 0.583628117736,0.587543414507,0.591421871735,0.595263740340,0.599069279141, 0.602838737759,0.606572367383,0.610270417096,0.613933134590,0.617560765687, 0.621153554917,0.624711744403,0.628235577388,0.631725291806,0.635181126584, 0.638603318260,0.641992102801,0.645347712765,0.648670379716,0.651960337348, 0.655217812543,0.658443033155,0.661636227511,0.664797617402,0.667927428210, 0.671025880875,0.674093197740,0.677129595125,0.680135293039,0.683110506168, 0.686055448937,0.688970336972,0.691855380478,0.694710790096,0.697536776369, 0.700333545446,0.703101305038,0.705840260675,0.708550614229,0.711232569274, 0.713886327661,0.716512088070,0.719110049659,0.721680408531,0.724223361618, 0.726739103475,0.729227826292,0.731689723008,0.734124984098,0.736533798639, 0.738916355468,0.741272841367,0.743603441274,0.745908340423,0.748187722027, 0.750441767742,0.752670657655,0.754874572657,0.757053690735,0.759208188412, 0.761338242823,0.763444027128,0.765525716623,0.767583483045,0.769617497350, 0.771627930340,0.773614950578,0.775578726418,0.777519424545,0.779437210341, 0.781332248371,0.783204701796,0.785054734023,0.786882505198,0.788688175562, 0.790471904966,0.792233850299,0.793974169490,0.795693018007,0.797390550199, 0.799066920924,0.800722281709,0.802356785430,0.803970581781,0.805563820995, 0.807136651706,0.808689221322,0.810221676641,0.811734163187,0.813226825850, 0.814699808290,0.816153253063,0.817587302265,0.819002096686,0.820397775366, 0.821774478216,0.823132342882,0.824471506335,0.825792104528,0.827094272846, 0.828378145433,0.829643855964,0.830891536387,0.832121318561,0.833333333339 }; }; /************************************************************************************** * fatfrog_poweramp_neg_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max -1.400000 // --table_div 1.684552 // --table_op 1.000000 fatfrog_poweramp_neg_clip = circuit_response(fatfrog_poweramp_neg_table, low, high, step, size) with{ low = 0; high =-0.830434; step =142.143; size =200; fatfrog_poweramp_neg_table = waveform { 0.000000000000,-0.008825166416,-0.017581955846,-0.026270748592,-0.034891927952, -0.043445895020,-0.051933028482,-0.060353713507,-0.068708344701,-0.076997279049, -0.085220920211,-0.093379650456,-0.101473847974,-0.109503893701,-0.117470170243, -0.125373053511,-0.133212915640,-0.140990142782,-0.148705110523,-0.156358185222, -0.163949749539,-0.171480173168,-0.178949827852,-0.186359083790,-0.193708313082, -0.200997875893,-0.208228144469,-0.215399491663,-0.222512266704,-0.229566845140, -0.236563578802,-0.243502835296,-0.250384971175,-0.257210346178,-0.263979312312, -0.270692226415,-0.277349439820,-0.283951308672,-0.290498183437,-0.296990409097, -0.303428333067,-0.309812303564,-0.316142669098,-0.322419766753,-0.328643940091, -0.334815528853,-0.340934871940,-0.347002303943,-0.353018165786,-0.358982786115, -0.364896496770,-0.370759633766,-0.376572522445,-0.382335485534,-0.388048858784, -0.393712957996,-0.399328110793,-0.404894638133,-0.410412854580,-0.415883084307, -0.421305640058,-0.426680833592,-0.432008982476,-0.437290395884,-0.442525383943, -0.447714254521,-0.452857313789,-0.457954866525,-0.463007216132,-0.468014664763, -0.472977507652,-0.477896050270,-0.482770585254,-0.487601405460,-0.492388805190, -0.497133080728,-0.501834519752,-0.506493405025,-0.511110032103,-0.515684679743, -0.520217632509,-0.524709174236,-0.529159583293,-0.533569140304,-0.537938122341, -0.542266803832,-0.546555456680,-0.550804357015,-0.555013770934,-0.559183972674, -0.563315225583,-0.567407798699,-0.571461954073,-0.575477954408,-0.579456063283, -0.583396537818,-0.587299636289,-0.591165618130,-0.594994733142,-0.598787239769, -0.602543387137,-0.606263425611,-0.609947605378,-0.613596173718,-0.617209375000, -0.620787454324,-0.624330653787,-0.627839216646,-0.631313380725,-0.634753384965, -0.638159466288,-0.641531860042,-0.644870800713,-0.648176518840,-0.651449247993, -0.654689215377,-0.657896650703,-0.661071779722,-0.664214829073,-0.667326020581, -0.670405579210,-0.673453722176,-0.676470673651,-0.679456649217,-0.682411864733, -0.685336538825,-0.688230882515,-0.691095111078,-0.693929432606,-0.696734060342, -0.699509202616,-0.702255064375,-0.704971855016,-0.707659775910,-0.710319032607, -0.712949825521,-0.715552356630,-0.718126825518,-0.720673430658,-0.723192367252, -0.725683832057,-0.728148019865,-0.730585122627,-0.732995333386,-0.735378842133, -0.737735837986,-0.740066509107,-0.742371043092,-0.744649624698,-0.746902439379, -0.749129669401,-0.751331497574,-0.753508104803,-0.755659670110,-0.757786372384, -0.759888389373,-0.761965897374,-0.764019070360,-0.766048083130,-0.768053108124, -0.770034317048,-0.771991880375,-0.773925967602,-0.775836746544,-0.777724384911, -0.779589048241,-0.781430901838,-0.783250109603,-0.785046833823,-0.786821236559, -0.788573478626,-0.790303719548,-0.792012117675,-0.793698830218,-0.795364014068, -0.797007824406,-0.798630415730,-0.800231941079,-0.801812553473,-0.803372403455, -0.804911641427,-0.806430417283,-0.807928878875,-0.809407173790,-0.810865448057, -0.812303847251,-0.813722516074,-0.815121597513,-0.816501234517,-0.817861568263, -0.819202739722,-0.820524888245,-0.821828152919,-0.823112671327,-0.824378580512, -0.825626016395,-0.826855114143,-0.828066007852,-0.829258831036,-0.830433715874 }; }; /***************************************************************************** * fatfrog_poweramp generated by dkbuiler from PlexiPowerAmpEL34.sch ******************************************************************************/ p4 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : fatfrog_powerampclip with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(3.87560926163844e-19fs + 4.30800903120125e-16) + 3.17509705609174e-17) + 5.3495467261267e-19); b1 = fs(pow(fs,2)(-1.55024370465538e-18fs - 8.61601806240251e-16) + 1.06990934522534e-18); b2 = pow(fs,2)(2.32536555698307e-18pow(fs,2) - 6.35019411218347e-17); b3 = fs(pow(fs,2)(-1.55024370465538e-18fs + 8.61601806240251e-16) - 1.06990934522534e-18); b4 = fs(fs(fs(3.87560926163844e-19fs - 4.30800903120125e-16) + 3.17509705609174e-17) - 5.3495467261267e-19); a0 = fs(fs(fs(1.82693733893894e-19fs + 2.71243523616587e-16) + 8.16290535602033e-14) + 4.64147298174261e-12) + 4.00158102875003e-12; a1 = fs(pow(fs,2)(-7.30774935575574e-19fs - 5.42487047233173e-16) + 9.28294596348523e-12) + 1.60063241150001e-11; a2 = pow(fs,2)(1.09616240336336e-18pow(fs,2) - 1.63258107120407e-13) + 2.40094861725002e-11; a3 = fs(pow(fs,2)(-7.30774935575574e-19fs + 5.42487047233173e-16) - 9.28294596348523e-12) + 1.60063241150001e-11; a4 = fs(fs(fs(1.82693733893894e-19fs - 2.71243523616587e-16) + 8.16290535602033e-14) - 4.64147298174261e-12) + 4.00158102875003e-12; }; fatfrog_powerampp = _<: ba.if(fsignbit(_), fatfrog_poweramp_neg_clip, fatfrog_poweramp_clip) :>_ ; fatfrog_powerampclip = freq_split: ( fatfrog_powerampp , fatfrog_powerampp , fatfrog_powerampp, fatfrog_powerampp, fatfrog_powerampp) :>_; /******************************************************************************* * fatfrog_cab_p1 generated by dkbuiler from JMP_p1.sch ******************************************************************************/ p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = pow(fs,3)(fs(fs(fs(5.41478926354201e-34fs + 9.89823968225517e-29) + 2.21389820371069e-25) + 8.2706263330292e-23) + 3.05852920983453e-20); b1 = pow(fs,3)(fs(fs(fs(-3.79035248447941e-33fs - 4.94911984112759e-28) - 6.64169461113208e-25) - 8.2706263330292e-23) + 3.05852920983453e-20); b2 = pow(fs,3)(fs(fs(fs(1.13710574534382e-32fs + 8.90841571402966e-28) + 2.21389820371069e-25) - 2.48118789990876e-22) - 9.1755876295036e-20); b3 = pow(fs,3)(fs(fs(fs(-1.8951762422397e-32fs - 4.94911984112759e-28) + 1.10694910185535e-24) + 2.48118789990876e-22) - 9.1755876295036e-20); b4 = pow(fs,3)(fs(fs(fs(1.8951762422397e-32fs - 4.94911984112759e-28) - 1.10694910185535e-24) + 2.48118789990876e-22) + 9.1755876295036e-20); b5 = pow(fs,3)(fs(fs(fs(-1.13710574534382e-32fs + 8.90841571402966e-28) - 2.21389820371069e-25) - 2.48118789990876e-22) + 9.1755876295036e-20); b6 = pow(fs,3)(fs(fs(fs(3.79035248447941e-33fs - 4.94911984112759e-28) + 6.64169461113208e-25) - 8.2706263330292e-23) - 3.05852920983453e-20); b7 = pow(fs,3)(fs(fs(fs(-5.41478926354201e-34fs + 9.89823968225517e-29) - 2.21389820371069e-25) + 8.2706263330292e-23) - 3.05852920983453e-20); a0 = fs(fs(fs(fs(fs(fs(5.41489755986876e-34fs + 5.09078733178756e-29) + 2.30252226046762e-25) + 1.50190005873638e-22) + 7.82551343611017e-20) + 2.17831661090841e-17) + 4.23378644784192e-15) + 1.61880500310045e-13; a1 = fs(fs(fs(fs(fs(fs(-3.79042829190813e-33fs - 2.54539366589378e-28) - 6.90756678140285e-25) - 1.50190005873638e-22) + 7.82551343611017e-20) + 6.53494983272524e-17) + 2.11689322392096e-14) + 1.13316350217031e-12; a2 = fs(fs(fs(fs(fs(fs(1.13712848757244e-32fs + 4.58170859860881e-28) + 2.30252226046762e-25) - 4.50570017620913e-22) - 2.34765403083305e-19) + 2.17831661090841e-17) + 3.81040780305773e-14) + 3.39949050651094e-12; a3 = fs(fs(fs(fs(fs(fs(-1.89521414595407e-32fs - 2.54539366589378e-28) + 1.15126113023381e-24) + 4.50570017620913e-22) - 2.34765403083305e-19) - 1.08915830545421e-16) + 2.11689322392096e-14) + 5.66581751085156e-12; a4 = fs(fs(fs(fs(fs(fs(1.89521414595407e-32fs - 2.54539366589378e-28) - 1.15126113023381e-24) + 4.50570017620913e-22) + 2.34765403083305e-19) - 1.08915830545421e-16) - 2.11689322392096e-14) + 5.66581751085156e-12; a5 = fs(fs(fs(fs(fs(fs(-1.13712848757244e-32fs + 4.58170859860881e-28) - 2.30252226046762e-25) - 4.50570017620913e-22) + 2.34765403083305e-19) + 2.17831661090841e-17) - 3.81040780305773e-14) + 3.39949050651094e-12; a6 = fs(fs(fs(fs(fs(fs(3.79042829190813e-33fs - 2.54539366589378e-28) + 6.90756678140285e-25) - 1.50190005873638e-22) - 7.82551343611017e-20) + 6.53494983272524e-17) - 2.11689322392096e-14) + 1.13316350217031e-12; a7 = fs(fs(fs(fs(fs(fs(-5.41489755986876e-34fs + 5.09078733178756e-29) - 2.30252226046762e-25) + 1.50190005873638e-22) - 7.82551343611017e-20) + 2.17831661090841e-17) - 4.23378644784192e-15) + 1.61880500310045e-13; }; /******************************************************************************* * fatfrog_cab_p2 generated by dkbuiler from JMP_p2.sch ******************************************************************************/ p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.00504891959951124; b1 = 0.0201956783980450; b2 = 0.0302935175970674; b3 = 0.0201956783980450; b4 = 0.00504891959951124; a0 = fs(fs(fs(7.69566058426545e-20fs + 3.51033127781783e-15) + 6.87327741113863e-11) + 8.30384029826822e-7) + 0.00504902057840812; a1 = fs(pow(fs,2)(-3.07826423370618e-19fs - 7.02066255563566e-15) + 1.66076805965364e-6) + 0.0201960823136325; a2 = pow(fs,2)(4.61739635055927e-19pow(fs,2) - 1.37465548222773e-10) + 0.0302941234704487; a3 = fs(pow(fs,2)(-3.07826423370618e-19fs + 7.02066255563566e-15) - 1.66076805965364e-6) + 0.0201960823136325; a4 = fs(fs(fs(7.69566058426545e-20fs - 3.51033127781783e-15) + 6.87327741113863e-11) - 8.30384029826822e-7) + 0.00504902057840812; }; b1 = checkbox("Bright[name:Bright"); process = ba.bypass_fade(ma.SR/10, b1, p1 : (0.333)) : p2 : p3 : (0.666) : p4 : (0.666) : p5 : (0.555) : p6 : *(0.555) ;	https://raw.githubusercontent.com/brummer10/FatFrog.lv2/5da0ec72ca1ddb2baaf70fdbfa7fd7692c25e8b3/FatFrog/dsp/FatFrog.dsp	faust	**************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i FatFrog_p1.sch FatFrog_p2.sch FatFrog_p3.sch PlexiPowerAmpEL34.sch JMP_p1.sch JMP_p2.sch -T --table_neg 2 4 -o 10 -x 15.0 -N --switch 1=Bright --bypass -r 1=0.333 3=0.666 4=0.666 5=0.555 6=0.555 --build --name FatFrog ************************************************************************** generated automatically DO NOT MODIFY! **************************************************************************** * 1-dimensional function table for linear interpolation **************************************************************************** -- Rdtable from waveform -- Copy the sign of x to f -- Get sign of value x -- Check if value x is negative -- Get fractal part of value n -- Interpolate value between i and i+1 in table with fractal coefficient f. -- reduce dc-offset (noise) from table response for very low values -- Linear interpolation for value x in rdtable -- Calculate linear table index for value x -- predefined filterbank **************************************************************************** * fatfrog_p1 generated by dkbuiler from FatFrog_p1.sch **************************************************************************** ************************************************************************************* * fatfrog_p2_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max 15.000000 --table_div 24.187463 --table_op 10.000000 ************************************************************************************* * fatfrog_p2_neg_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max -15.000000 --table_div 24.187463 --table_op 10.000000 **************************************************************************** * fatfrog_p2 generated by dkbuiler from FatFrog_p2.sch **************************************************************************** **************************************************************************** * fatfrog_p3 generated by dkbuiler from FatFrog_p3.sch **************************************************************************** ************************************************************************************* * fatfrog_poweramp_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max 1.400000 --table_div 1.684552 --table_op 1.000000 ************************************************************************************* * fatfrog_poweramp_neg_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max -1.400000 --table_div 1.684552 --table_op 1.000000 **************************************************************************** * fatfrog_poweramp generated by dkbuiler from PlexiPowerAmpEL34.sch **************************************************************************** **************************************************************************** * fatfrog_cab_p1 generated by dkbuiler from JMP_p1.sch **************************************************************************** **************************************************************************** * fatfrog_cab_p2 generated by dkbuiler from JMP_p2.sch ******************************************************************************	declare id "fatfrog"; declare name "FatFrog"; declare category "Extern"; declare shortname "FatFrog"; declare description "HighGain Amplifier"; import("stdfaust.lib"); rd = library("reducemaps.lib"); rtable(table, r) = (table, int(r)):rdtable; ccopysign(f, x) = ma.fabs(f) * sign(x); sign(x) = x<0, 1, -1 : select2; fsignbit(x) = x<0; fractal(n) = n - int(n); interpolation(table, size, f, i) = select2(i<0,select2(i>size-2, rtable(table, i)(1-f) + rtable(table,i+1)f, rtable(table, size-1)), rtable(table, 0)) : table_gate(table); table_gate(table,x) = select2(ma.fabs(x):rd.maxn(4096)<ma.fabs(rtable(table, 1))(0.12), x, xxx); circuit_response(table, low, high, step, size, x) = interpolation(table, size, fractal(linindex(step, x)), int(linindex(step, x))), x : ccopysign; linindex(step, x) = ma.fabs(x) step; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); p1 = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(4.16735243056623e-10fs - 1.34532561213629e-5) - 0.00381962735513334; b1 = -8.33470486113245e-10pow(fs,2) - 0.00763925471026669; b2 = fs(4.16735243056623e-10fs + 1.34532561213629e-5) - 0.00381962735513334; a0 = fs(4.16735243056623e-10fs + 8.26427569712678e-7) + 0.000173476651332639; a1 = -8.33470486113245e-10pow(fs,2) + 0.000346953302665278; a2 = fs(4.16735243056623e-10fs - 8.26427569712678e-7) + 0.000173476651332639; }; fatfrog_p2_clip = circuit_response(fatfrog_p2_table, low, high, step, size) with{ low = 0; high =-0.833333; step =132.667; size =200; fatfrog_p2_table = waveform { 0.000000000000,-0.010712151353,-0.020788209399,-0.030288758114,-0.039268727972, -0.047777878957,-0.055861253976,-0.063559601086,-0.070909764322,-0.077945043733, -0.084695525822,-0.091188385904,-0.097448164100,-0.103497016752,-0.109354945070, -0.115040002789,-0.120568484534,-0.125955096528,-0.131213111156,-0.136354506821, -0.141390094406,-0.146329631577,-0.151181926031,-0.155954928737,-0.160655818100, -0.165291075921,-0.169866555921,-0.174387545552,-0.178858821741,-0.183284701150, -0.187669085492,-0.192015502374,-0.196327142115,-0.200606890924,-0.204857360800, -0.209080916478,-0.213279699707,-0.217455651124,-0.221610529963,-0.225745931815, -0.229863304625,-0.233963963109,-0.238049101740,-0.242119806446,-0.246177065159, -0.250221777310,-0.254254762385,-0.258276767646,-0.262288475074,-0.266290507633, -0.270283434918,-0.274267778242,-0.278244015219,-0.282212583903,-0.286173886510, -0.290128292786,-0.294076143032,-0.298017750841,-0.301953405562,-0.305883374529, -0.309807905062,-0.313727226289,-0.317641550772,-0.321551075990,-0.325455985674, -0.329356451010,-0.333252631727,-0.337144677089,-0.341032726776,-0.344916911697, -0.348797354719,-0.352674171321,-0.356547470200,-0.360417353807,-0.364283918841, -0.368147256694,-0.372007453859,-0.375864592290,-0.379718749745,-0.383570000084, -0.387418413547,-0.391264057005,-0.395106994195,-0.398947285921,-0.402784990254, -0.406620162699,-0.410452856364,-0.414283122097,-0.418111008630,-0.421936562697, -0.425759829147,-0.429580851053,-0.433399669805,-0.437216325201,-0.441030855527, -0.444843297634,-0.448653687011,-0.452462057847,-0.456268443094,-0.460072874521, -0.463875382772,-0.467675997409,-0.471474746966,-0.475271658982,-0.479066760051, -0.482860075855,-0.486651631202,-0.490441450058,-0.494229555581,-0.498015970149, -0.501800715391,-0.505583812212,-0.509365280819,-0.513145140748,-0.516923410882, -0.520700109479,-0.524475254190,-0.528248862079,-0.532020949643,-0.535791532830, -0.539560627060,-0.543328247235,-0.547094407762,-0.550859122566,-0.554622405105, -0.558384268384,-0.562144724971,-0.565903787008,-0.569661466225,-0.573417773953, -0.577172721136,-0.580926318342,-0.584678575774,-0.588429503283,-0.592179110376, -0.595927406228,-0.599674399689,-0.603420099300,-0.607164513294,-0.610907649610, -0.614649515903,-0.618390119547,-0.622129467649,-0.625867567053,-0.629604424348, -0.633340045879,-0.637074437750,-0.640807605833,-0.644539555775,-0.648270293005, -0.651999822738,-0.655728149984,-0.659455279554,-0.663181216063,-0.666905963940, -0.670629527429,-0.674351910599,-0.678073117346,-0.681793151398,-0.685512016324, -0.689229715533,-0.692946252284,-0.696661629687,-0.700375850709,-0.704088918178, -0.707800834787,-0.711511603098,-0.715221225547,-0.718929704448,-0.722637041994, -0.726343240263,-0.730048301221,-0.733752226727,-0.737455018533,-0.741156678289, -0.744857207547,-0.748556607765,-0.752254880305,-0.755952026441,-0.759648047360, -0.763342944165,-0.767036717877,-0.770729369438,-0.774420899714,-0.778111309497, -0.781800599506,-0.785488770393,-0.789175822741,-0.792861757070,-0.796546573836, -0.800230273435,-0.803912856202,-0.807594322420,-0.811274672313,-0.814953906054, -0.818632023765,-0.822309025516,-0.825984911333,-0.829659681193,-0.833333335030 }; }; fatfrog_p2_neg_clip = circuit_response(fatfrog_p2_neg_table, low, high, step, size) with{ low = 0; high =0.550206; step =132.667; size =200; fatfrog_p2_neg_table = waveform { 0.000000000000,0.010689788950,0.020704100806,0.030110387046,0.038969146539, 0.047334652345,0.055255601546,0.062775696308,0.069934163529,0.076766219616, 0.083303486286,0.089574362602,0.095604357934,0.101416390011,0.107031051779, 0.112466850390,0.117740421276,0.122866719950,0.127859193885,0.132729936577, 0.137489825657,0.142148646743,0.146715204506,0.151197422304,0.155602431561, 0.159936651967,0.164205863459,0.168415270810,0.172569561627,0.176672958401, 0.180729265255,0.184741909912,0.188713981390,0.192648263856,0.196547267032, 0.200413253506,0.204248263277,0.208054135791,0.211832529755,0.215584940928, 0.219312718116,0.223017077541,0.226699115755,0.230359821245,0.234000084864, 0.237620709205,0.241222417027,0.244805858825,0.248371619639,0.251920225171, 0.255452147280,0.258967808926,0.262467588611,0.265951824368,0.269420817349, 0.272874835046,0.276314114187,0.279738863334,0.283149265224,0.286545478856, 0.289927641386,0.293295869804,0.296650262457,0.299990900404,0.303317848633, 0.306631157153,0.309930861966,0.313216985943,0.316489539595,0.319748521778, 0.322993920300,0.326225712477,0.329443865619,0.332648337459,0.335839076535, 0.339016022523,0.342179106530,0.345328251350,0.348463371679,0.351584374310, 0.354691158288,0.357783615049,0.360861628529,0.363925075253,0.366973824408, 0.370007737893,0.373026670354,0.376030469211,0.379018974658,0.381992019666, 0.384949429965,0.387891024015,0.390816612979,0.393726000673,0.396618983521, 0.399495350497,0.402354883062,0.405197355103,0.408022532855,0.410830174836, 0.413620031765,0.416391846489,0.419145353907,0.421880280892,0.424596346217, 0.427293260482,0.429970726049,0.432628436977,0.435266078966,0.437883329304, 0.440479856835,0.443055321921,0.445609376432,0.448141663738,0.450651818724, 0.453139467821,0.455604229059,0.458045712136,0.460463518524,0.462857241591, 0.465226466759,0.467570771697,0.469889726546,0.472182894186,0.474449830551, 0.476690084982,0.478903200634,0.481088714942,0.483246160139,0.485375063837, 0.487474949674,0.489545338033,0.491585746830,0.493595692384,0.495574690361, 0.497522256806,0.499437909259,0.501321167961,0.503171557148,0.504988606437, 0.506771852302,0.508520839644,0.510235123443,0.511914270507,0.513557861287, 0.515165491787,0.516736775524,0.518271345564,0.519768856600,0.521228987068, 0.522651441289,0.524035951619,0.525382280592,0.526690223025,0.527959608090, 0.529190301302,0.530382206421,0.531535267232,0.532649469193,0.533724840907, 0.534761455413,0.535759431267,0.536718933388,0.537640173654,0.538523411235, 0.539368952636,0.540177151460,0.540948407866,0.541683167728,0.542381921495, 0.543045202761,0.543673586549,0.544267687332,0.544828156796,0.545355681386, 0.545850979647,0.546314799384,0.546747914694,0.547151122873,0.547525241250, 0.547871103981,0.548189558816,0.548481463903,0.548747684625,0.548989090523, 0.549206552318,0.549400939057,0.549573115407,0.549723939108,0.549854258601, 0.549964910839,0.550056719295,0.550130492159,0.550187020738,0.550227078049, 0.550251417605,0.550260772389,0.550255854006,0.550237352009,0.550205933387 }; }; p2 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : fatfrog_p2clip 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 = _; Volume = vslider("Volume[name:Volume][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Volume(Volumepow(fs,2)(1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(-1.12794330933527e-13fs - 3.11703482654466e-10) - 1.27653158593851e-7)); b1 = Volume(Volumepow(fs,2)(-3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(3.3838299280058e-13fs + 3.11703482654466e-10) - 1.27653158593851e-7)); b2 = Volume(Volumepow(fs,2)(3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(-3.3838299280058e-13fs + 3.11703482654466e-10) + 1.27653158593851e-7)); b3 = Volume(Volumepow(fs,2)(-1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(1.12794330933527e-13fs - 3.11703482654466e-10) + 1.27653158593851e-7)); a0 = Volume(Volumefs(fs(-3.18232353484157e-14fs - 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(3.18232353484157e-14fs + 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(4.97661233640118e-11fs + 5.40406043934383e-8) + 1.16799996131758e-6; a1 = Volume(Volumefs(fs(9.54697060452472e-14fs + 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(-9.54697060452472e-14fs - 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs + 5.40406043934383e-8) + 3.50399988395273e-6; a2 = Volume(Volumefs(fs(-9.54697060452472e-14fs + 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(9.54697060452472e-14fs - 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs - 5.40406043934383e-8) + 3.50399988395273e-6; a3 = Volume(Volumefs(fs(3.18232353484157e-14fs - 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(-3.18232353484157e-14fs + 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(4.97661233640118e-11fs - 5.40406043934383e-8) + 1.16799996131758e-6; }; fatfrog_p2p = _<: ba.if(fsignbit(_), fatfrog_p2_neg_clip, fatfrog_p2_clip) :>_ ; fatfrog_p2clip = freq_split: ( fatfrog_p2p , fatfrog_p2p , fatfrog_p2p, fatfrog_p2p, fatfrog_p2p) :>_; p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Master = vslider("Master[name:Master][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Bass = vslider("Bass[name:Bass][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(7) : si.smooth(s); Treble = vslider("Treble[name:Treble][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Master(Bass(Middlepow(fs,2)(-3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(-7.65965608134806e-15fs - 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(-4.54129807194549e-13Basspow(fs,3) + 9.99085575828008e-15Middlepow(fs,3) + fs(fs(-9.99085575828008e-15fs - 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs - 3.39833297621287e-8)); b1 = Master(Bass(Middlepow(fs,2)(1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(2.29789682440442e-14fs + 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(1.36238942158365e-12Basspow(fs,3) - 2.99725672748402e-14Middlepow(fs,3) + fs(fs(2.99725672748402e-14fs + 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(8.94498105080173e-12fs - 3.39833297621287e-8)); b2 = Master(Bass(Middlepow(fs,2)(-1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(-2.29789682440442e-14fs + 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(-1.36238942158365e-12Basspow(fs,3) + 2.99725672748402e-14Middlepow(fs,3) + fs(fs(-2.99725672748402e-14fs + 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(8.94498105080173e-12fs + 3.39833297621287e-8)); b3 = Master(Bass(Middlepow(fs,2)(3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(7.65965608134806e-15fs - 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(4.54129807194549e-13Basspow(fs,3) - 9.99085575828008e-15Middlepow(fs,3) + fs(fs(9.99085575828008e-15fs - 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs + 3.39833297621287e-8)); a0 = Bass(Middlefs(fs(8.4448446570892e-15fs + 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(1.08432864509182e-14fs + 6.24344932141459e-11) + 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(-1.85786582455962e-16fs - 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(-5.27657194642384e-17fs - 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(2.38552301920201e-15fs + 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(-2.31243875101266e-17fs - 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(-1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(-2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(-5.23934856412778e-17fs - 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(5.24815064224442e-17fs + 3.86701328713641e-13) + 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(2.38552301920201e-16fs + 1.86643550757113e-12) + 3.40420425733631e-9) + 8.27983099470864e-7; a1 = Bass(Middlefs(fs(-2.53345339712676e-14fs - 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(-3.25298593527547e-14fs - 6.24344932141459e-11) + 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(5.57359747367887e-16fs + 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(1.58297158392715e-16fs + 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(-7.15656905760603e-15fs - 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(6.93731625303797e-17fs + 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(-1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(-5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(1.57180456923833e-16fs + 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(-1.57444519267333e-16fs - 3.86701328713641e-13) + 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(-7.15656905760603e-16fs - 1.86643550757113e-12) + 3.40420425733631e-9) + 2.48394929841259e-6; a2 = Bass(Middlefs(fs(2.53345339712676e-14fs - 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(3.25298593527547e-14fs - 6.24344932141459e-11) - 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(-5.57359747367887e-16fs + 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(-1.58297158392715e-16fs + 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(7.15656905760603e-15fs - 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(-6.93731625303797e-17fs + 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(-4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(-7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(-1.57180456923833e-16fs + 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(1.57444519267333e-16fs - 3.86701328713641e-13) - 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(7.15656905760603e-16fs - 1.86643550757113e-12) - 3.40420425733631e-9) + 2.48394929841259e-6; a3 = Bass(Middlefs(fs(-8.4448446570892e-15fs + 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(-1.08432864509182e-14fs + 6.24344932141459e-11) - 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(1.85786582455962e-16fs - 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(5.27657194642384e-17fs - 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(-2.38552301920201e-15fs + 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(2.31243875101266e-17fs - 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(-3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(-1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(5.23934856412778e-17fs - 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(-5.24815064224442e-17fs + 3.86701328713641e-13) - 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(-2.38552301920201e-16fs + 1.86643550757113e-12) - 3.40420425733631e-9) + 8.27983099470864e-7; }; fatfrog_poweramp_clip = circuit_response(fatfrog_poweramp_table, low, high, step, size) with{ low = 0; high =0.833333; step =142.143; size =200; fatfrog_poweramp_table = waveform { 0.000000000000,0.008825069056,0.017581566729,0.026269903187,0.034890465555, 0.043443658654,0.051929868850,0.060349505962,0.068702951545,0.076990613410, 0.085212874669,0.093370128103,0.101462771605,0.109491192293,0.117455779277, 0.125356920917,0.133195001455,0.140970418466,0.148683539107,0.156334761409, 0.163924456272,0.171453013208,0.178920811925,0.186328222432,0.193675625016, 0.200963407969,0.208191932778,0.215361567217,0.222472697993,0.229525680172, 0.236520901792,0.243458710457,0.250339474548,0.257163569576,0.263931348881, 0.270643177811,0.277299409324,0.283900407919,0.290446529521,0.296938122771, 0.303375546946,0.309759151256,0.316089285597,0.322366298196,0.328590535608, 0.334762342540,0.340882060475,0.346950036585,0.352966603290,0.358932104243, 0.364846877639,0.370711249622,0.376525560168,0.382290140574,0.388005315775, 0.393671416942,0.399288772025,0.404857702297,0.410378536938,0.415851589047, 0.421277181468,0.426655631817,0.431987254468,0.437272366677,0.442511279324, 0.447704303409,0.452851747777,0.457953921154,0.463011125387,0.468023669161, 0.472991851195,0.477915974277,0.482796332150,0.487633229188,0.492426956125, 0.497177807362,0.501886073846,0.506552046948,0.511176018334,0.515758270335, 0.520299087251,0.524798755416,0.529257556663,0.533675768918,0.538053670789, 0.542391540684,0.546689653613,0.550948279398,0.555167696010,0.559348168034, 0.563489964912,0.567593355127,0.571658603749,0.575685970920,0.579675724258, 0.583628117736,0.587543414507,0.591421871735,0.595263740340,0.599069279141, 0.602838737759,0.606572367383,0.610270417096,0.613933134590,0.617560765687, 0.621153554917,0.624711744403,0.628235577388,0.631725291806,0.635181126584, 0.638603318260,0.641992102801,0.645347712765,0.648670379716,0.651960337348, 0.655217812543,0.658443033155,0.661636227511,0.664797617402,0.667927428210, 0.671025880875,0.674093197740,0.677129595125,0.680135293039,0.683110506168, 0.686055448937,0.688970336972,0.691855380478,0.694710790096,0.697536776369, 0.700333545446,0.703101305038,0.705840260675,0.708550614229,0.711232569274, 0.713886327661,0.716512088070,0.719110049659,0.721680408531,0.724223361618, 0.726739103475,0.729227826292,0.731689723008,0.734124984098,0.736533798639, 0.738916355468,0.741272841367,0.743603441274,0.745908340423,0.748187722027, 0.750441767742,0.752670657655,0.754874572657,0.757053690735,0.759208188412, 0.761338242823,0.763444027128,0.765525716623,0.767583483045,0.769617497350, 0.771627930340,0.773614950578,0.775578726418,0.777519424545,0.779437210341, 0.781332248371,0.783204701796,0.785054734023,0.786882505198,0.788688175562, 0.790471904966,0.792233850299,0.793974169490,0.795693018007,0.797390550199, 0.799066920924,0.800722281709,0.802356785430,0.803970581781,0.805563820995, 0.807136651706,0.808689221322,0.810221676641,0.811734163187,0.813226825850, 0.814699808290,0.816153253063,0.817587302265,0.819002096686,0.820397775366, 0.821774478216,0.823132342882,0.824471506335,0.825792104528,0.827094272846, 0.828378145433,0.829643855964,0.830891536387,0.832121318561,0.833333333339 }; }; fatfrog_poweramp_neg_clip = circuit_response(fatfrog_poweramp_neg_table, low, high, step, size) with{ low = 0; high =-0.830434; step =142.143; size =200; fatfrog_poweramp_neg_table = waveform { 0.000000000000,-0.008825166416,-0.017581955846,-0.026270748592,-0.034891927952, -0.043445895020,-0.051933028482,-0.060353713507,-0.068708344701,-0.076997279049, -0.085220920211,-0.093379650456,-0.101473847974,-0.109503893701,-0.117470170243, -0.125373053511,-0.133212915640,-0.140990142782,-0.148705110523,-0.156358185222, -0.163949749539,-0.171480173168,-0.178949827852,-0.186359083790,-0.193708313082, -0.200997875893,-0.208228144469,-0.215399491663,-0.222512266704,-0.229566845140, -0.236563578802,-0.243502835296,-0.250384971175,-0.257210346178,-0.263979312312, -0.270692226415,-0.277349439820,-0.283951308672,-0.290498183437,-0.296990409097, -0.303428333067,-0.309812303564,-0.316142669098,-0.322419766753,-0.328643940091, -0.334815528853,-0.340934871940,-0.347002303943,-0.353018165786,-0.358982786115, -0.364896496770,-0.370759633766,-0.376572522445,-0.382335485534,-0.388048858784, -0.393712957996,-0.399328110793,-0.404894638133,-0.410412854580,-0.415883084307, -0.421305640058,-0.426680833592,-0.432008982476,-0.437290395884,-0.442525383943, -0.447714254521,-0.452857313789,-0.457954866525,-0.463007216132,-0.468014664763, -0.472977507652,-0.477896050270,-0.482770585254,-0.487601405460,-0.492388805190, -0.497133080728,-0.501834519752,-0.506493405025,-0.511110032103,-0.515684679743, -0.520217632509,-0.524709174236,-0.529159583293,-0.533569140304,-0.537938122341, -0.542266803832,-0.546555456680,-0.550804357015,-0.555013770934,-0.559183972674, -0.563315225583,-0.567407798699,-0.571461954073,-0.575477954408,-0.579456063283, -0.583396537818,-0.587299636289,-0.591165618130,-0.594994733142,-0.598787239769, -0.602543387137,-0.606263425611,-0.609947605378,-0.613596173718,-0.617209375000, -0.620787454324,-0.624330653787,-0.627839216646,-0.631313380725,-0.634753384965, -0.638159466288,-0.641531860042,-0.644870800713,-0.648176518840,-0.651449247993, -0.654689215377,-0.657896650703,-0.661071779722,-0.664214829073,-0.667326020581, -0.670405579210,-0.673453722176,-0.676470673651,-0.679456649217,-0.682411864733, -0.685336538825,-0.688230882515,-0.691095111078,-0.693929432606,-0.696734060342, -0.699509202616,-0.702255064375,-0.704971855016,-0.707659775910,-0.710319032607, -0.712949825521,-0.715552356630,-0.718126825518,-0.720673430658,-0.723192367252, -0.725683832057,-0.728148019865,-0.730585122627,-0.732995333386,-0.735378842133, -0.737735837986,-0.740066509107,-0.742371043092,-0.744649624698,-0.746902439379, -0.749129669401,-0.751331497574,-0.753508104803,-0.755659670110,-0.757786372384, -0.759888389373,-0.761965897374,-0.764019070360,-0.766048083130,-0.768053108124, -0.770034317048,-0.771991880375,-0.773925967602,-0.775836746544,-0.777724384911, -0.779589048241,-0.781430901838,-0.783250109603,-0.785046833823,-0.786821236559, -0.788573478626,-0.790303719548,-0.792012117675,-0.793698830218,-0.795364014068, -0.797007824406,-0.798630415730,-0.800231941079,-0.801812553473,-0.803372403455, -0.804911641427,-0.806430417283,-0.807928878875,-0.809407173790,-0.810865448057, -0.812303847251,-0.813722516074,-0.815121597513,-0.816501234517,-0.817861568263, -0.819202739722,-0.820524888245,-0.821828152919,-0.823112671327,-0.824378580512, -0.825626016395,-0.826855114143,-0.828066007852,-0.829258831036,-0.830433715874 }; }; p4 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : fatfrog_powerampclip with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(3.87560926163844e-19fs + 4.30800903120125e-16) + 3.17509705609174e-17) + 5.3495467261267e-19); b1 = fs(pow(fs,2)(-1.55024370465538e-18fs - 8.61601806240251e-16) + 1.06990934522534e-18); b2 = pow(fs,2)(2.32536555698307e-18pow(fs,2) - 6.35019411218347e-17); b3 = fs(pow(fs,2)(-1.55024370465538e-18fs + 8.61601806240251e-16) - 1.06990934522534e-18); b4 = fs(fs(fs(3.87560926163844e-19fs - 4.30800903120125e-16) + 3.17509705609174e-17) - 5.3495467261267e-19); a0 = fs(fs(fs(1.82693733893894e-19fs + 2.71243523616587e-16) + 8.16290535602033e-14) + 4.64147298174261e-12) + 4.00158102875003e-12; a1 = fs(pow(fs,2)(-7.30774935575574e-19fs - 5.42487047233173e-16) + 9.28294596348523e-12) + 1.60063241150001e-11; a2 = pow(fs,2)(1.09616240336336e-18pow(fs,2) - 1.63258107120407e-13) + 2.40094861725002e-11; a3 = fs(pow(fs,2)(-7.30774935575574e-19fs + 5.42487047233173e-16) - 9.28294596348523e-12) + 1.60063241150001e-11; a4 = fs(fs(fs(1.82693733893894e-19fs - 2.71243523616587e-16) + 8.16290535602033e-14) - 4.64147298174261e-12) + 4.00158102875003e-12; }; fatfrog_powerampp = _<: ba.if(fsignbit(_), fatfrog_poweramp_neg_clip, fatfrog_poweramp_clip) :>_ ; fatfrog_powerampclip = freq_split: ( fatfrog_powerampp , fatfrog_powerampp , fatfrog_powerampp, fatfrog_powerampp, fatfrog_powerampp) :>_; p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = pow(fs,3)(fs(fs(fs(5.41478926354201e-34fs + 9.89823968225517e-29) + 2.21389820371069e-25) + 8.2706263330292e-23) + 3.05852920983453e-20); b1 = pow(fs,3)(fs(fs(fs(-3.79035248447941e-33fs - 4.94911984112759e-28) - 6.64169461113208e-25) - 8.2706263330292e-23) + 3.05852920983453e-20); b2 = pow(fs,3)(fs(fs(fs(1.13710574534382e-32fs + 8.90841571402966e-28) + 2.21389820371069e-25) - 2.48118789990876e-22) - 9.1755876295036e-20); b3 = pow(fs,3)(fs(fs(fs(-1.8951762422397e-32fs - 4.94911984112759e-28) + 1.10694910185535e-24) + 2.48118789990876e-22) - 9.1755876295036e-20); b4 = pow(fs,3)(fs(fs(fs(1.8951762422397e-32fs - 4.94911984112759e-28) - 1.10694910185535e-24) + 2.48118789990876e-22) + 9.1755876295036e-20); b5 = pow(fs,3)(fs(fs(fs(-1.13710574534382e-32fs + 8.90841571402966e-28) - 2.21389820371069e-25) - 2.48118789990876e-22) + 9.1755876295036e-20); b6 = pow(fs,3)(fs(fs(fs(3.79035248447941e-33fs - 4.94911984112759e-28) + 6.64169461113208e-25) - 8.2706263330292e-23) - 3.05852920983453e-20); b7 = pow(fs,3)(fs(fs(fs(-5.41478926354201e-34fs + 9.89823968225517e-29) - 2.21389820371069e-25) + 8.2706263330292e-23) - 3.05852920983453e-20); a0 = fs(fs(fs(fs(fs(fs(5.41489755986876e-34fs + 5.09078733178756e-29) + 2.30252226046762e-25) + 1.50190005873638e-22) + 7.82551343611017e-20) + 2.17831661090841e-17) + 4.23378644784192e-15) + 1.61880500310045e-13; a1 = fs(fs(fs(fs(fs(fs(-3.79042829190813e-33fs - 2.54539366589378e-28) - 6.90756678140285e-25) - 1.50190005873638e-22) + 7.82551343611017e-20) + 6.53494983272524e-17) + 2.11689322392096e-14) + 1.13316350217031e-12; a2 = fs(fs(fs(fs(fs(fs(1.13712848757244e-32fs + 4.58170859860881e-28) + 2.30252226046762e-25) - 4.50570017620913e-22) - 2.34765403083305e-19) + 2.17831661090841e-17) + 3.81040780305773e-14) + 3.39949050651094e-12; a3 = fs(fs(fs(fs(fs(fs(-1.89521414595407e-32fs - 2.54539366589378e-28) + 1.15126113023381e-24) + 4.50570017620913e-22) - 2.34765403083305e-19) - 1.08915830545421e-16) + 2.11689322392096e-14) + 5.66581751085156e-12; a4 = fs(fs(fs(fs(fs(fs(1.89521414595407e-32fs - 2.54539366589378e-28) - 1.15126113023381e-24) + 4.50570017620913e-22) + 2.34765403083305e-19) - 1.08915830545421e-16) - 2.11689322392096e-14) + 5.66581751085156e-12; a5 = fs(fs(fs(fs(fs(fs(-1.13712848757244e-32fs + 4.58170859860881e-28) - 2.30252226046762e-25) - 4.50570017620913e-22) + 2.34765403083305e-19) + 2.17831661090841e-17) - 3.81040780305773e-14) + 3.39949050651094e-12; a6 = fs(fs(fs(fs(fs(fs(3.79042829190813e-33fs - 2.54539366589378e-28) + 6.90756678140285e-25) - 1.50190005873638e-22) - 7.82551343611017e-20) + 6.53494983272524e-17) - 2.11689322392096e-14) + 1.13316350217031e-12; a7 = fs(fs(fs(fs(fs(fs(-5.41489755986876e-34fs + 5.09078733178756e-29) - 2.30252226046762e-25) + 1.50190005873638e-22) - 7.82551343611017e-20) + 2.17831661090841e-17) - 4.23378644784192e-15) + 1.61880500310045e-13; }; p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.00504891959951124; b1 = 0.0201956783980450; b2 = 0.0302935175970674; b3 = 0.0201956783980450; b4 = 0.00504891959951124; a0 = fs(fs(fs(7.69566058426545e-20fs + 3.51033127781783e-15) + 6.87327741113863e-11) + 8.30384029826822e-7) + 0.00504902057840812; a1 = fs(pow(fs,2)(-3.07826423370618e-19fs - 7.02066255563566e-15) + 1.66076805965364e-6) + 0.0201960823136325; a2 = pow(fs,2)(4.61739635055927e-19pow(fs,2) - 1.37465548222773e-10) + 0.0302941234704487; a3 = fs(pow(fs,2)(-3.07826423370618e-19fs + 7.02066255563566e-15) - 1.66076805965364e-6) + 0.0201960823136325; a4 = fs(fs(fs(7.69566058426545e-20fs - 3.51033127781783e-15) + 6.87327741113863e-11) - 8.30384029826822e-7) + 0.00504902057840812; }; b1 = checkbox("Bright[name:Bright"); process = ba.bypass_fade(ma.SR/10, b1, p1 : (0.333)) : p2 : p3 : (0.666) : p4 : (0.666) : p5 : (0.555) : p6 : *(0.555) ;
dfb561f0fc40f81e056a60f4f86815de5fe38017e528029d94ad51f7ee901586	brummer10/FatFrog	FatFrog.dsp	/***************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i FatFrog_p1.sch FatFrog_p2.sch FatFrog_p3.sch PlexiPowerAmpEL34.sch JMP_p1.sch JMP_p2.sch -T --table_neg 2 4 -o 10 -x 15.0 -N --switch 1=Bright --bypass -r 1=0.333 3=0.666 4=0.666 5=0.555 6=0.555 --build --name FatFrog ***************************************************************************/ // generated automatically // DO NOT MODIFY! declare id "fatfrog"; declare name "FatFrog"; declare category "Extern"; declare shortname "FatFrog"; declare description "HighGain Amplifier"; import("stdfaust.lib"); /***************************************************************************** * 1-dimensional function table for linear interpolation ******************************************************************************/ rd = library("reducemaps.lib"); //-- Rdtable from waveform rtable(table, r) = (table, int(r)):rdtable; //-- Copy the sign of x to f ccopysign(f, x) = ma.fabs(f) sign(x); //-- Get sign of value x sign(x) = x<0, 1, -1 : select2; //-- Check if value x is negative fsignbit(x) = x<0; //-- Get fractal part of value n fractal(n) = n - int(n); //-- Interpolate value between i and i+1 in table with fractal coefficient f. interpolation(table, size, f, i) = select2(i<1,select2(i>size-3, rtable(table, i)(1-f) + rtable(table,i+1)f, rtable(table, size-1)), rtable(table, 0)) ; //-- reduce dc-offset (noise) from table response for very low values table_gate(table,x) = select2(ma.fabs(x):rd.maxn(4096)<ma.fabs(rtable(table, 1))(0.12), x, xxx); //-- Linear interpolation for value x in rdtable circuit_response(table, low, high, step, size, x) = interpolation(table, size, fractal(linindex(step, x)), int(linindex(step, x))), x : ccopysign; //-- Calculate linear table index for value x linindex(step, x) = ma.fabs(x) step; //-- predefined filterbank freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); /******************************************************************************* * noisefilter generated by dkbuiler from NoiseFilter.sch ******************************************************************************/ p0a = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.0137596163999650; b1 = 0.0412788491998950; b2 = 0.0412788491998950; b3 = 0.0137596163999650; a0 = fs(fs(2.41640879369625e-15fs + 2.15750785151451e-10) + 4.62323111038824e-6) + 0.013759616399965; a1 = fs(fs(-7.24922638108876e-15fs - 2.15750785151451e-10) + 4.62323111038824e-6) + 0.041278849199895; a2 = fs(fs(7.24922638108876e-15fs - 2.15750785151451e-10) - 4.62323111038824e-6) + 0.041278849199895; a3 = fs(fs(-2.41640879369625e-15fs + 2.15750785151451e-10) - 4.62323111038824e-6) + 0.013759616399965; }; p0aa = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 4.32336116337414e-10pow(fs,2); b1 = -8.64672232674828e-10pow(fs,2); b2 = 4.32336116337414e-10pow(fs,2); a0 = fs(4.32336116337414e-10fs + 8.11644774100277e-8) + 1.69304291635435e-6; a1 = -8.64672232674828e-10pow(fs,2) + 3.38608583270871e-6; a2 = fs(4.32336116337414e-10fs - 8.11644774100277e-8) + 1.69304291635435e-6; }; /******************************************************************************* * fatfrog_p1 generated by dkbuiler from FatFrog_p1.sch ******************************************************************************/ p1 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(8.35674584831007e-15fs - 3.30068264442636e-10) - 5.00801478265492e-9); b1 = fs(fs(-2.50702375449302e-14fs + 3.30068264442636e-10) - 5.00801478265492e-9); b2 = fs(fs(2.50702375449302e-14fs + 3.30068264442636e-10) + 5.00801478265492e-9); b3 = fs(fs(-8.35674584831007e-15fs - 3.30068264442636e-10) + 5.00801478265492e-9); a0 = fs(fs(8.35674584831007e-15fs + 3.27716463529377e-11) + 6.34962194887572e-9) + 1.08092978787959e-7; a1 = fs(fs(-2.50702375449302e-14fs - 3.27716463529377e-11) + 6.34962194887572e-9) + 3.24278936363877e-7; a2 = fs(fs(2.50702375449302e-14fs - 3.27716463529377e-11) - 6.34962194887572e-9) + 3.24278936363877e-7; a3 = fs(fs(-8.35674584831007e-15fs + 3.27716463529377e-11) - 6.34962194887572e-9) + 1.08092978787959e-7; }; /**************************************************************************************** * fatfrog_p2_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max 15.000000 // --table_div 24.187463 // --table_op 10.000000 fatfrog_p2_clip = circuit_response(fatfrog_p2_table, low, high, step, size) with{ low = 0; high =-0.833333; step =132.667; size =200; fatfrog_p2_table = waveform { 0.000000000000,-0.010712151353,-0.020788209399,-0.030288758114,-0.039268727972, -0.047777878957,-0.055861253976,-0.063559601086,-0.070909764322,-0.077945043733, -0.084695525822,-0.091188385904,-0.097448164100,-0.103497016752,-0.109354945070, -0.115040002789,-0.120568484534,-0.125955096528,-0.131213111156,-0.136354506821, -0.141390094406,-0.146329631577,-0.151181926031,-0.155954928737,-0.160655818100, -0.165291075921,-0.169866555921,-0.174387545552,-0.178858821741,-0.183284701150, -0.187669085492,-0.192015502374,-0.196327142115,-0.200606890924,-0.204857360800, -0.209080916478,-0.213279699707,-0.217455651124,-0.221610529963,-0.225745931815, -0.229863304625,-0.233963963109,-0.238049101740,-0.242119806446,-0.246177065159, -0.250221777310,-0.254254762385,-0.258276767646,-0.262288475074,-0.266290507633, -0.270283434918,-0.274267778242,-0.278244015219,-0.282212583903,-0.286173886510, -0.290128292786,-0.294076143032,-0.298017750841,-0.301953405562,-0.305883374529, -0.309807905062,-0.313727226289,-0.317641550772,-0.321551075990,-0.325455985674, -0.329356451010,-0.333252631727,-0.337144677089,-0.341032726776,-0.344916911697, -0.348797354719,-0.352674171321,-0.356547470200,-0.360417353807,-0.364283918841, -0.368147256694,-0.372007453859,-0.375864592290,-0.379718749745,-0.383570000084, -0.387418413547,-0.391264057005,-0.395106994195,-0.398947285921,-0.402784990254, -0.406620162699,-0.410452856364,-0.414283122097,-0.418111008630,-0.421936562697, -0.425759829147,-0.429580851053,-0.433399669805,-0.437216325201,-0.441030855527, -0.444843297634,-0.448653687011,-0.452462057847,-0.456268443094,-0.460072874521, -0.463875382772,-0.467675997409,-0.471474746966,-0.475271658982,-0.479066760051, -0.482860075855,-0.486651631202,-0.490441450058,-0.494229555581,-0.498015970149, -0.501800715391,-0.505583812212,-0.509365280819,-0.513145140748,-0.516923410882, -0.520700109479,-0.524475254190,-0.528248862079,-0.532020949643,-0.535791532830, -0.539560627060,-0.543328247235,-0.547094407762,-0.550859122566,-0.554622405105, -0.558384268384,-0.562144724971,-0.565903787008,-0.569661466225,-0.573417773953, -0.577172721136,-0.580926318342,-0.584678575774,-0.588429503283,-0.592179110376, -0.595927406228,-0.599674399689,-0.603420099300,-0.607164513294,-0.610907649610, -0.614649515903,-0.618390119547,-0.622129467649,-0.625867567053,-0.629604424348, -0.633340045879,-0.637074437750,-0.640807605833,-0.644539555775,-0.648270293005, -0.651999822738,-0.655728149984,-0.659455279554,-0.663181216063,-0.666905963940, -0.670629527429,-0.674351910599,-0.678073117346,-0.681793151398,-0.685512016324, -0.689229715533,-0.692946252284,-0.696661629687,-0.700375850709,-0.704088918178, -0.707800834787,-0.711511603098,-0.715221225547,-0.718929704448,-0.722637041994, -0.726343240263,-0.730048301221,-0.733752226727,-0.737455018533,-0.741156678289, -0.744857207547,-0.748556607765,-0.752254880305,-0.755952026441,-0.759648047360, -0.763342944165,-0.767036717877,-0.770729369438,-0.774420899714,-0.778111309497, -0.781800599506,-0.785488770393,-0.789175822741,-0.792861757070,-0.796546573836, -0.800230273435,-0.803912856202,-0.807594322420,-0.811274672313,-0.814953906054, -0.818632023765,-0.822309025516,-0.825984911333,-0.829659681193,-0.833333335030 }; }; /************************************************************************************** * fatfrog_p2_neg_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max -15.000000 // --table_div 24.187463 // --table_op 10.000000 fatfrog_p2_neg_clip = circuit_response(fatfrog_p2_neg_table, low, high, step, size) with{ low = 0; high =0.550206; step =132.667; size =200; fatfrog_p2_neg_table = waveform { 0.000000000000,0.010689788950,0.020704100806,0.030110387046,0.038969146539, 0.047334652345,0.055255601546,0.062775696308,0.069934163529,0.076766219616, 0.083303486286,0.089574362602,0.095604357934,0.101416390011,0.107031051779, 0.112466850390,0.117740421276,0.122866719950,0.127859193885,0.132729936577, 0.137489825657,0.142148646743,0.146715204506,0.151197422304,0.155602431561, 0.159936651967,0.164205863459,0.168415270810,0.172569561627,0.176672958401, 0.180729265255,0.184741909912,0.188713981390,0.192648263856,0.196547267032, 0.200413253506,0.204248263277,0.208054135791,0.211832529755,0.215584940928, 0.219312718116,0.223017077541,0.226699115755,0.230359821245,0.234000084864, 0.237620709205,0.241222417027,0.244805858825,0.248371619639,0.251920225171, 0.255452147280,0.258967808926,0.262467588611,0.265951824368,0.269420817349, 0.272874835046,0.276314114187,0.279738863334,0.283149265224,0.286545478856, 0.289927641386,0.293295869804,0.296650262457,0.299990900404,0.303317848633, 0.306631157153,0.309930861966,0.313216985943,0.316489539595,0.319748521778, 0.322993920300,0.326225712477,0.329443865619,0.332648337459,0.335839076535, 0.339016022523,0.342179106530,0.345328251350,0.348463371679,0.351584374310, 0.354691158288,0.357783615049,0.360861628529,0.363925075253,0.366973824408, 0.370007737893,0.373026670354,0.376030469211,0.379018974658,0.381992019666, 0.384949429965,0.387891024015,0.390816612979,0.393726000673,0.396618983521, 0.399495350497,0.402354883062,0.405197355103,0.408022532855,0.410830174836, 0.413620031765,0.416391846489,0.419145353907,0.421880280892,0.424596346217, 0.427293260482,0.429970726049,0.432628436977,0.435266078966,0.437883329304, 0.440479856835,0.443055321921,0.445609376432,0.448141663738,0.450651818724, 0.453139467821,0.455604229059,0.458045712136,0.460463518524,0.462857241591, 0.465226466759,0.467570771697,0.469889726546,0.472182894186,0.474449830551, 0.476690084982,0.478903200634,0.481088714942,0.483246160139,0.485375063837, 0.487474949674,0.489545338033,0.491585746830,0.493595692384,0.495574690361, 0.497522256806,0.499437909259,0.501321167961,0.503171557148,0.504988606437, 0.506771852302,0.508520839644,0.510235123443,0.511914270507,0.513557861287, 0.515165491787,0.516736775524,0.518271345564,0.519768856600,0.521228987068, 0.522651441289,0.524035951619,0.525382280592,0.526690223025,0.527959608090, 0.529190301302,0.530382206421,0.531535267232,0.532649469193,0.533724840907, 0.534761455413,0.535759431267,0.536718933388,0.537640173654,0.538523411235, 0.539368952636,0.540177151460,0.540948407866,0.541683167728,0.542381921495, 0.543045202761,0.543673586549,0.544267687332,0.544828156796,0.545355681386, 0.545850979647,0.546314799384,0.546747914694,0.547151122873,0.547525241250, 0.547871103981,0.548189558816,0.548481463903,0.548747684625,0.548989090523, 0.549206552318,0.549400939057,0.549573115407,0.549723939108,0.549854258601, 0.549964910839,0.550056719295,0.550130492159,0.550187020738,0.550227078049, 0.550251417605,0.550260772389,0.550255854006,0.550237352009,0.550205933387 }; }; /***************************************************************************** * fatfrog_p2 generated by dkbuiler from FatFrog_p2.sch ******************************************************************************/ p2 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : fatfrog_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 = _; Volume = vslider("Volume[name:Volume][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Volume(Volumepow(fs,2)(1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(-1.12794330933527e-13fs - 3.11703482654466e-10) - 1.27653158593851e-7)); b1 = Volume(Volumepow(fs,2)(-3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(3.3838299280058e-13fs + 3.11703482654466e-10) - 1.27653158593851e-7)); b2 = Volume(Volumepow(fs,2)(3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(-3.3838299280058e-13fs + 3.11703482654466e-10) + 1.27653158593851e-7)); b3 = Volume(Volumepow(fs,2)(-1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(1.12794330933527e-13fs - 3.11703482654466e-10) + 1.27653158593851e-7)); a0 = Volume(Volumefs(fs(-3.18232353484157e-14fs - 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(3.18232353484157e-14fs + 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(4.97661233640118e-11fs + 5.40406043934383e-8) + 1.16799996131758e-6; a1 = Volume(Volumefs(fs(9.54697060452472e-14fs + 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(-9.54697060452472e-14fs - 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs + 5.40406043934383e-8) + 3.50399988395273e-6; a2 = Volume(Volumefs(fs(-9.54697060452472e-14fs + 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(9.54697060452472e-14fs - 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs - 5.40406043934383e-8) + 3.50399988395273e-6; a3 = Volume(Volumefs(fs(3.18232353484157e-14fs - 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(-3.18232353484157e-14fs + 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(4.97661233640118e-11fs - 5.40406043934383e-8) + 1.16799996131758e-6; }; fatfrog_clip = ffunction(float fatfrogclip(float), "fatfrog_p1_table.h", ""); fatfrog_neg_clip = ffunction(float fatfrog_negclip(float), "fatfrog_p1_neg_table.h", ""); p2a = _<:_-fatfrog_clip(p2-_) :>_; fatfrog_p2p = _<: ba.if(fsignbit(_), fatfrog_neg_clip, fatfrog_clip) :>_ ; fatfrog_p2clip = freq_split: ( fatfrog_p2p , fatfrog_p2p , fatfrog_p2p, fatfrog_p2p, fatfrog_p2p) :>_; /******************************************************************************* * fatfrog_p3 generated by dkbuiler from FatFrog_p3.sch ******************************************************************************/ p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Master = vslider("Master[name:Master][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Bass = vslider("Bass[name:Bass][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(7) : si.smooth(s); Treble = vslider("Treble[name:Treble][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Master(Bass(Middlepow(fs,2)(-3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(-7.65965608134806e-15fs - 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(-4.54129807194549e-13Basspow(fs,3) + 9.99085575828008e-15Middlepow(fs,3) + fs(fs(-9.99085575828008e-15fs - 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs - 3.39833297621287e-8)); b1 = Master(Bass(Middlepow(fs,2)(1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(2.29789682440442e-14fs + 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(1.36238942158365e-12Basspow(fs,3) - 2.99725672748402e-14Middlepow(fs,3) + fs(fs(2.99725672748402e-14fs + 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(8.94498105080173e-12fs - 3.39833297621287e-8)); b2 = Master(Bass(Middlepow(fs,2)(-1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(-2.29789682440442e-14fs + 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(-1.36238942158365e-12Basspow(fs,3) + 2.99725672748402e-14Middlepow(fs,3) + fs(fs(-2.99725672748402e-14fs + 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(8.94498105080173e-12fs + 3.39833297621287e-8)); b3 = Master(Bass(Middlepow(fs,2)(3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(7.65965608134806e-15fs - 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(4.54129807194549e-13Basspow(fs,3) - 9.99085575828008e-15Middlepow(fs,3) + fs(fs(9.99085575828008e-15fs - 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs + 3.39833297621287e-8)); a0 = Bass(Middlefs(fs(8.4448446570892e-15fs + 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(1.08432864509182e-14fs + 6.24344932141459e-11) + 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(-1.85786582455962e-16fs - 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(-5.27657194642384e-17fs - 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(2.38552301920201e-15fs + 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(-2.31243875101266e-17fs - 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(-1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(-2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(-5.23934856412778e-17fs - 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(5.24815064224442e-17fs + 3.86701328713641e-13) + 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(2.38552301920201e-16fs + 1.86643550757113e-12) + 3.40420425733631e-9) + 8.27983099470864e-7; a1 = Bass(Middlefs(fs(-2.53345339712676e-14fs - 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(-3.25298593527547e-14fs - 6.24344932141459e-11) + 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(5.57359747367887e-16fs + 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(1.58297158392715e-16fs + 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(-7.15656905760603e-15fs - 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(6.93731625303797e-17fs + 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(-1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(-5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(1.57180456923833e-16fs + 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(-1.57444519267333e-16fs - 3.86701328713641e-13) + 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(-7.15656905760603e-16fs - 1.86643550757113e-12) + 3.40420425733631e-9) + 2.48394929841259e-6; a2 = Bass(Middlefs(fs(2.53345339712676e-14fs - 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(3.25298593527547e-14fs - 6.24344932141459e-11) - 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(-5.57359747367887e-16fs + 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(-1.58297158392715e-16fs + 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(7.15656905760603e-15fs - 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(-6.93731625303797e-17fs + 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(-4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(-7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(-1.57180456923833e-16fs + 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(1.57444519267333e-16fs - 3.86701328713641e-13) - 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(7.15656905760603e-16fs - 1.86643550757113e-12) - 3.40420425733631e-9) + 2.48394929841259e-6; a3 = Bass(Middlefs(fs(-8.4448446570892e-15fs + 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(-1.08432864509182e-14fs + 6.24344932141459e-11) - 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(1.85786582455962e-16fs - 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(5.27657194642384e-17fs - 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(-2.38552301920201e-15fs + 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(2.31243875101266e-17fs - 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(-3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(-1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(5.23934856412778e-17fs - 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(-5.24815064224442e-17fs + 3.86701328713641e-13) - 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(-2.38552301920201e-16fs + 1.86643550757113e-12) - 3.40420425733631e-9) + 8.27983099470864e-7; }; /**************************************************************************************** * fatfrog_poweramp_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max 1.400000 // --table_div 1.684552 // --table_op 1.000000 fatfrog_poweramp_clip = circuit_response(fatfrog_poweramp_table, low, high, step, size) with{ low = 0; high =0.833333; step =142.143; size =200; fatfrog_poweramp_table = waveform { 0.000000000000,0.008825069056,0.017581566729,0.026269903187,0.034890465555, 0.043443658654,0.051929868850,0.060349505962,0.068702951545,0.076990613410, 0.085212874669,0.093370128103,0.101462771605,0.109491192293,0.117455779277, 0.125356920917,0.133195001455,0.140970418466,0.148683539107,0.156334761409, 0.163924456272,0.171453013208,0.178920811925,0.186328222432,0.193675625016, 0.200963407969,0.208191932778,0.215361567217,0.222472697993,0.229525680172, 0.236520901792,0.243458710457,0.250339474548,0.257163569576,0.263931348881, 0.270643177811,0.277299409324,0.283900407919,0.290446529521,0.296938122771, 0.303375546946,0.309759151256,0.316089285597,0.322366298196,0.328590535608, 0.334762342540,0.340882060475,0.346950036585,0.352966603290,0.358932104243, 0.364846877639,0.370711249622,0.376525560168,0.382290140574,0.388005315775, 0.393671416942,0.399288772025,0.404857702297,0.410378536938,0.415851589047, 0.421277181468,0.426655631817,0.431987254468,0.437272366677,0.442511279324, 0.447704303409,0.452851747777,0.457953921154,0.463011125387,0.468023669161, 0.472991851195,0.477915974277,0.482796332150,0.487633229188,0.492426956125, 0.497177807362,0.501886073846,0.506552046948,0.511176018334,0.515758270335, 0.520299087251,0.524798755416,0.529257556663,0.533675768918,0.538053670789, 0.542391540684,0.546689653613,0.550948279398,0.555167696010,0.559348168034, 0.563489964912,0.567593355127,0.571658603749,0.575685970920,0.579675724258, 0.583628117736,0.587543414507,0.591421871735,0.595263740340,0.599069279141, 0.602838737759,0.606572367383,0.610270417096,0.613933134590,0.617560765687, 0.621153554917,0.624711744403,0.628235577388,0.631725291806,0.635181126584, 0.638603318260,0.641992102801,0.645347712765,0.648670379716,0.651960337348, 0.655217812543,0.658443033155,0.661636227511,0.664797617402,0.667927428210, 0.671025880875,0.674093197740,0.677129595125,0.680135293039,0.683110506168, 0.686055448937,0.688970336972,0.691855380478,0.694710790096,0.697536776369, 0.700333545446,0.703101305038,0.705840260675,0.708550614229,0.711232569274, 0.713886327661,0.716512088070,0.719110049659,0.721680408531,0.724223361618, 0.726739103475,0.729227826292,0.731689723008,0.734124984098,0.736533798639, 0.738916355468,0.741272841367,0.743603441274,0.745908340423,0.748187722027, 0.750441767742,0.752670657655,0.754874572657,0.757053690735,0.759208188412, 0.761338242823,0.763444027128,0.765525716623,0.767583483045,0.769617497350, 0.771627930340,0.773614950578,0.775578726418,0.777519424545,0.779437210341, 0.781332248371,0.783204701796,0.785054734023,0.786882505198,0.788688175562, 0.790471904966,0.792233850299,0.793974169490,0.795693018007,0.797390550199, 0.799066920924,0.800722281709,0.802356785430,0.803970581781,0.805563820995, 0.807136651706,0.808689221322,0.810221676641,0.811734163187,0.813226825850, 0.814699808290,0.816153253063,0.817587302265,0.819002096686,0.820397775366, 0.821774478216,0.823132342882,0.824471506335,0.825792104528,0.827094272846, 0.828378145433,0.829643855964,0.830891536387,0.832121318561,0.833333333339 }; }; /************************************************************************************** * fatfrog_poweramp_neg_table generated by DK/circ_table_gen.py -- do not modify manually **************************************************************************************/ // variables used // --sig_max -1.400000 // --table_div 1.684552 // --table_op 1.000000 fatfrog_poweramp_neg_clip = circuit_response(fatfrog_poweramp_neg_table, low, high, step, size) with{ low = 0; high =-0.830434; step =142.143; size =200; fatfrog_poweramp_neg_table = waveform { 0.000000000000,-0.008825166416,-0.017581955846,-0.026270748592,-0.034891927952, -0.043445895020,-0.051933028482,-0.060353713507,-0.068708344701,-0.076997279049, -0.085220920211,-0.093379650456,-0.101473847974,-0.109503893701,-0.117470170243, -0.125373053511,-0.133212915640,-0.140990142782,-0.148705110523,-0.156358185222, -0.163949749539,-0.171480173168,-0.178949827852,-0.186359083790,-0.193708313082, -0.200997875893,-0.208228144469,-0.215399491663,-0.222512266704,-0.229566845140, -0.236563578802,-0.243502835296,-0.250384971175,-0.257210346178,-0.263979312312, -0.270692226415,-0.277349439820,-0.283951308672,-0.290498183437,-0.296990409097, -0.303428333067,-0.309812303564,-0.316142669098,-0.322419766753,-0.328643940091, -0.334815528853,-0.340934871940,-0.347002303943,-0.353018165786,-0.358982786115, -0.364896496770,-0.370759633766,-0.376572522445,-0.382335485534,-0.388048858784, -0.393712957996,-0.399328110793,-0.404894638133,-0.410412854580,-0.415883084307, -0.421305640058,-0.426680833592,-0.432008982476,-0.437290395884,-0.442525383943, -0.447714254521,-0.452857313789,-0.457954866525,-0.463007216132,-0.468014664763, -0.472977507652,-0.477896050270,-0.482770585254,-0.487601405460,-0.492388805190, -0.497133080728,-0.501834519752,-0.506493405025,-0.511110032103,-0.515684679743, -0.520217632509,-0.524709174236,-0.529159583293,-0.533569140304,-0.537938122341, -0.542266803832,-0.546555456680,-0.550804357015,-0.555013770934,-0.559183972674, -0.563315225583,-0.567407798699,-0.571461954073,-0.575477954408,-0.579456063283, -0.583396537818,-0.587299636289,-0.591165618130,-0.594994733142,-0.598787239769, -0.602543387137,-0.606263425611,-0.609947605378,-0.613596173718,-0.617209375000, -0.620787454324,-0.624330653787,-0.627839216646,-0.631313380725,-0.634753384965, -0.638159466288,-0.641531860042,-0.644870800713,-0.648176518840,-0.651449247993, -0.654689215377,-0.657896650703,-0.661071779722,-0.664214829073,-0.667326020581, -0.670405579210,-0.673453722176,-0.676470673651,-0.679456649217,-0.682411864733, -0.685336538825,-0.688230882515,-0.691095111078,-0.693929432606,-0.696734060342, -0.699509202616,-0.702255064375,-0.704971855016,-0.707659775910,-0.710319032607, -0.712949825521,-0.715552356630,-0.718126825518,-0.720673430658,-0.723192367252, -0.725683832057,-0.728148019865,-0.730585122627,-0.732995333386,-0.735378842133, -0.737735837986,-0.740066509107,-0.742371043092,-0.744649624698,-0.746902439379, -0.749129669401,-0.751331497574,-0.753508104803,-0.755659670110,-0.757786372384, -0.759888389373,-0.761965897374,-0.764019070360,-0.766048083130,-0.768053108124, -0.770034317048,-0.771991880375,-0.773925967602,-0.775836746544,-0.777724384911, -0.779589048241,-0.781430901838,-0.783250109603,-0.785046833823,-0.786821236559, -0.788573478626,-0.790303719548,-0.792012117675,-0.793698830218,-0.795364014068, -0.797007824406,-0.798630415730,-0.800231941079,-0.801812553473,-0.803372403455, -0.804911641427,-0.806430417283,-0.807928878875,-0.809407173790,-0.810865448057, -0.812303847251,-0.813722516074,-0.815121597513,-0.816501234517,-0.817861568263, -0.819202739722,-0.820524888245,-0.821828152919,-0.823112671327,-0.824378580512, -0.825626016395,-0.826855114143,-0.828066007852,-0.829258831036,-0.830433715874 }; }; /***************************************************************************** * fatfrog_poweramp generated by dkbuiler from PlexiPowerAmpEL34.sch ******************************************************************************/ p4 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : fatfrog_powerampp with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(3.87560926163844e-19fs + 4.30800903120125e-16) + 3.17509705609174e-17) + 5.3495467261267e-19); b1 = fs(pow(fs,2)(-1.55024370465538e-18fs - 8.61601806240251e-16) + 1.06990934522534e-18); b2 = pow(fs,2)(2.32536555698307e-18pow(fs,2) - 6.35019411218347e-17); b3 = fs(pow(fs,2)(-1.55024370465538e-18fs + 8.61601806240251e-16) - 1.06990934522534e-18); b4 = fs(fs(fs(3.87560926163844e-19fs - 4.30800903120125e-16) + 3.17509705609174e-17) - 5.3495467261267e-19); a0 = fs(fs(fs(1.82693733893894e-19fs + 2.71243523616587e-16) + 8.16290535602033e-14) + 4.64147298174261e-12) + 4.00158102875003e-12; a1 = fs(pow(fs,2)(-7.30774935575574e-19fs - 5.42487047233173e-16) + 9.28294596348523e-12) + 1.60063241150001e-11; a2 = pow(fs,2)(1.09616240336336e-18pow(fs,2) - 1.63258107120407e-13) + 2.40094861725002e-11; a3 = fs(pow(fs,2)(-7.30774935575574e-19fs + 5.42487047233173e-16) - 9.28294596348523e-12) + 1.60063241150001e-11; a4 = fs(fs(fs(1.82693733893894e-19fs - 2.71243523616587e-16) + 8.16290535602033e-14) - 4.64147298174261e-12) + 4.00158102875003e-12; }; fatfrog_power_neg_clip = ffunction(float fatfrog_power_negclip(float), "fatfrog_power_neg_table.h", ""); fatfrog_power_clip = ffunction(float fatfrog_powerclip(float), "fatfrog_power_table.h", ""); fatfrog_powerampp = _<: ba.if(fsignbit(_), fatfrog_power_neg_clip, fatfrog_power_clip) :>_ ; fatfrog_powerampclip = freq_split: ( fatfrog_powerampp , fatfrog_powerampp , fatfrog_powerampp, fatfrog_powerampp, fatfrog_powerampp) :>_; /******************************************************************************* * fatfrog_cab_p1 generated by dkbuiler from JMP_p1.sch ******************************************************************************/ p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = pow(fs,3)(fs(fs(fs(5.41478926354201e-34fs + 9.89823968225517e-29) + 2.21389820371069e-25) + 8.2706263330292e-23) + 3.05852920983453e-20); b1 = pow(fs,3)(fs(fs(fs(-3.79035248447941e-33fs - 4.94911984112759e-28) - 6.64169461113208e-25) - 8.2706263330292e-23) + 3.05852920983453e-20); b2 = pow(fs,3)(fs(fs(fs(1.13710574534382e-32fs + 8.90841571402966e-28) + 2.21389820371069e-25) - 2.48118789990876e-22) - 9.1755876295036e-20); b3 = pow(fs,3)(fs(fs(fs(-1.8951762422397e-32fs - 4.94911984112759e-28) + 1.10694910185535e-24) + 2.48118789990876e-22) - 9.1755876295036e-20); b4 = pow(fs,3)(fs(fs(fs(1.8951762422397e-32fs - 4.94911984112759e-28) - 1.10694910185535e-24) + 2.48118789990876e-22) + 9.1755876295036e-20); b5 = pow(fs,3)(fs(fs(fs(-1.13710574534382e-32fs + 8.90841571402966e-28) - 2.21389820371069e-25) - 2.48118789990876e-22) + 9.1755876295036e-20); b6 = pow(fs,3)(fs(fs(fs(3.79035248447941e-33fs - 4.94911984112759e-28) + 6.64169461113208e-25) - 8.2706263330292e-23) - 3.05852920983453e-20); b7 = pow(fs,3)(fs(fs(fs(-5.41478926354201e-34fs + 9.89823968225517e-29) - 2.21389820371069e-25) + 8.2706263330292e-23) - 3.05852920983453e-20); a0 = fs(fs(fs(fs(fs(fs(5.41489755986876e-34fs + 5.09078733178756e-29) + 2.30252226046762e-25) + 1.50190005873638e-22) + 7.82551343611017e-20) + 2.17831661090841e-17) + 4.23378644784192e-15) + 1.61880500310045e-13; a1 = fs(fs(fs(fs(fs(fs(-3.79042829190813e-33fs - 2.54539366589378e-28) - 6.90756678140285e-25) - 1.50190005873638e-22) + 7.82551343611017e-20) + 6.53494983272524e-17) + 2.11689322392096e-14) + 1.13316350217031e-12; a2 = fs(fs(fs(fs(fs(fs(1.13712848757244e-32fs + 4.58170859860881e-28) + 2.30252226046762e-25) - 4.50570017620913e-22) - 2.34765403083305e-19) + 2.17831661090841e-17) + 3.81040780305773e-14) + 3.39949050651094e-12; a3 = fs(fs(fs(fs(fs(fs(-1.89521414595407e-32fs - 2.54539366589378e-28) + 1.15126113023381e-24) + 4.50570017620913e-22) - 2.34765403083305e-19) - 1.08915830545421e-16) + 2.11689322392096e-14) + 5.66581751085156e-12; a4 = fs(fs(fs(fs(fs(fs(1.89521414595407e-32fs - 2.54539366589378e-28) - 1.15126113023381e-24) + 4.50570017620913e-22) + 2.34765403083305e-19) - 1.08915830545421e-16) - 2.11689322392096e-14) + 5.66581751085156e-12; a5 = fs(fs(fs(fs(fs(fs(-1.13712848757244e-32fs + 4.58170859860881e-28) - 2.30252226046762e-25) - 4.50570017620913e-22) + 2.34765403083305e-19) + 2.17831661090841e-17) - 3.81040780305773e-14) + 3.39949050651094e-12; a6 = fs(fs(fs(fs(fs(fs(3.79042829190813e-33fs - 2.54539366589378e-28) + 6.90756678140285e-25) - 1.50190005873638e-22) - 7.82551343611017e-20) + 6.53494983272524e-17) - 2.11689322392096e-14) + 1.13316350217031e-12; a7 = fs(fs(fs(fs(fs(fs(-5.41489755986876e-34fs + 5.09078733178756e-29) - 2.30252226046762e-25) + 1.50190005873638e-22) - 7.82551343611017e-20) + 2.17831661090841e-17) - 4.23378644784192e-15) + 1.61880500310045e-13; }; /******************************************************************************* * fatfrog_cab_p2 generated by dkbuiler from JMP_p2.sch ******************************************************************************/ p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.00504891959951124; b1 = 0.0201956783980450; b2 = 0.0302935175970674; b3 = 0.0201956783980450; b4 = 0.00504891959951124; a0 = fs(fs(fs(7.69566058426545e-20fs + 3.51033127781783e-15) + 6.87327741113863e-11) + 8.30384029826822e-7) + 0.00504902057840812; a1 = fs(pow(fs,2)(-3.07826423370618e-19fs - 7.02066255563566e-15) + 1.66076805965364e-6) + 0.0201960823136325; a2 = pow(fs,2)(4.61739635055927e-19pow(fs,2) - 1.37465548222773e-10) + 0.0302941234704487; a3 = fs(pow(fs,2)(-3.07826423370618e-19fs + 7.02066255563566e-15) - 1.66076805965364e-6) + 0.0201960823136325; a4 = fs(fs(fs(7.69566058426545e-20fs - 3.51033127781783e-15) + 6.87327741113863e-11) - 8.30384029826822e-7) + 0.00504902057840812; }; b1 = checkbox("Bright[name:Bright"); b2 = checkbox("NoiseFilter[name:NoiseFilter"); process = ba.bypass_fade(ma.SR/10, 1-b2, p0a : p0aa : (2.0)) : (1.5) : ba.bypass_fade(ma.SR/10, b1, p1 ) : ba.bypass_fade(ma.SR/10, 1 - b1, (4.0)) : p2 : p3 : p4 : (0.666) : p5 : (0.555) : p6 : (0.555) ;	https://raw.githubusercontent.com/brummer10/FatFrog/3361dd312f0933c69397f156a62388ed2c411fe6/FatFrog/dsp/FatFrog.dsp	faust	**************************************************************************** ************************ File generated by ***************************** **************************************************************************** ./build-plug.py -i FatFrog_p1.sch FatFrog_p2.sch FatFrog_p3.sch PlexiPowerAmpEL34.sch JMP_p1.sch JMP_p2.sch -T --table_neg 2 4 -o 10 -x 15.0 -N --switch 1=Bright --bypass -r 1=0.333 3=0.666 4=0.666 5=0.555 6=0.555 --build --name FatFrog ************************************************************************** generated automatically DO NOT MODIFY! **************************************************************************** * 1-dimensional function table for linear interpolation **************************************************************************** -- Rdtable from waveform -- Copy the sign of x to f -- Get sign of value x -- Check if value x is negative -- Get fractal part of value n -- Interpolate value between i and i+1 in table with fractal coefficient f. -- reduce dc-offset (noise) from table response for very low values -- Linear interpolation for value x in rdtable -- Calculate linear table index for value x -- predefined filterbank **************************************************************************** * noisefilter generated by dkbuiler from NoiseFilter.sch **************************************************************************** **************************************************************************** * fatfrog_p1 generated by dkbuiler from FatFrog_p1.sch **************************************************************************** ************************************************************************************* * fatfrog_p2_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max 15.000000 --table_div 24.187463 --table_op 10.000000 ************************************************************************************* * fatfrog_p2_neg_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max -15.000000 --table_div 24.187463 --table_op 10.000000 **************************************************************************** * fatfrog_p2 generated by dkbuiler from FatFrog_p2.sch **************************************************************************** **************************************************************************** * fatfrog_p3 generated by dkbuiler from FatFrog_p3.sch **************************************************************************** ************************************************************************************* * fatfrog_poweramp_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max 1.400000 --table_div 1.684552 --table_op 1.000000 ************************************************************************************* * fatfrog_poweramp_neg_table generated by DK/circ_table_gen.py -- do not modify manually ************************************************************************************* variables used --sig_max -1.400000 --table_div 1.684552 --table_op 1.000000 **************************************************************************** * fatfrog_poweramp generated by dkbuiler from PlexiPowerAmpEL34.sch **************************************************************************** **************************************************************************** * fatfrog_cab_p1 generated by dkbuiler from JMP_p1.sch **************************************************************************** **************************************************************************** * fatfrog_cab_p2 generated by dkbuiler from JMP_p2.sch ******************************************************************************	declare id "fatfrog"; declare name "FatFrog"; declare category "Extern"; declare shortname "FatFrog"; declare description "HighGain Amplifier"; import("stdfaust.lib"); rd = library("reducemaps.lib"); rtable(table, r) = (table, int(r)):rdtable; ccopysign(f, x) = ma.fabs(f) * sign(x); sign(x) = x<0, 1, -1 : select2; fsignbit(x) = x<0; fractal(n) = n - int(n); interpolation(table, size, f, i) = select2(i<1,select2(i>size-3, rtable(table, i)(1-f) + rtable(table,i+1)f, rtable(table, size-1)), rtable(table, 0)) ; table_gate(table,x) = select2(ma.fabs(x):rd.maxn(4096)<ma.fabs(rtable(table, 1))(0.12), x, xxx); circuit_response(table, low, high, step, size, x) = interpolation(table, size, fractal(linindex(step, x)), int(linindex(step, x))), x : ccopysign; linindex(step, x) = ma.fabs(x) step; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); p0a = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.0137596163999650; b1 = 0.0412788491998950; b2 = 0.0412788491998950; b3 = 0.0137596163999650; a0 = fs(fs(2.41640879369625e-15fs + 2.15750785151451e-10) + 4.62323111038824e-6) + 0.013759616399965; a1 = fs(fs(-7.24922638108876e-15fs - 2.15750785151451e-10) + 4.62323111038824e-6) + 0.041278849199895; a2 = fs(fs(7.24922638108876e-15fs - 2.15750785151451e-10) - 4.62323111038824e-6) + 0.041278849199895; a3 = fs(fs(-2.41640879369625e-15fs + 2.15750785151451e-10) - 4.62323111038824e-6) + 0.013759616399965; }; p0aa = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 4.32336116337414e-10pow(fs,2); b1 = -8.64672232674828e-10pow(fs,2); b2 = 4.32336116337414e-10pow(fs,2); a0 = fs(4.32336116337414e-10fs + 8.11644774100277e-8) + 1.69304291635435e-6; a1 = -8.64672232674828e-10pow(fs,2) + 3.38608583270871e-6; a2 = fs(4.32336116337414e-10fs - 8.11644774100277e-8) + 1.69304291635435e-6; }; p1 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(8.35674584831007e-15fs - 3.30068264442636e-10) - 5.00801478265492e-9); b1 = fs(fs(-2.50702375449302e-14fs + 3.30068264442636e-10) - 5.00801478265492e-9); b2 = fs(fs(2.50702375449302e-14fs + 3.30068264442636e-10) + 5.00801478265492e-9); b3 = fs(fs(-8.35674584831007e-15fs - 3.30068264442636e-10) + 5.00801478265492e-9); a0 = fs(fs(8.35674584831007e-15fs + 3.27716463529377e-11) + 6.34962194887572e-9) + 1.08092978787959e-7; a1 = fs(fs(-2.50702375449302e-14fs - 3.27716463529377e-11) + 6.34962194887572e-9) + 3.24278936363877e-7; a2 = fs(fs(2.50702375449302e-14fs - 3.27716463529377e-11) - 6.34962194887572e-9) + 3.24278936363877e-7; a3 = fs(fs(-8.35674584831007e-15fs + 3.27716463529377e-11) - 6.34962194887572e-9) + 1.08092978787959e-7; }; fatfrog_p2_clip = circuit_response(fatfrog_p2_table, low, high, step, size) with{ low = 0; high =-0.833333; step =132.667; size =200; fatfrog_p2_table = waveform { 0.000000000000,-0.010712151353,-0.020788209399,-0.030288758114,-0.039268727972, -0.047777878957,-0.055861253976,-0.063559601086,-0.070909764322,-0.077945043733, -0.084695525822,-0.091188385904,-0.097448164100,-0.103497016752,-0.109354945070, -0.115040002789,-0.120568484534,-0.125955096528,-0.131213111156,-0.136354506821, -0.141390094406,-0.146329631577,-0.151181926031,-0.155954928737,-0.160655818100, -0.165291075921,-0.169866555921,-0.174387545552,-0.178858821741,-0.183284701150, -0.187669085492,-0.192015502374,-0.196327142115,-0.200606890924,-0.204857360800, -0.209080916478,-0.213279699707,-0.217455651124,-0.221610529963,-0.225745931815, -0.229863304625,-0.233963963109,-0.238049101740,-0.242119806446,-0.246177065159, -0.250221777310,-0.254254762385,-0.258276767646,-0.262288475074,-0.266290507633, -0.270283434918,-0.274267778242,-0.278244015219,-0.282212583903,-0.286173886510, -0.290128292786,-0.294076143032,-0.298017750841,-0.301953405562,-0.305883374529, -0.309807905062,-0.313727226289,-0.317641550772,-0.321551075990,-0.325455985674, -0.329356451010,-0.333252631727,-0.337144677089,-0.341032726776,-0.344916911697, -0.348797354719,-0.352674171321,-0.356547470200,-0.360417353807,-0.364283918841, -0.368147256694,-0.372007453859,-0.375864592290,-0.379718749745,-0.383570000084, -0.387418413547,-0.391264057005,-0.395106994195,-0.398947285921,-0.402784990254, -0.406620162699,-0.410452856364,-0.414283122097,-0.418111008630,-0.421936562697, -0.425759829147,-0.429580851053,-0.433399669805,-0.437216325201,-0.441030855527, -0.444843297634,-0.448653687011,-0.452462057847,-0.456268443094,-0.460072874521, -0.463875382772,-0.467675997409,-0.471474746966,-0.475271658982,-0.479066760051, -0.482860075855,-0.486651631202,-0.490441450058,-0.494229555581,-0.498015970149, -0.501800715391,-0.505583812212,-0.509365280819,-0.513145140748,-0.516923410882, -0.520700109479,-0.524475254190,-0.528248862079,-0.532020949643,-0.535791532830, -0.539560627060,-0.543328247235,-0.547094407762,-0.550859122566,-0.554622405105, -0.558384268384,-0.562144724971,-0.565903787008,-0.569661466225,-0.573417773953, -0.577172721136,-0.580926318342,-0.584678575774,-0.588429503283,-0.592179110376, -0.595927406228,-0.599674399689,-0.603420099300,-0.607164513294,-0.610907649610, -0.614649515903,-0.618390119547,-0.622129467649,-0.625867567053,-0.629604424348, -0.633340045879,-0.637074437750,-0.640807605833,-0.644539555775,-0.648270293005, -0.651999822738,-0.655728149984,-0.659455279554,-0.663181216063,-0.666905963940, -0.670629527429,-0.674351910599,-0.678073117346,-0.681793151398,-0.685512016324, -0.689229715533,-0.692946252284,-0.696661629687,-0.700375850709,-0.704088918178, -0.707800834787,-0.711511603098,-0.715221225547,-0.718929704448,-0.722637041994, -0.726343240263,-0.730048301221,-0.733752226727,-0.737455018533,-0.741156678289, -0.744857207547,-0.748556607765,-0.752254880305,-0.755952026441,-0.759648047360, -0.763342944165,-0.767036717877,-0.770729369438,-0.774420899714,-0.778111309497, -0.781800599506,-0.785488770393,-0.789175822741,-0.792861757070,-0.796546573836, -0.800230273435,-0.803912856202,-0.807594322420,-0.811274672313,-0.814953906054, -0.818632023765,-0.822309025516,-0.825984911333,-0.829659681193,-0.833333335030 }; }; fatfrog_p2_neg_clip = circuit_response(fatfrog_p2_neg_table, low, high, step, size) with{ low = 0; high =0.550206; step =132.667; size =200; fatfrog_p2_neg_table = waveform { 0.000000000000,0.010689788950,0.020704100806,0.030110387046,0.038969146539, 0.047334652345,0.055255601546,0.062775696308,0.069934163529,0.076766219616, 0.083303486286,0.089574362602,0.095604357934,0.101416390011,0.107031051779, 0.112466850390,0.117740421276,0.122866719950,0.127859193885,0.132729936577, 0.137489825657,0.142148646743,0.146715204506,0.151197422304,0.155602431561, 0.159936651967,0.164205863459,0.168415270810,0.172569561627,0.176672958401, 0.180729265255,0.184741909912,0.188713981390,0.192648263856,0.196547267032, 0.200413253506,0.204248263277,0.208054135791,0.211832529755,0.215584940928, 0.219312718116,0.223017077541,0.226699115755,0.230359821245,0.234000084864, 0.237620709205,0.241222417027,0.244805858825,0.248371619639,0.251920225171, 0.255452147280,0.258967808926,0.262467588611,0.265951824368,0.269420817349, 0.272874835046,0.276314114187,0.279738863334,0.283149265224,0.286545478856, 0.289927641386,0.293295869804,0.296650262457,0.299990900404,0.303317848633, 0.306631157153,0.309930861966,0.313216985943,0.316489539595,0.319748521778, 0.322993920300,0.326225712477,0.329443865619,0.332648337459,0.335839076535, 0.339016022523,0.342179106530,0.345328251350,0.348463371679,0.351584374310, 0.354691158288,0.357783615049,0.360861628529,0.363925075253,0.366973824408, 0.370007737893,0.373026670354,0.376030469211,0.379018974658,0.381992019666, 0.384949429965,0.387891024015,0.390816612979,0.393726000673,0.396618983521, 0.399495350497,0.402354883062,0.405197355103,0.408022532855,0.410830174836, 0.413620031765,0.416391846489,0.419145353907,0.421880280892,0.424596346217, 0.427293260482,0.429970726049,0.432628436977,0.435266078966,0.437883329304, 0.440479856835,0.443055321921,0.445609376432,0.448141663738,0.450651818724, 0.453139467821,0.455604229059,0.458045712136,0.460463518524,0.462857241591, 0.465226466759,0.467570771697,0.469889726546,0.472182894186,0.474449830551, 0.476690084982,0.478903200634,0.481088714942,0.483246160139,0.485375063837, 0.487474949674,0.489545338033,0.491585746830,0.493595692384,0.495574690361, 0.497522256806,0.499437909259,0.501321167961,0.503171557148,0.504988606437, 0.506771852302,0.508520839644,0.510235123443,0.511914270507,0.513557861287, 0.515165491787,0.516736775524,0.518271345564,0.519768856600,0.521228987068, 0.522651441289,0.524035951619,0.525382280592,0.526690223025,0.527959608090, 0.529190301302,0.530382206421,0.531535267232,0.532649469193,0.533724840907, 0.534761455413,0.535759431267,0.536718933388,0.537640173654,0.538523411235, 0.539368952636,0.540177151460,0.540948407866,0.541683167728,0.542381921495, 0.543045202761,0.543673586549,0.544267687332,0.544828156796,0.545355681386, 0.545850979647,0.546314799384,0.546747914694,0.547151122873,0.547525241250, 0.547871103981,0.548189558816,0.548481463903,0.548747684625,0.548989090523, 0.549206552318,0.549400939057,0.549573115407,0.549723939108,0.549854258601, 0.549964910839,0.550056719295,0.550130492159,0.550187020738,0.550227078049, 0.550251417605,0.550260772389,0.550255854006,0.550237352009,0.550205933387 }; }; p2 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) : fatfrog_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 = _; Volume = vslider("Volume[name:Volume][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Volume(Volumepow(fs,2)(1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(-1.12794330933527e-13fs - 3.11703482654466e-10) - 1.27653158593851e-7)); b1 = Volume(Volumepow(fs,2)(-3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(3.3838299280058e-13fs + 3.11703482654466e-10) - 1.27653158593851e-7)); b2 = Volume(Volumepow(fs,2)(3.3838299280058e-13fs - 2.55306317187702e-10) + fs(fs(-3.3838299280058e-13fs + 3.11703482654466e-10) + 1.27653158593851e-7)); b3 = Volume(Volumepow(fs,2)(-1.12794330933527e-13fs + 2.55306317187702e-10) + fs(fs(1.12794330933527e-13fs - 3.11703482654466e-10) + 1.27653158593851e-7)); a0 = Volume(Volumefs(fs(-3.18232353484157e-14fs - 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(3.18232353484157e-14fs + 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(4.97661233640118e-11fs + 5.40406043934383e-8) + 1.16799996131758e-6; a1 = Volume(Volumefs(fs(9.54697060452472e-14fs + 7.27329344390611e-11) - 1.58911559362935e-9) + fs(fs(-9.54697060452472e-14fs - 3.88784287492572e-11) + 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs + 5.40406043934383e-8) + 3.50399988395273e-6; a2 = Volume(Volumefs(fs(-9.54697060452472e-14fs + 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(9.54697060452472e-14fs - 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(-4.97661233640118e-11fs - 5.40406043934383e-8) + 3.50399988395273e-6; a3 = Volume(Volumefs(fs(3.18232353484157e-14fs - 7.27329344390611e-11) + 1.58911559362935e-9) + fs(fs(-3.18232353484157e-14fs + 3.88784287492572e-11) - 8.42231264623558e-10)) + fs(4.97661233640118e-11fs - 5.40406043934383e-8) + 1.16799996131758e-6; }; fatfrog_clip = ffunction(float fatfrogclip(float), "fatfrog_p1_table.h", ""); fatfrog_neg_clip = ffunction(float fatfrog_negclip(float), "fatfrog_p1_neg_table.h", ""); p2a = _<:_-fatfrog_clip(p2-_) :>_; fatfrog_p2p = _<: ba.if(fsignbit(_), fatfrog_neg_clip, fatfrog_clip) :>_ ; fatfrog_p2clip = freq_split: ( fatfrog_p2p , fatfrog_p2p , fatfrog_p2p, fatfrog_p2p, fatfrog_p2p) :>_; p3 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; Master = vslider("Master[name:Master][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Bass = vslider("Bass[name:Bass][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(7) : si.smooth(s); Treble = vslider("Treble[name:Treble][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Middle = vslider("Middle[name:Middle][style:knob]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = Master(Bass(Middlepow(fs,2)(-3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(-7.65965608134806e-15fs - 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(-4.54129807194549e-13Basspow(fs,3) + 9.99085575828008e-15Middlepow(fs,3) + fs(fs(-9.99085575828008e-15fs - 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs - 3.39833297621287e-8)); b1 = Master(Bass(Middlepow(fs,2)(1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs - 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(2.29789682440442e-14fs + 3.97766178642034e-11) - 3.3272508000304e-8)) + Treble(1.36238942158365e-12Basspow(fs,3) - 2.99725672748402e-14Middlepow(fs,3) + fs(fs(2.99725672748402e-14fs + 2.06422639633886e-11) - 7.10821761824676e-9)) + fs(8.94498105080173e-12fs - 3.39833297621287e-8)); b2 = Master(Bass(Middlepow(fs,2)(-1.04449855654746e-12fs + 1.49526650953366e-9) + fs(4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(2.29789682440442e-14fs - 3.28958632097406e-11) + fs(fs(-2.29789682440442e-14fs + 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(-1.36238942158365e-12Basspow(fs,3) + 2.99725672748402e-14Middlepow(fs,3) + fs(fs(-2.99725672748402e-14fs + 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(8.94498105080173e-12fs + 3.39833297621287e-8)); b3 = Master(Bass(Middlepow(fs,2)(3.48166185515821e-13fs - 1.49526650953366e-9) + fs(-4.06590047763715e-10fs + 1.54469680736949e-6)) + Middle(Middlepow(fs,2)(-7.65965608134806e-15fs + 3.28958632097406e-11) + fs(fs(7.65965608134806e-15fs - 3.97766178642034e-11) + 3.3272508000304e-8)) + Treble(4.54129807194549e-13Basspow(fs,3) - 9.99085575828008e-15Middlepow(fs,3) + fs(fs(9.99085575828008e-15fs - 2.06422639633886e-11) + 7.10821761824676e-9)) + fs(-8.94498105080173e-12fs + 3.39833297621287e-8)); a0 = Bass(Middlefs(fs(8.4448446570892e-15fs + 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(1.08432864509182e-14fs + 6.24344932141459e-11) + 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(-1.85786582455962e-16fs - 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(-5.27657194642384e-17fs - 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(2.38552301920201e-15fs + 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(-2.31243875101266e-17fs - 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(-1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(-2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(-5.23934856412778e-17fs - 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(5.24815064224442e-17fs + 3.86701328713641e-13) + 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(2.38552301920201e-16fs + 1.86643550757113e-12) + 3.40420425733631e-9) + 8.27983099470864e-7; a1 = Bass(Middlefs(fs(-2.53345339712676e-14fs - 3.65575592641919e-11) + 7.84234481690603e-10) + fs(fs(-3.25298593527547e-14fs - 6.24344932141459e-11) + 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(5.57359747367887e-16fs + 8.04266303812222e-13) - 1.72531585971933e-11) + fs(fs(1.58297158392715e-16fs + 1.85435971576751e-13) + 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(-7.15656905760603e-15fs - 1.26485665547481e-11) + 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(6.93731625303797e-17fs + 5.41706378172345e-14) + 1.72531585971933e-10)) + Treble(Bass(4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(-1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(-5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(1.57180456923833e-16fs + 1.43930535370065e-13) - 3.68590206394583e-11)) + fs(fs(-1.57444519267333e-16fs - 3.86701328713641e-13) + 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(-7.15656905760603e-16fs - 1.86643550757113e-12) + 3.40420425733631e-9) + 2.48394929841259e-6; a2 = Bass(Middlefs(fs(2.53345339712676e-14fs - 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(3.25298593527547e-14fs - 6.24344932141459e-11) - 3.89557496727746e-8) + 2.43047876557005e-6) + Middle(Middlefs(fs(-5.57359747367887e-16fs + 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(-1.58297158392715e-16fs + 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(4.00324348804331e-15fs - 7.42921009195142e-12) + fs(fs(7.15656905760603e-15fs - 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(-8.80713567369529e-17fs + 1.63442622022931e-13) + fs(fs(-6.93731625303797e-17fs + 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(-4.70969822122743e-15Middlepow(fs,3) + pow(fs,2)(-7.14456622381061e-15fs + 1.62179690813617e-12)) + Middle(1.03613360867003e-16Middlepow(fs,3) + pow(fs,2)(5.35670960568299e-17fs + 3.56795319789957e-14)) + fs(fs(-1.57180456923833e-16fs + 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(1.57444519267333e-16fs - 3.86701328713641e-13) - 7.29224792105746e-10) + 5.34705328425411e-7) + fs(fs(7.15656905760603e-16fs - 1.86643550757113e-12) - 3.40420425733631e-9) + 2.48394929841259e-6; a3 = Bass(Middlefs(fs(-8.4448446570892e-15fs + 3.65575592641919e-11) - 7.84234481690603e-10) + fs(fs(-1.08432864509182e-14fs + 6.24344932141459e-11) - 3.89557496727746e-8) + 8.1015958852335e-7) + Middle(Middlefs(fs(1.85786582455962e-16fs - 8.04266303812222e-13) + 1.72531585971933e-11) + fs(fs(5.27657194642384e-17fs - 1.85435971576751e-13) - 8.01487640287796e-10)) + Treble(Bass(Middlepow(fs,2)(-1.33441449601444e-15fs + 7.42921009195142e-12) + fs(fs(-2.38552301920201e-15fs + 1.26485665547481e-11) - 7.6748038139994e-9)) + Middle(Middlepow(fs,2)(2.93571189123176e-17fs - 1.63442622022931e-13) + fs(fs(2.31243875101266e-17fs - 5.41706378172345e-14) - 1.72531585971933e-10)) + Treble(Bass(1.56989940707581e-15Middlepow(fs,3) + pow(fs,2)(2.38152207460354e-15fs - 1.62179690813617e-12)) + Middle(-3.45377869556678e-17Middlepow(fs,3) + pow(fs,2)(-1.785569868561e-17fs - 3.56795319789957e-14)) + fs(fs(5.23934856412778e-17fs - 1.43930535370065e-13) + 3.68590206394583e-11)) + fs(fs(-5.24815064224442e-17fs + 3.86701328713641e-13) - 7.29224792105746e-10) + 1.78235109475137e-7) + fs(fs(-2.38552301920201e-16fs + 1.86643550757113e-12) - 3.40420425733631e-9) + 8.27983099470864e-7; }; fatfrog_poweramp_clip = circuit_response(fatfrog_poweramp_table, low, high, step, size) with{ low = 0; high =0.833333; step =142.143; size =200; fatfrog_poweramp_table = waveform { 0.000000000000,0.008825069056,0.017581566729,0.026269903187,0.034890465555, 0.043443658654,0.051929868850,0.060349505962,0.068702951545,0.076990613410, 0.085212874669,0.093370128103,0.101462771605,0.109491192293,0.117455779277, 0.125356920917,0.133195001455,0.140970418466,0.148683539107,0.156334761409, 0.163924456272,0.171453013208,0.178920811925,0.186328222432,0.193675625016, 0.200963407969,0.208191932778,0.215361567217,0.222472697993,0.229525680172, 0.236520901792,0.243458710457,0.250339474548,0.257163569576,0.263931348881, 0.270643177811,0.277299409324,0.283900407919,0.290446529521,0.296938122771, 0.303375546946,0.309759151256,0.316089285597,0.322366298196,0.328590535608, 0.334762342540,0.340882060475,0.346950036585,0.352966603290,0.358932104243, 0.364846877639,0.370711249622,0.376525560168,0.382290140574,0.388005315775, 0.393671416942,0.399288772025,0.404857702297,0.410378536938,0.415851589047, 0.421277181468,0.426655631817,0.431987254468,0.437272366677,0.442511279324, 0.447704303409,0.452851747777,0.457953921154,0.463011125387,0.468023669161, 0.472991851195,0.477915974277,0.482796332150,0.487633229188,0.492426956125, 0.497177807362,0.501886073846,0.506552046948,0.511176018334,0.515758270335, 0.520299087251,0.524798755416,0.529257556663,0.533675768918,0.538053670789, 0.542391540684,0.546689653613,0.550948279398,0.555167696010,0.559348168034, 0.563489964912,0.567593355127,0.571658603749,0.575685970920,0.579675724258, 0.583628117736,0.587543414507,0.591421871735,0.595263740340,0.599069279141, 0.602838737759,0.606572367383,0.610270417096,0.613933134590,0.617560765687, 0.621153554917,0.624711744403,0.628235577388,0.631725291806,0.635181126584, 0.638603318260,0.641992102801,0.645347712765,0.648670379716,0.651960337348, 0.655217812543,0.658443033155,0.661636227511,0.664797617402,0.667927428210, 0.671025880875,0.674093197740,0.677129595125,0.680135293039,0.683110506168, 0.686055448937,0.688970336972,0.691855380478,0.694710790096,0.697536776369, 0.700333545446,0.703101305038,0.705840260675,0.708550614229,0.711232569274, 0.713886327661,0.716512088070,0.719110049659,0.721680408531,0.724223361618, 0.726739103475,0.729227826292,0.731689723008,0.734124984098,0.736533798639, 0.738916355468,0.741272841367,0.743603441274,0.745908340423,0.748187722027, 0.750441767742,0.752670657655,0.754874572657,0.757053690735,0.759208188412, 0.761338242823,0.763444027128,0.765525716623,0.767583483045,0.769617497350, 0.771627930340,0.773614950578,0.775578726418,0.777519424545,0.779437210341, 0.781332248371,0.783204701796,0.785054734023,0.786882505198,0.788688175562, 0.790471904966,0.792233850299,0.793974169490,0.795693018007,0.797390550199, 0.799066920924,0.800722281709,0.802356785430,0.803970581781,0.805563820995, 0.807136651706,0.808689221322,0.810221676641,0.811734163187,0.813226825850, 0.814699808290,0.816153253063,0.817587302265,0.819002096686,0.820397775366, 0.821774478216,0.823132342882,0.824471506335,0.825792104528,0.827094272846, 0.828378145433,0.829643855964,0.830891536387,0.832121318561,0.833333333339 }; }; fatfrog_poweramp_neg_clip = circuit_response(fatfrog_poweramp_neg_table, low, high, step, size) with{ low = 0; high =-0.830434; step =142.143; size =200; fatfrog_poweramp_neg_table = waveform { 0.000000000000,-0.008825166416,-0.017581955846,-0.026270748592,-0.034891927952, -0.043445895020,-0.051933028482,-0.060353713507,-0.068708344701,-0.076997279049, -0.085220920211,-0.093379650456,-0.101473847974,-0.109503893701,-0.117470170243, -0.125373053511,-0.133212915640,-0.140990142782,-0.148705110523,-0.156358185222, -0.163949749539,-0.171480173168,-0.178949827852,-0.186359083790,-0.193708313082, -0.200997875893,-0.208228144469,-0.215399491663,-0.222512266704,-0.229566845140, -0.236563578802,-0.243502835296,-0.250384971175,-0.257210346178,-0.263979312312, -0.270692226415,-0.277349439820,-0.283951308672,-0.290498183437,-0.296990409097, -0.303428333067,-0.309812303564,-0.316142669098,-0.322419766753,-0.328643940091, -0.334815528853,-0.340934871940,-0.347002303943,-0.353018165786,-0.358982786115, -0.364896496770,-0.370759633766,-0.376572522445,-0.382335485534,-0.388048858784, -0.393712957996,-0.399328110793,-0.404894638133,-0.410412854580,-0.415883084307, -0.421305640058,-0.426680833592,-0.432008982476,-0.437290395884,-0.442525383943, -0.447714254521,-0.452857313789,-0.457954866525,-0.463007216132,-0.468014664763, -0.472977507652,-0.477896050270,-0.482770585254,-0.487601405460,-0.492388805190, -0.497133080728,-0.501834519752,-0.506493405025,-0.511110032103,-0.515684679743, -0.520217632509,-0.524709174236,-0.529159583293,-0.533569140304,-0.537938122341, -0.542266803832,-0.546555456680,-0.550804357015,-0.555013770934,-0.559183972674, -0.563315225583,-0.567407798699,-0.571461954073,-0.575477954408,-0.579456063283, -0.583396537818,-0.587299636289,-0.591165618130,-0.594994733142,-0.598787239769, -0.602543387137,-0.606263425611,-0.609947605378,-0.613596173718,-0.617209375000, -0.620787454324,-0.624330653787,-0.627839216646,-0.631313380725,-0.634753384965, -0.638159466288,-0.641531860042,-0.644870800713,-0.648176518840,-0.651449247993, -0.654689215377,-0.657896650703,-0.661071779722,-0.664214829073,-0.667326020581, -0.670405579210,-0.673453722176,-0.676470673651,-0.679456649217,-0.682411864733, -0.685336538825,-0.688230882515,-0.691095111078,-0.693929432606,-0.696734060342, -0.699509202616,-0.702255064375,-0.704971855016,-0.707659775910,-0.710319032607, -0.712949825521,-0.715552356630,-0.718126825518,-0.720673430658,-0.723192367252, -0.725683832057,-0.728148019865,-0.730585122627,-0.732995333386,-0.735378842133, -0.737735837986,-0.740066509107,-0.742371043092,-0.744649624698,-0.746902439379, -0.749129669401,-0.751331497574,-0.753508104803,-0.755659670110,-0.757786372384, -0.759888389373,-0.761965897374,-0.764019070360,-0.766048083130,-0.768053108124, -0.770034317048,-0.771991880375,-0.773925967602,-0.775836746544,-0.777724384911, -0.779589048241,-0.781430901838,-0.783250109603,-0.785046833823,-0.786821236559, -0.788573478626,-0.790303719548,-0.792012117675,-0.793698830218,-0.795364014068, -0.797007824406,-0.798630415730,-0.800231941079,-0.801812553473,-0.803372403455, -0.804911641427,-0.806430417283,-0.807928878875,-0.809407173790,-0.810865448057, -0.812303847251,-0.813722516074,-0.815121597513,-0.816501234517,-0.817861568263, -0.819202739722,-0.820524888245,-0.821828152919,-0.823112671327,-0.824378580512, -0.825626016395,-0.826855114143,-0.828066007852,-0.829258831036,-0.830433715874 }; }; p4 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : fatfrog_powerampp with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(fs(3.87560926163844e-19fs + 4.30800903120125e-16) + 3.17509705609174e-17) + 5.3495467261267e-19); b1 = fs(pow(fs,2)(-1.55024370465538e-18fs - 8.61601806240251e-16) + 1.06990934522534e-18); b2 = pow(fs,2)(2.32536555698307e-18pow(fs,2) - 6.35019411218347e-17); b3 = fs(pow(fs,2)(-1.55024370465538e-18fs + 8.61601806240251e-16) - 1.06990934522534e-18); b4 = fs(fs(fs(3.87560926163844e-19fs - 4.30800903120125e-16) + 3.17509705609174e-17) - 5.3495467261267e-19); a0 = fs(fs(fs(1.82693733893894e-19fs + 2.71243523616587e-16) + 8.16290535602033e-14) + 4.64147298174261e-12) + 4.00158102875003e-12; a1 = fs(pow(fs,2)(-7.30774935575574e-19fs - 5.42487047233173e-16) + 9.28294596348523e-12) + 1.60063241150001e-11; a2 = pow(fs,2)(1.09616240336336e-18pow(fs,2) - 1.63258107120407e-13) + 2.40094861725002e-11; a3 = fs(pow(fs,2)(-7.30774935575574e-19fs + 5.42487047233173e-16) - 9.28294596348523e-12) + 1.60063241150001e-11; a4 = fs(fs(fs(1.82693733893894e-19fs - 2.71243523616587e-16) + 8.16290535602033e-14) - 4.64147298174261e-12) + 4.00158102875003e-12; }; fatfrog_power_neg_clip = ffunction(float fatfrog_power_negclip(float), "fatfrog_power_neg_table.h", ""); fatfrog_power_clip = ffunction(float fatfrog_powerclip(float), "fatfrog_power_table.h", ""); fatfrog_powerampp = _<: ba.if(fsignbit(_), fatfrog_power_neg_clip, fatfrog_power_clip) :>_ ; fatfrog_powerampclip = freq_split: ( fatfrog_powerampp , fatfrog_powerampp , fatfrog_powerampp, fatfrog_powerampp, fatfrog_powerampp) :>_; p5 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = pow(fs,3)(fs(fs(fs(5.41478926354201e-34fs + 9.89823968225517e-29) + 2.21389820371069e-25) + 8.2706263330292e-23) + 3.05852920983453e-20); b1 = pow(fs,3)(fs(fs(fs(-3.79035248447941e-33fs - 4.94911984112759e-28) - 6.64169461113208e-25) - 8.2706263330292e-23) + 3.05852920983453e-20); b2 = pow(fs,3)(fs(fs(fs(1.13710574534382e-32fs + 8.90841571402966e-28) + 2.21389820371069e-25) - 2.48118789990876e-22) - 9.1755876295036e-20); b3 = pow(fs,3)(fs(fs(fs(-1.8951762422397e-32fs - 4.94911984112759e-28) + 1.10694910185535e-24) + 2.48118789990876e-22) - 9.1755876295036e-20); b4 = pow(fs,3)(fs(fs(fs(1.8951762422397e-32fs - 4.94911984112759e-28) - 1.10694910185535e-24) + 2.48118789990876e-22) + 9.1755876295036e-20); b5 = pow(fs,3)(fs(fs(fs(-1.13710574534382e-32fs + 8.90841571402966e-28) - 2.21389820371069e-25) - 2.48118789990876e-22) + 9.1755876295036e-20); b6 = pow(fs,3)(fs(fs(fs(3.79035248447941e-33fs - 4.94911984112759e-28) + 6.64169461113208e-25) - 8.2706263330292e-23) - 3.05852920983453e-20); b7 = pow(fs,3)(fs(fs(fs(-5.41478926354201e-34fs + 9.89823968225517e-29) - 2.21389820371069e-25) + 8.2706263330292e-23) - 3.05852920983453e-20); a0 = fs(fs(fs(fs(fs(fs(5.41489755986876e-34fs + 5.09078733178756e-29) + 2.30252226046762e-25) + 1.50190005873638e-22) + 7.82551343611017e-20) + 2.17831661090841e-17) + 4.23378644784192e-15) + 1.61880500310045e-13; a1 = fs(fs(fs(fs(fs(fs(-3.79042829190813e-33fs - 2.54539366589378e-28) - 6.90756678140285e-25) - 1.50190005873638e-22) + 7.82551343611017e-20) + 6.53494983272524e-17) + 2.11689322392096e-14) + 1.13316350217031e-12; a2 = fs(fs(fs(fs(fs(fs(1.13712848757244e-32fs + 4.58170859860881e-28) + 2.30252226046762e-25) - 4.50570017620913e-22) - 2.34765403083305e-19) + 2.17831661090841e-17) + 3.81040780305773e-14) + 3.39949050651094e-12; a3 = fs(fs(fs(fs(fs(fs(-1.89521414595407e-32fs - 2.54539366589378e-28) + 1.15126113023381e-24) + 4.50570017620913e-22) - 2.34765403083305e-19) - 1.08915830545421e-16) + 2.11689322392096e-14) + 5.66581751085156e-12; a4 = fs(fs(fs(fs(fs(fs(1.89521414595407e-32fs - 2.54539366589378e-28) - 1.15126113023381e-24) + 4.50570017620913e-22) + 2.34765403083305e-19) - 1.08915830545421e-16) - 2.11689322392096e-14) + 5.66581751085156e-12; a5 = fs(fs(fs(fs(fs(fs(-1.13712848757244e-32fs + 4.58170859860881e-28) - 2.30252226046762e-25) - 4.50570017620913e-22) + 2.34765403083305e-19) + 2.17831661090841e-17) - 3.81040780305773e-14) + 3.39949050651094e-12; a6 = fs(fs(fs(fs(fs(fs(3.79042829190813e-33fs - 2.54539366589378e-28) + 6.90756678140285e-25) - 1.50190005873638e-22) - 7.82551343611017e-20) + 6.53494983272524e-17) - 2.11689322392096e-14) + 1.13316350217031e-12; a7 = fs(fs(fs(fs(fs(fs(-5.41489755986876e-34fs + 5.09078733178756e-29) - 2.30252226046762e-25) + 1.50190005873638e-22) - 7.82551343611017e-20) + 2.17831661090841e-17) - 4.23378644784192e-15) + 1.61880500310045e-13; }; p6 = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = 0.00504891959951124; b1 = 0.0201956783980450; b2 = 0.0302935175970674; b3 = 0.0201956783980450; b4 = 0.00504891959951124; a0 = fs(fs(fs(7.69566058426545e-20fs + 3.51033127781783e-15) + 6.87327741113863e-11) + 8.30384029826822e-7) + 0.00504902057840812; a1 = fs(pow(fs,2)(-3.07826423370618e-19fs - 7.02066255563566e-15) + 1.66076805965364e-6) + 0.0201960823136325; a2 = pow(fs,2)(4.61739635055927e-19pow(fs,2) - 1.37465548222773e-10) + 0.0302941234704487; a3 = fs(pow(fs,2)(-3.07826423370618e-19fs + 7.02066255563566e-15) - 1.66076805965364e-6) + 0.0201960823136325; a4 = fs(fs(fs(7.69566058426545e-20fs - 3.51033127781783e-15) + 6.87327741113863e-11) - 8.30384029826822e-7) + 0.00504902057840812; }; b1 = checkbox("Bright[name:Bright"); b2 = checkbox("NoiseFilter[name:NoiseFilter"); process = ba.bypass_fade(ma.SR/10, 1-b2, p0a : p0aa : (2.0)) : (1.5) : ba.bypass_fade(ma.SR/10, b1, p1 ) : ba.bypass_fade(ma.SR/10, 1 - b1, (4.0)) : p2 : p3 : p4 : (0.666) : p5 : (0.555) : p6 : (0.555) ;
0000668925b3f117f7ec90a0b152e048d5daa6acba034d4b41392feb43c7d2b9	brummer10/guitarix	gx_alembic.dsp	declare id "alembic"; declare name "Alembic Preamp"; declare category "External"; import("stdfaust.lib"); process = 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)):(0.05) 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 = _; Input = vslider("AUDIO_IN[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Middle = vslider("Middle[name:Middle]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); b0 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-21fs + 9.98505002369502e-19) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-22fs + 4.56560363232067e-18) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b1 = Volume(Bass(InputTreblepow(fs,4)(2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(-2.84307765214256e-20fs - 2.99551500710851e-18) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-3.98030871299959e-21fs - 1.3696810896962e-17) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs - 2.85365632064909e-16) + 1.90022438253841e-15))); b2 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-20fs + 1.997010004739e-18) - 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs + 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs - 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-21fs + 9.13120726464134e-18) - 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs - 5.70731264129818e-16) - 3.80044876507682e-15))); b3 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-20fs + 1.997010004739e-18) + 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs - 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs + 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-21fs + 9.13120726464134e-18) + 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs + 5.70731264129818e-16) - 3.80044876507682e-15))); b4 = Volume(Bass(InputTreblepow(fs,4)(-2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(2.84307765214256e-20fs - 2.99551500710851e-18) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(3.98030871299959e-21fs - 1.3696810896962e-17) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b5 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-21fs + 9.98505002369502e-19) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-22fs + 4.56560363232067e-18) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs - 2.85365632064909e-16) + 1.90022438253841e-15))); a0 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-24fs - 4.21107717183568e-20) - 4.69643971510767e-18) - 8.52210149990995e-17) - 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(4.66400408138021e-24fs + 4.21107717183568e-20) + 4.69643971510767e-18) + 8.52210149990995e-17) + 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-25fs + 8.13465102081422e-21) + 8.27894207186978e-19) + 1.21893473917967e-17) + 3.98098141170247e-17) + fs(fs(fs(fs(9.32295933998211e-25fs - 8.13465102081422e-21) - 8.27894207186978e-19) - 1.21893473917967e-17) - 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-24fs + 1.0400884417695e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-24fs - 1.0400884417695e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-24fs - 1.11081445580983e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(9.95692057510089e-25fs - 8.68780729022958e-21) - 8.84191013275692e-19) - 1.30182230144389e-17) - 4.25168814769824e-17)) + fs(fs(fs(fs(4.98115635891407e-24fs + 4.49743041952051e-20) + 5.01579761573499e-18) + 9.10160440190383e-17) + 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) - 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) + 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-25fs - 3.45203422865533e-21) - 7.39641502461285e-20) - 4.31004728634658e-19) - 7.50300256040165e-19) + fs(fs(fs(fs(4.49377473953314e-25fs + 3.45203422865533e-21) + 7.39641502461285e-20) + 4.31004728634658e-19) + 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-25fs + 6.17731871560931e-22) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(1.08708956034044e-25fs - 6.17731871560931e-22) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-26fs + 1.36369845222938e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-7.76492543100316e-26fs - 1.36369845222938e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-8.29294036031137e-26fs - 1.45642994698098e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(1.16101165044359e-25fs - 6.59737638827074e-22) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(4.79935142182139e-25fs + 3.68677255620389e-21) + 7.89937124628652e-20) + 4.60313050181815e-19) + 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) - 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) + 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs + 3.86721597525567e-20) + 6.80858259239558e-19) + 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs - 3.86721597525567e-20) - 6.80858259239558e-19) - 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs - 4.13018666157306e-20) - 7.27156620867848e-19) - 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) + 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs + 5.15947717885593e-19) + 2.3901137548476e-17) + 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs - 5.15947717885593e-19) - 2.3901137548476e-17) - 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs + 2.99095367015295e-21) + 3.38701967358278e-20) + 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs - 2.99095367015295e-21) - 3.38701967358278e-20) - 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs - 3.19433851972335e-21) - 3.61733701138641e-20) - 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs - 5.51032162701814e-19) - 2.55264149017724e-17) - 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) + 1.44750067678226e-15) + 4.26234400771753e-15; a1 = Bass(Input(Input(fs(fs(fs(fs(2.33200204069011e-23fs + 1.26332315155071e-19) + 4.69643971510767e-18) - 8.52210149990995e-17) - 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(-2.33200204069011e-23fs - 1.26332315155071e-19) - 4.69643971510767e-18) + 8.52210149990995e-17) + 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(4.66147966999105e-24fs - 2.44039530624426e-20) - 8.27894207186978e-19) + 1.21893473917967e-17) + 1.19429442351074e-16) + fs(fs(fs(fs(-4.66147966999105e-24fs + 2.44039530624426e-20) + 8.27894207186978e-19) - 1.21893473917967e-17) - 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.18082430631737e-24fs - 3.12026532530851e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(5.18082430631737e-24fs + 3.12026532530851e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(5.53312035914695e-24fs + 3.33244336742949e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-4.97846028755044e-24fs + 2.60634218706887e-20) + 8.84191013275692e-19) - 1.30182230144389e-17) - 1.27550644430947e-16)) + fs(fs(fs(fs(-2.49057817945703e-23fs - 1.34922912585615e-19) - 5.01579761573499e-18) + 9.10160440190383e-17) + 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) - 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) + 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(2.24688736976657e-24fs + 1.0356102685966e-20) + 7.39641502461285e-20) - 4.31004728634658e-19) - 2.2509007681205e-18) + fs(fs(fs(fs(-2.24688736976657e-24fs - 1.0356102685966e-20) - 7.39641502461285e-20) + 4.31004728634658e-19) + 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.43544780170221e-25fs - 1.85319561468279e-21) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-5.43544780170221e-25fs + 1.85319561468279e-21) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-3.88246271550158e-25fs - 4.09109535668814e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(3.88246271550158e-25fs + 4.09109535668814e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(4.14647018015568e-25fs + 4.36928984094294e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-5.80505825221796e-25fs + 1.97921291648122e-21) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-2.39967571091069e-24fs - 1.10603176686117e-20) - 7.89937124628652e-20) + 4.60313050181815e-19) + 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) - 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) + 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs - 3.86721597525567e-20) + 6.80858259239558e-19) + 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs + 3.86721597525567e-20) - 6.80858259239558e-19) - 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs + 4.13018666157306e-20) - 7.27156620867848e-19) - 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) + 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs - 5.15947717885593e-19) + 2.3901137548476e-17) + 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs + 5.15947717885593e-19) - 2.3901137548476e-17) - 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs - 2.99095367015295e-21) + 3.38701967358278e-20) + 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs + 2.99095367015295e-21) - 3.38701967358278e-20) - 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs + 3.19433851972335e-21) - 3.61733701138641e-20) - 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs + 5.51032162701814e-19) - 2.55264149017724e-17) - 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) + 4.34250203034679e-15) + 2.13117200385877e-14; a2 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-23fs - 8.42215434367137e-20) + 9.39287943021533e-18) + 1.70442029998199e-16) - 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(4.66400408138021e-23fs + 8.42215434367137e-20) - 9.39287943021533e-18) - 1.70442029998199e-16) + 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-24fs + 1.62693020416284e-20) - 1.65578841437396e-18) - 2.43786947835935e-17) + 7.96196282340494e-17) + fs(fs(fs(fs(9.32295933998211e-24fs - 1.62693020416284e-20) + 1.65578841437396e-18) + 2.43786947835935e-17) - 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-23fs + 2.08017688353901e-22) - 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-23fs - 2.08017688353901e-22) + 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-23fs - 2.22162891161966e-22) + 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(9.95692057510089e-24fs - 1.73756145804592e-20) + 1.76838202655138e-18) + 2.60364460288779e-17) - 8.50337629539648e-17)) + fs(fs(fs(fs(4.98115635891407e-23fs + 8.99486083904102e-20) - 1.003159523147e-17) - 1.82032088038077e-16) + 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs + 5.21331434491869e-18) + 2.39621039026005e-16) - 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs - 5.21331434491869e-18) - 2.39621039026005e-16) + 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-24fs - 6.90406845731066e-21) + 1.47928300492257e-19) + 8.62009457269317e-19) - 1.50060051208033e-18) + fs(fs(fs(fs(4.49377473953314e-24fs + 6.90406845731066e-21) - 1.47928300492257e-19) - 8.62009457269317e-19) + 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-24fs + 1.23546374312186e-21) - 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(1.08708956034044e-24fs - 1.23546374312186e-21) + 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-25fs + 2.72739690445876e-24) - 9.37875320050206e-24) + pow(fs,3)(fs(-7.76492543100316e-25fs - 2.72739690445876e-24) + 9.37875320050206e-24)) + pow(fs,3)(fs(-8.29294036031137e-25fs - 2.91285989396196e-24) + 1.00165084181362e-23)) + pow(fs,2)(fs(fs(1.16101165044359e-24fs - 1.31947527765415e-21) + 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(4.79935142182139e-24fs + 7.37354511240778e-21) - 1.5798742492573e-19) - 9.2062610036363e-19) + 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs + 4.31614729137842e-19) + 8.75181972411783e-18) - 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs - 4.31614729137842e-19) - 8.75181972411783e-18) + 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs - 7.73443195051134e-20) - 1.36171651847912e-18) + 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs + 7.73443195051134e-20) + 1.36171651847912e-18) - 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs - 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs + 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs + 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs + 8.26037332314611e-20) + 1.4543132417357e-18) - 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs - 4.60964530719215e-19) - 9.34694346535784e-18) + 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs - 1.03189543577119e-18) - 4.7802275096952e-17) + 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs + 1.03189543577119e-18) + 4.7802275096952e-17) - 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs - 5.98190734030589e-21) - 6.77403934716556e-20) + 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs + 5.98190734030589e-21) + 6.77403934716556e-20) - 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs + 6.38867703944669e-21) + 7.23467402277282e-20) - 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs + 1.10206432540363e-18) + 5.10528298035447e-17) - 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs - 5.56781972037316e-18) - 2.55915269679773e-16) + 2.89500135356453e-15) + 4.26234400771753e-14; a3 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-23fs - 8.42215434367137e-20) - 9.39287943021533e-18) + 1.70442029998199e-16) + 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(-4.66400408138021e-23fs + 8.42215434367137e-20) + 9.39287943021533e-18) - 1.70442029998199e-16) - 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-24fs + 1.62693020416284e-20) + 1.65578841437396e-18) - 2.43786947835935e-17) - 7.96196282340494e-17) + fs(fs(fs(fs(-9.32295933998211e-24fs - 1.62693020416284e-20) - 1.65578841437396e-18) + 2.43786947835935e-17) + 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-23fs + 2.08017688353901e-22) + 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(1.03616486126347e-23fs - 2.08017688353901e-22) - 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-23fs - 2.22162891161966e-22) - 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(-9.95692057510089e-24fs - 1.73756145804592e-20) - 1.76838202655138e-18) + 2.60364460288779e-17) + 8.50337629539648e-17)) + fs(fs(fs(fs(-4.98115635891407e-23fs + 8.99486083904102e-20) + 1.003159523147e-17) - 1.82032088038077e-16) - 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs - 5.21331434491869e-18) + 2.39621039026005e-16) + 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs + 5.21331434491869e-18) - 2.39621039026005e-16) - 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-24fs - 6.90406845731066e-21) - 1.47928300492257e-19) + 8.62009457269317e-19) + 1.50060051208033e-18) + fs(fs(fs(fs(-4.49377473953314e-24fs + 6.90406845731066e-21) + 1.47928300492257e-19) - 8.62009457269317e-19) - 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-24fs + 1.23546374312186e-21) + 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-24fs - 1.23546374312186e-21) - 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-25fs + 2.72739690445876e-24) + 9.37875320050206e-24) + pow(fs,3)(fs(7.76492543100316e-25fs - 2.72739690445876e-24) - 9.37875320050206e-24)) + pow(fs,3)(fs(8.29294036031137e-25fs - 2.91285989396196e-24) - 1.00165084181362e-23)) + pow(fs,2)(fs(fs(-1.16101165044359e-24fs - 1.31947527765415e-21) - 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(-4.79935142182139e-24fs + 7.37354511240778e-21) + 1.5798742492573e-19) - 9.2062610036363e-19) - 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs - 4.31614729137842e-19) + 8.75181972411783e-18) + 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs + 4.31614729137842e-19) - 8.75181972411783e-18) - 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs + 7.73443195051134e-20) - 1.36171651847912e-18) - 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs - 7.73443195051134e-20) + 1.36171651847912e-18) + 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs + 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs - 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs - 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs - 8.26037332314611e-20) + 1.4543132417357e-18) + 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs + 4.60964530719215e-19) - 9.34694346535784e-18) - 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs + 1.03189543577119e-18) - 4.7802275096952e-17) - 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs - 1.03189543577119e-18) + 4.7802275096952e-17) + 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs + 5.98190734030589e-21) - 6.77403934716556e-20) - 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs - 5.98190734030589e-21) + 6.77403934716556e-20) + 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs - 6.38867703944669e-21) + 7.23467402277282e-20) + 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs - 1.10206432540363e-18) + 5.10528298035447e-17) + 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs + 5.56781972037316e-18) - 2.55915269679773e-16) - 2.89500135356453e-15) + 4.26234400771753e-14; a4 = Bass(Input(Input(fs(fs(fs(fs(-2.33200204069011e-23fs + 1.26332315155071e-19) - 4.69643971510767e-18) - 8.52210149990995e-17) + 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(2.33200204069011e-23fs - 1.26332315155071e-19) + 4.69643971510767e-18) + 8.52210149990995e-17) - 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(-4.66147966999105e-24fs - 2.44039530624426e-20) + 8.27894207186978e-19) + 1.21893473917967e-17) - 1.19429442351074e-16) + fs(fs(fs(fs(4.66147966999105e-24fs + 2.44039530624426e-20) - 8.27894207186978e-19) - 1.21893473917967e-17) + 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.18082430631737e-24fs - 3.12026532530851e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-5.18082430631737e-24fs + 3.12026532530851e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-5.53312035914695e-24fs + 3.33244336742949e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(4.97846028755044e-24fs + 2.60634218706887e-20) - 8.84191013275692e-19) - 1.30182230144389e-17) + 1.27550644430947e-16)) + fs(fs(fs(fs(2.49057817945703e-23fs - 1.34922912585615e-19) + 5.01579761573499e-18) + 9.10160440190383e-17) - 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) + 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) - 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-2.24688736976657e-24fs + 1.0356102685966e-20) - 7.39641502461285e-20) - 4.31004728634658e-19) + 2.2509007681205e-18) + fs(fs(fs(fs(2.24688736976657e-24fs - 1.0356102685966e-20) + 7.39641502461285e-20) + 4.31004728634658e-19) - 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.43544780170221e-25fs - 1.85319561468279e-21) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(5.43544780170221e-25fs + 1.85319561468279e-21) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(3.88246271550158e-25fs - 4.09109535668814e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-3.88246271550158e-25fs + 4.09109535668814e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-4.14647018015568e-25fs + 4.36928984094294e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(5.80505825221796e-25fs + 1.97921291648122e-21) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(2.39967571091069e-24fs - 1.10603176686117e-20) + 7.89937124628652e-20) + 4.60313050181815e-19) - 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) + 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) - 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs + 3.86721597525567e-20) + 6.80858259239558e-19) - 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs - 3.86721597525567e-20) - 6.80858259239558e-19) + 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs - 4.13018666157306e-20) - 7.27156620867848e-19) + 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) - 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs + 5.15947717885593e-19) + 2.3901137548476e-17) - 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs - 5.15947717885593e-19) - 2.3901137548476e-17) + 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs + 2.99095367015295e-21) + 3.38701967358278e-20) - 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs - 2.99095367015295e-21) - 3.38701967358278e-20) + 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs - 3.19433851972335e-21) - 3.61733701138641e-20) + 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs - 5.51032162701814e-19) - 2.55264149017724e-17) + 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) - 4.34250203034679e-15) + 2.13117200385877e-14; a5 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-24fs - 4.21107717183568e-20) + 4.69643971510767e-18) - 8.52210149990995e-17) + 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(-4.66400408138021e-24fs + 4.21107717183568e-20) - 4.69643971510767e-18) + 8.52210149990995e-17) - 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-25fs + 8.13465102081422e-21) - 8.27894207186978e-19) + 1.21893473917967e-17) - 3.98098141170247e-17) + fs(fs(fs(fs(-9.32295933998211e-25fs - 8.13465102081422e-21) + 8.27894207186978e-19) - 1.21893473917967e-17) + 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-24fs + 1.0400884417695e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(1.03616486126347e-24fs - 1.0400884417695e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-24fs - 1.11081445580983e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-9.95692057510089e-25fs - 8.68780729022958e-21) + 8.84191013275692e-19) - 1.30182230144389e-17) + 4.25168814769824e-17)) + fs(fs(fs(fs(-4.98115635891407e-24fs + 4.49743041952051e-20) - 5.01579761573499e-18) + 9.10160440190383e-17) - 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) + 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) - 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-25fs - 3.45203422865533e-21) + 7.39641502461285e-20) - 4.31004728634658e-19) + 7.50300256040165e-19) + fs(fs(fs(fs(-4.49377473953314e-25fs + 3.45203422865533e-21) - 7.39641502461285e-20) + 4.31004728634658e-19) - 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-25fs + 6.17731871560931e-22) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-25fs - 6.17731871560931e-22) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-26fs + 1.36369845222938e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(7.76492543100316e-26fs - 1.36369845222938e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(8.29294036031137e-26fs - 1.45642994698098e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-1.16101165044359e-25fs - 6.59737638827074e-22) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-4.79935142182139e-25fs + 3.68677255620389e-21) - 7.89937124628652e-20) + 4.60313050181815e-19) - 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) + 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) - 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs - 3.86721597525567e-20) + 6.80858259239558e-19) - 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs + 3.86721597525567e-20) - 6.80858259239558e-19) + 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs + 4.13018666157306e-20) - 7.27156620867848e-19) + 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) - 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs - 5.15947717885593e-19) + 2.3901137548476e-17) - 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs + 5.15947717885593e-19) - 2.3901137548476e-17) + 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs - 2.99095367015295e-21) + 3.38701967358278e-20) - 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs + 2.99095367015295e-21) - 3.38701967358278e-20) + 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs + 3.19433851972335e-21) - 3.61733701138641e-20) + 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs + 5.51032162701814e-19) - 2.55264149017724e-17) + 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) - 1.44750067678226e-15) + 4.26234400771753e-15; };	https://raw.githubusercontent.com/brummer10/guitarix/9734478d71ac7190dc8814ce250e28ce174ebaf1/trunk/src/LV2/faust/gx_alembic.dsp	faust		declare id "alembic"; declare name "Alembic Preamp"; declare category "External"; import("stdfaust.lib"); process = 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)):(0.05) 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 = _; Input = vslider("AUDIO_IN[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Middle = vslider("Middle[name:Middle]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); b0 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-21fs + 9.98505002369502e-19) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-22fs + 4.56560363232067e-18) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b1 = Volume(Bass(InputTreblepow(fs,4)(2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(-2.84307765214256e-20fs - 2.99551500710851e-18) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-3.98030871299959e-21fs - 1.3696810896962e-17) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs - 2.85365632064909e-16) + 1.90022438253841e-15))); b2 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-20fs + 1.997010004739e-18) - 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs + 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs - 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-21fs + 9.13120726464134e-18) - 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs - 5.70731264129818e-16) - 3.80044876507682e-15))); b3 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-20fs + 1.997010004739e-18) + 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs - 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs + 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-21fs + 9.13120726464134e-18) + 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs + 5.70731264129818e-16) - 3.80044876507682e-15))); b4 = Volume(Bass(InputTreblepow(fs,4)(-2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(2.84307765214256e-20fs - 2.99551500710851e-18) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(3.98030871299959e-21fs - 1.3696810896962e-17) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b5 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-21fs + 9.98505002369502e-19) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-22fs + 4.56560363232067e-18) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs - 2.85365632064909e-16) + 1.90022438253841e-15))); a0 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-24fs - 4.21107717183568e-20) - 4.69643971510767e-18) - 8.52210149990995e-17) - 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(4.66400408138021e-24fs + 4.21107717183568e-20) + 4.69643971510767e-18) + 8.52210149990995e-17) + 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-25fs + 8.13465102081422e-21) + 8.27894207186978e-19) + 1.21893473917967e-17) + 3.98098141170247e-17) + fs(fs(fs(fs(9.32295933998211e-25fs - 8.13465102081422e-21) - 8.27894207186978e-19) - 1.21893473917967e-17) - 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-24fs + 1.0400884417695e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-24fs - 1.0400884417695e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-24fs - 1.11081445580983e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(9.95692057510089e-25fs - 8.68780729022958e-21) - 8.84191013275692e-19) - 1.30182230144389e-17) - 4.25168814769824e-17)) + fs(fs(fs(fs(4.98115635891407e-24fs + 4.49743041952051e-20) + 5.01579761573499e-18) + 9.10160440190383e-17) + 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) - 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) + 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-25fs - 3.45203422865533e-21) - 7.39641502461285e-20) - 4.31004728634658e-19) - 7.50300256040165e-19) + fs(fs(fs(fs(4.49377473953314e-25fs + 3.45203422865533e-21) + 7.39641502461285e-20) + 4.31004728634658e-19) + 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-25fs + 6.17731871560931e-22) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(1.08708956034044e-25fs - 6.17731871560931e-22) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-26fs + 1.36369845222938e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-7.76492543100316e-26fs - 1.36369845222938e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-8.29294036031137e-26fs - 1.45642994698098e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(1.16101165044359e-25fs - 6.59737638827074e-22) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(4.79935142182139e-25fs + 3.68677255620389e-21) + 7.89937124628652e-20) + 4.60313050181815e-19) + 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) - 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) + 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs + 3.86721597525567e-20) + 6.80858259239558e-19) + 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs - 3.86721597525567e-20) - 6.80858259239558e-19) - 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs - 4.13018666157306e-20) - 7.27156620867848e-19) - 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) + 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs + 5.15947717885593e-19) + 2.3901137548476e-17) + 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs - 5.15947717885593e-19) - 2.3901137548476e-17) - 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs + 2.99095367015295e-21) + 3.38701967358278e-20) + 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs - 2.99095367015295e-21) - 3.38701967358278e-20) - 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs - 3.19433851972335e-21) - 3.61733701138641e-20) - 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs - 5.51032162701814e-19) - 2.55264149017724e-17) - 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) + 1.44750067678226e-15) + 4.26234400771753e-15; a1 = Bass(Input(Input(fs(fs(fs(fs(2.33200204069011e-23fs + 1.26332315155071e-19) + 4.69643971510767e-18) - 8.52210149990995e-17) - 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(-2.33200204069011e-23fs - 1.26332315155071e-19) - 4.69643971510767e-18) + 8.52210149990995e-17) + 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(4.66147966999105e-24fs - 2.44039530624426e-20) - 8.27894207186978e-19) + 1.21893473917967e-17) + 1.19429442351074e-16) + fs(fs(fs(fs(-4.66147966999105e-24fs + 2.44039530624426e-20) + 8.27894207186978e-19) - 1.21893473917967e-17) - 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.18082430631737e-24fs - 3.12026532530851e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(5.18082430631737e-24fs + 3.12026532530851e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(5.53312035914695e-24fs + 3.33244336742949e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-4.97846028755044e-24fs + 2.60634218706887e-20) + 8.84191013275692e-19) - 1.30182230144389e-17) - 1.27550644430947e-16)) + fs(fs(fs(fs(-2.49057817945703e-23fs - 1.34922912585615e-19) - 5.01579761573499e-18) + 9.10160440190383e-17) + 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) - 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) + 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(2.24688736976657e-24fs + 1.0356102685966e-20) + 7.39641502461285e-20) - 4.31004728634658e-19) - 2.2509007681205e-18) + fs(fs(fs(fs(-2.24688736976657e-24fs - 1.0356102685966e-20) - 7.39641502461285e-20) + 4.31004728634658e-19) + 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.43544780170221e-25fs - 1.85319561468279e-21) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-5.43544780170221e-25fs + 1.85319561468279e-21) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-3.88246271550158e-25fs - 4.09109535668814e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(3.88246271550158e-25fs + 4.09109535668814e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(4.14647018015568e-25fs + 4.36928984094294e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-5.80505825221796e-25fs + 1.97921291648122e-21) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-2.39967571091069e-24fs - 1.10603176686117e-20) - 7.89937124628652e-20) + 4.60313050181815e-19) + 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) - 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) + 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs - 3.86721597525567e-20) + 6.80858259239558e-19) + 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs + 3.86721597525567e-20) - 6.80858259239558e-19) - 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs + 4.13018666157306e-20) - 7.27156620867848e-19) - 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) + 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs - 5.15947717885593e-19) + 2.3901137548476e-17) + 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs + 5.15947717885593e-19) - 2.3901137548476e-17) - 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs - 2.99095367015295e-21) + 3.38701967358278e-20) + 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs + 2.99095367015295e-21) - 3.38701967358278e-20) - 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs + 3.19433851972335e-21) - 3.61733701138641e-20) - 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs + 5.51032162701814e-19) - 2.55264149017724e-17) - 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) + 4.34250203034679e-15) + 2.13117200385877e-14; a2 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-23fs - 8.42215434367137e-20) + 9.39287943021533e-18) + 1.70442029998199e-16) - 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(4.66400408138021e-23fs + 8.42215434367137e-20) - 9.39287943021533e-18) - 1.70442029998199e-16) + 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-24fs + 1.62693020416284e-20) - 1.65578841437396e-18) - 2.43786947835935e-17) + 7.96196282340494e-17) + fs(fs(fs(fs(9.32295933998211e-24fs - 1.62693020416284e-20) + 1.65578841437396e-18) + 2.43786947835935e-17) - 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-23fs + 2.08017688353901e-22) - 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-23fs - 2.08017688353901e-22) + 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-23fs - 2.22162891161966e-22) + 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(9.95692057510089e-24fs - 1.73756145804592e-20) + 1.76838202655138e-18) + 2.60364460288779e-17) - 8.50337629539648e-17)) + fs(fs(fs(fs(4.98115635891407e-23fs + 8.99486083904102e-20) - 1.003159523147e-17) - 1.82032088038077e-16) + 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs + 5.21331434491869e-18) + 2.39621039026005e-16) - 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs - 5.21331434491869e-18) - 2.39621039026005e-16) + 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-24fs - 6.90406845731066e-21) + 1.47928300492257e-19) + 8.62009457269317e-19) - 1.50060051208033e-18) + fs(fs(fs(fs(4.49377473953314e-24fs + 6.90406845731066e-21) - 1.47928300492257e-19) - 8.62009457269317e-19) + 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-24fs + 1.23546374312186e-21) - 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(1.08708956034044e-24fs - 1.23546374312186e-21) + 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-25fs + 2.72739690445876e-24) - 9.37875320050206e-24) + pow(fs,3)(fs(-7.76492543100316e-25fs - 2.72739690445876e-24) + 9.37875320050206e-24)) + pow(fs,3)(fs(-8.29294036031137e-25fs - 2.91285989396196e-24) + 1.00165084181362e-23)) + pow(fs,2)(fs(fs(1.16101165044359e-24fs - 1.31947527765415e-21) + 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(4.79935142182139e-24fs + 7.37354511240778e-21) - 1.5798742492573e-19) - 9.2062610036363e-19) + 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs + 4.31614729137842e-19) + 8.75181972411783e-18) - 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs - 4.31614729137842e-19) - 8.75181972411783e-18) + 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs - 7.73443195051134e-20) - 1.36171651847912e-18) + 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs + 7.73443195051134e-20) + 1.36171651847912e-18) - 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs - 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs + 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs + 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs + 8.26037332314611e-20) + 1.4543132417357e-18) - 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs - 4.60964530719215e-19) - 9.34694346535784e-18) + 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs - 1.03189543577119e-18) - 4.7802275096952e-17) + 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs + 1.03189543577119e-18) + 4.7802275096952e-17) - 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs - 5.98190734030589e-21) - 6.77403934716556e-20) + 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs + 5.98190734030589e-21) + 6.77403934716556e-20) - 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs + 6.38867703944669e-21) + 7.23467402277282e-20) - 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs + 1.10206432540363e-18) + 5.10528298035447e-17) - 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs - 5.56781972037316e-18) - 2.55915269679773e-16) + 2.89500135356453e-15) + 4.26234400771753e-14; a3 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-23fs - 8.42215434367137e-20) - 9.39287943021533e-18) + 1.70442029998199e-16) + 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(-4.66400408138021e-23fs + 8.42215434367137e-20) + 9.39287943021533e-18) - 1.70442029998199e-16) - 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-24fs + 1.62693020416284e-20) + 1.65578841437396e-18) - 2.43786947835935e-17) - 7.96196282340494e-17) + fs(fs(fs(fs(-9.32295933998211e-24fs - 1.62693020416284e-20) - 1.65578841437396e-18) + 2.43786947835935e-17) + 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-23fs + 2.08017688353901e-22) + 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(1.03616486126347e-23fs - 2.08017688353901e-22) - 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-23fs - 2.22162891161966e-22) - 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(-9.95692057510089e-24fs - 1.73756145804592e-20) - 1.76838202655138e-18) + 2.60364460288779e-17) + 8.50337629539648e-17)) + fs(fs(fs(fs(-4.98115635891407e-23fs + 8.99486083904102e-20) + 1.003159523147e-17) - 1.82032088038077e-16) - 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs - 5.21331434491869e-18) + 2.39621039026005e-16) + 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs + 5.21331434491869e-18) - 2.39621039026005e-16) - 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-24fs - 6.90406845731066e-21) - 1.47928300492257e-19) + 8.62009457269317e-19) + 1.50060051208033e-18) + fs(fs(fs(fs(-4.49377473953314e-24fs + 6.90406845731066e-21) + 1.47928300492257e-19) - 8.62009457269317e-19) - 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-24fs + 1.23546374312186e-21) + 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-24fs - 1.23546374312186e-21) - 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-25fs + 2.72739690445876e-24) + 9.37875320050206e-24) + pow(fs,3)(fs(7.76492543100316e-25fs - 2.72739690445876e-24) - 9.37875320050206e-24)) + pow(fs,3)(fs(8.29294036031137e-25fs - 2.91285989396196e-24) - 1.00165084181362e-23)) + pow(fs,2)(fs(fs(-1.16101165044359e-24fs - 1.31947527765415e-21) - 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(-4.79935142182139e-24fs + 7.37354511240778e-21) + 1.5798742492573e-19) - 9.2062610036363e-19) - 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs - 4.31614729137842e-19) + 8.75181972411783e-18) + 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs + 4.31614729137842e-19) - 8.75181972411783e-18) - 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs + 7.73443195051134e-20) - 1.36171651847912e-18) - 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs - 7.73443195051134e-20) + 1.36171651847912e-18) + 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs + 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs - 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs - 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs - 8.26037332314611e-20) + 1.4543132417357e-18) + 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs + 4.60964530719215e-19) - 9.34694346535784e-18) - 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs + 1.03189543577119e-18) - 4.7802275096952e-17) - 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs - 1.03189543577119e-18) + 4.7802275096952e-17) + 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs + 5.98190734030589e-21) - 6.77403934716556e-20) - 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs - 5.98190734030589e-21) + 6.77403934716556e-20) + 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs - 6.38867703944669e-21) + 7.23467402277282e-20) + 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs - 1.10206432540363e-18) + 5.10528298035447e-17) + 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs + 5.56781972037316e-18) - 2.55915269679773e-16) - 2.89500135356453e-15) + 4.26234400771753e-14; a4 = Bass(Input(Input(fs(fs(fs(fs(-2.33200204069011e-23fs + 1.26332315155071e-19) - 4.69643971510767e-18) - 8.52210149990995e-17) + 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(2.33200204069011e-23fs - 1.26332315155071e-19) + 4.69643971510767e-18) + 8.52210149990995e-17) - 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(-4.66147966999105e-24fs - 2.44039530624426e-20) + 8.27894207186978e-19) + 1.21893473917967e-17) - 1.19429442351074e-16) + fs(fs(fs(fs(4.66147966999105e-24fs + 2.44039530624426e-20) - 8.27894207186978e-19) - 1.21893473917967e-17) + 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.18082430631737e-24fs - 3.12026532530851e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-5.18082430631737e-24fs + 3.12026532530851e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-5.53312035914695e-24fs + 3.33244336742949e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(4.97846028755044e-24fs + 2.60634218706887e-20) - 8.84191013275692e-19) - 1.30182230144389e-17) + 1.27550644430947e-16)) + fs(fs(fs(fs(2.49057817945703e-23fs - 1.34922912585615e-19) + 5.01579761573499e-18) + 9.10160440190383e-17) - 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) + 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) - 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-2.24688736976657e-24fs + 1.0356102685966e-20) - 7.39641502461285e-20) - 4.31004728634658e-19) + 2.2509007681205e-18) + fs(fs(fs(fs(2.24688736976657e-24fs - 1.0356102685966e-20) + 7.39641502461285e-20) + 4.31004728634658e-19) - 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.43544780170221e-25fs - 1.85319561468279e-21) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(5.43544780170221e-25fs + 1.85319561468279e-21) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(3.88246271550158e-25fs - 4.09109535668814e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-3.88246271550158e-25fs + 4.09109535668814e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-4.14647018015568e-25fs + 4.36928984094294e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(5.80505825221796e-25fs + 1.97921291648122e-21) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(2.39967571091069e-24fs - 1.10603176686117e-20) + 7.89937124628652e-20) + 4.60313050181815e-19) - 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) + 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) - 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs + 3.86721597525567e-20) + 6.80858259239558e-19) - 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs - 3.86721597525567e-20) - 6.80858259239558e-19) + 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs - 4.13018666157306e-20) - 7.27156620867848e-19) + 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) - 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs + 5.15947717885593e-19) + 2.3901137548476e-17) - 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs - 5.15947717885593e-19) - 2.3901137548476e-17) + 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs + 2.99095367015295e-21) + 3.38701967358278e-20) - 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs - 2.99095367015295e-21) - 3.38701967358278e-20) + 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs - 3.19433851972335e-21) - 3.61733701138641e-20) + 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs - 5.51032162701814e-19) - 2.55264149017724e-17) + 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) - 4.34250203034679e-15) + 2.13117200385877e-14; a5 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-24fs - 4.21107717183568e-20) + 4.69643971510767e-18) - 8.52210149990995e-17) + 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(-4.66400408138021e-24fs + 4.21107717183568e-20) - 4.69643971510767e-18) + 8.52210149990995e-17) - 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-25fs + 8.13465102081422e-21) - 8.27894207186978e-19) + 1.21893473917967e-17) - 3.98098141170247e-17) + fs(fs(fs(fs(-9.32295933998211e-25fs - 8.13465102081422e-21) + 8.27894207186978e-19) - 1.21893473917967e-17) + 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-24fs + 1.0400884417695e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(1.03616486126347e-24fs - 1.0400884417695e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-24fs - 1.11081445580983e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-9.95692057510089e-25fs - 8.68780729022958e-21) + 8.84191013275692e-19) - 1.30182230144389e-17) + 4.25168814769824e-17)) + fs(fs(fs(fs(-4.98115635891407e-24fs + 4.49743041952051e-20) - 5.01579761573499e-18) + 9.10160440190383e-17) - 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) + 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) - 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-25fs - 3.45203422865533e-21) + 7.39641502461285e-20) - 4.31004728634658e-19) + 7.50300256040165e-19) + fs(fs(fs(fs(-4.49377473953314e-25fs + 3.45203422865533e-21) - 7.39641502461285e-20) + 4.31004728634658e-19) - 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-25fs + 6.17731871560931e-22) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-25fs - 6.17731871560931e-22) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-26fs + 1.36369845222938e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(7.76492543100316e-26fs - 1.36369845222938e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(8.29294036031137e-26fs - 1.45642994698098e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-1.16101165044359e-25fs - 6.59737638827074e-22) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-4.79935142182139e-25fs + 3.68677255620389e-21) - 7.89937124628652e-20) + 4.60313050181815e-19) - 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) + 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) - 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs - 3.86721597525567e-20) + 6.80858259239558e-19) - 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs + 3.86721597525567e-20) - 6.80858259239558e-19) + 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs + 4.13018666157306e-20) - 7.27156620867848e-19) + 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) - 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs - 5.15947717885593e-19) + 2.3901137548476e-17) - 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs + 5.15947717885593e-19) - 2.3901137548476e-17) + 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs - 2.99095367015295e-21) + 3.38701967358278e-20) - 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs + 2.99095367015295e-21) - 3.38701967358278e-20) + 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs + 3.19433851972335e-21) - 3.61733701138641e-20) + 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs + 5.51032162701814e-19) - 2.55264149017724e-17) + 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) - 1.44750067678226e-15) + 4.26234400771753e-15; };
339408775b9f29a965909ca00e06c9d2a7673d7ba75fef34f1121bcd59f81219	brummer10/guitarix	alembic-mono.dsp	declare id "alembic"; declare name "Alembic Preamp"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; Input = vslider("Input[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Middle = vslider("Middle[name:Middle]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); b0 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-21fs + 9.98505002369502e-19) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-22fs + 4.56560363232067e-18) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b1 = Volume(Bass(InputTreblepow(fs,4)(2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(-2.84307765214256e-20fs - 2.99551500710851e-18) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-3.98030871299959e-21fs - 1.3696810896962e-17) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs - 2.85365632064909e-16) + 1.90022438253841e-15))); b2 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-20fs + 1.997010004739e-18) - 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs + 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs - 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-21fs + 9.13120726464134e-18) - 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs - 5.70731264129818e-16) - 3.80044876507682e-15))); b3 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-20fs + 1.997010004739e-18) + 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs - 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs + 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-21fs + 9.13120726464134e-18) + 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs + 5.70731264129818e-16) - 3.80044876507682e-15))); b4 = Volume(Bass(InputTreblepow(fs,4)(-2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(2.84307765214256e-20fs - 2.99551500710851e-18) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(3.98030871299959e-21fs - 1.3696810896962e-17) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b5 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-21fs + 9.98505002369502e-19) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-22fs + 4.56560363232067e-18) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs - 2.85365632064909e-16) + 1.90022438253841e-15))); a0 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-24fs - 4.21107717183568e-20) - 4.69643971510767e-18) - 8.52210149990995e-17) - 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(4.66400408138021e-24fs + 4.21107717183568e-20) + 4.69643971510767e-18) + 8.52210149990995e-17) + 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-25fs + 8.13465102081422e-21) + 8.27894207186978e-19) + 1.21893473917967e-17) + 3.98098141170247e-17) + fs(fs(fs(fs(9.32295933998211e-25fs - 8.13465102081422e-21) - 8.27894207186978e-19) - 1.21893473917967e-17) - 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-24fs + 1.0400884417695e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-24fs - 1.0400884417695e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-24fs - 1.11081445580983e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(9.95692057510089e-25fs - 8.68780729022958e-21) - 8.84191013275692e-19) - 1.30182230144389e-17) - 4.25168814769824e-17)) + fs(fs(fs(fs(4.98115635891407e-24fs + 4.49743041952051e-20) + 5.01579761573499e-18) + 9.10160440190383e-17) + 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) - 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) + 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-25fs - 3.45203422865533e-21) - 7.39641502461285e-20) - 4.31004728634658e-19) - 7.50300256040165e-19) + fs(fs(fs(fs(4.49377473953314e-25fs + 3.45203422865533e-21) + 7.39641502461285e-20) + 4.31004728634658e-19) + 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-25fs + 6.17731871560931e-22) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(1.08708956034044e-25fs - 6.17731871560931e-22) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-26fs + 1.36369845222938e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-7.76492543100316e-26fs - 1.36369845222938e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-8.29294036031137e-26fs - 1.45642994698098e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(1.16101165044359e-25fs - 6.59737638827074e-22) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(4.79935142182139e-25fs + 3.68677255620389e-21) + 7.89937124628652e-20) + 4.60313050181815e-19) + 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) - 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) + 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs + 3.86721597525567e-20) + 6.80858259239558e-19) + 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs - 3.86721597525567e-20) - 6.80858259239558e-19) - 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs - 4.13018666157306e-20) - 7.27156620867848e-19) - 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) + 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs + 5.15947717885593e-19) + 2.3901137548476e-17) + 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs - 5.15947717885593e-19) - 2.3901137548476e-17) - 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs + 2.99095367015295e-21) + 3.38701967358278e-20) + 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs - 2.99095367015295e-21) - 3.38701967358278e-20) - 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs - 3.19433851972335e-21) - 3.61733701138641e-20) - 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs - 5.51032162701814e-19) - 2.55264149017724e-17) - 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) + 1.44750067678226e-15) + 4.26234400771753e-15; a1 = Bass(Input(Input(fs(fs(fs(fs(2.33200204069011e-23fs + 1.26332315155071e-19) + 4.69643971510767e-18) - 8.52210149990995e-17) - 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(-2.33200204069011e-23fs - 1.26332315155071e-19) - 4.69643971510767e-18) + 8.52210149990995e-17) + 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(4.66147966999105e-24fs - 2.44039530624426e-20) - 8.27894207186978e-19) + 1.21893473917967e-17) + 1.19429442351074e-16) + fs(fs(fs(fs(-4.66147966999105e-24fs + 2.44039530624426e-20) + 8.27894207186978e-19) - 1.21893473917967e-17) - 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.18082430631737e-24fs - 3.12026532530851e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(5.18082430631737e-24fs + 3.12026532530851e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(5.53312035914695e-24fs + 3.33244336742949e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-4.97846028755044e-24fs + 2.60634218706887e-20) + 8.84191013275692e-19) - 1.30182230144389e-17) - 1.27550644430947e-16)) + fs(fs(fs(fs(-2.49057817945703e-23fs - 1.34922912585615e-19) - 5.01579761573499e-18) + 9.10160440190383e-17) + 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) - 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) + 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(2.24688736976657e-24fs + 1.0356102685966e-20) + 7.39641502461285e-20) - 4.31004728634658e-19) - 2.2509007681205e-18) + fs(fs(fs(fs(-2.24688736976657e-24fs - 1.0356102685966e-20) - 7.39641502461285e-20) + 4.31004728634658e-19) + 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.43544780170221e-25fs - 1.85319561468279e-21) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-5.43544780170221e-25fs + 1.85319561468279e-21) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-3.88246271550158e-25fs - 4.09109535668814e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(3.88246271550158e-25fs + 4.09109535668814e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(4.14647018015568e-25fs + 4.36928984094294e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-5.80505825221796e-25fs + 1.97921291648122e-21) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-2.39967571091069e-24fs - 1.10603176686117e-20) - 7.89937124628652e-20) + 4.60313050181815e-19) + 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) - 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) + 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs - 3.86721597525567e-20) + 6.80858259239558e-19) + 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs + 3.86721597525567e-20) - 6.80858259239558e-19) - 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs + 4.13018666157306e-20) - 7.27156620867848e-19) - 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) + 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs - 5.15947717885593e-19) + 2.3901137548476e-17) + 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs + 5.15947717885593e-19) - 2.3901137548476e-17) - 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs - 2.99095367015295e-21) + 3.38701967358278e-20) + 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs + 2.99095367015295e-21) - 3.38701967358278e-20) - 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs + 3.19433851972335e-21) - 3.61733701138641e-20) - 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs + 5.51032162701814e-19) - 2.55264149017724e-17) - 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) + 4.34250203034679e-15) + 2.13117200385877e-14; a2 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-23fs - 8.42215434367137e-20) + 9.39287943021533e-18) + 1.70442029998199e-16) - 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(4.66400408138021e-23fs + 8.42215434367137e-20) - 9.39287943021533e-18) - 1.70442029998199e-16) + 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-24fs + 1.62693020416284e-20) - 1.65578841437396e-18) - 2.43786947835935e-17) + 7.96196282340494e-17) + fs(fs(fs(fs(9.32295933998211e-24fs - 1.62693020416284e-20) + 1.65578841437396e-18) + 2.43786947835935e-17) - 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-23fs + 2.08017688353901e-22) - 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-23fs - 2.08017688353901e-22) + 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-23fs - 2.22162891161966e-22) + 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(9.95692057510089e-24fs - 1.73756145804592e-20) + 1.76838202655138e-18) + 2.60364460288779e-17) - 8.50337629539648e-17)) + fs(fs(fs(fs(4.98115635891407e-23fs + 8.99486083904102e-20) - 1.003159523147e-17) - 1.82032088038077e-16) + 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs + 5.21331434491869e-18) + 2.39621039026005e-16) - 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs - 5.21331434491869e-18) - 2.39621039026005e-16) + 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-24fs - 6.90406845731066e-21) + 1.47928300492257e-19) + 8.62009457269317e-19) - 1.50060051208033e-18) + fs(fs(fs(fs(4.49377473953314e-24fs + 6.90406845731066e-21) - 1.47928300492257e-19) - 8.62009457269317e-19) + 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-24fs + 1.23546374312186e-21) - 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(1.08708956034044e-24fs - 1.23546374312186e-21) + 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-25fs + 2.72739690445876e-24) - 9.37875320050206e-24) + pow(fs,3)(fs(-7.76492543100316e-25fs - 2.72739690445876e-24) + 9.37875320050206e-24)) + pow(fs,3)(fs(-8.29294036031137e-25fs - 2.91285989396196e-24) + 1.00165084181362e-23)) + pow(fs,2)(fs(fs(1.16101165044359e-24fs - 1.31947527765415e-21) + 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(4.79935142182139e-24fs + 7.37354511240778e-21) - 1.5798742492573e-19) - 9.2062610036363e-19) + 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs + 4.31614729137842e-19) + 8.75181972411783e-18) - 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs - 4.31614729137842e-19) - 8.75181972411783e-18) + 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs - 7.73443195051134e-20) - 1.36171651847912e-18) + 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs + 7.73443195051134e-20) + 1.36171651847912e-18) - 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs - 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs + 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs + 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs + 8.26037332314611e-20) + 1.4543132417357e-18) - 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs - 4.60964530719215e-19) - 9.34694346535784e-18) + 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs - 1.03189543577119e-18) - 4.7802275096952e-17) + 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs + 1.03189543577119e-18) + 4.7802275096952e-17) - 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs - 5.98190734030589e-21) - 6.77403934716556e-20) + 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs + 5.98190734030589e-21) + 6.77403934716556e-20) - 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs + 6.38867703944669e-21) + 7.23467402277282e-20) - 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs + 1.10206432540363e-18) + 5.10528298035447e-17) - 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs - 5.56781972037316e-18) - 2.55915269679773e-16) + 2.89500135356453e-15) + 4.26234400771753e-14; a3 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-23fs - 8.42215434367137e-20) - 9.39287943021533e-18) + 1.70442029998199e-16) + 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(-4.66400408138021e-23fs + 8.42215434367137e-20) + 9.39287943021533e-18) - 1.70442029998199e-16) - 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-24fs + 1.62693020416284e-20) + 1.65578841437396e-18) - 2.43786947835935e-17) - 7.96196282340494e-17) + fs(fs(fs(fs(-9.32295933998211e-24fs - 1.62693020416284e-20) - 1.65578841437396e-18) + 2.43786947835935e-17) + 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-23fs + 2.08017688353901e-22) + 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(1.03616486126347e-23fs - 2.08017688353901e-22) - 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-23fs - 2.22162891161966e-22) - 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(-9.95692057510089e-24fs - 1.73756145804592e-20) - 1.76838202655138e-18) + 2.60364460288779e-17) + 8.50337629539648e-17)) + fs(fs(fs(fs(-4.98115635891407e-23fs + 8.99486083904102e-20) + 1.003159523147e-17) - 1.82032088038077e-16) - 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs - 5.21331434491869e-18) + 2.39621039026005e-16) + 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs + 5.21331434491869e-18) - 2.39621039026005e-16) - 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-24fs - 6.90406845731066e-21) - 1.47928300492257e-19) + 8.62009457269317e-19) + 1.50060051208033e-18) + fs(fs(fs(fs(-4.49377473953314e-24fs + 6.90406845731066e-21) + 1.47928300492257e-19) - 8.62009457269317e-19) - 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-24fs + 1.23546374312186e-21) + 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-24fs - 1.23546374312186e-21) - 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-25fs + 2.72739690445876e-24) + 9.37875320050206e-24) + pow(fs,3)(fs(7.76492543100316e-25fs - 2.72739690445876e-24) - 9.37875320050206e-24)) + pow(fs,3)(fs(8.29294036031137e-25fs - 2.91285989396196e-24) - 1.00165084181362e-23)) + pow(fs,2)(fs(fs(-1.16101165044359e-24fs - 1.31947527765415e-21) - 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(-4.79935142182139e-24fs + 7.37354511240778e-21) + 1.5798742492573e-19) - 9.2062610036363e-19) - 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs - 4.31614729137842e-19) + 8.75181972411783e-18) + 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs + 4.31614729137842e-19) - 8.75181972411783e-18) - 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs + 7.73443195051134e-20) - 1.36171651847912e-18) - 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs - 7.73443195051134e-20) + 1.36171651847912e-18) + 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs + 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs - 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs - 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs - 8.26037332314611e-20) + 1.4543132417357e-18) + 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs + 4.60964530719215e-19) - 9.34694346535784e-18) - 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs + 1.03189543577119e-18) - 4.7802275096952e-17) - 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs - 1.03189543577119e-18) + 4.7802275096952e-17) + 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs + 5.98190734030589e-21) - 6.77403934716556e-20) - 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs - 5.98190734030589e-21) + 6.77403934716556e-20) + 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs - 6.38867703944669e-21) + 7.23467402277282e-20) + 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs - 1.10206432540363e-18) + 5.10528298035447e-17) + 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs + 5.56781972037316e-18) - 2.55915269679773e-16) - 2.89500135356453e-15) + 4.26234400771753e-14; a4 = Bass(Input(Input(fs(fs(fs(fs(-2.33200204069011e-23fs + 1.26332315155071e-19) - 4.69643971510767e-18) - 8.52210149990995e-17) + 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(2.33200204069011e-23fs - 1.26332315155071e-19) + 4.69643971510767e-18) + 8.52210149990995e-17) - 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(-4.66147966999105e-24fs - 2.44039530624426e-20) + 8.27894207186978e-19) + 1.21893473917967e-17) - 1.19429442351074e-16) + fs(fs(fs(fs(4.66147966999105e-24fs + 2.44039530624426e-20) - 8.27894207186978e-19) - 1.21893473917967e-17) + 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.18082430631737e-24fs - 3.12026532530851e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-5.18082430631737e-24fs + 3.12026532530851e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-5.53312035914695e-24fs + 3.33244336742949e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(4.97846028755044e-24fs + 2.60634218706887e-20) - 8.84191013275692e-19) - 1.30182230144389e-17) + 1.27550644430947e-16)) + fs(fs(fs(fs(2.49057817945703e-23fs - 1.34922912585615e-19) + 5.01579761573499e-18) + 9.10160440190383e-17) - 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) + 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) - 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-2.24688736976657e-24fs + 1.0356102685966e-20) - 7.39641502461285e-20) - 4.31004728634658e-19) + 2.2509007681205e-18) + fs(fs(fs(fs(2.24688736976657e-24fs - 1.0356102685966e-20) + 7.39641502461285e-20) + 4.31004728634658e-19) - 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.43544780170221e-25fs - 1.85319561468279e-21) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(5.43544780170221e-25fs + 1.85319561468279e-21) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(3.88246271550158e-25fs - 4.09109535668814e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-3.88246271550158e-25fs + 4.09109535668814e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-4.14647018015568e-25fs + 4.36928984094294e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(5.80505825221796e-25fs + 1.97921291648122e-21) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(2.39967571091069e-24fs - 1.10603176686117e-20) + 7.89937124628652e-20) + 4.60313050181815e-19) - 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) + 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) - 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs + 3.86721597525567e-20) + 6.80858259239558e-19) - 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs - 3.86721597525567e-20) - 6.80858259239558e-19) + 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs - 4.13018666157306e-20) - 7.27156620867848e-19) + 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) - 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs + 5.15947717885593e-19) + 2.3901137548476e-17) - 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs - 5.15947717885593e-19) - 2.3901137548476e-17) + 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs + 2.99095367015295e-21) + 3.38701967358278e-20) - 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs - 2.99095367015295e-21) - 3.38701967358278e-20) + 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs - 3.19433851972335e-21) - 3.61733701138641e-20) + 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs - 5.51032162701814e-19) - 2.55264149017724e-17) + 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) - 4.34250203034679e-15) + 2.13117200385877e-14; a5 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-24fs - 4.21107717183568e-20) + 4.69643971510767e-18) - 8.52210149990995e-17) + 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(-4.66400408138021e-24fs + 4.21107717183568e-20) - 4.69643971510767e-18) + 8.52210149990995e-17) - 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-25fs + 8.13465102081422e-21) - 8.27894207186978e-19) + 1.21893473917967e-17) - 3.98098141170247e-17) + fs(fs(fs(fs(-9.32295933998211e-25fs - 8.13465102081422e-21) + 8.27894207186978e-19) - 1.21893473917967e-17) + 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-24fs + 1.0400884417695e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(1.03616486126347e-24fs - 1.0400884417695e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-24fs - 1.11081445580983e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-9.95692057510089e-25fs - 8.68780729022958e-21) + 8.84191013275692e-19) - 1.30182230144389e-17) + 4.25168814769824e-17)) + fs(fs(fs(fs(-4.98115635891407e-24fs + 4.49743041952051e-20) - 5.01579761573499e-18) + 9.10160440190383e-17) - 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) + 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) - 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-25fs - 3.45203422865533e-21) + 7.39641502461285e-20) - 4.31004728634658e-19) + 7.50300256040165e-19) + fs(fs(fs(fs(-4.49377473953314e-25fs + 3.45203422865533e-21) - 7.39641502461285e-20) + 4.31004728634658e-19) - 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-25fs + 6.17731871560931e-22) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-25fs - 6.17731871560931e-22) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-26fs + 1.36369845222938e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(7.76492543100316e-26fs - 1.36369845222938e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(8.29294036031137e-26fs - 1.45642994698098e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-1.16101165044359e-25fs - 6.59737638827074e-22) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-4.79935142182139e-25fs + 3.68677255620389e-21) - 7.89937124628652e-20) + 4.60313050181815e-19) - 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) + 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) - 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs - 3.86721597525567e-20) + 6.80858259239558e-19) - 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs + 3.86721597525567e-20) - 6.80858259239558e-19) + 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs + 4.13018666157306e-20) - 7.27156620867848e-19) + 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) - 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs - 5.15947717885593e-19) + 2.3901137548476e-17) - 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs + 5.15947717885593e-19) - 2.3901137548476e-17) + 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs - 2.99095367015295e-21) + 3.38701967358278e-20) - 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs + 2.99095367015295e-21) - 3.38701967358278e-20) + 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs + 3.19433851972335e-21) - 3.61733701138641e-20) + 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs + 5.51032162701814e-19) - 2.55264149017724e-17) + 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) - 1.44750067678226e-15) + 4.26234400771753e-15; };	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/alembic-mono.dsp	faust		declare id "alembic"; declare name "Alembic Preamp"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; Input = vslider("Input[name:Input]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Bass = vslider("Bass[name:Bass]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); Middle = vslider("Middle[name:Middle]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Treble = vslider("Treble[name:Treble]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); Volume = vslider("Volume[name:Volume]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(1) : si.smooth(s); b0 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-21fs + 9.98505002369502e-19) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-22fs + 4.56560363232067e-18) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b1 = Volume(Bass(InputTreblepow(fs,4)(2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(-2.84307765214256e-20fs - 2.99551500710851e-18) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-3.98030871299959e-21fs - 1.3696810896962e-17) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs - 2.85365632064909e-16) + 1.90022438253841e-15))); b2 = Volume(Bass(InputTreblepow(fs,4)(-5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(5.68615530428513e-20fs + 1.997010004739e-18) - 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs + 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs - 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(7.96061742599918e-21fs + 9.13120726464134e-18) - 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs - 5.70731264129818e-16) - 3.80044876507682e-15))); b3 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-20fs - 7.58154040571353e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-20fs + 1.997010004739e-18) + 9.71556658961449e-15) - 6.46850575040665e-14)) + InputTreblepow(fs,2)(fs(-7.11374323174395e-19fs - 2.89389010379788e-17) + 1.6130937033433e-16) + Inputpow(fs,2)(fs(7.11374323174395e-19fs + 2.89389010379788e-17) - 1.6130937033433e-16) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-21fs + 9.13120726464134e-18) + 6.08039540538225e-17) + Inputpow(fs,2)(fs(9.95924052444153e-20fs + 5.70731264129818e-16) - 3.80044876507682e-15))); b4 = Volume(Bass(InputTreblepow(fs,4)(-2.84307765214256e-20fs + 1.13723106085703e-19) + Inputpow(fs,2)(fs(fs(2.84307765214256e-20fs - 2.99551500710851e-18) + 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(1.06706148476159e-18fs - 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(-1.06706148476159e-18fs + 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(3.98030871299959e-21fs - 1.3696810896962e-17) + 3.04019770269112e-17) + Inputpow(fs,2)(fs(-1.49388607866623e-19fs + 2.85365632064909e-16) + 1.90022438253841e-15))); b5 = Volume(Bass(InputTreblepow(fs,4)(5.68615530428513e-21fs - 3.79077020285676e-20) + Inputpow(fs,2)(fs(fs(-5.68615530428513e-21fs + 9.98505002369502e-19) - 4.85778329480724e-15) + 3.23425287520332e-14)) + InputTreblepow(fs,2)(fs(-3.55687161587197e-19fs + 1.44694505189894e-17) - 8.06546851671652e-17) + Inputpow(fs,2)(fs(3.55687161587197e-19fs - 1.44694505189894e-17) + 8.06546851671652e-17) + Middle(BassInputpow(fs,3)(fs(-7.96061742599918e-22fs + 4.56560363232067e-18) - 3.04019770269112e-17) + Inputpow(fs,2)(fs(4.97962026222076e-20fs - 2.85365632064909e-16) + 1.90022438253841e-15))); a0 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-24fs - 4.21107717183568e-20) - 4.69643971510767e-18) - 8.52210149990995e-17) - 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(4.66400408138021e-24fs + 4.21107717183568e-20) + 4.69643971510767e-18) + 8.52210149990995e-17) + 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-25fs + 8.13465102081422e-21) + 8.27894207186978e-19) + 1.21893473917967e-17) + 3.98098141170247e-17) + fs(fs(fs(fs(9.32295933998211e-25fs - 8.13465102081422e-21) - 8.27894207186978e-19) - 1.21893473917967e-17) - 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-24fs + 1.0400884417695e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-24fs - 1.0400884417695e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-24fs - 1.11081445580983e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(9.95692057510089e-25fs - 8.68780729022958e-21) - 8.84191013275692e-19) - 1.30182230144389e-17) - 4.25168814769824e-17)) + fs(fs(fs(fs(4.98115635891407e-24fs + 4.49743041952051e-20) + 5.01579761573499e-18) + 9.10160440190383e-17) + 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) - 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) + 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-25fs - 3.45203422865533e-21) - 7.39641502461285e-20) - 4.31004728634658e-19) - 7.50300256040165e-19) + fs(fs(fs(fs(4.49377473953314e-25fs + 3.45203422865533e-21) + 7.39641502461285e-20) + 4.31004728634658e-19) + 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-25fs + 6.17731871560931e-22) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(1.08708956034044e-25fs - 6.17731871560931e-22) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-26fs + 1.36369845222938e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-7.76492543100316e-26fs - 1.36369845222938e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-8.29294036031137e-26fs - 1.45642994698098e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(1.16101165044359e-25fs - 6.59737638827074e-22) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(4.79935142182139e-25fs + 3.68677255620389e-21) + 7.89937124628652e-20) + 4.60313050181815e-19) + 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) - 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) + 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs + 3.86721597525567e-20) + 6.80858259239558e-19) + 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs - 3.86721597525567e-20) - 6.80858259239558e-19) - 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs - 4.13018666157306e-20) - 7.27156620867848e-19) - 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) + 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs + 5.15947717885593e-19) + 2.3901137548476e-17) + 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs - 5.15947717885593e-19) - 2.3901137548476e-17) - 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs + 2.99095367015295e-21) + 3.38701967358278e-20) + 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs - 2.99095367015295e-21) - 3.38701967358278e-20) - 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs - 3.19433851972335e-21) - 3.61733701138641e-20) - 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs - 5.51032162701814e-19) - 2.55264149017724e-17) - 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) + 1.44750067678226e-15) + 4.26234400771753e-15; a1 = Bass(Input(Input(fs(fs(fs(fs(2.33200204069011e-23fs + 1.26332315155071e-19) + 4.69643971510767e-18) - 8.52210149990995e-17) - 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(-2.33200204069011e-23fs - 1.26332315155071e-19) - 4.69643971510767e-18) + 8.52210149990995e-17) + 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(4.66147966999105e-24fs - 2.44039530624426e-20) - 8.27894207186978e-19) + 1.21893473917967e-17) + 1.19429442351074e-16) + fs(fs(fs(fs(-4.66147966999105e-24fs + 2.44039530624426e-20) + 8.27894207186978e-19) - 1.21893473917967e-17) - 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.18082430631737e-24fs - 3.12026532530851e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(5.18082430631737e-24fs + 3.12026532530851e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(5.53312035914695e-24fs + 3.33244336742949e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-4.97846028755044e-24fs + 2.60634218706887e-20) + 8.84191013275692e-19) - 1.30182230144389e-17) - 1.27550644430947e-16)) + fs(fs(fs(fs(-2.49057817945703e-23fs - 1.34922912585615e-19) - 5.01579761573499e-18) + 9.10160440190383e-17) + 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) - 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) + 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(2.24688736976657e-24fs + 1.0356102685966e-20) + 7.39641502461285e-20) - 4.31004728634658e-19) - 2.2509007681205e-18) + fs(fs(fs(fs(-2.24688736976657e-24fs - 1.0356102685966e-20) - 7.39641502461285e-20) + 4.31004728634658e-19) + 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.43544780170221e-25fs - 1.85319561468279e-21) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-5.43544780170221e-25fs + 1.85319561468279e-21) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-3.88246271550158e-25fs - 4.09109535668814e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(3.88246271550158e-25fs + 4.09109535668814e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(4.14647018015568e-25fs + 4.36928984094294e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-5.80505825221796e-25fs + 1.97921291648122e-21) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-2.39967571091069e-24fs - 1.10603176686117e-20) - 7.89937124628652e-20) + 4.60313050181815e-19) + 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) - 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) + 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs - 3.86721597525567e-20) + 6.80858259239558e-19) + 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs + 3.86721597525567e-20) - 6.80858259239558e-19) - 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs + 4.13018666157306e-20) - 7.27156620867848e-19) - 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) + 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs - 5.15947717885593e-19) + 2.3901137548476e-17) + 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs + 5.15947717885593e-19) - 2.3901137548476e-17) - 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs - 2.99095367015295e-21) + 3.38701967358278e-20) + 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs + 2.99095367015295e-21) - 3.38701967358278e-20) - 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs + 3.19433851972335e-21) - 3.61733701138641e-20) - 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs + 5.51032162701814e-19) - 2.55264149017724e-17) - 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) + 4.34250203034679e-15) + 2.13117200385877e-14; a2 = Bass(Input(Input(fs(fs(fs(fs(-4.66400408138021e-23fs - 8.42215434367137e-20) + 9.39287943021533e-18) + 1.70442029998199e-16) - 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(4.66400408138021e-23fs + 8.42215434367137e-20) - 9.39287943021533e-18) - 1.70442029998199e-16) + 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(-9.32295933998211e-24fs + 1.62693020416284e-20) - 1.65578841437396e-18) - 2.43786947835935e-17) + 7.96196282340494e-17) + fs(fs(fs(fs(9.32295933998211e-24fs - 1.62693020416284e-20) + 1.65578841437396e-18) + 2.43786947835935e-17) - 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.03616486126347e-23fs + 2.08017688353901e-22) - 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(-1.03616486126347e-23fs - 2.08017688353901e-22) + 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(-1.10662407182939e-23fs - 2.22162891161966e-22) + 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(9.95692057510089e-24fs - 1.73756145804592e-20) + 1.76838202655138e-18) + 2.60364460288779e-17) - 8.50337629539648e-17)) + fs(fs(fs(fs(4.98115635891407e-23fs + 8.99486083904102e-20) - 1.003159523147e-17) - 1.82032088038077e-16) + 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs + 5.21331434491869e-18) + 2.39621039026005e-16) - 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs - 5.21331434491869e-18) - 2.39621039026005e-16) + 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-4.49377473953314e-24fs - 6.90406845731066e-21) + 1.47928300492257e-19) + 8.62009457269317e-19) - 1.50060051208033e-18) + fs(fs(fs(fs(4.49377473953314e-24fs + 6.90406845731066e-21) - 1.47928300492257e-19) - 8.62009457269317e-19) + 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.08708956034044e-24fs + 1.23546374312186e-21) - 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(1.08708956034044e-24fs - 1.23546374312186e-21) + 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(7.76492543100316e-25fs + 2.72739690445876e-24) - 9.37875320050206e-24) + pow(fs,3)(fs(-7.76492543100316e-25fs - 2.72739690445876e-24) + 9.37875320050206e-24)) + pow(fs,3)(fs(-8.29294036031137e-25fs - 2.91285989396196e-24) + 1.00165084181362e-23)) + pow(fs,2)(fs(fs(1.16101165044359e-24fs - 1.31947527765415e-21) + 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(4.79935142182139e-24fs + 7.37354511240778e-21) - 1.5798742492573e-19) - 9.2062610036363e-19) + 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs + 4.31614729137842e-19) + 8.75181972411783e-18) - 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs - 4.31614729137842e-19) - 8.75181972411783e-18) + 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs - 7.73443195051134e-20) - 1.36171651847912e-18) + 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs + 7.73443195051134e-20) + 1.36171651847912e-18) - 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs - 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs + 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs + 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs + 8.26037332314611e-20) + 1.4543132417357e-18) - 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs - 4.60964530719215e-19) - 9.34694346535784e-18) + 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs - 1.03189543577119e-18) - 4.7802275096952e-17) + 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs + 1.03189543577119e-18) + 4.7802275096952e-17) - 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs - 5.98190734030589e-21) - 6.77403934716556e-20) + 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs + 5.98190734030589e-21) + 6.77403934716556e-20) - 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs + 6.38867703944669e-21) + 7.23467402277282e-20) - 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs + 1.10206432540363e-18) + 5.10528298035447e-17) - 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs - 5.56781972037316e-18) - 2.55915269679773e-16) + 2.89500135356453e-15) + 4.26234400771753e-14; a3 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-23fs - 8.42215434367137e-20) - 9.39287943021533e-18) + 1.70442029998199e-16) + 9.41869519219001e-16) - 7.98191761744856e-15) + fs(fs(fs(fs(-4.66400408138021e-23fs + 8.42215434367137e-20) + 9.39287943021533e-18) - 1.70442029998199e-16) - 9.41869519219001e-16) + 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-24fs + 1.62693020416284e-20) + 1.65578841437396e-18) - 2.43786947835935e-17) - 7.96196282340494e-17) + fs(fs(fs(fs(-9.32295933998211e-24fs - 1.62693020416284e-20) - 1.65578841437396e-18) + 2.43786947835935e-17) + 7.96196282340494e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-23fs + 2.08017688353901e-22) + 3.05672470418848e-21) - 9.97739702181071e-21) + pow(fs,2)(fs(fs(1.03616486126347e-23fs - 2.08017688353901e-22) - 3.05672470418848e-21) + 9.97739702181071e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-23fs - 2.22162891161966e-22) - 3.26458198407329e-21) + 1.06558600192938e-20)) + fs(fs(fs(fs(-9.95692057510089e-24fs - 1.73756145804592e-20) - 1.76838202655138e-18) + 2.60364460288779e-17) + 8.50337629539648e-17)) + fs(fs(fs(fs(-4.98115635891407e-23fs + 8.99486083904102e-20) + 1.003159523147e-17) - 1.82032088038077e-16) - 1.00591664652589e-15) + 8.52468801543507e-15) + Input(Input(fs(fs(fs(-5.83496680819482e-22fs - 5.21331434491869e-18) + 2.39621039026005e-16) + 2.71067542468589e-15) - 3.99095880872428e-14) + fs(fs(fs(5.83496680819482e-22fs + 5.21331434491869e-18) - 2.39621039026005e-16) - 2.71067542468589e-15) + 3.99095880872428e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-24fs - 6.90406845731066e-21) - 1.47928300492257e-19) + 8.62009457269317e-19) + 1.50060051208033e-18) + fs(fs(fs(fs(-4.49377473953314e-24fs + 6.90406845731066e-21) + 1.47928300492257e-19) - 8.62009457269317e-19) - 1.50060051208033e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-24fs + 1.23546374312186e-21) + 2.17514970431002e-20) - 7.48424505400065e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-24fs - 1.23546374312186e-21) - 2.17514970431002e-20) + 7.48424505400065e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-25fs + 2.72739690445876e-24) + 9.37875320050206e-24) + pow(fs,3)(fs(7.76492543100316e-25fs - 2.72739690445876e-24) - 9.37875320050206e-24)) + pow(fs,3)(fs(8.29294036031137e-25fs - 2.91285989396196e-24) - 1.00165084181362e-23)) + pow(fs,2)(fs(fs(-1.16101165044359e-24fs - 1.31947527765415e-21) - 2.3230598842031e-20) + 7.99317371767269e-20)) + fs(fs(fs(fs(-4.79935142182139e-24fs + 7.37354511240778e-21) + 1.5798742492573e-19) - 9.2062610036363e-19) - 1.60264134690179e-18)) + Input(Input(fs(fs(fs(-5.62199903584146e-23fs - 4.31614729137842e-19) + 8.75181972411783e-18) + 4.51777833291617e-17) - 3.19276704697943e-16) + fs(fs(fs(5.62199903584146e-23fs + 4.31614729137842e-19) - 8.75181972411783e-18) - 4.51777833291617e-17) + 3.19276704697943e-16) + Treble(Input(Inputfs(fs(fs(-1.36001842868123e-23fs + 7.73443195051134e-20) - 1.36171651847912e-18) - 4.68538564144231e-18) + fs(fs(fs(1.36001842868123e-23fs - 7.73443195051134e-20) + 1.36171651847912e-18) + 4.68538564144231e-18)) + Treble(Input(Inputpow(fs,2)(fs(9.7144173477231e-24fs + 1.70607380832101e-22) - 5.86670944882469e-22) + pow(fs,2)(fs(-9.7144173477231e-24fs - 1.70607380832101e-22) + 5.86670944882469e-22)) + pow(fs,2)(fs(-1.03749977273683e-23fs - 1.82208682728684e-22) + 6.26564569134477e-22)) + fs(fs(fs(1.45249968183156e-23fs - 8.26037332314611e-20) + 1.4543132417357e-18) + 5.00399186506038e-18)) + fs(fs(fs(6.00429497027867e-23fs + 4.60964530719215e-19) - 9.34694346535784e-18) - 4.82498725955447e-17) + 3.40987520617403e-16) + Treble(Input(Input(fs(fs(fs(-1.16636172168287e-22fs + 1.03189543577119e-18) - 4.7802275096952e-17) - 5.41775898644392e-16) + 7.98191761744856e-15) + fs(fs(fs(1.16636172168287e-22fs - 1.03189543577119e-18) + 4.7802275096952e-17) + 5.41775898644392e-16) - 7.98191761744856e-15) + Treble(Input(Inputfs(fs(fs(1.29630837962324e-22fs + 5.98190734030589e-21) - 6.77403934716556e-20) - 1.99547940436214e-19) + fs(fs(fs(-1.29630837962324e-22fs - 5.98190734030589e-21) + 6.77403934716556e-20) + 1.99547940436214e-19)) + fs(fs(fs(-1.38445734943762e-22fs - 6.38867703944669e-21) + 7.23467402277282e-20) + 2.13117200385877e-19)) + fs(fs(fs(1.2456743187573e-22fs - 1.10206432540363e-18) + 5.10528298035447e-17) + 5.78616659752211e-16) - 8.52468801543507e-15) + fs(fs(fs(6.23174455115207e-22fs + 5.56781972037316e-18) - 2.55915269679773e-16) - 2.89500135356453e-15) + 4.26234400771753e-14; a4 = Bass(Input(Input(fs(fs(fs(fs(-2.33200204069011e-23fs + 1.26332315155071e-19) - 4.69643971510767e-18) - 8.52210149990995e-17) + 1.4128042788285e-15) - 3.99095880872428e-15) + fs(fs(fs(fs(2.33200204069011e-23fs - 1.26332315155071e-19) + 4.69643971510767e-18) + 8.52210149990995e-17) - 1.4128042788285e-15) + 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(fs(-4.66147966999105e-24fs - 2.44039530624426e-20) + 8.27894207186978e-19) + 1.21893473917967e-17) - 1.19429442351074e-16) + fs(fs(fs(fs(4.66147966999105e-24fs + 2.44039530624426e-20) - 8.27894207186978e-19) - 1.21893473917967e-17) + 1.19429442351074e-16)) + Treble(Input(Inputpow(fs,2)(fs(fs(5.18082430631737e-24fs - 3.12026532530851e-22) + 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(-5.18082430631737e-24fs + 3.12026532530851e-22) - 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(-5.53312035914695e-24fs + 3.33244336742949e-22) - 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(4.97846028755044e-24fs + 2.60634218706887e-20) - 8.84191013275692e-19) - 1.30182230144389e-17) + 1.27550644430947e-16)) + fs(fs(fs(fs(2.49057817945703e-23fs - 1.34922912585615e-19) + 5.01579761573499e-18) + 9.10160440190383e-17) - 1.50887496978884e-15) + 4.26234400771753e-15) + Input(Input(fs(fs(fs(8.75245021229223e-22fs - 2.60665717245934e-18) - 1.19810519513002e-16) + 4.06601313702883e-15) - 1.99547940436214e-14) + fs(fs(fs(-8.75245021229223e-22fs + 2.60665717245934e-18) + 1.19810519513002e-16) - 4.06601313702883e-15) + 1.99547940436214e-14) + Middle(Bass(Input(Inputfs(fs(fs(fs(-2.24688736976657e-24fs + 1.0356102685966e-20) - 7.39641502461285e-20) - 4.31004728634658e-19) + 2.2509007681205e-18) + fs(fs(fs(fs(2.24688736976657e-24fs - 1.0356102685966e-20) + 7.39641502461285e-20) + 4.31004728634658e-19) - 2.2509007681205e-18)) + Treble(Input(Inputpow(fs,2)(fs(fs(-5.43544780170221e-25fs - 1.85319561468279e-21) + 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(5.43544780170221e-25fs + 1.85319561468279e-21) - 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(3.88246271550158e-25fs - 4.09109535668814e-24) + 4.68937660025103e-24) + pow(fs,3)(fs(-3.88246271550158e-25fs + 4.09109535668814e-24) - 4.68937660025103e-24)) + pow(fs,3)(fs(-4.14647018015568e-25fs + 4.36928984094294e-24) - 5.0082542090681e-24)) + pow(fs,2)(fs(fs(5.80505825221796e-25fs + 1.97921291648122e-21) - 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(2.39967571091069e-24fs - 1.10603176686117e-20) + 7.89937124628652e-20) + 4.60313050181815e-19) - 2.40396202035269e-18)) + Input(Input(fs(fs(fs(8.43299855376218e-23fs - 2.15807364568921e-19) - 4.37590986205892e-18) + 6.77666749937426e-17) - 1.59638352348971e-16) + fs(fs(fs(-8.43299855376218e-23fs + 2.15807364568921e-19) + 4.37590986205892e-18) - 6.77666749937426e-17) + 1.59638352348971e-16) + Treble(Input(Inputfs(fs(fs(2.04002764302185e-23fs + 3.86721597525567e-20) + 6.80858259239558e-19) - 7.02807846216346e-18) + fs(fs(fs(-2.04002764302185e-23fs - 3.86721597525567e-20) - 6.80858259239558e-19) + 7.02807846216346e-18)) + Treble(Input(Inputpow(fs,2)(fs(-1.45716260215846e-23fs + 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(1.45716260215846e-23fs - 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(1.55624965910524e-23fs - 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(-2.17874952274734e-23fs - 4.13018666157306e-20) - 7.27156620867848e-19) + 7.50598779759058e-18)) + fs(fs(fs(-9.00644245541801e-23fs + 2.30482265359608e-19) + 4.67347173267892e-18) - 7.2374808893317e-17) + 1.70493760308701e-16) + Treble(Input(Input(fs(fs(fs(1.7495425825243e-22fs + 5.15947717885593e-19) + 2.3901137548476e-17) - 8.12663847966588e-16) + 3.99095880872428e-15) + fs(fs(fs(-1.7495425825243e-22fs - 5.15947717885593e-19) - 2.3901137548476e-17) + 8.12663847966588e-16) - 3.99095880872428e-15) + Treble(Input(Inputfs(fs(fs(-1.94446256943486e-22fs + 2.99095367015295e-21) + 3.38701967358278e-20) - 2.99321910654321e-19) + fs(fs(fs(1.94446256943486e-22fs - 2.99095367015295e-21) - 3.38701967358278e-20) + 2.99321910654321e-19)) + fs(fs(fs(2.07668602415643e-22fs - 3.19433851972335e-21) - 3.61733701138641e-20) + 3.19675800578815e-19)) + fs(fs(fs(-1.86851147813595e-22fs - 5.51032162701814e-19) - 2.55264149017724e-17) + 8.67924989628316e-16) - 4.26234400771753e-15) + fs(fs(fs(-9.3476168267281e-22fs + 2.78390986018658e-18) + 1.27957634839887e-16) - 4.34250203034679e-15) + 2.13117200385877e-14; a5 = Bass(Input(Input(fs(fs(fs(fs(4.66400408138021e-24fs - 4.21107717183568e-20) + 4.69643971510767e-18) - 8.52210149990995e-17) + 4.70934759609501e-16) - 7.98191761744856e-16) + fs(fs(fs(fs(-4.66400408138021e-24fs + 4.21107717183568e-20) - 4.69643971510767e-18) + 8.52210149990995e-17) - 4.70934759609501e-16) + 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(fs(9.32295933998211e-25fs + 8.13465102081422e-21) - 8.27894207186978e-19) + 1.21893473917967e-17) - 3.98098141170247e-17) + fs(fs(fs(fs(-9.32295933998211e-25fs - 8.13465102081422e-21) + 8.27894207186978e-19) - 1.21893473917967e-17) + 3.98098141170247e-17)) + Treble(Input(Inputpow(fs,2)(fs(fs(-1.03616486126347e-24fs + 1.0400884417695e-22) - 1.52836235209424e-21) + 4.98869851090535e-21) + pow(fs,2)(fs(fs(1.03616486126347e-24fs - 1.0400884417695e-22) + 1.52836235209424e-21) - 4.98869851090535e-21)) + pow(fs,2)(fs(fs(1.10662407182939e-24fs - 1.11081445580983e-22) + 1.63229099203665e-21) - 5.32793000964692e-21)) + fs(fs(fs(fs(-9.95692057510089e-25fs - 8.68780729022958e-21) + 8.84191013275692e-19) - 1.30182230144389e-17) + 4.25168814769824e-17)) + fs(fs(fs(fs(-4.98115635891407e-24fs + 4.49743041952051e-20) - 5.01579761573499e-18) + 9.10160440190383e-17) - 5.02958323262947e-16) + 8.52468801543507e-16) + Input(Input(fs(fs(fs(-2.91748340409741e-22fs + 2.60665717245934e-18) - 1.19810519513002e-16) + 1.35533771234294e-15) - 3.99095880872428e-15) + fs(fs(fs(2.91748340409741e-22fs - 2.60665717245934e-18) + 1.19810519513002e-16) - 1.35533771234294e-15) + 3.99095880872428e-15) + Middle(Bass(Input(Inputfs(fs(fs(fs(4.49377473953314e-25fs - 3.45203422865533e-21) + 7.39641502461285e-20) - 4.31004728634658e-19) + 7.50300256040165e-19) + fs(fs(fs(fs(-4.49377473953314e-25fs + 3.45203422865533e-21) - 7.39641502461285e-20) + 4.31004728634658e-19) - 7.50300256040165e-19)) + Treble(Input(Inputpow(fs,2)(fs(fs(1.08708956034044e-25fs + 6.17731871560931e-22) - 1.08757485215501e-20) + 3.74212252700032e-20) + pow(fs,2)(fs(fs(-1.08708956034044e-25fs - 6.17731871560931e-22) + 1.08757485215501e-20) - 3.74212252700032e-20)) + Treble(Input(Inputpow(fs,3)(fs(-7.76492543100316e-26fs + 1.36369845222938e-24) - 4.68937660025103e-24) + pow(fs,3)(fs(7.76492543100316e-26fs - 1.36369845222938e-24) + 4.68937660025103e-24)) + pow(fs,3)(fs(8.29294036031137e-26fs - 1.45642994698098e-24) + 5.0082542090681e-24)) + pow(fs,2)(fs(fs(-1.16101165044359e-25fs - 6.59737638827074e-22) + 1.16152994210155e-20) - 3.99658685883635e-20)) + fs(fs(fs(fs(-4.79935142182139e-25fs + 3.68677255620389e-21) - 7.89937124628652e-20) + 4.60313050181815e-19) - 8.01320673450896e-19)) + Input(Input(fs(fs(fs(-2.81099951792073e-23fs + 2.15807364568921e-19) - 4.37590986205892e-18) + 2.25888916645809e-17) - 3.19276704697943e-17) + fs(fs(fs(2.81099951792073e-23fs - 2.15807364568921e-19) + 4.37590986205892e-18) - 2.25888916645809e-17) + 3.19276704697943e-17) + Treble(Input(Inputfs(fs(fs(-6.80009214340617e-24fs - 3.86721597525567e-20) + 6.80858259239558e-19) - 2.34269282072115e-18) + fs(fs(fs(6.80009214340617e-24fs + 3.86721597525567e-20) - 6.80858259239558e-19) + 2.34269282072115e-18)) + Treble(Input(Inputpow(fs,2)(fs(4.85720867386155e-24fs - 8.53036904160507e-23) + 2.93335472441235e-22) + pow(fs,2)(fs(-4.85720867386155e-24fs + 8.53036904160507e-23) - 2.93335472441235e-22)) + pow(fs,2)(fs(-5.18749886368413e-24fs + 9.11043413643421e-23) - 3.13282284567239e-22)) + fs(fs(fs(7.26249840915779e-24fs + 4.13018666157306e-20) - 7.27156620867848e-19) + 2.50199593253019e-18)) + fs(fs(fs(3.00214748513934e-23fs - 2.30482265359608e-19) + 4.67347173267892e-18) - 2.41249362977723e-17) + 3.40987520617403e-17) + Treble(Input(Input(fs(fs(fs(-5.83180860841434e-23fs - 5.15947717885593e-19) + 2.3901137548476e-17) - 2.70887949322196e-16) + 7.98191761744856e-16) + fs(fs(fs(5.83180860841434e-23fs + 5.15947717885593e-19) - 2.3901137548476e-17) + 2.70887949322196e-16) - 7.98191761744856e-16) + Treble(Input(Inputfs(fs(fs(6.4815418981162e-23fs - 2.99095367015295e-21) + 3.38701967358278e-20) - 9.9773970218107e-20) + fs(fs(fs(-6.4815418981162e-23fs + 2.99095367015295e-21) - 3.38701967358278e-20) + 9.9773970218107e-20)) + fs(fs(fs(-6.9222867471881e-23fs + 3.19433851972335e-21) - 3.61733701138641e-20) + 1.06558600192938e-19)) + fs(fs(fs(6.22837159378651e-23fs + 5.51032162701814e-19) - 2.55264149017724e-17) + 2.89308329876105e-16) - 8.52468801543507e-16) + fs(fs(fs(3.11587227557603e-22fs - 2.78390986018658e-18) + 1.27957634839887e-16) - 1.44750067678226e-15) + 4.26234400771753e-15; };
f32df65f22314674ffe6ebd219cbf96588b3502d26c55396957e4d9ba16e7890	brummer10/guitarix	gx_studiopre.dsp	import("stdfaust.lib"); // Based on simple Alembic F-2B vstudio preamp normal = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Lfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Lfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_L(Bass_L(7.07292876955067e-17Treble_Lpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_L(Bass_Lpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Lpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Lfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Lfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_L(6.08067904846417e-19Treble_Lpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_L(Bass_L(Treble_L(-2.9162440334471e-20Treble_Lpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_L(7.78053881159219e-18Treble_Lpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_L(6.3993684773216e-16Treble_Lpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_L(-6.08067904846417e-19Treble_Lpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; alembic_normclip = _<: ba.if(signbit(_), alembic_norm_neg_clip, alembic_norm_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_norm_clip = ffunction(float alembic_normclip(float), "alembic_norm_table.h", ""); alembic_norm_neg_clip = ffunction(float alembic_norm_negclip(float), "alembic_norm_neg_table.h", ""); }; bright = 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)) : alembic_briteclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; alembic_briteclip = _<: ba.if(signbit(_), alembic_brite_neg_clip, alembic_brite_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_brite_clip = ffunction(float alembic_briteclip(float), "alembic_brite_table.h", ""); alembic_brite_neg_clip = ffunction(float alembic_brite_negclip(float), "alembic_brite_neg_table.h", ""); }; output = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_L = vslider("Master_L[name:Master_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Lfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Lpow(fs,2); b2 = Master_Lfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10*fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; alembic_outclip = _<: ba.if(signbit(_), alembic_out_neg_clip, alembic_out_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_out_clip = ffunction(float alembic_outclip(float), "alembic_out_table.h", ""); alembic_out_neg_clip = ffunction(float alembic_out_negclip(float), "alembic_out_neg_table.h", ""); }; // Brite normal briteswitch = _<:bright,normal:select2( checkbox("bright_L" )); amp = briteswitch:output; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); process = freq_split: ( amp , amp , amp, amp, amp) :>_;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/gx_studiopre.dsp	faust	Based on simple Alembic F-2B vstudio preamp Brite normal	import("stdfaust.lib"); normal = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Lfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Lfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_L(Bass_L(7.07292876955067e-17Treble_Lpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_L(Bass_Lpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Lpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Lfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Lfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_L(6.08067904846417e-19Treble_Lpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_L(Bass_L(Treble_L(-2.9162440334471e-20Treble_Lpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_L(7.78053881159219e-18Treble_Lpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_L(6.3993684773216e-16Treble_Lpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_L(-6.08067904846417e-19Treble_Lpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; alembic_normclip = _<: ba.if(signbit(_), alembic_norm_neg_clip, alembic_norm_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_norm_clip = ffunction(float alembic_normclip(float), "alembic_norm_table.h", ""); alembic_norm_neg_clip = ffunction(float alembic_norm_negclip(float), "alembic_norm_neg_table.h", ""); }; bright = 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)) : alembic_briteclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; alembic_briteclip = _<: ba.if(signbit(_), alembic_brite_neg_clip, alembic_brite_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_brite_clip = ffunction(float alembic_briteclip(float), "alembic_brite_table.h", ""); alembic_brite_neg_clip = ffunction(float alembic_brite_negclip(float), "alembic_brite_neg_table.h", ""); }; output = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_L = vslider("Master_L[name:Master_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Lfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Lpow(fs,2); b2 = Master_Lfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10*fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; alembic_outclip = _<: ba.if(signbit(_), alembic_out_neg_clip, alembic_out_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_out_clip = ffunction(float alembic_outclip(float), "alembic_out_table.h", ""); alembic_out_neg_clip = ffunction(float alembic_out_negclip(float), "alembic_out_neg_table.h", ""); }; briteswitch = _<:bright,normal:select2( checkbox("bright_L" )); amp = briteswitch:output; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); process = freq_split: ( amp , amp , amp, amp, amp) :>_;
3064a68db22dc4fa0853bd6a9c631979d5bf261c07fbe5a05cb05dc68a39951a	brummer10/guitarix	gx_studiopre_st.dsp	import("stdfaust.lib"); // Based on simple Alembic F-2B vstudio preamp normal_L = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Lfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Lfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_L(Bass_L(7.07292876955067e-17Treble_Lpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_L(Bass_Lpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Lpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Lfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Lfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_L(6.08067904846417e-19Treble_Lpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_L(Bass_L(Treble_L(-2.9162440334471e-20Treble_Lpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_L(7.78053881159219e-18Treble_Lpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_L(6.3993684773216e-16Treble_Lpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_L(-6.08067904846417e-19Treble_Lpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; normal_R = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_R = vslider("Bass_R[name:Bass_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_R = vslider("Middle_R[name:Middle_R]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_R = vslider("Volume_R[name:Volume_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_R = vslider("Treble_R[name:Treble_R]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_R(Bass_R(Treble_Rpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Rfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_R(Bass_R(Treble_Rpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_R(Bass_Rpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Rfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_R(Bass_R(7.07292876955067e-17Treble_Rpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_R(Bass_Rpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Rpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_R(Bass_R(Treble_Rpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_R(Bass_Rpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Rfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_R(Bass_R(Treble_Rpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Rfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_R(Treble_Rpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_R(Treble_Rfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_R(Treble_R(Treble_Rpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_R(6.08067904846417e-19Treble_Rpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_R(Treble_Rfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_R(Treble_R(Treble_Rpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_R(Bass_R(Treble_R(-2.9162440334471e-20Treble_Rpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_R(7.78053881159219e-18Treble_Rpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_R(6.3993684773216e-16Treble_Rpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_R(Treble_R(Treble_Rpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_R(-6.08067904846417e-19Treble_Rpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_R(Treble_Rfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_R(Treble_Rpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_R(Treble_Rfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; alembic_normclip = _<: ba.if(signbit(_), alembic_norm_neg_clip, alembic_norm_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_norm_clip = ffunction(float alembic_normclip(float), "alembic_norm_table.h", ""); alembic_norm_neg_clip = ffunction(float alembic_norm_negclip(float), "alembic_norm_neg_table.h", ""); }; bright_L = 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)) : alembic_briteclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; bright_R = 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)) : alembic_briteclip 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 = _; Bass_R = vslider("Bass_R[name:Bass_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_R = vslider("Middle_R[name:Middle_R]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_R = vslider("Volume_R[name:Volume_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_R = vslider("Treble_R[name:Treble_R]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Rfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Rfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_R(Bass_R(Treble_Rpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Rfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Rpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Rfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Rpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Rfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Rfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_R(Treble_Rfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_R(Treble_Rpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_R(Treble_Rpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_R(Treble_Rfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_R(Treble_Rfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_R(Treble_Rpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_R(Treble_Rfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_R(Treble_Rpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_R(Bass_Rpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_R(Treble_Rpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_R(Treble_Rfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_R(Treble_Rfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_R(Treble_Rpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; alembic_briteclip = _<: ba.if(signbit(_), alembic_brite_neg_clip, alembic_brite_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_brite_clip = ffunction(float alembic_briteclip(float), "alembic_brite_table.h", ""); alembic_brite_neg_clip = ffunction(float alembic_brite_negclip(float), "alembic_brite_neg_table.h", ""); }; output_L = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_L = vslider("Master_L[name:Master_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Lfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Lpow(fs,2); b2 = Master_Lfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; output_R = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_R = vslider("Master_R[name:Master_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Rfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Rpow(fs,2); b2 = Master_Rfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10*fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; alembic_outclip = _<: ba.if(signbit(_), alembic_out_neg_clip, alembic_out_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_out_clip = ffunction(float alembic_outclip(float), "alembic_out_table.h", ""); alembic_out_neg_clip = ffunction(float alembic_out_negclip(float), "alembic_out_neg_table.h", ""); }; // Brite normal briteswitch_L = _<:bright_L,normal_L:select2( checkbox("bright_L" )); briteswitch_R = _<:bright_R,normal_R:select2( checkbox("bright_R" )); amp_L = briteswitch_L:output_L; amp_R = briteswitch_R:output_R; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); channel_L = freq_split: ( amp_L , amp_L , amp_L, amp_L, amp_L) :>_; channel_R = freq_split: ( amp_R , amp_R , amp_R, amp_R, amp_R) :>_; process = channel_L, channel_R ;	https://raw.githubusercontent.com/brummer10/guitarix/5672b8cb8f1c324ea28b1fddc7e1b39f79aabbc6/trunk/src/LV2/faust/gx_studiopre_st.dsp	faust	Based on simple Alembic F-2B vstudio preamp Brite normal	import("stdfaust.lib"); normal_L = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Lfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Lfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_L(Bass_L(7.07292876955067e-17Treble_Lpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_L(Bass_Lpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Lpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_L(Bass_Lpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Lfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Lfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_L(6.08067904846417e-19Treble_Lpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_L(Bass_L(Treble_L(-2.9162440334471e-20Treble_Lpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_L(7.78053881159219e-18Treble_Lpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_L(6.3993684773216e-16Treble_Lpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_L(-6.08067904846417e-19Treble_Lpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_L(Treble_Lfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_L(Treble_Lpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_L(Treble_Lfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; normal_R = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0),(a1/a0,a2/a0,a3/a0,a4/a0)) : alembic_normclip 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 = _; Bass_R = vslider("Bass_R[name:Bass_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_R = vslider("Middle_R[name:Middle_R]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_R = vslider("Volume_R[name:Volume_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_R = vslider("Treble_R[name:Treble_R]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_R(Bass_R(Treble_Rpow(fs,3)(1.17882146159178e-17fs + 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs - 2.07004392829875e-15) - 1.0070880757276e-11) - 6.70506959004678e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(-1.65035004622849e-18fs - 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(-1.03234662466208e-16fs - 5.91603840340603e-13) - 3.93943739504993e-12)) + Treble_Rfs(fs(7.37390446187197e-16fs + 2.99972440013567e-14) + 1.67208717956279e-13) + fs(fs(-7.37390446187197e-16fs - 2.99972440013567e-14) - 1.67208717956279e-13)); b1 = Volume_R(Bass_R(Treble_Rpow(fs,3)(-4.71528584636711e-17fs - 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs + 4.1400878565975e-15) - 1.34101391800936e-10)) + Middle_R(Bass_Rpow(fs,3)(6.60140018491395e-18fs + 1.89303009112152e-14) + fs(2.06469324932415e-16pow(fs,2) - 7.87887479009986e-12)) + Treble_Rfs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13) + fs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13)); b2 = Volume_R(Bass_R(7.07292876955067e-17Treble_Rpow(fs,4) + pow(fs,2)(-7.07292876955067e-17pow(fs,2) + 2.0141761514552e-11)) + Middle_R(Bass_Rpow(fs,2)(-9.90210027737093e-18pow(fs,2) + 1.2605530829288e-13) + 1.18320768068121e-12pow(fs,2)) - 5.99944880027134e-14Treble_Rpow(fs,2) + 5.99944880027134e-14pow(fs,2)); b3 = Volume_R(Bass_R(Treble_Rpow(fs,3)(-4.71528584636711e-17fs + 1.57176194878902e-16) + fs(pow(fs,2)(4.71528584636711e-17fs - 4.1400878565975e-15) + 1.34101391800936e-10)) + Middle_R(Bass_Rpow(fs,3)(6.60140018491395e-18fs - 1.89303009112152e-14) + fs(-2.06469324932415e-16pow(fs,2) + 7.87887479009986e-12)) + Treble_Rfs(1.47478089237439e-15pow(fs,2) - 3.34417435912558e-13) + fs(-1.47478089237439e-15pow(fs,2) + 3.34417435912558e-13)); b4 = Volume_R(Bass_R(Treble_Rpow(fs,3)(1.17882146159178e-17fs - 7.85880974394511e-17) + fs(fs(fs(-1.17882146159178e-17fs + 2.07004392829875e-15) - 1.0070880757276e-11) + 6.70506959004678e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(-1.65035004622849e-18fs + 9.46515045560758e-15) - 6.30276541464398e-14) + fs(fs(1.03234662466208e-16fs - 5.91603840340603e-13) + 3.93943739504993e-12)) + Treble_Rfs(fs(-7.37390446187197e-16fs + 2.99972440013567e-14) - 1.67208717956279e-13) + fs(fs(7.37390446187197e-16fs - 2.99972440013567e-14) + 1.67208717956279e-13)); a0 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(-6.53947709737567e-20fs - 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs - 5.12285438072112e-16) - 6.87767642075504e-14) - 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs + 2.67064048181331e-15) + 3.79482593534319e-13) + 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(-4.86040672241183e-21fs - 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs - 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs + 2.16252174019074e-16) + 4.38213044301358e-15) + 1.99261186829939e-14)) + Treble_R(Treble_Rpow(fs,2)(-3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(4.25647533392492e-19fs - 2.42268872585805e-15) - 3.10692264109157e-14)) + fs(fs(1.76140761155593e-18fs + 1.35192183493901e-14) + 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_R(Treble_Rfs(fs(-4.09065163112436e-18fs - 3.1996842386608e-16) - 3.26835558922325e-15) + fs(fs(3.67052678836745e-18fs - 3.2490595714095e-14) - 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(1.8463230738282e-17fs + 1.6533269438527e-13) + 1.28277858723121e-11) + 1.30866545657562e-10; a1 = Bass_R(Treble_R(Treble_Rpow(fs,3)(2.61579083895027e-19fs + 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs + 1.02457087614422e-15) - 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs - 5.34128096362661e-15) + 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(1.94416268896473e-20fs + 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs + 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs - 4.32504348038148e-16) + 3.98522373659879e-14)) + Treble_R(6.08067904846417e-19Treble_Rpow(fs,3) + fs(-8.51295066784983e-19pow(fs,2) - 6.21384528218315e-14)) + fs(-3.52281522311187e-18pow(fs,2) + 5.16835993122826e-13) + 4.187729461042e-12) + Treble_R(Treble_Rfs(8.18130326224871e-18pow(fs,2) - 6.5367111784465e-15) + fs(-7.3410535767349e-18pow(fs,2) - 5.11934826880362e-12) - 1.0469323652605e-10) + fs(-3.69264614765639e-17pow(fs,2) + 2.56555717446241e-11) + 5.2346618263025e-10; a2 = Bass_R(Treble_R(Treble_Rpow(fs,2)(-3.9236862584254e-19pow(fs,2) + 1.94513470289805e-16) + pow(fs,2)(3.52070936843408e-19pow(fs,2) + 1.37553528415101e-13)) + pow(fs,2)(1.77096294836582e-18pow(fs,2) - 7.58965187068638e-13) + 1.57039854789075e-10) + Middle_R(Bass_R(Treble_R(-2.9162440334471e-20Treble_Rpow(fs,4) + pow(fs,2)(4.08274164682594e-20pow(fs,2) + 9.9257445125026e-16)) + pow(fs,2)(1.68951342332916e-19pow(fs,2) - 8.76426088602715e-15)) + Treble_R(7.78053881159219e-18Treble_Rpow(fs,2) + 4.84537745171611e-15pow(fs,2)) - 2.70384366987801e-14pow(fs,2) + 6.281594191563e-12) + Treble_R(6.3993684773216e-16Treble_Rpow(fs,2) + 6.498119142819e-14pow(fs,2) - 1.57039854789075e-10) - 3.3066538877054e-13pow(fs,2) + 7.85199273945375e-10; a3 = Bass_R(Treble_R(Treble_Rpow(fs,3)(2.61579083895027e-19fs - 1.72651747077921e-17) + fs(pow(fs,2)(-2.34713957895606e-19fs - 1.02457087614422e-15) + 1.55221749291264e-12)) + fs(pow(fs,2)(-1.18064196557721e-18fs + 5.34128096362661e-15) - 1.29246313109701e-11) + 1.0469323652605e-10) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(1.94416268896473e-20fs - 1.24382763314569e-19) + pow(fs,3)(-2.72182776455063e-20fs - 7.73979554210525e-17)) + fs(pow(fs,2)(-1.12634228221944e-19fs + 4.32504348038148e-16) - 3.98522373659879e-14)) + Treble_R(-6.08067904846417e-19Treble_Rpow(fs,3) + fs(8.51295066784983e-19pow(fs,2) + 6.21384528218315e-14)) + fs(3.52281522311187e-18pow(fs,2) - 5.16835993122826e-13) + 4.187729461042e-12) + Treble_R(Treble_Rfs(-8.18130326224871e-18pow(fs,2) + 6.5367111784465e-15) + fs(7.3410535767349e-18pow(fs,2) + 5.11934826880362e-12) - 1.0469323652605e-10) + fs(3.69264614765639e-17pow(fs,2) - 2.56555717446241e-11) + 5.2346618263025e-10; a4 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(-6.53947709737567e-20fs + 8.63258735389604e-18) - 9.72567351449023e-17) + fs(fs(fs(5.86784894739014e-20fs + 5.12285438072112e-16) - 6.87767642075504e-14) + 7.76108746456321e-13)) + fs(fs(fs(2.95160491394304e-19fs - 2.67064048181331e-15) + 3.79482593534319e-13) - 6.46231565548504e-12) + 2.61733091315125e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(-4.86040672241183e-21fs + 6.21913816572845e-20) + pow(fs,2)(fs(6.80456941137657e-21fs + 3.86989777105262e-17) - 4.9628722562513e-16)) + fs(fs(fs(2.8158557055486e-20fs - 2.16252174019074e-16) + 4.38213044301358e-15) - 1.99261186829939e-14)) + Treble_R(Treble_Rpow(fs,2)(3.04033952423208e-19fs - 3.89026940579609e-18) + fs(fs(-4.25647533392492e-19fs - 2.42268872585805e-15) + 3.10692264109157e-14)) + fs(fs(-1.76140761155593e-18fs + 1.35192183493901e-14) - 2.58417996561413e-13) + 1.0469323652605e-12) + Treble_R(Treble_Rfs(fs(4.09065163112436e-18fs - 3.1996842386608e-16) + 3.26835558922325e-15) + fs(fs(-3.67052678836745e-18fs - 3.2490595714095e-14) + 2.55967413440181e-12) - 2.61733091315125e-11) + fs(fs(-1.8463230738282e-17fs + 1.6533269438527e-13) - 1.28277858723121e-11) + 1.30866545657562e-10; }; alembic_normclip = _<: ba.if(signbit(_), alembic_norm_neg_clip, alembic_norm_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_norm_clip = ffunction(float alembic_normclip(float), "alembic_norm_table.h", ""); alembic_norm_neg_clip = ffunction(float alembic_norm_negclip(float), "alembic_norm_neg_table.h", ""); }; bright_L = 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)) : alembic_briteclip 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 = _; Bass_L = vslider("Bass_L[name:Bass_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_L = vslider("Middle_L[name:Middle_L]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_L = vslider("Volume_L[name:Volume_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_L = vslider("Treble_L[name:Treble_L]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Lfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Lpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Lfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_L(Bass_L(Treble_Lpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_L(Bass_L(Treble_Lpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_L(Bass_Lpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Lfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_L(Bass_L(Treble_Lpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_L(Bass_Lpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Lpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_L(Treble_Lfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_L(Treble_Lpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_L(Treble_Lpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_L(Treble_Lfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_L(Treble_Lpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_L(Treble_L(Treble_Lpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_L(Treble_Lpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_L(Treble_Lfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_L(Bass_L(Treble_L(Treble_Lpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_L(Bass_L(Treble_L(Treble_Lpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_L(Treble_Lpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_L(Treble_Lpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_L(Bass_Lpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_L(Bass_Lpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; bright_R = 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)) : alembic_briteclip 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 = _; Bass_R = vslider("Bass_R[name:Bass_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Middle_R = vslider("Middle_R[name:Middle_R]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); Volume_R = vslider("Volume_R[name:Volume_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); Treble_R = vslider("Treble_R[name:Treble_R]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(6.91874396840722e-22fs + 2.88742248281528e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-6.91874396840722e-22fs - 3.00430509368582e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) - 1.63972596414378e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-9.68624155577011e-23fs - 9.59122413860399e-19) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs - 5.99684930400747e-17) - 1.44908038300355e-13) - 9.63390117586717e-13)) + Treble_Rfs(fs(fs(4.32789516321643e-20fs + 1.82089564663e-16) + 7.34564519198978e-15) + 4.08909217990967e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(6.91874396840722e-22fs + 1.21495106849477e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(9.68624155577011e-23fs + 5.55529015703311e-19) + 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(-4.32789516321643e-20fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs - 1.82089564663e-16) - 7.34564519198978e-15) - 4.08909217990967e-14)); b1 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-3.45937198420361e-21fs - 8.66226744844584e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(3.45937198420361e-21fs + 9.01291528105746e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) - 4.91917789243133e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(4.84312077788506e-22fs + 2.8773672415812e-18) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs + 5.99684930400747e-17) - 1.44908038300355e-13) - 2.89017035276015e-12)) + Treble_Rfs(fs(fs(-1.29836854896493e-19fs - 1.82089564663e-16) + 7.34564519198978e-15) + 1.2267276539729e-13) + Volume_R(Bass_R(Treble_Rpow(fs,4)(3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(-3.45937198420361e-21fs - 3.64485320548431e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-4.84312077788506e-22fs - 1.66658704710993e-18) - 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(1.29836854896493e-19fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs + 1.82089564663e-16) - 7.34564519198978e-15) - 1.2267276539729e-13)); b2 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(6.91874396840722e-21fs + 5.77484496563056e-18) - 3.84374664911509e-17) + fs(fs(fs(fs(-6.91874396840722e-21fs - 6.00861018737164e-18) + 2.19462035274078e-15) + 4.93354205544096e-12) - 3.27945192828755e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-9.68624155577011e-22fs - 1.9182448277208e-18) + 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs + 1.19936986080149e-16) + 2.8981607660071e-13) - 1.92678023517343e-12)) + Treble_Rfs(fs(fs(8.65579032643287e-20fs - 3.64179129326e-16) - 1.46912903839796e-14) + 8.17818435981933e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(6.91874396840722e-21fs + 2.42990213698954e-19) - 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(9.68624155577011e-22fs + 1.11105803140662e-18) - 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs - 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Rpow(fs,2)(fs(-8.65579032643287e-20fs + 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs - 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs + 3.64179129326e-16) + 1.46912903839796e-14) - 8.17818435981933e-14)); b3 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-6.91874396840722e-21fs + 5.77484496563056e-18) + 3.84374664911509e-17) + fs(fs(fs(fs(6.91874396840722e-21fs - 6.00861018737164e-18) - 2.19462035274078e-15) + 4.93354205544096e-12) + 3.27945192828755e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(9.68624155577011e-22fs - 1.9182448277208e-18) - 4.63680690774447e-15) + 3.0826848125903e-14) + fs(fs(fs(-1.2118106457006e-20fs - 1.19936986080149e-16) + 2.8981607660071e-13) + 1.92678023517343e-12)) + Treble_Rfs(fs(fs(8.65579032643287e-20fs + 3.64179129326e-16) - 1.46912903839796e-14) - 8.17818435981933e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(6.91874396840722e-21fs - 9.2249919578762e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-21fs + 2.42990213698954e-19) + 1.18216112899514e-15) - 7.87068462789012e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-9.68624155577011e-22fs + 1.11105803140662e-18) + 7.39844355021672e-18) + pow(fs,2)(fs(1.2118106457006e-20fs + 6.94448758426244e-17) - 4.62427256441624e-16)) + Treble_Rpow(fs,2)(fs(-8.65579032643287e-20fs - 3.52119905796384e-18) + 1.96276424635664e-17) + pow(fs,2)(fs(8.65579032643287e-20fs + 3.52119905796384e-18) - 1.96276424635664e-17)) + fs(fs(fs(-8.65579032643287e-20fs - 3.64179129326e-16) + 1.46912903839796e-14) + 8.17818435981933e-14)); b4 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(3.45937198420361e-21fs - 8.66226744844584e-18) + 1.92187332455754e-17) + fs(fs(fs(fs(-3.45937198420361e-21fs + 9.01291528105746e-18) - 1.09731017637039e-15) - 2.46677102772048e-12) + 4.91917789243133e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(-4.84312077788506e-22fs + 2.8773672415812e-18) - 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(1.8177159685509e-20fs - 5.99684930400747e-17) - 1.44908038300355e-13) + 2.89017035276015e-12)) + Treble_Rfs(fs(fs(-1.29836854896493e-19fs + 1.82089564663e-16) + 7.34564519198978e-15) - 1.2267276539729e-13) + Volume_R(Bass_R(Treble_Rpow(fs,4)(-3.45937198420361e-21fs + 1.38374879368143e-20) + pow(fs,2)(fs(fs(3.45937198420361e-21fs - 3.64485320548431e-19) + 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(4.84312077788506e-22fs - 1.66658704710993e-18) + 3.69922177510836e-18) + pow(fs,2)(fs(-1.8177159685509e-20fs + 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(1.29836854896493e-19fs - 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(-1.29836854896493e-19fs + 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(1.29836854896493e-19fs - 1.82089564663e-16) - 7.34564519198978e-15) + 1.2267276539729e-13)); b5 = Volume_R(Bass_R(Treble_Rpow(fs,3)(fs(-6.91874396840722e-22fs + 2.88742248281528e-18) - 1.92187332455754e-17) + fs(fs(fs(fs(6.91874396840722e-22fs - 3.00430509368582e-18) + 1.09731017637039e-15) - 2.46677102772048e-12) + 1.63972596414378e-11)) + Middle_R(Bass_Rpow(fs,2)(fs(fs(9.68624155577011e-23fs - 9.59122413860399e-19) + 2.31840345387224e-15) - 1.54134240629515e-14) + fs(fs(fs(-6.05905322850301e-21fs + 5.99684930400747e-17) - 1.44908038300355e-13) + 9.63390117586717e-13)) + Treble_Rfs(fs(fs(4.32789516321643e-20fs - 1.82089564663e-16) + 7.34564519198978e-15) - 4.08909217990967e-14) + Volume_R(Bass_R(Treble_Rpow(fs,4)(6.91874396840722e-22fs - 4.6124959789381e-21) + pow(fs,2)(fs(fs(-6.91874396840722e-22fs + 1.21495106849477e-19) - 5.91080564497569e-16) + 3.93534231394506e-15)) + Middle_R(Bass_Rpow(fs,3)(fs(-9.68624155577011e-23fs + 5.55529015703311e-19) - 3.69922177510836e-18) + pow(fs,2)(fs(6.05905322850301e-21fs - 3.47224379213122e-17) + 2.31213628220812e-16)) + Treble_Rpow(fs,2)(fs(-4.32789516321643e-20fs + 1.76059952898192e-18) - 9.8138212317832e-18) + pow(fs,2)(fs(4.32789516321643e-20fs - 1.76059952898192e-18) + 9.8138212317832e-18)) + fs(fs(fs(-4.32789516321643e-20fs + 1.82089564663e-16) - 7.34564519198978e-15) + 4.08909217990967e-14)); a0 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-3.83815344221861e-24fs - 1.64989702525133e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(3.44396099549798e-24fs - 1.57172472604439e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) - 1.89797543814532e-13)) + fs(fs(fs(fs(3.9419244672063e-25fs + 1.03020062404785e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) + 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-2.85267232541704e-25fs - 1.19226360837823e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(3.99374125558385e-25fs - 6.07263463953272e-22) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(5.51869425408882e-26fs + 1.04066508425183e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) + 4.87293617171206e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-1.78443758228215e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) - 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs + 6.50953455217104e-19) + 3.31397583073083e-15) + 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_R(Treble_Rfs(fs(fs(-2.40088747236654e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) - 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) - 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(3.83815344221861e-24fs + 5.06664243269087e-22) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-3.44396099549798e-24fs + 3.00670847416855e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(1.65351911090363e-23fs + 9.5068384229614e-20) + 1.02988983768651e-17) - 1.30486302011578e-17) - 1.53616507253908e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(-3.99374125558385e-25fs + 2.27132232044654e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-24fs + 5.65134377825805e-21) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(1.78443758228215e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs + 3.53068929659391e-19) - 5.29245486955245e-19) - 6.14466029015632e-17)) + Treble_R(Treble_Rpow(fs,2)(fs(2.40088747236654e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) + 1.53616507253908e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-1.6929383555757e-23fs - 1.25906879957409e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-1.59749650223354e-24fs - 9.17181360088287e-21) - 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) - 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) + 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) + 3.13857383051234e-12) + 3.20034390112309e-11; a1 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(1.91907672110931e-23fs + 4.94969107575399e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-1.72198049774899e-23fs + 4.71517417813316e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) - 5.69392631443596e-13)) + fs(fs(fs(fs(-1.97096223360315e-24fs - 3.09060187214354e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) + 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(1.42633616270852e-24fs + 3.5767908251347e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-1.99687062779193e-24fs + 1.82179039185982e-21) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-2.75934712704441e-25fs - 3.12199525275548e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) + 1.46188085151362e-14)) + Treble_R(Treble_Rpow(fs,2)(fs(5.35331274684644e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) - 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs - 6.50953455217104e-19) + 3.31397583073083e-15) + 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_R(Treble_Rfs(fs(fs(7.20266241709961e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) - 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) - 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-1.91907672110931e-23fs - 1.51999272980726e-21) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(1.72198049774899e-23fs - 9.02012542250564e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-8.26759555451817e-23fs - 2.85205152688842e-19) - 1.02988983768651e-17) - 1.30486302011578e-17) - 4.60849521761724e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(1.99687062779193e-24fs - 6.81396696133963e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-7.71154779846327e-24fs - 1.69540313347742e-20) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(-5.35331274684644e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs - 3.53068929659391e-19) - 5.29245486955245e-19) - 1.8433980870469e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(-7.20266241709961e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) + 4.60849521761724e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(8.46469177787849e-23fs + 3.77720639872226e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(7.98748251116771e-24fs + 2.75154408026486e-20) + 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) - 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) + 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) + 9.41572149153703e-12) + 1.60017195056154e-10; a2 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-3.83815344221861e-23fs - 3.29979405050266e-20) + 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(3.44396099549798e-23fs - 3.14344945208878e-20) + 2.58632337997126e-16) + 3.37298465005315e-14) - 3.79595087629064e-13)) + fs(fs(fs(fs(3.9419244672063e-24fs + 2.06040124809569e-19) - 1.31818517694201e-15) - 1.85997429130102e-13) + 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-2.85267232541704e-24fs - 2.38452721675646e-21) + 3.04178287872164e-20) + pow(fs,2)(fs(fs(3.99374125558385e-24fs - 1.21452692790654e-21) + 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(5.51869425408882e-25fs + 2.08133016850365e-20) - 1.06049227998976e-16) - 2.1456407474636e-15) + 9.74587234342413e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-3.56887516456429e-23fs + 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs + 7.62007492763576e-20) + 1.18858509076923e-15) - 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs - 1.30190691043421e-18) - 6.62795166146167e-15) + 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_R(Treble_Rfs(fs(fs(-4.80177494473307e-22fs + 2.03829876526765e-18) + 1.56880340297935e-16) - 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs + 2.01862334841852e-18) + 1.6191630090684e-14) - 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(3.83815344221861e-23fs + 1.01332848653817e-21) - 1.14163936129042e-20) + pow(fs,2)(fs(fs(-3.44396099549798e-23fs + 6.01341694833709e-20) - 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(1.65351911090363e-22fs + 1.90136768459228e-19) - 2.05977967537302e-17) + 2.60972604023156e-17) - 3.07233014507816e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(-3.99374125558385e-24fs + 4.54264464089309e-21) - 5.82562256932768e-20)) + pow(fs,2)(fs(fs(1.54230955969265e-23fs + 1.13026875565161e-20) + 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_R(Treble_Rpow(fs,3)(3.56887516456429e-23fs - 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs - 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs - 7.06137859318782e-19) + 1.05849097391049e-18) - 1.22893205803126e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(4.80177494473307e-22fs - 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs - 3.81387961202917e-18) - 3.00465040562453e-16) + 3.07233014507816e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-1.6929383555757e-22fs - 2.51813759914817e-19) + 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-1.59749650223354e-23fs - 1.83436272017657e-20) + 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs + 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs + 1.55559920878143e-17) + 1.20492938589323e-15) - 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs - 1.17045532708229e-17) - 9.04080692375347e-16) + 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs - 1.28818135416872e-17) - 8.11651441302083e-14) + 6.27714766102469e-12) + 3.20034390112308e-10; a3 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(3.83815344221861e-23fs - 3.29979405050266e-20) - 4.23361842085529e-18) + 4.75683067204341e-17) + fs(fs(fs(fs(-3.44396099549798e-23fs - 3.14344945208878e-20) - 2.58632337997126e-16) + 3.37298465005315e-14) + 3.79595087629064e-13)) + fs(fs(fs(fs(-3.9419244672063e-24fs + 2.06040124809569e-19) + 1.31818517694201e-15) - 1.85997429130102e-13) - 3.16379347433778e-12) + 6.40068780224617e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(2.85267232541704e-24fs - 2.38452721675646e-21) - 3.04178287872164e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-24fs - 1.21452692790654e-21) - 1.89859422294145e-17) + 2.42734273721987e-16)) + fs(fs(fs(fs(-5.51869425408882e-25fs + 2.08133016850365e-20) + 1.06049227998976e-16) - 2.1456407474636e-15) - 9.74587234342413e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-3.56887516456429e-23fs - 1.49159787601362e-19) + 1.90273226881736e-18) + fs(fs(fs(4.99642523039001e-23fs - 7.62007492763576e-20) + 1.18858509076923e-15) + 1.51959706366775e-14)) + fs(fs(fs(6.90423876894517e-24fs + 1.30190691043421e-18) - 6.62795166146167e-15) - 1.26515237578967e-13) + 2.56027512089847e-12) + Treble_R(Treble_Rfs(fs(fs(-4.80177494473307e-22fs - 2.03829876526765e-18) + 1.56880340297935e-16) + 1.5985539809452e-15) + fs(fs(fs(4.30861503266556e-22fs - 2.01862334841852e-18) + 1.6191630090684e-14) + 1.2550099991553e-12) - 6.40068780224617e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-3.83815344221861e-23fs + 1.01332848653817e-21) + 1.14163936129042e-20) + pow(fs,2)(fs(fs(3.44396099549798e-23fs + 6.01341694833709e-20) + 8.07329848308013e-18) - 9.11028210309754e-17)) + fs(fs(fs(fs(-1.65351911090363e-22fs + 1.90136768459228e-19) + 2.05977967537302e-17) + 2.60972604023156e-17) + 3.07233014507816e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-2.85267232541704e-24fs + 7.30027890893193e-24) + pow(fs,3)(fs(3.99374125558385e-24fs + 4.54264464089309e-21) + 5.82562256932768e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-23fs + 1.13026875565161e-20) - 4.60065223472111e-20) + 2.33900936242179e-18)) + Treble_R(Treble_Rpow(fs,3)(3.56887516456429e-23fs + 4.56655744516168e-22) + pow(fs,2)(fs(-4.99642523039001e-23fs + 2.84385133875941e-19) - 3.64703295280259e-18)) + fs(fs(fs(1.92952770446655e-22fs + 7.06137859318782e-19) + 1.05849097391049e-18) + 1.22893205803126e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(4.80177494473307e-22fs + 3.75592049622019e-20) - 3.83652955426848e-19) + fs(fs(fs(-4.30861503266556e-22fs + 3.81387961202917e-18) - 3.00465040562453e-16) - 3.07233014507816e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(1.6929383555757e-22fs - 2.51813759914817e-19) - 3.25715096523769e-17) + 3.66237907101966e-16) + Middle_R(Bass_Rpow(fs,3)(fs(1.59749650223354e-23fs - 1.83436272017657e-20) - 2.34192947398536e-19) + pow(fs,2)(fs(-1.998570092156e-22fs - 1.14653956981738e-18) + 1.46378358378244e-17)) + fs(fs(fs(-2.11797394272023e-21fs - 1.55559920878143e-17) + 1.20492938589323e-15) + 1.22893205803126e-14)) + fs(fs(fs(2.06865795151348e-21fs + 1.17045532708229e-17) - 9.04080692375347e-16) - 9.21699043523448e-15)) + fs(fs(fs(4.93159912067512e-23fs + 1.28818135416872e-17) - 8.11651441302083e-14) - 6.27714766102469e-12) + 3.20034390112308e-10; a4 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(-1.91907672110931e-23fs + 4.94969107575399e-20) - 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(1.72198049774899e-23fs + 4.71517417813316e-20) - 1.29316168998563e-16) - 1.68649232502658e-14) + 5.69392631443596e-13)) + fs(fs(fs(fs(1.97096223360315e-24fs - 3.09060187214354e-19) + 6.59092588471003e-16) + 9.2998714565051e-14) - 4.74569021150667e-12) + 3.20034390112309e-11) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-1.42633616270852e-24fs + 3.5767908251347e-21) - 1.52089143936082e-20) + pow(fs,2)(fs(fs(1.99687062779193e-24fs + 1.82179039185982e-21) - 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(2.75934712704441e-25fs - 3.12199525275548e-20) + 5.30246139994882e-17) + 1.0728203737318e-15) - 1.46188085151362e-14)) + Treble_R(Treble_Rpow(fs,2)(fs(5.35331274684644e-23fs - 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(-7.49463784558502e-23fs - 3.81003746381788e-20) - 5.94292545384613e-16) + 2.27939559550162e-14)) + fs(fs(fs(-1.03563581534178e-23fs + 6.50953455217104e-19) + 3.31397583073083e-15) - 1.8977285636845e-13) + 1.28013756044923e-12) + Treble_R(Treble_Rfs(fs(fs(7.20266241709961e-22fs - 1.01914938263382e-18) - 7.84401701489674e-17) + 2.3978309714178e-15) + fs(fs(fs(-6.46292254899834e-22fs - 1.00931167420926e-18) - 8.09581504534201e-15) + 1.88251499873295e-12) - 3.20034390112309e-11) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(1.91907672110931e-23fs - 1.51999272980726e-21) + 5.70819680645209e-21) + pow(fs,2)(fs(fs(-1.72198049774899e-23fs - 9.02012542250564e-20) + 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(8.26759555451817e-23fs - 2.85205152688842e-19) + 1.02988983768651e-17) - 1.30486302011578e-17) + 4.60849521761724e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(1.42633616270852e-24fs - 1.09504183633979e-23) + pow(fs,3)(fs(-1.99687062779193e-24fs - 6.81396696133963e-21) + 2.91281128466384e-20)) + pow(fs,2)(fs(fs(7.71154779846327e-24fs - 1.69540313347742e-20) - 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(-5.35331274684644e-23fs + 2.28327872258084e-22) + pow(fs,2)(fs(7.49463784558502e-23fs + 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(-2.89429155669983e-22fs + 3.53068929659391e-19) - 5.29245486955245e-19) + 1.8433980870469e-16)) + Treble_R(Treble_Rpow(fs,2)(fs(-7.20266241709961e-22fs + 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(6.46292254899834e-22fs + 1.90693980601459e-18) + 1.50232520281226e-16) - 4.60849521761724e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(-8.46469177787849e-23fs + 3.77720639872226e-19) - 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(-7.98748251116771e-24fs + 2.75154408026486e-20) - 1.17096473699268e-19) + pow(fs,2)(fs(2.99785513823401e-22fs - 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(3.17696091408035e-21fs - 7.77799604390716e-18) - 6.02464692946613e-16) + 1.8433980870469e-14)) + fs(fs(fs(-3.10298692727022e-21fs + 5.85227663541147e-18) + 4.52040346187673e-16) - 1.38254856528517e-14)) + fs(fs(fs(-7.39739868101268e-23fs + 6.44090677084358e-18) + 4.05825720651041e-14) - 9.41572149153703e-12) + 1.60017195056154e-10; a5 = Bass_R(Treble_R(Treble_Rpow(fs,2)(fs(fs(3.83815344221861e-24fs - 1.64989702525133e-20) + 2.11680921042765e-18) - 2.37841533602171e-17) + fs(fs(fs(fs(-3.44396099549798e-24fs - 1.57172472604439e-20) + 1.29316168998563e-16) - 1.68649232502658e-14) + 1.89797543814532e-13)) + fs(fs(fs(fs(-3.9419244672063e-25fs + 1.03020062404785e-19) - 6.59092588471003e-16) + 9.2998714565051e-14) - 1.58189673716889e-12) + 6.40068780224617e-12) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(2.85267232541704e-25fs - 1.19226360837823e-21) + 1.52089143936082e-20) + pow(fs,2)(fs(fs(-3.99374125558385e-25fs - 6.07263463953272e-22) + 9.49297111470724e-18) - 1.21367136860993e-16)) + fs(fs(fs(fs(-5.51869425408882e-26fs + 1.04066508425183e-20) - 5.30246139994882e-17) + 1.0728203737318e-15) - 4.87293617171206e-15)) + Treble_R(Treble_Rpow(fs,2)(fs(-1.78443758228215e-23fs + 7.45798938006809e-20) - 9.51366134408682e-19) + fs(fs(fs(2.49821261519501e-23fs + 3.81003746381788e-20) - 5.94292545384613e-16) + 7.59798531833873e-15)) + fs(fs(fs(3.45211938447258e-24fs - 6.50953455217104e-19) + 3.31397583073083e-15) - 6.32576187894833e-14) + 2.56027512089847e-13) + Treble_R(Treble_Rfs(fs(fs(-2.40088747236654e-22fs + 1.01914938263382e-18) - 7.84401701489674e-17) + 7.99276990472601e-16) + fs(fs(fs(2.15430751633278e-22fs + 1.00931167420926e-18) - 8.09581504534201e-15) + 6.27504999577649e-13) - 6.40068780224617e-12) + Volume_R(Bass_R(Treble_R(Treble_Rpow(fs,3)(fs(-3.83815344221861e-24fs + 5.06664243269087e-22) - 5.70819680645209e-21) + pow(fs,2)(fs(fs(3.44396099549798e-24fs + 3.00670847416855e-20) - 4.03664924154006e-18) + 4.55514105154877e-17)) + fs(fs(fs(fs(-1.65351911090363e-23fs + 9.5068384229614e-20) - 1.02988983768651e-17) - 1.30486302011578e-17) + 1.53616507253908e-15)) + Middle_R(Bass_R(Treble_R(Treble_Rpow(fs,4)(-2.85267232541704e-25fs + 3.65013945446597e-24) + pow(fs,3)(fs(3.99374125558385e-25fs + 2.27132232044654e-21) - 2.91281128466384e-20)) + pow(fs,2)(fs(fs(-1.54230955969265e-24fs + 5.65134377825805e-21) + 2.30032611736055e-20) - 1.1695046812109e-18)) + Treble_R(Treble_Rpow(fs,3)(1.78443758228215e-23fs - 2.28327872258084e-22) + pow(fs,2)(fs(-2.49821261519501e-23fs - 1.42192566937971e-19) + 1.82351647640129e-18)) + fs(fs(fs(9.64763852233277e-23fs - 3.53068929659391e-19) - 5.29245486955245e-19) + 6.14466029015632e-17)) + Treble_R(Treble_Rpow(fs,2)(fs(2.40088747236654e-22fs - 1.8779602481101e-20) + 1.91826477713424e-19) + fs(fs(fs(-2.15430751633278e-22fs - 1.90693980601459e-18) + 1.50232520281226e-16) - 1.53616507253908e-15)) + Volume_R(Bass_Rpow(fs,2)(fs(fs(1.6929383555757e-23fs - 1.25906879957409e-19) + 1.62857548261884e-17) - 1.83118953550983e-16) + Middle_R(Bass_Rpow(fs,3)(fs(1.59749650223354e-24fs - 9.17181360088287e-21) + 1.17096473699268e-19) + pow(fs,2)(fs(-9.99285046078002e-23fs + 5.73269784908691e-19) - 7.31891791891218e-18)) + fs(fs(fs(-1.05898697136012e-21fs + 7.77799604390716e-18) - 6.02464692946613e-16) + 6.14466029015632e-15)) + fs(fs(fs(1.03432897575674e-21fs - 5.85227663541147e-18) + 4.52040346187673e-16) - 4.60849521761724e-15)) + fs(fs(fs(2.46579956033756e-23fs - 6.44090677084358e-18) + 4.05825720651041e-14) - 3.13857383051234e-12) + 3.20034390112309e-11; }; alembic_briteclip = _<: ba.if(signbit(_), alembic_brite_neg_clip, alembic_brite_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_brite_clip = ffunction(float alembic_briteclip(float), "alembic_brite_table.h", ""); alembic_brite_neg_clip = ffunction(float alembic_brite_negclip(float), "alembic_brite_neg_table.h", ""); }; output_L = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_L = vslider("Master_L[name:Master_L]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Lfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Lpow(fs,2); b2 = Master_Lfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; output_R = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) : alembic_outclip 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 = _; Master_R = vslider("Master_R[name:Master_R]", 0.5, 0, 1, 0.01) : Inverted(0) : LogPot(3) : si.smooth(s); b0 = Master_Rfs(-2.54284690253705e-8fs - 1.69523126835804e-7); b1 = 5.0856938050741e-8Master_Rpow(fs,2); b2 = Master_Rfs(-2.54284690253705e-8fs + 1.69523126835804e-7); a0 = fs(4.33864919358014e-10fs + 7.81664517527894e-9) + 2.68307231780644e-8; a1 = -8.67729838716027e-10pow(fs,2) + 5.36614463561288e-8; a2 = fs(4.33864919358014e-10*fs - 7.81664517527894e-9) + 2.68307231780644e-8; }; alembic_outclip = _<: ba.if(signbit(_), alembic_out_neg_clip, alembic_out_clip) :>_ with { signbit = ffunction(int signbit(float), "math.h", ""); alembic_out_clip = ffunction(float alembic_outclip(float), "alembic_out_table.h", ""); alembic_out_neg_clip = ffunction(float alembic_out_negclip(float), "alembic_out_neg_table.h", ""); }; briteswitch_L = _<:bright_L,normal_L:select2( checkbox("bright_L" )); briteswitch_R = _<:bright_R,normal_R:select2( checkbox("bright_R" )); amp_L = briteswitch_L:output_L; amp_R = briteswitch_R:output_R; freq_split = fi.filterbank(3, (86.0,210.0,1200.0,6531.0)); channel_L = freq_split: ( amp_L , amp_L , amp_L, amp_L, amp_L) :>_; channel_R = freq_split: ( amp_R , amp_R , amp_R, amp_R, amp_R) :>_; process = channel_L, channel_R ;
9422c62f5ff3f176bd921458f12d0e944b45fa2a955bc30870a8212932ab6004	angelamurtas/Programmazione-	bancoscillatori.dsp	import("stdfaust.lib"); fader1 =vslider("[01] volume1" , 0., 0., 1., 0.01); fader2 =vslider("[02] volume2" , 0., 0., 1., 0.01); fader3 =vslider("[03] volume3" , 0., 0., 1., 0.01); fader4 =vslider("[04] volume4" , 0., 0., 1., 0.01); fader5 =vslider("[05] volume5" , 0., 0., 1., 0.01); fader6 =vslider("[06] volume6" , 0., 0., 1., 0.01); fader7 =vslider("[07] volume7" , 0., 0., 1., 0.01); fader8 =vslider("[08] volume8" , 0., 0., 1., 0.01); fader9 =vslider("[09] volume9" , 0., 0., 1., 0.01); fader10 =vslider("[10] volume10" , 0., 0., 1., 0.01); fader11 =vslider("[11] volume11" , 0., 0., 1., 0.01); fader12 =vslider("[12] volume12" , 0., 0., 1., 0.01); fader13 =vslider("[13] volume13" , 0., 0., 1., 0.01); fader14 =vslider("[14] volume14" , 0., 0., 1., 0.01); fader15 =vslider("[15] volume15" , 0., 0., 1., 0.01); fader16 =vslider("[16] volume16" , 0., 0., 1., 0.01); f1=440; osc1=os.osc(f11); osc2=os.osc(f12); osc3=os.osc(f13); osc4=os.osc(f14); osc5=os.osc(f15); osc6=os.osc(f16); osc7=os.osc(f17); osc8=os.osc(f18); osc9=os.osc(f19); osc10=os.osc(f110); osc11=os.osc(f111); osc12=os.osc(f112); osc13=os.osc(f113); osc14=os.osc(f114); osc15=os.osc(f115); osc16=os.osc(f116); process = hgroup("mixer",osc1(fader1),osc2 (fader2),osc3 (fader3), osc4 (fader4),osc5 (fader5),osc6 (fader6),osc7 (fader7),osc8 (fader8),osc9 (fader9),osc10 (fader10),osc11 (fader11),osc12 (fader12),osc13 (fader13),osc14 (fader14),osc15 (fader15),osc16 (fader16) ) : +,+,+,+,+,+,+,+ : +,+,+,+ : +,+;	https://raw.githubusercontent.com/angelamurtas/Programmazione-/bf8cf329460acf7334c7c4c11953ddcdf6d7e612/bancoscillatori.dsp	faust		import("stdfaust.lib"); fader1 =vslider("[01] volume1" , 0., 0., 1., 0.01); fader2 =vslider("[02] volume2" , 0., 0., 1., 0.01); fader3 =vslider("[03] volume3" , 0., 0., 1., 0.01); fader4 =vslider("[04] volume4" , 0., 0., 1., 0.01); fader5 =vslider("[05] volume5" , 0., 0., 1., 0.01); fader6 =vslider("[06] volume6" , 0., 0., 1., 0.01); fader7 =vslider("[07] volume7" , 0., 0., 1., 0.01); fader8 =vslider("[08] volume8" , 0., 0., 1., 0.01); fader9 =vslider("[09] volume9" , 0., 0., 1., 0.01); fader10 =vslider("[10] volume10" , 0., 0., 1., 0.01); fader11 =vslider("[11] volume11" , 0., 0., 1., 0.01); fader12 =vslider("[12] volume12" , 0., 0., 1., 0.01); fader13 =vslider("[13] volume13" , 0., 0., 1., 0.01); fader14 =vslider("[14] volume14" , 0., 0., 1., 0.01); fader15 =vslider("[15] volume15" , 0., 0., 1., 0.01); fader16 =vslider("[16] volume16" , 0., 0., 1., 0.01); f1=440; osc1=os.osc(f11); osc2=os.osc(f12); osc3=os.osc(f13); osc4=os.osc(f14); osc5=os.osc(f15); osc6=os.osc(f16); osc7=os.osc(f17); osc8=os.osc(f18); osc9=os.osc(f19); osc10=os.osc(f110); osc11=os.osc(f111); osc12=os.osc(f112); osc13=os.osc(f113); osc14=os.osc(f114); osc15=os.osc(f115); osc16=os.osc(f116); process = hgroup("mixer",osc1(fader1),osc2 (fader2),osc3 (fader3), osc4 (fader4),osc5 (fader5),osc6 (fader6),osc7 (fader7),osc8 (fader8),osc9 (fader9),osc10 (fader10),osc11 (fader11),osc12 (fader12),osc13 (fader13),osc14 (fader14),osc15 (fader15),osc16 (fader16) ) : +,+,+,+,+,+,+,+ : +,+,+,+ : +,+;
82659272690424cf45520588f681ee6c05deb98b4b8465574f3e40e685e3989b	darkoverlordofdata/amp-sim-faust	amplifier.dsp	import("stdfaust.lib"); import("layout2.dsp"); // Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp // Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) // Distortion parameters pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); // Output parameters plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); // A fairly standard wave shaping curve; we use this to shape the input signal // before modulating the filter coefficients by this signal. Which shaping curve // we use here is pretty unimportant; as long as we can introduce higher harmonics, // the coefficient modulation will react. Which harmonics we introduce here seems // to affect the resulting sound pretty minimally. // // Also note here that we use an approximation of the `tanh` function for computational // improvement. See `http://www.musicdsp.org/showone.php?id=238`. tanh(x) = x * (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); // The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger // near +/-1.0 for very long. We therefore clamp the driven signal with a tanh // function to ensure smooth coefficient calculation. We also here introduce // a modulated DC offset in the signal before the curve. drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; // Our modulated filter is an allpass with coefficients governed by the input // signal applied through our wave shaper. Before the filter, we mix the dry // input signal with the raw waveshaper output according to the `psat` parameter. // Note the constant gain coefficient on the waveshaper; that number is to offset // the global gain from the waveshaper to make sure the shaping process stays // under unity gain. The maximum differential gain of the waveshaper can be found // by evaluating the derivative of the transfer function at x0 where x0 is the // steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; // A fork of the `tf2s` function from the standard filter library which uses a // smoothing function after the `tan` computation to move that expensive call // outside of the inner loop of the filter function. tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { c = 1/tan(w10.5/ma.SR) : si.smooth(0.995); // bilinear-transform scale-factor csq = cc; d = a0 + a1 * c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; // A fork of the `resonlp` function from the standard filter library which uses // a local `tf2s` implementation. resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence = fi.peak_eq(p1gain, 2000, 1000) : fi.peak_eq(p1gain, 4000, 1000); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; // Our main processing block. main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { // This explicit gain multiplier of 4.0 accounts for the loss of gain that // occurs from oversampling by a factor of 2, and for the loss of gain that // occurs from the prefilter and modulation step. Then we apply the output // level parameter. gain = (4.0) : *(plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; // And the overall process declaration. poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp)); process = finalPWAMono; //, finalPWAMono;	https://raw.githubusercontent.com/darkoverlordofdata/amp-sim-faust/91696611bc64e94c5767a43aaa0478f260ca43a3/src/amplifier.dsp	faust	Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) Distortion parameters Output parameters A fairly standard wave shaping curve; we use this to shape the input signal before modulating the filter coefficients by this signal. Which shaping curve we use here is pretty unimportant; as long as we can introduce higher harmonics, the coefficient modulation will react. Which harmonics we introduce here seems to affect the resulting sound pretty minimally. Also note here that we use an approximation of the `tanh` function for computational improvement. See `http://www.musicdsp.org/showone.php?id=238`. The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger near +/-1.0 for very long. We therefore clamp the driven signal with a tanh function to ensure smooth coefficient calculation. We also here introduce a modulated DC offset in the signal before the curve. Our modulated filter is an allpass with coefficients governed by the input signal applied through our wave shaper. Before the filter, we mix the dry input signal with the raw waveshaper output according to the `psat` parameter. Note the constant gain coefficient on the waveshaper; that number is to offset the global gain from the waveshaper to make sure the shaping process stays under unity gain. The maximum differential gain of the waveshaper can be found by evaluating the derivative of the transfer function at x0 where x0 is the steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. A fork of the `tf2s` function from the standard filter library which uses a smoothing function after the `tan` computation to move that expensive call outside of the inner loop of the filter function. bilinear-transform scale-factor A fork of the `resonlp` function from the standard filter library which uses a local `tf2s` implementation. Our main processing block. This explicit gain multiplier of 4.0 accounts for the loss of gain that occurs from oversampling by a factor of 2, and for the loss of gain that occurs from the prefilter and modulation step. Then we apply the output level parameter. And the overall process declaration. , finalPWAMono;	import("stdfaust.lib"); import("layout2.dsp"); pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); tanh(x) = x * (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { csq = cc; d = a0 + a1 c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence = fi.peak_eq(p1gain, 2000, 1000) : fi.peak_eq(p1gain, 4000, 1000); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { gain = (4.0) : *(plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp));
f810cd7bb585c818ca02342a98560470212b746eb86f5b1b2255c3e0ca3bfd54	darkoverlordofdata/amp-sim-faust	amplifier.dsp	declare name "amp-sim"; declare version "0.1"; declare author "darkoverlordofdata"; declare description "Amplifier demo application."; declare license "MIT"; declare copyright "(c)DarkOverlordOfData 2021"; import("stdfaust.lib"); import("../layout2.dsp"); // Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp // Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) // Distortion parameters pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); // Output parameters plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); // A fairly standard wave shaping curve; we use this to shape the input signal // before modulating the filter coefficients by this signal. Which shaping curve // we use here is pretty unimportant; as long as we can introduce higher harmonics, // the coefficient modulation will react. Which harmonics we introduce here seems // to affect the resulting sound pretty minimally. // // Also note here that we use an approximation of the `tanh` function for computational // improvement. See `http://www.musicdsp.org/showone.php?id=238`. tanh(x) = x * (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); // The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger // near +/-1.0 for very long. We therefore clamp the driven signal with a tanh // function to ensure smooth coefficient calculation. We also here introduce // a modulated DC offset in the signal before the curve. drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; // Our modulated filter is an allpass with coefficients governed by the input // signal applied through our wave shaper. Before the filter, we mix the dry // input signal with the raw waveshaper output according to the `psat` parameter. // Note the constant gain coefficient on the waveshaper; that number is to offset // the global gain from the waveshaper to make sure the shaping process stays // under unity gain. The maximum differential gain of the waveshaper can be found // by evaluating the derivative of the transfer function at x0 where x0 is the // steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; // A fork of the `tf2s` function from the standard filter library which uses a // smoothing function after the `tan` computation to move that expensive call // outside of the inner loop of the filter function. tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { c = 1/tan(w10.5/ma.SR) : si.smooth(0.995); // bilinear-transform scale-factor csq = cc; d = a0 + a1 * c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; // A fork of the `resonlp` function from the standard filter library which uses // a local `tf2s` implementation. resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence = fi.peak_eq(p1gain, 2000, 1000) : fi.peak_eq(p1gain, 4000, 1000); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; // Our main processing block. main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { // This explicit gain multiplier of 4.0 accounts for the loss of gain that // occurs from oversampling by a factor of 2, and for the loss of gain that // occurs from the prefilter and modulation step. Then we apply the output // level parameter. gain = (4.0) : *(plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; // And the overall process declaration. poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp)); process = finalPWAMono; //, finalPWAMono;	https://raw.githubusercontent.com/darkoverlordofdata/amp-sim-faust/df478c01ed3763795c11779faa47a4b9d0f6de37/src/guitar/amplifier.dsp	faust	Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) Distortion parameters Output parameters A fairly standard wave shaping curve; we use this to shape the input signal before modulating the filter coefficients by this signal. Which shaping curve we use here is pretty unimportant; as long as we can introduce higher harmonics, the coefficient modulation will react. Which harmonics we introduce here seems to affect the resulting sound pretty minimally. Also note here that we use an approximation of the `tanh` function for computational improvement. See `http://www.musicdsp.org/showone.php?id=238`. The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger near +/-1.0 for very long. We therefore clamp the driven signal with a tanh function to ensure smooth coefficient calculation. We also here introduce a modulated DC offset in the signal before the curve. Our modulated filter is an allpass with coefficients governed by the input signal applied through our wave shaper. Before the filter, we mix the dry input signal with the raw waveshaper output according to the `psat` parameter. Note the constant gain coefficient on the waveshaper; that number is to offset the global gain from the waveshaper to make sure the shaping process stays under unity gain. The maximum differential gain of the waveshaper can be found by evaluating the derivative of the transfer function at x0 where x0 is the steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. A fork of the `tf2s` function from the standard filter library which uses a smoothing function after the `tan` computation to move that expensive call outside of the inner loop of the filter function. bilinear-transform scale-factor A fork of the `resonlp` function from the standard filter library which uses a local `tf2s` implementation. Our main processing block. This explicit gain multiplier of 4.0 accounts for the loss of gain that occurs from oversampling by a factor of 2, and for the loss of gain that occurs from the prefilter and modulation step. Then we apply the output level parameter. And the overall process declaration. , finalPWAMono;	declare name "amp-sim"; declare version "0.1"; declare author "darkoverlordofdata"; declare description "Amplifier demo application."; declare license "MIT"; declare copyright "(c)DarkOverlordOfData 2021"; import("stdfaust.lib"); import("../layout2.dsp"); pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); tanh(x) = x * (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { csq = cc; d = a0 + a1 c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence = fi.peak_eq(p1gain, 2000, 1000) : fi.peak_eq(p1gain, 4000, 1000); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { gain = (4.0) : *(plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp));
6d5bb66c122c4885ddcfd6724e7716c2289917dfe3397524e9adfa5ee57fabaf	darkoverlordofdata/amp-sim-faust	amp_sim_browser.dsp	declare name "amp-sim"; declare version "0.1"; declare author "darkoverlordofdata"; declare description "Amplifier demo application."; declare license "MIT"; declare copyright "(c)DarkOverlordOfData 2021"; import("stdfaust.lib"); wa = library("webaudio.lib"); process = _,_ : + // : component_echo : component_amp : component_flanger : component_chorus : component_phaser : component_freeverb; /** * component_amp * * based on https://github.com/micbuffa/FaustPowerAmp / component_amp = environment { // Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp // Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) // Distortion parameters pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); // Output parameters plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); // A fairly standard wave shaping curve; we use this to shape the input signal // before modulating the filter coefficients by this signal. Which shaping curve // we use here is pretty unimportant; as long as we can introduce higher harmonics, // the coefficient modulation will react. Which harmonics we introduce here seems // to affect the resulting sound pretty minimally. // // Also note here that we use an approximation of the `tanh` function for computational // improvement. See `http://www.musicdsp.org/showone.php?id=238`. tanh(x) = x (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); // The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger // near +/-1.0 for very long. We therefore clamp the driven signal with a tanh // function to ensure smooth coefficient calculation. We also here introduce // a modulated DC offset in the signal before the curve. drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; // Our modulated filter is an allpass with coefficients governed by the input // signal applied through our wave shaper. Before the filter, we mix the dry // input signal with the raw waveshaper output according to the `psat` parameter. // Note the constant gain coefficient on the waveshaper; that number is to offset // the global gain from the waveshaper to make sure the shaping process stays // under unity gain. The maximum differential gain of the waveshaper can be found // by evaluating the derivative of the transfer function at x0 where x0 is the // steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; // A fork of the `tf2s` function from the standard filter library which uses a // smoothing function after the `tan` computation to move that expensive call // outside of the inner loop of the filter function. tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { c = 1/tan(w10.5/ma.SR) : si.smooth(0.995); // bilinear-transform scale-factor csq = cc; d = a0 + a1 * c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; // A fork of the `resonlp` function from the standard filter library which uses // a local `tf2s` implementation. resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence =wa.peaking2(2000, p1gain, 1, 1) : wa.peaking2(4000, p1gain, 1, 1); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; // Our main processing block. main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { // This explicit gain multiplier of 4.0 accounts for the loss of gain that // occurs from oversampling by a factor of 2, and for the loss of gain that // occurs from the prefilter and modulation step. Then we apply the output // level parameter. gain = (4.0) : (plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; // And the overall process declaration. poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST / WebAudio",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp)); amp_process = finalPWAMono;//, finalPWAMono; }.amp_process; /* * component_phaser * * just a wrapper for dm.phaser2_demo / component_phaser = environment { phaser_process = dm.phaser2_demo; }.phaser_process; /* * component_echo * * echo effect (unused) / component_echo = environment { echo_group(x) = x; // Let layout2.dsp lay us out knobs_group(x) = ekg(x); switches_group(x) = esg(x); dmax = 32768; // one and done dmaxs = float(dmax)/44100.0; Nnines = 1.8; // Increase until you get the desired maximum amount of smoothing when fbs==1 //fastpow2 = ffunction(float fastpow2(float), "fast_pow2.h", ""); fbspr(fbs) = 1.0 - pow(2.0, -3.33219Nninesfbs); // pole radius of feedback smoother inputSelect(gi) = _,0 : select2(gi); echo_mono(dmax,curdel,tapdel,fb,fbspr,gi) = inputSelect(gi) : (+:si.smooth(fbspr) <: de.fdelay(dmax,curdel), de.fdelay(dmax,tapdel)) ~((fb),!) : !,_; tau2pole(tau) = ba.if(tau>0, exp(-1.0/(tauma.SR)), 0.0); t60smoother(dEchoT60) = si.smooth(tau2pole(dEchoT60/6.91)); dEchoT60 = knobs_group(vslider("[1] DelayT60 [midi:ctrl 60] [style:knob]", 0.5, 0, 100, 0.001)); dEchoSamplesRaw = knobs_group(vslider("[0] Delay [midi:ctrl 61] [style:knob]", 0.5, 0.001, (dmaxs-0.001), 0.001)) ma.SR; dEchoSamples = dEchoSamplesRaw : t60smoother(dEchoT60); warpRaw = knobs_group(vslider("[0] Warp [midi:ctrl 62] [style:knob]", 0, -1.0, 1.0, 0.001)); scrubAmpRaw = 0; scrubPhaseRaw = 0; fb = knobs_group(vslider("[2] Feedback [midi:ctrl 2] [style:knob]", .3, 0.0, 1.0, 0.0001)); amp = knobs_group(vslider("[3] Amp [midi:ctrl 75] [style:knob]", .5, 0, 1, 0.001)) : si.smooth(ba.tau2pole(ampT60/6.91)); ampT60 = 0.15661; fbs = knobs_group(vslider("[5] [midi:ctrl 76] FeedbackSm [style:knob]", 0, 0, 1, 0.00001)); gi = switches_group(1-vslider("[7] [midi:ctrl 105] EnableEcho[style:knob]",0,0,1,1)); // "ground input" switches input to zeros // Warp and Scrubber stuff: enableEcho = (scrubAmpRaw > 0.00001); triggerScrubOn = (enableEcho - enableEcho') > 0; // enableEcho went 0 to 1 triggerScrubOff = (enableEcho - enableEcho') < 0; // enableEcho went 1 to 0 // Ramps up only during scrub "hold" time and is otherwise zero: counter = (enableEcho * (triggerScrubOn : + ~ +(1) * enableEcho : -(2))) & (dmax-1); // implementation that continues scrubbing where it left off: scrubPhase = scrubPhaseRaw : t60smoother(dEchoT60(1-triggerScrubOff)); scrubAmp = scrubAmpRaw : t60smoother(dEchoT60(1-triggerScrubOff)); warp = warpRaw : t60smoother(dEchoT60); dTapSamplesRaw = dEchoSamplesRaw * (1.0 + warp + scrubPhase * scrubAmp) + float(counter); dTapSamples = dTapSamplesRaw : t60smoother(dEchoT60(1-triggerScrubOff)); echo_process = _ <: _, amp echo_mono(dmax,dEchoSamples,dTapSamples,fb,fbspr(fbs),gi) : +; }.echo_process; /** * component_flanger * * flange effect / component_flanger = environment { // Created from flange.dsp 2015/06/21 flanger_mono(dmax,curdel,depth,fb,invert,lfoshape) = _ <: _, (-:de.fdelay(dmax,curdel)) ~ (fb) : _, (select2(invert,depth,0-depth)) : + : (1/(1+depth)); // ideal for dc and reinforced sinusoids (in-phase summed signals) flanger_process = ba.bypass1(fbp,flanger_mono_gui); // Kill the groups to save vertical space: meter_group(x) = flsg(x); ctl_group(x) = flkg(x); del_group(x) = flkg(x); lvl_group(x) = flkf(x); flangeview = lfo(freq); flanger_mono_gui = attach(flangeview) : flanger_mono(dmax,curdel,depth,fb,invert,lfoshape); sinlfo(freq) = (1 + os.oscrs(freq))/2; trilfo(freq) = 1.0-abs(os.saw1(freq)); lfo(f) = (lfoshape * trilfo(f)) + ((1-lfoshape) * sinlfo(f)); dmax = 2048; odflange = 44; // ~1 ms at 44.1 kHz = min delay dflange = ((dmax-1)-odflange)del_group(vslider("[1] Delay [midi:ctrl 50][style:knob]", 0.22, 0, 1, 1)); freq = ctl_group(vslider("[1] Rate [midi:ctrl 51] [unit:Hz] [style:knob]", 0.5, 0, 10, 0.01)) : si.smooth(ba.tau2pole(freqT60/6.91)); freqT60 = 0.15661; depth = ctl_group(vslider("[3] Depth [midi:ctrl 52] [style:knob]", .75, 0, 1, 0.001)) : si.smooth(ba.tau2pole(depthT60/6.91)); depthT60 = 0.15661; fb = ctl_group(vslider("[5] Feedback [midi:ctrl 53] [style:knob]", 0, -0.995, 0.99, 0.001)) : si.smooth(ba.tau2pole(fbT60/6.91)); fbT60 = 0.15661; lfoshape = ctl_group(vslider("[7] Waveshape [midi:ctrl 54] [style:knob]", 0, 0, 1, 0.001)); curdel = odflange+dflangelfo(freq); fbp = 1-int(flsg(vslider("[0] Enable [midi:ctrl 102][style:knob]",0,0,1,1))); invert = flsg(vslider("[1] Invert [midi:ctrl 49][style:knob]",0,0,1,1):int); }.flanger_process; component_chorus = environment { voices = 8; // MUST BE EVEN chorus_process = ba.bypass1to2(cbp,chorus_mono(dmax,curdel,rate,sigma,do2,voices)); dmax = 8192; curdel = dmax * ckg(vslider("[0] Delay [midi:ctrl 55] [style:knob]", 0.5, 0, 1, 1)) : si.smooth(0.999); rateMax = 7.0; // Hz rateMin = 0.01; rateT60 = 0.15661; rate = ckg(vslider("[1] Rate [midi:ctrl 56] [unit:Hz] [style:knob]", 0.5, rateMin, rateMax, 0.0001)) : si.smooth(ba.tau2pole(rateT60/6.91)); depth = ckg(vslider("[4] Depth [midi:ctrl 57] [style:knob]", 0.5, 0, 1, 0.001)) : si.smooth(ba.tau2pole(depthT60/6.91)); depthT60 = 0.15661; delayPerVoice = 0.5curdel/voices; sigma = delayPerVoice ckg(vslider("[6] Deviation [midi:ctrl 58] [style:knob]",0.5,0,1,0.001)) : si.smooth(0.999); periodic = 1; do2 = depth; // use when depth=1 means "multivibrato" effect (no original => all are modulated) cbp = 1-int(csg(vslider("[0] Enable [midi:ctrl 103][style:knob]",0,0,1,1))); chorus_mono(dmax,curdel,rate,sigma,do2,voices) = _ <: ((1-do2)<:_,_),((do2) <: par(i,voices,voice(i)) :> _,_) : ro.interleave(2,2) : +,+ with { angle(i) = 2ma.PI(i/2)/voices + (i%2)ma.PI/2; voice(i) = de.fdelay(dmax,min(dmax,del(i))) cos(angle(i)); del(i) = curdel(i+1)/voices + dev(i); rates(i) = rate/float(i+1); dev(i) = sigma os.oscp(rates(i),i2ma.PI/voices); }; }.chorus_process; /** * component_freeverb * * reverb effect / component_freeverb = environment { import("stdfaust.lib"); declare name "freeverb"; declare version "1.0"; declare author "Grame"; declare license "BSD"; declare copyright "(c) GRAME 2006 and MoForte Inc. 2017"; declare reference "https://ccrma.stanford.edu/~jos/pasp/Freeverb.html"; //====================================================== // // Freeverb // Faster version using fixed delays (20% gain) // //====================================================== // Constant Parameters //-------------------- fixedgain = 0.015; //value of the gain of fxctrl scalewet = 3.0; scaledry = 2.0; scaledamp = 0.4; scaleroom = 0.28; offsetroom = 0.7; initialroom = 0.5; initialdamp = 0.5; initialwet = 1.0/scalewet; initialdry = 0; initialwidth= 1.0; initialmode = 0.0; freezemode = 0.5; stereospread= 23; allpassfeed = 0.5; //feedback of the delays used in allpass filters // Filter Parameters //------------------ combtuningL1 = 1116; combtuningL2 = 1188; combtuningL3 = 1277; combtuningL4 = 1356; combtuningL5 = 1422; combtuningL6 = 1491; combtuningL7 = 1557; combtuningL8 = 1617; allpasstuningL1 = 556; allpasstuningL2 = 441; allpasstuningL3 = 341; allpasstuningL4 = 225; // Control Sliders //-------------------- // Damp : filters the high frequencies of the echoes (especially active for great values of RoomSize) // RoomSize : size of the reverberation room // Dry : original signal // Wet : reverberated signal dampSlider = rkg(vslider("Damp [midi:ctrl 3] [style:knob]",0.5, 0, 1, 0.025))scaledamp; roomsizeSlider = rkg(vslider("RoomSize [midi:ctrl 4] [style:knob]", 0.5, 0, 1, 0.025))scaleroom + offsetroom; wetSlider = rkg(vslider("Wet [midi:ctrl 79] [style:knob]", 0.3333, 0, 1, 0.025)); combfeed = roomsizeSlider; // Comb and Allpass filters //------------------------- allpass(dt,fb) = (_,_ <: ((fb),_:+:@(dt)), -) ~ _ : (!,_); comb(dt, fb, damp) = (+:@(dt)) ~ ((1-damp) : (+ ~ (damp)) : (fb)); // Reverb components //------------------ monoReverb(fb1, fb2, damp, spread) = _ <: comb(combtuningL1+spread, fb1, damp), comb(combtuningL2+spread, fb1, damp), comb(combtuningL3+spread, fb1, damp), comb(combtuningL4+spread, fb1, damp), comb(combtuningL5+spread, fb1, damp), comb(combtuningL6+spread, fb1, damp), comb(combtuningL7+spread, fb1, damp), comb(combtuningL8+spread, fb1, damp) +> allpass (allpasstuningL1+spread, fb2) : allpass (allpasstuningL2+spread, fb2) : allpass (allpasstuningL3+spread, fb2) : allpass (allpasstuningL4+spread, fb2) ; monoReverbToStereo(fb1, fb2, damp, spread) = + <: monoReverb(fb1, fb2, damp, 0) <: _,_; stereoReverb(fb1, fb2, damp, spread) = + <: monoReverb(fb1, fb2, damp, 0), monoReverb(fb1, fb2, damp, spread); monoToStereoReverb(fb1, fb2, damp, spread) = _ <: monoReverb(fb1, fb2, damp, 0), monoReverb(fb1, fb2, damp, spread); // fxctrl : add an input gain and a wet-dry control to a stereo FX //---------------------------------------------------------------- fxctrl(g,w,Fx) = _,_ <: ((g),(g) : Fx : (w),(w)), (1-w), (1-w) +> _,_; rbp = 1-int(rsg(vslider("[0] Enable [midi:ctrl 104][style:knob]",0,0,1,1))); // Freeverb //--------- //JOS:freeverb = fxctrl(fixedgain, wetSlider, stereoReverb(combfeed, allpassfeed, dampSlider, stereospread)); freeverb = fxctrl(fixedgain, wetSlider, monoReverbToStereo(combfeed, allpassfeed, dampSlider, stereospread)); freeverb_process = ba.bypass2(rbp,freeverb); }.freeverb_process; /* * Layout * */ // This layout loosely follows the MiniMoog-V // Arturia-only features are labeled // Original versions also added where different // Need vrocker and hrocker toggle switches in Faust! // Need orange and blue color choices // Orange => Connect modulation sources to their destinations // Blue => Turn audio sources On and Off // - and later - // White => Turn performance features On and Off // Black => Select between modulation sources // Julius Smith for Analog Devices 3/1/2017 vrocker(x) = checkbox("%%x [style:vrocker]"); hrocker(x) = checkbox("%%x [style:hrocker]"); vrockerblue(x) = checkbox("%x [style:vrocker] [color:blue]"); vrockerblue(x) = checkbox("%x [style:vrocker] [color:blue]"); // USAGE: vrockerorange("[0] ModulationEnable"); hrockerblue(x) = checkbox("%%x [style:hrocker] [color:blue]"); vrockerred(x) = checkbox("%%x [style:vrocker] [color:red]"); hrockerred(x) = checkbox("%%x [style:hrocker] [color:red]"); declare designer "Robert A. Moog"; mmg(x) = hgroup("",x); // Minimoog + Effects synthg(x) = mmg(vgroup("[0] Minimoog",x)); fxg(x) = mmg(hgroup("[1] Effects",x)); mg(x) = synthg(hgroup("[0]",x)); cg(x) = mg(vgroup("[0] Controllers",x)); // Formerly named "Modules" but "Minimoog" group-title is enough vg(x) = cg(hgroup("[0] Master Volume", x)); dg(x) = cg(hgroup("[1] Oscillator Tuning & Switching", x)); // Tune knob = master tune dsg(x) = dg(vgroup("[1] Switches", x)); // Oscillator Modulation HrockerRed => apply Modulation Mix output to osc1&2 pitches // [MOVED here from osc3 group] Osc 3 Control VrockerRed => use osc3 as LFO instead of osc3 gmmg(x) = cg(hgroup("[2] Glide and ModMix", x)); // Glide knob [0:10] = portamento speed // Modulation Mix knob [0:10] (between Osc3 and Noise) = mix of noise and osc3 modulating osc1&2 pitch and/or VCF freq og(x) = mg(vgroup("[1] Oscillator Bank", x)); osc1(x) = og(hgroup("[1] Oscillator 1", x)); // UNUSED Control switch (for alignment) - Could put Oscillator Modulation switch there // Range rotary switch: LO (slow pulses or rhythm), 32', 16', 8', 4', 2' // Frequency <something> switch: LED to right // Waveform rotary switch: tri, impulse/bent-triangle, saw, pulseWide, pulseMed, pulseNarrow osc2(x) = og(hgroup("[2] Oscillator 2", x)); // UNUSED (originall) or Osc 2 Control VrockerRed // Range rotary switch: LO, 32', 16', 8', 4', 2' // Detuning knob: -7 to 7 [NO SWITCH] // Waveform rotary switch: tri, impulse(?), saw, pulseWide, pulseMed, pulseNarrow osc3(x) = og(hgroup("[3] Oscillator 3", x)); // Osc 3 Control VrockerRed => use osc3 as LFO instead of osc3 // Range rotary switch: LO, 32', 16', 8', 4', 2' // Detuning knob: -7 to 7 [NO SWITCH] // Waveform rotary switch: tri, impulse(?), saw, pulseWide, pulseMed, pulseNarrow mixg(x) = mg(vgroup("[2] Mixer", x)); // Each row 5 slots to maintain alignment and include red rockers joining VCF area: mr1(x) = mixg(hgroup("[0] Osc1", x)); // mixer row 1 = // Osc1 Volume and Osc1 HrockerBlue & _ & _ & Filter Modulation HrockerRed // Filter Modulation => Modulation Mix output to VCF freq mr2(x) = mixg(hgroup("[1] Ext In, KeyCtl", x)); // row 2 = Ext In HrockerBlue and Vol and Overload LED and Keyboard Ctl HrockerRed 1 mr3(x) = mixg(hgroup("[2] Osc2", x)); // = Osc2 Volume and Osc2 HrockerBlue and Keyboard Ctl HrockerRed 2 // Keyboard Control Modulation 1&2 => 0, 1/3, 2/3, all of Keyboard Control Signal ("gate?") applied to VCF freq mr4(x) = mixg(hgroup("[3] Noise", x)); // = Noise HrockerBlue and Volume and Noise Type VrockerBlue mr4cbg(x) = mr4(vgroup("[1]", x)); // = Noise Off and White/Pink selection // two rockers mr5(x) = mixg(hgroup("[4] Osc3", x)); // Osc3 Volume and Osc3 HrockerBlue modg(x) = mg(vgroup("[3] Modifiers", x)); vcfg(x) = modg(vgroup("[0] Filter", x)); vcf1(x) = vcfg(hgroup("[0] [tooltip:freq, Q, ContourScale]", x)); vcf1cbg(x) = vcf1(vgroup("[0] [tooltip:two checkboxes]", x)); // Filter Modulation switch // VCF Off switch // Corner Frequency knob // Filter Emphasis knob // Amount of Contour knob vcf2(x) = vcfg(hgroup("[1] Filter Contour [tooltip:AttFilt, DecFilt, Sustain Level for Filter Contour]", x)); // Attack Time knob // Decay Time knob // Sustain Level knob ng(x) = modg(hgroup("[1] Loudness Contour", x)); // Attack Time knob // Decay Time knob // Sustain Level knob echog(x) = fxg(hgroup("[4] Echo",x)); ekg(x) = echog(vgroup("[0] Knobs",x)); esg(x) = echog(vgroup("[1] Switches",x)); flg(x) = fxg(hgroup("[5] Flanger",x)); flkg(x) = flg(vgroup("[0] Knobs",x)); flsg(x) = flg(vgroup("[1] Switches",x)); chg(x) = fxg(hgroup("[6] Chorus",x)); ckg(x) = chg(vgroup("[0] Knobs",x)); csg(x) = chg(vgroup("[1] Switches",x)); rg(x) = fxg(hgroup("[7] Reverb",x)); rkg(x) = rg(vgroup("[0] Knobs",x)); rsg(x) = rg(vgroup("[1] Switches",x)); outg(x) = fxg(vgroup("[8] Output", x)); volg(x) = outg(hgroup("[0] Volume Main Output", x)); // Volume knob [0-10] // Unison switch (Arturia) or Output connect/disconnect switch (original) // When set, all voices are stacked and instrument is in mono mode tunerg(x) = outg(hgroup("[1] A-440 Switch", x)); vdtpolyg(x) = outg(hgroup("[2] Voice Detune / Poly", x)); // Voice Detune knob [0-10] (Arturia) or // Polyphonic switch [red LED below] (Arturia) // When set, instrument is in polyphonic mode with one oscillator per key clipg(x) = fxg(vgroup("[9] Soft Clip", x)); // Soft Clipping switch [red LED above] kg(x) = synthg(hgroup("[1] Keyboard Group", x)); // Keyboard was 3 1/2 octaves ws(x) = kg(vgroup("[0] Wheels and Switches", x)); s1g(x) = ws(hgroup("[0] Jacks and Rockers", x)); jg(x) = s1g(vgroup("[0] MiniJacks",x)); gdlg(x) = s1g(vgroup("[1] Glide/Decay/Legato Enables",x)); // Arturia // Glide Hrocker (see original Button version below) // Decay Hrocker (see original Button version below) => Sets Release (R) of ADSR to either 0 or Decay (R) // Legato Hrocker (not in original) s2g(x) = ws(hgroup("[1] [tooltip:Wheels+]", x)); bg(x) = s2g(vgroup("[0] [tooltip:Bend Enable and Range]", x)); wg(x) = s2g(hgroup("[1] [tooltip:Bend and Mod Wheels]", x)); // Using Glide/Decay/Legato enables above following Arturia: // dg(x) = s2g(hgroup("[2] Glide and Decay momentary pushbuttons", x)); // Glide Button injects portamento as set by Glide knob // Decay Button uses decay of Loudness Contour (else 0) keys(x) = kg(hgroup("[1] [tooltip:Keys]", x)); gg(x) = keys(hgroup("[0] [tooltip: Gates]",x)); // leave slot 1 open for sustain (below)	https://raw.githubusercontent.com/darkoverlordofdata/amp-sim-faust/91696611bc64e94c5767a43aaa0478f260ca43a3/src/amp_sim_browser.dsp	faust	: component_echo * * component_amp * * based on https://github.com/micbuffa/FaustPowerAmp Modified version of https://github.com/creativeintent/temper/blob/master/Dsp/temper.dsp Adapted for PowerAmp simulation (addition of presence filter, param adaptation, small changes...) Distortion parameters Output parameters A fairly standard wave shaping curve; we use this to shape the input signal before modulating the filter coefficients by this signal. Which shaping curve we use here is pretty unimportant; as long as we can introduce higher harmonics, the coefficient modulation will react. Which harmonics we introduce here seems to affect the resulting sound pretty minimally. Also note here that we use an approximation of the `tanh` function for computational improvement. See `http://www.musicdsp.org/showone.php?id=238`. The allpass filter is stable for `\|m(x)\| <= 1`, but should not linger near +/-1.0 for very long. We therefore clamp the driven signal with a tanh function to ensure smooth coefficient calculation. We also here introduce a modulated DC offset in the signal before the curve. Our modulated filter is an allpass with coefficients governed by the input signal applied through our wave shaper. Before the filter, we mix the dry input signal with the raw waveshaper output according to the `psat` parameter. Note the constant gain coefficient on the waveshaper; that number is to offset the global gain from the waveshaper to make sure the shaping process stays under unity gain. The maximum differential gain of the waveshaper can be found by evaluating the derivative of the transfer function at x0 where x0 is the steepest part of the slope. Here that number is ~4, so we multiply by ~1/4. A fork of the `tf2s` function from the standard filter library which uses a smoothing function after the `tan` computation to move that expensive call outside of the inner loop of the filter function. bilinear-transform scale-factor A fork of the `resonlp` function from the standard filter library which uses a local `tf2s` implementation. Our main processing block. This explicit gain multiplier of 4.0 accounts for the loss of gain that occurs from oversampling by a factor of 2, and for the loss of gain that occurs from the prefilter and modulation step. Then we apply the output level parameter. And the overall process declaration. , finalPWAMono; * * component_phaser * * just a wrapper for dm.phaser2_demo * * component_echo * * echo effect (unused) Let layout2.dsp lay us out one and done Increase until you get the desired maximum amount of smoothing when fbs==1 fastpow2 = ffunction(float fastpow2(float), "fast_pow2.h", ""); pole radius of feedback smoother "ground input" switches input to zeros Warp and Scrubber stuff: enableEcho went 0 to 1 enableEcho went 1 to 0 Ramps up only during scrub "hold" time and is otherwise zero: implementation that continues scrubbing where it left off: * * component_flanger * * flange effect Created from flange.dsp 2015/06/21 ideal for dc and reinforced sinusoids (in-phase summed signals) Kill the groups to save vertical space: ~1 ms at 44.1 kHz = min delay MUST BE EVEN Hz use when depth=1 means "multivibrato" effect (no original => all are modulated) * * component_freeverb * * reverb effect ====================================================== Freeverb Faster version using fixed delays (20% gain) ====================================================== Constant Parameters -------------------- value of the gain of fxctrl feedback of the delays used in allpass filters Filter Parameters ------------------ Control Sliders -------------------- Damp : filters the high frequencies of the echoes (especially active for great values of RoomSize) RoomSize : size of the reverberation room Dry : original signal Wet : reverberated signal Comb and Allpass filters ------------------------- Reverb components ------------------ fxctrl : add an input gain and a wet-dry control to a stereo FX ---------------------------------------------------------------- Freeverb --------- JOS:freeverb = fxctrl(fixedgain, wetSlider, stereoReverb(combfeed, allpassfeed, dampSlider, stereospread)); * * Layout * This layout loosely follows the MiniMoog-V Arturia-only features are labeled Original versions also added where different Need vrocker and hrocker toggle switches in Faust! Need orange and blue color choices Orange => Connect modulation sources to their destinations Blue => Turn audio sources On and Off - and later - White => Turn performance features On and Off Black => Select between modulation sources Julius Smith for Analog Devices 3/1/2017 USAGE: vrockerorange("[0] ModulationEnable"); Minimoog + Effects Formerly named "Modules" but "Minimoog" group-title is enough Tune knob = master tune Oscillator Modulation HrockerRed => apply Modulation Mix output to osc1&2 pitches [MOVED here from osc3 group] Osc 3 Control VrockerRed => use osc3 as LFO instead of osc3 Glide knob [0:10] = portamento speed Modulation Mix knob [0:10] (between Osc3 and Noise) = mix of noise and osc3 modulating osc1&2 pitch and/or VCF freq UNUSED Control switch (for alignment) - Could put Oscillator Modulation switch there Range rotary switch: LO (slow pulses or rhythm), 32', 16', 8', 4', 2' Frequency <something> switch: LED to right Waveform rotary switch: tri, impulse/bent-triangle, saw, pulseWide, pulseMed, pulseNarrow UNUSED (originall) or Osc 2 Control VrockerRed Range rotary switch: LO, 32', 16', 8', 4', 2' Detuning knob: -7 to 7 [NO SWITCH] Waveform rotary switch: tri, impulse(?), saw, pulseWide, pulseMed, pulseNarrow Osc 3 Control VrockerRed => use osc3 as LFO instead of osc3 Range rotary switch: LO, 32', 16', 8', 4', 2' Detuning knob: -7 to 7 [NO SWITCH] Waveform rotary switch: tri, impulse(?), saw, pulseWide, pulseMed, pulseNarrow Each row 5 slots to maintain alignment and include red rockers joining VCF area: mixer row 1 = Osc1 Volume and Osc1 HrockerBlue & _ & _ & Filter Modulation HrockerRed Filter Modulation => Modulation Mix output to VCF freq row 2 = Ext In HrockerBlue and Vol and Overload LED and Keyboard Ctl HrockerRed 1 = Osc2 Volume and Osc2 HrockerBlue and Keyboard Ctl HrockerRed 2 Keyboard Control Modulation 1&2 => 0, 1/3, 2/3, all of Keyboard Control Signal ("gate?") applied to VCF freq = Noise HrockerBlue and Volume and Noise Type VrockerBlue = Noise Off and White/Pink selection two rockers Osc3 Volume and Osc3 HrockerBlue Filter Modulation switch VCF Off switch Corner Frequency knob Filter Emphasis knob Amount of Contour knob Attack Time knob Decay Time knob Sustain Level knob Attack Time knob Decay Time knob Sustain Level knob Volume knob [0-10] Unison switch (Arturia) or Output connect/disconnect switch (original) When set, all voices are stacked and instrument is in mono mode Voice Detune knob [0-10] (Arturia) or Polyphonic switch [red LED below] (Arturia) When set, instrument is in polyphonic mode with one oscillator per key Soft Clipping switch [red LED above] Keyboard was 3 1/2 octaves Arturia Glide Hrocker (see original Button version below) Decay Hrocker (see original Button version below) => Sets Release (R) of ADSR to either 0 or Decay (R) Legato Hrocker (not in original) Using Glide/Decay/Legato enables above following Arturia: dg(x) = s2g(hgroup("[2] Glide and Decay momentary pushbuttons", x)); Glide Button injects portamento as set by Glide knob Decay Button uses decay of Loudness Contour (else 0) leave slot 1 open for sustain (below)	declare name "amp-sim"; declare version "0.1"; declare author "darkoverlordofdata"; declare description "Amplifier demo application."; declare license "MIT"; declare copyright "(c)DarkOverlordOfData 2021"; import("stdfaust.lib"); wa = library("webaudio.lib"); process = _,_ : + : component_amp : component_flanger : component_chorus : component_phaser : component_freeverb; component_amp = environment { pdrive = hslider("Drive gain[style:knob]", 4.0, -10.0, 10.0, 0.001) : si.smooth(0.995); psat = hslider("Saturation dry wet[style:knob]", 1.0, 0.0, 1.0, 0.001) : si.smooth(0.995); pcurve = hslider("Curve k[style:knob]", 1.0, 0.1, 4.0, 0.001) : si.smooth(0.995); plevel = hslider("Level[style:knob]", -3, -24, 24, 1) : ba.db2linear : si.smooth(0.995); tanh(x) = x * (27 + x * x) / (27 + 9 * x * x); transfer(x) = tanh(pcurve * x) / tanh(pcurve); drive(x) = x : (pdrive) : +(fol(x)) : max(-3) : min(3) with { fol = an.amp_follower(0.04); }; waveshaper(x) = x <: _, tap(x) : (1.0 - psat), (psat) : + : fi.tf1(b0(x), b1(x), a1(x)) with { b0(x) = m(x); b1(x) = 1.0; a1(x) = m(x); m(x) = drive(x) : transfer : (0.24); tap(x) = m(x); }; tf2s(b2,b1,b0,a1,a0,w1) = fi.tf2(b0d,b1d,b2d,a1d,a2d) with { csq = cc; d = a0 + a1 c + csq; b0d = (b0 + b1 * c + b2 * csq)/d; b1d = 2 * (b0 - b2 * csq)/d; b2d = (b0 - b1 * c + b2 * csq)/d; a1d = 2 * (a0 - csq)/d; a2d = (a0 - a1c + csq)/d; }; resonlp(fc,Q,gain) = tf2s(b2,b1,b0,a1,a0,wc) with { wc = 2ma.PIfc; a1 = 1/Q; a0 = 1; b2 = 0; b1 = 0; b0 = gain; }; feedbackCircuit = presence:(gainNFL) with { p1gain = hslider("Presence[name:p1Gain][style:knob]", 0, -15, 15, 0.1); presence =wa.peaking2(2000, p1gain, 1, 1) : wa.peaking2(4000, p1gain, 1, 1); gainNFL = hslider("Negative gain[name:Level][style:knob]", -0.4, -0.8, 1, 0.01) : si.smoo; }; main = (masterVolume) :(+ : waveshaper : fi.dcblocker) ~ feedbackCircuit : gain with { gain = (4.0) : (plevel); masterVolume = hslider("Master Volume[name:MV][style:knob]", 1, 0, 4, 0.1) : si.smoo; }; poweramp = main; finalPWAMono = hgroup("PowerAmp FAUST / WebAudio",ba.bypass_fade(ma.SR/10, checkbox("bypass"), poweramp)); }.amp_process; component_phaser = environment { phaser_process = dm.phaser2_demo; }.phaser_process; component_echo = environment { knobs_group(x) = ekg(x); switches_group(x) = esg(x); dmaxs = float(dmax)/44100.0; inputSelect(gi) = _,0 : select2(gi); echo_mono(dmax,curdel,tapdel,fb,fbspr,gi) = inputSelect(gi) : (+:si.smooth(fbspr) <: de.fdelay(dmax,curdel), de.fdelay(dmax,tapdel)) ~((fb),!) : !,_; tau2pole(tau) = ba.if(tau>0, exp(-1.0/(tauma.SR)), 0.0); t60smoother(dEchoT60) = si.smooth(tau2pole(dEchoT60/6.91)); dEchoT60 = knobs_group(vslider("[1] DelayT60 [midi:ctrl 60] [style:knob]", 0.5, 0, 100, 0.001)); dEchoSamplesRaw = knobs_group(vslider("[0] Delay [midi:ctrl 61] [style:knob]", 0.5, 0.001, (dmaxs-0.001), 0.001)) ma.SR; dEchoSamples = dEchoSamplesRaw : t60smoother(dEchoT60); warpRaw = knobs_group(vslider("[0] Warp [midi:ctrl 62] [style:knob]", 0, -1.0, 1.0, 0.001)); scrubAmpRaw = 0; scrubPhaseRaw = 0; fb = knobs_group(vslider("[2] Feedback [midi:ctrl 2] [style:knob]", .3, 0.0, 1.0, 0.0001)); amp = knobs_group(vslider("[3] Amp [midi:ctrl 75] [style:knob]", .5, 0, 1, 0.001)) : si.smooth(ba.tau2pole(ampT60/6.91)); ampT60 = 0.15661; fbs = knobs_group(vslider("[5] [midi:ctrl 76] FeedbackSm [style:knob]", 0, 0, 1, 0.00001)); enableEcho = (scrubAmpRaw > 0.00001); counter = (enableEcho * (triggerScrubOn : + ~ +(1) * enableEcho : -(2))) & (dmax-1); scrubPhase = scrubPhaseRaw : t60smoother(dEchoT60(1-triggerScrubOff)); scrubAmp = scrubAmpRaw : t60smoother(dEchoT60(1-triggerScrubOff)); warp = warpRaw : t60smoother(dEchoT60); dTapSamplesRaw = dEchoSamplesRaw * (1.0 + warp + scrubPhase * scrubAmp) + float(counter); dTapSamples = dTapSamplesRaw : t60smoother(dEchoT60(1-triggerScrubOff)); echo_process = _ <: _, amp echo_mono(dmax,dEchoSamples,dTapSamples,fb,fbspr(fbs),gi) : +; }.echo_process; component_flanger = environment { flanger_mono(dmax,curdel,depth,fb,invert,lfoshape) flanger_process = ba.bypass1(fbp,flanger_mono_gui); meter_group(x) = flsg(x); ctl_group(x) = flkg(x); del_group(x) = flkg(x); lvl_group(x) = flkf(x); flangeview = lfo(freq); flanger_mono_gui = attach(flangeview) : flanger_mono(dmax,curdel,depth,fb,invert,lfoshape); sinlfo(freq) = (1 + os.oscrs(freq))/2; trilfo(freq) = 1.0-abs(os.saw1(freq)); lfo(f) = (lfoshape * trilfo(f)) + ((1-lfoshape) * sinlfo(f)); dmax = 2048; dflange = ((dmax-1)-odflange)del_group(vslider("[1] Delay [midi:ctrl 50][style:knob]", 0.22, 0, 1, 1)); freq = ctl_group(vslider("[1] Rate [midi:ctrl 51] [unit:Hz] [style:knob]", 0.5, 0, 10, 0.01)) : si.smooth(ba.tau2pole(freqT60/6.91)); freqT60 = 0.15661; depth = ctl_group(vslider("[3] Depth [midi:ctrl 52] [style:knob]", .75, 0, 1, 0.001)) : si.smooth(ba.tau2pole(depthT60/6.91)); depthT60 = 0.15661; fb = ctl_group(vslider("[5] Feedback [midi:ctrl 53] [style:knob]", 0, -0.995, 0.99, 0.001)) : si.smooth(ba.tau2pole(fbT60/6.91)); fbT60 = 0.15661; lfoshape = ctl_group(vslider("[7] Waveshape [midi:ctrl 54] [style:knob]", 0, 0, 1, 0.001)); curdel = odflange+dflangelfo(freq); fbp = 1-int(flsg(vslider("[0] Enable [midi:ctrl 102][style:knob]",0,0,1,1))); invert = flsg(vslider("[1] Invert [midi:ctrl 49][style:knob]",0,0,1,1):int); }.flanger_process; component_chorus = environment { chorus_process = ba.bypass1to2(cbp,chorus_mono(dmax,curdel,rate,sigma,do2,voices)); dmax = 8192; curdel = dmax * ckg(vslider("[0] Delay [midi:ctrl 55] [style:knob]", 0.5, 0, 1, 1)) : si.smooth(0.999); rateMin = 0.01; rateT60 = 0.15661; rate = ckg(vslider("[1] Rate [midi:ctrl 56] [unit:Hz] [style:knob]", 0.5, rateMin, rateMax, 0.0001)) : si.smooth(ba.tau2pole(rateT60/6.91)); depth = ckg(vslider("[4] Depth [midi:ctrl 57] [style:knob]", 0.5, 0, 1, 0.001)) : si.smooth(ba.tau2pole(depthT60/6.91)); depthT60 = 0.15661; delayPerVoice = 0.5curdel/voices; sigma = delayPerVoice ckg(vslider("[6] Deviation [midi:ctrl 58] [style:knob]",0.5,0,1,0.001)) : si.smooth(0.999); periodic = 1; cbp = 1-int(csg(vslider("[0] Enable [midi:ctrl 103][style:knob]",0,0,1,1))); chorus_mono(dmax,curdel,rate,sigma,do2,voices) = _ <: ((1-do2)<:_,_),((do2) <: par(i,voices,voice(i)) :> _,_) : ro.interleave(2,2) : +,+ with { angle(i) = 2ma.PI(i/2)/voices + (i%2)ma.PI/2; voice(i) = de.fdelay(dmax,min(dmax,del(i))) cos(angle(i)); del(i) = curdel(i+1)/voices + dev(i); rates(i) = rate/float(i+1); dev(i) = sigma os.oscp(rates(i),i2ma.PI/voices); }; }.chorus_process; component_freeverb = environment { import("stdfaust.lib"); declare name "freeverb"; declare version "1.0"; declare author "Grame"; declare license "BSD"; declare copyright "(c) GRAME 2006 and MoForte Inc. 2017"; declare reference "https://ccrma.stanford.edu/~jos/pasp/Freeverb.html"; scalewet = 3.0; scaledry = 2.0; scaledamp = 0.4; scaleroom = 0.28; offsetroom = 0.7; initialroom = 0.5; initialdamp = 0.5; initialwet = 1.0/scalewet; initialdry = 0; initialwidth= 1.0; initialmode = 0.0; freezemode = 0.5; stereospread= 23; combtuningL1 = 1116; combtuningL2 = 1188; combtuningL3 = 1277; combtuningL4 = 1356; combtuningL5 = 1422; combtuningL6 = 1491; combtuningL7 = 1557; combtuningL8 = 1617; allpasstuningL1 = 556; allpasstuningL2 = 441; allpasstuningL3 = 341; allpasstuningL4 = 225; dampSlider = rkg(vslider("Damp [midi:ctrl 3] [style:knob]",0.5, 0, 1, 0.025))scaledamp; roomsizeSlider = rkg(vslider("RoomSize [midi:ctrl 4] [style:knob]", 0.5, 0, 1, 0.025))scaleroom + offsetroom; wetSlider = rkg(vslider("Wet [midi:ctrl 79] [style:knob]", 0.3333, 0, 1, 0.025)); combfeed = roomsizeSlider; allpass(dt,fb) = (_,_ <: ((fb),_:+:@(dt)), -) ~ _ : (!,_); comb(dt, fb, damp) = (+:@(dt)) ~ ((1-damp) : (+ ~ (damp)) : (fb)); monoReverb(fb1, fb2, damp, spread) = _ <: comb(combtuningL1+spread, fb1, damp), comb(combtuningL2+spread, fb1, damp), comb(combtuningL3+spread, fb1, damp), comb(combtuningL4+spread, fb1, damp), comb(combtuningL5+spread, fb1, damp), comb(combtuningL6+spread, fb1, damp), comb(combtuningL7+spread, fb1, damp), comb(combtuningL8+spread, fb1, damp) +> allpass (allpasstuningL1+spread, fb2) : allpass (allpasstuningL2+spread, fb2) : allpass (allpasstuningL3+spread, fb2) : allpass (allpasstuningL4+spread, fb2) ; monoReverbToStereo(fb1, fb2, damp, spread) = + <: monoReverb(fb1, fb2, damp, 0) <: _,_; stereoReverb(fb1, fb2, damp, spread) = + <: monoReverb(fb1, fb2, damp, 0), monoReverb(fb1, fb2, damp, spread); monoToStereoReverb(fb1, fb2, damp, spread) = _ <: monoReverb(fb1, fb2, damp, 0), monoReverb(fb1, fb2, damp, spread); fxctrl(g,w,Fx) = _,_ <: ((g),(g) : Fx : (w),(w)), (1-w), (1-w) +> _,_; rbp = 1-int(rsg(vslider("[0] Enable [midi:ctrl 104][style:knob]",0,0,1,1))); freeverb = fxctrl(fixedgain, wetSlider, monoReverbToStereo(combfeed, allpassfeed, dampSlider, stereospread)); freeverb_process = ba.bypass2(rbp,freeverb); }.freeverb_process; vrocker(x) = checkbox("%%x [style:vrocker]"); hrocker(x) = checkbox("%%x [style:hrocker]"); vrockerblue(x) = checkbox("%x [style:vrocker] [color:blue]"); vrockerblue(x) = checkbox("%x [style:vrocker] [color:blue]"); hrockerblue(x) = checkbox("%%x [style:hrocker] [color:blue]"); vrockerred(x) = checkbox("%%x [style:vrocker] [color:red]"); hrockerred(x) = checkbox("%%x [style:hrocker] [color:red]"); declare designer "Robert A. Moog"; synthg(x) = mmg(vgroup("[0] Minimoog",x)); fxg(x) = mmg(hgroup("[1] Effects",x)); mg(x) = synthg(hgroup("[0]",x)); vg(x) = cg(hgroup("[0] Master Volume", x)); dg(x) = cg(hgroup("[1] Oscillator Tuning & Switching", x)); dsg(x) = dg(vgroup("[1] Switches", x)); gmmg(x) = cg(hgroup("[2] Glide and ModMix", x)); og(x) = mg(vgroup("[1] Oscillator Bank", x)); osc1(x) = og(hgroup("[1] Oscillator 1", x)); osc2(x) = og(hgroup("[2] Oscillator 2", x)); osc3(x) = og(hgroup("[3] Oscillator 3", x)); mixg(x) = mg(vgroup("[2] Mixer", x)); modg(x) = mg(vgroup("[3] Modifiers", x)); vcfg(x) = modg(vgroup("[0] Filter", x)); vcf1(x) = vcfg(hgroup("[0] [tooltip:freq, Q, ContourScale]", x)); vcf1cbg(x) = vcf1(vgroup("[0] [tooltip:two checkboxes]", x)); vcf2(x) = vcfg(hgroup("[1] Filter Contour [tooltip:AttFilt, DecFilt, Sustain Level for Filter Contour]", x)); ng(x) = modg(hgroup("[1] Loudness Contour", x)); echog(x) = fxg(hgroup("[4] Echo",x)); ekg(x) = echog(vgroup("[0] Knobs",x)); esg(x) = echog(vgroup("[1] Switches",x)); flg(x) = fxg(hgroup("[5] Flanger",x)); flkg(x) = flg(vgroup("[0] Knobs",x)); flsg(x) = flg(vgroup("[1] Switches",x)); chg(x) = fxg(hgroup("[6] Chorus",x)); ckg(x) = chg(vgroup("[0] Knobs",x)); csg(x) = chg(vgroup("[1] Switches",x)); rg(x) = fxg(hgroup("[7] Reverb",x)); rkg(x) = rg(vgroup("[0] Knobs",x)); rsg(x) = rg(vgroup("[1] Switches",x)); outg(x) = fxg(vgroup("[8] Output", x)); volg(x) = outg(hgroup("[0] Volume Main Output", x)); tunerg(x) = outg(hgroup("[1] A-440 Switch", x)); vdtpolyg(x) = outg(hgroup("[2] Voice Detune / Poly", x)); clipg(x) = fxg(vgroup("[9] Soft Clip", x)); ws(x) = kg(vgroup("[0] Wheels and Switches", x)); s1g(x) = ws(hgroup("[0] Jacks and Rockers", x)); jg(x) = s1g(vgroup("[0] MiniJacks",x)); s2g(x) = ws(hgroup("[1] [tooltip:Wheels+]", x)); bg(x) = s2g(vgroup("[0] [tooltip:Bend Enable and Range]", x)); wg(x) = s2g(hgroup("[1] [tooltip:Bend and Mod Wheels]", x)); keys(x) = kg(hgroup("[1] [tooltip:Keys]", x)); gg(x) = keys(hgroup("[0] [tooltip: Gates]",x));
27cb443ffced2695197fc93bfa1784ca3796065a92b7a581ce6256dc244f90dc	jujudusud/BPD	VtbdiMid_Stage1.dsp	// generated automatically // DO NOT MODIFY! declare id "VTBassDI"; declare name "VTBassDI"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = -9.67015905878325e-5fs; b1 = 0; b2 = 9.67015905878325e-5fs; a0 = fs(2.32086727536791e-10fs + 9.68309720290692e-6) + 0.000483514015701648; a1 = -4.64173455073582e-10pow(fs,2) + 0.000967028031403296; a2 = fs(2.32086727536791e-10*fs - 9.68309720290692e-6) + 0.000483514015701648; };	https://raw.githubusercontent.com/jujudusud/BPD/aab4f1ef9f2a3e4b7f15e345004b8aeee428c87e/bddi/VtbdiMid_Stage1.dsp	faust	generated automatically DO NOT MODIFY!	declare id "VTBassDI"; declare name "VTBassDI"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = -9.67015905878325e-5fs; b1 = 0; b2 = 9.67015905878325e-5fs; a0 = fs(2.32086727536791e-10fs + 9.68309720290692e-6) + 0.000483514015701648; a1 = -4.64173455073582e-10pow(fs,2) + 0.000967028031403296; a2 = fs(2.32086727536791e-10*fs - 9.68309720290692e-6) + 0.000483514015701648; };
12aa4c89e42216111cb9d1a5328a603e4fdb8a5eb181d6c4b4a406addb0c83bd	jujudusud/BPD	bddi-p8.dsp	// generated automatically // DO NOT MODIFY! declare id "bddi-p8"; declare name "BDDI part 8"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(3.91466389800279e-10fs + 5.93704521193495e-7) + 0.00069390430247019; b1 = -7.82932779600557e-10pow(fs,2) + 0.00138780860494038; b2 = fs(3.91466389800279e-10fs - 5.93704521193495e-7) + 0.00069390430247019; a0 = fs(3.91462475136381e-10fs + 2.02867833171566e-6) + 0.000693897363427165; a1 = -7.82924950272761e-10pow(fs,2) + 0.00138779472685433; a2 = fs(3.91462475136381e-10fs - 2.02867833171566e-6) + 0.000693897363427165; };	https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p8.dsp	faust	generated automatically DO NOT MODIFY!	declare id "bddi-p8"; declare name "BDDI part 8"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(3.91466389800279e-10fs + 5.93704521193495e-7) + 0.00069390430247019; b1 = -7.82932779600557e-10pow(fs,2) + 0.00138780860494038; b2 = fs(3.91466389800279e-10fs - 5.93704521193495e-7) + 0.00069390430247019; a0 = fs(3.91462475136381e-10fs + 2.02867833171566e-6) + 0.000693897363427165; a1 = -7.82924950272761e-10pow(fs,2) + 0.00138779472685433; a2 = fs(3.91462475136381e-10fs - 2.02867833171566e-6) + 0.000693897363427165; };
d28bd841b1c487ee3262c13bae37a19048f9cbeebf019524521936c26d9db8e2	jujudusud/BPD	bddi-p4.dsp	// generated automatically // DO NOT MODIFY! declare id "bddi-p4"; declare name "BDDI part 4"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PR19v = vslider("PR19v[name:PR19v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PR19vfs(-6.984707894439e-10fs - 4.81040488597727e-6) + fs(7.21520325495548e-10fs + 2.11927197656615e-5) + 0.00240520244298863; b1 = 1.3969415788878e-9PR19vpow(fs,2) - 1.4430406509911e-9pow(fs,2) + 0.00481040488597727; b2 = PR19vfs(-6.984707894439e-10fs + 4.81040488597727e-6) + fs(7.21520325495548e-10fs - 2.11927197656615e-5) + 0.00240520244298863; a0 = PR19vfs(-6.98477774151794e-10fs - 4.81045299002613e-6) + fs(7.21527540698803e-10fs + 5.31859556913413e-6) + 0.00240522649501306; a1 = 1.39695554830359e-9PR19vpow(fs,2) - 1.44305508139761e-9pow(fs,2) + 0.00481045299002613; a2 = PR19vfs(-6.98477774151794e-10fs + 4.81045299002613e-6) + fs(7.21527540698803e-10fs - 5.31859556913413e-6) + 0.00240522649501306; };	https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p4.dsp	faust	generated automatically DO NOT MODIFY!	declare id "bddi-p4"; declare name "BDDI part 4"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0),(a1/a0,a2/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PR19v = vslider("PR19v[name:PR19v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PR19vfs(-6.984707894439e-10fs - 4.81040488597727e-6) + fs(7.21520325495548e-10fs + 2.11927197656615e-5) + 0.00240520244298863; b1 = 1.3969415788878e-9PR19vpow(fs,2) - 1.4430406509911e-9pow(fs,2) + 0.00481040488597727; b2 = PR19vfs(-6.984707894439e-10fs + 4.81040488597727e-6) + fs(7.21520325495548e-10fs - 2.11927197656615e-5) + 0.00240520244298863; a0 = PR19vfs(-6.98477774151794e-10fs - 4.81045299002613e-6) + fs(7.21527540698803e-10fs + 5.31859556913413e-6) + 0.00240522649501306; a1 = 1.39695554830359e-9PR19vpow(fs,2) - 1.44305508139761e-9pow(fs,2) + 0.00481045299002613; a2 = PR19vfs(-6.98477774151794e-10fs + 4.81045299002613e-6) + fs(7.21527540698803e-10fs - 5.31859556913413e-6) + 0.00240522649501306; };
9b9bb3f249858326422529ee20d03de98328f63522c1c5fb75b40921229411c2	jujudusud/BPD	bddi-p2.dsp	// generated automatically // DO NOT MODIFY! declare id "bddi-p2"; declare name "BDDI part 2"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(7.06776156977829e-15fs + 4.81892834303065e-12) + 3.65070329017474e-8) + 1.71426713475523e-5; b1 = fs(fs(-2.12032847093349e-14fs - 4.81892834303065e-12) + 3.65070329017474e-8) + 5.14280140426569e-5; b2 = fs(fs(2.12032847093349e-14fs - 4.81892834303065e-12) - 3.65070329017474e-8) + 5.14280140426569e-5; b3 = fs(fs(-7.06776156977829e-15fs + 4.81892834303065e-12) - 3.65070329017474e-8) + 1.71426713475523e-5; a0 = fs(fs(7.06776156977829e-15fs + 9.24358073072243e-11) + 1.11934786830977e-7) + 1.71426713475523e-5; a1 = fs(fs(-2.12032847093349e-14fs - 9.24358073072243e-11) + 1.11934786830977e-7) + 5.14280140426569e-5; a2 = fs(fs(2.12032847093349e-14fs - 9.24358073072243e-11) - 1.11934786830977e-7) + 5.14280140426569e-5; a3 = fs(fs(-7.06776156977829e-15fs + 9.24358073072243e-11) - 1.11934786830977e-7) + 1.71426713475523e-5; };	https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p2.dsp	faust	generated automatically DO NOT MODIFY!	declare id "bddi-p2"; declare name "BDDI part 2"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; b0 = fs(fs(7.06776156977829e-15fs + 4.81892834303065e-12) + 3.65070329017474e-8) + 1.71426713475523e-5; b1 = fs(fs(-2.12032847093349e-14fs - 4.81892834303065e-12) + 3.65070329017474e-8) + 5.14280140426569e-5; b2 = fs(fs(2.12032847093349e-14fs - 4.81892834303065e-12) - 3.65070329017474e-8) + 5.14280140426569e-5; b3 = fs(fs(-7.06776156977829e-15fs + 4.81892834303065e-12) - 3.65070329017474e-8) + 1.71426713475523e-5; a0 = fs(fs(7.06776156977829e-15fs + 9.24358073072243e-11) + 1.11934786830977e-7) + 1.71426713475523e-5; a1 = fs(fs(-2.12032847093349e-14fs - 9.24358073072243e-11) + 1.11934786830977e-7) + 5.14280140426569e-5; a2 = fs(fs(2.12032847093349e-14fs - 9.24358073072243e-11) - 1.11934786830977e-7) + 5.14280140426569e-5; a3 = fs(fs(-7.06776156977829e-15fs + 9.24358073072243e-11) - 1.11934786830977e-7) + 1.71426713475523e-5; };
84970b61615a2cd52938151d07eee4320340d1c4d0e1242fb7905014d92f74b5	jujudusud/BPD	VtbdiMid_Stage2.dsp	// generated automatically // DO NOT MODIFY! declare id "VTBassDI"; declare name "VTBassDI"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PRmidv = vslider("PRmidv[name:PRmidv]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PRmidv(PRmidvfs(3.72020134367249e-10fs + 1.28106106875774e-6) + fs(-3.72020134367249e-10fs - 2.56212213751549e-6)) + fs(-1.92148399400684e-10fs - 1.70495136579899e-7) - 0.000310366158930853; b1 = PRmidv(PRmidvfs(-3.72020134367249e-10fs + 1.28106106875774e-6) + fs(3.72020134367249e-10fs - 2.56212213751549e-6)) + fs(1.92148399400684e-10fs - 1.70495136579899e-7) - 0.000931098476792559; b2 = PRmidv(PRmidvfs(-3.72020134367249e-10fs - 1.28106106875774e-6) + fs(3.72020134367249e-10fs + 2.56212213751549e-6)) + fs(1.92148399400684e-10fs + 1.70495136579899e-7) - 0.000931098476792559; b3 = PRmidv(PRmidvfs(3.72020134367249e-10fs - 1.28106106875774e-6) + fs(-3.72020134367249e-10fs + 2.56212213751549e-6)) + fs(-1.92148399400684e-10fs + 1.70495136579899e-7) - 0.000310366158930853; a0 = PRmidv(PRmidvfs(fs(-8.92895301395342e-15fs - 4.02806366843586e-10) - 1.28119587969078e-6) + fs(fs(8.92895301395342e-15fs + 4.02806366843586e-10) + 1.34810933040613e-10)) + fs(fs(1.47327724730231e-16fs + 1.95246064736787e-10) + 1.45909073240292e-6) + 0.000310398819943267; a1 = PRmidv(PRmidvfs(fs(2.67868590418603e-14fs + 4.02806366843586e-10) - 1.28119587969078e-6) + fs(fs(-2.67868590418603e-14fs - 4.02806366843586e-10) + 1.34810933040613e-10)) + fs(fs(-4.41983174190694e-16fs - 1.95246064736787e-10) + 1.45909073240292e-6) + 0.000931196459829801; a2 = PRmidv(PRmidvfs(fs(-2.67868590418603e-14fs + 4.02806366843586e-10) + 1.28119587969078e-6) + fs(fs(2.67868590418603e-14fs - 4.02806366843586e-10) - 1.34810933040613e-10)) + fs(fs(4.41983174190694e-16fs - 1.95246064736787e-10) - 1.45909073240292e-6) + 0.000931196459829801; a3 = PRmidv(PRmidvfs(fs(8.92895301395342e-15fs - 4.02806366843586e-10) + 1.28119587969078e-6) + fs(fs(-8.92895301395342e-15fs + 4.02806366843586e-10) - 1.34810933040613e-10)) + fs(fs(-1.47327724730231e-16fs + 1.95246064736787e-10) - 1.45909073240292e-6) + 0.000310398819943267; };	https://raw.githubusercontent.com/jujudusud/BPD/aab4f1ef9f2a3e4b7f15e345004b8aeee428c87e/bddi/VtbdiMid_Stage2.dsp	faust	generated automatically DO NOT MODIFY!	declare id "VTBassDI"; declare name "VTBassDI"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0),(a1/a0,a2/a0,a3/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PRmidv = vslider("PRmidv[name:PRmidv]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PRmidv(PRmidvfs(3.72020134367249e-10fs + 1.28106106875774e-6) + fs(-3.72020134367249e-10fs - 2.56212213751549e-6)) + fs(-1.92148399400684e-10fs - 1.70495136579899e-7) - 0.000310366158930853; b1 = PRmidv(PRmidvfs(-3.72020134367249e-10fs + 1.28106106875774e-6) + fs(3.72020134367249e-10fs - 2.56212213751549e-6)) + fs(1.92148399400684e-10fs - 1.70495136579899e-7) - 0.000931098476792559; b2 = PRmidv(PRmidvfs(-3.72020134367249e-10fs - 1.28106106875774e-6) + fs(3.72020134367249e-10fs + 2.56212213751549e-6)) + fs(1.92148399400684e-10fs + 1.70495136579899e-7) - 0.000931098476792559; b3 = PRmidv(PRmidvfs(3.72020134367249e-10fs - 1.28106106875774e-6) + fs(-3.72020134367249e-10fs + 2.56212213751549e-6)) + fs(-1.92148399400684e-10fs + 1.70495136579899e-7) - 0.000310366158930853; a0 = PRmidv(PRmidvfs(fs(-8.92895301395342e-15fs - 4.02806366843586e-10) - 1.28119587969078e-6) + fs(fs(8.92895301395342e-15fs + 4.02806366843586e-10) + 1.34810933040613e-10)) + fs(fs(1.47327724730231e-16fs + 1.95246064736787e-10) + 1.45909073240292e-6) + 0.000310398819943267; a1 = PRmidv(PRmidvfs(fs(2.67868590418603e-14fs + 4.02806366843586e-10) - 1.28119587969078e-6) + fs(fs(-2.67868590418603e-14fs - 4.02806366843586e-10) + 1.34810933040613e-10)) + fs(fs(-4.41983174190694e-16fs - 1.95246064736787e-10) + 1.45909073240292e-6) + 0.000931196459829801; a2 = PRmidv(PRmidvfs(fs(-2.67868590418603e-14fs + 4.02806366843586e-10) + 1.28119587969078e-6) + fs(fs(2.67868590418603e-14fs - 4.02806366843586e-10) - 1.34810933040613e-10)) + fs(fs(4.41983174190694e-16fs - 1.95246064736787e-10) - 1.45909073240292e-6) + 0.000931196459829801; a3 = PRmidv(PRmidvfs(fs(8.92895301395342e-15fs - 4.02806366843586e-10) + 1.28119587969078e-6) + fs(fs(-8.92895301395342e-15fs + 4.02806366843586e-10) - 1.34810933040613e-10)) + fs(fs(-1.47327724730231e-16fs + 1.95246064736787e-10) - 1.45909073240292e-6) + 0.000310398819943267; };
7db4b02a80b57e7e673731c521750f0d90522d62bd45b9118eb79e2ab709264d	jujudusud/BPD	VtbdiPresence.dsp	// generated automatically // DO NOT MODIFY! declare id "VTBassDI-presence"; declare name "VTBassDI-presence"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PRprv = vslider("PRprv[name:PRprv]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PRprv(PRprvpow(fs,2)(fs(5.60038187755644e-20fs + 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(-5.60038187755644e-20fs - 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(-4.1417369612656e-15fs - 2.23640373505496e-11) - 1.00571596044962e-8); b1 = PRprv(PRprvpow(fs,2)(fs(-1.68011456326693e-19fs - 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(1.68011456326693e-19fs + 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(4.1417369612656e-15fs - 2.23640373505496e-11) - 3.01714788134885e-8); b2 = PRprv(PRprvpow(fs,2)(fs(1.12007637551129e-19fs - 8.9174124661918e-15) - 3.85701231236669e-11) + pow(fs,2)(fs(-1.12007637551129e-19fs + 3.26102676985979e-15) + 8.8711283184434e-13)) + fs(fs(8.28347392253121e-15fs + 4.47280747010991e-11) - 2.01143192089923e-8); b3 = PRprv(PRprvpow(fs,2)(fs(1.12007637551129e-19fs + 8.9174124661918e-15) - 3.85701231236669e-11) + pow(fs,2)(fs(-1.12007637551129e-19fs - 3.26102676985979e-15) + 8.8711283184434e-13)) + fs(fs(-8.28347392253121e-15fs + 4.47280747010991e-11) + 2.01143192089923e-8); b4 = PRprv(PRprvpow(fs,2)(fs(-1.68011456326693e-19fs + 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(1.68011456326693e-19fs - 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(-4.1417369612656e-15fs - 2.23640373505496e-11) + 3.01714788134885e-8); b5 = PRprv(PRprvpow(fs,2)(fs(5.60038187755644e-20fs - 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(-5.60038187755644e-20fs + 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(4.1417369612656e-15fs - 2.23640373505496e-11) + 1.00571596044962e-8); a0 = PRprv(PRprvfs(fs(fs(fs(-1.34410850433516e-24fs - 1.63324048641924e-19) - 4.94959627062431e-15) - 1.9472051612869e-11) - 4.38302349533284e-11) + fs(fs(fs(fs(1.34410850433516e-24fs + 1.62651994389757e-19) + 7.73227581824302e-15) + 3.91995893413853e-11) + 4.4838330357255e-11)) + fs(fs(fs(5.76541087238308e-20fs + 5.54349706891729e-16) + 2.99656219133923e-12) + 1.02476075145952e-8) + 6.66877024814892e-8; a1 = PRprv(PRprvfs(fs(fs(fs(6.72054252167579e-24fs + 4.89972145925773e-19) + 4.94959627062431e-15) - 1.9472051612869e-11) - 1.31490704859985e-10) + fs(fs(fs(fs(-6.72054252167579e-24fs - 4.8795598316927e-19) - 7.73227581824302e-15) + 3.91995893413853e-11) + 1.34514991071765e-10)) + fs(fs(fs(-1.72962326171492e-19fs - 5.54349706891729e-16) + 2.99656219133923e-12) + 3.07428225437857e-8) + 3.33438512407446e-7; a2 = PRprv(PRprvfs(fs(fs(fs(-1.34410850433516e-23fs - 3.26648097283848e-19) + 9.89919254124861e-15) + 3.89441032257379e-11) - 8.76604699066569e-11) + fs(fs(fs(fs(1.34410850433516e-23fs + 3.25303988779513e-19) - 1.5464551636486e-14) - 7.83991786827706e-11) + 8.967666071451e-11)) + fs(fs(fs(1.15308217447662e-19fs - 1.10869941378346e-15) - 5.99312438267846e-12) + 2.04952150291905e-8) + 6.66877024814892e-7; a3 = PRprv(PRprvfs(fs(fs(fs(1.34410850433516e-23fs - 3.26648097283848e-19) - 9.89919254124861e-15) + 3.89441032257379e-11) + 8.76604699066569e-11) + fs(fs(fs(fs(-1.34410850433516e-23fs + 3.25303988779513e-19) + 1.5464551636486e-14) - 7.83991786827706e-11) - 8.967666071451e-11)) + fs(fs(fs(1.15308217447662e-19fs + 1.10869941378346e-15) - 5.99312438267846e-12) - 2.04952150291905e-8) + 6.66877024814892e-7; a4 = PRprv(PRprvfs(fs(fs(fs(-6.72054252167579e-24fs + 4.89972145925773e-19) - 4.94959627062431e-15) - 1.9472051612869e-11) + 1.31490704859985e-10) + fs(fs(fs(fs(6.72054252167579e-24fs - 4.8795598316927e-19) + 7.73227581824302e-15) + 3.91995893413853e-11) - 1.34514991071765e-10)) + fs(fs(fs(-1.72962326171492e-19fs + 5.54349706891729e-16) + 2.99656219133923e-12) - 3.07428225437857e-8) + 3.33438512407446e-7; a5 = PRprv(PRprvfs(fs(fs(fs(1.34410850433516e-24fs - 1.63324048641924e-19) + 4.94959627062431e-15) - 1.9472051612869e-11) + 4.38302349533284e-11) + fs(fs(fs(fs(-1.34410850433516e-24fs + 1.62651994389757e-19) - 7.73227581824302e-15) + 3.91995893413853e-11) - 4.4838330357255e-11)) + fs(fs(fs(5.76541087238308e-20fs - 5.54349706891729e-16) + 2.99656219133923e-12) - 1.02476075145952e-8) + 6.66877024814892e-8; };	https://raw.githubusercontent.com/jujudusud/BPD/aab4f1ef9f2a3e4b7f15e345004b8aeee428c87e/bddi/VtbdiPresence.dsp	faust	generated automatically DO NOT MODIFY!	declare id "VTBassDI-presence"; declare name "VTBassDI-presence"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PRprv = vslider("PRprv[name:PRprv]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PRprv(PRprvpow(fs,2)(fs(5.60038187755644e-20fs + 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(-5.60038187755644e-20fs - 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(-4.1417369612656e-15fs - 2.23640373505496e-11) - 1.00571596044962e-8); b1 = PRprv(PRprvpow(fs,2)(fs(-1.68011456326693e-19fs - 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(1.68011456326693e-19fs + 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(4.1417369612656e-15fs - 2.23640373505496e-11) - 3.01714788134885e-8); b2 = PRprv(PRprvpow(fs,2)(fs(1.12007637551129e-19fs - 8.9174124661918e-15) - 3.85701231236669e-11) + pow(fs,2)(fs(-1.12007637551129e-19fs + 3.26102676985979e-15) + 8.8711283184434e-13)) + fs(fs(8.28347392253121e-15fs + 4.47280747010991e-11) - 2.01143192089923e-8); b3 = PRprv(PRprvpow(fs,2)(fs(1.12007637551129e-19fs + 8.9174124661918e-15) - 3.85701231236669e-11) + pow(fs,2)(fs(-1.12007637551129e-19fs - 3.26102676985979e-15) + 8.8711283184434e-13)) + fs(fs(-8.28347392253121e-15fs + 4.47280747010991e-11) + 2.01143192089923e-8); b4 = PRprv(PRprvpow(fs,2)(fs(-1.68011456326693e-19fs + 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(1.68011456326693e-19fs - 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(-4.1417369612656e-15fs - 2.23640373505496e-11) + 3.01714788134885e-8); b5 = PRprv(PRprvpow(fs,2)(fs(5.60038187755644e-20fs - 4.4587062330959e-15) + 1.92850615618335e-11) + pow(fs,2)(fs(-5.60038187755644e-20fs + 1.6305133849299e-15) - 4.4355641592217e-13)) + fs(fs(4.1417369612656e-15fs - 2.23640373505496e-11) + 1.00571596044962e-8); a0 = PRprv(PRprvfs(fs(fs(fs(-1.34410850433516e-24fs - 1.63324048641924e-19) - 4.94959627062431e-15) - 1.9472051612869e-11) - 4.38302349533284e-11) + fs(fs(fs(fs(1.34410850433516e-24fs + 1.62651994389757e-19) + 7.73227581824302e-15) + 3.91995893413853e-11) + 4.4838330357255e-11)) + fs(fs(fs(5.76541087238308e-20fs + 5.54349706891729e-16) + 2.99656219133923e-12) + 1.02476075145952e-8) + 6.66877024814892e-8; a1 = PRprv(PRprvfs(fs(fs(fs(6.72054252167579e-24fs + 4.89972145925773e-19) + 4.94959627062431e-15) - 1.9472051612869e-11) - 1.31490704859985e-10) + fs(fs(fs(fs(-6.72054252167579e-24fs - 4.8795598316927e-19) - 7.73227581824302e-15) + 3.91995893413853e-11) + 1.34514991071765e-10)) + fs(fs(fs(-1.72962326171492e-19fs - 5.54349706891729e-16) + 2.99656219133923e-12) + 3.07428225437857e-8) + 3.33438512407446e-7; a2 = PRprv(PRprvfs(fs(fs(fs(-1.34410850433516e-23fs - 3.26648097283848e-19) + 9.89919254124861e-15) + 3.89441032257379e-11) - 8.76604699066569e-11) + fs(fs(fs(fs(1.34410850433516e-23fs + 3.25303988779513e-19) - 1.5464551636486e-14) - 7.83991786827706e-11) + 8.967666071451e-11)) + fs(fs(fs(1.15308217447662e-19fs - 1.10869941378346e-15) - 5.99312438267846e-12) + 2.04952150291905e-8) + 6.66877024814892e-7; a3 = PRprv(PRprvfs(fs(fs(fs(1.34410850433516e-23fs - 3.26648097283848e-19) - 9.89919254124861e-15) + 3.89441032257379e-11) + 8.76604699066569e-11) + fs(fs(fs(fs(-1.34410850433516e-23fs + 3.25303988779513e-19) + 1.5464551636486e-14) - 7.83991786827706e-11) - 8.967666071451e-11)) + fs(fs(fs(1.15308217447662e-19fs + 1.10869941378346e-15) - 5.99312438267846e-12) - 2.04952150291905e-8) + 6.66877024814892e-7; a4 = PRprv(PRprvfs(fs(fs(fs(-6.72054252167579e-24fs + 4.89972145925773e-19) - 4.94959627062431e-15) - 1.9472051612869e-11) + 1.31490704859985e-10) + fs(fs(fs(fs(6.72054252167579e-24fs - 4.8795598316927e-19) + 7.73227581824302e-15) + 3.91995893413853e-11) - 1.34514991071765e-10)) + fs(fs(fs(-1.72962326171492e-19fs + 5.54349706891729e-16) + 2.99656219133923e-12) - 3.07428225437857e-8) + 3.33438512407446e-7; a5 = PRprv(PRprvfs(fs(fs(fs(1.34410850433516e-24fs - 1.63324048641924e-19) + 4.94959627062431e-15) - 1.9472051612869e-11) + 4.38302349533284e-11) + fs(fs(fs(fs(-1.34410850433516e-24fs + 1.62651994389757e-19) - 7.73227581824302e-15) + 3.91995893413853e-11) - 4.4838330357255e-11)) + fs(fs(fs(5.76541087238308e-20fs - 5.54349706891729e-16) + 2.99656219133923e-12) - 1.02476075145952e-8) + 6.66877024814892e-8; };
d87129f0dbf64ffb917f88475fadb7e3695b56e0a584fe264b0214dbf83cb96e	jujudusud/BPD	bddi-p11.dsp	// generated automatically // DO NOT MODIFY! declare id "bddi-p11"; declare name "BDDI part 11"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PR24v = vslider("PR24v[name:PR24v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PR41v = vslider("PR41v[name:PR41v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PR24v(PR24vpow(fs,3)(2.24093624107205e-19fs + 1.12046812053603e-15) + pow(fs,2)(fs(-2.91321711339366e-19fs - 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(-1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(-4.4818724821441e-19pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(4.4818724821441e-19fs + 1.01860738230548e-15) + pow(fs,2)(2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(-1.90479580491124e-16fs + 1.84877239888444e-14) + 2.54651845576369e-11)) + fs(fs(fs(-7.39508959553777e-21fs - 1.86703602924918e-16) - 7.03312746223551e-13) - 2.80117030134006e-11); b1 = PR24v(PR24vpow(fs,3)(-6.72280872321615e-19fs - 1.12046812053603e-15) + pow(fs,2)(fs(8.739651340181e-19fs + 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464323e-18pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464323e-18fs - 1.01860738230548e-15) + pow(fs,2)(-2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(1.90479580491124e-16fs + 1.84877239888444e-14) + 7.63955536729108e-11)) + fs(fs(fs(2.21852687866133e-20fs + 1.86703602924918e-16) - 7.03312746223551e-13) - 8.40351090402019e-11); b2 = PR24v(PR24vpow(fs,3)(4.4818724821441e-19fs - 2.24093624107205e-15) + pow(fs,2)(fs(-5.82643422678733e-19fs + 2.50781137523608e-15) - 1.00842130848242e-12)) + PR41v(PR24v(2.03721476461095e-15PR24vpow(fs,3) + pow(fs,2)(-8.9637449642882e-19pow(fs,2) + 9.16746644074929e-13)) + PR41v(PR24vpow(fs,3)(8.9637449642882e-19fs - 2.03721476461095e-15) + pow(fs,2)(-4.4818724821441e-16fs - 1.01860738230548e-12)) + fs(fs(3.80959160982249e-16fs - 3.69754479776888e-14) + 5.09303691152739e-11)) + fs(fs(fs(-1.47901791910755e-20fs + 3.73407205849836e-16) + 1.4066254924471e-12) - 5.60234060268012e-11); b3 = PR24v(PR24vpow(fs,3)(4.4818724821441e-19fs + 2.24093624107205e-15) + pow(fs,2)(fs(-5.82643422678733e-19fs - 2.50781137523608e-15) - 1.00842130848242e-12)) + PR41v(PR24v(-2.03721476461095e-15PR24vpow(fs,3) + pow(fs,2)(-8.9637449642882e-19pow(fs,2) + 9.16746644074929e-13)) + PR41v(PR24vpow(fs,3)(8.9637449642882e-19fs + 2.03721476461095e-15) + pow(fs,2)(4.4818724821441e-16fs - 1.01860738230548e-12)) + fs(fs(-3.80959160982249e-16fs - 3.69754479776888e-14) - 5.09303691152739e-11)) + fs(fs(fs(-1.47901791910755e-20fs - 3.73407205849836e-16) + 1.4066254924471e-12) + 5.60234060268012e-11); b4 = PR24v(PR24vpow(fs,3)(-6.72280872321615e-19fs + 1.12046812053603e-15) + pow(fs,2)(fs(8.739651340181e-19fs - 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(-1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464323e-18pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464323e-18fs + 1.01860738230548e-15) + pow(fs,2)(2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(-1.90479580491124e-16fs + 1.84877239888444e-14) - 7.63955536729108e-11)) + fs(fs(fs(2.21852687866133e-20fs - 1.86703602924918e-16) - 7.03312746223551e-13) + 8.40351090402019e-11); b5 = PR24v(PR24vpow(fs,3)(2.24093624107205e-19fs - 1.12046812053603e-15) + pow(fs,2)(fs(-2.91321711339366e-19fs + 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(-4.4818724821441e-19pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(4.4818724821441e-19fs - 1.01860738230548e-15) + pow(fs,2)(-2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(1.90479580491124e-16fs + 1.84877239888444e-14) - 2.54651845576369e-11)) + fs(fs(fs(-7.39508959553777e-21fs + 1.86703602924918e-16) - 7.03312746223551e-13) + 2.80117030134006e-11); a0 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403223e-25fs - 2.32516306039478e-19) - 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(4.43710939403223e-25fs + 1.65110734431555e-19) - 9.85016940777801e-17) - 1.00715463535881e-13) - 2.566922789936e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.95807292935482e-24fs - 5.2281698062006e-20) - 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(2.95807292935482e-24fs - 3.97088779324146e-19) + 9.17810373882701e-17) - 4.07240118199924e-13) + 2.29189534815714e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.95807292935482e-24fs + 5.2281698062006e-20) + 1.13066837175752e-16) + pow(fs,2)(fs(fs(-2.95807292935482e-24fs + 3.97088779324146e-19) + 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(-9.76164066687091e-26fs - 4.51455770428789e-19) - 1.20654438422157e-15) - 2.24844172006165e-13) - 5.37322131623508e-12)) + fs(fs(fs(fs(9.76164066687091e-26fs + 4.51455770428789e-19) + 1.24014733506417e-15) + 7.01362333734443e-13) + 5.11099655732833e-11) - 1.27327519342064e-10) + fs(fs(fs(fs(1.46424610003064e-26fs + 7.51326092582141e-20) + 3.92589162530567e-16) + 2.31184202006561e-13) + 4.42912797759979e-11) + 1.42606821663111e-9; a1 = PR24v(PR24vpow(fs,2)(fs(fs(2.21855469701612e-24fs + 6.97548918118433e-19) + 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(-2.21855469701612e-24fs - 4.95332203294664e-19) + 9.85016940777801e-17) - 1.00715463535881e-13) - 7.70076836980801e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(1.47903646467741e-23fs + 1.56845094186018e-19) + 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(-1.47903646467741e-23fs + 1.19126633797244e-18) - 9.17810373882701e-17) - 4.07240118199924e-13) + 6.87568604447143e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-1.47903646467741e-23fs - 1.56845094186018e-19) - 1.13066837175752e-16) + pow(fs,2)(fs(fs(1.47903646467741e-23fs - 1.19126633797244e-18) - 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(4.88082033343545e-25fs + 1.35436731128637e-18) + 1.20654438422157e-15) - 2.24844172006165e-13) - 1.61196639487052e-11)) + fs(fs(fs(fs(-4.88082033343545e-25fs - 1.35436731128637e-18) - 1.24014733506417e-15) + 7.01362333734443e-13) + 1.5332989671985e-10) - 6.36637596710318e-10) + fs(fs(fs(fs(-7.32123050015318e-26fs - 2.25397827774642e-19) - 3.92589162530567e-16) + 2.31184202006561e-13) + 1.32873839327994e-10) + 7.13034108315556e-9; a2 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403223e-24fs - 4.65032612078955e-19) + 4.79993767298874e-16) + 1.14085457330489e-13) + fs(fs(fs(fs(4.43710939403223e-24fs + 3.30221468863109e-19) + 1.9700338815556e-16) + 2.01430927071761e-13) - 5.133845579872e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.95807292935482e-23fs - 1.04563396124012e-19) + 2.26267614966033e-15) - 1.01862015473651e-14) + fs(fs(fs(fs(2.95807292935482e-23fs - 7.94177558648292e-19) - 1.8356207477654e-16) + 8.14480236399848e-13) + 4.58379069631429e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.95807292935482e-23fs + 1.04563396124012e-19) - 2.26133674351505e-16) + pow(fs,2)(fs(fs(-2.95807292935482e-23fs + 7.94177558648292e-19) - 1.85298040053229e-15) - 9.15739519108121e-14)) + fs(fs(fs(fs(-9.76164066687091e-25fs - 9.02911540857577e-19) + 2.41308876844315e-15) + 4.4968834401233e-13) - 1.07464426324702e-11)) + fs(fs(fs(fs(9.76164066687091e-25fs + 9.02911540857577e-19) - 2.48029467012834e-15) - 1.40272466746889e-12) + 1.02219931146567e-10) - 1.27327519342064e-9) + fs(fs(fs(fs(1.46424610003064e-25fs + 1.50265218516428e-19) - 7.85178325061135e-16) - 4.62368404013121e-13) + 8.85825595519958e-11) + 1.42606821663111e-8; a3 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403223e-24fs - 4.65032612078955e-19) - 4.79993767298874e-16) + 1.14085457330489e-13) + fs(fs(fs(fs(-4.43710939403223e-24fs + 3.30221468863109e-19) - 1.9700338815556e-16) + 2.01430927071761e-13) + 5.133845579872e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.95807292935482e-23fs - 1.04563396124012e-19) - 2.26267614966033e-15) - 1.01862015473651e-14) + fs(fs(fs(fs(-2.95807292935482e-23fs - 7.94177558648292e-19) + 1.8356207477654e-16) + 8.14480236399848e-13) - 4.58379069631429e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.95807292935482e-23fs + 1.04563396124012e-19) + 2.26133674351505e-16) + pow(fs,2)(fs(fs(2.95807292935482e-23fs + 7.94177558648292e-19) + 1.85298040053229e-15) - 9.15739519108121e-14)) + fs(fs(fs(fs(9.76164066687091e-25fs - 9.02911540857577e-19) - 2.41308876844315e-15) + 4.4968834401233e-13) + 1.07464426324702e-11)) + fs(fs(fs(fs(-9.76164066687091e-25fs + 9.02911540857577e-19) + 2.48029467012834e-15) - 1.40272466746889e-12) - 1.02219931146567e-10) - 1.27327519342064e-9) + fs(fs(fs(fs(-1.46424610003064e-25fs + 1.50265218516428e-19) + 7.85178325061135e-16) - 4.62368404013121e-13) - 8.85825595519958e-11) + 1.42606821663111e-8; a4 = PR24v(PR24vpow(fs,2)(fs(fs(-2.21855469701612e-24fs + 6.97548918118433e-19) - 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(2.21855469701612e-24fs - 4.95332203294664e-19) - 9.85016940777801e-17) - 1.00715463535881e-13) + 7.70076836980801e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-1.47903646467741e-23fs + 1.56845094186018e-19) - 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(1.47903646467741e-23fs + 1.19126633797244e-18) + 9.17810373882701e-17) - 4.07240118199924e-13) - 6.87568604447143e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(1.47903646467741e-23fs - 1.56845094186018e-19) + 1.13066837175752e-16) + pow(fs,2)(fs(fs(-1.47903646467741e-23fs - 1.19126633797244e-18) + 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(-4.88082033343545e-25fs + 1.35436731128637e-18) - 1.20654438422157e-15) - 2.24844172006165e-13) + 1.61196639487052e-11)) + fs(fs(fs(fs(4.88082033343545e-25fs - 1.35436731128637e-18) + 1.24014733506417e-15) + 7.01362333734443e-13) - 1.5332989671985e-10) - 6.36637596710318e-10) + fs(fs(fs(fs(7.32123050015318e-26fs - 2.25397827774642e-19) + 3.92589162530567e-16) + 2.31184202006561e-13) - 1.32873839327994e-10) + 7.13034108315556e-9; a5 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403223e-25fs - 2.32516306039478e-19) + 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(-4.43710939403223e-25fs + 1.65110734431555e-19) + 9.85016940777801e-17) - 1.00715463535881e-13) + 2.566922789936e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.95807292935482e-24fs - 5.2281698062006e-20) + 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(-2.95807292935482e-24fs - 3.97088779324146e-19) - 9.17810373882701e-17) - 4.07240118199924e-13) - 2.29189534815714e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.95807292935482e-24fs + 5.2281698062006e-20) - 1.13066837175752e-16) + pow(fs,2)(fs(fs(2.95807292935482e-24fs + 3.97088779324146e-19) - 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(9.76164066687091e-26fs - 4.51455770428789e-19) + 1.20654438422157e-15) - 2.24844172006165e-13) + 5.37322131623508e-12)) + fs(fs(fs(fs(-9.76164066687091e-26fs + 4.51455770428789e-19) - 1.24014733506417e-15) + 7.01362333734443e-13) - 5.11099655732833e-11) - 1.27327519342064e-10) + fs(fs(fs(fs(-1.46424610003064e-26fs + 7.51326092582141e-20) - 3.92589162530567e-16) + 2.31184202006561e-13) - 4.42912797759979e-11) + 1.42606821663111e-9; };	https://raw.githubusercontent.com/jujudusud/BPD/f6f931ae528147d59bcf3d4e0a59586338671a58/bddi-dsp/bddi-p11.dsp	faust	generated automatically DO NOT MODIFY!	declare id "bddi-p11"; declare name "BDDI part 11"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PR24v = vslider("PR24v[name:PR24v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PR41v = vslider("PR41v[name:PR41v]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); b0 = PR24v(PR24vpow(fs,3)(2.24093624107205e-19fs + 1.12046812053603e-15) + pow(fs,2)(fs(-2.91321711339366e-19fs - 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(-1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(-4.4818724821441e-19pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(4.4818724821441e-19fs + 1.01860738230548e-15) + pow(fs,2)(2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(-1.90479580491124e-16fs + 1.84877239888444e-14) + 2.54651845576369e-11)) + fs(fs(fs(-7.39508959553777e-21fs - 1.86703602924918e-16) - 7.03312746223551e-13) - 2.80117030134006e-11); b1 = PR24v(PR24vpow(fs,3)(-6.72280872321615e-19fs - 1.12046812053603e-15) + pow(fs,2)(fs(8.739651340181e-19fs + 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464323e-18pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464323e-18fs - 1.01860738230548e-15) + pow(fs,2)(-2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(1.90479580491124e-16fs + 1.84877239888444e-14) + 7.63955536729108e-11)) + fs(fs(fs(2.21852687866133e-20fs + 1.86703602924918e-16) - 7.03312746223551e-13) - 8.40351090402019e-11); b2 = PR24v(PR24vpow(fs,3)(4.4818724821441e-19fs - 2.24093624107205e-15) + pow(fs,2)(fs(-5.82643422678733e-19fs + 2.50781137523608e-15) - 1.00842130848242e-12)) + PR41v(PR24v(2.03721476461095e-15PR24vpow(fs,3) + pow(fs,2)(-8.9637449642882e-19pow(fs,2) + 9.16746644074929e-13)) + PR41v(PR24vpow(fs,3)(8.9637449642882e-19fs - 2.03721476461095e-15) + pow(fs,2)(-4.4818724821441e-16fs - 1.01860738230548e-12)) + fs(fs(3.80959160982249e-16fs - 3.69754479776888e-14) + 5.09303691152739e-11)) + fs(fs(fs(-1.47901791910755e-20fs + 3.73407205849836e-16) + 1.4066254924471e-12) - 5.60234060268012e-11); b3 = PR24v(PR24vpow(fs,3)(4.4818724821441e-19fs + 2.24093624107205e-15) + pow(fs,2)(fs(-5.82643422678733e-19fs - 2.50781137523608e-15) - 1.00842130848242e-12)) + PR41v(PR24v(-2.03721476461095e-15PR24vpow(fs,3) + pow(fs,2)(-8.9637449642882e-19pow(fs,2) + 9.16746644074929e-13)) + PR41v(PR24vpow(fs,3)(8.9637449642882e-19fs + 2.03721476461095e-15) + pow(fs,2)(4.4818724821441e-16fs - 1.01860738230548e-12)) + fs(fs(-3.80959160982249e-16fs - 3.69754479776888e-14) - 5.09303691152739e-11)) + fs(fs(fs(-1.47901791910755e-20fs - 3.73407205849836e-16) + 1.4066254924471e-12) + 5.60234060268012e-11); b4 = PR24v(PR24vpow(fs,3)(-6.72280872321615e-19fs + 1.12046812053603e-15) + pow(fs,2)(fs(8.739651340181e-19fs - 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(-1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464323e-18pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464323e-18fs + 1.01860738230548e-15) + pow(fs,2)(2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(-1.90479580491124e-16fs + 1.84877239888444e-14) - 7.63955536729108e-11)) + fs(fs(fs(2.21852687866133e-20fs - 1.86703602924918e-16) - 7.03312746223551e-13) + 8.40351090402019e-11); b5 = PR24v(PR24vpow(fs,3)(2.24093624107205e-19fs - 1.12046812053603e-15) + pow(fs,2)(fs(-2.91321711339366e-19fs + 1.25390568761804e-15) + 5.04210654241211e-13)) + PR41v(PR24v(1.01860738230548e-15PR24vpow(fs,3) + pow(fs,2)(-4.4818724821441e-19pow(fs,2) - 4.58373322037465e-13)) + PR41v(PR24vpow(fs,3)(4.4818724821441e-19fs - 1.01860738230548e-15) + pow(fs,2)(-2.24093624107205e-16fs + 5.09303691152739e-13)) + fs(fs(1.90479580491124e-16fs + 1.84877239888444e-14) - 2.54651845576369e-11)) + fs(fs(fs(-7.39508959553777e-21fs + 1.86703602924918e-16) - 7.03312746223551e-13) + 2.80117030134006e-11); a0 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403223e-25fs - 2.32516306039478e-19) - 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(4.43710939403223e-25fs + 1.65110734431555e-19) - 9.85016940777801e-17) - 1.00715463535881e-13) - 2.566922789936e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.95807292935482e-24fs - 5.2281698062006e-20) - 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(2.95807292935482e-24fs - 3.97088779324146e-19) + 9.17810373882701e-17) - 4.07240118199924e-13) + 2.29189534815714e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.95807292935482e-24fs + 5.2281698062006e-20) + 1.13066837175752e-16) + pow(fs,2)(fs(fs(-2.95807292935482e-24fs + 3.97088779324146e-19) + 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(-9.76164066687091e-26fs - 4.51455770428789e-19) - 1.20654438422157e-15) - 2.24844172006165e-13) - 5.37322131623508e-12)) + fs(fs(fs(fs(9.76164066687091e-26fs + 4.51455770428789e-19) + 1.24014733506417e-15) + 7.01362333734443e-13) + 5.11099655732833e-11) - 1.27327519342064e-10) + fs(fs(fs(fs(1.46424610003064e-26fs + 7.51326092582141e-20) + 3.92589162530567e-16) + 2.31184202006561e-13) + 4.42912797759979e-11) + 1.42606821663111e-9; a1 = PR24v(PR24vpow(fs,2)(fs(fs(2.21855469701612e-24fs + 6.97548918118433e-19) + 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(-2.21855469701612e-24fs - 4.95332203294664e-19) + 9.85016940777801e-17) - 1.00715463535881e-13) - 7.70076836980801e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(1.47903646467741e-23fs + 1.56845094186018e-19) + 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(-1.47903646467741e-23fs + 1.19126633797244e-18) - 9.17810373882701e-17) - 4.07240118199924e-13) + 6.87568604447143e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-1.47903646467741e-23fs - 1.56845094186018e-19) - 1.13066837175752e-16) + pow(fs,2)(fs(fs(1.47903646467741e-23fs - 1.19126633797244e-18) - 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(4.88082033343545e-25fs + 1.35436731128637e-18) + 1.20654438422157e-15) - 2.24844172006165e-13) - 1.61196639487052e-11)) + fs(fs(fs(fs(-4.88082033343545e-25fs - 1.35436731128637e-18) - 1.24014733506417e-15) + 7.01362333734443e-13) + 1.5332989671985e-10) - 6.36637596710318e-10) + fs(fs(fs(fs(-7.32123050015318e-26fs - 2.25397827774642e-19) - 3.92589162530567e-16) + 2.31184202006561e-13) + 1.32873839327994e-10) + 7.13034108315556e-9; a2 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403223e-24fs - 4.65032612078955e-19) + 4.79993767298874e-16) + 1.14085457330489e-13) + fs(fs(fs(fs(4.43710939403223e-24fs + 3.30221468863109e-19) + 1.9700338815556e-16) + 2.01430927071761e-13) - 5.133845579872e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.95807292935482e-23fs - 1.04563396124012e-19) + 2.26267614966033e-15) - 1.01862015473651e-14) + fs(fs(fs(fs(2.95807292935482e-23fs - 7.94177558648292e-19) - 1.8356207477654e-16) + 8.14480236399848e-13) + 4.58379069631429e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.95807292935482e-23fs + 1.04563396124012e-19) - 2.26133674351505e-16) + pow(fs,2)(fs(fs(-2.95807292935482e-23fs + 7.94177558648292e-19) - 1.85298040053229e-15) - 9.15739519108121e-14)) + fs(fs(fs(fs(-9.76164066687091e-25fs - 9.02911540857577e-19) + 2.41308876844315e-15) + 4.4968834401233e-13) - 1.07464426324702e-11)) + fs(fs(fs(fs(9.76164066687091e-25fs + 9.02911540857577e-19) - 2.48029467012834e-15) - 1.40272466746889e-12) + 1.02219931146567e-10) - 1.27327519342064e-9) + fs(fs(fs(fs(1.46424610003064e-25fs + 1.50265218516428e-19) - 7.85178325061135e-16) - 4.62368404013121e-13) + 8.85825595519958e-11) + 1.42606821663111e-8; a3 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403223e-24fs - 4.65032612078955e-19) - 4.79993767298874e-16) + 1.14085457330489e-13) + fs(fs(fs(fs(-4.43710939403223e-24fs + 3.30221468863109e-19) - 1.9700338815556e-16) + 2.01430927071761e-13) + 5.133845579872e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.95807292935482e-23fs - 1.04563396124012e-19) - 2.26267614966033e-15) - 1.01862015473651e-14) + fs(fs(fs(fs(-2.95807292935482e-23fs - 7.94177558648292e-19) + 1.8356207477654e-16) + 8.14480236399848e-13) - 4.58379069631429e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.95807292935482e-23fs + 1.04563396124012e-19) + 2.26133674351505e-16) + pow(fs,2)(fs(fs(2.95807292935482e-23fs + 7.94177558648292e-19) + 1.85298040053229e-15) - 9.15739519108121e-14)) + fs(fs(fs(fs(9.76164066687091e-25fs - 9.02911540857577e-19) - 2.41308876844315e-15) + 4.4968834401233e-13) + 1.07464426324702e-11)) + fs(fs(fs(fs(-9.76164066687091e-25fs + 9.02911540857577e-19) + 2.48029467012834e-15) - 1.40272466746889e-12) - 1.02219931146567e-10) - 1.27327519342064e-9) + fs(fs(fs(fs(-1.46424610003064e-25fs + 1.50265218516428e-19) + 7.85178325061135e-16) - 4.62368404013121e-13) - 8.85825595519958e-11) + 1.42606821663111e-8; a4 = PR24v(PR24vpow(fs,2)(fs(fs(-2.21855469701612e-24fs + 6.97548918118433e-19) - 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(2.21855469701612e-24fs - 4.95332203294664e-19) - 9.85016940777801e-17) - 1.00715463535881e-13) + 7.70076836980801e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-1.47903646467741e-23fs + 1.56845094186018e-19) - 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(1.47903646467741e-23fs + 1.19126633797244e-18) + 9.17810373882701e-17) - 4.07240118199924e-13) - 6.87568604447143e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(1.47903646467741e-23fs - 1.56845094186018e-19) + 1.13066837175752e-16) + pow(fs,2)(fs(fs(-1.47903646467741e-23fs - 1.19126633797244e-18) + 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(-4.88082033343545e-25fs + 1.35436731128637e-18) - 1.20654438422157e-15) - 2.24844172006165e-13) + 1.61196639487052e-11)) + fs(fs(fs(fs(4.88082033343545e-25fs - 1.35436731128637e-18) + 1.24014733506417e-15) + 7.01362333734443e-13) - 1.5332989671985e-10) - 6.36637596710318e-10) + fs(fs(fs(fs(7.32123050015318e-26fs - 2.25397827774642e-19) + 3.92589162530567e-16) + 2.31184202006561e-13) - 1.32873839327994e-10) + 7.13034108315556e-9; a5 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403223e-25fs - 2.32516306039478e-19) + 2.39996883649437e-16) - 5.70427286652445e-14) + fs(fs(fs(fs(-4.43710939403223e-25fs + 1.65110734431555e-19) + 9.85016940777801e-17) - 1.00715463535881e-13) + 2.566922789936e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.95807292935482e-24fs - 5.2281698062006e-20) + 1.13133807483017e-15) + 5.09310077368254e-15) + fs(fs(fs(fs(-2.95807292935482e-24fs - 3.97088779324146e-19) - 9.17810373882701e-17) - 4.07240118199924e-13) - 2.29189534815714e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.95807292935482e-24fs + 5.2281698062006e-20) - 1.13066837175752e-16) + pow(fs,2)(fs(fs(2.95807292935482e-24fs + 3.97088779324146e-19) - 9.26490200266144e-16) + 4.57869759554061e-14)) + fs(fs(fs(fs(9.76164066687091e-26fs - 4.51455770428789e-19) + 1.20654438422157e-15) - 2.24844172006165e-13) + 5.37322131623508e-12)) + fs(fs(fs(fs(-9.76164066687091e-26fs + 4.51455770428789e-19) - 1.24014733506417e-15) + 7.01362333734443e-13) - 5.11099655732833e-11) - 1.27327519342064e-10) + fs(fs(fs(fs(-1.46424610003064e-26fs + 7.51326092582141e-20) - 3.92589162530567e-16) + 2.31184202006561e-13) - 4.42912797759979e-11) + 1.42606821663111e-9; };
f77c0ccc2336851d5db0de97a0cc63950d867c043753a5dc7d030b36e07305a6	jujudusud/BPD	BddiBassTreble.dsp	// generated automatically // DO NOT MODIFY! declare id "BddiBassTreble"; declare name "Tech21 Bass Driver: Combo Filter Bass+Treble"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PR24v = vslider("PR24v[name:treble]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PR41v = vslider("PR41v[name:bass]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PR24v(PR24vpow(fs,3)(2.24093624107316e-19fs + 1.12046812053658e-15) + pow(fs,2)(fs(-2.9132171133951e-19fs - 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(-1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(-4.48187248214631e-19pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(4.48187248214631e-19fs + 1.01860738230598e-15) + pow(fs,2)(2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(-1.90479580491218e-16fs + 1.84877239888535e-14) + 2.54651845576495e-11)) + fs(fs(fs(-7.39508959554141e-21fs - 1.8670360292501e-16) - 7.03312746223898e-13) - 2.80117030134144e-11); b1 = PR24v(PR24vpow(fs,3)(-6.72280872321947e-19fs - 1.12046812053658e-15) + pow(fs,2)(fs(8.73965134018531e-19fs + 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464389e-18pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464389e-18fs - 1.01860738230598e-15) + pow(fs,2)(-2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(1.90479580491218e-16fs + 1.84877239888535e-14) + 7.63955536729485e-11)) + fs(fs(fs(2.21852687866242e-20fs + 1.8670360292501e-16) - 7.03312746223898e-13) - 8.40351090402433e-11); b2 = PR24v(PR24vpow(fs,3)(4.48187248214631e-19fs - 2.24093624107316e-15) + pow(fs,2)(fs(-5.82643422679021e-19fs + 2.50781137523732e-15) - 1.00842130848292e-12)) + PR41v(PR24v(2.03721476461196e-15PR24vpow(fs,3) + pow(fs,2)(-8.96374496429262e-19pow(fs,2) + 9.16746644075382e-13)) + PR41v(PR24vpow(fs,3)(8.96374496429262e-19fs - 2.03721476461196e-15) + pow(fs,2)(-4.48187248214631e-16fs - 1.01860738230598e-12)) + fs(fs(3.80959160982437e-16fs - 3.69754479777071e-14) + 5.0930369115299e-11)) + fs(fs(fs(-1.47901791910828e-20fs + 3.7340720585002e-16) + 1.4066254924478e-12) - 5.60234060268289e-11); b3 = PR24v(PR24vpow(fs,3)(4.48187248214631e-19fs + 2.24093624107316e-15) + pow(fs,2)(fs(-5.82643422679021e-19fs - 2.50781137523732e-15) - 1.00842130848292e-12)) + PR41v(PR24v(-2.03721476461196e-15PR24vpow(fs,3) + pow(fs,2)(-8.96374496429262e-19pow(fs,2) + 9.16746644075382e-13)) + PR41v(PR24vpow(fs,3)(8.96374496429262e-19fs + 2.03721476461196e-15) + pow(fs,2)(4.48187248214631e-16fs - 1.01860738230598e-12)) + fs(fs(-3.80959160982437e-16fs - 3.69754479777071e-14) - 5.0930369115299e-11)) + fs(fs(fs(-1.47901791910828e-20fs - 3.7340720585002e-16) + 1.4066254924478e-12) + 5.60234060268289e-11); b4 = PR24v(PR24vpow(fs,3)(-6.72280872321947e-19fs + 1.12046812053658e-15) + pow(fs,2)(fs(8.73965134018531e-19fs - 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(-1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464389e-18pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464389e-18fs + 1.01860738230598e-15) + pow(fs,2)(2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(-1.90479580491218e-16fs + 1.84877239888535e-14) - 7.63955536729485e-11)) + fs(fs(fs(2.21852687866242e-20fs - 1.8670360292501e-16) - 7.03312746223898e-13) + 8.40351090402433e-11); b5 = PR24v(PR24vpow(fs,3)(2.24093624107316e-19fs - 1.12046812053658e-15) + pow(fs,2)(fs(-2.9132171133951e-19fs + 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(-4.48187248214631e-19pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(4.48187248214631e-19fs - 1.01860738230598e-15) + pow(fs,2)(-2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(1.90479580491218e-16fs + 1.84877239888535e-14) - 2.54651845576495e-11)) + fs(fs(fs(-7.39508959554141e-21fs + 1.8670360292501e-16) - 7.03312746223898e-13) + 2.80117030134144e-11); a0 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403325e-25fs - 2.32516306039472e-19) - 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(4.43710939403325e-25fs + 1.65110734431516e-19) - 9.85016940781327e-17) - 1.00715463535771e-13) - 2.56692278993659e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.9580729293555e-24fs - 5.22816980620181e-20) - 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(2.9580729293555e-24fs - 3.97088779324355e-19) + 9.17810373882912e-17) - 4.07240118200139e-13) + 2.29189534815767e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.9580729293555e-24fs + 5.22816980620181e-20) + 1.13066837175778e-16) + pow(fs,2)(fs(fs(-2.9580729293555e-24fs + 3.97088779324355e-19) + 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(-9.76164066687316e-26fs - 4.51455770428893e-19) - 1.20654438422179e-15) - 2.24844172006083e-13) - 5.37322131623632e-12)) + fs(fs(fs(fs(9.76164066687316e-26fs + 4.51455770428893e-19) + 1.2401473350644e-15) + 7.01362333734609e-13) + 5.11099655733017e-11) - 1.27327519342093e-10) + fs(fs(fs(fs(1.46424610003097e-26fs + 7.51326092582295e-20) + 3.92589162530609e-16) + 2.31184202006429e-13) + 4.42912797760007e-11) + 1.42606821663144e-9; a1 = PR24v(PR24vpow(fs,2)(fs(fs(2.21855469701663e-24fs + 6.97548918118416e-19) + 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(-2.21855469701663e-24fs - 4.95332203294548e-19) + 9.85016940781327e-17) - 1.00715463535771e-13) - 7.70076836980978e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(1.47903646467775e-23fs + 1.56845094186054e-19) + 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(-1.47903646467775e-23fs + 1.19126633797307e-18) - 9.17810373882912e-17) - 4.07240118200139e-13) + 6.87568604447302e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-1.47903646467775e-23fs - 1.56845094186054e-19) - 1.13066837175778e-16) + pow(fs,2)(fs(fs(1.47903646467775e-23fs - 1.19126633797307e-18) - 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(4.88082033343658e-25fs + 1.35436731128668e-18) + 1.20654438422179e-15) - 2.24844172006083e-13) - 1.6119663948709e-11)) + fs(fs(fs(fs(-4.88082033343658e-25fs - 1.35436731128668e-18) - 1.2401473350644e-15) + 7.01362333734609e-13) + 1.53329896719905e-10) - 6.36637596710464e-10) + fs(fs(fs(fs(-7.32123050015487e-26fs - 2.25397827774688e-19) - 3.92589162530609e-16) + 2.31184202006429e-13) + 1.32873839328002e-10) + 7.1303410831572e-9; a2 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403325e-24fs - 4.65032612078944e-19) + 4.79993767298395e-16) + 1.14085457330515e-13) + fs(fs(fs(fs(4.43710939403325e-24fs + 3.30221468863032e-19) + 1.97003388156265e-16) + 2.01430927071542e-13) - 5.13384557987319e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.9580729293555e-23fs - 1.04563396124036e-19) + 2.26267614966139e-15) - 1.01862015473674e-14) + fs(fs(fs(fs(2.9580729293555e-23fs - 7.94177558648711e-19) - 1.83562074776582e-16) + 8.14480236400277e-13) + 4.58379069631534e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.9580729293555e-23fs + 1.04563396124036e-19) - 2.26133674351557e-16) + pow(fs,2)(fs(fs(-2.9580729293555e-23fs + 7.94177558648711e-19) - 1.85298040053325e-15) - 9.15739519108332e-14)) + fs(fs(fs(fs(-9.76164066687316e-25fs - 9.02911540857785e-19) + 2.41308876844358e-15) + 4.49688344012165e-13) - 1.07464426324726e-11)) + fs(fs(fs(fs(9.76164066687316e-25fs + 9.02911540857785e-19) - 2.48029467012881e-15) - 1.40272466746922e-12) + 1.02219931146603e-10) - 1.27327519342093e-9) + fs(fs(fs(fs(1.46424610003097e-25fs + 1.50265218516459e-19) - 7.85178325061217e-16) - 4.62368404012858e-13) + 8.85825595520015e-11) + 1.42606821663144e-8; a3 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403325e-24fs - 4.65032612078944e-19) - 4.79993767298395e-16) + 1.14085457330515e-13) + fs(fs(fs(fs(-4.43710939403325e-24fs + 3.30221468863032e-19) - 1.97003388156265e-16) + 2.01430927071542e-13) + 5.13384557987319e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.9580729293555e-23fs - 1.04563396124036e-19) - 2.26267614966139e-15) - 1.01862015473674e-14) + fs(fs(fs(fs(-2.9580729293555e-23fs - 7.94177558648711e-19) + 1.83562074776582e-16) + 8.14480236400277e-13) - 4.58379069631534e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.9580729293555e-23fs + 1.04563396124036e-19) + 2.26133674351557e-16) + pow(fs,2)(fs(fs(2.9580729293555e-23fs + 7.94177558648711e-19) + 1.85298040053325e-15) - 9.15739519108332e-14)) + fs(fs(fs(fs(9.76164066687316e-25fs - 9.02911540857785e-19) - 2.41308876844358e-15) + 4.49688344012165e-13) + 1.07464426324726e-11)) + fs(fs(fs(fs(-9.76164066687316e-25fs + 9.02911540857785e-19) + 2.48029467012881e-15) - 1.40272466746922e-12) - 1.02219931146603e-10) - 1.27327519342093e-9) + fs(fs(fs(fs(-1.46424610003097e-25fs + 1.50265218516459e-19) + 7.85178325061217e-16) - 4.62368404012858e-13) - 8.85825595520015e-11) + 1.42606821663144e-8; a4 = PR24v(PR24vpow(fs,2)(fs(fs(-2.21855469701663e-24fs + 6.97548918118416e-19) - 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(2.21855469701663e-24fs - 4.95332203294548e-19) - 9.85016940781327e-17) - 1.00715463535771e-13) + 7.70076836980978e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-1.47903646467775e-23fs + 1.56845094186054e-19) - 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(1.47903646467775e-23fs + 1.19126633797307e-18) + 9.17810373882912e-17) - 4.07240118200139e-13) - 6.87568604447302e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(1.47903646467775e-23fs - 1.56845094186054e-19) + 1.13066837175778e-16) + pow(fs,2)(fs(fs(-1.47903646467775e-23fs - 1.19126633797307e-18) + 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(-4.88082033343658e-25fs + 1.35436731128668e-18) - 1.20654438422179e-15) - 2.24844172006083e-13) + 1.6119663948709e-11)) + fs(fs(fs(fs(4.88082033343658e-25fs - 1.35436731128668e-18) + 1.2401473350644e-15) + 7.01362333734609e-13) - 1.53329896719905e-10) - 6.36637596710464e-10) + fs(fs(fs(fs(7.32123050015487e-26fs - 2.25397827774688e-19) + 3.92589162530609e-16) + 2.31184202006429e-13) - 1.32873839328002e-10) + 7.1303410831572e-9; a5 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403325e-25fs - 2.32516306039472e-19) + 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(-4.43710939403325e-25fs + 1.65110734431516e-19) + 9.85016940781327e-17) - 1.00715463535771e-13) + 2.56692278993659e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.9580729293555e-24fs - 5.22816980620181e-20) + 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(-2.9580729293555e-24fs - 3.97088779324355e-19) - 9.17810373882912e-17) - 4.07240118200139e-13) - 2.29189534815767e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.9580729293555e-24fs + 5.22816980620181e-20) - 1.13066837175778e-16) + pow(fs,2)(fs(fs(2.9580729293555e-24fs + 3.97088779324355e-19) - 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(9.76164066687316e-26fs - 4.51455770428893e-19) + 1.20654438422179e-15) - 2.24844172006083e-13) + 5.37322131623632e-12)) + fs(fs(fs(fs(-9.76164066687316e-26fs + 4.51455770428893e-19) - 1.2401473350644e-15) + 7.01362333734609e-13) - 5.11099655733017e-11) - 1.27327519342093e-10) + fs(fs(fs(fs(-1.46424610003097e-26fs + 7.51326092582295e-20) - 3.92589162530609e-16) + 2.31184202006429e-13) - 4.42912797760007e-11) + 1.42606821663144e-9; };	https://raw.githubusercontent.com/jujudusud/BPD/aab4f1ef9f2a3e4b7f15e345004b8aeee428c87e/bddi/BddiBassTreble.dsp	faust	generated automatically DO NOT MODIFY!	declare id "BddiBassTreble"; declare name "Tech21 Bass Driver: Combo Filter Bass+Treble"; declare category "External"; import("stdfaust.lib"); process = 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 { 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 = _; PR24v = vslider("PR24v[name:treble]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PR41v = vslider("PR41v[name:bass]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PR24v(PR24vpow(fs,3)(2.24093624107316e-19fs + 1.12046812053658e-15) + pow(fs,2)(fs(-2.9132171133951e-19fs - 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(-1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(-4.48187248214631e-19pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(4.48187248214631e-19fs + 1.01860738230598e-15) + pow(fs,2)(2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(-1.90479580491218e-16fs + 1.84877239888535e-14) + 2.54651845576495e-11)) + fs(fs(fs(-7.39508959554141e-21fs - 1.8670360292501e-16) - 7.03312746223898e-13) - 2.80117030134144e-11); b1 = PR24v(PR24vpow(fs,3)(-6.72280872321947e-19fs - 1.12046812053658e-15) + pow(fs,2)(fs(8.73965134018531e-19fs + 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464389e-18pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464389e-18fs - 1.01860738230598e-15) + pow(fs,2)(-2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(1.90479580491218e-16fs + 1.84877239888535e-14) + 7.63955536729485e-11)) + fs(fs(fs(2.21852687866242e-20fs + 1.8670360292501e-16) - 7.03312746223898e-13) - 8.40351090402433e-11); b2 = PR24v(PR24vpow(fs,3)(4.48187248214631e-19fs - 2.24093624107316e-15) + pow(fs,2)(fs(-5.82643422679021e-19fs + 2.50781137523732e-15) - 1.00842130848292e-12)) + PR41v(PR24v(2.03721476461196e-15PR24vpow(fs,3) + pow(fs,2)(-8.96374496429262e-19pow(fs,2) + 9.16746644075382e-13)) + PR41v(PR24vpow(fs,3)(8.96374496429262e-19fs - 2.03721476461196e-15) + pow(fs,2)(-4.48187248214631e-16fs - 1.01860738230598e-12)) + fs(fs(3.80959160982437e-16fs - 3.69754479777071e-14) + 5.0930369115299e-11)) + fs(fs(fs(-1.47901791910828e-20fs + 3.7340720585002e-16) + 1.4066254924478e-12) - 5.60234060268289e-11); b3 = PR24v(PR24vpow(fs,3)(4.48187248214631e-19fs + 2.24093624107316e-15) + pow(fs,2)(fs(-5.82643422679021e-19fs - 2.50781137523732e-15) - 1.00842130848292e-12)) + PR41v(PR24v(-2.03721476461196e-15PR24vpow(fs,3) + pow(fs,2)(-8.96374496429262e-19pow(fs,2) + 9.16746644075382e-13)) + PR41v(PR24vpow(fs,3)(8.96374496429262e-19fs + 2.03721476461196e-15) + pow(fs,2)(4.48187248214631e-16fs - 1.01860738230598e-12)) + fs(fs(-3.80959160982437e-16fs - 3.69754479777071e-14) - 5.0930369115299e-11)) + fs(fs(fs(-1.47901791910828e-20fs - 3.7340720585002e-16) + 1.4066254924478e-12) + 5.60234060268289e-11); b4 = PR24v(PR24vpow(fs,3)(-6.72280872321947e-19fs + 1.12046812053658e-15) + pow(fs,2)(fs(8.73965134018531e-19fs - 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(-1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(1.34456174464389e-18pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(-1.34456174464389e-18fs + 1.01860738230598e-15) + pow(fs,2)(2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(-1.90479580491218e-16fs + 1.84877239888535e-14) - 7.63955536729485e-11)) + fs(fs(fs(2.21852687866242e-20fs - 1.8670360292501e-16) - 7.03312746223898e-13) + 8.40351090402433e-11); b5 = PR24v(PR24vpow(fs,3)(2.24093624107316e-19fs - 1.12046812053658e-15) + pow(fs,2)(fs(-2.9132171133951e-19fs + 1.25390568761866e-15) + 5.0421065424146e-13)) + PR41v(PR24v(1.01860738230598e-15PR24vpow(fs,3) + pow(fs,2)(-4.48187248214631e-19pow(fs,2) - 4.58373322037691e-13)) + PR41v(PR24vpow(fs,3)(4.48187248214631e-19fs - 1.01860738230598e-15) + pow(fs,2)(-2.24093624107316e-16fs + 5.0930369115299e-13)) + fs(fs(1.90479580491218e-16fs + 1.84877239888535e-14) - 2.54651845576495e-11)) + fs(fs(fs(-7.39508959554141e-21fs + 1.8670360292501e-16) - 7.03312746223898e-13) + 2.80117030134144e-11); a0 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403325e-25fs - 2.32516306039472e-19) - 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(4.43710939403325e-25fs + 1.65110734431516e-19) - 9.85016940781327e-17) - 1.00715463535771e-13) - 2.56692278993659e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.9580729293555e-24fs - 5.22816980620181e-20) - 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(2.9580729293555e-24fs - 3.97088779324355e-19) + 9.17810373882912e-17) - 4.07240118200139e-13) + 2.29189534815767e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.9580729293555e-24fs + 5.22816980620181e-20) + 1.13066837175778e-16) + pow(fs,2)(fs(fs(-2.9580729293555e-24fs + 3.97088779324355e-19) + 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(-9.76164066687316e-26fs - 4.51455770428893e-19) - 1.20654438422179e-15) - 2.24844172006083e-13) - 5.37322131623632e-12)) + fs(fs(fs(fs(9.76164066687316e-26fs + 4.51455770428893e-19) + 1.2401473350644e-15) + 7.01362333734609e-13) + 5.11099655733017e-11) - 1.27327519342093e-10) + fs(fs(fs(fs(1.46424610003097e-26fs + 7.51326092582295e-20) + 3.92589162530609e-16) + 2.31184202006429e-13) + 4.42912797760007e-11) + 1.42606821663144e-9; a1 = PR24v(PR24vpow(fs,2)(fs(fs(2.21855469701663e-24fs + 6.97548918118416e-19) + 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(-2.21855469701663e-24fs - 4.95332203294548e-19) + 9.85016940781327e-17) - 1.00715463535771e-13) - 7.70076836980978e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(1.47903646467775e-23fs + 1.56845094186054e-19) + 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(-1.47903646467775e-23fs + 1.19126633797307e-18) - 9.17810373882912e-17) - 4.07240118200139e-13) + 6.87568604447302e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-1.47903646467775e-23fs - 1.56845094186054e-19) - 1.13066837175778e-16) + pow(fs,2)(fs(fs(1.47903646467775e-23fs - 1.19126633797307e-18) - 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(4.88082033343658e-25fs + 1.35436731128668e-18) + 1.20654438422179e-15) - 2.24844172006083e-13) - 1.6119663948709e-11)) + fs(fs(fs(fs(-4.88082033343658e-25fs - 1.35436731128668e-18) - 1.2401473350644e-15) + 7.01362333734609e-13) + 1.53329896719905e-10) - 6.36637596710464e-10) + fs(fs(fs(fs(-7.32123050015487e-26fs - 2.25397827774688e-19) - 3.92589162530609e-16) + 2.31184202006429e-13) + 1.32873839328002e-10) + 7.1303410831572e-9; a2 = PR24v(PR24vpow(fs,2)(fs(fs(-4.43710939403325e-24fs - 4.65032612078944e-19) + 4.79993767298395e-16) + 1.14085457330515e-13) + fs(fs(fs(fs(4.43710939403325e-24fs + 3.30221468863032e-19) + 1.97003388156265e-16) + 2.01430927071542e-13) - 5.13384557987319e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-2.9580729293555e-23fs - 1.04563396124036e-19) + 2.26267614966139e-15) - 1.01862015473674e-14) + fs(fs(fs(fs(2.9580729293555e-23fs - 7.94177558648711e-19) - 1.83562074776582e-16) + 8.14480236400277e-13) + 4.58379069631534e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(2.9580729293555e-23fs + 1.04563396124036e-19) - 2.26133674351557e-16) + pow(fs,2)(fs(fs(-2.9580729293555e-23fs + 7.94177558648711e-19) - 1.85298040053325e-15) - 9.15739519108332e-14)) + fs(fs(fs(fs(-9.76164066687316e-25fs - 9.02911540857785e-19) + 2.41308876844358e-15) + 4.49688344012165e-13) - 1.07464426324726e-11)) + fs(fs(fs(fs(9.76164066687316e-25fs + 9.02911540857785e-19) - 2.48029467012881e-15) - 1.40272466746922e-12) + 1.02219931146603e-10) - 1.27327519342093e-9) + fs(fs(fs(fs(1.46424610003097e-25fs + 1.50265218516459e-19) - 7.85178325061217e-16) - 4.62368404012858e-13) + 8.85825595520015e-11) + 1.42606821663144e-8; a3 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403325e-24fs - 4.65032612078944e-19) - 4.79993767298395e-16) + 1.14085457330515e-13) + fs(fs(fs(fs(-4.43710939403325e-24fs + 3.30221468863032e-19) - 1.97003388156265e-16) + 2.01430927071542e-13) + 5.13384557987319e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.9580729293555e-23fs - 1.04563396124036e-19) - 2.26267614966139e-15) - 1.01862015473674e-14) + fs(fs(fs(fs(-2.9580729293555e-23fs - 7.94177558648711e-19) + 1.83562074776582e-16) + 8.14480236400277e-13) - 4.58379069631534e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.9580729293555e-23fs + 1.04563396124036e-19) + 2.26133674351557e-16) + pow(fs,2)(fs(fs(2.9580729293555e-23fs + 7.94177558648711e-19) + 1.85298040053325e-15) - 9.15739519108332e-14)) + fs(fs(fs(fs(9.76164066687316e-25fs - 9.02911540857785e-19) - 2.41308876844358e-15) + 4.49688344012165e-13) + 1.07464426324726e-11)) + fs(fs(fs(fs(-9.76164066687316e-25fs + 9.02911540857785e-19) + 2.48029467012881e-15) - 1.40272466746922e-12) - 1.02219931146603e-10) - 1.27327519342093e-9) + fs(fs(fs(fs(-1.46424610003097e-25fs + 1.50265218516459e-19) + 7.85178325061217e-16) - 4.62368404012858e-13) - 8.85825595520015e-11) + 1.42606821663144e-8; a4 = PR24v(PR24vpow(fs,2)(fs(fs(-2.21855469701663e-24fs + 6.97548918118416e-19) - 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(2.21855469701663e-24fs - 4.95332203294548e-19) - 9.85016940781327e-17) - 1.00715463535771e-13) + 7.70076836980978e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(-1.47903646467775e-23fs + 1.56845094186054e-19) - 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(1.47903646467775e-23fs + 1.19126633797307e-18) + 9.17810373882912e-17) - 4.07240118200139e-13) - 6.87568604447302e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(1.47903646467775e-23fs - 1.56845094186054e-19) + 1.13066837175778e-16) + pow(fs,2)(fs(fs(-1.47903646467775e-23fs - 1.19126633797307e-18) + 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(-4.88082033343658e-25fs + 1.35436731128668e-18) - 1.20654438422179e-15) - 2.24844172006083e-13) + 1.6119663948709e-11)) + fs(fs(fs(fs(4.88082033343658e-25fs - 1.35436731128668e-18) + 1.2401473350644e-15) + 7.01362333734609e-13) - 1.53329896719905e-10) - 6.36637596710464e-10) + fs(fs(fs(fs(7.32123050015487e-26fs - 2.25397827774688e-19) + 3.92589162530609e-16) + 2.31184202006429e-13) - 1.32873839328002e-10) + 7.1303410831572e-9; a5 = PR24v(PR24vpow(fs,2)(fs(fs(4.43710939403325e-25fs - 2.32516306039472e-19) + 2.39996883649198e-16) - 5.70427286652576e-14) + fs(fs(fs(fs(-4.43710939403325e-25fs + 1.65110734431516e-19) + 9.85016940781327e-17) - 1.00715463535771e-13) + 2.56692278993659e-11)) + PR41v(PR24v(PR24vpow(fs,2)(fs(fs(2.9580729293555e-24fs - 5.22816980620181e-20) + 1.1313380748307e-15) + 5.09310077368372e-15) + fs(fs(fs(fs(-2.9580729293555e-24fs - 3.97088779324355e-19) - 9.17810373882912e-17) - 4.07240118200139e-13) - 2.29189534815767e-12)) + PR41v(PR24v(PR24vpow(fs,3)(fs(-2.9580729293555e-24fs + 5.22816980620181e-20) - 1.13066837175778e-16) + pow(fs,2)(fs(fs(2.9580729293555e-24fs + 3.97088779324355e-19) - 9.26490200266625e-16) + 4.57869759554166e-14)) + fs(fs(fs(fs(9.76164066687316e-26fs - 4.51455770428893e-19) + 1.20654438422179e-15) - 2.24844172006083e-13) + 5.37322131623632e-12)) + fs(fs(fs(fs(-9.76164066687316e-26fs + 4.51455770428893e-19) - 1.2401473350644e-15) + 7.01362333734609e-13) - 5.11099655733017e-11) - 1.27327519342093e-10) + fs(fs(fs(fs(-1.46424610003097e-26fs + 7.51326092582295e-20) - 3.92589162530609e-16) + 2.31184202006429e-13) - 4.42912797760007e-11) + 1.42606821663144e-9; };
df70c2b4035a39e315f907bd235706585abe4395f0d973270692e8d871bb4f27	jujudusud/BPD	VtbdiBassTreble.dsp	// generated automatically // DO NOT MODIFY! declare id "VTBassDI-bt"; declare name "VTBassDI-bt"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PRhiv = vslider("PRhiv[name:PRhiv]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PRlowv = vslider("PRlowv[name:PRlowv]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.2508920883311e-30fs - 1.05271852152956e-25) - 5.7820204555647e-22) - 3.78592785388328e-19) + pow(fs,3)(fs(fs(2.2508920883311e-30fs + 8.82196393625693e-26) - 2.06393642882301e-22) - 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(1.3542492249444e-29fs + 6.43724911681198e-25) + 3.95619266430714e-21) + 4.61903942029657e-18) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.2508920883311e-30fs + 8.33292494391057e-25) + 6.12715760225671e-21) + 4.16452063927161e-18) + pow(fs,3)(fs(fs(-2.2508920883311e-30fs - 8.1624028160067e-25) - 5.32442126191328e-21) - 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(-1.3542492249444e-29fs - 1.39573072477331e-24) - 1.00255575093992e-20) - 1.15765753015532e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(1.66786143101613e-25fs + 8.38109861943823e-22) + 3.20283703968909e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(-1.66786143101613e-25fs - 7.48973295084982e-22) + 9.39903156639126e-19) + 1.81610959150781e-14)) + fs(fs(fs(fs(-2.28368248589625e-25fs - 3.77218008187042e-21) - 2.13215680570896e-17) - 2.46839838431341e-14) - 1.07554045808185e-12); b1 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs + 3.15815556458869e-25) + 5.7820204555647e-22) - 3.78592785388328e-19) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs - 2.64658918087708e-25) + 2.06393642882301e-22) - 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs - 1.93117473504359e-24) - 3.95619266430714e-21) + 4.61903942029657e-18) + 6.05369863835936e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs - 2.49987748317317e-24) - 6.12715760225671e-21) + 4.16452063927161e-18) + pow(fs,3)(fs(fs(1.12544604416555e-29fs + 2.44872084480201e-24) + 5.32442126191328e-21) - 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs + 4.18719217431992e-24) + 1.00255575093992e-20) - 1.15765753015532e-17) - 6.6590685021953e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-5.0035842930484e-25fs - 8.38109861943823e-22) + 3.20283703968909e-18) + 6.05369863835936e-15) + pow(fs,2)(fs(fs(5.0035842930484e-25fs + 7.48973295084982e-22) + 9.39903156639126e-19) + 5.44832877452343e-14)) + fs(fs(fs(fs(6.85104745768876e-25fs + 3.77218008187042e-21) - 2.13215680570896e-17) - 7.40519515294022e-14) - 5.37770229040923e-12); b2 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.02580287949799e-29fs - 1.05271852152956e-25) + 1.73460613666941e-21) + 1.13577835616498e-18) + pow(fs,3)(fs(fs(2.02580287949799e-29fs + 8.82196393625693e-26) + 6.19180928646902e-22) + 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(1.21882430244996e-28fs + 6.43724911681198e-25) - 1.18685779929214e-20) - 1.38571182608897e-17) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.02580287949799e-29fs + 8.33292494391057e-25) - 1.83814728067701e-20) - 1.24935619178148e-17) + pow(fs,3)(fs(fs(-2.02580287949799e-29fs - 8.1624028160067e-25) + 1.59732637857398e-20) + 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(-1.21882430244996e-28fs - 1.39573072477331e-24) + 3.00766725281977e-20) + 3.47297259046597e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(1.66786143101613e-25fs - 2.51432958583147e-21) - 9.60851111906727e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(-1.66786143101613e-25fs + 2.24691988525495e-21) - 2.81970946991738e-18) + 1.81610959150781e-14)) + fs(fs(fs(fs(-2.28368248589625e-25fs + 1.13165402456113e-20) + 6.39647041712689e-17) - 2.46839838431341e-14) - 9.67986412273662e-12); b3 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs - 5.26359260764782e-25) - 1.73460613666941e-21) + 1.13577835616498e-18) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs + 4.41098196812847e-25) - 6.19180928646902e-22) + 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs + 3.21862455840599e-24) + 1.18685779929214e-20) - 1.38571182608897e-17) - 1.00894977305989e-15)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs + 4.16646247195529e-24) + 1.83814728067701e-20) - 1.24935619178148e-17) + pow(fs,3)(fs(fs(1.12544604416555e-29fs - 4.08120140800335e-24) - 1.59732637857398e-20) + 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs - 6.97865362386654e-24) - 3.00766725281977e-20) + 3.47297259046597e-17) + 1.10984475036588e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(8.33930715508067e-25fs + 2.51432958583147e-21) - 9.60851111906727e-18) - 1.00894977305989e-14) + pow(fs,2)(fs(fs(-8.33930715508067e-25fs - 2.24691988525495e-21) - 2.81970946991738e-18) - 9.08054795753904e-14)) + fs(fs(fs(fs(-1.14184124294813e-24fs - 1.13165402456113e-20) + 6.39647041712689e-17) + 1.2341991921567e-13) - 5.37770229040923e-12); b4 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs + 5.26359260764782e-25) - 1.73460613666941e-21) - 1.13577835616498e-18) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs - 4.41098196812847e-25) - 6.19180928646902e-22) - 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs - 3.21862455840599e-24) + 1.18685779929214e-20) + 1.38571182608897e-17) - 1.00894977305989e-15)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs - 4.16646247195529e-24) + 1.83814728067701e-20) + 1.24935619178148e-17) + pow(fs,3)(fs(fs(1.12544604416555e-29fs + 4.08120140800335e-24) - 1.59732637857398e-20) - 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs + 6.97865362386654e-24) - 3.00766725281977e-20) - 3.47297259046597e-17) + 1.10984475036588e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-8.33930715508067e-25fs + 2.51432958583147e-21) + 9.60851111906727e-18) - 1.00894977305989e-14) + pow(fs,2)(fs(fs(8.33930715508067e-25fs - 2.24691988525495e-21) + 2.81970946991738e-18) - 9.08054795753904e-14)) + fs(fs(fs(fs(1.14184124294813e-24fs - 1.13165402456113e-20) - 6.39647041712689e-17) + 1.2341991921567e-13) + 5.37770229040923e-12); b5 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.02580287949799e-29fs + 1.05271852152956e-25) + 1.73460613666941e-21) - 1.13577835616498e-18) + pow(fs,3)(fs(fs(2.02580287949799e-29fs - 8.82196393625693e-26) + 6.19180928646902e-22) - 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(1.21882430244996e-28fs - 6.43724911681198e-25) - 1.18685779929214e-20) + 1.38571182608897e-17) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.02580287949799e-29fs - 8.33292494391057e-25) - 1.83814728067701e-20) + 1.24935619178148e-17) + pow(fs,3)(fs(fs(-2.02580287949799e-29fs + 8.1624028160067e-25) + 1.59732637857398e-20) - 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(-1.21882430244996e-28fs + 1.39573072477331e-24) + 3.00766725281977e-20) - 3.47297259046597e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-1.66786143101613e-25fs - 2.51432958583147e-21) + 9.60851111906727e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(1.66786143101613e-25fs + 2.24691988525495e-21) + 2.81970946991738e-18) + 1.81610959150781e-14)) + fs(fs(fs(fs(2.28368248589625e-25fs + 1.13165402456113e-20) - 6.39647041712689e-17) - 2.46839838431341e-14) + 9.67986412273662e-12); b6 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs - 3.15815556458869e-25) + 5.7820204555647e-22) + 3.78592785388328e-19) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs + 2.64658918087708e-25) + 2.06393642882301e-22) + 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs + 1.93117473504359e-24) - 3.95619266430714e-21) - 4.61903942029657e-18) + 6.05369863835936e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs + 2.49987748317317e-24) - 6.12715760225671e-21) - 4.16452063927161e-18) + pow(fs,3)(fs(fs(1.12544604416555e-29fs - 2.44872084480201e-24) + 5.32442126191328e-21) + 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs - 4.18719217431992e-24) + 1.00255575093992e-20) + 1.15765753015532e-17) - 6.6590685021953e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(5.0035842930484e-25fs - 8.38109861943823e-22) - 3.20283703968909e-18) + 6.05369863835936e-15) + pow(fs,2)(fs(fs(-5.0035842930484e-25fs + 7.48973295084982e-22) - 9.39903156639126e-19) + 5.44832877452343e-14)) + fs(fs(fs(fs(-6.85104745768876e-25fs + 3.77218008187042e-21) + 2.13215680570896e-17) - 7.40519515294022e-14) + 5.37770229040923e-12); b7 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.2508920883311e-30fs + 1.05271852152956e-25) - 5.7820204555647e-22) + 3.78592785388328e-19) + pow(fs,3)(fs(fs(2.2508920883311e-30fs - 8.82196393625693e-26) - 2.06393642882301e-22) + 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(1.3542492249444e-29fs - 6.43724911681198e-25) + 3.95619266430714e-21) - 4.61903942029657e-18) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.2508920883311e-30fs - 8.33292494391057e-25) + 6.12715760225671e-21) - 4.16452063927161e-18) + pow(fs,3)(fs(fs(-2.2508920883311e-30fs + 8.1624028160067e-25) - 5.32442126191328e-21) + 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(-1.3542492249444e-29fs + 1.39573072477331e-24) - 1.00255575093992e-20) + 1.15765753015532e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-1.66786143101613e-25fs + 8.38109861943823e-22) - 3.20283703968909e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(1.66786143101613e-25fs - 7.48973295084982e-22) - 9.39903156639126e-19) + 1.81610959150781e-14)) + fs(fs(fs(fs(2.28368248589625e-25fs - 3.77218008187042e-21) + 2.13215680570896e-17) - 2.46839838431341e-14) + 1.07554045808185e-12); a0 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs + 2.76395574393073e-29) + 2.47590405660162e-25) + 6.9962186308502e-22) + 4.58215139506045e-19) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs - 2.76395574393073e-29) - 2.64640572159356e-25) - 1.4841233988606e-21) - 4.24368867635019e-18) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(-5.49134519444555e-34fs - 3.96553480211966e-29) - 7.90796376100631e-25) - 3.47996685752438e-21) - 1.38306404847714e-18) - 2.67283163365866e-16) - 1.99388390547645e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs - 2.82142604978253e-29) + 4.75074761635673e-25) + 4.84467561983897e-21) + 3.32725749029414e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs + 2.82142604978253e-29) - 4.58024595136479e-25) - 4.04203560906425e-21) + 4.63713282723472e-19) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(5.49134519444555e-34fs + 4.02395336801801e-29) + 6.85048270381817e-26) - 2.5604994651478e-21) - 5.57414911026091e-18) - 1.76929455450831e-15) + 1.99388390547645e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.53330849719164e-29fs - 1.07257703344352e-24) - 7.27150786397279e-21) - 8.09248674416533e-18) - 2.49206576816899e-15) - 1.99388390547645e-14) + fs(fs(fs(fs(fs(2.53330849719164e-29fs + 1.07257703344352e-24) + 7.36054847217644e-21) + 1.22318904829528e-17) + 2.26497098429179e-14) + 1.99388390547645e-14)) + fs(fs(fs(fs(fs(2.5751080873953e-29fs + 1.16340859042599e-24) + 1.07598927576606e-20) + 2.63291612467212e-17) + 9.91125369338092e-15) + 1.58211776015604e-12) + 2.07170254601745e-11; a1 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs - 1.38197787196536e-28) - 7.42771216980487e-25) - 6.9962186308502e-22) + 4.58215139506045e-19) + 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs + 1.38197787196536e-28) + 7.93921716478069e-25) + 1.4841233988606e-21) - 4.24368867635019e-18) - 5.67896298910978e-19)) + fs(fs(fs(fs(fs(fs(3.84394163611188e-33fs + 1.98276740105983e-28) + 2.37238912830189e-24) + 3.47996685752438e-21) - 1.38306404847714e-18) - 8.01849490097598e-16) - 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs + 1.41071302489126e-28) - 1.42522428490702e-24) - 4.84467561983897e-21) + 3.32725749029414e-18) - 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs - 1.41071302489126e-28) + 1.37407378540944e-24) + 4.04203560906425e-21) + 4.63713282723472e-19) + 1.14147156081107e-16)) + fs(fs(fs(fs(fs(fs(-3.84394163611188e-33fs - 2.01197668400901e-28) - 2.05514481114545e-25) + 2.5604994651478e-21) - 5.57414911026091e-18) - 5.30788366352493e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs + 3.21773110033057e-24) + 7.27150786397279e-21) - 8.09248674416533e-18) - 7.47619730450697e-15) - 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs - 3.21773110033057e-24) - 7.36054847217644e-21) + 1.22318904829528e-17) + 6.79491295287538e-14) + 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs - 3.49022577127798e-24) - 1.07598927576606e-20) + 2.63291612467212e-17) + 2.97337610801428e-14) + 7.9105888007802e-12) + 1.45019178221222e-10; a2 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs + 2.48756016953765e-28) + 2.47590405660162e-25) - 2.09886558925506e-21) - 1.37464541851814e-18) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs - 2.48756016953765e-28) - 2.64640572159356e-25) + 4.45237019658181e-21) + 1.27310660290506e-17) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(-1.15318249083356e-32fs - 3.56898132190769e-28) - 7.90796376100631e-25) + 1.04399005725732e-20) + 4.14919214543143e-18) - 2.67283163365866e-16) - 1.7944955149288e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs - 2.53928344480428e-28) + 4.75074761635673e-25) - 1.45340268595169e-20) - 9.98177247088241e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs + 2.53928344480428e-28) - 4.58024595136479e-25) + 1.21261068271927e-20) - 1.39113984817042e-18) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(1.15318249083356e-32fs + 3.62155803121621e-28) + 6.85048270381817e-26) + 7.68149839544339e-21) + 1.67224473307827e-17) - 1.76929455450831e-15) + 1.7944955149288e-14)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.27997764747247e-28fs - 1.07257703344352e-24) + 2.18145235919184e-20) + 2.4277460232496e-17) - 2.49206576816899e-15) - 1.7944955149288e-13) + fs(fs(fs(fs(fs(2.27997764747247e-28fs + 1.07257703344352e-24) - 2.20816454165293e-20) - 3.66956714488585e-17) + 2.26497098429179e-14) + 1.7944955149288e-13)) + fs(fs(fs(fs(fs(2.31759727865577e-28fs + 1.16340859042599e-24) - 3.22796782729819e-20) - 7.89874837401636e-17) + 9.91125369338092e-15) + 1.42390598414044e-11) + 4.35057534663665e-10; a3 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs - 1.38197787196536e-28) + 1.23795202830081e-24) + 2.09886558925506e-21) - 1.37464541851814e-18) - 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs + 1.38197787196536e-28) - 1.32320286079678e-24) - 4.45237019658181e-21) + 1.27310660290506e-17) + 9.46493831518297e-19)) + fs(fs(fs(fs(fs(fs(1.92197081805594e-32fs + 1.98276740105983e-28) - 3.95398188050316e-24) - 1.04399005725732e-20) + 4.14919214543143e-18) + 1.33641581682933e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs + 1.41071302489126e-28) + 2.37537380817836e-24) + 1.45340268595169e-20) - 9.98177247088241e-18) + 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs - 1.41071302489126e-28) - 2.29012297568239e-24) - 1.21261068271927e-20) - 1.39113984817042e-18) - 1.90245260135178e-16)) + fs(fs(fs(fs(fs(fs(-1.92197081805594e-32fs - 2.01197668400901e-28) + 3.42524135190908e-25) - 7.68149839544339e-21) + 1.67224473307827e-17) + 8.84647277254155e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs - 5.36288516721762e-24) - 2.18145235919184e-20) + 2.4277460232496e-17) + 1.2460328840845e-14) - 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs + 5.36288516721762e-24) + 2.20816454165293e-20) - 3.66956714488585e-17) - 1.1324854921459e-13) + 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs + 5.81704295212996e-24) + 3.22796782729819e-20) - 7.89874837401636e-17) - 4.95562684669046e-14) + 7.9105888007802e-12) + 7.25095891106108e-10; a4 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs - 1.38197787196536e-28) - 1.23795202830081e-24) + 2.09886558925506e-21) + 1.37464541851814e-18) - 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs + 1.38197787196536e-28) + 1.32320286079678e-24) - 4.45237019658181e-21) - 1.27310660290506e-17) + 9.46493831518297e-19)) + fs(fs(fs(fs(fs(fs(-1.92197081805594e-32fs + 1.98276740105983e-28) + 3.95398188050316e-24) - 1.04399005725732e-20) - 4.14919214543143e-18) + 1.33641581682933e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs + 1.41071302489126e-28) - 2.37537380817836e-24) + 1.45340268595169e-20) + 9.98177247088241e-18) + 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs - 1.41071302489126e-28) + 2.29012297568239e-24) - 1.21261068271927e-20) + 1.39113984817042e-18) - 1.90245260135178e-16)) + fs(fs(fs(fs(fs(fs(1.92197081805594e-32fs - 2.01197668400901e-28) - 3.42524135190908e-25) - 7.68149839544339e-21) - 1.67224473307827e-17) + 8.84647277254155e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs + 5.36288516721762e-24) - 2.18145235919184e-20) - 2.4277460232496e-17) + 1.2460328840845e-14) + 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs - 5.36288516721762e-24) + 2.20816454165293e-20) + 3.66956714488585e-17) - 1.1324854921459e-13) - 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs - 5.81704295212996e-24) + 3.22796782729819e-20) + 7.89874837401636e-17) - 4.95562684669046e-14) - 7.9105888007802e-12) + 7.25095891106108e-10; a5 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs + 2.48756016953765e-28) - 2.47590405660162e-25) - 2.09886558925506e-21) + 1.37464541851814e-18) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs - 2.48756016953765e-28) + 2.64640572159356e-25) + 4.45237019658181e-21) - 1.27310660290506e-17) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(1.15318249083356e-32fs - 3.56898132190769e-28) + 7.90796376100631e-25) + 1.04399005725732e-20) - 4.14919214543143e-18) - 2.67283163365866e-16) + 1.7944955149288e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs - 2.53928344480428e-28) - 4.75074761635673e-25) - 1.45340268595169e-20) + 9.98177247088241e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs + 2.53928344480428e-28) + 4.58024595136479e-25) + 1.21261068271927e-20) + 1.39113984817042e-18) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(-1.15318249083356e-32fs + 3.62155803121621e-28) - 6.85048270381817e-26) + 7.68149839544339e-21) - 1.67224473307827e-17) - 1.76929455450831e-15) - 1.7944955149288e-14)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.27997764747247e-28fs + 1.07257703344352e-24) + 2.18145235919184e-20) - 2.4277460232496e-17) - 2.49206576816899e-15) + 1.7944955149288e-13) + fs(fs(fs(fs(fs(2.27997764747247e-28fs - 1.07257703344352e-24) - 2.20816454165293e-20) + 3.66956714488585e-17) + 2.26497098429179e-14) - 1.7944955149288e-13)) + fs(fs(fs(fs(fs(2.31759727865577e-28fs - 1.16340859042599e-24) - 3.22796782729819e-20) + 7.89874837401636e-17) + 9.91125369338092e-15) - 1.42390598414044e-11) + 4.35057534663665e-10; a6 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs - 1.38197787196536e-28) + 7.42771216980487e-25) - 6.9962186308502e-22) - 4.58215139506045e-19) + 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs + 1.38197787196536e-28) - 7.93921716478069e-25) + 1.4841233988606e-21) + 4.24368867635019e-18) - 5.67896298910978e-19)) + fs(fs(fs(fs(fs(fs(-3.84394163611188e-33fs + 1.98276740105983e-28) - 2.37238912830189e-24) + 3.47996685752438e-21) + 1.38306404847714e-18) - 8.01849490097598e-16) + 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs + 1.41071302489126e-28) + 1.42522428490702e-24) - 4.84467561983897e-21) - 3.32725749029414e-18) - 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs - 1.41071302489126e-28) - 1.37407378540944e-24) + 4.04203560906425e-21) - 4.63713282723472e-19) + 1.14147156081107e-16)) + fs(fs(fs(fs(fs(fs(3.84394163611188e-33fs - 2.01197668400901e-28) + 2.05514481114545e-25) + 2.5604994651478e-21) + 5.57414911026091e-18) - 5.30788366352493e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs - 3.21773110033057e-24) + 7.27150786397279e-21) + 8.09248674416533e-18) - 7.47619730450697e-15) + 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs + 3.21773110033057e-24) - 7.36054847217644e-21) - 1.22318904829528e-17) + 6.79491295287538e-14) - 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs + 3.49022577127798e-24) - 1.07598927576606e-20) - 2.63291612467212e-17) + 2.97337610801428e-14) - 7.9105888007802e-12) + 1.45019178221222e-10; a7 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs + 2.76395574393073e-29) - 2.47590405660162e-25) + 6.9962186308502e-22) - 4.58215139506045e-19) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs - 2.76395574393073e-29) + 2.64640572159356e-25) - 1.4841233988606e-21) + 4.24368867635019e-18) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(5.49134519444555e-34fs - 3.96553480211966e-29) + 7.90796376100631e-25) - 3.47996685752438e-21) + 1.38306404847714e-18) - 2.67283163365866e-16) + 1.99388390547645e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs - 2.82142604978253e-29) - 4.75074761635673e-25) + 4.84467561983897e-21) - 3.32725749029414e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs + 2.82142604978253e-29) + 4.58024595136479e-25) - 4.04203560906425e-21) - 4.63713282723472e-19) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(-5.49134519444555e-34fs + 4.02395336801801e-29) - 6.85048270381817e-26) - 2.5604994651478e-21) + 5.57414911026091e-18) - 1.76929455450831e-15) - 1.99388390547645e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.53330849719164e-29fs + 1.07257703344352e-24) - 7.27150786397279e-21) + 8.09248674416533e-18) - 2.49206576816899e-15) + 1.99388390547645e-14) + fs(fs(fs(fs(fs(2.53330849719164e-29fs - 1.07257703344352e-24) + 7.36054847217644e-21) - 1.22318904829528e-17) + 2.26497098429179e-14) - 1.99388390547645e-14)) + fs(fs(fs(fs(fs(2.5751080873953e-29fs - 1.16340859042599e-24) + 1.07598927576606e-20) - 2.63291612467212e-17) + 9.91125369338092e-15) - 1.58211776015604e-12) + 2.07170254601745e-11; };	https://raw.githubusercontent.com/jujudusud/BPD/aab4f1ef9f2a3e4b7f15e345004b8aeee428c87e/bddi/VtbdiBassTreble.dsp	faust	generated automatically DO NOT MODIFY!	declare id "VTBassDI-bt"; declare name "VTBassDI-bt"; declare category "External"; import("stdfaust.lib"); process = pre : fi.iir((b0/a0,b1/a0,b2/a0,b3/a0,b4/a0,b5/a0,b6/a0,b7/a0),(a1/a0,a2/a0,a3/a0,a4/a0,a5/a0,a6/a0,a7/a0)) with { LogPot(a, x) = ba.if(a, (exp(a * x) - 1) / (exp(a) - 1), x); Inverted(b, x) = ba.if(b, 1 - x, x); s = 0.993; fs = float(ma.SR); pre = _; PRhiv = vslider("PRhiv[name:PRhiv]", 0.5, 0, 1, 0.01) : Inverted(0) : si.smooth(s); PRlowv = vslider("PRlowv[name:PRlowv]", 0.5, 0, 1, 0.01) : Inverted(1) : si.smooth(s); b0 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.2508920883311e-30fs - 1.05271852152956e-25) - 5.7820204555647e-22) - 3.78592785388328e-19) + pow(fs,3)(fs(fs(2.2508920883311e-30fs + 8.82196393625693e-26) - 2.06393642882301e-22) - 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(1.3542492249444e-29fs + 6.43724911681198e-25) + 3.95619266430714e-21) + 4.61903942029657e-18) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.2508920883311e-30fs + 8.33292494391057e-25) + 6.12715760225671e-21) + 4.16452063927161e-18) + pow(fs,3)(fs(fs(-2.2508920883311e-30fs - 8.1624028160067e-25) - 5.32442126191328e-21) - 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(-1.3542492249444e-29fs - 1.39573072477331e-24) - 1.00255575093992e-20) - 1.15765753015532e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(1.66786143101613e-25fs + 8.38109861943823e-22) + 3.20283703968909e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(-1.66786143101613e-25fs - 7.48973295084982e-22) + 9.39903156639126e-19) + 1.81610959150781e-14)) + fs(fs(fs(fs(-2.28368248589625e-25fs - 3.77218008187042e-21) - 2.13215680570896e-17) - 2.46839838431341e-14) - 1.07554045808185e-12); b1 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs + 3.15815556458869e-25) + 5.7820204555647e-22) - 3.78592785388328e-19) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs - 2.64658918087708e-25) + 2.06393642882301e-22) - 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs - 1.93117473504359e-24) - 3.95619266430714e-21) + 4.61903942029657e-18) + 6.05369863835936e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs - 2.49987748317317e-24) - 6.12715760225671e-21) + 4.16452063927161e-18) + pow(fs,3)(fs(fs(1.12544604416555e-29fs + 2.44872084480201e-24) + 5.32442126191328e-21) - 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs + 4.18719217431992e-24) + 1.00255575093992e-20) - 1.15765753015532e-17) - 6.6590685021953e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-5.0035842930484e-25fs - 8.38109861943823e-22) + 3.20283703968909e-18) + 6.05369863835936e-15) + pow(fs,2)(fs(fs(5.0035842930484e-25fs + 7.48973295084982e-22) + 9.39903156639126e-19) + 5.44832877452343e-14)) + fs(fs(fs(fs(6.85104745768876e-25fs + 3.77218008187042e-21) - 2.13215680570896e-17) - 7.40519515294022e-14) - 5.37770229040923e-12); b2 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.02580287949799e-29fs - 1.05271852152956e-25) + 1.73460613666941e-21) + 1.13577835616498e-18) + pow(fs,3)(fs(fs(2.02580287949799e-29fs + 8.82196393625693e-26) + 6.19180928646902e-22) + 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(1.21882430244996e-28fs + 6.43724911681198e-25) - 1.18685779929214e-20) - 1.38571182608897e-17) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.02580287949799e-29fs + 8.33292494391057e-25) - 1.83814728067701e-20) - 1.24935619178148e-17) + pow(fs,3)(fs(fs(-2.02580287949799e-29fs - 8.1624028160067e-25) + 1.59732637857398e-20) + 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(-1.21882430244996e-28fs - 1.39573072477331e-24) + 3.00766725281977e-20) + 3.47297259046597e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(1.66786143101613e-25fs - 2.51432958583147e-21) - 9.60851111906727e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(-1.66786143101613e-25fs + 2.24691988525495e-21) - 2.81970946991738e-18) + 1.81610959150781e-14)) + fs(fs(fs(fs(-2.28368248589625e-25fs + 1.13165402456113e-20) + 6.39647041712689e-17) - 2.46839838431341e-14) - 9.67986412273662e-12); b3 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs - 5.26359260764782e-25) - 1.73460613666941e-21) + 1.13577835616498e-18) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs + 4.41098196812847e-25) - 6.19180928646902e-22) + 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs + 3.21862455840599e-24) + 1.18685779929214e-20) - 1.38571182608897e-17) - 1.00894977305989e-15)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs + 4.16646247195529e-24) + 1.83814728067701e-20) - 1.24935619178148e-17) + pow(fs,3)(fs(fs(1.12544604416555e-29fs - 4.08120140800335e-24) - 1.59732637857398e-20) + 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs - 6.97865362386654e-24) - 3.00766725281977e-20) + 3.47297259046597e-17) + 1.10984475036588e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(8.33930715508067e-25fs + 2.51432958583147e-21) - 9.60851111906727e-18) - 1.00894977305989e-14) + pow(fs,2)(fs(fs(-8.33930715508067e-25fs - 2.24691988525495e-21) - 2.81970946991738e-18) - 9.08054795753904e-14)) + fs(fs(fs(fs(-1.14184124294813e-24fs - 1.13165402456113e-20) + 6.39647041712689e-17) + 1.2341991921567e-13) - 5.37770229040923e-12); b4 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs + 5.26359260764782e-25) - 1.73460613666941e-21) - 1.13577835616498e-18) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs - 4.41098196812847e-25) - 6.19180928646902e-22) - 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs - 3.21862455840599e-24) + 1.18685779929214e-20) + 1.38571182608897e-17) - 1.00894977305989e-15)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs - 4.16646247195529e-24) + 1.83814728067701e-20) + 1.24935619178148e-17) + pow(fs,3)(fs(fs(1.12544604416555e-29fs + 4.08120140800335e-24) - 1.59732637857398e-20) - 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs + 6.97865362386654e-24) - 3.00766725281977e-20) - 3.47297259046597e-17) + 1.10984475036588e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-8.33930715508067e-25fs + 2.51432958583147e-21) + 9.60851111906727e-18) - 1.00894977305989e-14) + pow(fs,2)(fs(fs(8.33930715508067e-25fs - 2.24691988525495e-21) + 2.81970946991738e-18) - 9.08054795753904e-14)) + fs(fs(fs(fs(1.14184124294813e-24fs - 1.13165402456113e-20) - 6.39647041712689e-17) + 1.2341991921567e-13) + 5.37770229040923e-12); b5 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.02580287949799e-29fs + 1.05271852152956e-25) + 1.73460613666941e-21) - 1.13577835616498e-18) + pow(fs,3)(fs(fs(2.02580287949799e-29fs - 8.82196393625693e-26) + 6.19180928646902e-22) - 1.02220052054848e-17)) + pow(fs,2)(fs(fs(fs(1.21882430244996e-28fs - 6.43724911681198e-25) - 1.18685779929214e-20) + 1.38571182608897e-17) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.02580287949799e-29fs - 8.33292494391057e-25) - 1.83814728067701e-20) + 1.24935619178148e-17) + pow(fs,3)(fs(fs(-2.02580287949799e-29fs + 8.1624028160067e-25) + 1.59732637857398e-20) - 1.13577835616498e-18)) + pow(fs,2)(fs(fs(fs(-1.21882430244996e-28fs + 1.39573072477331e-24) + 3.00766725281977e-20) - 3.47297259046597e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-1.66786143101613e-25fs - 2.51432958583147e-21) + 9.60851111906727e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(1.66786143101613e-25fs + 2.24691988525495e-21) + 2.81970946991738e-18) + 1.81610959150781e-14)) + fs(fs(fs(fs(2.28368248589625e-25fs + 1.13165402456113e-20) - 6.39647041712689e-17) - 2.46839838431341e-14) + 9.67986412273662e-12); b6 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(1.12544604416555e-29fs - 3.15815556458869e-25) + 5.7820204555647e-22) + 3.78592785388328e-19) + pow(fs,3)(fs(fs(-1.12544604416555e-29fs + 2.64658918087708e-25) + 2.06393642882301e-22) + 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(-6.77124612472202e-29fs + 1.93117473504359e-24) - 3.95619266430714e-21) - 4.61903942029657e-18) + 6.05369863835936e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(-1.12544604416555e-29fs + 2.49987748317317e-24) - 6.12715760225671e-21) - 4.16452063927161e-18) + pow(fs,3)(fs(fs(1.12544604416555e-29fs - 2.44872084480201e-24) + 5.32442126191328e-21) + 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(6.77124612472202e-29fs - 4.18719217431992e-24) + 1.00255575093992e-20) + 1.15765753015532e-17) - 6.6590685021953e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(5.0035842930484e-25fs - 8.38109861943823e-22) - 3.20283703968909e-18) + 6.05369863835936e-15) + pow(fs,2)(fs(fs(-5.0035842930484e-25fs + 7.48973295084982e-22) - 9.39903156639126e-19) + 5.44832877452343e-14)) + fs(fs(fs(fs(-6.85104745768876e-25fs + 3.77218008187042e-21) + 2.13215680570896e-17) - 7.40519515294022e-14) + 5.37770229040923e-12); b7 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,3)(fs(fs(-2.2508920883311e-30fs + 1.05271852152956e-25) - 5.7820204555647e-22) + 3.78592785388328e-19) + pow(fs,3)(fs(fs(2.2508920883311e-30fs - 8.82196393625693e-26) - 2.06393642882301e-22) + 3.40733506849495e-18)) + pow(fs,2)(fs(fs(fs(1.3542492249444e-29fs - 6.43724911681198e-25) + 3.95619266430714e-21) - 4.61903942029657e-18) + 2.01789954611979e-16)) + PRlowv(PRlowvpow(fs,3)(fs(fs(2.2508920883311e-30fs - 8.33292494391057e-25) + 6.12715760225671e-21) - 4.16452063927161e-18) + pow(fs,3)(fs(fs(-2.2508920883311e-30fs + 8.1624028160067e-25) - 5.32442126191328e-21) + 3.78592785388328e-19)) + pow(fs,2)(fs(fs(fs(-1.3542492249444e-29fs + 1.39573072477331e-24) - 1.00255575093992e-20) + 1.15765753015532e-17) - 2.21968950073177e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(-1.66786143101613e-25fs + 8.38109861943823e-22) - 3.20283703968909e-18) + 2.01789954611979e-15) + pow(fs,2)(fs(fs(1.66786143101613e-25fs - 7.48973295084982e-22) - 9.39903156639126e-19) + 1.81610959150781e-14)) + fs(fs(fs(fs(2.28368248589625e-25fs - 3.77218008187042e-21) + 2.13215680570896e-17) - 2.46839838431341e-14) + 1.07554045808185e-12); a0 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs + 2.76395574393073e-29) + 2.47590405660162e-25) + 6.9962186308502e-22) + 4.58215139506045e-19) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs - 2.76395574393073e-29) - 2.64640572159356e-25) - 1.4841233988606e-21) - 4.24368867635019e-18) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(-5.49134519444555e-34fs - 3.96553480211966e-29) - 7.90796376100631e-25) - 3.47996685752438e-21) - 1.38306404847714e-18) - 2.67283163365866e-16) - 1.99388390547645e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs - 2.82142604978253e-29) + 4.75074761635673e-25) + 4.84467561983897e-21) + 3.32725749029414e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs + 2.82142604978253e-29) - 4.58024595136479e-25) - 4.04203560906425e-21) + 4.63713282723472e-19) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(5.49134519444555e-34fs + 4.02395336801801e-29) + 6.85048270381817e-26) - 2.5604994651478e-21) - 5.57414911026091e-18) - 1.76929455450831e-15) + 1.99388390547645e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.53330849719164e-29fs - 1.07257703344352e-24) - 7.27150786397279e-21) - 8.09248674416533e-18) - 2.49206576816899e-15) - 1.99388390547645e-14) + fs(fs(fs(fs(fs(2.53330849719164e-29fs + 1.07257703344352e-24) + 7.36054847217644e-21) + 1.22318904829528e-17) + 2.26497098429179e-14) + 1.99388390547645e-14)) + fs(fs(fs(fs(fs(2.5751080873953e-29fs + 1.16340859042599e-24) + 1.07598927576606e-20) + 2.63291612467212e-17) + 9.91125369338092e-15) + 1.58211776015604e-12) + 2.07170254601745e-11; a1 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs - 1.38197787196536e-28) - 7.42771216980487e-25) - 6.9962186308502e-22) + 4.58215139506045e-19) + 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs + 1.38197787196536e-28) + 7.93921716478069e-25) + 1.4841233988606e-21) - 4.24368867635019e-18) - 5.67896298910978e-19)) + fs(fs(fs(fs(fs(fs(3.84394163611188e-33fs + 1.98276740105983e-28) + 2.37238912830189e-24) + 3.47996685752438e-21) - 1.38306404847714e-18) - 8.01849490097598e-16) - 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs + 1.41071302489126e-28) - 1.42522428490702e-24) - 4.84467561983897e-21) + 3.32725749029414e-18) - 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs - 1.41071302489126e-28) + 1.37407378540944e-24) + 4.04203560906425e-21) + 4.63713282723472e-19) + 1.14147156081107e-16)) + fs(fs(fs(fs(fs(fs(-3.84394163611188e-33fs - 2.01197668400901e-28) - 2.05514481114545e-25) + 2.5604994651478e-21) - 5.57414911026091e-18) - 5.30788366352493e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs + 3.21773110033057e-24) + 7.27150786397279e-21) - 8.09248674416533e-18) - 7.47619730450697e-15) - 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs - 3.21773110033057e-24) - 7.36054847217644e-21) + 1.22318904829528e-17) + 6.79491295287538e-14) + 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs - 3.49022577127798e-24) - 1.07598927576606e-20) + 2.63291612467212e-17) + 2.97337610801428e-14) + 7.9105888007802e-12) + 1.45019178221222e-10; a2 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs + 2.48756016953765e-28) + 2.47590405660162e-25) - 2.09886558925506e-21) - 1.37464541851814e-18) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs - 2.48756016953765e-28) - 2.64640572159356e-25) + 4.45237019658181e-21) + 1.27310660290506e-17) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(-1.15318249083356e-32fs - 3.56898132190769e-28) - 7.90796376100631e-25) + 1.04399005725732e-20) + 4.14919214543143e-18) - 2.67283163365866e-16) - 1.7944955149288e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs - 2.53928344480428e-28) + 4.75074761635673e-25) - 1.45340268595169e-20) - 9.98177247088241e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs + 2.53928344480428e-28) - 4.58024595136479e-25) + 1.21261068271927e-20) - 1.39113984817042e-18) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(1.15318249083356e-32fs + 3.62155803121621e-28) + 6.85048270381817e-26) + 7.68149839544339e-21) + 1.67224473307827e-17) - 1.76929455450831e-15) + 1.7944955149288e-14)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.27997764747247e-28fs - 1.07257703344352e-24) + 2.18145235919184e-20) + 2.4277460232496e-17) - 2.49206576816899e-15) - 1.7944955149288e-13) + fs(fs(fs(fs(fs(2.27997764747247e-28fs + 1.07257703344352e-24) - 2.20816454165293e-20) - 3.66956714488585e-17) + 2.26497098429179e-14) + 1.7944955149288e-13)) + fs(fs(fs(fs(fs(2.31759727865577e-28fs + 1.16340859042599e-24) - 3.22796782729819e-20) - 7.89874837401636e-17) + 9.91125369338092e-15) + 1.42390598414044e-11) + 4.35057534663665e-10; a3 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs - 1.38197787196536e-28) + 1.23795202830081e-24) + 2.09886558925506e-21) - 1.37464541851814e-18) - 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs + 1.38197787196536e-28) - 1.32320286079678e-24) - 4.45237019658181e-21) + 1.27310660290506e-17) + 9.46493831518297e-19)) + fs(fs(fs(fs(fs(fs(1.92197081805594e-32fs + 1.98276740105983e-28) - 3.95398188050316e-24) - 1.04399005725732e-20) + 4.14919214543143e-18) + 1.33641581682933e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs + 1.41071302489126e-28) + 2.37537380817836e-24) + 1.45340268595169e-20) - 9.98177247088241e-18) + 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs - 1.41071302489126e-28) - 2.29012297568239e-24) - 1.21261068271927e-20) - 1.39113984817042e-18) - 1.90245260135178e-16)) + fs(fs(fs(fs(fs(fs(-1.92197081805594e-32fs - 2.01197668400901e-28) + 3.42524135190908e-25) - 7.68149839544339e-21) + 1.67224473307827e-17) + 8.84647277254155e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs - 5.36288516721762e-24) - 2.18145235919184e-20) + 2.4277460232496e-17) + 1.2460328840845e-14) - 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs + 5.36288516721762e-24) + 2.20816454165293e-20) - 3.66956714488585e-17) - 1.1324854921459e-13) + 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs + 5.81704295212996e-24) + 3.22796782729819e-20) - 7.89874837401636e-17) - 4.95562684669046e-14) + 7.9105888007802e-12) + 7.25095891106108e-10; a4 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs - 1.38197787196536e-28) - 1.23795202830081e-24) + 2.09886558925506e-21) + 1.37464541851814e-18) - 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs + 1.38197787196536e-28) + 1.32320286079678e-24) - 4.45237019658181e-21) - 1.27310660290506e-17) + 9.46493831518297e-19)) + fs(fs(fs(fs(fs(fs(-1.92197081805594e-32fs + 1.98276740105983e-28) + 3.95398188050316e-24) - 1.04399005725732e-20) - 4.14919214543143e-18) + 1.33641581682933e-15) + 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.89077306252429e-32fs + 1.41071302489126e-28) - 2.37537380817836e-24) + 1.45340268595169e-20) + 9.98177247088241e-18) + 9.46493831518297e-19) + pow(fs,2)(fs(fs(fs(fs(1.89077306252429e-32fs - 1.41071302489126e-28) + 2.29012297568239e-24) - 1.21261068271927e-20) + 1.39113984817042e-18) - 1.90245260135178e-16)) + fs(fs(fs(fs(fs(fs(1.92197081805594e-32fs - 2.01197668400901e-28) - 3.42524135190908e-25) - 7.68149839544339e-21) - 1.67224473307827e-17) + 8.84647277254155e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs + 5.36288516721762e-24) - 2.18145235919184e-20) - 2.4277460232496e-17) + 1.2460328840845e-14) + 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs - 5.36288516721762e-24) + 2.20816454165293e-20) + 3.66956714488585e-17) - 1.1324854921459e-13) - 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs - 5.81704295212996e-24) + 3.22796782729819e-20) + 7.89874837401636e-17) - 4.95562684669046e-14) - 7.9105888007802e-12) + 7.25095891106108e-10; a5 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs + 2.48756016953765e-28) - 2.47590405660162e-25) - 2.09886558925506e-21) + 1.37464541851814e-18) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs - 2.48756016953765e-28) + 2.64640572159356e-25) + 4.45237019658181e-21) - 1.27310660290506e-17) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(1.15318249083356e-32fs - 3.56898132190769e-28) + 7.90796376100631e-25) + 1.04399005725732e-20) - 4.14919214543143e-18) - 2.67283163365866e-16) + 1.7944955149288e-14)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(1.13446383751457e-32fs - 2.53928344480428e-28) - 4.75074761635673e-25) - 1.45340268595169e-20) + 9.98177247088241e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-1.13446383751457e-32fs + 2.53928344480428e-28) + 4.58024595136479e-25) + 1.21261068271927e-20) + 1.39113984817042e-18) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(-1.15318249083356e-32fs + 3.62155803121621e-28) - 6.85048270381817e-26) + 7.68149839544339e-21) - 1.67224473307827e-17) - 1.76929455450831e-15) - 1.7944955149288e-14)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.27997764747247e-28fs + 1.07257703344352e-24) + 2.18145235919184e-20) - 2.4277460232496e-17) - 2.49206576816899e-15) + 1.7944955149288e-13) + fs(fs(fs(fs(fs(2.27997764747247e-28fs - 1.07257703344352e-24) - 2.20816454165293e-20) + 3.66956714488585e-17) + 2.26497098429179e-14) - 1.7944955149288e-13)) + fs(fs(fs(fs(fs(2.31759727865577e-28fs - 1.16340859042599e-24) - 3.22796782729819e-20) + 7.89874837401636e-17) + 9.91125369338092e-15) - 1.42390598414044e-11) + 4.35057534663665e-10; a6 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs - 1.38197787196536e-28) + 7.42771216980487e-25) - 6.9962186308502e-22) - 4.58215139506045e-19) + 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs + 1.38197787196536e-28) - 7.93921716478069e-25) + 1.4841233988606e-21) + 4.24368867635019e-18) - 5.67896298910978e-19)) + fs(fs(fs(fs(fs(fs(-3.84394163611188e-33fs + 1.98276740105983e-28) - 2.37238912830189e-24) + 3.47996685752438e-21) + 1.38306404847714e-18) - 8.01849490097598e-16) + 9.96941952738223e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-3.78154612504858e-33fs + 1.41071302489126e-28) + 1.42522428490702e-24) - 4.84467561983897e-21) - 3.32725749029414e-18) - 5.67896298910978e-19) + pow(fs,2)(fs(fs(fs(fs(3.78154612504858e-33fs - 1.41071302489126e-28) - 1.37407378540944e-24) + 4.04203560906425e-21) - 4.63713282723472e-19) + 1.14147156081107e-16)) + fs(fs(fs(fs(fs(fs(3.84394163611188e-33fs - 2.01197668400901e-28) + 2.05514481114545e-25) + 2.5604994651478e-21) + 5.57414911026091e-18) - 5.30788366352493e-15) - 9.96941952738223e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(1.26665424859582e-28fs - 3.21773110033057e-24) + 7.27150786397279e-21) + 8.09248674416533e-18) - 7.47619730450697e-15) + 9.96941952738223e-14) + fs(fs(fs(fs(fs(-1.26665424859582e-28fs + 3.21773110033057e-24) - 7.36054847217644e-21) - 1.22318904829528e-17) + 6.79491295287538e-14) - 9.96941952738223e-14)) + fs(fs(fs(fs(fs(-1.28755404369765e-28fs + 3.49022577127798e-24) - 1.07598927576606e-20) - 2.63291612467212e-17) + 2.97337610801428e-14) - 7.9105888007802e-12) + 1.45019178221222e-10; a7 = PRhiv(PRhiv(PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs + 2.76395574393073e-29) - 2.47590405660162e-25) + 6.9962186308502e-22) - 4.58215139506045e-19) + 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs - 2.76395574393073e-29) + 2.64640572159356e-25) - 1.4841233988606e-21) + 4.24368867635019e-18) - 1.89298766303659e-19)) + fs(fs(fs(fs(fs(fs(5.49134519444555e-34fs - 3.96553480211966e-29) + 7.90796376100631e-25) - 3.47996685752438e-21) + 1.38306404847714e-18) - 2.67283163365866e-16) + 1.99388390547645e-15)) + PRlowv(PRlowvpow(fs,2)(fs(fs(fs(fs(5.4022087500694e-34fs - 2.82142604978253e-29) - 4.75074761635673e-25) + 4.84467561983897e-21) - 3.32725749029414e-18) - 1.89298766303659e-19) + pow(fs,2)(fs(fs(fs(fs(-5.4022087500694e-34fs + 2.82142604978253e-29) + 4.58024595136479e-25) - 4.04203560906425e-21) - 4.63713282723472e-19) + 3.80490520270356e-17)) + fs(fs(fs(fs(fs(fs(-5.49134519444555e-34fs + 4.02395336801801e-29) - 6.85048270381817e-26) - 2.5604994651478e-21) + 5.57414911026091e-18) - 1.76929455450831e-15) - 1.99388390547645e-15)) + PRlowv(PRlowvfs(fs(fs(fs(fs(-2.53330849719164e-29fs + 1.07257703344352e-24) - 7.27150786397279e-21) + 8.09248674416533e-18) - 2.49206576816899e-15) + 1.99388390547645e-14) + fs(fs(fs(fs(fs(2.53330849719164e-29fs - 1.07257703344352e-24) + 7.36054847217644e-21) - 1.22318904829528e-17) + 2.26497098429179e-14) - 1.99388390547645e-14)) + fs(fs(fs(fs(fs(2.5751080873953e-29fs - 1.16340859042599e-24) + 1.07598927576606e-20) - 2.63291612467212e-17) + 9.91125369338092e-15) - 1.58211776015604e-12) + 2.07170254601745e-11; };
fc04a07c11510d38434e427976bfe6adfeec216964c114c1841dc9b2cdae9a66	nick8325/faustilogue	fixedsin.dsp	import("stdfaust.lib"); process = os.oscsin(440);	https://raw.githubusercontent.com/nick8325/faustilogue/a5d455e6dd17894facec0c2b8623adc8cdfc0bb3/examples/fixedsin.dsp	faust		import("stdfaust.lib"); process = os.oscsin(440);
f486761ff58b9025737fc2bbf809e468c77076442ec2032a43b72ae65efc8b47	nick8325/faustilogue	sawtooth.dsp	import("stdfaust.lib"); process = +(0.01) ~ ma.frac;	https://raw.githubusercontent.com/nick8325/faustilogue/97099ba515a09875234ec4a9514cf67198af21a8/examples/sawtooth.dsp	faust		import("stdfaust.lib"); process = +(0.01) ~ ma.frac;
961ed726668f7b53c0aa119821a93df1f94d946fd6bef4863e4f5cd2c41d26bd	nick8325/faustilogue	bend.dsp	import("stdfaust.lib"); bend = ba.semi2ratio(hslider("frequency[midi:pitchwheel]",0,-2,2,0.01)) : si.smoo; process = os.sawtooth(440*bend);	https://raw.githubusercontent.com/nick8325/faustilogue/97099ba515a09875234ec4a9514cf67198af21a8/examples/bend.dsp	faust		import("stdfaust.lib"); bend = ba.semi2ratio(hslider("frequency[midi:pitchwheel]",0,-2,2,0.01)) : si.smoo; process = os.sawtooth(440*bend);
44a7e89334cc1abccf2e1dc31ebc7bf8891fc3bb1f5d23993b8e6d8787ce6dce	nick8325/faustilogue	midi.dsp	import("stdfaust.lib"); freq = hslider("freq",200,50,1000,0.01); gain = hslider("gain",0.5,0,1,0.01); gate = button("gate"); process = os.sawtooth(freq)gaingate;	https://raw.githubusercontent.com/nick8325/faustilogue/97099ba515a09875234ec4a9514cf67198af21a8/examples/midi.dsp	faust		import("stdfaust.lib"); freq = hslider("freq",200,50,1000,0.01); gain = hslider("gain",0.5,0,1,0.01); gate = button("gate"); process = os.sawtooth(freq)gaingate;
088e8f980b6d4ec774da6b82e04635dd5cdb43d45994c324c942f614850e4947	nick8325/faustilogue	nested_rdtable.dsp	import("stdfaust.lib"); tablesize = pl.tablesize; phasor = os.phasor; mything1 = os.oscsin(440); mything2 = os.osccos(220); process = rdtable(pl.tablesize, mything1 + mything2, int(os.phasor(pl.tablesize, 1)));	https://raw.githubusercontent.com/nick8325/faustilogue/f0a849a6670884f5e2717cbcb1d851f30a84a583/tests/nested_rdtable.dsp	faust		import("stdfaust.lib"); tablesize = pl.tablesize; phasor = os.phasor; mything1 = os.oscsin(440); mything2 = os.osccos(220); process = rdtable(pl.tablesize, mything1 + mything2, int(os.phasor(pl.tablesize, 1)));
e58599a59bd651bac7df94bf3e70f1503d684c69fc07a73537312fddb49a1227	nick8325/faustilogue	string.dsp	import("stdfaust.lib"); // freq, res and gate definitions go here freq = hslider("freq", 2000, 1, 22000, 1); res = hslider("shape", 1.2, 0, 5, 0.01); gate = 1; string(frequency,resonance,trigger) = trigger : ba.impulsify : fi.fb_fcomb(1024,del,1,resonance) with { del = ma.SR/frequency; }; process = string(freq,res,gate);	https://raw.githubusercontent.com/nick8325/faustilogue/f0a849a6670884f5e2717cbcb1d851f30a84a583/examples/string.dsp	faust	freq, res and gate definitions go here	import("stdfaust.lib"); freq = hslider("freq", 2000, 1, 22000, 1); res = hslider("shape", 1.2, 0, 5, 0.01); gate = 1; string(frequency,resonance,trigger) = trigger : ba.impulsify : fi.fb_fcomb(1024,del,1,resonance) with { del = ma.SR/frequency; }; process = string(freq,res,gate);
ecb6b78b18fd88854b3156099407fe914325bd0a2bd132758f08ff7fa8b6c882	nick8325/faustilogue	karplus.dsp	declare name "KarplusStrong"; declare description "Simple call of the Karplus-Strong model for the Faust physical modeling library"; declare license "MIT"; declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME"; import("stdfaust.lib"); process = 1 : pm.impulseExcitation*gain : pm.ks( (freq : pm.f2l), damping ) with{ freq = hslider("freq",440,50,1000,0.01); gain = hslider("shape",0.8,0,1,0.01); damping = hslider("shiftshape" ,0.01,0,1,0.01) : si.smoo; };	https://raw.githubusercontent.com/nick8325/faustilogue/f77072a9c4a71eab44fc718b2988421840d6847b/examples/karplus.dsp	faust		declare name "KarplusStrong"; declare description "Simple call of the Karplus-Strong model for the Faust physical modeling library"; declare license "MIT"; declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME"; import("stdfaust.lib"); process = 1 : pm.impulseExcitation*gain : pm.ks( (freq : pm.f2l), damping ) with{ freq = hslider("freq",440,50,1000,0.01); gain = hslider("shape",0.8,0,1,0.01); damping = hslider("shiftshape" ,0.01,0,1,0.01) : si.smoo; };
071be929b760192509602956f023056e5eea0b6d4ced97fc7dbe1d949b64afc6	nick8325/faustilogue	electricGuitarMIDI.dsp	// NOTE: this only works at 24kHz // TODO: retune it to sound nice at 24kHz! declare name "ElecGuitarMidi"; declare description "Simple electric guitar model."; declare license "MIT"; declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME"; import("stdfaust.lib"); process = guitar_ui_MIDI; guitar_ui_MIDI = pm.elecGuitar(stringLength,pluckPosition,1,gain,gate) with{ f = hslider("freq",440,50,1000,0.01); bend = ba.semi2ratio(hslider("lfo",0,-1,1,0.01)2) : si.polySmooth(gate,0.999,1); gain = hslider("shiftshape",0.8,0,1,0.01); pluckPosition = hslider("shape" ,0.8,0,1,0.01) : si.smoo; gate = 1; freq = fbend; stringLength = freq : pm.f2l; };	https://raw.githubusercontent.com/nick8325/faustilogue/f77072a9c4a71eab44fc718b2988421840d6847b/examples/electricGuitarMIDI.dsp	faust	NOTE: this only works at 24kHz TODO: retune it to sound nice at 24kHz!	declare name "ElecGuitarMidi"; declare description "Simple electric guitar model."; declare license "MIT"; declare copyright "(c)Romain Michon, CCRMA (Stanford University), GRAME"; import("stdfaust.lib"); process = guitar_ui_MIDI; guitar_ui_MIDI = pm.elecGuitar(stringLength,pluckPosition,1,gain,gate) with{ f = hslider("freq",440,50,1000,0.01); bend = ba.semi2ratio(hslider("lfo",0,-1,1,0.01)2) : si.polySmooth(gate,0.999,1); gain = hslider("shiftshape",0.8,0,1,0.01); pluckPosition = hslider("shape" ,0.8,0,1,0.01) : si.smoo; gate = 1; freq = fbend; stringLength = freq : pm.f2l; };
baf368646654e0c156b783ec2d8fa70a333cf932006ada991745f5e64d91be96	nick8325/faustilogue	bubble.dsp	declare name "bubble"; declare description "Production of a water drop bubble sound."; declare license "MIT"; declare copyright "(c) 2017: Yann Orlarey, GRAME"; import("stdfaust.lib"); //---------------------------`bubble`-------------------------- // bubble(f0, trig) : produces a water drop bubble sound // // #### Usage // // ``` // bubble(f0, trig) : _ // ``` // // Where: // // * ` f0 `: base frequency of bubble sound // * `trig`: trigs the bubble sound on the rising front // // #### Example // // ``` // button("drop") : bubble(600) : _ // ``` // // #### Reference: // // <http://www.cs.ubc.ca/~kvdoel/publications/tap05.pdf> //------------------------------------------------------------ bubble(f0,trig) = os.osc(f) * (exp(-damptime) : si.smooth(0.99)) with { damp = 0.043f0 + 0.0014f0^(3/2); f = f0(1+sigmatime); sigma = eta damp; eta = 0.075; time = 0 : (select2(trig>trig'):+(1)) ~ _ : ba.samp2sec; }; process = button("drop") : bubble(hslider("shape", 600, 150, 2000, 1));	https://raw.githubusercontent.com/nick8325/faustilogue/97099ba515a09875234ec4a9514cf67198af21a8/examples/bubble.dsp	faust	---------------------------`bubble`-------------------------- bubble(f0, trig) : produces a water drop bubble sound #### Usage ``` bubble(f0, trig) : _ ``` Where: * ` f0 `: base frequency of bubble sound * `trig`: trigs the bubble sound on the rising front #### Example ``` button("drop") : bubble(600) : _ ``` #### Reference: <http://www.cs.ubc.ca/~kvdoel/publications/tap05.pdf> ------------------------------------------------------------	declare name "bubble"; declare description "Production of a water drop bubble sound."; declare license "MIT"; declare copyright "(c) 2017: Yann Orlarey, GRAME"; import("stdfaust.lib"); bubble(f0,trig) = os.osc(f) * (exp(-damptime) : si.smooth(0.99)) with { damp = 0.043f0 + 0.0014f0^(3/2); f = f0(1+sigmatime); sigma = eta damp; eta = 0.075; time = 0 : (select2(trig>trig'):+(1)) ~ _ : ba.samp2sec; }; process = button("drop") : bubble(hslider("shape", 600, 150, 2000, 1));
9f2c68a42ce5fb216696de03e37b8df59a3098a985114348c44981fa83138ac0	droosenb/faust-on-ESP32	ForwardEuler.dsp	import("stdfaust.lib"); fEuler(expr) = si.bus(n) <: si.bus(n), expr <: par(i, n, (ba.selector(i, 2m) + ba.selector(i+m,2m)/ma.SR)) with { n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 * w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01); v0 = start; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x), x * (p -z) - y, xy - bz with{ o = 10; p = 14; b = 2.7; }; process = (_, _) ~ fEuler(sho);	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(5)/ForwardEuler.dsp	faust		import("stdfaust.lib"); fEuler(expr) = si.bus(n) <: si.bus(n), expr <: par(i, n, (ba.selector(i, 2m) + ba.selector(i+m,2m)/ma.SR)) with { n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 * w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01); v0 = start; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x), x * (p -z) - y, xy - bz with{ o = 10; p = 14; b = 2.7; }; process = (_, _) ~ fEuler(sho);
63587606494df84f0beaaa5aeb23acd5edb163226cefd22be83b03bc8d0c3ed2	droosenb/faust-on-ESP32	RuanKutta.dsp	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)) : expr <: par(i,n,ba.selector(i,m)''2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n).5) : expr <: par(i,n,ba.selector(i,m)'2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; sho(v, x) = -1w^2 * x , v with{ w = 1/200; }; lorentz(x, y, z) = o * (y - x), x * (p -z) - y, xy - bz with{ o = 10; p = 14; b = 2.7; }; process = button("start") : (_, +) ~ midpoint(sho);	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(4)/RuanKutta.dsp	faust		import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)) : expr <: par(i,n,ba.selector(i,m)''2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n).5) : expr <: par(i,n,ba.selector(i,m)'2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; sho(v, x) = -1w^2 * x , v with{ w = 1/200; }; lorentz(x, y, z) = o * (y - x), x * (p -z) - y, xy - bz with{ o = 10; p = 14; b = 2.7; }; process = button("start") : (_, +) ~ midpoint(sho);
fb8559fca9bc89688e878ce81c15f439728b30a92490e1e452647821e03de373	droosenb/faust-on-ESP32	FaustBasic.dsp	import("stdfaust.lib"); //freq = nentry("freq", 440, 20, 2000, .01) : si.smoo; sfreq = hslider("sFreq", 60, 0, 1000, .01); sQ = hslider("sQ", 1, 0, 100, .001); speaker = fi.resonbp(sfreq, sQ, 1); lambda = hslider("lambda", 1, 0.001 , 1, .001); phase = hslider("phase", 0, 0, 3.14, .01); a0 = hslider("michelsonAmpOut", 1, 0, 2, .01); michelson(s) = s/lambda + phase : (cos)^2 * a0 : fi.dcblocker; dfreq = hslider("dFreq", 600, 0, 1000, .01); dQ = hslider("dQ", 1, 0, 100, .001); detector = fi.resonlp(dfreq, dQ, 1); process = os.osc(os.sawtooth(.1)200 + 80) : speaker: michelson(_) : detector 4 <: _ , _;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(3)/FaustBasic.dsp	faust	freq = nentry("freq", 440, 20, 2000, .01) : si.smoo;	import("stdfaust.lib"); sfreq = hslider("sFreq", 60, 0, 1000, .01); sQ = hslider("sQ", 1, 0, 100, .001); speaker = fi.resonbp(sfreq, sQ, 1); lambda = hslider("lambda", 1, 0.001 , 1, .001); phase = hslider("phase", 0, 0, 3.14, .01); a0 = hslider("michelsonAmpOut", 1, 0, 2, .01); michelson(s) = s/lambda + phase : (cos)^2 * a0 : fi.dcblocker; dfreq = hslider("dFreq", 600, 0, 1000, .01); dQ = hslider("dQ", 1, 0, 100, .001); detector = fi.resonlp(dfreq, dQ, 1); process = os.osc(os.sawtooth(.1)200 + 80) : speaker: michelson(_) : detector 4 <: _ , _;
e6fc5e5131b9c572eba8e718100098e35ef94d06501003e4f5da60f2903264f0	droosenb/faust-wdf-library	tubeScreamer.dsp	import("stdfaust.lib"); //wd = library("wdmodels.lib"); stage_a(in1) = wd.buildtree(tree_a) with{ vinA(i) = wd.u_resVoltage(i, 1, in1); c2(i) = wd.capacitor(i, 110^-6); vB(i) = wd.resVoltage_Vout(i, 1010^3, 4.5); rA(i) = wd.resistor(i, 220); tree_a = vinA : wd.series : (c2, (wd.series : (rA, vB))); }; stage_b(in1) = wd.buildtree(tree_b) with{ vinB(i) = wd.u_voltage(i, in1); c3(i) = wd.capacitor(i, .04710^-6); r4(i) = wd.resistor_Iout(i, 4.710^3); tree_b = vinB : wd.series : (c3, r4); }; stage_c(in1) = wd.buildtree(tree_c) with{ pot1 = hslider("distortion 0 - 500k", 250, 0, 500, .1); jinC(i) = wd.resCurrent(i, 5110^3+pot110^3, in1); d1(i) = wd.u_diodeAntiparallel(i, 2.5210^-9, 25.8510^-3, 1, 1); c4(i) = wd.capacitor_Vout(i, 4110^-12); tree_c = d1 : wd.parallel : (c4, jinC); }; ingain = hslider("input gain", 1, 0, 1, .01); inputprotect(in) = in((in < clip) & (in > -clip)) + clip(in > clip) + -clip(in < -clip) with{ clip = .016; }; onState = checkbox("ON"); gaincorrect(in) = in(onState-1 + 1)12 + in; process = _.015ingain : inputprotect : stage_a <: _, stage_b onState: _, stage_c : _ - _ - 4.5 : gaincorrect;	https://raw.githubusercontent.com/droosenb/faust-wdf-library/e581eb15b7b06572add939c6aa99472cca04269b/examples/tube-screamer/tubeScreamer.dsp	faust	wd = library("wdmodels.lib");	import("stdfaust.lib"); stage_a(in1) = wd.buildtree(tree_a) with{ vinA(i) = wd.u_resVoltage(i, 1, in1); c2(i) = wd.capacitor(i, 110^-6); vB(i) = wd.resVoltage_Vout(i, 1010^3, 4.5); rA(i) = wd.resistor(i, 220); tree_a = vinA : wd.series : (c2, (wd.series : (rA, vB))); }; stage_b(in1) = wd.buildtree(tree_b) with{ vinB(i) = wd.u_voltage(i, in1); c3(i) = wd.capacitor(i, .04710^-6); r4(i) = wd.resistor_Iout(i, 4.710^3); tree_b = vinB : wd.series : (c3, r4); }; stage_c(in1) = wd.buildtree(tree_c) with{ pot1 = hslider("distortion 0 - 500k", 250, 0, 500, .1); jinC(i) = wd.resCurrent(i, 5110^3+pot110^3, in1); d1(i) = wd.u_diodeAntiparallel(i, 2.5210^-9, 25.8510^-3, 1, 1); c4(i) = wd.capacitor_Vout(i, 4110^-12); tree_c = d1 : wd.parallel : (c4, jinC); }; ingain = hslider("input gain", 1, 0, 1, .01); inputprotect(in) = in((in < clip) & (in > -clip)) + clip(in > clip) + -clip(in < -clip) with{ clip = .016; }; onState = checkbox("ON"); gaincorrect(in) = in(onState-1 + 1)12 + in; process = _.015ingain : inputprotect : stage_a <: _, stage_b onState: _, stage_c : _ - _ - 4.5 : gaincorrect;
612f729f2e02187a7bfa16344b208f49fc86e76ed6873a43e300bbabfbca01f3	droosenb/faust-on-ESP32	Midpoint.dsp	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)') : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)'.5) : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(3)/Midpoint.dsp	faust		import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)') : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)'.5) : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;
b33f2ba08f08f1025db1b4cd313cc9c4632f8c75adc969323e0e6ffd054cdda3	droosenb/faust-on-ESP32	Midpoint.dsp	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)') : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)'.5) : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; //define the ode's for the Simple Harmonic Oscillator sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; //define the ode's for the Lorentz atrractor lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; //process = solve(sho); process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/ODE_Solver/Midpoint(4)/Midpoint.dsp	faust	define the ode's for the Simple Harmonic Oscillator define the ode's for the Lorentz atrractor process = solve(sho);	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)') : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)'.5) : expr <: par(i,n,ba.selector(i,m)2/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;
1e4a023cbf43f343c3fd503f1914029f03df9bb8e9d30b2573fd571fbd154415	droosenb/faust-on-ESP32	Midpoint.dsp	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)) : expr <: par(i,n,ba.selector(i,m)/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n).5) : expr <: par(i,n,ba.selector(i,m)/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; //define the ode's for the Simple Harmonic Oscillator sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; //define the ode's for the Lorentz atrractor lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; //process = solve(sho) : _/128, _/128; process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/old_examples/LyraT_OSC_simple/main/Midpoint.dsp	faust	define the ode's for the Simple Harmonic Oscillator define the ode's for the Lorentz atrractor process = solve(sho) : _/128, _/128;	import("stdfaust.lib"); F1(expr) = si.bus(n) <: par(i,n,ba.selector(i,n)) : expr <: par(i,n,ba.selector(i,m)/ma.SR) with { n = inputs(expr); m = outputs(expr); }; F2(expr) = si.bus(n) <: si.bus(n) , F1(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n).5) : expr <: par(i,n,ba.selector(i,m)/ma.SR) with { n = inputs(expr); m = outputs(expr); }; midpoint(expr) = si.bus(n) <: si.bus(n), F2(expr) <: par(i, n, ba.selector(i, 2n) + ba.selector(i+n,2n)) with { n = inputs(expr); m = outputs(expr); }; solve(expr) = si.bus(n) ~ midpoint(expr) with{ n = inputs(expr); m = outputs(expr); }; sho(x, v) = v+v0, -1 w^2 * x with{ w = hslider("freq", 200, 100, 1000, .01)ma.PI; v0 = start100; c = 1/10000; start = button("start"); }; lorentz(x, y, z) = o * (y - x) + x0, x * (p -z) - y, xy - bz with{ o = hslider("sigma", 10, 0, 1000, .1); p = hslider("rho", 140, 0, 10000, .1); b = hslider("beta", 2.7, 0, 1000, .1); x0 = start; start = button("start"); }; process = solve(lorentz) : fi.dcblocker.0005 + fi.dcblocker.0005, fi.dcblocker*.0005 ;
d642f679b485db1bc94c17c0610792b6569246c4564d641ad6980404e0121a29	droosenb/faust-on-ESP32	PlateRev.dsp	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ tablesize = 1 << 15; // instead of 1 << 16 }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("bandwidth", .65, 0 , 1, .01); indiff1 = hslider("Input Diffusion 1", .7, 0 , 1, .01); indiff2 = hslider("Input Diffusion 2", .7, 0 , 1, .01); decaydiff1 = hslider("Decay Diffusion 1", .75, 0 , 1, .01); decaydiff2 = hslider("Decay Diffusion 2", .625, 0 , 1, .01); damping = hslider("Damping", .38, 0 , 1, .01); decay = hslider("Decay", .87, 0 , 1, .01); inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in) <: lefttank(decaydiff1, damping, decaydiff2, decay), _ <: +(in), _, _, ! <: righttank(decaydiff1, damping, decaydiff2, decay), _, _, _, !, !) ~ _ : _ + _ - _ - _; process = onepole(bandwidth) : inputdiffuser(indiff1, indiff2) : tank <: _, _;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/OSC/esp32-osc-reverb/PlateRev.dsp	faust	instead of 1 << 16	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("bandwidth", .65, 0 , 1, .01); indiff1 = hslider("Input Diffusion 1", .7, 0 , 1, .01); indiff2 = hslider("Input Diffusion 2", .7, 0 , 1, .01); decaydiff1 = hslider("Decay Diffusion 1", .75, 0 , 1, .01); decaydiff2 = hslider("Decay Diffusion 2", .625, 0 , 1, .01); damping = hslider("Damping", .38, 0 , 1, .01); decay = hslider("Decay", .87, 0 , 1, .01); inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in) <: lefttank(decaydiff1, damping, decaydiff2, decay), _ <: +(in), _, _, ! <: righttank(decaydiff1, damping, decaydiff2, decay), _, _, _, !, !) ~ _ : _ + _ - _ - _; process = onepole(bandwidth) : inputdiffuser(indiff1, indiff2) : tank <: _, _;
ddc692fafbe2e349ddbf0b7df0c4ab2fa5fa64506faaa7ab541ec9c914e56e79	droosenb/faust-on-ESP32	reverb.dsp	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ tablesize = 1 << 15; // instead of 1 << 16 }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("/bandwidth", .65, 0 , 1, .01); indiff1 = hslider("/diff/in1", .7, 0 , 1, .01); indiff2 = hslider("/diff/in2", .7, 0 , 1, .01); decaydiff1 = hslider("/diff/decay1", .75, 0 , 1, .01); decaydiff2 = hslider("/diff/decay2", .625, 0 , 1, .01); damping = hslider("/damping", .38, 0 , 1, .01); decay = hslider("/decay", .87, 0 , 1, .01); wet = hslider("/mix", .87, 0 , 1, .01); ingain = hslider("/ingain", 1, 0 , 2, .01); inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in): lefttank(decaydiff1, damping, decaydiff2, decay) <: +(in), _ : righttank(decaydiff1, damping, decaydiff2, decay), _) ~ _ : _' + _ + in; process = _(ingain) <: onepole(bandwidth), _ : inputdiffuser(indiff1, indiff2), _ : tank, _: _ wet + _ * (1-wet) <: _, _;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/OSC/esp32-osc-reverb/reverbfix/reverb.dsp	faust	instead of 1 << 16	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("/bandwidth", .65, 0 , 1, .01); indiff1 = hslider("/diff/in1", .7, 0 , 1, .01); indiff2 = hslider("/diff/in2", .7, 0 , 1, .01); decaydiff1 = hslider("/diff/decay1", .75, 0 , 1, .01); decaydiff2 = hslider("/diff/decay2", .625, 0 , 1, .01); damping = hslider("/damping", .38, 0 , 1, .01); decay = hslider("/decay", .87, 0 , 1, .01); wet = hslider("/mix", .87, 0 , 1, .01); ingain = hslider("/ingain", 1, 0 , 2, .01); inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in): lefttank(decaydiff1, damping, decaydiff2, decay) <: +(in), _ : righttank(decaydiff1, damping, decaydiff2, decay), _) ~ _ : _' + _ + in; process = _(ingain) <: onepole(bandwidth), _ : inputdiffuser(indiff1, indiff2), _ : tank, _: _ wet + _ * (1-wet) <: _, _;
1124709675414fb65b224dc2d6f995faa52ceb8399648b7c33df934999dbeef5	droosenb/faust-on-ESP32	reverb.dsp	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ tablesize = 1 << 15; // instead of 1 << 16 }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("/bandwidth", .65, 0 , 1, .01) : si.smoo; indiff1 = hslider("/diff/in1", .7, 0 , 1, .01): si.smoo; indiff2 = hslider("/diff/in2", .7, 0 , 1, .01): si.smoo; decaydiff1 = hslider("/diff/decay1", .75, 0 , 1, .01): si.smoo; decaydiff2 = hslider("/diff/decay2", .625, 0 , 1, .01): si.smoo; damping = hslider("/damping", .38, 0 , 1, .01): si.smoo; decay = hslider("/decay", .87, 0 , 1, .01): si.smoo; wet = hslider("/mix", .87, 0 , 1, .01): si.smoo; ingain = hslider("/ingain", 1, 0 , 2, .01): si.smoo; inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in): lefttank(decaydiff1, damping, decaydiff2, decay) <: +(in), _ : righttank(decaydiff1, damping, decaydiff2, decay), _) ~ _ : _' + _ + in; process = _(ingain) <: onepole(bandwidth), _ : inputdiffuser(indiff1, indiff2), _ : tank, _: _ wet + _ * (1-wet) <: _, _;	https://raw.githubusercontent.com/droosenb/faust-on-ESP32/2060ad6723bed4578d5a75f8eeeacb93a7dc0b60/OSC/esp32-osc-reverb/reverb.dsp	faust	instead of 1 << 16	import("stdfaust.lib"); ap(gain, delay, delay_max) = ( + <: de.delay(delay_max, delay -1 ), (-gain)) ~ (gain): _' + _; ap_constant(gain, delay) = ( + <: de.delay(delay, delay -1), (-gain)) ~ (gain): _' + _; osc(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with{ }; onepole(gain) = _gain :( +)~(gain); bandwidth = hslider("/bandwidth", .65, 0 , 1, .01) : si.smoo; indiff1 = hslider("/diff/in1", .7, 0 , 1, .01): si.smoo; indiff2 = hslider("/diff/in2", .7, 0 , 1, .01): si.smoo; decaydiff1 = hslider("/diff/decay1", .75, 0 , 1, .01): si.smoo; decaydiff2 = hslider("/diff/decay2", .625, 0 , 1, .01): si.smoo; damping = hslider("/damping", .38, 0 , 1, .01): si.smoo; decay = hslider("/decay", .87, 0 , 1, .01): si.smoo; wet = hslider("/mix", .87, 0 , 1, .01): si.smoo; ingain = hslider("/ingain", 1, 0 , 2, .01): si.smoo; inputdiffuser(gain1, gain2) = ap_constant(-gain1, 142) : ap_constant(-gain1, 107) : ap_constant(-gain2, 379) : ap_constant(-gain2, 277); lefttank(gain1, gain2, gain3, gain4) = ap(gain1, 672 + 16osc(2/3), 686) : _@(4453) : onepole(gain2) : ap(gain3, 1800 + 16osc(19/17), 1816) : @(3720)(gain4); righttank(gain1, gain2, gain3, gain4) = ap(gain1, 908 + 16osc(5/7), 686) : _@(4217) : onepole(gain2) : ap(gain3, 2656 + 16osc(13/11), 1816) : @(3162)(gain4); tank(in) = (+(in): lefttank(decaydiff1, damping, decaydiff2, decay) <: +(in), _ : righttank(decaydiff1, damping, decaydiff2, decay), _) ~ _ : _' + _ + in; process = _(ingain) <: onepole(bandwidth), _ : inputdiffuser(indiff1, indiff2), _ : tank, _: _ wet + _ * (1-wet) <: _, _;
4a7ef667d713b0ea68e45324bd6969d58c732d6d95dddf02b4ecc8fe5fae79af	droosenb/faust-wdf-library	funtionTesting.dsp	import("stdfaust.lib"); Fader(in) = ba.db2linear(vslider("Input %in", -10, -96, 4, 0.1)); Mixer(N,out) = hgroup("Output %out", par(in, N, (Fader(in)) ) :> _ ); Matrix(N,M) = tgroup("Matrix %N x %M", par(in, N, _) <: par(out, M, Mixer(N, out))); funct = _ + 1, r0 with{ r0 = 3.14; }; funct2(f1) = _, f1 : calc with{ calc(a0, a1, r1) = a0 (r1 + r0) + a1, r0 with{ r0 = r12; }; }; length = 1; pluckPosition = .5; funct3(a , b) = _ + a + b; //old attempt at application based WDF //2 port devices par_2port(f1) = _ : f1 : _, ! , r0 with{ r0 = 0 : f1 : !, _; }; serVoltage_2port(f1, ein) = _ + ein : f1 : _ , ! : _ + ein : _, r0 with{ r1 = 0 : f1 : !, _; r0 = r1; }; //attempt at reverse stuff rev_resistor(R, p0) = 0 : p0(R0) : ! with{ R0 = R; }; rev_capacitor(R, p0) = p0 ~ ! with{ R0 = R; }; switchfunct= case{ (0, x) => _, x; (1, x) => 10 + x, _; //(x, y) => _, ; }; grabfunct(a : as) = a(1) , as(0); f10(x, y) = switchfunct; f1 = _ , _ , _; f2 = _, _, _; //crossover = _, ro.crossn1(2), _, _; //casefucnt((Ap1, Ap2)) = Ap1(0) , Ap2(0); funct5(switchfunct(x)) = switchfunct(0, x); // builddown(A: (As1, As2)) = ((_, _, _, upPortRes): A(0)), addins(inputs(builddown(As1), builddown(As2)) - 2 ) : crossover : builddown(As1), builddown(As2) // with{ // crossover = _ , ro.cross1n(inputs(builddown{(As1))-1), addins(inputs(builddown(As2))-1); // upPortRes = getres(As1), getres(As2); // }; builddown(A : As) = ((addins(inputs(A(0)) - outputs(upPortRes))), upPortRes : A(0)) , addins(inputs(pardown(As)) - outputs(A(0))) : pardown(As) with{ pardown = case{ ((Ap1, Ap2)) => crossover : builddown(Ap1), builddown(Ap2) with { crossover = _ , ro.cross1n(inputs(builddown(Ap1))-1), addins(inputs(builddown(Ap2))-1); }; (Ap) => builddown(Ap); }; upPortRes = getres(As); }; builddown(A) = A(0); sign(x) = (x>0) + -1(x<0); addins = case{ (0) => 0 : !; (x) => si.bus(x); }; //crossover. feed a matrix with the dimensions of the buss. crossover_5(inl) = par(i, ba.count(inl), ba.selector((ba.subseq(inl, 0, i):> _)*ma.signum(i), (inl:> _))), par(i, ba.count(inl), (!, addins(ba.take(i+1, inl) - 1))); //split the first n signals from a bus size of s splitn(n, s) = (si.bus(n) <: si.bus(n), si.bus(n)), (addins(s-n)); funct10 = case{ (0) => 5; (1) => 6; (2) => 7; }; givezero(f : x) = f(0) ; array1 = (funct10 : _), (funct10 : _), (funct10 : _); array2 = funct10, funct10, funct10; builddown(A : As) = ((addins(inputs(A(0)) - outputs(upPortRes))), upPortRes : A(0)) , addins(inputs(pardown(As)) - outputs(A(0))) : pardown(As) with{ pardown = case{ ((Ap1, Ap2)) => crossover : builddown(Ap1), builddown(Ap2) with { crossover = _ , ro.cross1n(inputs(builddown(Ap1))-1), addins(inputs(builddown(Ap2))-1); }; (Ap) => builddown(Ap); }; upPortRes = getres(As); }; builddown(A) = A(0); process = funct5(switchfunct(5));	https://raw.githubusercontent.com/droosenb/faust-wdf-library/65d804019863c4ff86e0362792509b988bab3b84/testing-files/funtionTesting.dsp	faust	old attempt at application based WDF 2 port devices attempt at reverse stuff (x, y) => _, ; crossover = _, ro.crossn1(2), _, _; casefucnt((Ap1, Ap2)) = Ap1(0) , Ap2(0); builddown(A: (As1, As2)) = ((_, _, _, upPortRes): A(0)), addins(inputs(builddown(As1), builddown(As2)) - 2 ) : crossover : builddown(As1), builddown(As2) with{ crossover = _ , ro.cross1n(inputs(builddown{(As1))-1), addins(inputs(builddown(As2))-1); upPortRes = getres(As1), getres(As2); }; crossover. feed a matrix with the dimensions of the buss. split the first n signals from a bus size of s	import("stdfaust.lib"); Fader(in) = ba.db2linear(vslider("Input %in", -10, -96, 4, 0.1)); Mixer(N,out) = hgroup("Output %out", par(in, N, (Fader(in)) ) :> _ ); Matrix(N,M) = tgroup("Matrix %N x %M", par(in, N, _) <: par(out, M, Mixer(N, out))); funct = _ + 1, r0 with{ r0 = 3.14; }; funct2(f1) = _, f1 : calc with{ calc(a0, a1, r1) = a0 (r1 + r0) + a1, r0 with{ r0 = r12; }; }; length = 1; pluckPosition = .5; funct3(a , b) = _ + a + b; par_2port(f1) = _ : f1 : _, ! , r0 with{ r0 = 0 : f1 : !, _; }; serVoltage_2port(f1, ein) = _ + ein : f1 : _ , ! : _ + ein : _, r0 with{ r1 = 0 : f1 : !, _; r0 = r1; }; rev_resistor(R, p0) = 0 : p0(R0) : ! with{ R0 = R; }; rev_capacitor(R, p0) = p0 ~ ! with{ R0 = R; }; switchfunct= case{ (0, x) => _, x; (1, x) => 10 + x, _; }; grabfunct(a : as) = a(1) , as(0); f10(x, y) = switchfunct; f1 = _ , _ , _; f2 = _, _, _; funct5(switchfunct(x)) = switchfunct(0, x); builddown(A : As) = ((addins(inputs(A(0)) - outputs(upPortRes))), upPortRes : A(0)) , addins(inputs(pardown(As)) - outputs(A(0))) : pardown(As) with{ pardown = case{ ((Ap1, Ap2)) => crossover : builddown(Ap1), builddown(Ap2) with { crossover = _ , ro.cross1n(inputs(builddown(Ap1))-1), addins(inputs(builddown(Ap2))-1); }; (Ap) => builddown(Ap); }; upPortRes = getres(As); }; builddown(A) = A(0); sign(x) = (x>0) + -1(x<0); addins = case{ (0) => 0 : !; (x) => si.bus(x); }; crossover_5(inl) = par(i, ba.count(inl), ba.selector((ba.subseq(inl, 0, i):> _)*ma.signum(i), (inl:> _))), par(i, ba.count(inl), (!, addins(ba.take(i+1, inl) - 1))); splitn(n, s) = (si.bus(n) <: si.bus(n), si.bus(n)), (addins(s-n)); funct10 = case{ (0) => 5; (1) => 6; (2) => 7; }; givezero(f : x) = f(0) ; array1 = (funct10 : _), (funct10 : _), (funct10 : _); array2 = funct10, funct10, funct10; builddown(A : As) = ((addins(inputs(A(0)) - outputs(upPortRes))), upPortRes : A(0)) , addins(inputs(pardown(As)) - outputs(A(0))) : pardown(As) with{ pardown = case{ ((Ap1, Ap2)) => crossover : builddown(Ap1), builddown(Ap2) with { crossover = _ , ro.cross1n(inputs(builddown(Ap1))-1), addins(inputs(builddown(Ap2))-1); }; (Ap) => builddown(Ap); }; upPortRes = getres(As); }; builddown(A) = A(0); process = funct5(switchfunct(5));
4cb6cf542505758faaa3037565bfab161d630dc377642baca3dcae2d575c5468	droosenb/portfolio	screamerTone.dsp	import("stdfaust.lib"); wdf = library("wavedigitalfilters.lib"); r_scatter = case{ (0) => r_up with{ r_up = si.bus(11) <: b1, b2, b3, b4, b5; b1(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0 - a1 + 2a2 + a3 + a5; b2(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a2; b3(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0(R3/(R3+R5)) + a3(R5/(R3+R5)) + a5(-R3/(R3+R5)); b4(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = -a4; b5(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0(R5/(R3+R5)) + a3(-R5/(R3+R5)) + a5*(R3/(R3+R5)); }; (1) => b0 with{ b0(R1, R2, R3, R4, R5, a1, a2, a3, a4, a5) = a3, a5; }; (2) => R0 with{ R0(R1, R2, R3, R4, R5) = R3 + R5; }; }; vin(i) = wdf.u_resVoltage(i, 1000, no.pink_noise); process = _;	https://raw.githubusercontent.com/droosenb/portfolio/d4760202d20791c74624b02e2de350392cdd4cf0/wave-digital-model-library/screamerTone.dsp	faust		import("stdfaust.lib"); wdf = library("wavedigitalfilters.lib"); r_scatter = case{ (0) => r_up with{ r_up = si.bus(11) <: b1, b2, b3, b4, b5; b1(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0 - a1 + 2a2 + a3 + a5; b2(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a2; b3(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0(R3/(R3+R5)) + a3(R5/(R3+R5)) + a5(-R3/(R3+R5)); b4(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = -a4; b5(R1, R2, R3, R4, R5, a0, a1, a2, a3, a4, a5) = a0(R5/(R3+R5)) + a3(-R5/(R3+R5)) + a5*(R3/(R3+R5)); }; (1) => b0 with{ b0(R1, R2, R3, R4, R5, a1, a2, a3, a4, a5) = a3, a5; }; (2) => R0 with{ R0(R1, R2, R3, R4, R5) = R3 + R5; }; }; vin(i) = wdf.u_resVoltage(i, 1000, no.pink_noise); process = _;
92b3b981c97f5b349525209a967a5741f87977da8b6ec195f88a06271ab4404d	droosenb/portfolio	tubeScreamer.dsp	import("stdfaust.lib"); wd = library("wdmodels.lib"); stage_a(in1) = wd.buildtree(tree_a) with{ vinA(i) = wd.u_resVoltage(i, 1, in1); c2(i) = wd.capacitor(i, 110^-6); vB(i) = wd.resVoltage_output(i, 1010^3, 4.5); rA(i) = wd.resistor(i, 220); tree_a = vinA : wd.series : (c2, (wd.series : (rA, vB))); }; stage_b(in1) = wd.buildtree(tree_b) with{ vinB(i) = wd.u_voltage(i, in1); c3(i) = wd.capacitor(i, .04710^-6); r4(i) = wd.resistor_output_current(i, 4.710^3); tree_b = vinB : wd.series : (c3, r4); }; stage_c(in1) = wd.buildtree(tree_c) with{ pot1 = hslider("distortion 0 - 500k", 250, 0, 500, .1); jinC(i) = wd.resCurrent(i, 5110^3+pot110^3, in1); d1(i) = wd.u_diodeAntiparallel(i, 2.5210^-9, 25.8510^-3, 1, 1); c4(i) = wd.capacitor_output(i, 4110^-12); tree_c = d1 : wd.parallel : (c4, jinC); }; ingain = hslider("input gain", 1, 0, 1, .01); inputprotect(in) = in((in < clip) & (in > -clip)) + clip(in > clip) + -clip(in < -clip) with{ clip = .016; }; onState = checkbox("ON"); gaincorrect(in) = in(onState-1 + 1)12 + in; process = _.015ingain : inputprotect : stage_a <: _, stage_b onState: _, stage_c : _ - _ - 4.5 : gaincorrect <: _, _ ;	https://raw.githubusercontent.com/droosenb/portfolio/d4760202d20791c74624b02e2de350392cdd4cf0/wave-digital-model-library/tubeScreamer.dsp	faust		import("stdfaust.lib"); wd = library("wdmodels.lib"); stage_a(in1) = wd.buildtree(tree_a) with{ vinA(i) = wd.u_resVoltage(i, 1, in1); c2(i) = wd.capacitor(i, 110^-6); vB(i) = wd.resVoltage_output(i, 1010^3, 4.5); rA(i) = wd.resistor(i, 220); tree_a = vinA : wd.series : (c2, (wd.series : (rA, vB))); }; stage_b(in1) = wd.buildtree(tree_b) with{ vinB(i) = wd.u_voltage(i, in1); c3(i) = wd.capacitor(i, .04710^-6); r4(i) = wd.resistor_output_current(i, 4.710^3); tree_b = vinB : wd.series : (c3, r4); }; stage_c(in1) = wd.buildtree(tree_c) with{ pot1 = hslider("distortion 0 - 500k", 250, 0, 500, .1); jinC(i) = wd.resCurrent(i, 5110^3+pot110^3, in1); d1(i) = wd.u_diodeAntiparallel(i, 2.5210^-9, 25.8510^-3, 1, 1); c4(i) = wd.capacitor_output(i, 4110^-12); tree_c = d1 : wd.parallel : (c4, jinC); }; ingain = hslider("input gain", 1, 0, 1, .01); inputprotect(in) = in((in < clip) & (in > -clip)) + clip(in > clip) + -clip(in < -clip) with{ clip = .016; }; onState = checkbox("ON"); gaincorrect(in) = in(onState-1 + 1)12 + in; process = _.015ingain : inputprotect : stage_a <: _, stage_b onState: _, stage_c : _ - _ - 4.5 : gaincorrect <: _, _ ;
4344d0cfebc0e5c6a895ac207ef5f283582bca965c32a0e3571e9e2544c6d51d	droosenb/faust-wdf-library	functionTesting2.dsp	import("stdfaust.lib"); //seq(i, ba.count(mtx), (addins(i), ro.cross1n(ba.subseq(mtx, 0, i) :> _ma.signum(i)), addins(ba.subseq(mtx, i, ba.count(mtx)):> _-1 ))) crossover_bad(mtx, bus) = par(i, ba.count(mtx), (select(bus, i), addins(ba.take(i+1-ma.signum(i), mtx)-1))), addins(ba.take(ba.count(mtx), mtx)) with{ select(bus, i) = bus : ba.selector(i, outputs(bus)); }; crossover(mtx) = bottom with{ top = (1, 1), par(i, ba.count(mtx)-1, (i+2, mtxsum(ba.subseq(mtx, 0, i+1))+1)); //generate the routed crossover points mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); top_mtx = 1, par(i, ba.count(mtx)-1, (mtxsum(ba.subseq(mtx, 0, i+1))+1)); bottom = par(i, (mtxsum(mtx) - ba.count(mtx)), ((ba.count(mtx)+1+i), ba.take(1 , ba.take(i, (complement(top_mtx, mtxsum(mtx))))))); }; complement(mtx, N) = par(i, ba.count(mtx)-1, between((ba.take(i+2, mtx) - ba.take(i+1, mtx) -1), i)), par(g, N - ba.take(ba.count(mtx), mtx)+1, (ba.take(ba.count(mtx), mtx) + g + 1)) with{ between = case{ (0, i) => 0 : !; (x, i) => par(h, x, ba.take(i+1, mtx)+h+1); }; }; crossover_seq(mtx) = seq(i, ba.count(mtx), (addins((i)), ro.cross1n(ba.subseq(mtx, 0, i) :> (_-1)ma.signum(i)), addins(ba.subseq(mtx, i, ba.count(mtx)-i):> _ - (i/2:int)))); gencross = case{ ((0), (xs, xxs)) => (1, 1), gencross((2, xs+1, ba.count((xs, xxs))-1, mtxsum((xs, xxs))), (xs, xxs)); //((out, next, norm_index, spec_index, sum), (xs, xxs)) ((next, next, count, fcount, msum), (xs, xxs)) => (fcount, out), gencross((out+1, next + xs, count-1, fcount+1, msum), (xxs)); ((out, next, count, fcount, msum), (xs, xxs)) => (count+(out), out), gencross((out+1, next, count, fcount, msum), (xs, xxs)); ((out, next, count, fcount, msum), (xxs)) => (count+(out), out), gencross((out+1, next, count, fcount, msum), (xxs)); ((msum, next, count, fcount, msum), (xxs)) => (count+msum, msum); } with{ mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); }; gencross = case{ (0, 0, 0, 0, 0, (1, 1)) => 1, 1, 2, 2; (0, 0, 0, 0, 0, (xs, xxs)) => (1, 1), gencross(2, xs+1, ba.count((xs, xxs))-1, 2, mtxsum((xs, xxs)), xxs); (0, 0, 0, 0, 0, 0) => 0: !; (0, 0, 0, 0, 0, x) => si.bus(x); //((out, next, norm_index, spec_index, sum), (xs, xxs)) (msum, msum, count, fcount, msum, xs) => (fcount, msum); //output is a special output (msum, next, count, fcount, msum, xs) => (msum, msum-count); //escape case, reached end of bus (out, out, count, fcount, msum, (xs, xxs)) => (fcount, out), gencross(out+1, xs+out, count-1, fcount+1, msum, xxs); (out, out, count, fcount, msum, xs) => (fcount, out), gencross(out+1, xs+out, count-1, fcount+1, msum, 0); //output is a special output (out, next, count, fcount, msum, xs) => ((count+out), out), gencross(out+1, next, count, fcount, msum, xs); //output is not a special output }; gencross_up = case{ (0, 0, 0, 0, 0, (1, 1)) => 1, 1, 2, 2; (0, 0, 0, 0, 0, (xs, xxs)) => (1, 1), gencross_up(2, xs+1, ba.count((xs, xxs))-1, 2, mtxsum((xs, xxs)), xxs); (0, 0, 0, 0, 0, 0) => 0: !; (0, 0, 0, 0, 0, x) => par(i, x, i+1, i+1); //((out, next, norm_index, spec_index, sum), (xs, xxs)) (msum, msum, count, fcount, msum, xs) => (msum, fcount); //output is a special output (msum, next, count, fcount, msum, xs) => (msum-count, msum); //escape case, reached end of bus (out, out, count, fcount, msum, (xs, xxs)) => (out, fcount), gencross_up(out+1, xs+out, count-1, fcount+1, msum, xxs); (out, out, count, fcount, msum, xs) => (out, fcount), gencross_up(out+1, xs+out, count-1, fcount+1, msum, 0); //output is a special output (out, next, count, fcount, msum, xs) => (out, (count+out)), gencross_up(out+1, next, count, fcount, msum, xs); //output is not a special output }; mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); test_rec= case{ ((x, x)) => x; ((y, x)) => y, test_rec((y+1, x)); ((x)) => test_rec((0, x)); }; test_mtx = (1, 1); test((next, next, count, fcount, msum), (xs, xxs)) = (fcount, next), gencross((next+1, next+xs, count-1, fcount+1, msum), xxs); // process = test((1, 1, 4, 5, 6), test_mtx); process = gencross((2, 3, 4)) ;	https://raw.githubusercontent.com/droosenb/faust-wdf-library/65d804019863c4ff86e0362792509b988bab3b84/testing-files/functionTesting2.dsp	faust	seq(i, ba.count(mtx), (addins(i), ro.cross1n(ba.subseq(mtx, 0, i) :> _*ma.signum(i)), addins(ba.subseq(mtx, i, ba.count(mtx)):> _-1 ))) generate the routed crossover points ((out, next, norm_index, spec_index, sum), (xs, xxs)) ((out, next, norm_index, spec_index, sum), (xs, xxs)) output is a special output escape case, reached end of bus output is a special output output is not a special output ((out, next, norm_index, spec_index, sum), (xs, xxs)) output is a special output escape case, reached end of bus output is a special output output is not a special output process = test((1, 1, 4, 5, 6), test_mtx);	import("stdfaust.lib"); crossover_bad(mtx, bus) = par(i, ba.count(mtx), (select(bus, i), addins(ba.take(i+1-ma.signum(i), mtx)-1))), addins(ba.take(ba.count(mtx), mtx)) with{ select(bus, i) = bus : ba.selector(i, outputs(bus)); }; crossover(mtx) = bottom with{ mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); top_mtx = 1, par(i, ba.count(mtx)-1, (mtxsum(ba.subseq(mtx, 0, i+1))+1)); bottom = par(i, (mtxsum(mtx) - ba.count(mtx)), ((ba.count(mtx)+1+i), ba.take(1 , ba.take(i, (complement(top_mtx, mtxsum(mtx))))))); }; complement(mtx, N) = par(i, ba.count(mtx)-1, between((ba.take(i+2, mtx) - ba.take(i+1, mtx) -1), i)), par(g, N - ba.take(ba.count(mtx), mtx)+1, (ba.take(ba.count(mtx), mtx) + g + 1)) with{ between = case{ (0, i) => 0 : !; (x, i) => par(h, x, ba.take(i+1, mtx)+h+1); }; }; crossover_seq(mtx) = seq(i, ba.count(mtx), (addins((i)), ro.cross1n(ba.subseq(mtx, 0, i) :> (_-1)*ma.signum(i)), addins(ba.subseq(mtx, i, ba.count(mtx)-i):> _ - (i/2:int)))); gencross = case{ ((0), (xs, xxs)) => (1, 1), gencross((2, xs+1, ba.count((xs, xxs))-1, mtxsum((xs, xxs))), (xs, xxs)); ((next, next, count, fcount, msum), (xs, xxs)) => (fcount, out), gencross((out+1, next + xs, count-1, fcount+1, msum), (xxs)); ((out, next, count, fcount, msum), (xs, xxs)) => (count+(out), out), gencross((out+1, next, count, fcount, msum), (xs, xxs)); ((out, next, count, fcount, msum), (xxs)) => (count+(out), out), gencross((out+1, next, count, fcount, msum), (xxs)); ((msum, next, count, fcount, msum), (xxs)) => (count+msum, msum); } with{ mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); }; gencross = case{ (0, 0, 0, 0, 0, (1, 1)) => 1, 1, 2, 2; (0, 0, 0, 0, 0, (xs, xxs)) => (1, 1), gencross(2, xs+1, ba.count((xs, xxs))-1, 2, mtxsum((xs, xxs)), xxs); (0, 0, 0, 0, 0, 0) => 0: !; (0, 0, 0, 0, 0, x) => si.bus(x); (out, out, count, fcount, msum, (xs, xxs)) => (fcount, out), gencross(out+1, xs+out, count-1, fcount+1, msum, xxs); }; gencross_up = case{ (0, 0, 0, 0, 0, (1, 1)) => 1, 1, 2, 2; (0, 0, 0, 0, 0, (xs, xxs)) => (1, 1), gencross_up(2, xs+1, ba.count((xs, xxs))-1, 2, mtxsum((xs, xxs)), xxs); (0, 0, 0, 0, 0, 0) => 0: !; (0, 0, 0, 0, 0, x) => par(i, x, i+1, i+1); (out, out, count, fcount, msum, (xs, xxs)) => (out, fcount), gencross_up(out+1, xs+out, count-1, fcount+1, msum, xxs); }; mtxsum(t_mtx) = sum(i, ba.count(t_mtx), ba.take(i+1, t_mtx)); test_rec= case{ ((x, x)) => x; ((y, x)) => y, test_rec((y+1, x)); ((x)) => test_rec((0, x)); }; test_mtx = (1, 1); test((next, next, count, fcount, msum), (xs, xxs)) = (fcount, next), gencross((next+1, next+xs, count-1, fcount+1, msum), xxs); process = gencross((2, 3, 4)) ;
0a04a8b4f7ecbd11ad207f19bba053b1fb37bbb0b177dd4cb97d0f8548723f80	droosenb/faust-wdf-library	bassmanTonestack.dsp	import("stdfaust.lib"); tonestack(in1) = wd.buildtree(tree) with{ r1p(i) = wd.resistor(i, 25010^3-pot1+.00001); r1m(i) = wd.resistor_Vout(i, pot1+.00001); r2(i) = wd.resistor_Vout(i, pot2+.00001); r3p(i) = wd.resistor_Vout(i, 2510^3-pot3+.00001); r3m(i) = wd.resistor_Vout(i, pot3+.00001); r4(i) = wd.resistor(i, 5610^3); c1(i) = wd.capacitor(i, .2510^-9); c2(i) = wd.capacitor(i, 2010^-9); c3(i) = wd.capacitor(i, 2010^-9); u_6port(i) = wd.u_genericNode(i, sixport_scatter) with{ sixport_scatter(Ra, Rb, Rc, Rd, Re, Rf) = matrix(6, 6, scatter) with{ scatter = case{ (1, 1) => ((-Ra)(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 2) => (2Ra((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 3) => (2Ra(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 4) => (-1)((2Ra(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (1, 5) => (2Ra(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 6) => (-1)((2Ra(RcRe + Rb(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 1) => (2Rb((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 2) => (Ra(RdRe - Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) - Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 3) => (-1)((2Rb(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 4) => (-2RaRbRe + 2RbRcRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 5) => (2Rb(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 6) => (-1)((2Rb(RcRd + Ra(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 1) => (2Rc(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 2) => (-1)((2Rc(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 3) => 1 - (2Rc(RdRe + RdRf + ReRf + Rb(Rd + Rf) + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 4) => (-1)((2Rc(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 5) => (-1)((2Rc(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 6) => (2Rc(RbRd - RaRe))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 1) => (-1)((2Rd(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 2) => (-2RaRdRe + 2RcRdRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 3) => (-1)((2Rd(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 4) => 1 - (2Rd(Rc(Re + Rf) + Ra(Rb + Re + Rf) + Rb(Rc + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 5) => (-1)((2Rd((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 6) => (-1)((2Rd((Ra + Rc)Re + Rb(Rc + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 1) => (2Re(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 2) => (2Re(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 3) => (-1)((2Re(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 4) => (-1)((2Re((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 5) => 1 - (2Re((Rb + Rc)(Rd + Rf) + Ra(Rb + Rc + Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 6) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Re)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 1) => (-1)((2(RcRe + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 2) => (-1)((2(RcRd + Ra(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 3) => (2(RbRd - RaRe)Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 4) => (-1)((2((Ra + Rc)Re + Rb(Rc + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 5) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 6) => 1 - (2(Rc(Rd + Re) + Ra(Rc + Rd + Re) + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (i, j) => 10; }; matrix(M,N,f) = si.bus(N) <: ro.interleave(N,M) : par(n,N, par(m,M,(f(m+1,n+1)))) :> si.bus(M); }; }; vIn(i) = wd.resVoltage(i, .00001, in1); pot1 = hslider("treble", 5, 0, 10, .01)25010^2; pot2 = hslider("bass", 5, 0, 10, .01)110^5; pot3 = hslider("mids", 5, 0, 10, .01)2510^2; tree = u_6port : ((wd.series : (r3m, vIn)), r4, c3, (wd.series : (r3p, r2)), c2, (wd.series : (c1, (wd.series : (r1p, r1m))))); }; genericNode = case{ (0, scatter, upRes) => down(inputs(scatter)) with{ down(1) = scatter; //leaf node case down(n) = scatter : !, bus(outputs(scatter)-1); //internal node case }; (1, scatter, upRes) => up(inputs(scatter)) with{ up(1) = _; //leaf node case up(n) = bus(inputs(upRes)), 0 , bus(outputs(scatter)-1) : scatter : _, block(outputs(scatter)-1); //internal node case }; (2, scatter, upRes) => upRes; } with{ bus(0) = 0:!; bus(x) = si.bus(x); block(0) = 0:!; block(x) = si.block(x); }; genericNode_output_V = case{ (0, scatter, upRes) => _ <: b, voltage with{ b(a) = a : scatter; voltage(a) = 1/2(a + b(a)'); }; (1, scatter, upRes) => _, !; (2, scatter, upRes) => upRes; }; genericNode_output_I = case{ (0, scatter, upRes) => _ <: b, current with{ b(a) = a : scatter; current(a) = 1/2/upRes(a - b(a)'); }; (1, scatter, upRes) => _, !; (2, scatter, upRes) => upRes; }; u_genericNode = case{ (0, scatter) => scatter; (1, scatter) => block(inputs(scatter)); (2, scatter) => 1000; } with{ block(0) = 0:!; block(x) = si.block(x); }; capacitorMobius(i, C, aM, bM, cM, dM) = genericNode_output_I(i, f, upPortRes) with{ f(a) = asF <: _, _'sB : (_, _, _ :> _)~(_'sBsB) with{ sB = (-1)(aMdM+bMcM)/(2aMcM); sF = (aMdM-bMcM)/(2aMcM); }; upPortRes = cM/CaM; }; process = _ : tonestack : _-1, _, _-1, _ :> _ ; // process(Cv, a, b, c, d) = capacitorMobius(0, Cv, a, b, c, d), wd.capacitor_output(0, Cv);	https://raw.githubusercontent.com/droosenb/faust-wdf-library/e581eb15b7b06572add939c6aa99472cca04269b/examples/basssman-tonestack/bassmanTonestack.dsp	faust	leaf node case internal node case leaf node case internal node case process(Cv, a, b, c, d) = capacitorMobius(0, Cv, a, b, c, d), wd.capacitor_output(0, Cv);	import("stdfaust.lib"); tonestack(in1) = wd.buildtree(tree) with{ r1p(i) = wd.resistor(i, 25010^3-pot1+.00001); r1m(i) = wd.resistor_Vout(i, pot1+.00001); r2(i) = wd.resistor_Vout(i, pot2+.00001); r3p(i) = wd.resistor_Vout(i, 2510^3-pot3+.00001); r3m(i) = wd.resistor_Vout(i, pot3+.00001); r4(i) = wd.resistor(i, 5610^3); c1(i) = wd.capacitor(i, .2510^-9); c2(i) = wd.capacitor(i, 2010^-9); c3(i) = wd.capacitor(i, 2010^-9); u_6port(i) = wd.u_genericNode(i, sixport_scatter) with{ sixport_scatter(Ra, Rb, Rc, Rd, Re, Rf) = matrix(6, 6, scatter) with{ scatter = case{ (1, 1) => ((-Ra)(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 2) => (2Ra((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 3) => (2Ra(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 4) => (-1)((2Ra(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (1, 5) => (2Ra(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 6) => (-1)((2Ra(RcRe + Rb(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 1) => (2Rb((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 2) => (Ra(RdRe - Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) - Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 3) => (-1)((2Rb(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 4) => (-2RaRbRe + 2RbRcRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 5) => (2Rb(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 6) => (-1)((2Rb(RcRd + Ra(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 1) => (2Rc(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 2) => (-1)((2Rc(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 3) => 1 - (2Rc(RdRe + RdRf + ReRf + Rb(Rd + Rf) + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 4) => (-1)((2Rc(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 5) => (-1)((2Rc(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 6) => (2Rc(RbRd - RaRe))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 1) => (-1)((2Rd(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 2) => (-2RaRdRe + 2RcRdRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 3) => (-1)((2Rd(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 4) => 1 - (2Rd(Rc(Re + Rf) + Ra(Rb + Re + Rf) + Rb(Rc + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 5) => (-1)((2Rd((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 6) => (-1)((2Rd((Ra + Rc)Re + Rb(Rc + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 1) => (2Re(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 2) => (2Re(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 3) => (-1)((2Re(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 4) => (-1)((2Re((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 5) => 1 - (2Re((Rb + Rc)(Rd + Rf) + Ra(Rb + Rc + Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 6) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Re)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 1) => (-1)((2(RcRe + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 2) => (-1)((2(RcRd + Ra(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 3) => (2(RbRd - RaRe)Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 4) => (-1)((2((Ra + Rc)Re + Rb(Rc + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 5) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 6) => 1 - (2(Rc(Rd + Re) + Ra(Rc + Rd + Re) + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (i, j) => 10; }; matrix(M,N,f) = si.bus(N) <: ro.interleave(N,M) : par(n,N, par(m,M,(f(m+1,n+1)))) :> si.bus(M); }; }; vIn(i) = wd.resVoltage(i, .00001, in1); pot1 = hslider("treble", 5, 0, 10, .01)25010^2; pot2 = hslider("bass", 5, 0, 10, .01)110^5; pot3 = hslider("mids", 5, 0, 10, .01)2510^2; tree = u_6port : ((wd.series : (r3m, vIn)), r4, c3, (wd.series : (r3p, r2)), c2, (wd.series : (c1, (wd.series : (r1p, r1m))))); }; genericNode = case{ (0, scatter, upRes) => down(inputs(scatter)) with{ }; (1, scatter, upRes) => up(inputs(scatter)) with{ }; (2, scatter, upRes) => upRes; } with{ bus(0) = 0:!; bus(x) = si.bus(x); block(0) = 0:!; block(x) = si.block(x); }; genericNode_output_V = case{ (0, scatter, upRes) => _ <: b, voltage with{ b(a) = a : scatter; voltage(a) = 1/2(a + b(a)'); }; (1, scatter, upRes) => _, !; (2, scatter, upRes) => upRes; }; genericNode_output_I = case{ (0, scatter, upRes) => _ <: b, current with{ b(a) = a : scatter; current(a) = 1/2/upRes(a - b(a)'); }; (1, scatter, upRes) => _, !; (2, scatter, upRes) => upRes; }; u_genericNode = case{ (0, scatter) => scatter; (1, scatter) => block(inputs(scatter)); (2, scatter) => 1000; } with{ block(0) = 0:!; block(x) = si.block(x); }; capacitorMobius(i, C, aM, bM, cM, dM) = genericNode_output_I(i, f, upPortRes) with{ f(a) = asF <: _, _'sB : (_, _, _ :> _)~(_'sBsB) with{ sB = (-1)(aMdM+bMcM)/(2aMcM); sF = (aMdM-bMcM)/(2aMcM); }; upPortRes = cM/CaM; }; process = _ : tonestack : _-1, _, _-1, _ :> _ ;
e77c1176accc85343f9d441891a85611ef090df3043c78974540d1d2a2407acc	droosenb/faust-wdf-library	pultec.dsp	import("stdfaust.lib"); pultec(in1) = wd.buildtree(tree) with{ //resistors and potentiometers p_HB_p(i) = wd.resistor(i, (10.0e4 - p_HB_ui + 1)); p_HB_m(i) = wd.resistor(i, (p_HB_ui + 1)); p_HBQ(i) = wd.resistor(i, (p_HBQ_ui+1)); p_LC(i) = wd.resistor(i, (p_LC_ui +1)); p_HC_p(i) = wd.resistor(i, (1.0e3 - p_HC_ui + 1)); p_HC_m(i) = wd.resistor(i, (p_HC_ui + 1)); p_BL(i) = wd.resistor(i, (p_BL_ui + 1)); r_a(i) = wd.resistor(i, 570); r_b(i) = wd.resistor(i, 1.0e3); r_c(i) = wd.resistor(i, 75); r_d(i) = wd.resistor_Vout(i, 10.0e3); //capacitors c_HBF(i) = wd.capacitor(i, cl_HBF_ui(0)); c_HCF(i) = wd.capacitor(i, c_HCF_ui); c_LF_a(i) = wd.capacitor(i, c_LF_ui(0)); c_LF_b(i) = wd.capacitor(i, c_LF_ui(1)); //inductor l_HBF(i) = wd.inductor(i, cl_HBF_ui(1)); //voltage input vin(i) = wd.resVoltage(i, 10, in1); //connection tree parts tree = u_6port : (a, b, c, d, e, f) with{ a = wd.series : (p_HC_m, (wd.parallel : (p_LC, c_LF_a))); b = wd.series : (p_HC_p, (wd.parallel : (p_HC_m, (wd.series : (c_HCF, r_c))))); c = r_b; d = r_d; e = wd.parallel : (c_LF_b, p_BL); f = wd.series : ((wd.series : (p_HB_p, (wd.parallel : (vin, r_a)))), (wd.parallel : (p_HB_m, (wd.series : (p_HBQ, (wd.series : (l_HBF, c_HBF))))))); }; //approximate a potentiometer position as an audio taper (log) resistance (%) log_pot(slider) = 10^(slider/50) - 1; //approximate a potentiometer postion as an inverse log resistance (%) invlog_pot(slider) = (slider+1) : log1050; //ui-elements p_HB_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/h:[0]KNOBS/[0]BOOST[style:knob]", 0, 0, 100, 1))/100 10.0e4; p_HC_ui = invlog_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/h:[0]KNOBS/[1]ATTEN[style:knob]", 0, 0, 100, 1))/100 * 1.0e3; p_HBQ_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[1]BANDWIDTH/ADJUST[style:knob]", 0, 0, 100, 1))/100 * 2.2e3; p_BL_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/h:[0]KNOBS/[0]BOOST[style:knob]", 0, 0, 100, 1))/100 * 10.0e4; p_LC_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/h:[0]KNOBS/[1]ATTEN[style:knob]", 0, 0, 100, 1))/100 * 100.0e1; cl_HBF_ui = case{ (0) => (15.0e-9, 15.0e-9, 10.0e-9, 10.0e-9, 6.8e-9, 6.8e-9, 15.0e-9) : ba.selectn(7, switch_HBF); //capacitor switched values (1) => (175.0e-3, 100.0e-3, 90.0e-3, 65.0e-3, 35.0e-3, 23.0e-3, 19.0e-3) : ba.selectn(7, switch_HBF);//inductor switched values //(3kHz, 4kHz, 5kHz, 6kHz, 10kHz, 12kHz, 16kHz) (x) => 5; }with{ switch_HBF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/[1]CPS[style:menu{'3 kHz':0;'4 kHz':1;'5 kHz':2;'6 kHz':3;'10 kHz':4;'12 kHz':5;'16 kHz':6}]", 0, 0, 6, 1); }; c_LF_ui = case{ (0) => (100.0e-9, 47.0e-9, 22.0e-9, 15.0e-9) : ba.selectn(4, switch_LF); //capacitor switched values (1) => (2.2e-6, 1.0e-6, 470.0e-9, 330.0e-9) : ba.selectn(4, switch_LF);//inductor switched values //(20hz, 30hz, 60hz, 100hz) (x) => 5; }with{ switch_LF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/[1]CPS[style:menu{'20 Hz':0;'30 Hz':1;'60 Hz':2;'100 Hz':3}]", 0, 0, 3, 1); }; c_HCF_ui = (47.0e-9, 94.0e-9, 197.0e-9) : ba.selectn(3, switch_HCF) //capacitor switched values //(20hz, 30hz, 60hz, 100hz) with{ switch_HCF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[3]ATTEN SELECT/HI-CUT F[style:menu{'20':0;'10':1;'5':2}]", 0, 0, 2, 1); }; u_6port(i) = wd.u_genericNode(i, sixport_scatter) with{ sixport_scatter(Ra, Rb, Rc, Rd, Re, Rf) = matrix(6, 6, scatter) with{ scatter = case{ (1, 1) => ((-Ra)(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 2) => (2Ra((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 3) => (2Ra(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 4) => (-1)((2Ra(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (1, 5) => (2Ra(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 6) => (-1)((2Ra(RcRe + Rb(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 1) => (2Rb((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 2) => (Ra(RdRe - Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) - Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 3) => (-1)((2Rb(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 4) => (-2RaRbRe + 2RbRcRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 5) => (2Rb(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 6) => (-1)((2Rb(RcRd + Ra(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 1) => (2Rc(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 2) => (-1)((2Rc(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 3) => 1 - (2Rc(RdRe + RdRf + ReRf + Rb(Rd + Rf) + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 4) => (-1)((2Rc(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 5) => (-1)((2Rc(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 6) => (2Rc(RbRd - RaRe))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 1) => (-1)((2Rd(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 2) => (-2RaRdRe + 2RcRdRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 3) => (-1)((2Rd(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 4) => 1 - (2Rd(Rc(Re + Rf) + Ra(Rb + Re + Rf) + Rb(Rc + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 5) => (-1)((2Rd((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 6) => (-1)((2Rd((Ra + Rc)Re + Rb(Rc + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 1) => (2Re(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 2) => (2Re(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 3) => (-1)((2Re(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 4) => (-1)((2Re((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 5) => 1 - (2Re((Rb + Rc)(Rd + Rf) + Ra(Rb + Rc + Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 6) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Re)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 1) => (-1)((2(RcRe + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 2) => (-1)((2(RcRd + Ra(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 3) => (2(RbRd - RaRe)Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 4) => (-1)((2((Ra + Rc)Re + Rb(Rc + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 5) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 6) => 1 - (2(Rc(Rd + Re) + Ra(Rc + Rd + Re) + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (i, j) => 10; }; matrix(M,N,f) = si.bus(N) <: ro.interleave(N,M) : par(n,N, par(m,M,(f(m+1,n+1)))) :> si.bus(M); }; }; }; capacitorMobius(i, C, aM, bM, cM, dM) = genericNode_output_I(i, f, upPortRes) with{ f(a) = asF <: _, _'sB : (_, _, _ :> _)~(_'sBsB) with{ sB = (-1)(aMdM+bMcM)/(2aMcM); sF = (aMdM-bMcM)/(2aMcM); }; upPortRes = cM/CaM; }; process = no.pink_noise <: pultec200 , pultec200; // process(Cv, a, b, c, d) = capacitorMobius(0, Cv, a, b, c, d), wd.capacitor_output(0, Cv);	https://raw.githubusercontent.com/droosenb/faust-wdf-library/e581eb15b7b06572add939c6aa99472cca04269b/examples/03-pultec-eqp1a/pultec.dsp	faust	resistors and potentiometers capacitors inductor voltage input connection tree parts approximate a potentiometer position as an audio taper (log) resistance (%) approximate a potentiometer postion as an inverse log resistance (%) ui-elements capacitor switched values inductor switched values (3kHz, 4kHz, 5kHz, 6kHz, 10kHz, 12kHz, 16kHz) capacitor switched values inductor switched values (20hz, 30hz, 60hz, 100hz) capacitor switched values (20hz, 30hz, 60hz, 100hz) process(Cv, a, b, c, d) = capacitorMobius(0, Cv, a, b, c, d), wd.capacitor_output(0, Cv);	import("stdfaust.lib"); pultec(in1) = wd.buildtree(tree) with{ p_HB_p(i) = wd.resistor(i, (10.0e4 - p_HB_ui + 1)); p_HB_m(i) = wd.resistor(i, (p_HB_ui + 1)); p_HBQ(i) = wd.resistor(i, (p_HBQ_ui+1)); p_LC(i) = wd.resistor(i, (p_LC_ui +1)); p_HC_p(i) = wd.resistor(i, (1.0e3 - p_HC_ui + 1)); p_HC_m(i) = wd.resistor(i, (p_HC_ui + 1)); p_BL(i) = wd.resistor(i, (p_BL_ui + 1)); r_a(i) = wd.resistor(i, 570); r_b(i) = wd.resistor(i, 1.0e3); r_c(i) = wd.resistor(i, 75); r_d(i) = wd.resistor_Vout(i, 10.0e3); c_HBF(i) = wd.capacitor(i, cl_HBF_ui(0)); c_HCF(i) = wd.capacitor(i, c_HCF_ui); c_LF_a(i) = wd.capacitor(i, c_LF_ui(0)); c_LF_b(i) = wd.capacitor(i, c_LF_ui(1)); l_HBF(i) = wd.inductor(i, cl_HBF_ui(1)); vin(i) = wd.resVoltage(i, 10, in1); tree = u_6port : (a, b, c, d, e, f) with{ a = wd.series : (p_HC_m, (wd.parallel : (p_LC, c_LF_a))); b = wd.series : (p_HC_p, (wd.parallel : (p_HC_m, (wd.series : (c_HCF, r_c))))); c = r_b; d = r_d; e = wd.parallel : (c_LF_b, p_BL); f = wd.series : ((wd.series : (p_HB_p, (wd.parallel : (vin, r_a)))), (wd.parallel : (p_HB_m, (wd.series : (p_HBQ, (wd.series : (l_HBF, c_HBF))))))); }; log_pot(slider) = 10^(slider/50) - 1; invlog_pot(slider) = (slider+1) : log1050; p_HB_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/h:[0]KNOBS/[0]BOOST[style:knob]", 0, 0, 100, 1))/100 10.0e4; p_HC_ui = invlog_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/h:[0]KNOBS/[1]ATTEN[style:knob]", 0, 0, 100, 1))/100 * 1.0e3; p_HBQ_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[1]BANDWIDTH/ADJUST[style:knob]", 0, 0, 100, 1))/100 * 2.2e3; p_BL_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/h:[0]KNOBS/[0]BOOST[style:knob]", 0, 0, 100, 1))/100 * 10.0e4; p_LC_ui = log_pot(hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/h:[0]KNOBS/[1]ATTEN[style:knob]", 0, 0, 100, 1))/100 * 100.0e1; cl_HBF_ui = case{ (x) => 5; }with{ switch_HBF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[2]HIGH FREQUENCY/[1]CPS[style:menu{'3 kHz':0;'4 kHz':1;'5 kHz':2;'6 kHz':3;'10 kHz':4;'12 kHz':5;'16 kHz':6}]", 0, 0, 6, 1); }; c_LF_ui = case{ (x) => 5; }with{ switch_LF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[0]LOW FREQUENCY/[1]CPS[style:menu{'20 Hz':0;'30 Hz':1;'60 Hz':2;'100 Hz':3}]", 0, 0, 3, 1); }; with{ switch_HCF = hslider("h:PULTEC PROGRAM EQUALIZER/v:[3]ATTEN SELECT/HI-CUT F[style:menu{'20':0;'10':1;'5':2}]", 0, 0, 2, 1); }; u_6port(i) = wd.u_genericNode(i, sixport_scatter) with{ sixport_scatter(Ra, Rb, Rc, Rd, Re, Rf) = matrix(6, 6, scatter) with{ scatter = case{ (1, 1) => ((-Ra)(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 2) => (2Ra((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 3) => (2Ra(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 4) => (-1)((2Ra(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (1, 5) => (2Ra(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (1, 6) => (-1)((2Ra(RcRe + Rb(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 1) => (2Rb((Rc + Re)Rf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 2) => (Ra(RdRe - Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) - Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 3) => (-1)((2Rb(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (2, 4) => (-2RaRbRe + 2RbRcRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 5) => (2Rb(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (2, 6) => (-1)((2Rb(RcRd + Ra(Rc + Rd + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 1) => (2Rc(RbRd + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 2) => (-1)((2Rc(RaRe + ReRf + Rd(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 3) => 1 - (2Rc(RdRe + RdRf + ReRf + Rb(Rd + Rf) + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (3, 4) => (-1)((2Rc(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 5) => (-1)((2Rc(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (3, 6) => (2Rc(RbRd - RaRe))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 1) => (-1)((2Rd(Rb(Rc + Re) + Rc(Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 2) => (-2RaRdRe + 2RcRdRf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 3) => (-1)((2Rd(RbRf + Ra(Rb + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 4) => 1 - (2Rd(Rc(Re + Rf) + Ra(Rb + Re + Rf) + Rb(Rc + Re + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (4, 5) => (-1)((2Rd((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (4, 6) => (-1)((2Rd((Ra + Rc)Re + Rb(Rc + Re)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 1) => (2Re(RbRd - RcRf))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 2) => (2Re(Ra(Rc + Rd) + Rc(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 3) => (-1)((2Re(Ra(Rb + Rf) + Rb(Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 4) => (-1)((2Re((Rb + Rc)Rf + Ra(Rb + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (5, 5) => 1 - (2Re((Rb + Rc)(Rd + Rf) + Ra(Rb + Rc + Rd + Rf)))/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (5, 6) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Re)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 1) => (-1)((2(RcRe + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 2) => (-1)((2(RcRd + Ra(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 3) => (2(RbRd - RaRe)Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 4) => (-1)((2((Ra + Rc)Re + Rb(Rc + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf)))); (6, 5) => (2((Rb + Rc)Rd + Ra(Rc + Rd))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (6, 6) => 1 - (2(Rc(Rd + Re) + Ra(Rc + Rd + Re) + Rb(Rc + Rd + Re))Rf)/(Ra(RdRe + Rb(Rc + Rd + Re) + RdRf + ReRf + Rc(Re + Rf)) + Rc(ReRf + Rd(Re + Rf)) + Rb(ReRf + Rc(Rd + Rf) + Rd(Re + Rf))); (i, j) => 10; }; matrix(M,N,f) = si.bus(N) <: ro.interleave(N,M) : par(n,N, par(m,M,(f(m+1,n+1)))) :> si.bus(M); }; }; }; capacitorMobius(i, C, aM, bM, cM, dM) = genericNode_output_I(i, f, upPortRes) with{ f(a) = asF <: _, _'sB : (_, _, _ :> _)~(_'sBsB) with{ sB = (-1)(aMdM+bMcM)/(2aMcM); sF = (aMdM-bMcM)/(2aMcM); }; upPortRes = cM/CaM; }; process = no.pink_noise <: pultec200 , pultec200;
8c7098403a1151f05c1372b47c41b9008b29ef1e11363275612c1cba17c637cb	CICM-research-composition/livepatching	delay.dsp	import("stdfaust.lib"); //--------------------------------------------------------------------------------------// //A delay chain //--------------------------------------------------------------------------------------// //--------------------------------------------------------------------------------------// //CONSTANTS //--------------------------------------------------------------------------------------// //Maximum number of samples if a common delay line //corresponding to a bit more than 5 seconds at 48 KHz Ndelsamp = 262144; //Number of samples for a millisecond of sound millisec = ma.SR / 1000.0; //Dynamics in dB relative to the original sound// id = 0; //identical amplitude as the original sound// bl = -6; //a bit lower than the original amplitude// ml = -12; //much lower than the original amplitude// vl = -24; //very low amplitude// //--------------------------------------------------------------------------------------// //PARAMETERS OF CONTROL //--------------------------------------------------------------------------------------// //general tempo of the structure// tempo = nentry("tempo", 60, 1, 10000, 1); //local amplitude of the structure// vol = nentry("vol", 1, 0, 1, 0.01) : si.smoo; //feedback of reinjection from the last delay to the first one// fdbk = nentry("fdbk", 0, 0, 0.99999, 0.001); //--------------------------------------------------------------------------------------// //--------------------------------------------------------------------------------------// //RYTHMICAL AND DYNAMIC STRUCTURE //TO BE ADAPTED BY EACH USER //--------------------------------------------------------------------------------------// //list of durations of delays// //4 stands for a whole, 2 for a half note, 1 for a quarter note, 0.5 for an eighth, 0.25 for a fourth, etc. //the first value 0 means we listen to the original note at once// rythm = (0, 0.25, 0.75, 0.5, 3.5, 0.5, 1.75, 0.75); //list of dynamics// //id = identical amplitude as the original sound// //bl = a bit lower than the original amplitude// //ml = much lower than the original amplitude// //vl = very low amplitude// //there must be the same number of values as in the rythm list// dynamics = (id, vl, bl, ml, ml, ml, ml, ml); //--------------------------------------------------------------------------------------// //END OF THE STRUCTURE TO BE ADAPTED //--------------------------------------------------------------------------------------// //--------------------------------------------------------------------------------------// //--------------------------------------------------------------------------------------// //DEFINITION OF AN ELEMENTARY DELAY LINE //--------------------------------------------------------------------------------------// //durations in samples of each elementary delay, with a maximum of Ndelsamp// dur(i) = (ba.take(i, rythm) * 60 / tempo * ma.SR, Ndelsamp) : min ; del(i) = de.sdelay(Ndelsamp, 16, dur(i)); //--------------------------------------------------------------------------------------// //RECURSIVE DEFINITION OF A DELAY CHAIN //--------------------------------------------------------------------------------------// delaychain(1) = del(1); delaychain(2) = del(1) <: (del(2), _); delaychain(n) = delaychain(n-1) : ((_ <: (del(n), _)), si.bus(n-2)); //definition of the structure// struct = delaychain(Nind) : par(i, Nind, (ba.db2linear((ba.take(Nind-i, dynamics))))) with { Nind = ba.count(rythm); }; process = (+ : struct) ~ ((fdbk)) :toVol(Nind) : toStereo(Nind) with { toVol(n) = par(i, n, *(vol)); //left to right panning// toStereo(n) = par(i, n, sp.panner(1 - i / (n-1))) :> (_, _); Nind = ba.count(rythm); };	https://raw.githubusercontent.com/CICM-research-composition/livepatching/da47667b3f5236b4b81cb05593f35d408caaca9e/source/delay.dsp	faust	--------------------------------------------------------------------------------------// A delay chain --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// CONSTANTS --------------------------------------------------------------------------------------// Maximum number of samples if a common delay line corresponding to a bit more than 5 seconds at 48 KHz Number of samples for a millisecond of sound Dynamics in dB relative to the original sound// identical amplitude as the original sound// a bit lower than the original amplitude// much lower than the original amplitude// very low amplitude// --------------------------------------------------------------------------------------// PARAMETERS OF CONTROL --------------------------------------------------------------------------------------// general tempo of the structure// local amplitude of the structure// feedback of reinjection from the last delay to the first one// --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// RYTHMICAL AND DYNAMIC STRUCTURE TO BE ADAPTED BY EACH USER --------------------------------------------------------------------------------------// list of durations of delays// 4 stands for a whole, 2 for a half note, 1 for a quarter note, 0.5 for an eighth, 0.25 for a fourth, etc. the first value 0 means we listen to the original note at once// list of dynamics// id = identical amplitude as the original sound// bl = a bit lower than the original amplitude// ml = much lower than the original amplitude// vl = very low amplitude// there must be the same number of values as in the rythm list// --------------------------------------------------------------------------------------// END OF THE STRUCTURE TO BE ADAPTED --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// DEFINITION OF AN ELEMENTARY DELAY LINE --------------------------------------------------------------------------------------// durations in samples of each elementary delay, with a maximum of Ndelsamp// --------------------------------------------------------------------------------------// RECURSIVE DEFINITION OF A DELAY CHAIN --------------------------------------------------------------------------------------// definition of the structure// left to right panning//	import("stdfaust.lib"); Ndelsamp = 262144; millisec = ma.SR / 1000.0; tempo = nentry("tempo", 60, 1, 10000, 1); vol = nentry("vol", 1, 0, 1, 0.01) : si.smoo; fdbk = nentry("fdbk", 0, 0, 0.99999, 0.001); rythm = (0, 0.25, 0.75, 0.5, 3.5, 0.5, 1.75, 0.75); dynamics = (id, vl, bl, ml, ml, ml, ml, ml); dur(i) = (ba.take(i, rythm) * 60 / tempo * ma.SR, Ndelsamp) : min ; del(i) = de.sdelay(Ndelsamp, 16, dur(i)); delaychain(1) = del(1); delaychain(2) = del(1) <: (del(2), _); delaychain(n) = delaychain(n-1) : ((_ <: (del(n), _)), si.bus(n-2)); struct = delaychain(Nind) : par(i, Nind, (ba.db2linear((ba.take(Nind-i, dynamics))))) with { Nind = ba.count(rythm); }; process = (+ : struct) ~ ((fdbk)) :toVol(Nind) : toStereo(Nind) with { toVol(n) = par(i, n, *(vol)); toStereo(n) = par(i, n, sp.panner(1 - i / (n-1))) :> (_, _); Nind = ba.count(rythm); };
1791202b543e35b24d6874226d65678a905e7b5fc4011c60bc44e3456c919adc	Jikstra/faust-plugins	sawlfo.dsp	import("stdfaust.lib"); decimalpart(x) = x - int(x); sawtooth(reset, stepSize) = ((+(stepSize)) , 0 : select2(reset)) ~ ma.decimal; ms = 1 / (nentry("ms", 1000, 1, 100000, 1) * (ma.SR / 1000)); reset = button("reset"); process = sawtooth(reset, ms), sawtooth(reset, ms) : _,_;	https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/sawlfo.dsp	faust		import("stdfaust.lib"); decimalpart(x) = x - int(x); sawtooth(reset, stepSize) = ((+(stepSize)) , 0 : select2(reset)) ~ ma.decimal; ms = 1 / (nentry("ms", 1000, 1, 100000, 1) * (ma.SR / 1000)); reset = button("reset"); process = sawtooth(reset, ms), sawtooth(reset, ms) : _,_;
bf4f06a9a3cfb8a87c5cd8b340ce49501a561af2264c8afba8ac9551e8b98960	Jikstra/faust-plugins	freqsplitter.dsp	import("stdfaust.lib"); low_cut = hslider("cut", 10000, 1, 10000, 1); low_gain = hslider("low_gain", 1, 0, 1, 0.001); high_gain = hslider("high_gain", 1, 0, 1, 0.001); process = _,_ <: _,_,_,_ : fi.lowpass6e(low_cut)low_gain,fi.lowpass6e(low_cut)low_gain,fi.highpass6e(low_cut)high_gain,fi.highpass6e(low_cut)high_gain : _,_,_,_;	https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/freqsplitter.dsp	faust		import("stdfaust.lib"); low_cut = hslider("cut", 10000, 1, 10000, 1); low_gain = hslider("low_gain", 1, 0, 1, 0.001); high_gain = hslider("high_gain", 1, 0, 1, 0.001); process = _,_ <: _,_,_,_ : fi.lowpass6e(low_cut)low_gain,fi.lowpass6e(low_cut)low_gain,fi.highpass6e(low_cut)high_gain,fi.highpass6e(low_cut)high_gain : _,_,_,_;
fce2f54a125ff8034832a538299727b056900b6df3df558df26e17d12b21a9c4	Jikstra/faust-plugins	midiclock.dsp	import("stdfaust.lib"); // square signal (1/0), changing state at each received clock clocker = checkbox("MIDI clock[midi:clock]"); // ON/OFF button controlled with MIDI start/stop messages play = checkbox("ON/OFF [midi:start] [midi:stop]"); // detect front front(x) = (x-x') != 0.0; // count number of peaks during one second freq(x) = ([email protected]) : + ~ _; process = os.osc(8freq(front(clocker))) play;	https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/midiclock.dsp	faust	square signal (1/0), changing state at each received clock ON/OFF button controlled with MIDI start/stop messages detect front count number of peaks during one second	import("stdfaust.lib"); clocker = checkbox("MIDI clock[midi:clock]"); play = checkbox("ON/OFF [midi:start] [midi:stop]"); front(x) = (x-x') != 0.0; freq(x) = ([email protected]) : + ~ _; process = os.osc(8freq(front(clocker))) play;
30283adbfb9e00100dc6554b80f9287e72944a49aeb85796e35018bfc8aacb67	Jikstra/faust-plugins	3bandfreqsplitter.dsp	import("stdfaust.lib"); low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; mid_cut = nentry("[1]mid cut", 1000, 1, 20000, 1) : si.smoo; low_gain = hslider("[2]low_gain", 1, 0, 2, 0.001) : si.smoo; mid_gain = hslider("[3]mid_gain", 1, 0, 2, 0.001) : si.smoo; high_gain = hslider("[4]]high_gain", 1, 0, 2, 0.001) : si.smoo; splitLowAndRest(low_cut) = _,_,_,_,_,_ : fi.lowpass6e(low_cut), fi.lowpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut); splitMidAndRest(mid_cut) = _,_,_,_,_,_ : _, _, fi.lowpass6e(mid_cut), fi.lowpass6e(mid_cut), fi.highpass6e(mid_cut), fi.highpass6e(mid_cut); process = _,_ <: splitLowAndRest(low_cut) : splitMidAndRest(mid_cut) : _ * low_gain, _ * low_gain, _ * mid_gain, _ * mid_gain, _ * high_gain, _ * high_gain :> _,_;	https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/3bandfreqsplitter.dsp	faust		import("stdfaust.lib"); low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; mid_cut = nentry("[1]mid cut", 1000, 1, 20000, 1) : si.smoo; low_gain = hslider("[2]low_gain", 1, 0, 2, 0.001) : si.smoo; mid_gain = hslider("[3]mid_gain", 1, 0, 2, 0.001) : si.smoo; high_gain = hslider("[4]]high_gain", 1, 0, 2, 0.001) : si.smoo; splitLowAndRest(low_cut) = _,_,_,_,_,_ : fi.lowpass6e(low_cut), fi.lowpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut), fi.highpass6e(low_cut); splitMidAndRest(mid_cut) = _,_,_,_,_,_ : _, _, fi.lowpass6e(mid_cut), fi.lowpass6e(mid_cut), fi.highpass6e(mid_cut), fi.highpass6e(mid_cut); process = _,_ <: splitLowAndRest(low_cut) : splitMidAndRest(mid_cut) : _ * low_gain, _ * low_gain, _ * mid_gain, _ * mid_gain, _ * high_gain, _ * high_gain :> _,_;
d40abe73ec4e3c90723753309849b0a670f3c04b999a2dbdcd58826281fe97af	Jikstra/faust-plugins	dj-channel.dsp	import("stdfaust.lib"); /* Inverts a boolean value. Makes a 0 out of a one and a one out of zero. / invertBool = _ : _ - 1; low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; low_q = nentry("[1]low q", 6, 1, 16, 2); mid_cut = nentry("[2]mid cut", 1500, 1, 20000, 1) : si.smoo; high_q = nentry("[3]high q", 4, 1, 16, 1); low_gain = hslider("[4]low_gain", 1, 0, 2, 0.001) : si.smoo; low_kill = checkbox("[5]low_kill") : invertBool : si.smoo; mid_gain = hslider("[6]mid_gain", 1, 0, 2, 0.001) : si.smoo; mid_kill = checkbox("[7]mid_kill") : invertBool : si.smoo; high_gain = hslider("[8]high_gain", 1, 0, 2, 0.001) : si.smoo; high_kill = checkbox("[9]high_kill") : invertBool : si.smoo; general_gain = hslider("gain", 1, 0, 10, 0.001) : si.smoo; volume = vslider("volume", 1, 0, 1, 0.001) : si.smoo; cue_a = checkbox("cue_a") : si.smoo; cue_b = checkbox("cue_b") : si.smoo; / Splits a single signal into two signals at a given frequency (freq) with * order of q / splitMono(freq, q) = _ <: fi.lowpass(q, freq), fi.highpass(q, freq) : _,_; / Same as splitMono but for a stereo signal / split(freq,q) = _,_ : splitMono(freq, q), splitMono(freq, q): _,_,_,_ <: ba.selector(0, 4), ba.selector(2, 4), ba.selector(1, 4), ba.selector(3, 4); / Splits a stereo signal into 6 signals, where the 1 & 2 signal are the low * frequencies (everything below low_cut), the 3 & 4 are everything below mid_cut * and 5 & 6 are the remaining high frequencies. / ThreeBandSplitter = _,_ : split((low_cut,mid_cut:min), 2) : _, _, split((low_cut,mid_cut: max), 5) : _, _, _, _, _, _; equalizer = _,_ : ThreeBandSplitter : gain(low_gainlow_kill), gain(mid_gainmid_kill), gain(high_gainhigh_kill) :> _, _; /* Boost a mono signal / gainMono(gain) = _ : _ gain : _; /* Boost a stereo signal / gain(gain) = _,_ : gainMono(gain), gainMono(gain) : _, _; / This function enables or disables the signal for the cue channel. * Internally the same as gain() but for the ease of readability. */ cue(activated) = gain(activated); process = _,_ : gain(general_gain) : equalizer <: gain(volume), cue(cue_a), cue(cue_b);	https://raw.githubusercontent.com/Jikstra/faust-plugins/2e91fe48d82e9ea7b74e8ac083dd6d40fb4ca645/dj-channel.dsp	faust	Inverts a boolean value. Makes a 0 out of a one and a one out of zero. Splits a single signal into two signals at a given frequency (freq) with * order of q Same as splitMono but for a stereo signal Splits a stereo signal into 6 signals, where the 1 & 2 signal are the low * frequencies (everything below low_cut), the 3 & 4 are everything below mid_cut * and 5 & 6 are the remaining high frequencies. Boost a mono signal Boost a stereo signal This function enables or disables the signal for the cue channel. * Internally the same as gain() but for the ease of readability.	import("stdfaust.lib"); invertBool = _ : _ - 1; low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; low_q = nentry("[1]low q", 6, 1, 16, 2); mid_cut = nentry("[2]mid cut", 1500, 1, 20000, 1) : si.smoo; high_q = nentry("[3]high q", 4, 1, 16, 1); low_gain = hslider("[4]low_gain", 1, 0, 2, 0.001) : si.smoo; low_kill = checkbox("[5]low_kill") : invertBool : si.smoo; mid_gain = hslider("[6]mid_gain", 1, 0, 2, 0.001) : si.smoo; mid_kill = checkbox("[7]mid_kill") : invertBool : si.smoo; high_gain = hslider("[8]high_gain", 1, 0, 2, 0.001) : si.smoo; high_kill = checkbox("[9]high_kill") : invertBool : si.smoo; general_gain = hslider("gain", 1, 0, 10, 0.001) : si.smoo; volume = vslider("volume", 1, 0, 1, 0.001) : si.smoo; cue_a = checkbox("cue_a") : si.smoo; cue_b = checkbox("cue_b") : si.smoo; splitMono(freq, q) = _ <: fi.lowpass(q, freq), fi.highpass(q, freq) : _,_; split(freq,q) = _,_ : splitMono(freq, q), splitMono(freq, q): _,_,_,_ <: ba.selector(0, 4), ba.selector(2, 4), ba.selector(1, 4), ba.selector(3, 4); ThreeBandSplitter = _,_ : split((low_cut,mid_cut:min), 2) : _, _, split((low_cut,mid_cut: max), 5) : _, _, _, _, _, _; equalizer = _,_ : ThreeBandSplitter : gain(low_gainlow_kill), gain(mid_gainmid_kill), gain(high_gainhigh_kill) :> _, _; gainMono(gain) = _ : _ gain : _; gain(gain) = _,_ : gainMono(gain), gainMono(gain) : _, _; cue(activated) = gain(activated); process = _,_ : gain(general_gain) : equalizer <: gain(volume), cue(cue_a), cue(cue_b);
3243bda6ad686df0c873fa58cf3761885b0bac6bd88e022c7981f98a2d352b0a	Jikstra/faust-plugins	djchannelnew.dsp	import("stdfaust.lib"); /* Inverts a boolean value. Makes a 0 out of a one and a one out of zero. / invertBool = _ : _ - 1; low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; low_q = nentry("[1]low q", 6, 1, 16, 2); mid_cut = nentry("[2]mid cut", 1500, 1, 20000, 1) : si.smoo; high_q = nentry("[3]high q", 4, 1, 16, 1); low_gain = hslider("[4]low_gain", 1, 0, 2, 0.001) : si.smoo; low_kill = checkbox("[5]low_kill") : invertBool : si.smoo; mid_gain = hslider("[6]mid_gain", 1, 0, 2, 0.001) : si.smoo; mid_kill = checkbox("[7]mid_kill") : invertBool : si.smoo; high_gain = hslider("[8]high_gain", 1, 0, 2, 0.001) : si.smoo; high_kill = checkbox("[9]high_kill") : invertBool : si.smoo; general_gain = hslider("gain", 1, 0, 10, 0.001) : si.smoo; volume = vslider("volume", 1, 0, 1, 0.001) : si.smoo; cue_a = checkbox("cue_a") : si.smoo; cue_b = checkbox("cue_b") : si.smoo; filter = hslider("filter", 1, 0, 2, 0.001) : si.smoo; / Splits a single signal into two signals at a given frequency (freq) with * order of q / splitMono(freq, q) = _ <: fi.lowpass(q, freq), fi.highpass(q, freq) : _,_; / Same as splitMono but for a stereo signal / split(freq,q) = _,_ : splitMono(freq, q), splitMono(freq, q): _,_,_,_ <: ba.selector(0, 4), ba.selector(2, 4), ba.selector(1, 4), ba.selector(3, 4); / Splits a stereo signal into 6 signals, where the 1 & 2 signal are the low * frequencies (everything below low_cut), the 3 & 4 are everything below mid_cut * and 5 & 6 are the remaining high frequencies. / _f(value) = _,_ : split((value4646), 5): _ * (value < 1), _ * (value < 1), _ * (value > 1), _ * (value > 1) :> _,_; f(value) = _,_ : ba.bypass2(value==1, _f(value)); ThreeBandSplitter = _,_ : fi.filterbank (5,(low_cut,mid_cut)), fi.filterbank (5,(low_cut,mid_cut)) <: ba.selector(2, 6), ba.selector(5, 6), ba.selector(1, 6), ba.selector(4, 6), ba.selector(0, 6), ba.selector(3, 6) : _,_,_,_,_,_; equalizer = _,_ : ThreeBandSplitter : gain(low_gainlow_kill), gain(mid_gainmid_kill), gain(high_gainhigh_kill) :> _, _; / Boost a mono signal / gainMono(gain) = _ : _ gain : _; /* Boost a stereo signal / gain(gain) = _,_ : gainMono(gain), gainMono(gain) : _, _; / This function enables or disables the signal for the cue channel. * Internally the same as gain() but for the ease of readability. */ cue(activated) = gain(activated); process = _,_ : gain(general_gain) : equalizer <: gain(volume), cue(cue_a), cue(cue_b);	https://raw.githubusercontent.com/Jikstra/faust-plugins/3515e771924db980575ce0522e22f38a4f175864/djchannelnew.dsp	faust	Inverts a boolean value. Makes a 0 out of a one and a one out of zero. Splits a single signal into two signals at a given frequency (freq) with * order of q Same as splitMono but for a stereo signal Splits a stereo signal into 6 signals, where the 1 & 2 signal are the low * frequencies (everything below low_cut), the 3 & 4 are everything below mid_cut * and 5 & 6 are the remaining high frequencies. Boost a mono signal Boost a stereo signal This function enables or disables the signal for the cue channel. * Internally the same as gain() but for the ease of readability.	import("stdfaust.lib"); invertBool = _ : _ - 1; low_cut = nentry("[0]low cut", 300, 1, 20000, 1) : si.smoo; low_q = nentry("[1]low q", 6, 1, 16, 2); mid_cut = nentry("[2]mid cut", 1500, 1, 20000, 1) : si.smoo; high_q = nentry("[3]high q", 4, 1, 16, 1); low_gain = hslider("[4]low_gain", 1, 0, 2, 0.001) : si.smoo; low_kill = checkbox("[5]low_kill") : invertBool : si.smoo; mid_gain = hslider("[6]mid_gain", 1, 0, 2, 0.001) : si.smoo; mid_kill = checkbox("[7]mid_kill") : invertBool : si.smoo; high_gain = hslider("[8]high_gain", 1, 0, 2, 0.001) : si.smoo; high_kill = checkbox("[9]high_kill") : invertBool : si.smoo; general_gain = hslider("gain", 1, 0, 10, 0.001) : si.smoo; volume = vslider("volume", 1, 0, 1, 0.001) : si.smoo; cue_a = checkbox("cue_a") : si.smoo; cue_b = checkbox("cue_b") : si.smoo; filter = hslider("filter", 1, 0, 2, 0.001) : si.smoo; splitMono(freq, q) = _ <: fi.lowpass(q, freq), fi.highpass(q, freq) : _,_; split(freq,q) = _,_ : splitMono(freq, q), splitMono(freq, q): _,_,_,_ <: ba.selector(0, 4), ba.selector(2, 4), ba.selector(1, 4), ba.selector(3, 4); _f(value) = _,_ : split((value4646), 5): _ (value < 1), _ * (value < 1), _ * (value > 1), _ * (value > 1) :> _,_; f(value) = _,_ : ba.bypass2(value==1, _f(value)); ThreeBandSplitter = _,_ : fi.filterbank (5,(low_cut,mid_cut)), fi.filterbank (5,(low_cut,mid_cut)) <: ba.selector(2, 6), ba.selector(5, 6), ba.selector(1, 6), ba.selector(4, 6), ba.selector(0, 6), ba.selector(3, 6) : _,_,_,_,_,_; equalizer = _,_ : ThreeBandSplitter : gain(low_gainlow_kill), gain(mid_gainmid_kill), gain(high_gainhigh_kill) :> _, _; gainMono(gain) = _ : _ gain : _; gain(gain) = _,_ : gainMono(gain), gainMono(gain) : _, _; cue(activated) = gain(activated); process = _,_ : gain(general_gain) : equalizer <: gain(volume), cue(cue_a), cue(cue_b);
4b864e1ee1f914ae4cc4a0088250455c74c80ed251ddbfdb0c197ea584fc8107	Jikstra/faust-plugins	modelOneEQ.dsp	declare options "[midi:on]"; import("stdfaust.lib"); midikey2hz(m) = lowestValue * pow(2.0, k * m) with { //lowestValue = 2000; lowestValue = 20; offset = 0; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 127; }; midikey2hzHP(m) = lowestValue * pow(l, k * (m - 1)) with { l = 2; lowestValue = 20; offset = 0; highestValue = ma.SR/2; k = log(((highestValue)+offset)/lowestValue) / log(l) / 125; }; midikey2hzLP(m) = lowestValue * pow(2.0, k * m) with { lowestValue = 500; //lowestValue = 4000; offset = 0; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 126; }; midikey2hzBell(m) = lowestValue * pow(2.0, k * m) with { lowestValue = 20; //lowestValue = 4000; offset = -2000; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 126; }; betterSmoo = si.smooth(0.001); hp_fq_midi = hslider("[1]hp freq midi[midi:ctrl 1]", 0, 0, 127, 1):float; hp_fq = midikey2hzHP(hp_fq_midi) : betterSmoo; hp_fq_ui = hp_fq : hbargraph("[2]HP Freq", 0, 21000); hp_bypass_toggle = checkbox("[4]hp bypass[3]"); hp_bypass = (hp_bypass_toggle == 1) \| (hp_fq_midi == 0); hp_bypass_ui = hp_bypass : hbargraph("[3]HP Bypass", 0, 1); lp_fq_midi = hslider("[4]lp freq midi[midi:ctrl 4]", 127, 0, 127, 1):float; lp_fq = midikey2hzLP(lp_fq_midi) : betterSmoo; lp_fq_ui = lp_fq : hbargraph("[5]LP Freq", 0, 21000); lp_bypass_toggle = checkbox("[6]lp bypass[3]"); lp_bypass = (lp_bypass_toggle == 1) \| (lp_fq_midi == 127); lp_bypass_ui = lp_bypass : hbargraph("[7]LP Bypass", 0, 1); bell_fq_midi = hslider("[8]bell freq midi[midi:ctrl 3]", 64, 0, 127, 1):float; bell_fq = midikey2hzBell(bell_fq_midi) : betterSmoo; bell_fq_ui = bell_fq : hbargraph("[9]Bell Freq", 0, 25000); bell_gain_midi = hslider("[10]bell gain midi[midi:ctrl 2]", 64, 0, 127, 1):float; bell_gain = select2(bell_gain_midi > 64, ((bell_gain_midi - 64)), ((bell_gain_midi - 64) / 5)); bell_gain_ui = bell_gain : hbargraph("[11]Bell Gain", -100, 100); bell_q = select2(bell_gain_midi > 64, 4, 1); bell_q_ui = bell_q : hbargraph("[12]Bell Q", 0, 32); mute = (hp_fq_midi == 127) \| (lp_fq_midi == 0); mute_ui = mute : hbargraph("[13]Mute", 0, 1); smooth_bypass(bpc, e) = _,_ : ba.bypass_fade(500, bpc, e) : _,_; oberheim_hp(freq, q) = _ : seq(i, 8, ve.oberheimHPF(normalized_freq, q)) : _ with { normalized_freq = min((freq/(ma.SR/2)), 1); }; hp_mono = _ : oberheim_hp(hp_fq, 0.7) : _; //hp_mono = _ : seq(i, 8, fi.svf.hp(hp_fq, 0.5)) : _; hp = _ , _ : smooth_bypass(hp_bypass, (hp_mono, hp_mono)) : _, _; oberheim_lp(freq, q) = _ : seq(i, 8, ve.oberheimLPF(normalized_freq, q)) : _ with { normalized_freq = min((freq/(ma.SR/2)), 1); }; lp_mono = _ : oberheim_lp(lp_fq, 0.7) : _; lp = _ , _ : smooth_bypass(lp_bypass, (lp_mono, lp_mono)) : _, _; bell_mono = _ <: (_ : fi.svf.bell(bell_fq, 1, bell_gain / 2) : fi.svf.bell(bell_fq, 1, bell_gain / 2) : _), (_ : fi.svf.bell(bell_fq, 1, bell_gain) : _) : select2(bell_gain_midi < 64) : _; bell = _,_ : bell_mono,bell_mono: _,_; muter = _,_ : ba.bypass_fade(2500, (mute == 0), (_ * 0, _ * 0)) : _,_; process = _,_ : hp : lp : bell : muter : _, _ : _, attach(_, hp_fq_ui) : _, attach(_, hp_bypass_ui) : _, attach(_, lp_fq_ui) : _, attach(_, lp_bypass_ui) : _, attach(_, bell_fq_ui) : _, attach(_, bell_q_ui) : _, attach(_, bell_gain_ui) : _, attach(_, mute_ui);	https://raw.githubusercontent.com/Jikstra/faust-plugins/3515e771924db980575ce0522e22f38a4f175864/modelOneEQ.dsp	faust	lowestValue = 2000; lowestValue = 4000; lowestValue = 4000; hp_mono = _ : seq(i, 8, fi.svf.hp(hp_fq, 0.5)) : _;	declare options "[midi:on]"; import("stdfaust.lib"); midikey2hz(m) = lowestValue * pow(2.0, k * m) with { lowestValue = 20; offset = 0; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 127; }; midikey2hzHP(m) = lowestValue * pow(l, k * (m - 1)) with { l = 2; lowestValue = 20; offset = 0; highestValue = ma.SR/2; k = log(((highestValue)+offset)/lowestValue) / log(l) / 125; }; midikey2hzLP(m) = lowestValue * pow(2.0, k * m) with { lowestValue = 500; offset = 0; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 126; }; midikey2hzBell(m) = lowestValue * pow(2.0, k * m) with { lowestValue = 20; offset = -2000; k = log(((ma.SR/2)+offset)/lowestValue) / log(2) / 126; }; betterSmoo = si.smooth(0.001); hp_fq_midi = hslider("[1]hp freq midi[midi:ctrl 1]", 0, 0, 127, 1):float; hp_fq = midikey2hzHP(hp_fq_midi) : betterSmoo; hp_fq_ui = hp_fq : hbargraph("[2]HP Freq", 0, 21000); hp_bypass_toggle = checkbox("[4]hp bypass[3]"); hp_bypass = (hp_bypass_toggle == 1) \| (hp_fq_midi == 0); hp_bypass_ui = hp_bypass : hbargraph("[3]HP Bypass", 0, 1); lp_fq_midi = hslider("[4]lp freq midi[midi:ctrl 4]", 127, 0, 127, 1):float; lp_fq = midikey2hzLP(lp_fq_midi) : betterSmoo; lp_fq_ui = lp_fq : hbargraph("[5]LP Freq", 0, 21000); lp_bypass_toggle = checkbox("[6]lp bypass[3]"); lp_bypass = (lp_bypass_toggle == 1) \| (lp_fq_midi == 127); lp_bypass_ui = lp_bypass : hbargraph("[7]LP Bypass", 0, 1); bell_fq_midi = hslider("[8]bell freq midi[midi:ctrl 3]", 64, 0, 127, 1):float; bell_fq = midikey2hzBell(bell_fq_midi) : betterSmoo; bell_fq_ui = bell_fq : hbargraph("[9]Bell Freq", 0, 25000); bell_gain_midi = hslider("[10]bell gain midi[midi:ctrl 2]", 64, 0, 127, 1):float; bell_gain = select2(bell_gain_midi > 64, ((bell_gain_midi - 64)), ((bell_gain_midi - 64) / 5)); bell_gain_ui = bell_gain : hbargraph("[11]Bell Gain", -100, 100); bell_q = select2(bell_gain_midi > 64, 4, 1); bell_q_ui = bell_q : hbargraph("[12]Bell Q", 0, 32); mute = (hp_fq_midi == 127) \| (lp_fq_midi == 0); mute_ui = mute : hbargraph("[13]Mute", 0, 1); smooth_bypass(bpc, e) = _,_ : ba.bypass_fade(500, bpc, e) : _,_; oberheim_hp(freq, q) = _ : seq(i, 8, ve.oberheimHPF(normalized_freq, q)) : _ with { normalized_freq = min((freq/(ma.SR/2)), 1); }; hp_mono = _ : oberheim_hp(hp_fq, 0.7) : _; hp = _ , _ : smooth_bypass(hp_bypass, (hp_mono, hp_mono)) : _, _; oberheim_lp(freq, q) = _ : seq(i, 8, ve.oberheimLPF(normalized_freq, q)) : _ with { normalized_freq = min((freq/(ma.SR/2)), 1); }; lp_mono = _ : oberheim_lp(lp_fq, 0.7) : _; lp = _ , _ : smooth_bypass(lp_bypass, (lp_mono, lp_mono)) : _, _; bell_mono = _ <: (_ : fi.svf.bell(bell_fq, 1, bell_gain / 2) : fi.svf.bell(bell_fq, 1, bell_gain / 2) : _), (_ : fi.svf.bell(bell_fq, 1, bell_gain) : _) : select2(bell_gain_midi < 64) : _; bell = _,_ : bell_mono,bell_mono: _,_; muter = _,_ : ba.bypass_fade(2500, (mute == 0), (_ * 0, _ * 0)) : _,_; process = _,_ : hp : lp : bell : muter : _, _ : _, attach(_, hp_fq_ui) : _, attach(_, hp_bypass_ui) : _, attach(_, lp_fq_ui) : _, attach(_, lp_bypass_ui) : _, attach(_, bell_fq_ui) : _, attach(_, bell_q_ui) : _, attach(_, bell_gain_ui) : _, attach(_, mute_ui);
7d0adf73d5af21fe309fb9fc7c6b387308a15ed97081eb59a75e0be627331ef7	diegomonteagudo/TC-SON	FaustTwoSounds.dsp	import("stdfaust.lib"); // djembeModelCustom(freq) = _ <: par(i,nModes,pm.modeFilter(modeFreqs(i),modeT60s(i),modeGains(i))) :> /(nModes) // with{ // nModes = 10; // theta = 0; // angle // modeFreqs(i) = freq + 200i; // modeT60s(i) = (nModes-i)0.03; // modeGains(i) = cos((i+1)theta)/float(i+1)(1/(i+1)); // }; // djembe(freq,strikePosition,strikeSharpness,gain,trigger) = // pm.strike(strikePosition,strikeSharpness,gain,trigger) : djembeModelCustom(freq); oscsin(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with { tablesize = 256; }; frequence0 = hslider("frequence0",261.63,20,6000,0.1); frequence1 = hslider("frequence1",277.18,20,6000,0.1); frequence2 = hslider("frequence2",293.66,20,6000,0.1); frequence3 = hslider("frequence3",311.13,20,6000,0.1); frequence4 = hslider("frequence4",329.63,20,6000,0.1); frequence5 = hslider("frequence5",349.23,20,6000,0.1); frequence6 = hslider("frequence6",369.99,20,6000,0.1); frequence7 = hslider("frequence7",392.00,20,6000,0.1); frequence8 = hslider("frequence8",415.30,20,6000,0.1); frequence9 = hslider("frequence9",440.00,20,6000,0.1); frequence10 = hslider("frequence10",466.16,20,6000,0.1); frequence11 = hslider("frequence11",493.88,20,6000,0.1); gate0 = button("gate0"); gate1 = button("gate1"); gate2 = button("gate2"); gate3 = button("gate3"); gate4 = button("gate4"); gate5 = button("gate5"); gate6 = button("gate6"); gate7 = button("gate7"); gate8 = button("gate8"); gate9 = button("gate9"); gate10 = button("gate10"); gate11 = button("gate11"); gain = hslider("gain",1,0,1,0.1); harpeStatus = hslider("harpe",1,0,1,1); res = 2; harpeIns = sy.combString(frequence0,res,gate0),sy.combString(frequence1,res,gate1),sy.combString(frequence2,res,gate2),sy.combString(frequence3,res,gate3),sy.combString(frequence4,res,gate4),sy.combString(frequence5,res,gate5),sy.combString(frequence6,res,gate6),sy.combString(frequence7,res,gate7),sy.combString(frequence8,res,gate8),sy.combString(frequence9,res,gate9),sy.combString(frequence10,res,gate10),sy.combString(frequence11,res,gate11) :> (harpeStatus); // djembeStatus = hslider("djembe",0,0,1,1); // djembeIns = djembe(frequence0, 0.3, 1, 1, gate0),djembe(frequence1, 0.3, 1, 1, gate1),djembe(frequence2, 0.3, 1, 1, gate2),djembe(frequence3, 0.3, 1, 1, gate3),djembe(frequence4, 0.3, 1, 1, gate4),djembe(frequence5, 0.3, 1, 1, gate5),djembe(frequence6, 0.3, 1, 1, gate6),djembe(frequence7, 0.3, 1, 1, gate7),djembe(frequence8, 0.3, 1, 1, gate8),djembe(frequence9, 0.3, 1, 1, gate9),djembe(frequence10, 0.3, 1, 1, gate10),djembe(frequence11, 0.3, 1, 1, gate11) :> (djembeStatus); sineStatus = hslider("sine",0,0,1,1); sineIns = gate0oscsin(frequence0),gate1oscsin(frequence1),gate2oscsin(frequence2),gate3oscsin(frequence3),gate4oscsin(frequence4),gate5oscsin(frequence5),gate6oscsin(frequence6),gate7oscsin(frequence7),gate8oscsin(frequence8),gate9oscsin(frequence9),gate10oscsin(frequence10),gate11oscsin(frequence11) :> (sineStatus); process = (harpeIns,sineIns) :> (gain);	https://raw.githubusercontent.com/diegomonteagudo/TC-SON/6c2dd3cf34f020ad499c8c08e8dfea9446a024ec/FaustTwoSounds.dsp	faust	djembeModelCustom(freq) = _ <: par(i,nModes,pm.modeFilter(modeFreqs(i),modeT60s(i),modeGains(i))) :> /(nModes) with{ nModes = 10; theta = 0; // angle modeFreqs(i) = freq + 200i; modeT60s(i) = (nModes-i)0.03; modeGains(i) = cos((i+1)theta)/float(i+1)(1/(i+1)); }; djembe(freq,strikePosition,strikeSharpness,gain,trigger) = pm.strike(strikePosition,strikeSharpness,gain,trigger) : djembeModelCustom(freq); djembeStatus = hslider("djembe",0,0,1,1); djembeIns = djembe(frequence0, 0.3, 1, 1, gate0),djembe(frequence1, 0.3, 1, 1, gate1),djembe(frequence2, 0.3, 1, 1, gate2),djembe(frequence3, 0.3, 1, 1, gate3),djembe(frequence4, 0.3, 1, 1, gate4),djembe(frequence5, 0.3, 1, 1, gate5),djembe(frequence6, 0.3, 1, 1, gate6),djembe(frequence7, 0.3, 1, 1, gate7),djembe(frequence8, 0.3, 1, 1, gate8),djembe(frequence9, 0.3, 1, 1, gate9),djembe(frequence10, 0.3, 1, 1, gate10),djembe(frequence11, 0.3, 1, 1, gate11) :> *(djembeStatus);	import("stdfaust.lib"); oscsin(freq) = rdtable(tablesize, os.sinwaveform(tablesize), int(os.phasor(tablesize,freq))) with { tablesize = 256; }; frequence0 = hslider("frequence0",261.63,20,6000,0.1); frequence1 = hslider("frequence1",277.18,20,6000,0.1); frequence2 = hslider("frequence2",293.66,20,6000,0.1); frequence3 = hslider("frequence3",311.13,20,6000,0.1); frequence4 = hslider("frequence4",329.63,20,6000,0.1); frequence5 = hslider("frequence5",349.23,20,6000,0.1); frequence6 = hslider("frequence6",369.99,20,6000,0.1); frequence7 = hslider("frequence7",392.00,20,6000,0.1); frequence8 = hslider("frequence8",415.30,20,6000,0.1); frequence9 = hslider("frequence9",440.00,20,6000,0.1); frequence10 = hslider("frequence10",466.16,20,6000,0.1); frequence11 = hslider("frequence11",493.88,20,6000,0.1); gate0 = button("gate0"); gate1 = button("gate1"); gate2 = button("gate2"); gate3 = button("gate3"); gate4 = button("gate4"); gate5 = button("gate5"); gate6 = button("gate6"); gate7 = button("gate7"); gate8 = button("gate8"); gate9 = button("gate9"); gate10 = button("gate10"); gate11 = button("gate11"); gain = hslider("gain",1,0,1,0.1); harpeStatus = hslider("harpe",1,0,1,1); res = 2; harpeIns = sy.combString(frequence0,res,gate0),sy.combString(frequence1,res,gate1),sy.combString(frequence2,res,gate2),sy.combString(frequence3,res,gate3),sy.combString(frequence4,res,gate4),sy.combString(frequence5,res,gate5),sy.combString(frequence6,res,gate6),sy.combString(frequence7,res,gate7),sy.combString(frequence8,res,gate8),sy.combString(frequence9,res,gate9),sy.combString(frequence10,res,gate10),sy.combString(frequence11,res,gate11) :> (harpeStatus); sineStatus = hslider("sine",0,0,1,1); sineIns = gate0oscsin(frequence0),gate1oscsin(frequence1),gate2oscsin(frequence2),gate3oscsin(frequence3),gate4oscsin(frequence4),gate5oscsin(frequence5),gate6oscsin(frequence6),gate7oscsin(frequence7),gate8oscsin(frequence8),gate9oscsin(frequence9),gate10oscsin(frequence10),gate11oscsin(frequence11) :> (sineStatus); process = (harpeIns,sineIns) :> *(gain);
bf8b1eb6cdc931cc0d598232e3de938e2dc730767f29b3c92f2e84431824099b	consba/2023-Musel21	dattorro.dsp	declare name "Dattorro Reverb"; import("stdfaust.lib"); dattorroSr = 29761; //dattorroval : dattorrosr = x : sr // funzione per l'adattamento dei valori adapt(val) = val; //* ma.SR / 29761 : int; // slider //guisr = vslider("Sample Rate[style:radio{'44100':0;'48000':1;'96000':2}]",0, 0, 2, 1); //mymax = select3(guisr, 44100, 48000, 96000); mymax = 96000; pdly = vslider("[0]preDelay", 0, 0, mymax, 1); //si può impostare SR decay = vslider("[1]decay", 0.5, 0, 1, 0.01) : si.smoo; dDgroup(x) = hgroup("[2]Decay diffusion", x); ddiff1 = dDgroup(vslider("1", 0.7, 0, 1, 0.01)); ddiff2 = dDgroup(vslider("2", 0.5, 0.25, 0.5, 0.01)); iDgroup(x) = hgroup("[3]Input diffusion", x); idif1 = iDgroup(vslider("1", 0.75, 0, 1, 0.001)); idif2 = iDgroup(vslider("2", 0.625, 0, 1, 0.001)); bw = vslider("[4]bandWidth", 0.7, 0, 0.9999999, 0.01); damp = 1-vslider("[5]damping", 0.0005, 0, 1, 0.0001); exgroup(x) = hgroup("[6]Excursion", x); oscRadio = exgroup(vslider("Osc[style:radio{'Sine':0;'Tri':1;'Sqare':2}]",0, 0, 2, 1)); oscS = select3(oscRadio,os.osc(1),os.triangle(1),os.square(1)); exui = exgroup(vslider("Amp", 16, 0, 100, 0.001)); dattorroGroup = hgroup("Dattorro Reverb", dattorro); lp1p(a) = _(a) : +~(1-a); apf(idif, t) = (ma.sub : ((idif) <: de.delay(mymax, t), _))~(idif) : +; //ma.sub inverte l'ordine degli operatori //process = ba.pulsen(1, ma.SR) : apf; apfm(idif, t, ex) = (+ : ((idif) <: de.sdelay(mymax, 512, t+(oscSex)), _))~(idif) : -; //esternare oscillatore //yL = apfm(ddiff1, adapt(672), exui) : de.delay(mymax, adapt(4453)) : lp1p(damp) : (decay) : apf(ddiff1, adapt(1800)) : de.delay(ma.SR, adapt(3720)); //yR = apfm(ddiff1, adapt(908), exui) : de.delay(mymax, adapt(4217)) : lp1p(damp) : (decay) : apf(ddiff2, adapt(2656)) : de.delay(ma.SR, adapt(3163)) : (decay); yL = apf(ddiff1, adapt(672)) : de.delay(mymax, adapt(4453)) : lp1p(damp) : (decay) : apf(ddiff1, adapt(1800)) : de.delay(ma.SR, adapt(3720)); yR = apf(ddiff1, adapt(908)) : de.delay(mymax, adapt(4217)) : lp1p(damp) : (decay) : apf(ddiff2, adapt(2656)) : de.delay(ma.SR, adapt(3163)) : (decay); tank = (ro.cross(2),_,_ : _,ro.cross(2),_ : +,+ : yL, yR)~((decay),(decay)); //si.bus(s) dice che ci sono due canali e quindi raddoppia //ro.cross reindirizza i flussi cambiando la numerazione degli ingressi (più o meno una cosa del genere) dattorro = _ : de.delay(mymax, pdly) : lp1p(bw) : apf(idif1, adapt(142)) : apf(idif1, adapt(107)) : apf(idif2, adapt(379)) : apf(idif2, adapt(277)) <: tank; //modifica decay dopo l'uscita //process = fi.allpassnt(1, 1); //filtro allpass con topologia lattice //process = _ <: _(0.5),dattorro :>/(2); dw = 0.9; process = _ <: (_(1-dw) <: _,_),dattorroGroup : _,_,(dw),*(dw) :> _,_;	https://raw.githubusercontent.com/consba/2023-Musel21/33f82a0d4f4e24c5d333e3633dcd77fcab2df9c4/dattorro.dsp	faust	dattorroval : dattorrosr = x : sr funzione per l'adattamento dei valori * ma.SR / 29761 : int; slider guisr = vslider("Sample Rate[style:radio{'44100':0;'48000':1;'96000':2}]",0, 0, 2, 1); mymax = select3(guisr, 44100, 48000, 96000); si può impostare SR ma.sub inverte l'ordine degli operatori process = ba.pulsen(1, ma.SR) : apf; esternare oscillatore yL = apfm(ddiff1, adapt(672), exui) : de.delay(mymax, adapt(4453)) : lp1p(damp) : (decay) : apf(ddiff1, adapt(1800)) : de.delay(ma.SR, adapt(3720)); yR = apfm(ddiff1, adapt(908), exui) : de.delay(mymax, adapt(4217)) : lp1p(damp) : (decay) : apf(ddiff2, adapt(2656)) : de.delay(ma.SR, adapt(3163)) : (decay); si.bus(s) dice che ci sono due canali e quindi raddoppia ro.cross reindirizza i flussi cambiando la numerazione degli ingressi (più o meno una cosa del genere) modifica decay dopo l'uscita process = fi.allpassnt(1, 1); //filtro allpass con topologia lattice process = _ <: _(0.5),dattorro :>/(2);	declare name "Dattorro Reverb"; import("stdfaust.lib"); dattorroSr = 29761; mymax = 96000; decay = vslider("[1]decay", 0.5, 0, 1, 0.01) : si.smoo; dDgroup(x) = hgroup("[2]Decay diffusion", x); ddiff1 = dDgroup(vslider("1", 0.7, 0, 1, 0.01)); ddiff2 = dDgroup(vslider("2", 0.5, 0.25, 0.5, 0.01)); iDgroup(x) = hgroup("[3]Input diffusion", x); idif1 = iDgroup(vslider("1", 0.75, 0, 1, 0.001)); idif2 = iDgroup(vslider("2", 0.625, 0, 1, 0.001)); bw = vslider("[4]bandWidth", 0.7, 0, 0.9999999, 0.01); damp = 1-vslider("[5]damping", 0.0005, 0, 1, 0.0001); exgroup(x) = hgroup("[6]Excursion", x); oscRadio = exgroup(vslider("Osc[style:radio{'Sine':0;'Tri':1;'Sqare':2}]",0, 0, 2, 1)); oscS = select3(oscRadio,os.osc(1),os.triangle(1),os.square(1)); exui = exgroup(vslider("Amp", 16, 0, 100, 0.001)); dattorroGroup = hgroup("Dattorro Reverb", dattorro); lp1p(a) = _(a) : +~(1-a); apf(idif, t) = (ma.sub : ((idif) <: de.delay(mymax, t), _))~(idif) : +; yL = apf(ddiff1, adapt(672)) : de.delay(mymax, adapt(4453)) : lp1p(damp) : (decay) : apf(ddiff1, adapt(1800)) : de.delay(ma.SR, adapt(3720)); yR = apf(ddiff1, adapt(908)) : de.delay(mymax, adapt(4217)) : lp1p(damp) : (decay) : apf(ddiff2, adapt(2656)) : de.delay(ma.SR, adapt(3163)) : (decay); tank = (ro.cross(2),_,_ : _,ro.cross(2),_ : +,+ : yL, yR)~((decay),(decay)); dw = 0.9; process = _ <: (_(1-dw) <: _,_),dattorroGroup : _,_,(dw),(dw) :> _,_;
732fd4e0d2bc10c5ceaa54bbe4e6a4e1e771a8602e0f35079ea96746e494c104	JoaoSvidzinski/lorenz-dream	mTDelHarmo7E.dsp	//--------------------------------------------------------------------------------------// //-------------------------------mTDelHarmo7--------------------------------------------// // //-------------------------BY ALAIN BONARDI - 2015 - 2017-------------------------------// //--------------------------------------------------------------------------------------// //CHANGES //Doppler pitchshifters remains with 4 overlapped blocks //Maximum delay size in samples is now 1048576 (and no longer 2097152) //that is more than 21 seconds at 48 KHz import("stdfaust.lib"); //--------------------------------------------------------------------------------------// //GENERAL MATRIX// //--------------------------------------------------------------------------------------// //matrix of N x M toggles// // toggle(c, in) = checkbox("h:Lines/h:Reinjection_Matrix/v:Del%2c-->/r%3in"); Mixer(N,out) = par(in, N, (toggle(in, in+outN)) ) :> _ ; Matrix(N,M) = par(in, N, _) <: par(out, M, Mixer(N, out)); //--------------------------------------------------------------------------------------// tablesize = 1 << 16; sinustable = os.sinwaveform(tablesize); millisec = ma.SR / 1000.0; //--------------------------------------------------------------------------------------// //CONTROL PARAMETERS //--------------------------------------------------------------------------------------// //Size of the harmonizer window for Doppler effect// hWin(ind) = hslider("h:Lines/v:Windows/hWin%2ind", 64, 1, 127, 0.01) : pdLineDrive4096; //Duration of smoothing// smoothDuration = hslider("h:Global_Parameters/smoothDuration", 20, 10, 5000, 1)/1000; //Delay line parameters// d(ind) = int(hslider("h:Lines/v:Del_Durations/d%2ind", (100(ind+1)), 0, 21000, 1)millisechslider("h:Global_Parameters/dStretch [7]", 1, 0.01, 10, 0.01)); fd(ind) = hslider("h:Lines/v:Del_Feedbacks/fd%2ind", 0, 0, 0.99, 0.01):smoothLine; //Dispatching between harmonizer (1) and simple delay (0)// xvd(ind) = 0.5; hStretch(ind) = hslider("h:Lines/v:Stretch/hStretch%2ind", 1, -10, 10, 0.01); //Transposition in midicents// tr(ind) = hslider("h:Lines/v:Harmo_Transpositions/tr%2ind", 0, -2400, 2400, 1); //Input gains// //from 0 to 1// inp(ind) = hslider("h:Lines/v:Line_input/inp%2ind [5]", 1, 0, 1, 0.01):smoothLine; //OUTPUT GAINS// //from 0 to 1// out(ind) = hslider("h:Lines/v:Line_output/out%2ind [6]", 1, 0, 1, 0.01):smoothLine; //--------------------------------------------------------------------------------------// //FEEDBACK REINJECTION MATRICES N x N //--------------------------------------------------------------------------------------// fdMatrix(N) = Matrix(N, N); //--------------------------------------------------------------------------------------// //DEFINITION OF A SMOOTHING FUNCTION FOR CONTROLLERS //--------------------------------------------------------------------------------------// smoothLine = si.smooth(ba.tau2pole(smoothDuration)); //--------------------------------------------------------------------------------------// // GENERATORS //--------------------------------------------------------------------------------------// //--------------------------------------------------------------------------------------// // PHASOR THAT ACCEPTS BOTH NEGATIVE AND POSITIVE FREQUENCES //--------------------------------------------------------------------------------------// pdPhasor(f) = os.phasor(1, f); //--------------------------------------------------------------------------------------// // SINUS ENVELOPE //--------------------------------------------------------------------------------------// sinusEnvelop(phase) = s1 + d (s2 - s1) with { zeroToOnePhase = phase : ma.decimal; myIndex = zeroToOnePhase * float(tablesize); i1 = int(myIndex); d = ma.decimal(myIndex); i2 = (i1+1) % int(tablesize); s1 = rdtable(tablesize, sinustable, i1); s2 = rdtable(tablesize, sinustable, i2); }; //------------------------------------------------------------------------- // Implementation of Max/MSP line~. Generate signal ramp or envelope // // USAGE : line(value, time) // value : the desired output value // time : the interpolation time to reach this value (in milliseconds) // // NOTE : the interpolation process is restarted every time the desired // output value changes. The interpolation time is sampled only then. // // comes from the maxmsp.lib - no longer standard library // //------------------------------------------------------------------------- line (value, time) = state~(_,_):!,_ with { state (t, c) = nt, ba.if (nt <= 0, value, c+(value - c) / nt) with { nt = ba.if( value != value', samples, t-1); samples = timema.SR/1000.0; }; }; //--------------------------------------------------------------------------------------// //DEFINITION OF A PUREDATA LIKE LINEDRIVE OBJECT //--------------------------------------------------------------------------------------// pdLineDrive(vol, ti, r, f, b, t) = transitionLineDrive with { //vol = current volume in Midi (0-127) //ti = current time of evolution (in msec) //r is the range, usually Midi range (127) //f is the factor, usually 2 //b is the basis, usually 1.07177 //t is the ramp time usually 30 ms pre_val = ba.if (vol < r, vol, r); val = ba.if (pre_val < 1, 0, fpow(b, (pre_val - r))); pre_ti = ba.if (ti < 1.46, t, ti); transitionLineDrive = line(val, pre_ti); }; pdLineDrive4096 = (_, 30, 127, 4096, 1.07177, 30) : pdLineDrive; //--------------------------------------------------------------------------------------// //CLIP FUNCTION BETWEEN -1 AND 1 //--------------------------------------------------------------------------------------// clip(x) = (-1) * infTest + 1 * supTest + x * rangeTest with { infTest = (x < -1); supTest = (x > 1); rangeTest = (1 - infTest) * (1 - supTest); }; //--------------------------------------------------------------------------------------// //DOUBLE OVERLAPPED DELAY //--------------------------------------------------------------------------------------// // //nsamp is an integer number corresponding to the number of samples of delay //freq is the frequency of envelopping for the overlapping between the 2 delay lines //--------------------------------------------------------------------------------------// maxSampSize = 1048576; delay21s(nsamp) = de.delay(maxSampSize, nsamp); overlappedDoubleDelay21s(nsamp, freq) = doubleDelay with { env1 = freq : pdPhasor : sinusEnvelop : (0.5) : +(0.5); env1c = 1 - env1; th1 = (env1 > 0.001) (env1@1 <= 0.001); //env1 threshold crossing th2 = (env1c > 0.001) * (env1c@1 <= 0.001); //env1c threshold crossing nsamp1 = nsamp : ba.sAndH(th1); nsamp2 = nsamp : ba.sAndH(th2); doubleDelay = _ <: (delay21s(nsamp1), delay21s(nsamp2)) : ((env1), (env1c)) : + ; }; doubleDelay21s(nsamp) = overlappedDoubleDelay21s(nsamp, 30); //--------------------------------------------------------------------------------------// //DEFINITION OF AN ELEMENTARY TRANSPOSITION BLOCK //--------------------------------------------------------------------------------------// transpoBlock(moduleOffset, midicents, win) = dopplerDelay with { freq = midicents : +(6000) : (0.01) : ba.midikey2hz : -(261.625977) : (-3.8224) /(float(win)); //shifted phasor// adjustedPhasor = freq : pdPhasor : +(moduleOffset) : ma.decimal; //threshold to input new control values// th_trigger = (adjustedPhasor > 0.001) * (adjustedPhasor@1 <= 0.001); trig_win = win : ba.sAndH(th_trigger); delayInSamples = adjustedPhasor : (trig_win) : (millisec); variableDelay = de.fdelay(262144, delayInSamples); cosinusEnvelop = adjustedPhasor : (0.5) : sinusEnvelop; dopplerDelay = (variableDelay, cosinusEnvelop) : ; }; overlapped4Harmo(tra, win) = _ <: par(i, 4, transpoBlock(i/4, tra, win)) :> (0.5); overlapped4HarmoDryWet(tra, alpha, win) = _ <: ((alpha), (1-alpha)) : (overlapped4Harmo(tra, win), _) :> _ ; //--------------------------------------------------------------------------------------// //INPUT DISPATCHING //--------------------------------------------------------------------------------------// // //starting with 2n values sigA1, sigA2, ... sigAn, sigB1, sigB2, ... sigBn //the result is the vector sigA1, sigB1, sigA2, sigB2, ..., sigAn, sigBn //--------------------------------------------------------------------------------------// inputSort(n) = si.bus(2n) <: par(i, n, (ba.selector(i, 2n), ba.selector(i+n, 2n))); //--------------------------------------------------------------------------------------// //BLOCK DEFINITIONS //--------------------------------------------------------------------------------------// //delay block// DelBlock(n) = par(i, n, (+ : doubleDelay21s(d(i)))); //harmonizer block// HarmoBlock(n) = par(i, n, (clip : overlapped4HarmoDryWet(tr(i)hStretch(i), xvd(i), hWin(i)))); //delay and harmonizer block// DelHarmoBlock(n) = DelBlock(n) : HarmoBlock(n); //feedback block// fdBlock(n) = par(i, n, (fd(i) : (1 - xvd(i) 0.75))); //feedback and dispatching block// fdToMatrixBlock(n) = fdBlock(n) : fdMatrix(n); //n inlets with n gain controls// inputBlock(n) = par(i, n, (inp(i))); //output gain block with n gain controls// outputBlock(n) = par(i, n, (out(i))); //--------------------------------------------------------------------------------------// //MTAP PROCESSES //DELAY COMBINED WITH HARMONIZERS //--------------------------------------------------------------------------------------// // //mTDel(n) = n delay lines with reinjection //mTDelHarmo(n) = n {delay lines + harmonizers} with reinjection // //each of them with two possibilities: //-either autoReinj which means a delay line can reinject sound only into itself (A) //-or multReinj which means a delay line can reinject sound into any delay line (M) //--------------------------------------------------------------------------------------// mTDelA(n) = (inputSort(n) : DelBlock(n)) ~ (fdBlock(n)); mTDelHarmoA(n) = (inputSort(n) : DelHarmoBlock(n)) ~ (fdBlock(n)); mTDelM(n) = (inputSort(n) : DelBlock(n)) ~ (fdToMatrixBlock(n)); mTDelHarmoM(n) = (inputSort(n) : DelHarmoBlock(n)) ~ (fdToMatrixBlock(n)); //--------------------------------------------------------------------------------------// //DELAYS WITH HARMONIZERS mTDelHarmoMG(n) = inputBlock(n) : mTDelHarmoM(n) : outputBlock(n); //--------------------------------------------------------------------------------------// //PROCESS //--------------------------------------------------------------------------------------// process = mTDelHarmoMG(7);	https://raw.githubusercontent.com/JoaoSvidzinski/lorenz-dream/9d6014145d8101e92c34418f81c9be210650cf05/_Patch/Dep/mTDelHarmo7E/mTDelHarmo7E.dsp	faust	--------------------------------------------------------------------------------------// -------------------------------mTDelHarmo7--------------------------------------------// -------------------------BY ALAIN BONARDI - 2015 - 2017-------------------------------// --------------------------------------------------------------------------------------// CHANGES Doppler pitchshifters remains with 4 overlapped blocks Maximum delay size in samples is now 1048576 (and no longer 2097152) that is more than 21 seconds at 48 KHz --------------------------------------------------------------------------------------// GENERAL MATRIX// --------------------------------------------------------------------------------------// matrix of N x M toggles// --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// CONTROL PARAMETERS --------------------------------------------------------------------------------------// Size of the harmonizer window for Doppler effect// Duration of smoothing// Delay line parameters// Dispatching between harmonizer (1) and simple delay (0)// Transposition in midicents// Input gains// from 0 to 1// OUTPUT GAINS// from 0 to 1// --------------------------------------------------------------------------------------// FEEDBACK REINJECTION MATRICES N x N --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// DEFINITION OF A SMOOTHING FUNCTION FOR CONTROLLERS --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// GENERATORS --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// PHASOR THAT ACCEPTS BOTH NEGATIVE AND POSITIVE FREQUENCES --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// SINUS ENVELOPE --------------------------------------------------------------------------------------// ------------------------------------------------------------------------- Implementation of Max/MSP line~. Generate signal ramp or envelope USAGE : line(value, time) value : the desired output value time : the interpolation time to reach this value (in milliseconds) NOTE : the interpolation process is restarted every time the desired output value changes. The interpolation time is sampled only then. comes from the maxmsp.lib - no longer standard library ------------------------------------------------------------------------- --------------------------------------------------------------------------------------// DEFINITION OF A PUREDATA LIKE LINEDRIVE OBJECT --------------------------------------------------------------------------------------// vol = current volume in Midi (0-127) ti = current time of evolution (in msec) r is the range, usually Midi range (127) f is the factor, usually 2 b is the basis, usually 1.07177 t is the ramp time usually 30 ms --------------------------------------------------------------------------------------// CLIP FUNCTION BETWEEN -1 AND 1 --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// DOUBLE OVERLAPPED DELAY --------------------------------------------------------------------------------------// nsamp is an integer number corresponding to the number of samples of delay freq is the frequency of envelopping for the overlapping between the 2 delay lines --------------------------------------------------------------------------------------// env1 threshold crossing env1c threshold crossing --------------------------------------------------------------------------------------// DEFINITION OF AN ELEMENTARY TRANSPOSITION BLOCK --------------------------------------------------------------------------------------// shifted phasor// threshold to input new control values// --------------------------------------------------------------------------------------// INPUT DISPATCHING --------------------------------------------------------------------------------------// starting with 2n values sigA1, sigA2, ... sigAn, sigB1, sigB2, ... sigBn the result is the vector sigA1, sigB1, sigA2, sigB2, ..., sigAn, sigBn --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// BLOCK DEFINITIONS --------------------------------------------------------------------------------------// delay block// harmonizer block// delay and harmonizer block// feedback block// feedback and dispatching block// n inlets with n gain controls// output gain block with n gain controls// --------------------------------------------------------------------------------------// MTAP PROCESSES DELAY COMBINED WITH HARMONIZERS --------------------------------------------------------------------------------------// mTDel(n) = n delay lines with reinjection mTDelHarmo(n) = n {delay lines + harmonizers} with reinjection each of them with two possibilities: -either autoReinj which means a delay line can reinject sound only into itself (A) -or multReinj which means a delay line can reinject sound into any delay line (M) --------------------------------------------------------------------------------------// --------------------------------------------------------------------------------------// DELAYS WITH HARMONIZERS --------------------------------------------------------------------------------------// PROCESS --------------------------------------------------------------------------------------//	import("stdfaust.lib"); toggle(c, in) = checkbox("h:Lines/h:Reinjection_Matrix/v:Del%2c-->/r%3in"); Mixer(N,out) = par(in, N, (toggle(in, in+outN)) ) :> _ ; Matrix(N,M) = par(in, N, _) <: par(out, M, Mixer(N, out)); tablesize = 1 << 16; sinustable = os.sinwaveform(tablesize); millisec = ma.SR / 1000.0; hWin(ind) = hslider("h:Lines/v:Windows/hWin%2ind", 64, 1, 127, 0.01) : pdLineDrive4096; smoothDuration = hslider("h:Global_Parameters/smoothDuration", 20, 10, 5000, 1)/1000; d(ind) = int(hslider("h:Lines/v:Del_Durations/d%2ind", (100(ind+1)), 0, 21000, 1)millisechslider("h:Global_Parameters/dStretch [7]", 1, 0.01, 10, 0.01)); fd(ind) = hslider("h:Lines/v:Del_Feedbacks/fd%2ind", 0, 0, 0.99, 0.01):smoothLine; xvd(ind) = 0.5; hStretch(ind) = hslider("h:Lines/v:Stretch/hStretch%2ind", 1, -10, 10, 0.01); tr(ind) = hslider("h:Lines/v:Harmo_Transpositions/tr%2ind", 0, -2400, 2400, 1); inp(ind) = hslider("h:Lines/v:Line_input/inp%2ind [5]", 1, 0, 1, 0.01):smoothLine; out(ind) = hslider("h:Lines/v:Line_output/out%2ind [6]", 1, 0, 1, 0.01):smoothLine; fdMatrix(N) = Matrix(N, N); smoothLine = si.smooth(ba.tau2pole(smoothDuration)); pdPhasor(f) = os.phasor(1, f); sinusEnvelop(phase) = s1 + d (s2 - s1) with { zeroToOnePhase = phase : ma.decimal; myIndex = zeroToOnePhase * float(tablesize); i1 = int(myIndex); d = ma.decimal(myIndex); i2 = (i1+1) % int(tablesize); s1 = rdtable(tablesize, sinustable, i1); s2 = rdtable(tablesize, sinustable, i2); }; line (value, time) = state~(_,_):!,_ with { state (t, c) = nt, ba.if (nt <= 0, value, c+(value - c) / nt) with { nt = ba.if( value != value', samples, t-1); samples = timema.SR/1000.0; }; }; pdLineDrive(vol, ti, r, f, b, t) = transitionLineDrive with { pre_val = ba.if (vol < r, vol, r); val = ba.if (pre_val < 1, 0, fpow(b, (pre_val - r))); pre_ti = ba.if (ti < 1.46, t, ti); transitionLineDrive = line(val, pre_ti); }; pdLineDrive4096 = (_, 30, 127, 4096, 1.07177, 30) : pdLineDrive; clip(x) = (-1) * infTest + 1 * supTest + x * rangeTest with { infTest = (x < -1); supTest = (x > 1); rangeTest = (1 - infTest) * (1 - supTest); }; maxSampSize = 1048576; delay21s(nsamp) = de.delay(maxSampSize, nsamp); overlappedDoubleDelay21s(nsamp, freq) = doubleDelay with { env1 = freq : pdPhasor : sinusEnvelop : (0.5) : +(0.5); env1c = 1 - env1; nsamp1 = nsamp : ba.sAndH(th1); nsamp2 = nsamp : ba.sAndH(th2); doubleDelay = _ <: (delay21s(nsamp1), delay21s(nsamp2)) : ((env1), (env1c)) : + ; }; doubleDelay21s(nsamp) = overlappedDoubleDelay21s(nsamp, 30); transpoBlock(moduleOffset, midicents, win) = dopplerDelay with { freq = midicents : +(6000) : (0.01) : ba.midikey2hz : -(261.625977) : (-3.8224) /(float(win)); adjustedPhasor = freq : pdPhasor : +(moduleOffset) : ma.decimal; th_trigger = (adjustedPhasor > 0.001) (adjustedPhasor@1 <= 0.001); trig_win = win : ba.sAndH(th_trigger); delayInSamples = adjustedPhasor : (trig_win) : (millisec); variableDelay = de.fdelay(262144, delayInSamples); cosinusEnvelop = adjustedPhasor : (0.5) : sinusEnvelop; dopplerDelay = (variableDelay, cosinusEnvelop) : ; }; overlapped4Harmo(tra, win) = _ <: par(i, 4, transpoBlock(i/4, tra, win)) :> (0.5); overlapped4HarmoDryWet(tra, alpha, win) = _ <: ((alpha), (1-alpha)) : (overlapped4Harmo(tra, win), _) :> _ ; inputSort(n) = si.bus(2n) <: par(i, n, (ba.selector(i, 2n), ba.selector(i+n, 2n))); DelBlock(n) = par(i, n, (+ : doubleDelay21s(d(i)))); HarmoBlock(n) = par(i, n, (clip : overlapped4HarmoDryWet(tr(i)hStretch(i), xvd(i), hWin(i)))); DelHarmoBlock(n) = DelBlock(n) : HarmoBlock(n); fdBlock(n) = par(i, n, (fd(i) : (1 - xvd(i) 0.75))); fdToMatrixBlock(n) = fdBlock(n) : fdMatrix(n); inputBlock(n) = par(i, n, (inp(i))); outputBlock(n) = par(i, n, (out(i))); mTDelA(n) = (inputSort(n) : DelBlock(n)) ~ (fdBlock(n)); mTDelHarmoA(n) = (inputSort(n) : DelHarmoBlock(n)) ~ (fdBlock(n)); mTDelM(n) = (inputSort(n) : DelBlock(n)) ~ (fdToMatrixBlock(n)); mTDelHarmoM(n) = (inputSort(n) : DelHarmoBlock(n)) ~ (fdToMatrixBlock(n)); mTDelHarmoMG(n) = inputBlock(n) : mTDelHarmoM(n) : outputBlock(n); process = mTDelHarmoMG(7);
aa935666e73db97f39364d95cad9be5e7e7baf9d4266b099dc629bf16d904c1e	mygamingaccount/ghg-hydrophone-demo	ghg_compensator.dsp	declare name "GHG Compensator component"; import("stdfaust.lib"); // INPUT PARAMETERS // Number of hydrophone elements. // GHG had 2 groups of 24 hydrophones on each side nElements = 24; // Total length of a hydrophone group in meters. // A longer group improves low-frequency beam width but limits the highest usable frequency glen = 2.5; // Speed of sound in m/s for calculating the delay c = 1465; // Compensator created using a simple delay line // The Kriegsmarine stripline compensators used LC lowpass delay lines which had 17us group delay at DC. // At 48000Hz one sample gives us 20.83us delay. I expect the performance to be very similar. // TODO: Listening test at 58.8kHz sample rate to compare the performance of 17us vs 20.83us delays compensator = si.bus(nElements) : par(n, nElements, stripline_delay(n)) :> _; stripline_delay(n) = de.delay(maxdelay,strip_time) with { maxdelay = ma.SRglen/c; strip_time = maxdelay abs(cos(brg)) * index/nElements; index = nElements-n-1, n: select2(cos(brg)<0); brg = ghg_dial * ma.PI / 180; }; // For use with the Underwater Telegraph, a rectifier tube was added into the signal path according to the RN report on U-570 rectifier = _ <: _ , abs : select2(hslider("Rectifier[style:radio{'Off':0;'On':1}]",0,0,1,1)) : _; ghg_dial = hslider("Compensator bearing",0,-180,180,0.001); hplist = hslider( "Highpass[style:radio{'-':100;'500 Hz':500;'1000 Hz':1000;'3000 Hz':3000;'6000 Hz':6000;'10000 Hz':10000};]", 100,10,10000,1 ); highpass_switch = fi.highpass(8,hplist); // Demonstration process configured for 6 sound sources, 2 outputs for stereo listening. 2nd order highpass represents the process = _ <: compensator : rectifier : highpass_switch : fi.lowpass(10,7000) / nElements;	https://raw.githubusercontent.com/mygamingaccount/ghg-hydrophone-demo/9c114b55cfaf24f5a02a0bf4b2626b271015e2ea/ghg_compensator.dsp	faust	INPUT PARAMETERS Number of hydrophone elements. GHG had 2 groups of 24 hydrophones on each side Total length of a hydrophone group in meters. A longer group improves low-frequency beam width but limits the highest usable frequency Speed of sound in m/s for calculating the delay Compensator created using a simple delay line The Kriegsmarine stripline compensators used LC lowpass delay lines which had 17us group delay at DC. At 48000Hz one sample gives us 20.83us delay. I expect the performance to be very similar. TODO: Listening test at 58.8kHz sample rate to compare the performance of 17us vs 20.83us delays For use with the Underwater Telegraph, a rectifier tube was added into the signal path according to the RN report on U-570 Demonstration process configured for 6 sound sources, 2 outputs for stereo listening. 2nd order highpass represents the	declare name "GHG Compensator component"; import("stdfaust.lib"); nElements = 24; glen = 2.5; c = 1465; compensator = si.bus(nElements) : par(n, nElements, stripline_delay(n)) :> _; stripline_delay(n) = de.delay(maxdelay,strip_time) with { maxdelay = ma.SRglen/c; strip_time = maxdelay abs(cos(brg)) * index/nElements; index = nElements-n-1, n: select2(cos(brg)<0); brg = ghg_dial * ma.PI / 180; }; rectifier = _ <: _ , abs : select2(hslider("Rectifier[style:radio{'Off':0;'On':1}]",0,0,1,1)) : _; ghg_dial = hslider("Compensator bearing",0,-180,180,0.001); hplist = hslider( "Highpass[style:radio{'-':100;'500 Hz':500;'1000 Hz':1000;'3000 Hz':3000;'6000 Hz':6000;'10000 Hz':10000};]", 100,10,10000,1 ); highpass_switch = fi.highpass(8,hplist); process = _ <: compensator : rectifier : highpass_switch : fi.lowpass(10,7000) / nElements;
e8fe55b29c54480b733004ea09f2062a9a30518db9964559fb9f9b0227bf1346	mygamingaccount/ghg-hydrophone-demo	ghg_ship.dsp	declare name "GHG Hydrophone Contact rotator"; import("stdfaust.lib"); // INPUT PARAMETERS // Number of hydrophone elements. // GHG had 2 groups of 24 hydrophones on each side nElements = 24; // Total length of a hydrophone group in meters. // A longer group improves low-frequency beam width but limits the highest usable frequency glen = 2.5; // Speed of sound in m/s for calculating the delay c = 1465; // Attenuation in dB when the contact is in the bow or stern baffles or on the opposite side baffle_attenuation = ba.db2linear(-15); // Hydrophones pick up sound from contacts between 20°-160° on each side. 10° linear rolloff is used here. // Linear equation given two points: ax+b = (y2-y1)/(x2-x1)x + (x2y1-x1y2)/(x2-x1) contact = _ / nElements baffle <: par(h, nElements, one_hydrophone(h)) with { baffle = baffle_attenuation , // opposite side (a1brg)+b1 : select2((brg>=10) & (brg<20)), 1 : select2((brg>=20) & (brg<160)), (a2brg)+b2 : select2((brg>=160) & (brg<170)), baffle_attenuation : select2(brg>=170); a1 = (1-baffle_attenuation)/10; b1 = (20baffle_attenuation-10)/10; a2 = (baffle_attenuation-1)/10; b2 = (170-160baffle_attenuation)/10; brg = cbrgma.signum(ghg_dial); }; // Hydrophone contact rotator - delays the incoming signal depending on the bearing using fractional delay // Each hydrophone in the group is represented by a delay as the wavefront passes through the ship's hull // fdelay used here is two delays whose lengths are n, n+1, interpolated, which provides excellent resuls one_hydrophone(h) = de.fdelay(maxdelay_n, element_delay) with { maxdelay = ma.SRglen/c; maxdelay_n = maxdelay * (max(h, nElements-h-1) / nElements); // longest delay for each element element_delay = maxdelay * abs(cos(brg)) * (index / nElements); index = h, nElements-h-1 : select2(cos(brg)<0); // flip the delay line when contact is aft of the beam brg = cbrg * ma.PI / 180; // contact bearing off the bow in rads }; cbrg = hslider("Contact bearing",0,-180,180,0.001); // In this file, compensator bearing is only required for the baffle calculation ghg_dial = hslider("Compensator bearing",0,-180,180,0.001); process = contact;	https://raw.githubusercontent.com/mygamingaccount/ghg-hydrophone-demo/9c114b55cfaf24f5a02a0bf4b2626b271015e2ea/ghg_ship.dsp	faust	INPUT PARAMETERS Number of hydrophone elements. GHG had 2 groups of 24 hydrophones on each side Total length of a hydrophone group in meters. A longer group improves low-frequency beam width but limits the highest usable frequency Speed of sound in m/s for calculating the delay Attenuation in dB when the contact is in the bow or stern baffles or on the opposite side Hydrophones pick up sound from contacts between 20°-160° on each side. 10° linear rolloff is used here. Linear equation given two points: ax+b = (y2-y1)/(x2-x1)*x + (x2y1-x1y2)/(x2-x1) opposite side Hydrophone contact rotator - delays the incoming signal depending on the bearing using fractional delay Each hydrophone in the group is represented by a delay as the wavefront passes through the ship's hull fdelay used here is two delays whose lengths are n, n+1, interpolated, which provides excellent resuls longest delay for each element flip the delay line when contact is aft of the beam contact bearing off the bow in rads In this file, compensator bearing is only required for the baffle calculation	declare name "GHG Hydrophone Contact rotator"; import("stdfaust.lib"); nElements = 24; glen = 2.5; c = 1465; baffle_attenuation = ba.db2linear(-15); contact = _ / nElements * baffle <: par(h, nElements, one_hydrophone(h)) with { baffle = (a1brg)+b1 : select2((brg>=10) & (brg<20)), 1 : select2((brg>=20) & (brg<160)), (a2brg)+b2 : select2((brg>=160) & (brg<170)), baffle_attenuation : select2(brg>=170); a1 = (1-baffle_attenuation)/10; b1 = (20baffle_attenuation-10)/10; a2 = (baffle_attenuation-1)/10; b2 = (170-160baffle_attenuation)/10; brg = cbrgma.signum(ghg_dial); }; one_hydrophone(h) = de.fdelay(maxdelay_n, element_delay) with { maxdelay = ma.SRglen/c; element_delay = maxdelay * abs(cos(brg)) * (index / nElements); }; cbrg = hslider("Contact bearing",0,-180,180,0.001); ghg_dial = hslider("Compensator bearing",0,-180,180,0.001); process = contact;
2a679f173dd45cddcdd468d28a0b945af6d69a008dddd6bc7f90f54a8911399e	mygamingaccount/ghg-hydrophone-demo	ghg.dsp	declare name "GHG (Gruppenhörchgerät) Hydrophone Demo"; import("stdfaust.lib"); // INPUT PARAMETERS // Number of hydrophone elements. // GHG had 2 groups of 24 hydrophones on each side nElements = 24; // Total length of a hydrophone group in meters. // A longer group improves low-frequency beam width but limits the highest usable frequency glen = 2.5; // Speed of sound in m/s for calculating the delay c = 1465; // Hydrophone contacts (ships) nContacts = 6; // Attenuation in dB when the contact is in the bow or stern baffles or on the opposite side baffle_attenuation = ba.db2linear(-15); // GHG // Delay line emulating a GHG hydrophone group as it receives multiple simultaneous contacts ghg = par(cn, nContacts, contact(cn)) :> si.bus(nElements); // Hydrophones pick up sound from contacts between 20°-160° on each side. 10° linear rolloff is used here. // Linear equation given two points: ax+b = (y2-y1)/(x2-x1)x + (x2y1-x1y2)/(x2-x1) contact(cn) = _ / nElements baffle <: par(h, nElements, one_hydrophone(h,cn)) with { baffle = baffle_attenuation , // opposite side (a1brg)+b1 : select2((brg>=10) & (brg<20)), 1 : select2((brg>=20) & (brg<160)), (a2brg)+b2 : select2((brg>=160) & (brg<170)), baffle_attenuation : select2(brg>=170); a1 = (1-baffle_attenuation)/10; b1 = (20baffle_attenuation-10)/10; a2 = (baffle_attenuation-1)/10; b2 = (170-160baffle_attenuation)/10; brg = cbrg(cn)ma.signum(ghg_dial); }; // Hydrophone contact rotator - delays the incoming signal depending on the bearing using fractional delay // Each hydrophone in the group is represented by a delay as the wavefront passes through the ship's hull // fdelay used here is two delays whose lengths are n, n+1, interpolated, which provides excellent resuls one_hydrophone(h,cn) = de.fdelay(maxdelay_n, element_delay) with { maxdelay = ma.SRglen/c; maxdelay_n = maxdelay * (max(h, nElements-h-1) / nElements); // longest delay for each element element_delay = maxdelay * abs(cos(brg)) * (index / nElements); index = h, nElements-h-1 : select2(cos(brg)<0); // flip the delay line when contact is aft of the beam brg = cbrg(cn) * ma.PI / 180; // contact bearing off the bow in rads }; // Compensator created using a simple delay line // The Kriegsmarine stripline compensators used LC lowpass delay lines which had 17us group delay at DC. // At 48000Hz one sample gives us 20.83us delay. I expect the performance to be very similar. // TODO: Listening test at 58.8kHz sample rate to compare the performance of 17us vs 20.83us delays compensator = si.bus(nElements) : par(n, nElements, stripline_delay(n)) :> _; stripline_delay(n) = de.delay(maxdelay,strip_time) with { maxdelay = ma.SRglen/c; strip_time = maxdelay abs(cos(brg)) * index/nElements; index = nElements-n-1, n: select2(cos(brg)<0); brg = ghg_dial * ma.PI / 180; }; // For use with the Underwater Telegraph, a rectifier tube was added into the signal path according to the RN report on U-570 rectifier = _ <: _ , abs : select2(hgroup("Filters",hslider("Rectifier[style:radio{'Off':0;'On':1}]",0,0,1,1))) : _; // Noise with variable amplitude to simulate wave and wind noise from the surface wave_noise = (ba.db2linear(noise_constant_part) + ba.db2linear(noise_variable_part) * no.lfnoise(noise_wave_cutoff_hz)^2) // : hbargraph("Noise amplitude",0,0.2) * no.pink_noise : fi.lowpass(1,2500) : fi.highpass(1,1000) with { noise_constant_part = -30; noise_variable_part = -20; noise_wave_cutoff_hz = 1; }; // Contact bearing cbrg(i) = hgroup("Contacts", vslider("S%i[style:knob]",random_angle(i),-180,180,0.001)); ghg_dial = vgroup("Bearing", hslider("Coarse[unit:°]",0,-180,180,1) + hslider("Fine[unit:°]",0,-5,5,0.01) : si.smoo * (button("Port/Starboard")-2+1) ); hplist = hgroup("Filters", hslider( "Highpass[style:radio{'-':3001;'500 Hz':500;'1000 Hz':1000;'3000 Hz':3000;'6000 Hz':6000;'10000 Hz':10000};]", 3001,10,10000,1 ) ); highpass_switch = _ <: _, fi.highpass(8,hplist) : select2(hplist != 3001); // select2 otherwise it pops when you change the highpass parameters from lowest // randomise the starting bearing of the contacts random_angle = ((_+30)169691%(36013)-(18013))/13; // Demonstration process configured for 6 sound sources, 2 outputs for stereo listening. 2nd order highpass represents the process = si.bus(nContacts) : ghg : compensator + wave_noise : rectifier : fi.highpass(1,100) : highpass_switch : fi.lowpass(10,7000) <: _,_;	https://raw.githubusercontent.com/mygamingaccount/ghg-hydrophone-demo/cde0577171d9ecefc23b34eb403f35af197464bf/ghg.dsp	faust	INPUT PARAMETERS Number of hydrophone elements. GHG had 2 groups of 24 hydrophones on each side Total length of a hydrophone group in meters. A longer group improves low-frequency beam width but limits the highest usable frequency Speed of sound in m/s for calculating the delay Hydrophone contacts (ships) Attenuation in dB when the contact is in the bow or stern baffles or on the opposite side GHG Delay line emulating a GHG hydrophone group as it receives multiple simultaneous contacts Hydrophones pick up sound from contacts between 20°-160° on each side. 10° linear rolloff is used here. Linear equation given two points: ax+b = (y2-y1)/(x2-x1)*x + (x2y1-x1y2)/(x2-x1) opposite side Hydrophone contact rotator - delays the incoming signal depending on the bearing using fractional delay Each hydrophone in the group is represented by a delay as the wavefront passes through the ship's hull fdelay used here is two delays whose lengths are n, n+1, interpolated, which provides excellent resuls longest delay for each element flip the delay line when contact is aft of the beam contact bearing off the bow in rads Compensator created using a simple delay line The Kriegsmarine stripline compensators used LC lowpass delay lines which had 17us group delay at DC. At 48000Hz one sample gives us 20.83us delay. I expect the performance to be very similar. TODO: Listening test at 58.8kHz sample rate to compare the performance of 17us vs 20.83us delays For use with the Underwater Telegraph, a rectifier tube was added into the signal path according to the RN report on U-570 Noise with variable amplitude to simulate wave and wind noise from the surface : hbargraph("Noise amplitude",0,0.2) Contact bearing select2 otherwise it pops when you change the highpass parameters from lowest randomise the starting bearing of the contacts Demonstration process configured for 6 sound sources, 2 outputs for stereo listening. 2nd order highpass represents the	declare name "GHG (Gruppenhörchgerät) Hydrophone Demo"; import("stdfaust.lib"); nElements = 24; glen = 2.5; c = 1465; nContacts = 6; baffle_attenuation = ba.db2linear(-15); ghg = par(cn, nContacts, contact(cn)) :> si.bus(nElements); contact(cn) = _ / nElements * baffle <: par(h, nElements, one_hydrophone(h,cn)) with { baffle = (a1brg)+b1 : select2((brg>=10) & (brg<20)), 1 : select2((brg>=20) & (brg<160)), (a2brg)+b2 : select2((brg>=160) & (brg<170)), baffle_attenuation : select2(brg>=170); a1 = (1-baffle_attenuation)/10; b1 = (20baffle_attenuation-10)/10; a2 = (baffle_attenuation-1)/10; b2 = (170-160baffle_attenuation)/10; brg = cbrg(cn)ma.signum(ghg_dial); }; one_hydrophone(h,cn) = de.fdelay(maxdelay_n, element_delay) with { maxdelay = ma.SRglen/c; element_delay = maxdelay * abs(cos(brg)) * (index / nElements); }; compensator = si.bus(nElements) : par(n, nElements, stripline_delay(n)) :> _; stripline_delay(n) = de.delay(maxdelay,strip_time) with { maxdelay = ma.SRglen/c; strip_time = maxdelay abs(cos(brg)) * index/nElements; index = nElements-n-1, n: select2(cos(brg)<0); brg = ghg_dial * ma.PI / 180; }; rectifier = _ <: _ , abs : select2(hgroup("Filters",hslider("Rectifier[style:radio{'Off':0;'On':1}]",0,0,1,1))) : _; wave_noise = (ba.db2linear(noise_constant_part) + ba.db2linear(noise_variable_part) * no.pink_noise : fi.lowpass(1,2500) : fi.highpass(1,1000) with { noise_constant_part = -30; noise_variable_part = -20; noise_wave_cutoff_hz = 1; }; cbrg(i) = hgroup("Contacts", vslider("S%i[style:knob]",random_angle(i),-180,180,0.001)); ghg_dial = vgroup("Bearing", hslider("Coarse[unit:°]",0,-180,180,1) + hslider("Fine[unit:°]",0,-5,5,0.01) : si.smoo * (button("Port/Starboard")-2+1) ); hplist = hgroup("Filters", hslider( "Highpass[style:radio{'-':3001;'500 Hz':500;'1000 Hz':1000;'3000 Hz':3000;'6000 Hz':6000;'10000 Hz':10000};]", 3001,10,10000,1 ) ); random_angle = ((_+30)169691%(36013)-(18013))/13; process = si.bus(nContacts) : ghg : compensator + wave_noise : rectifier : fi.highpass(1,100) : highpass_switch : fi.lowpass(10,7000) <: _,_;
7c6f36b58bb4997a209d9f5ffee90a61a33ef01f9013f217804e4844b994f759	ljwall/er-301-units	DattorroPlusPlus.dsp	import("stdfaust.lib"); declare dattorro_rev_2 author "Jakob Zerbian, Liam Wall"; declare dattorro_rev_2 license "MIT-style STK-4.3 license"; dattorro_rev_2(pre_delay, bw, i_diff1, i_diff2, decay, d_diff1, d_diff2, damping) = si.bus(2) : + : (0.5) : predelay : bw_filter : diffusion_network : reverb_loop with { // allpass using delay with fixed size allpass_f(t, a) = (+ <: @(t),(a)) ~ (-a) : mem,_ : +; // allpass using delay with fixed size, and two extra taps allpass_f_taps(t, a, tap_1, tap_2) = (+ <: @(t),(a),@(tap_1),@(tap_2)) ~ (-a) : mem,_,_,_ : +,_,_; // allpass using delay with excursion allpass_exc(t, a, i) = (+ <: de.fdelayltv(2, t+20, t + 16ba.take(i, mods)),(a)) ~ (-a) : mem,_ : + with { epsilon = 0.00013; // Around 1Hz mods = y,yq letrec { 'yq = os.impulse + yq - epsilony; 'y = epsilon (yq - epsilon y) + y; }; }; // input pre-delay and diffusion predelay = de.delay(9600, pre_delay); bw_filter = (bw) : +~(mem : (1-bw)); diffusion_network = allpass_f(235, i_diff1) : allpass_f(177, i_diff1) : allpass_f(627, i_diff2) : allpass_f(458, i_diff2); damp = ((1-damping) : +~(damping) : (decay)), _,_; // /******* left output, all wet *****/ // [x] accumulator = 0.6 X node48_54[266] // [x] accumulator += 0.6 x node48_54[2974] // [x] accumulator -= 0.6 X node55_59[1913] // [x] accumulator += 0.6 X node59_63[1996] // [x] accumulator -= 0.6 X node24_30[1990] // [x] accumulator -= 0.6 x node31_33[187] // [x] YL = accumulator - 0.6 X node33_39[1066] // /***** right output, all wet ******/ // [x] accumulator = 0.6 X node24_30[353] // [x] accumulator += 0.6 X node24_30[3627] // [x] accumulator -= 0.6 X node31_33[1228] // [x] accumulator += 0.6 X node33_39[2673] // [x] accumulator -= 0.6 X node48_54[2111] // [x] accumulator -= 0.6 X node55_59[335] // [x] YR = accumulator - 0.6 X node59_63[121] // Contains node23_24 decay_diffusion_1a = allpass_exc(1112,-d_diff1, 1),_,_; // node24_30 z_4453 = (_ <: @(7370), @(3293), @(584), @(6003) : _,_,+ : _,(-0.6),(0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; // Contains node31_33 decay_diffusion_2a = (allpass_f_taps(2979, d_diff2, 309, 2032) : _,(-0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; // node33_39 z_3720 = (_ <: @(6157), @(1764), @(4424) : _,(-0.6),(0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; // Contains node46_48 decay_diffusion_1b = allpass_exc(1502,-d_diff1, 2),_,_; // node48_54 z_4217 = (_ <: @(6979), @(440), @(4922), @(3494) : _,+,_ : _,(0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; // Contains node55_59 decay_diffusion_2b = (allpass_f_taps(4396, d_diff2, 3166, 554): _,(-0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; // node59_63 z_3163 = (_ <: @(5235), @(3303), @(200) : _,(0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+ ; // Three channels: (1) is the output to loop, (2) is Left, and (3) is right. reverb_chain(loop_in, in) = (loop_in+in) <: (_,_,_) : decay_diffusion_1a : z_4453 : damp : decay_diffusion_2a : z_3720 : ((decay),_,_) : (+(in),_,_) : decay_diffusion_1b : z_4217 : damp : decay_diffusion_2b : z_3163 : ((decay),_,_); reverb_loop = reverb_chain~_ : (si.block(1),_,_); }; // Dattorro reverb with difusion parameters as per https://ccrma.stanford.edu/~dattorro/EffectDesignPart1.pdf reverb(pre_delay, band_width, decay, damping) = dattorro_rev_2(pre_delay, band_width, 0.75, 0.625, decay, 0.7, 0.5, damping); // Contols (will become parameters in the er-301 object) pre_delay_ctrl = hslider("Predelay", 10, 0, 100, 0.5) : /(1000) : ba.sec2samp; band_width_ctrl = hslider("BandWidth", 0.6, 0, 1, 0.001) : si.smoo; decay_ctrl = hslider("Decay", 0.8, 0, 1, 0.001) : si.smoo; damping_ctr = hslider("Damping", 0.25, 0, 1, 0.001) : si.smoo; dry_wet_ctr = hslider("DryWet", 0.25, 0, 1, 0.001) : si.smoo; dry_wet_mix(mix, dry_l, dry_r, wet_l, wet_r) = (1-mix) dry_l, (1-mix) * dry_r, mix * wet_l, mix * wet_r :> _,_; // Name the ins and outs of the `process` function for use in the er-301 object declare er301_in1 "InL"; declare er301_in2 "InR"; declare er301_out1 "OutL"; declare er301_out2 "OutR"; process = _,_ <: _,_,reverb(pre_delay_ctrl, band_width_ctrl, decay_ctrl, damping_ctr): dry_wet_mix(dry_wet_ctr);	https://raw.githubusercontent.com/ljwall/er-301-units/53b3040a4b9b85a573d1161d26309d74a30f36e5/faustian/dsp/DattorroPlusPlus.dsp	faust	allpass using delay with fixed size allpass using delay with fixed size, and two extra taps allpass using delay with excursion Around 1Hz input pre-delay and diffusion /******* left output, all wet *****/ [x] accumulator = 0.6 X node48_54[266] [x] accumulator += 0.6 x node48_54[2974] [x] accumulator -= 0.6 X node55_59[1913] [x] accumulator += 0.6 X node59_63[1996] [x] accumulator -= 0.6 X node24_30[1990] [x] accumulator -= 0.6 x node31_33[187] [x] YL = accumulator - 0.6 X node33_39[1066] /***** right output, all wet *******/ [x] accumulator = 0.6 X node24_30[353] [x] accumulator += 0.6 X node24_30[3627] [x] accumulator -= 0.6 X node31_33[1228] [x] accumulator += 0.6 X node33_39[2673] [x] accumulator -= 0.6 X node48_54[2111] [x] accumulator -= 0.6 X node55_59[335] [x] YR = accumulator - 0.6 X node59_63[121] Contains node23_24 node24_30 Contains node31_33 node33_39 Contains node46_48 node48_54 Contains node55_59 node59_63 Three channels: (1) is the output to loop, (2) is Left, and (3) is right. Dattorro reverb with difusion parameters as per https://ccrma.stanford.edu/~dattorro/EffectDesignPart1.pdf Contols (will become parameters in the er-301 object) Name the ins and outs of the `process` function for use in the er-301 object	import("stdfaust.lib"); declare dattorro_rev_2 author "Jakob Zerbian, Liam Wall"; declare dattorro_rev_2 license "MIT-style STK-4.3 license"; dattorro_rev_2(pre_delay, bw, i_diff1, i_diff2, decay, d_diff1, d_diff2, damping) = si.bus(2) : + : (0.5) : predelay : bw_filter : diffusion_network : reverb_loop with { allpass_f(t, a) = (+ <: @(t),(a)) ~ (-a) : mem,_ : +; allpass_f_taps(t, a, tap_1, tap_2) = (+ <: @(t),(a),@(tap_1),@(tap_2)) ~ (-a) : mem,_,_,_ : +,_,_; allpass_exc(t, a, i) = (+ <: de.fdelayltv(2, t+20, t + 16ba.take(i, mods)),(a)) ~ (-a) : mem,_ : + with { mods = y,yq letrec { 'yq = os.impulse + yq - epsilony; 'y = epsilon (yq - epsilon y) + y; }; }; predelay = de.delay(9600, pre_delay); bw_filter = (bw) : +~(mem : (1-bw)); diffusion_network = allpass_f(235, i_diff1) : allpass_f(177, i_diff1) : allpass_f(627, i_diff2) : allpass_f(458, i_diff2); damp = ((1-damping) : +~(damping) : (decay)), _,_; decay_diffusion_1a = allpass_exc(1112,-d_diff1, 1),_,_; z_4453 = (_ <: @(7370), @(3293), @(584), @(6003) : _,_,+ : _,(-0.6),(0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; decay_diffusion_2a = (allpass_f_taps(2979, d_diff2, 309, 2032) : _,(-0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; z_3720 = (_ <: @(6157), @(1764), @(4424) : _,(-0.6),(0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; decay_diffusion_1b = allpass_exc(1502,-d_diff1, 2),_,_; z_4217 = (_ <: @(6979), @(440), @(4922), @(3494) : _,+,_ : _,(0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; decay_diffusion_2b = (allpass_f_taps(4396, d_diff2, 3166, 554): _,(-0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+; z_3163 = (_ <: @(5235), @(3303), @(200) : _,(0.6),(-0.6)),_,_ : _,_,ro.cross(2),_ : _,+,+ ; reverb_chain(loop_in, in) = (loop_in+in) <: (_,_,_) : decay_diffusion_1a : z_4453 : damp : decay_diffusion_2a : z_3720 : ((decay),_,_) : (+(in),_,_) : decay_diffusion_1b : z_4217 : damp : decay_diffusion_2b : z_3163 : ((decay),_,_); reverb_loop = reverb_chain~_ : (si.block(1),_,_); }; reverb(pre_delay, band_width, decay, damping) = dattorro_rev_2(pre_delay, band_width, 0.75, 0.625, decay, 0.7, 0.5, damping); pre_delay_ctrl = hslider("Predelay", 10, 0, 100, 0.5) : /(1000) : ba.sec2samp; band_width_ctrl = hslider("BandWidth", 0.6, 0, 1, 0.001) : si.smoo; decay_ctrl = hslider("Decay", 0.8, 0, 1, 0.001) : si.smoo; damping_ctr = hslider("Damping", 0.25, 0, 1, 0.001) : si.smoo; dry_wet_ctr = hslider("DryWet", 0.25, 0, 1, 0.001) : si.smoo; dry_wet_mix(mix, dry_l, dry_r, wet_l, wet_r) = (1-mix) * dry_l, (1-mix) * dry_r, mix * wet_l, mix * wet_r :> _,_; declare er301_in1 "InL"; declare er301_in2 "InR"; declare er301_out1 "OutL"; declare er301_out2 "OutR"; process = _,_ <: _,_,reverb(pre_delay_ctrl, band_width_ctrl, decay_ctrl, damping_ctr): dry_wet_mix(dry_wet_ctr);
ee9e26db0692ede688982aedc41d360853032bcebebc28d3817b8bf60b35de78	jpcima/hera-parts	dco.dsp	declare author "Jean Pierre Cimalando"; declare license "GPL-3.0"; // Converted from original at pendragon-andyh/junox import("stdfaust.lib"); process = dco(f, pw, lsaw, lpulse, lsub) with { f = hslider("[1] pitch", 24, 0, 127, 1) : ba.midikey2hz : si.smoo; pw = hslider("[2] pulse width", 0.5, 0.0, 1.0, 0.01) : si.smoo; lsaw = hslider("[3] saw level", 0.15, 0.0, 0.3, 0.01) : si.smoo; lpulse = hslider("[4] pulse level", 0.0, 0.0, 0.3, 0.01) : si.smoo; lsub = hslider("[4] sub level", 0.0, 0.0, 0.3, 0.01) : si.smoo; }; /// dco(frequency, pulseWidth, sawLevel, pulseLevel, subLevel) = sawOut+pulseOut+subOut with { sawOut = saw(frequency)sawLevel; pulseOut = pulse(pulseWidth, frequency)pulseLevel; subOut = sub(frequency)subLevel; }; /// saw(f) = (2wrap(phase)-1.0)-polyBLEP2(wrap(phase), inc(f), 1.0) letrec { 'phase = wrap(phase)+inc(f); }; /// pulse(w, f) = ba.if(pos, ppos, pneg)-nblep+pblep with { nblep = polyBLEP2(wrap(phase), inc(f), ph); pblep = polyBLEP2(ba.if(x<0.0, x+1.0, x), inc(f), ph) with { x = wrap(phase)-pw; }; } letrec { 'ppos = ba.if(tr, 1.0-w0.95, ba.if(pos, ppospole, ppos)); 'pneg = ba.if(tr, -1.0, ba.if(pos, pneg, pnegpole)); 'ph = ba.if(tr, 0.45(2.0-w0.95), ph); } with { pos = wrap(phase)>pw; pole = ba.tau2pole(10e-3); } letrec { 'pw = ba.if(tr, 0.5-0.45w, pw); } with { tr = phase>=1.0; } letrec { 'phase = wrap(phase)+inc(f); }; /// sub(f) = out-blep with { blep = polyBLEP2(y, inc(f), out'pole); } letrec { 'out = ba.if(tr, ba.if(out>0.0, -1.0, 1.0), outpole); } with { y = ba.if(z<0.0, z+1.0, z) with { z = wrap(phase)-0.5; }; pole = ba.tau2pole(10e-3); tr = (wrap(phase')<0.5)&(wrap(phase)>=0.5); } letrec { 'phase = wrap(phase)+inc(f); }; /// polyBLEP2(phase, inc, height) = heightba.if(phase<inc, right, ba.if(phase+inc>1.0, left, 0.0)) with { right = (t+t-tt-1.0) with { t = phase/inc; }; left = (tt+(t+t)+1.0) with { t = (phase-1.0)/inc; }; }; / -gnuplot- r(t) = t+t-tt-1.0 l(t) = tt+(t+t)+1.0 polyBLEP2(p, i) = (p<i)?r(p/i):(p+i>1.0)?l((p-1.0)/i):0.0 / /// inc(f) = f(1.0/ma.SR); wrap(x) = x-int(x);	https://raw.githubusercontent.com/jpcima/hera-parts/26fd7cccd7f3b9b3009f8436a6ccc49e16987577/dco.dsp	faust	Converted from original at pendragon-andyh/junox / / / / / -gnuplot- r(t) = t+t-tt-1.0 l(t) = tt+(t+t)+1.0 polyBLEP2(p, i) = (p<i)?r(p/i):(p+i>1.0)?l((p-1.0)/i):0.0 /	declare author "Jean Pierre Cimalando"; declare license "GPL-3.0"; import("stdfaust.lib"); process = dco(f, pw, lsaw, lpulse, lsub) with { f = hslider("[1] pitch", 24, 0, 127, 1) : ba.midikey2hz : si.smoo; pw = hslider("[2] pulse width", 0.5, 0.0, 1.0, 0.01) : si.smoo; lsaw = hslider("[3] saw level", 0.15, 0.0, 0.3, 0.01) : si.smoo; lpulse = hslider("[4] pulse level", 0.0, 0.0, 0.3, 0.01) : si.smoo; lsub = hslider("[4] sub level", 0.0, 0.0, 0.3, 0.01) : si.smoo; }; dco(frequency, pulseWidth, sawLevel, pulseLevel, subLevel) = sawOut+pulseOut+subOut with { sawOut = saw(frequency)sawLevel; pulseOut = pulse(pulseWidth, frequency)pulseLevel; subOut = sub(frequency)subLevel; }; saw(f) = (2wrap(phase)-1.0)-polyBLEP2(wrap(phase), inc(f), 1.0) letrec { 'phase = wrap(phase)+inc(f); }; pulse(w, f) = ba.if(pos, ppos, pneg)-nblep+pblep with { nblep = polyBLEP2(wrap(phase), inc(f), ph); pblep = polyBLEP2(ba.if(x<0.0, x+1.0, x), inc(f), ph) with { x = wrap(phase)-pw; }; } letrec { 'ppos = ba.if(tr, 1.0-w0.95, ba.if(pos, ppospole, ppos)); 'pneg = ba.if(tr, -1.0, ba.if(pos, pneg, pnegpole)); 'ph = ba.if(tr, 0.45(2.0-w0.95), ph); } with { pos = wrap(phase)>pw; pole = ba.tau2pole(10e-3); } letrec { 'pw = ba.if(tr, 0.5-0.45w, pw); } with { tr = phase>=1.0; } letrec { 'phase = wrap(phase)+inc(f); }; sub(f) = out-blep with { blep = polyBLEP2(y, inc(f), out'pole); } letrec { 'out = ba.if(tr, ba.if(out>0.0, -1.0, 1.0), outpole); } with { y = ba.if(z<0.0, z+1.0, z) with { z = wrap(phase)-0.5; }; pole = ba.tau2pole(10e-3); tr = (wrap(phase')<0.5)&(wrap(phase)>=0.5); } letrec { 'phase = wrap(phase)+inc(f); }; polyBLEP2(phase, inc, height) = heightba.if(phase<inc, right, ba.if(phase+inc>1.0, left, 0.0)) with { right = (t+t-tt-1.0) with { t = phase/inc; }; left = (tt+(t+t)+1.0) with { t = (phase-1.0)/inc; }; }; inc(f) = f(1.0/ma.SR); wrap(x) = x-int(x);
b5b4da6bfa8084d921acda34c053b7fa0acebef699aa6f5f2d1613dfdc0a868d	jpcima/rc-effect-playground	chorus_advanced.dsp	import("stdfaust.lib"); bypass = checkbox("[1] Bypass"); lfoRate = hslider("[2] LFO rate [unit:Hz] [scale:log]", 0.5, 0.1, 20., 0.01) : smooth; lfoShape = hslider("[3] LFO shape", 0., 0., 1., 0.01) : smooth; lfoPhase = hslider("[4] LFO phase [unit:deg]", 180., 0., 360., 1.) : /(360.) : smooth; delayMin = hslider("[5] Delay domain 1 [unit:ms]", 1.54, 0.5, 10, 0.01) : (1e-3) : smooth; delayMax = hslider("[6] Delay domain 2 [unit:ms]", 5.15, 0.5, 10, 0.01) : (1e-3) : smooth; directGain = ba.db2linear(-1.62); effectGain = hslider("[7] Presence [unit:dB]", 0., -10., 10., 0.1) : ba.db2linear : smooth; process(x) = par(n, 2, ((out(n), x) : si.interpolate(bypass : smooth))) with { out(n) = x <: (_, lineModulated(n)) : mix; mix = ((directGain), (effectGain)) :> +; /* LFO / lfoPosition(0) = phasor01(lfoRate); lfoPosition(1) = wrap(lfoPosition(0) + lfoPhase); lfo(n) = lfoWave(lfoShape, lfoPosition(n)); / Delay / line(0) = ffunction(float AnalogDelay1(float, float), <math.h>, ""); line(1) = ffunction(float AnalogDelay2(float, float), <math.h>, ""); lineModulated(n) = line(n, lfo(n) : delayAt); delayAt = (delayMax - delayMin) : +(delayMin); }; //////////////////////////////////////////// // Smooth filter with fixed time constant // //////////////////////////////////////////// smooth = si.smooth(ba.tau2pole(tau)) with { tau = 100e-3; }; //////////////////// // Multi-wave LFO // //////////////////// // w=0: triangle, w=0.5: sine-triangle, w=1: sine lfoWave(w, p) = ba.if(p<0.5, firstHalf(p), secondHalf(p)) with { firstHalf(p) = (triangle(p), sine(p)) : si.interpolate((2.w) : min(1.)); secondHalf(p) = (triangle(p), sine(p)) : si.interpolate(w); triangle(p) = rdtable(tablesize, triwaveform01(tablesize), int(ptablesize)%tablesize); sine(p) = rdtable(tablesize, sinwaveform01(tablesize), int(ptablesize)%tablesize); tablesize = 1<<16; }; /////////////// // Waveforms // /////////////// triwaveform(tablesize) = ba.if(p<0.25, 4p, ba.if(p<0.75, -4p+2, 4p-4)) with { p = float(ba.time)/float(tablesize); }; triwaveform01(tablesize) = triwaveform(tablesize) : +(1.) : (0.5); sinwaveform01(tablesize) = os.sinwaveform(tablesize) : +(1.) : (0.5); ///////////////////// // Phase generator // ///////////////////// phasor01(f) = p letrec { 'p = wrap(p+f/ma.SR); }; ///////////// // Utility // ///////////// wrap(p) = p-int(p);	https://raw.githubusercontent.com/jpcima/rc-effect-playground/3375323d8616cbfc73c9701a3765f738d574c460/sources/chorus_advanced.dsp	faust	LFO Delay ////////////////////////////////////////// Smooth filter with fixed time constant // ////////////////////////////////////////// ////////////////// Multi-wave LFO // ////////////////// w=0: triangle, w=0.5: sine-triangle, w=1: sine ///////////// Waveforms // ///////////// /////////////////// Phase generator // /////////////////// /////////// Utility // ///////////	import("stdfaust.lib"); bypass = checkbox("[1] Bypass"); lfoRate = hslider("[2] LFO rate [unit:Hz] [scale:log]", 0.5, 0.1, 20., 0.01) : smooth; lfoShape = hslider("[3] LFO shape", 0., 0., 1., 0.01) : smooth; lfoPhase = hslider("[4] LFO phase [unit:deg]", 180., 0., 360., 1.) : /(360.) : smooth; delayMin = hslider("[5] Delay domain 1 [unit:ms]", 1.54, 0.5, 10, 0.01) : (1e-3) : smooth; delayMax = hslider("[6] Delay domain 2 [unit:ms]", 5.15, 0.5, 10, 0.01) : (1e-3) : smooth; directGain = ba.db2linear(-1.62); effectGain = hslider("[7] Presence [unit:dB]", 0., -10., 10., 0.1) : ba.db2linear : smooth; process(x) = par(n, 2, ((out(n), x) : si.interpolate(bypass : smooth))) with { out(n) = x <: (_, lineModulated(n)) : mix; mix = ((directGain), (effectGain)) :> +; lfoPosition(0) = phasor01(lfoRate); lfoPosition(1) = wrap(lfoPosition(0) + lfoPhase); lfo(n) = lfoWave(lfoShape, lfoPosition(n)); line(0) = ffunction(float AnalogDelay1(float, float), <math.h>, ""); line(1) = ffunction(float AnalogDelay2(float, float), <math.h>, ""); lineModulated(n) = line(n, lfo(n) : delayAt); delayAt = (delayMax - delayMin) : +(delayMin); }; smooth = si.smooth(ba.tau2pole(tau)) with { tau = 100e-3; }; lfoWave(w, p) = ba.if(p<0.5, firstHalf(p), secondHalf(p)) with { firstHalf(p) = (triangle(p), sine(p)) : si.interpolate((2.w) : min(1.)); secondHalf(p) = (triangle(p), sine(p)) : si.interpolate(w); triangle(p) = rdtable(tablesize, triwaveform01(tablesize), int(ptablesize)%tablesize); sine(p) = rdtable(tablesize, sinwaveform01(tablesize), int(ptablesize)%tablesize); tablesize = 1<<16; }; triwaveform(tablesize) = ba.if(p<0.25, 4p, ba.if(p<0.75, -4p+2, 4p-4)) with { p = float(ba.time)/float(tablesize); }; triwaveform01(tablesize) = triwaveform(tablesize) : +(1.) : (0.5); sinwaveform01(tablesize) = os.sinwaveform(tablesize) : +(1.) : *(0.5); phasor01(f) = p letrec { 'p = wrap(p+f/ma.SR); }; wrap(p) = p-int(p);
0542743828a0fe90e41e712361ca9dec4ef6a015c353d815e306735b3ce63d5b	jpcima/string-machine	LFO3PhaseDual.dsp	import("stdfaust.lib"); process = lfo.output with { numPhases = 3; lfo = lfoDual(numPhases, f1, f2, d1, d2, ctl.pout1, ctl.pout2); ctl = environment { f1 = hslider("[1] Rate 1 [symbol:rate1] [unit:Hz]", 6.0, 3.0, 9.0, 0.01); d1 = hslider("[2] Depth 1 [symbol:depth1] [unit:%]", 50, 0, 100, 1); f2 = hslider("[3] Rate 2 [symbol:rate2] [unit:Hz]", 0.6, 0.3, 0.9, 0.01); d2 = hslider("[4] Depth 2 [symbol:depth2] [unit:%]", 50, 0, 100, 1); gd = hslider("[5] Global Depth [symbol:globaldepth] [unit:%]", 100, 0, 100, 1); pout1 = vbargraph("[6] Phase 1 [symbol:phase1]", 0.0, 1.0); pout2 = vbargraph("[7] Phase 2 [symbol:phase2]", 0.0, 1.0); }; f1 = ctl.f1 : tsmooth; f2 = ctl.f2 : tsmooth; d1 = (ctl.d1 * ctl.gd * 0.0001) : tsmooth; d2 = (ctl.d2 * ctl.gd * 0.0001) : tsmooth; }; tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; lfoDual(N, f1, f2, d1, d2, pout1, pout2) = environment { row1 = lfoRow(N, f1, d1); row2 = lfoRow(N, f2, d2); output = par(i, N, row1LfoOutput(i) + row2LfoOutput(i)); row1LfoOutput(i) = attach(row1.lfos(i), row1.phases(0) : pout1); row2LfoOutput(i) = attach(row2.lfos(i), row2.phases(0) : pout2); }; lfoRow(N, f, d) = environment { phases(i) = phasor(f) : +(startPhases(i)) : wrap; startPhases(i) = float(i)/float(N); lfos(i) = phases(i) : wave : (d); wave = smallTableSin; //wave = approxSin; }; phasor(f) = p letrec { 'p = wrap(p + f/ma.SR); }; wrap = _ <: (_, int) :> -; sqr = _ <: (_, _) :> ; approxSin(pos) = 1.0-2.0(sqr(sqr(wrap(pos+root)2.0-1.0)-1.0)) with { root = 0.25(2.0+sqrt(4.0-2.0sqrt(2.0))); }; smallTableSin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, os.sinwaveform(ts), i); }; lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = pos*size; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); };	https://raw.githubusercontent.com/jpcima/string-machine/188082dd0beb9a3c341035604841c53675fe66c4/sources/dsp/LFO3PhaseDual.dsp	faust	wave = approxSin;	import("stdfaust.lib"); process = lfo.output with { numPhases = 3; lfo = lfoDual(numPhases, f1, f2, d1, d2, ctl.pout1, ctl.pout2); ctl = environment { f1 = hslider("[1] Rate 1 [symbol:rate1] [unit:Hz]", 6.0, 3.0, 9.0, 0.01); d1 = hslider("[2] Depth 1 [symbol:depth1] [unit:%]", 50, 0, 100, 1); f2 = hslider("[3] Rate 2 [symbol:rate2] [unit:Hz]", 0.6, 0.3, 0.9, 0.01); d2 = hslider("[4] Depth 2 [symbol:depth2] [unit:%]", 50, 0, 100, 1); gd = hslider("[5] Global Depth [symbol:globaldepth] [unit:%]", 100, 0, 100, 1); pout1 = vbargraph("[6] Phase 1 [symbol:phase1]", 0.0, 1.0); pout2 = vbargraph("[7] Phase 2 [symbol:phase2]", 0.0, 1.0); }; f1 = ctl.f1 : tsmooth; f2 = ctl.f2 : tsmooth; d1 = (ctl.d1 * ctl.gd * 0.0001) : tsmooth; d2 = (ctl.d2 * ctl.gd * 0.0001) : tsmooth; }; tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; lfoDual(N, f1, f2, d1, d2, pout1, pout2) = environment { row1 = lfoRow(N, f1, d1); row2 = lfoRow(N, f2, d2); output = par(i, N, row1LfoOutput(i) + row2LfoOutput(i)); row1LfoOutput(i) = attach(row1.lfos(i), row1.phases(0) : pout1); row2LfoOutput(i) = attach(row2.lfos(i), row2.phases(0) : pout2); }; lfoRow(N, f, d) = environment { phases(i) = phasor(f) : +(startPhases(i)) : wrap; startPhases(i) = float(i)/float(N); lfos(i) = phases(i) : wave : (d); wave = smallTableSin; }; phasor(f) = p letrec { 'p = wrap(p + f/ma.SR); }; wrap = _ <: (_, int) :> -; sqr = _ <: (_, _) :> ; approxSin(pos) = 1.0-2.0(sqr(sqr(wrap(pos+root)2.0-1.0)-1.0)) with { root = 0.25(2.0+sqrt(4.0-2.0sqrt(2.0))); }; smallTableSin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, os.sinwaveform(ts), i); }; lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = pos*size; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); };
22eceff28ff6898f780de3e6fc39dbd6abdfcd08c55a336de6a1ff1c06562358	jpcima/rc-effect-playground	chorus3.dsp	import("stdfaust.lib"); buttonI = checkbox("[1] Chorus (I)") : !=(0); buttonII = checkbox("[2] Chorus (II)") : !=(0); process = chorus with { /* Mode: 0=Off 1=(I), 2=(II), 3=(I + II) / mode = buttonI \| (buttonII << 1); enabled = mode != 0; selectByMode = ba.selectn(3, mode-1); / (I) / I = environment { lfoRate = 0.513; lfoShape = 0; / triangle / delaymin = 1.66e-3; delaymax = 5.35e-3; stereo = 1; }; / (II) / II = environment { lfoRate = 0.863; lfoShape = 0; / triangle / delaymin = 1.66e-3; delaymax = 5.35e-3; stereo = 1; }; / (I + II) / III = environment { lfoRate = 9.75; / by ear and experiment / // found in documents and not matching the Juno60 sample: // 15.175 Hz (too fast), 8 Hz (too slow) lfoShape = 1; / sine-like / delaymin = 3.22e-3; delaymax = 3.56e-3; stereo = 0; }; // s = environment { lfoRate = (I.lfoRate, II.lfoRate, III.lfoRate) : selectByMode : smooth; lfoShape = (I.lfoShape, II.lfoShape, III.lfoShape) : selectByMode : smooth; delaymin = (I.delaymin, II.delaymin, III.delaymin) : selectByMode : smooth; delaymax = (I.delaymax, II.delaymax, III.delaymax) : selectByMode : smooth; stereo = (I.stereo, II.stereo, III.stereo) : selectByMode : smooth; }; // chorus(x) = ((x, out1) : si.interpolate(enabled : smooth)), ((x, out2) : si.interpolate(enabled : smooth)) with { out1 = x <: (_, line(lfo1)) :> + : (mixAttenuation); out2 = x <: (_, line(lfo2)) :> + : (mixAttenuation); mixAttenuation = 1./sqrt(2.); / Capacity of delay / delaycap = 10e-3; // seconds, must be >> delay time delaycapframes = int(ceil(delaycap ma.SR)); // frames, rounded up /* LFO / rawLfo = (triangle, sine) : si.interpolate(s.lfoShape) with { triangle = os.lf_trianglepos(s.lfoRate); sine = os.osc(s.lfoRate) : +(1.) : (0.5); }; rawInverseLfo = 1. - rawLfo; lfo1 = rawLfo; lfo2 = (rawLfo, rawInverseLfo) : si.interpolate(s.stereo); /* Filter / delayLPF = fi.lowpass(4, 10000.); // a simulation of BBD antialising LPF at input and output / Delay / line(lfo) = delayLPF : de.fdelay(delaycapframes, lfo : delayAt : (ma.SR)) : delayLPF with { delayAt = (s.delaymax - s.delaymin) : +(s.delaymin); }; }; /*/ smooth = si.smooth(ba.tau2pole(100e-3)); };	https://raw.githubusercontent.com/jpcima/rc-effect-playground/3375323d8616cbfc73c9701a3765f738d574c460/faust/chorus3.dsp	faust	Mode: 0=Off 1=(I), 2=(II), 3=(I + II) (I) triangle (II) triangle (I + II) by ear and experiment found in documents and not matching the Juno60 sample: 15.175 Hz (too fast), 8 Hz (too slow) sine-like Capacity of delay seconds, must be >> delay time frames, rounded up LFO Filter a simulation of BBD antialising LPF at input and output Delay	import("stdfaust.lib"); buttonI = checkbox("[1] Chorus (I)") : !=(0); buttonII = checkbox("[2] Chorus (II)") : !=(0); process = chorus with { mode = buttonI \| (buttonII << 1); enabled = mode != 0; selectByMode = ba.selectn(3, mode-1); I = environment { lfoRate = 0.513; delaymin = 1.66e-3; delaymax = 5.35e-3; stereo = 1; }; II = environment { lfoRate = 0.863; delaymin = 1.66e-3; delaymax = 5.35e-3; stereo = 1; }; III = environment { delaymin = 3.22e-3; delaymax = 3.56e-3; stereo = 0; }; s = environment { lfoRate = (I.lfoRate, II.lfoRate, III.lfoRate) : selectByMode : smooth; lfoShape = (I.lfoShape, II.lfoShape, III.lfoShape) : selectByMode : smooth; delaymin = (I.delaymin, II.delaymin, III.delaymin) : selectByMode : smooth; delaymax = (I.delaymax, II.delaymax, III.delaymax) : selectByMode : smooth; stereo = (I.stereo, II.stereo, III.stereo) : selectByMode : smooth; }; chorus(x) = ((x, out1) : si.interpolate(enabled : smooth)), ((x, out2) : si.interpolate(enabled : smooth)) with { out1 = x <: (_, line(lfo1)) :> + : (mixAttenuation); out2 = x <: (_, line(lfo2)) :> + : (mixAttenuation); mixAttenuation = 1./sqrt(2.); rawLfo = (triangle, sine) : si.interpolate(s.lfoShape) with { triangle = os.lf_trianglepos(s.lfoRate); sine = os.osc(s.lfoRate) : +(1.) : (0.5); }; rawInverseLfo = 1. - rawLfo; lfo1 = rawLfo; lfo2 = (rawLfo, rawInverseLfo) : si.interpolate(s.stereo); line(lfo) = delayLPF : de.fdelay(delaycapframes, lfo : delayAt : (ma.SR)) : delayLPF with { delayAt = *(s.delaymax - s.delaymin) : +(s.delaymin); }; }; smooth = si.smooth(ba.tau2pole(100e-3)); };
da6b06d910b90dcb084149ba0689fc6298ffa9bc9fbcd0d1bfca300254a4e14f	jpcima/DelayArchitect	EllipticFilter.dsp	/* Copyright (c) 2021, Jean Pierre Cimalando * * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * SPDX-License-Identifier: BSD-2-Clause / import("stdfaust.lib"); directForm(data, fc) = fi.iir((par(i, data.NB, b(i))), (par(i, data.NA, a(i)))) with { nf = int(0.5+(data.NF-1)(fc-data.F0)/(data.F1-data.F0)) : max(0) : min(data.NF-1); vpf = data.NB+data.NA; off = nfvpf; b(i) = (data.NFvpf, data.BA, off+i) : rdtable; a(i) = b(data.NB+i); }; secondOrderSections(data, fc) = seq(i, data.NS, bq(i)) : (g) with { nf = int(0.5+(data.NF-1)(fc-data.F0)/(data.F1-data.F0)) : max(0) : min(data.NF-1); vpf = 5data.NS+1; off = nfvpf; tab(i) = (data.NFvpf, data.BA, off+i) : rdtable; bq(i) = fi.tf22t(tab(5i), tab(5i+1), tab(5i+2), tab(5i+3), tab(5i+4)); g = tab(vpf-1); }; // Generate with // ------------- // ./MakeElliptic.jl --lang Faust > EllipticFilterDirect.dsp // ./MakeElliptic.jl --lang Faust --sos > EllipticFilterSOS.dsp directData = library("EllipticFilterDirect.dsp"); secondOrderData = library("EllipticFilterSOS.dsp"); process = _ <: (filterDirect, filterSOS) :> select2(sel) with { cutoff = hslider("[1] cutoff", 0.5, 0.0, 0.5, 0.001); sel = checkbox("[2] second-order sections"); filterDirect = directForm(directData, cutoff); filterSOS = secondOrderSections(secondOrderData, cutoff); };	https://raw.githubusercontent.com/jpcima/DelayArchitect/f67e6b782e4810a2f8c67b386f5bc87052ff0cf2/scripts/MakeElliptic/EllipticFilter.dsp	faust	Copyright (c) 2021, Jean Pierre Cimalando * * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * SPDX-License-Identifier: BSD-2-Clause Generate with ------------- ./MakeElliptic.jl --lang Faust > EllipticFilterDirect.dsp ./MakeElliptic.jl --lang Faust --sos > EllipticFilterSOS.dsp	import("stdfaust.lib"); directForm(data, fc) = fi.iir((par(i, data.NB, b(i))), (par(i, data.NA, a(i)))) with { nf = int(0.5+(data.NF-1)(fc-data.F0)/(data.F1-data.F0)) : max(0) : min(data.NF-1); vpf = data.NB+data.NA; off = nfvpf; b(i) = (data.NFvpf, data.BA, off+i) : rdtable; a(i) = b(data.NB+i); }; secondOrderSections(data, fc) = seq(i, data.NS, bq(i)) : (g) with { nf = int(0.5+(data.NF-1)(fc-data.F0)/(data.F1-data.F0)) : max(0) : min(data.NF-1); vpf = 5data.NS+1; off = nfvpf; tab(i) = (data.NFvpf, data.BA, off+i) : rdtable; bq(i) = fi.tf22t(tab(5i), tab(5i+1), tab(5i+2), tab(5i+3), tab(5*i+4)); g = tab(vpf-1); }; directData = library("EllipticFilterDirect.dsp"); secondOrderData = library("EllipticFilterSOS.dsp"); process = _ <: (filterDirect, filterSOS) :> select2(sel) with { cutoff = hslider("[1] cutoff", 0.5, 0.0, 0.5, 0.001); sel = checkbox("[2] second-order sections"); filterDirect = directForm(directData, cutoff); filterSOS = secondOrderSections(secondOrderData, cutoff); };
1d5b79f24ba4bd2774c3ff0ad48b5b17f83c83112679203b7574070404df16bf	jpcima/rc-effect-playground	chorus_advanced_stereo.dsp	import("stdfaust.lib"); bypass = checkbox("[1] Bypass"); lfoRate = hslider("[2] LFO rate [unit:Hz] [scale:log]", 0.5, 0.1, 20., 0.01) : smooth; lfoShape = hslider("[3] LFO shape", 0., 0., 1., 0.01) : smooth; lfoPhase = hslider("[4] LFO phase [unit:deg]", 180., 0., 360., 1.) : /(360.) : smooth; delayMin = hslider("[5] Delay domain 1 [unit:ms]", 1.54, 0.5, 10, 0.01) : (1e-3) : smooth; delayMax = hslider("[6] Delay domain 2 [unit:ms]", 5.15, 0.5, 10, 0.01) : (1e-3) : smooth; directGain = ba.db2linear(-1.62); effectGain = hslider("[7] Presence [unit:dB]", 0., -10., 10., 0.1) : ba.db2linear : smooth; process(xLeft, xRight) = par(n, 2, ((out(n), in(n)) : si.interpolate(bypass : smooth))) with { in(0/LEFT/) = xLeft; in(1/RIGHT/) = xRight; out(n) = (lineMono(n) + lineCrossover) : stereoDownMix; lineMono(n) = in(n) : lineMixed(n); lineCrossover = (xLeft + xRight) : stereoDownMix : lineMixed(2/CROSS/); lineMixed(n) = _ <: (_, lineModulated(n)) : mix; mix = ((directGain), (effectGain)) :> +; stereoDownMix = (1./sqrt(2.)); / maybe make it parameter / / LFO / lfoPosition(0/LEFT/) = wrap(lfoPosition(2/CROSS/) + lfoPhase); lfoPosition(1/RIGHT/) = wrap(lfoPosition(2/CROSS/) + 1. - lfoPhase); lfoPosition(2/CROSS/) = phasor01(lfoRate); lfo(n) = lfoWave(lfoShape, lfoPosition(n)); / Delay / line(0/LEFT/) = ffunction(float AnalogDelay1(float, float), <math.h>, ""); line(1/RIGHT/) = ffunction(float AnalogDelay2(float, float), <math.h>, ""); line(2/CROSS/) = ffunction(float AnalogDelay3(float, float), <math.h>, ""); lineModulated(n) = line(n, lfo(n) : delayAt); delayAt = (delayMax - delayMin) : +(delayMin); }; //////////////////////////////////////////// // Smooth filter with fixed time constant // //////////////////////////////////////////// smooth = si.smooth(ba.tau2pole(tau)) with { tau = 100e-3; }; //////////////////// // Multi-wave LFO // //////////////////// // w=0: triangle, w=0.5: sine-triangle, w=1: sine lfoWave(w, p) = ba.if(p<0.5, firstHalf(p), secondHalf(p)) with { firstHalf(p) = (triangle(p), sine(p)) : si.interpolate((2.w) : min(1.)); secondHalf(p) = (triangle(p), sine(p)) : si.interpolate(w); triangle(p) = rdtable(tablesize, triwaveform01(tablesize), int(ptablesize)%tablesize); sine(p) = rdtable(tablesize, sinwaveform01(tablesize), int(ptablesize)%tablesize); tablesize = 1<<16; }; /////////////// // Waveforms // /////////////// triwaveform(tablesize) = ba.if(p<0.25, 4p, ba.if(p<0.75, -4p+2, 4p-4)) with { p = float(ba.time)/float(tablesize); }; triwaveform01(tablesize) = triwaveform(tablesize) : +(1.) : (0.5); sinwaveform01(tablesize) = os.sinwaveform(tablesize) : +(1.) : (0.5); ///////////////////// // Phase generator // ///////////////////// phasor01(f) = p letrec { 'p = wrap(p+f/ma.SR); }; ///////////// // Utility // ///////////// wrap(p) = p-int(p);	https://raw.githubusercontent.com/jpcima/rc-effect-playground/3375323d8616cbfc73c9701a3765f738d574c460/sources/chorus_advanced_stereo.dsp	faust	LEFT RIGHT CROSS maybe make it parameter LFO LEFT CROSS RIGHT CROSS CROSS Delay LEFT RIGHT CROSS ////////////////////////////////////////// Smooth filter with fixed time constant // ////////////////////////////////////////// ////////////////// Multi-wave LFO // ////////////////// w=0: triangle, w=0.5: sine-triangle, w=1: sine ///////////// Waveforms // ///////////// /////////////////// Phase generator // /////////////////// /////////// Utility // ///////////	import("stdfaust.lib"); bypass = checkbox("[1] Bypass"); lfoRate = hslider("[2] LFO rate [unit:Hz] [scale:log]", 0.5, 0.1, 20., 0.01) : smooth; lfoShape = hslider("[3] LFO shape", 0., 0., 1., 0.01) : smooth; lfoPhase = hslider("[4] LFO phase [unit:deg]", 180., 0., 360., 1.) : /(360.) : smooth; delayMin = hslider("[5] Delay domain 1 [unit:ms]", 1.54, 0.5, 10, 0.01) : (1e-3) : smooth; delayMax = hslider("[6] Delay domain 2 [unit:ms]", 5.15, 0.5, 10, 0.01) : (1e-3) : smooth; directGain = ba.db2linear(-1.62); effectGain = hslider("[7] Presence [unit:dB]", 0., -10., 10., 0.1) : ba.db2linear : smooth; process(xLeft, xRight) = par(n, 2, ((out(n), in(n)) : si.interpolate(bypass : smooth))) with { out(n) = (lineMono(n) + lineCrossover) : stereoDownMix; lineMono(n) = in(n) : lineMixed(n); lineMixed(n) = _ <: (_, lineModulated(n)) : mix; mix = ((directGain), (effectGain)) :> +; lfo(n) = lfoWave(lfoShape, lfoPosition(n)); lineModulated(n) = line(n, lfo(n) : delayAt); delayAt = (delayMax - delayMin) : +(delayMin); }; smooth = si.smooth(ba.tau2pole(tau)) with { tau = 100e-3; }; lfoWave(w, p) = ba.if(p<0.5, firstHalf(p), secondHalf(p)) with { firstHalf(p) = (triangle(p), sine(p)) : si.interpolate((2.w) : min(1.)); secondHalf(p) = (triangle(p), sine(p)) : si.interpolate(w); triangle(p) = rdtable(tablesize, triwaveform01(tablesize), int(ptablesize)%tablesize); sine(p) = rdtable(tablesize, sinwaveform01(tablesize), int(ptablesize)%tablesize); tablesize = 1<<16; }; triwaveform(tablesize) = ba.if(p<0.25, 4p, ba.if(p<0.75, -4p+2, 4p-4)) with { p = float(ba.time)/float(tablesize); }; triwaveform01(tablesize) = triwaveform(tablesize) : +(1.) : (0.5); sinwaveform01(tablesize) = os.sinwaveform(tablesize) : +(1.) : *(0.5); phasor01(f) = p letrec { 'p = wrap(p+f/ma.SR); }; wrap(p) = p-int(p);
72ac943dcaa9c8c92b5627e4744e5ba52ac0eb9b5799614ee0a0632a2d966b7e	jpcima/rc-effect-playground	chorus.dsp	import("stdfaust.lib"); buttonI = checkbox("[1] Chorus (I)") : !=(0); buttonII = checkbox("[2] Chorus (II)") : !=(0); process = chorus with { /* Mode: 0=Off 1=(I), 2=(II), 3=(I + II) / mode = buttonI \| (buttonII << 1); enabled = mode != 0; selectByMode = ba.selectn(3, mode-1); / (I) / I = environment { lfoRate = 0.513; lfoShape = 0; / triangle / delaymin(0) = 1.54e-3; delaymax(0) = 5.15e-3; delaymin(1) = 1.51e-3; delaymax(1) = 5.40e-3; stereo = 1; }; / (II) / II = environment { lfoRate = 0.863; lfoShape = 0; / triangle / delaymin(0) = 1.54e-3; delaymax(0) = 5.15e-3; delaymin(1) = 1.51e-3; delaymax(1) = 5.40e-3; stereo = 1; }; / (I + II) / III = environment { lfoRate = 9.75; / by ear and experiment / // found in documents and not matching the Juno60 sample: // 15.175 Hz (too fast), 8 Hz (too slow) lfoShape = 1; / sine-like / delaymin(0) = 3.22e-3; delaymax(0) = 3.56e-3; delaymin(1) = 3.28e-3; delaymax(1) = 3.65e-3; stereo = 0; }; // s = environment { lfoRate = (I.lfoRate, II.lfoRate, III.lfoRate) : selectByMode : smooth; lfoShape = (I.lfoShape, II.lfoShape, III.lfoShape) : selectByMode : smooth; delaymin(i) = (I.delaymin(i), II.delaymin(i), III.delaymin(i)) : selectByMode : smooth; delaymax(i) = (I.delaymax(i), II.delaymax(i), III.delaymax(i)) : selectByMode : smooth; stereo = (I.stereo, II.stereo, III.stereo) : selectByMode : smooth; }; // chorus(x) = ((x, out1) : si.interpolate(enabled : smooth)), ((x, out2) : si.interpolate(enabled : smooth)) with { out1 = x <: ((0.83), delayModel.line1(lfo1 : delayAt(0))) :> +; out2 = x <: ((0.83), delayModel.line2(lfo2 : delayAt(1))) :> +; / Delay model / delayModel = analogDelayModel; //delayModel = digitalDelayModel; / Capacity of delay / delaycapframes = 2048; / LFO / rawLfo = (triangle, sine) : si.interpolate(s.lfoShape) with { triangle = os.lf_trianglepos(s.lfoRate); sine = os.osc(s.lfoRate) : +(1.) : (0.5); }; rawInverseLfo = 1. - rawLfo; lfo1 = rawLfo; lfo2 = (rawLfo, rawInverseLfo) : si.interpolate(s.stereo); /* Filter / delayLPF = fi.lowpass(4, 10000.); // a simulation of BBD antialising LPF at input and output / Delay / digitalDelayModel = environment { line1(d) = delayLPF : de.fdelay(delaycapframes, dma.SR) : delayLPF; line2(d) = line1(d); }; analogDelayModel = environment { /* external functions call the BBD which is implemented in C++ code / line1 = ffunction(float AnalogDelay1(float, float), <math.h>, ""); line2 = ffunction(float AnalogDelay2(float, float), <math.h>, ""); }; delayAt(i) = (s.delaymax(i) - s.delaymin(i)) : +(s.delaymin(i)); }; /**/ smooth = si.smooth(ba.tau2pole(100e-3)); };	https://raw.githubusercontent.com/jpcima/rc-effect-playground/3375323d8616cbfc73c9701a3765f738d574c460/sources/chorus.dsp	faust	Mode: 0=Off 1=(I), 2=(II), 3=(I + II) (I) triangle (II) triangle (I + II) by ear and experiment found in documents and not matching the Juno60 sample: 15.175 Hz (too fast), 8 Hz (too slow) sine-like Delay model delayModel = digitalDelayModel; Capacity of delay LFO Filter a simulation of BBD antialising LPF at input and output Delay external functions call the BBD which is implemented in C++ code	import("stdfaust.lib"); buttonI = checkbox("[1] Chorus (I)") : !=(0); buttonII = checkbox("[2] Chorus (II)") : !=(0); process = chorus with { mode = buttonI \| (buttonII << 1); enabled = mode != 0; selectByMode = ba.selectn(3, mode-1); I = environment { lfoRate = 0.513; delaymin(0) = 1.54e-3; delaymax(0) = 5.15e-3; delaymin(1) = 1.51e-3; delaymax(1) = 5.40e-3; stereo = 1; }; II = environment { lfoRate = 0.863; delaymin(0) = 1.54e-3; delaymax(0) = 5.15e-3; delaymin(1) = 1.51e-3; delaymax(1) = 5.40e-3; stereo = 1; }; III = environment { delaymin(0) = 3.22e-3; delaymax(0) = 3.56e-3; delaymin(1) = 3.28e-3; delaymax(1) = 3.65e-3; stereo = 0; }; s = environment { lfoRate = (I.lfoRate, II.lfoRate, III.lfoRate) : selectByMode : smooth; lfoShape = (I.lfoShape, II.lfoShape, III.lfoShape) : selectByMode : smooth; delaymin(i) = (I.delaymin(i), II.delaymin(i), III.delaymin(i)) : selectByMode : smooth; delaymax(i) = (I.delaymax(i), II.delaymax(i), III.delaymax(i)) : selectByMode : smooth; stereo = (I.stereo, II.stereo, III.stereo) : selectByMode : smooth; }; chorus(x) = ((x, out1) : si.interpolate(enabled : smooth)), ((x, out2) : si.interpolate(enabled : smooth)) with { out1 = x <: ((0.83), delayModel.line1(lfo1 : delayAt(0))) :> +; out2 = x <: ((0.83), delayModel.line2(lfo2 : delayAt(1))) :> +; delayModel = analogDelayModel; delaycapframes = 2048; rawLfo = (triangle, sine) : si.interpolate(s.lfoShape) with { triangle = os.lf_trianglepos(s.lfoRate); sine = os.osc(s.lfoRate) : +(1.) : (0.5); }; rawInverseLfo = 1. - rawLfo; lfo1 = rawLfo; lfo2 = (rawLfo, rawInverseLfo) : si.interpolate(s.stereo); digitalDelayModel = environment { line1(d) = delayLPF : de.fdelay(delaycapframes, dma.SR) : delayLPF; line2(d) = line1(d); }; analogDelayModel = environment { line1 = ffunction(float AnalogDelay1(float, float), <math.h>, ""); line2 = ffunction(float AnalogDelay2(float, float), <math.h>, ""); }; delayAt(i) = *(s.delaymax(i) - s.delaymin(i)) : +(s.delaymin(i)); }; smooth = si.smooth(ba.tau2pole(100e-3)); };
50fbe8448b1181a581e204df3c9c954355614164e0156fcd9467a7167995a44c	jpcima/smf-dsp	bass_enhance.dsp	import("stdfaust.lib"); driveMax = 0.5; toneMin = 50.0; toneMax = 600.0; drive = hslider("[0] Drive [unit:%]", 0.0, 0.0, 100.0, 0.01) : (0.01driveMax); tone = hslider("[1] Tone [unit:%]", 0.0, 0.0, 100.0, 0.01) : (0.01(toneMax-toneMin)) : +(toneMin); phatbass = _ <: ((lows : distort), highs) :> + with { split = fi.filterbank(3, (tone)); lows = split : (!, _); highs = split : (_, !); distort = ef.cubicnl(drive, 0.0); }; process = (phatbass, phatbass);	https://raw.githubusercontent.com/jpcima/smf-dsp/bdc5f453369caf7b3c67e7ad661e0901b2fb2aed/sources/audio/bass_enhance.dsp	faust		import("stdfaust.lib"); driveMax = 0.5; toneMin = 50.0; toneMax = 600.0; drive = hslider("[0] Drive [unit:%]", 0.0, 0.0, 100.0, 0.01) : (0.01driveMax); tone = hslider("[1] Tone [unit:%]", 0.0, 0.0, 100.0, 0.01) : (0.01(toneMax-toneMin)) : +(toneMin); phatbass = _ <: ((lows : distort), highs) :> + with { split = fi.filterbank(3, (tone)); lows = split : (!, _); highs = split : (_, !); distort = ef.cubicnl(drive, 0.0); }; process = (phatbass, phatbass);
6b3f8ae48d06503bcf547a3122e4faad4430a9635bf6771b0cdea97b25b30a48	jpcima/smf-dsp	eq_5band.dsp	import("stdfaust.lib"); numBands = 5; rangeDb = 12.0; lokey = 48; // C3 hikey = 108; // C8 l(i) = hslider("[%i] EQ Band %j [unit:%]", 50, 0, 100, 1) : pcTodB with { j = i+1; }; pcTodB = (rangeDb2.0/100.0)-rangeDb; f(i) = ba.midikey2hz(lokey+(hikey-lokey)i(1.0/(numBands-1))); b(i) = 0.5*(f(i+1)-f(i)); eq = fi.low_shelf(l(0), f(0)) : seq(i, numBands-2, fi.peak_eq(l(i+1), f(i+1), b(i+1))) : fi.high_shelf(l(numBands-1), f(numBands-1)); process = (eq, eq); // : co.limiter_1176_R4_stereo;	https://raw.githubusercontent.com/jpcima/smf-dsp/bdc5f453369caf7b3c67e7ad661e0901b2fb2aed/sources/audio/eq_5band.dsp	faust	C3 C8 : co.limiter_1176_R4_stereo;	import("stdfaust.lib"); numBands = 5; rangeDb = 12.0; l(i) = hslider("[%i] EQ Band %j [unit:%]", 50, 0, 100, 1) : pcTodB with { j = i+1; }; pcTodB = (rangeDb2.0/100.0)-rangeDb; f(i) = ba.midikey2hz(lokey+(hikey-lokey)i(1.0/(numBands-1))); b(i) = 0.5*(f(i+1)-f(i)); eq = fi.low_shelf(l(0), f(0)) : seq(i, numBands-2, fi.peak_eq(l(i+1), f(i+1), b(i+1))) : fi.high_shelf(l(numBands-1), f(numBands-1));
adcf06611eeba46ced15ccba8b08e5a2edc78516f367c5875bb7db2ac06b973e	jpcima/faustpp	stone_phaser.dsp	declare name "Stone Phaser"; declare author "Jean Pierre Cimalando"; declare copyright "2019"; declare version "1.2.2"; declare license "CC0-1.0"; // Référence : // Kiiski, R., Esqueda, F., & Välimäki, V. (2016). // Time-variant gray-box modeling of a phaser pedal. // In 19th International Conference on Digital Audio Effects (DAFx-16). import("stdfaust.lib"); // hz2midikey defined for faust1 which doesn't have it hz2midikey(f) = 12ma.log2(f/440.0) + 69.0; midikey2hz = ba.midikey2hz; ///////////// // Control // ///////////// bypass = checkbox("[0] Bypass [symbol:bypass]"); color = hslider("[1] Color [symbol:color] [boolean]", 1, 0, 1, 1); lf = hslider("[2] LFO frequency [symbol:lfo_frequency] [unit:Hz] [scale:log]", 0.2, 0.01, 5., 0.01) : tsmooth; fb = hslider("[3] Feedback depth [symbol:feedback_depth] [unit:%] [integer]", 75, 0, 99, 1) : (0.01) : tsmooth; fbHf = hslider("[4] Feedback bass cut [abbrev:Fb bass cut] [symbol:feedback_hpf_cutoff] [unit:Hz] [scale:log]", 500., 10., 5000., 1.) : tsmooth; dw = hslider("[5] Dry/wet mix [symbol:mix] [unit:%] [integer]", 50, 0, 100, 1) : (0.01); w = sin(dw(ma.PI/2)) : tsmooth; d = cos(dw(ma.PI/2)) : tsmooth; ph = hslider("[6] Stereo phase [symbol:stereo_phase] [unit:deg] [integer]", 0., -180., +180., 1.) : /(360.) : +(1.) : tsmooth; ////////////////////////// // All-pass filter unit // ////////////////////////// allpass1(f) = fi.iir((a,1.),(a)) with { a = -1.+2.ma.PIf/ma.SR; }; ////////////////////// // High-pass filter // ////////////////////// highpass1(f) = fi.iir((0.5(1.+p), -0.5(1.+p)), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; ////////////////////// // Low-pass filter // ////////////////////// lowpass1(f) = fi.iir((1.-p), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; //////////////////////////////////////////// // Smooth filter with fixed time constant // //////////////////////////////////////////// tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; ////////// // LFOs // ////////// lfoTriangle(pos, y1, y2) = val(y2-y1)+y1 with { val = 1.-abs(2.pos-1.); }; lfoRectifiedSine(pos, y1, y2) = val(y2-y1)+y1 with { val = rsin(pos); }; lfoAnalogTriangle(roundness, pos, y1, y2) = val(y2-y1)+y1 with { val = sineTri(roundness, pos); }; lfoExponentialTriangle(roundness, slopeUp, slopeDown, pos, y1, y2) = val(y2-y1)+y1 with { val = expTri(roundness, slopeUp, slopeDown, pos); }; //////////// // Phaser // //////////// mono_phaser(x, lfo_pos) = (fadeBypass * x) + (1. - fadeBypass) * (dry + wet) with { dry = xd; wet = (x <: highpass1(33.0) : (+:a1:a2:a3:a4)~feedback)w; fadeBypass = bypass : tsmooth; colorFb = ba.if(color, fb, 0.1fb) : tsmooth; feedback = highpass1(fbHf) : (colorFb); lfoLoF = ba.if(color, hz2midikey(80.), hz2midikey(300.)) : tsmooth; lfoHiF = ba.if(color, hz2midikey(2200.), hz2midikey(6000.)) : tsmooth; modFreq = midikey2hz(lfoAnalogTriangle(0.95, lfo_pos, lfoLoF, lfoHiF)); //modFreq = midikey2hz(lfoExponentialTriangle(128., 0.6, 0.9, lfo_pos, lfoLoF, lfoHiF)); a1 = allpass1(modFreq); a2 = allpass1(modFreq); a3 = allpass1(modFreq); a4 = allpass1(modFreq); }; stereo_phaser(x1, x2, lfo_pos) = mono_phaser(x1, lfo_pos), mono_phaser(x2, lfo_pos2) with { lfo_pos2 = wrap(lfo_pos + ph); wrap(p) = p-float(int(p)); }; ///////////// // Utility // ///////////// lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = possize; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); }; rsin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, abs(os.sinwaveform(ts)), i); }; sineTriWaveform(roundness, tablesize) = 1.-sin(2.ba.if(x<0.5, x, 1.-x)asin(a))/a with { a = max(0., min(1., roundness 0.5 + 0.5)); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; sineTri(roundness, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, sineTriWaveform(roundness, ts), i); }; /* # Gnuplot code of the sineTri function sineTri(r, x)=sineTri_(r, wrap(x+0.5)) sineTri_(r, x)=1.-sin(((x<0.5)?x:(1.-x))2.asin(r))/r wrap(x)=x-floor(x) set xrange [0:1] plot(sineTri(0.99, x)) / expTriWaveform(roundness, slopeUp, slopeDown, tablesize) = ba.if(x<0.5, expUp, expDown) with { normExp(a, b, x) = (1.-pow(a, -bx))/(1.-pow(a, -b)); expUp = 1.-normExp(roundness, slopeUp, (-x+0.5)2); expDown = 1.-normExp(roundness, slopeDown, (x-0.5)2); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; expTri(roundness, slopeUp, slopeDown, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, expTriWaveform(roundness, slopeUp, slopeDown, ts), i); }; /* # Gnuplot code of the expTri function roundness=128 slopeUp = 0.6 slopeDown = 0.9 normExp(a,b,x)=(1.-a*-(bx))/(1.-a*-b) set xrange [0:1] plot (x<0.5) ? (1.-normExp(roundness, slopeUp, (-x+0.5)2)) : (1.-normExp(roundness, slopeDown, (x-0.5)2)) / ////////// // Main // ////////// process_mono(x) = mono_phaser(x, os.lf_sawpos(lf)); process_stereo(x1, x2) = stereo_phaser(x1, x2, os.lf_sawpos(lf)); process = process_mono;	https://raw.githubusercontent.com/jpcima/faustpp/5197306546153130f50190cd589f3289047e2b3b/examples/stone_phaser.dsp	faust	Référence : Kiiski, R., Esqueda, F., & Välimäki, V. (2016). Time-variant gray-box modeling of a phaser pedal. In 19th International Conference on Digital Audio Effects (DAFx-16). hz2midikey defined for faust1 which doesn't have it /////////// Control // /////////// //////////////////////// All-pass filter unit // //////////////////////// //////////////////// High-pass filter // //////////////////// //////////////////// Low-pass filter // //////////////////// ////////////////////////////////////////// Smooth filter with fixed time constant // ////////////////////////////////////////// //////// LFOs // //////// ////////// Phaser // ////////// modFreq = midikey2hz(lfoExponentialTriangle(128., 0.6, 0.9, lfo_pos, lfoLoF, lfoHiF)); /////////// Utility // /////////// # Gnuplot code of the sineTri function sineTri(r, x)=sineTri_(r, wrap(x+0.5)) sineTri_(r, x)=1.-sin(((x<0.5)?x:(1.-x))2.asin(r))/r wrap(x)=x-floor(x) set xrange [0:1] plot(sineTri(0.99, x)) # Gnuplot code of the expTri function roundness=128 slopeUp = 0.6 slopeDown = 0.9 normExp(a,b,x)=(1.-a*-(bx))/(1.-a*-b) set xrange [0:1] plot (x<0.5) ? (1.-normExp(roundness, slopeUp, (-x+0.5)2)) : (1.-normExp(roundness, slopeDown, (x-0.5)*2)) //////// Main // ////////	declare name "Stone Phaser"; declare author "Jean Pierre Cimalando"; declare copyright "2019"; declare version "1.2.2"; declare license "CC0-1.0"; import("stdfaust.lib"); hz2midikey(f) = 12ma.log2(f/440.0) + 69.0; midikey2hz = ba.midikey2hz; bypass = checkbox("[0] Bypass [symbol:bypass]"); color = hslider("[1] Color [symbol:color] [boolean]", 1, 0, 1, 1); lf = hslider("[2] LFO frequency [symbol:lfo_frequency] [unit:Hz] [scale:log]", 0.2, 0.01, 5., 0.01) : tsmooth; fb = hslider("[3] Feedback depth [symbol:feedback_depth] [unit:%] [integer]", 75, 0, 99, 1) : (0.01) : tsmooth; fbHf = hslider("[4] Feedback bass cut [abbrev:Fb bass cut] [symbol:feedback_hpf_cutoff] [unit:Hz] [scale:log]", 500., 10., 5000., 1.) : tsmooth; dw = hslider("[5] Dry/wet mix [symbol:mix] [unit:%] [integer]", 50, 0, 100, 1) : (0.01); w = sin(dw(ma.PI/2)) : tsmooth; d = cos(dw(ma.PI/2)) : tsmooth; ph = hslider("[6] Stereo phase [symbol:stereo_phase] [unit:deg] [integer]", 0., -180., +180., 1.) : /(360.) : +(1.) : tsmooth; allpass1(f) = fi.iir((a,1.),(a)) with { a = -1.+2.ma.PIf/ma.SR; }; highpass1(f) = fi.iir((0.5(1.+p), -0.5(1.+p)), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; lowpass1(f) = fi.iir((1.-p), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; lfoTriangle(pos, y1, y2) = val(y2-y1)+y1 with { val = 1.-abs(2.pos-1.); }; lfoRectifiedSine(pos, y1, y2) = val(y2-y1)+y1 with { val = rsin(pos); }; lfoAnalogTriangle(roundness, pos, y1, y2) = val(y2-y1)+y1 with { val = sineTri(roundness, pos); }; lfoExponentialTriangle(roundness, slopeUp, slopeDown, pos, y1, y2) = val(y2-y1)+y1 with { val = expTri(roundness, slopeUp, slopeDown, pos); }; mono_phaser(x, lfo_pos) = (fadeBypass * x) + (1. - fadeBypass) * (dry + wet) with { dry = xd; wet = (x <: highpass1(33.0) : (+:a1:a2:a3:a4)~feedback)w; fadeBypass = bypass : tsmooth; colorFb = ba.if(color, fb, 0.1fb) : tsmooth; feedback = highpass1(fbHf) : (colorFb); lfoLoF = ba.if(color, hz2midikey(80.), hz2midikey(300.)) : tsmooth; lfoHiF = ba.if(color, hz2midikey(2200.), hz2midikey(6000.)) : tsmooth; modFreq = midikey2hz(lfoAnalogTriangle(0.95, lfo_pos, lfoLoF, lfoHiF)); a1 = allpass1(modFreq); a2 = allpass1(modFreq); a3 = allpass1(modFreq); a4 = allpass1(modFreq); }; stereo_phaser(x1, x2, lfo_pos) = mono_phaser(x1, lfo_pos), mono_phaser(x2, lfo_pos2) with { lfo_pos2 = wrap(lfo_pos + ph); wrap(p) = p-float(int(p)); }; lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = possize; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); }; rsin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, abs(os.sinwaveform(ts)), i); }; sineTriWaveform(roundness, tablesize) = 1.-sin(2.ba.if(x<0.5, x, 1.-x)asin(a))/a with { a = max(0., min(1., roundness 0.5 + 0.5)); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; sineTri(roundness, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, sineTriWaveform(roundness, ts), i); }; expTriWaveform(roundness, slopeUp, slopeDown, tablesize) = ba.if(x<0.5, expUp, expDown) with { normExp(a, b, x) = (1.-pow(a, -bx))/(1.-pow(a, -b)); expUp = 1.-normExp(roundness, slopeUp, (-x+0.5)2); expDown = 1.-normExp(roundness, slopeDown, (x-0.5)*2); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; expTri(roundness, slopeUp, slopeDown, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, expTriWaveform(roundness, slopeUp, slopeDown, ts), i); }; process_mono(x) = mono_phaser(x, os.lf_sawpos(lf)); process_stereo(x1, x2) = stereo_phaser(x1, x2, os.lf_sawpos(lf)); process = process_mono;
49aaddcca1c56efbaf687471342f2f0ace48021df239776c23cff942ec4d2de3	jpcima/stone-phaser	stone_phaser.dsp	declare name "Stone Phaser"; declare author "Jean Pierre Cimalando"; declare version "1.2.2"; declare license "CC0-1.0 or BSL-1.0"; // Référence : // Kiiski, R., Esqueda, F., & Välimäki, V. (2016). // Time-variant gray-box modeling of a phaser pedal. // In 19th International Conference on Digital Audio Effects (DAFx-16). import("stdfaust.lib"); ///////////// // Control // ///////////// bypass = checkbox("[0] Bypass [symbol:bypass]") : >(0.5); color = hslider("[1] Color [symbol:color] [boolean]", 1, 0, 1, 1); lf = hslider("[2] LFO frequency [symbol:lfo_frequency] [unit:Hz] [scale:log]", 0.2, 0.01, 5., 0.01) : tsmooth; fb = hslider("[3] Feedback depth [symbol:feedback_depth] [unit:%] [integer]", 75, 0, 99, 1) : (0.01) : tsmooth; fbHf = hslider("[4] Feedback bass cut [abbrev:Fb bass cut] [symbol:feedback_hpf_cutoff] [unit:Hz] [scale:log]", 500., 10., 5000., 1.) : tsmooth; dw = hslider("[5] Dry/wet mix [symbol:mix] [unit:%] [integer]", 50, 0, 100, 1) : (0.01); w = sin(dw(ma.PI/2)) : tsmooth; d = cos(dw(ma.PI/2)) : tsmooth; ph = hslider("[6] Stereo phase [symbol:stereo_phase] [unit:deg] [integer]", 0., -180., +180., 1.) : /(360.) : +(1.) : tsmooth; bm = hbargraph("[7] Bypass meter [symbol:bypass_meter]", 0., 1.); ////////////////////////// // All-pass filter unit // ////////////////////////// allpass1(f) = fi.iir((a,1.),(a)) with { a = -1.+2.ma.PIf/ma.SR; }; ////////////////////// // High-pass filter // ////////////////////// highpass1(f) = fi.iir((0.5(1.+p), -0.5(1.+p)), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; ////////////////////// // Low-pass filter // ////////////////////// lowpass1(f) = fi.iir((1.-p), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; //////////////////////////////////////////// // Smooth filter with fixed time constant // //////////////////////////////////////////// tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; ////////// // LFOs // ////////// lfoTriangle(pos, y1, y2) = val(y2-y1)+y1 with { val = 1.-abs(2.pos-1.); }; lfoRectifiedSine(pos, y1, y2) = val(y2-y1)+y1 with { val = rsin(pos); }; lfoAnalogTriangle(roundness, pos, y1, y2) = val(y2-y1)+y1 with { val = sineTri(roundness, pos); }; lfoExponentialTriangle(roundness, slopeUp, slopeDown, pos, y1, y2) = val(y2-y1)+y1 with { val = expTri(roundness, slopeUp, slopeDown, pos); }; //////////// // Phaser // //////////// mono_phaser(x, lfo_pos, bypass_meter) = attach(outputMix, fadeBypass : bypass_meter) with { outputMix = (dry + wet, x) : ((fadeBypass), (1. - fadeBypass)) :> +; dry = xd; wet = (x <: highpass1(33.0) : (+:a1:a2:a3:a4)~feedback)w; fadeBypass = (1 - bypass) : tsmooth; colorFb = ba.if(color, fb, 0.1fb) : tsmooth; feedback = highpass1(fbHf) : (colorFb); lfoLoF = ba.if(color, ba.hz2midikey(80.), ba.hz2midikey(300.)) : tsmooth; lfoHiF = ba.if(color, ba.hz2midikey(2200.), ba.hz2midikey(6000.)) : tsmooth; modFreq = ba.midikey2hz(lfoAnalogTriangle(0.95, lfo_pos, lfoLoF, lfoHiF)); //modFreq = ba.midikey2hz(lfoExponentialTriangle(128., 0.6, 0.9, lfo_pos, lfoLoF, lfoHiF)); a1 = allpass1(modFreq); a2 = allpass1(modFreq); a3 = allpass1(modFreq); a4 = allpass1(modFreq); }; stereo_phaser(x1, x2, lfo_pos, bypass_meter) = left_phaser, right_phaser with { left_phaser = mono_phaser(x1, lfo_pos, bypass_meter); right_phaser = mono_phaser(x2, lfo_pos2, _); lfo_pos2 = wrap(lfo_pos + ph); wrap(p) = p-float(int(p)); }; ///////////// // Utility // ///////////// lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = possize; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); }; rsin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, abs(os.sinwaveform(ts)), i); }; sineTriWaveform(roundness, tablesize) = 1.-sin(2.ba.if(x<0.5, x, 1.-x)asin(a))/a with { a = max(0., min(1., roundness * 0.5 + 0.5)); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; sineTri(roundness, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, sineTriWaveform(roundness, ts), i); }; /* # Gnuplot code of the sineTri function sineTri(r, x)=sineTri_(r, wrap(x+0.5)) sineTri_(r, x)=1.-sin(((x<0.5)?x:(1.-x))2.asin(r))/r wrap(x)=x-floor(x) set xrange [0:1] plot(sineTri(0.99, x)) / expTriWaveform(roundness, slopeUp, slopeDown, tablesize) = ba.if(x<0.5, expUp, expDown) with { normExp(a, b, x) = (1.-pow(a, -bx))/(1.-pow(a, -b)); expUp = 1.-normExp(roundness, slopeUp, (-x+0.5)2); expDown = 1.-normExp(roundness, slopeDown, (x-0.5)2); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; expTri(roundness, slopeUp, slopeDown, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, expTriWaveform(roundness, slopeUp, slopeDown, ts), i); }; /* # Gnuplot code of the expTri function roundness=128 slopeUp = 0.6 slopeDown = 0.9 normExp(a,b,x)=(1.-a*-(bx))/(1.-a*-b) set xrange [0:1] plot (x<0.5) ? (1.-normExp(roundness, slopeUp, (-x+0.5)2)) : (1.-normExp(roundness, slopeDown, (x-0.5)2)) / ////////// // Main // ////////// process_mono(x) = mono_phaser(x, os.lf_sawpos(lf), bm); process_stereo(x1, x2) = stereo_phaser(x1, x2, os.lf_sawpos(lf), bm); process = process_mono;	https://raw.githubusercontent.com/jpcima/stone-phaser/da92961a4148b77fca131ba0e51d9ea7ad0b2476/dsp/stone_phaser.dsp	faust	Référence : Kiiski, R., Esqueda, F., & Välimäki, V. (2016). Time-variant gray-box modeling of a phaser pedal. In 19th International Conference on Digital Audio Effects (DAFx-16). /////////// Control // /////////// //////////////////////// All-pass filter unit // //////////////////////// //////////////////// High-pass filter // //////////////////// //////////////////// Low-pass filter // //////////////////// ////////////////////////////////////////// Smooth filter with fixed time constant // ////////////////////////////////////////// //////// LFOs // //////// ////////// Phaser // ////////// modFreq = ba.midikey2hz(lfoExponentialTriangle(128., 0.6, 0.9, lfo_pos, lfoLoF, lfoHiF)); /////////// Utility // /////////// # Gnuplot code of the sineTri function sineTri(r, x)=sineTri_(r, wrap(x+0.5)) sineTri_(r, x)=1.-sin(((x<0.5)?x:(1.-x))2.asin(r))/r wrap(x)=x-floor(x) set xrange [0:1] plot(sineTri(0.99, x)) # Gnuplot code of the expTri function roundness=128 slopeUp = 0.6 slopeDown = 0.9 normExp(a,b,x)=(1.-a*-(bx))/(1.-a*-b) set xrange [0:1] plot (x<0.5) ? (1.-normExp(roundness, slopeUp, (-x+0.5)2)) : (1.-normExp(roundness, slopeDown, (x-0.5)*2)) //////// Main // ////////	declare name "Stone Phaser"; declare author "Jean Pierre Cimalando"; declare version "1.2.2"; declare license "CC0-1.0 or BSL-1.0"; import("stdfaust.lib"); bypass = checkbox("[0] Bypass [symbol:bypass]") : >(0.5); color = hslider("[1] Color [symbol:color] [boolean]", 1, 0, 1, 1); lf = hslider("[2] LFO frequency [symbol:lfo_frequency] [unit:Hz] [scale:log]", 0.2, 0.01, 5., 0.01) : tsmooth; fb = hslider("[3] Feedback depth [symbol:feedback_depth] [unit:%] [integer]", 75, 0, 99, 1) : (0.01) : tsmooth; fbHf = hslider("[4] Feedback bass cut [abbrev:Fb bass cut] [symbol:feedback_hpf_cutoff] [unit:Hz] [scale:log]", 500., 10., 5000., 1.) : tsmooth; dw = hslider("[5] Dry/wet mix [symbol:mix] [unit:%] [integer]", 50, 0, 100, 1) : (0.01); w = sin(dw(ma.PI/2)) : tsmooth; d = cos(dw(ma.PI/2)) : tsmooth; ph = hslider("[6] Stereo phase [symbol:stereo_phase] [unit:deg] [integer]", 0., -180., +180., 1.) : /(360.) : +(1.) : tsmooth; bm = hbargraph("[7] Bypass meter [symbol:bypass_meter]", 0., 1.); allpass1(f) = fi.iir((a,1.),(a)) with { a = -1.+2.ma.PIf/ma.SR; }; highpass1(f) = fi.iir((0.5(1.+p), -0.5(1.+p)), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; lowpass1(f) = fi.iir((1.-p), (-p)) with { p = exp(-2.ma.PIf/ma.SR); }; tsmooth = si.smooth(ba.tau2pole(t)) with { t = 100e-3; }; lfoTriangle(pos, y1, y2) = val(y2-y1)+y1 with { val = 1.-abs(2.pos-1.); }; lfoRectifiedSine(pos, y1, y2) = val(y2-y1)+y1 with { val = rsin(pos); }; lfoAnalogTriangle(roundness, pos, y1, y2) = val(y2-y1)+y1 with { val = sineTri(roundness, pos); }; lfoExponentialTriangle(roundness, slopeUp, slopeDown, pos, y1, y2) = val(y2-y1)+y1 with { val = expTri(roundness, slopeUp, slopeDown, pos); }; mono_phaser(x, lfo_pos, bypass_meter) = attach(outputMix, fadeBypass : bypass_meter) with { outputMix = (dry + wet, x) : ((fadeBypass), (1. - fadeBypass)) :> +; dry = xd; wet = (x <: highpass1(33.0) : (+:a1:a2:a3:a4)~feedback)w; fadeBypass = (1 - bypass) : tsmooth; colorFb = ba.if(color, fb, 0.1fb) : tsmooth; feedback = highpass1(fbHf) : (colorFb); lfoLoF = ba.if(color, ba.hz2midikey(80.), ba.hz2midikey(300.)) : tsmooth; lfoHiF = ba.if(color, ba.hz2midikey(2200.), ba.hz2midikey(6000.)) : tsmooth; modFreq = ba.midikey2hz(lfoAnalogTriangle(0.95, lfo_pos, lfoLoF, lfoHiF)); a1 = allpass1(modFreq); a2 = allpass1(modFreq); a3 = allpass1(modFreq); a4 = allpass1(modFreq); }; stereo_phaser(x1, x2, lfo_pos, bypass_meter) = left_phaser, right_phaser with { left_phaser = mono_phaser(x1, lfo_pos, bypass_meter); right_phaser = mono_phaser(x2, lfo_pos2, _); lfo_pos2 = wrap(lfo_pos + ph); wrap(p) = p-float(int(p)); }; lerp(tab, pos, size) = (tab(i1), tab(i2)) : si.interpolate(mu) with { fracIndex = possize; i1 = int(fracIndex); i2 = (i1+1)%size; mu = fracIndex-float(i1); }; rsin(pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, abs(os.sinwaveform(ts)), i); }; sineTriWaveform(roundness, tablesize) = 1.-sin(2.ba.if(x<0.5, x, 1.-x)asin(a))/a with { a = max(0., min(1., roundness * 0.5 + 0.5)); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; sineTri(roundness, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, sineTriWaveform(roundness, ts), i); }; expTriWaveform(roundness, slopeUp, slopeDown, tablesize) = ba.if(x<0.5, expUp, expDown) with { normExp(a, b, x) = (1.-pow(a, -bx))/(1.-pow(a, -b)); expUp = 1.-normExp(roundness, slopeUp, (-x+0.5)2); expDown = 1.-normExp(roundness, slopeDown, (x-0.5)*2); x = wrap(float(ba.time)/float(tablesize)); wrap(p) = p-float(int(p)); }; expTri(roundness, slopeUp, slopeDown, pos) = lerp(tab, pos, ts) with { ts = 128; tab(i) = rdtable(ts, expTriWaveform(roundness, slopeUp, slopeDown, ts), i); }; process_mono(x) = mono_phaser(x, os.lf_sawpos(lf), bm); process_stereo(x1, x2) = stereo_phaser(x1, x2, os.lf_sawpos(lf), bm); process = process_mono;
1e6c1b4871124839e985d187b3bbf27c18639d7c68b809b26494fd116ebad3e2	jpcima/smf-dsp	reverb.dsp	// // Référence: // Dattorro, Jon. "Effect design, part 1: Reverberator and other filters." // Journal of the Audio Engineering Society 45.9 (1997): 660-684. // declare name "fverb"; declare author "Jean Pierre Cimalando"; declare version "0.5"; declare license "BSD-2-Clause"; import("stdfaust.lib"); ptMax = 300e-3; pt = 0.0;//hslider("[] Predelay [symbol:predelay] [unit:ms]", 0., 0., ptMax1e3, 1.) : (1e-3) : si.smoo; ing = 1.0;//hslider("[] Input amount [symbol:input] [unit:%]", 100., 0., 100., 0.01) : (0.01) : si.smoo; tone = 10000.0;//hslider("[] Input low-pass cutoff [symbol:input_lowpass] [unit:Hz] [scale:log]", 10000., 1., 20000., 1.); htone = 100.0;//hslider("[] Input high-pass cutoff [symbol:input_highpass] [unit:Hz] [scale:log]", 100., 1., 1000., 1.); id1 = 0.75;//hslider("[] Input diffusion 1 [symbol:input_diffusion_1] [unit:%]", 75., 0., 100., 0.01) : (0.01) : si.smoo; id2 = 0.625;//hslider("[] Input diffusion 2 [symbol:input_diffusion_2] [unit:%]", 62.5, 0., 100., 0.01) : (0.01) : si.smoo; dd1 = 0.07;//hslider("[] Tail density [symbol:tail_density] [unit:%]", 70., 0., 100., 0.01) : (0.01) : si.smoo; dd2 = (dr + 0.15) : max(0.25) : min(0.5); /* (cf. table 1 Reverberation parameters) / dr = hslider("[0] Decay [symbol:decay] [unit:%]", 50., 0., 100., 0.01) : (0.01);//: si.smoo; damp = 5500.0;//hslider("[] Damping [symbol:damping] [unit:Hz] [scale:log]", 5500., 10., 20000., 1.); modf = 1.0;//hslider("[] Modulator frequency [symbol:mod_frequency] [unit:Hz]", 1., 0.01, 4., 0.01) : si.smoo; maxModt = 10e-3; modt = 0.5e-3;//hslider("[] Modulator depth [symbol:mod_depth] [unit:ms]", 0.5, 0., maxModt1e3, 0.1) : (1e-3) : si.smoo; dry = 1.0;//hslider("[] Dry [symbol:dry] [unit:%]", 100., 0., 100., 0.01) : (0.01) : si.smoo; wet = hslider("[1] Wet [symbol:wet] [unit:%]", 50., 0., 100., 0.01) : (0.01);//: si.smoo; /* 0:full stereo, 1:full mono / cmix = 0.; //hslider("[] Stereo cross mix", 0., 0., 1., 0.01) : (0.5); /* for complete control of decay parameters / // dd1 = hslider("[] Decay diffusion 1 [unit:%]", 70., 0., 100., 0.01) : (0.01) : si.smoo; // dd2 = hslider("[] Decay diffusion 2 [unit:%]", 50., 0., 100., 0.01) : (0.01) : si.smoo; fverb(lIn, rIn) = ((preInL : preInjectorL), (preInR : preInjectorR)) : crossInjector(ff1A, ff1B, ff1C, fb1, ff2A, ff2B, ff2C, fb2) : outputReconstruction with { // this reverb was designed for nominal rate of 29761 Hz T(x) = x/refSR with { refSR = 29761.; }; // reference time to seconds // stereo input (reference was mono downmixed) preInL = (1.-cmix)lIn+cmixrIn : (ing); preInR = (1.-cmix)rIn+cmixlIn : (ing); / before entry into tank / / Note(jpc) different delays left and right in hope to decorrelate more. values not documented anywhere, just out of my magic hat / preInjectorL = predelay : toneLpf(tone) : toneHpf(htone) : diffusion(id1, 1.03T(142)) : diffusion(id1, 0.97T(107)) : diffusion(id2, 0.97T(379)) : diffusion(id2, 1.03T(277)); preInjectorR = predelay : toneLpf(tone) : toneHpf(htone) : diffusion(id1, 0.97T(142)) : diffusion(id1, 1.03T(107)) : diffusion(id2, 1.03T(379)) : diffusion(id2, 0.97T(277)); / the default for mixed down mono input / // preInjector = predelay : toneLpf(tone) : // diffusion(id1, T(142)) : diffusion(id1, T(107)) : // diffusion(id2, T(379)) : diffusion(id2, T(277)); / (cf. 1.3.7 Delay Modulation) Linear delay interpolation introduces undesired damping artifacts, this problem is resolved by using all-pass interpolation instead. Note(jpc) I'm told Dual Delay Interpolation aka `sdelay` works better and exhibits less artifacts. The choice of time constant is for now arbitrary, based on some hints in the documentation of `sdelay`. / fcomb = ddi(10e-3)/allpass/ with { linear = fi.allpass_fcomb; lagrange = fi.allpass_fcomb5; allpass = fi.allpass_fcomb1a; ddi(it, maxdel, N, aN) = (+ <: de.sdelay(maxdel, int(ma.SRit), N-1),(aN)) ~ (-aN) : mem,_ : +; }; delayDim(t) = 65536; // TODO(jpc) expression below does not work? //delayDim(t) = ma.nextpow2(tmaxSR) with { maxSR = 192000. }; predelay = de.delay(delayDim(ptMax), int(ptma.SR)); toneLpf(f) = fi.iir((1.-p), (0.-p)) with { p = exp(-2.ma.PIf/ma.SR) : si.smoo; }; toneHpf(f) = fi.iir((0.5(1.+p),-0.5(1.+p)), (0.-p)) with { p = exp(-2.ma.PIf/ma.SR) : si.smoo; }; /* note(jpc) round fixed delays to samples to make it faster / diffusion(amt, del) = fi.allpass_comb/fcomb/(delayDim(del), int(delma.SR), amt); dd1Mod1 = dd1OscPair : (_, !); //dd1Mod2 = dd1Mod1; /* (cf. 1.3.7 Delay Modulation) A different secondary oscillator can decorrelate the signal further and create more resonances. / dd1Mod2 = dd1OscPair : (!, _); / prefer a quadrature oscillator if frequency is fixed / //dd1OscPair = os.oscq(modf); / otherwise use a phase-synchronized pair / dd1OscPair = sine(p), cosine(p) with { sine(p) = rdtable(tablesize, os.sinwaveform(tablesize), int(ptablesize)); cosine(p) = sine(wrap(p+0.25)); tablesize = 1 << 16; } letrec { 'p = wrap(p+modf(1./ma.SR)); }; wrap(p) = p-int(p); fixedDelay(t) = de.delay(delayDim(t), int(ma.SRt)); modulatedFcomb(t, tMaxExc, tMod, g) = fcomb(delayDim(t+tMaxExc), int(ma.SR(t+tMod)), g); ff1A = modulatedFcomb(T(762), maxModt, dd1Mod1modt, ma.neg(dd1)); ff1B = fixedDelay(T(4453)) : toneLpf(damp); ff1C = (dr) : diffusion(ma.neg(dd2), T(1800)); fb1 = fixedDelay(T(3720)) : (dr); ff2A = modulatedFcomb(T(908), maxModt, dd1Mod2modt, ma.neg(dd1)); ff2B = fixedDelay(T(4217)) : toneLpf(damp); ff2C = (dr) : diffusion(ma.neg(dd2), T(2656)); fb2 = fixedDelay(T(3163)) : (dr); outputReconstruction(n1, n2, n3, n4, n5, n6) = 0.6sum(i, 7, lTap(i)), 0.6sum(i, 7, rTap(i)) with { lTap(0) = n4 : fixedDelay(T(266)); lTap(1) = n4 : fixedDelay(T(2974)); lTap(2) = n5 : fixedDelay(T(1913)) : ma.neg; lTap(3) = n6 : fixedDelay(T(1996)); lTap(4) = n1 : fixedDelay(T(1990)) : ma.neg; lTap(5) = n2 : fixedDelay(T(187)) : ma.neg; lTap(6) = n3 : fixedDelay(T(1066)) : ma.neg; // rTap(0) = n1 : fixedDelay(T(353)); rTap(1) = n1 : fixedDelay(T(3627)); rTap(2) = n2 : fixedDelay(T(1228)) : ma.neg; rTap(3) = n3 : fixedDelay(T(2673)); rTap(4) = n4 : fixedDelay(T(2111)) : ma.neg; rTap(5) = n5 : fixedDelay(T(335)) : ma.neg; rTap(6) = n6 : fixedDelay(T(121)) : ma.neg; }; / * A1 B1 C1 * ^ ^ ^ * \| \| \| * in1 -> [+] ----> [ . ff1 . ] >--.---. * ^ \| * \| \| * .----< [fb1] <--- [z-1] <-------. * \| \| * .----< [fb2] <--- [z-1] <---. \| * \| \| * v \| * in2 -> [+] ----> [ . ff2 . ] >--.-------. * \| \| \| * v v v * A2 B2 C2 * * note: implicit unit delay in the feedback paths / crossInjector( ff1A, ff1B, ff1C, fb1, ff2A, ff2B, ff2C, fb2, in1, in2) = A1, B1, C1, A2, B2, C2 letrec { 'A1 = C2 : fb1 : +(in1) : ff1A; 'B1 = C2 : fb1 : +(in1) : ff1A : ff1B; 'C1 = C2 : fb1 : +(in1) : ff1A : ff1B : ff1C; 'A2 = C1 : fb2 : +(in2) : ff2A; 'B2 = C1 : fb2 : +(in2) : ff2A : ff2B; 'C2 = C1 : fb2 : +(in2) : ff2A : ff2B : ff2C; }; }; process(l, r) = fverb(l, r) : mix with { mix(rl, rr) = dryl+wetrl, dryr+wet*rr; };	https://raw.githubusercontent.com/jpcima/smf-dsp/bdc5f453369caf7b3c67e7ad661e0901b2fb2aed/sources/audio/reverb.dsp	faust	Référence: Dattorro, Jon. "Effect design, part 1: Reverberator and other filters." Journal of the Audio Engineering Society 45.9 (1997): 660-684. hslider("[] Predelay [symbol:predelay] [unit:ms]", 0., 0., ptMax1e3, 1.) : (1e-3) : si.smoo; hslider("[] Input amount [symbol:input] [unit:%]", 100., 0., 100., 0.01) : (0.01) : si.smoo; hslider("[] Input low-pass cutoff [symbol:input_lowpass] [unit:Hz] [scale:log]", 10000., 1., 20000., 1.); hslider("[] Input high-pass cutoff [symbol:input_highpass] [unit:Hz] [scale:log]", 100., 1., 1000., 1.); hslider("[] Input diffusion 1 [symbol:input_diffusion_1] [unit:%]", 75., 0., 100., 0.01) : (0.01) : si.smoo; hslider("[] Input diffusion 2 [symbol:input_diffusion_2] [unit:%]", 62.5, 0., 100., 0.01) : (0.01) : si.smoo; hslider("[] Tail density [symbol:tail_density] [unit:%]", 70., 0., 100., 0.01) : (0.01) : si.smoo; (cf. table 1 Reverberation parameters) : si.smoo; hslider("[] Damping [symbol:damping] [unit:Hz] [scale:log]", 5500., 10., 20000., 1.); hslider("[] Modulator frequency [symbol:mod_frequency] [unit:Hz]", 1., 0.01, 4., 0.01) : si.smoo; hslider("[] Modulator depth [symbol:mod_depth] [unit:ms]", 0.5, 0., maxModt1e3, 0.1) : (1e-3) : si.smoo; hslider("[] Dry [symbol:dry] [unit:%]", 100., 0., 100., 0.01) : (0.01) : si.smoo; : si.smoo; 0:full stereo, 1:full mono hslider("[] Stereo cross mix", 0., 0., 1., 0.01) : (0.5); for complete control of decay parameters dd1 = hslider("[] Decay diffusion 1 [unit:%]", 70., 0., 100., 0.01) : (0.01) : si.smoo; dd2 = hslider("[] Decay diffusion 2 [unit:%]", 50., 0., 100., 0.01) : (0.01) : si.smoo; this reverb was designed for nominal rate of 29761 Hz reference time to seconds stereo input (reference was mono downmixed) before entry into tank Note(jpc) different delays left and right in hope to decorrelate more. values not documented anywhere, just out of my magic hat the default for mixed down mono input preInjector = predelay : toneLpf(tone) : diffusion(id1, T(142)) : diffusion(id1, T(107)) : diffusion(id2, T(379)) : diffusion(id2, T(277)); (cf. 1.3.7 Delay Modulation) Linear delay interpolation introduces undesired damping artifacts, this problem is resolved by using all-pass interpolation instead. Note(jpc) I'm told Dual Delay Interpolation aka `sdelay` works better and exhibits less artifacts. The choice of time constant is for now arbitrary, based on some hints in the documentation of `sdelay`. allpass TODO(jpc) expression below does not work? delayDim(t) = ma.nextpow2(tmaxSR) with { maxSR = 192000. }; note(jpc) round fixed delays to samples to make it faster fcomb dd1Mod2 = dd1Mod1; (cf. 1.3.7 Delay Modulation) A different secondary oscillator can decorrelate the signal further and create more resonances. prefer a quadrature oscillator if frequency is fixed dd1OscPair = os.oscq(modf); otherwise use a phase-synchronized pair A1 B1 C1 * ^ ^ ^ * \| \| \| * in1 -> [+] ----> [ . ff1 . ] >--.---. * ^ \| * \| \| * .----< [fb1] <--- [z-1] <-------. * \| \| * .----< [fb2] <--- [z-1] <---. \| * \| \| * v \| * in2 -> [+] ----> [ . ff2 . ] >--.-------. * \| \| \| * v v v * A2 B2 C2 * * note: implicit unit delay in the feedback paths	declare name "fverb"; declare author "Jean Pierre Cimalando"; declare version "0.5"; declare license "BSD-2-Clause"; import("stdfaust.lib"); ptMax = 300e-3; maxModt = 10e-3; fverb(lIn, rIn) = ((preInL : preInjectorL), (preInR : preInjectorR)) : crossInjector(ff1A, ff1B, ff1C, fb1, ff2A, ff2B, ff2C, fb2) : outputReconstruction with { preInL = (1.-cmix)lIn+cmixrIn : (ing); preInR = (1.-cmix)rIn+cmixlIn : (ing); preInjectorL = predelay : toneLpf(tone) : toneHpf(htone) : diffusion(id1, 1.03T(142)) : diffusion(id1, 0.97T(107)) : diffusion(id2, 0.97T(379)) : diffusion(id2, 1.03T(277)); preInjectorR = predelay : toneLpf(tone) : toneHpf(htone) : diffusion(id1, 0.97T(142)) : diffusion(id1, 1.03T(107)) : diffusion(id2, 1.03T(379)) : diffusion(id2, 0.97T(277)); linear = fi.allpass_fcomb; lagrange = fi.allpass_fcomb5; allpass = fi.allpass_fcomb1a; ddi(it, maxdel, N, aN) = (+ <: de.sdelay(maxdel, int(ma.SRit), N-1),(aN)) ~ (-aN) : mem,_ : +; }; predelay = de.delay(delayDim(ptMax), int(ptma.SR)); toneLpf(f) = fi.iir((1.-p), (0.-p)) with { p = exp(-2.ma.PIf/ma.SR) : si.smoo; }; toneHpf(f) = fi.iir((0.5(1.+p),-0.5(1.+p)), (0.-p)) with { p = exp(-2.ma.PIf/ma.SR) : si.smoo; }; dd1Mod1 = dd1OscPair : (_, !); dd1Mod2 = dd1OscPair : (!, _); dd1OscPair = sine(p), cosine(p) with { sine(p) = rdtable(tablesize, os.sinwaveform(tablesize), int(ptablesize)); cosine(p) = sine(wrap(p+0.25)); tablesize = 1 << 16; } letrec { 'p = wrap(p+modf(1./ma.SR)); }; wrap(p) = p-int(p); fixedDelay(t) = de.delay(delayDim(t), int(ma.SRt)); modulatedFcomb(t, tMaxExc, tMod, g) = fcomb(delayDim(t+tMaxExc), int(ma.SR(t+tMod)), g); ff1A = modulatedFcomb(T(762), maxModt, dd1Mod1modt, ma.neg(dd1)); ff1B = fixedDelay(T(4453)) : toneLpf(damp); ff1C = (dr) : diffusion(ma.neg(dd2), T(1800)); fb1 = fixedDelay(T(3720)) : (dr); ff2A = modulatedFcomb(T(908), maxModt, dd1Mod2modt, ma.neg(dd1)); ff2B = fixedDelay(T(4217)) : toneLpf(damp); ff2C = (dr) : diffusion(ma.neg(dd2), T(2656)); fb2 = fixedDelay(T(3163)) : (dr); outputReconstruction(n1, n2, n3, n4, n5, n6) = 0.6sum(i, 7, lTap(i)), 0.6sum(i, 7, rTap(i)) with { lTap(0) = n4 : fixedDelay(T(266)); lTap(1) = n4 : fixedDelay(T(2974)); lTap(2) = n5 : fixedDelay(T(1913)) : ma.neg; lTap(3) = n6 : fixedDelay(T(1996)); lTap(4) = n1 : fixedDelay(T(1990)) : ma.neg; lTap(5) = n2 : fixedDelay(T(187)) : ma.neg; lTap(6) = n3 : fixedDelay(T(1066)) : ma.neg; rTap(0) = n1 : fixedDelay(T(353)); rTap(1) = n1 : fixedDelay(T(3627)); rTap(2) = n2 : fixedDelay(T(1228)) : ma.neg; rTap(3) = n3 : fixedDelay(T(2673)); rTap(4) = n4 : fixedDelay(T(2111)) : ma.neg; rTap(5) = n5 : fixedDelay(T(335)) : ma.neg; rTap(6) = n6 : fixedDelay(T(121)) : ma.neg; }; crossInjector( ff1A, ff1B, ff1C, fb1, ff2A, ff2B, ff2C, fb2, in1, in2) = A1, B1, C1, A2, B2, C2 letrec { 'A1 = C2 : fb1 : +(in1) : ff1A; 'B1 = C2 : fb1 : +(in1) : ff1A : ff1B; 'C1 = C2 : fb1 : +(in1) : ff1A : ff1B : ff1C; 'A2 = C1 : fb2 : +(in2) : ff2A; 'B2 = C1 : fb2 : +(in2) : ff2A : ff2B; 'C2 = C1 : fb2 : +(in2) : ff2A : ff2B : ff2C; }; }; process(l, r) = fverb(l, r) : mix with { mix(rl, rr) = dryl+wetrl, dryr+wetrr; };
b86f2b32bbb7c1717de51ec52e7a4453eb9659f205679483fc0676a66e55dad2	ohmic-net/puca_dsp	picodsp_mics_omnidirectional.dsp	import("stdfaust.lib"); fs = 48000; // pico dsp left(L) microphone is the one closest to the TRS connectors, right(R) microphone is the one closest to the RF antenna // L = _ : fi.dcblocker; // adjust for mic input dc offset, which is ~ 0.7v R = _ : fi.dcblocker; // omnidirectional // process = L, R; // comment out this line for both mics in omnidirectional configuration // broadside array (sound at 90 and 270 degrees off axis is attenuated) // // (for an array with 2 microphones where d (the distance between the microphones) is = 14.29mm and /// the speed of sound(c) is 343 m/sec, there should be a perfect null at ~ 12kHz (0.5 x c/fs) // (343 m/sec ÷ (0.01429 m × 2) = 12kHz //process = L, R : +; // comment out this line for broadside array configuration // differential endfire array (directional, cardiod/hypercardiod pickup pattern) // // delay the signal from the back microphone by the same time that it takes the sound to travel between the two microphones, and subtract it (or invert and sum) from the front microphone signal // mic spacing is (d = n x c/fs), where n = number of samples to delay // 14.29 = 2 x (343/48000) //process = L @3, R: -; // differential endfire array //process = L @2 *-1, R: +; // differential endfire array, invert and sum	https://raw.githubusercontent.com/ohmic-net/puca_dsp/c67cf39735fd3049e1f5ce481bc334294543cb2c/puca_dsp-arduino/original%20edition/arduino-pico_dsp_mics_omnidirectional/picodsp_mics_omnidirectional.dsp	faust	pico dsp left(L) microphone is the one closest to the TRS connectors, right(R) microphone is the one closest to the RF antenna // adjust for mic input dc offset, which is ~ 0.7v omnidirectional // comment out this line for both mics in omnidirectional configuration broadside array (sound at 90 and 270 degrees off axis is attenuated) // (for an array with 2 microphones where d (the distance between the microphones) is = 14.29mm and /// the speed of sound(c) is 343 m/sec, there should be a perfect null at ~ 12kHz (0.5 x c/fs) (343 m/sec ÷ (0.01429 m × 2) = 12kHz process = L, R : +; // comment out this line for broadside array configuration differential endfire array (directional, cardiod/hypercardiod pickup pattern) // delay the signal from the back microphone by the same time that it takes the sound to travel between the two microphones, and subtract it (or invert and sum) from the front microphone signal mic spacing is (d = n x c/fs), where n = number of samples to delay // 14.29 = 2 x (343/48000) process = L @3, R: -; // differential endfire array process = L @2 *-1, R: +; // differential endfire array, invert and sum	import("stdfaust.lib"); fs = 48000; R = _ : fi.dcblocker;
b3891800c56989e5698f81b4f590d2a8ecf5bb05434262841eb303f93acd6efc	ohmic-net/puca_dsp	puca_dsp_mic_array.dsp	import("stdfaust.lib"); // fs = 48000; // or fs = 24000; // puca dsp left(L) microphone is the one closest to the TRS connectors, right(R) microphone is the one closest to the RF antenna // mic spacing is (d = n x v/fs), where n = number of samples to delay // 1 x (343/24000) = 14.29mm L = _ : fi.dcblocker; // adjust for mic input dc offset, which is ~ 0.7v R = _ : fi.dcblocker; // omnidirectional // //process = L, R; // comment out this line for both mics in omnidirectional configuration // broadside array (sound at 90 and 270 degrees off axis is attenuated) // // (for an array with 2 microphones where d (the distance between the microphones) is = 14.29mm and /// the velocity of sound(v) is 343 m/sec, there should be a perfect null at ~ 12kHz (0.5 x v/fs) // (343 m/sec ÷ (0.01429 m × 2) = 12kHz //process = L, R : +; // comment out this line for broadside array configuration // differential endfire array (directional, cardiod/hypercardiod pickup pattern) // // delay the signal from the back microphone by the same time that it takes the sound to travel between the two microphones, and subtract it (or invert and sum) from the front microphone signal process = L @6, R: -; // differential endfire array //process = L @3 *-1, R: +; // differential endfire array, invert and sum	https://raw.githubusercontent.com/ohmic-net/puca_dsp/c67cf39735fd3049e1f5ce481bc334294543cb2c/puca_dsp-platformio-arduino-esp32/strawberry%20edition/arduino-esp32_puca_dsp_mics_endfire_array/puca_dsp_mic_array.dsp	faust	fs = 48000; // or fs = 24000; puca dsp left(L) microphone is the one closest to the TRS connectors, right(R) microphone is the one closest to the RF antenna mic spacing is (d = n x v/fs), where n = number of samples to delay // 1 x (343/24000) = 14.29mm adjust for mic input dc offset, which is ~ 0.7v omnidirectional // process = L, R; // comment out this line for both mics in omnidirectional configuration broadside array (sound at 90 and 270 degrees off axis is attenuated) // (for an array with 2 microphones where d (the distance between the microphones) is = 14.29mm and /// the velocity of sound(v) is 343 m/sec, there should be a perfect null at ~ 12kHz (0.5 x v/fs) (343 m/sec ÷ (0.01429 m × 2) = 12kHz process = L, R : +; // comment out this line for broadside array configuration differential endfire array (directional, cardiod/hypercardiod pickup pattern) // delay the signal from the back microphone by the same time that it takes the sound to travel between the two microphones, and subtract it (or invert and sum) from the front microphone signal differential endfire array process = L @3 *-1, R: +; // differential endfire array, invert and sum	import("stdfaust.lib"); R = _ : fi.dcblocker;
005f001d88046113f1c8f3e85bf2b6c2a5968e0359ae2b4a545e33d3f2767fc7	rhinocerose/eurorack-modularev	mooSpace.dsp	declare name "mooSpace"; declare description "variable space reverberation audio effect"; declare author "Arev Imer ([email protected])"; declare copyright "Arev"; declare version "0.2"; declare options "[midi:on]"; import("stdfaust.lib"); MAX_DIFF = 9.5; MAX_LATE = 5; MAX_MOD = 150; MAX_LAG = 2^15-2; diff_mult = hslider("smear[midi:ctrl 11]", 0.5, 0, 1, 0.001) : si.smoo: _ * MAX_DIFF; late_diff = hslider("drag", 0.5, 0, 1, 0.001) : si.smoo: _ * MAX_LATE ; mod = hslider("modulate", 0.02, 0, 1, 0.001) : si.smoo * MAX_MOD * rand with { rand = (0.5 * (1 + no.lfnoiseN(3,5))); sine = (2os.lf_sawpos(2)) ma.PI : (sin + 1)0.5; }; decay = hslider("decay", 0.3, 0, 1., 0.001) : sqrt : si.smoo; predelay = hslider("lag", 0, 0, 1, 0.001) : si.smoo: _ (MAX_LAG - 1); damp = hslider("colour", 0.1, 0, 1, 0.01) : si.smoo; ducktime = 0.2 * (dtime / 2); dist_amt = hslider("push", 0, 0, 1, 0.01) : si.smoo; filt_ctrl = hslider("Filter", 0.5, 0, 1, 0.01) : si.smoo ; diff_ctrl = hslider("input diffusion", 0.5, 0, 1, 0.01) : si.smoo : _ * 1.3 ; lp_freq = filt_ctrl : clip(0.0, 0.48) * 2.083 <: * : _ * 15900 : _ + 100 ; hp_freq = filt_ctrl : (clip(0.52, 1) - 0.52) * 2.083 <: : _ 4980 : _ + 20 ; rev_mix = hslider("mix", 0.5, 0, 1, 0.01) : si.smoo; // Parameters i_diff_1 = 0.75; i_diff_2 = 0.625; d_diff_1 = 0.7; d_diff_2 = 0.5; dt_idl_1 = 142; dt_idl_2 = 107; dt_idl_3 = 379; dt_idl_4 = 277; dt_fbd_l1 = 151; dt_fbd_l2 = 101; dt_fbd_l3 = 367; dt_fbd_l4 = 281; dt_fbd_r1 = 149; dt_fbd_r2 = 113; dt_fbd_r3 = 397; dt_fbd_r4 = 283; dt_late_l1 = 672; dt_late_l2 = 1800; dt_late_r1 = 908; dt_late_r2 = 2656; rev_dt_1 = 4453; rev_dt_2 = 3720; rev_dt_3 = 4217; rev_dt_4 = 3163; // Functions swap = _,_ <: !,_,_,!; //clip(lower, upper, x) = min(upper,max(x,lower)); clip(lo, hi) = min(hi) : max(lo); balance(mix, dry_l, wet_l, dry_r, wet_r) = sel(mix, dry_l, wet_l), sel(mix, dry_r, wet_r) with { sel(mix, dry, wet) = (1-mix) * dry + mix * wet; }; allpass(dmax, dt, coeff) = (+ <: de.fdelay(dmax, dt-1),(coeff)) ~ (-coeff) : mem,_ : + ; bandwidth(x) = _ * x : + ~ (mem * (1 - x)); damping(x) = _ * (1 - x) : + ~ (mem * x); filter_q = filt_ctrl : clip(0.4, 0.6) - 0.4 : _ * 10 - 1 : abs : _ * (3-2decay) : max(0.1,_) ; tank_filter = fi.resonlp(lp_freq, filter_q 0.5, 1) : fi.resonhp(hp_freq, filter_q * 0.5, 1); input_diff = allpass(MAX_DIFF * dt_idl_1, diff_mult * dt_idl_1+mod, i_diff_1 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_2, diff_mult * dt_idl_2+mod, i_diff_1 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_3, diff_mult * dt_idl_3+mod, i_diff_2 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_4, diff_mult * dt_idl_4+mod, i_diff_2 * diff_ctrl) : _; feedback_diff_l = allpass(MAX_DIFF * dt_fbd_l1, diff_mult * dt_fbd_l1+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_l2, diff_mult * dt_fbd_l2+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_l3, diff_mult * dt_fbd_l3+mod, i_diff_2) : allpass(MAX_DIFF * dt_fbd_l4, diff_mult * dt_fbd_l4+mod, i_diff_2) : _; feedback_diff_r = allpass(MAX_DIFF * dt_fbd_r1, diff_mult * dt_fbd_r1+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_r2, diff_mult * dt_fbd_r2+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_r3, diff_mult * dt_fbd_r3+mod, i_diff_2) : allpass(MAX_DIFF * dt_fbd_r4, diff_mult * dt_fbd_r4+mod, i_diff_2) : _; multi_tap_allpass_l(dt, coeff) = (+ <: de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff * dt - 1 + mod), * (coeff), de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff(dt/9.63)),de.fdelay(MAX_LATE dt + MAX_MOD, late_diff(dt/1.46))) ~( (-coeff), !, !, !) : mem, _, _, _ : +(_, _), _, _; multi_tap_allpass_r(dt, coeff) = (+ <: de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff * dt - 1 + mod), * (coeff), de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff(dt/7.93)),de.fdelay(MAX_LATE dt + MAX_MOD, late_diff(dt/1.39))) ~( (-coeff), !, !, !) : mem, _, _, _ : +(_, _), _, _; left_side = _ * (2decay), _ : + : tank_filter : co.compressor_mono(8, -3, 0.5, 1) : allpass(MAX_LATE dt_late_l1 + MAX_MOD, late_diff * dt_late_l1 + mod, -d_diff_1) <: de.fdelay(rev_dt_1, rev_dt_1), de.fdelay(rev_dt_1, (rev_dt_1/2.23)), // node24_30[1990] -> L- de.fdelay(rev_dt_1, late_diff * (rev_dt_1/12.61)), // node24_30[353] -> R+ de.fdelay(rev_dt_1, (rev_dt_1/1.23)) : // node24_30[3627] -> R+ damping(damp), _, _+_ : decay * 1.5 * _, _, _ : (multi_tap_allpass_l(dt_late_l2, d_diff_2), _, _) <: // node31_33[187] -> L-, node31_33[1228] -> R- de.fdelay(rev_dt_2, rev_dt_2), _, _, _, _, de.fdelay(rev_dt_2, (rev_dt_2/1.39)), !, !, !, !, // node33_39[2673] -> R+ de.fdelay(rev_dt_2, (rev_dt_2/3.49)), !, !, !, ! : // node33_39[1066] -> L- _ * decay * 1.5, _/Lmult-/,/Rmult-/ swap/Lprev-/, _/Rsum+/, _/R+/, _/L-/ : _, _, _, 0.6((-1 _) + _ + _), _ : _, _, _, swap : _, 0.6((-1 _) - _ - _), _; // 2nd GOING TO LEFT OUT / 3rd GOING TO RIGHT OUT right_side = _ * (2decay), _ : + : tank_filter : co.compressor_mono(8, -3, 0.1, 1) : allpass(MAX_LATE dt_late_r1 + MAX_MOD, late_diff * dt_late_r1 + mod, -d_diff_1) <: de.fdelay(rev_dt_3, rev_dt_3), de.fdelay(rev_dt_3, (rev_dt_3/2.0)), // node48_54[2111] -> R- de.fdelay(rev_dt_3, late_diff * (rev_dt_3/15.85)), // node48_54[266] -> L+ de.fdelay(rev_dt_3, (rev_dt_3/1.42)) : // node48_54[2974]-> L+ damping(damp), _, _ + _ : decay * 1.5 * _, _, _ : (multi_tap_allpass_r(dt_late_r2, d_diff_2), _, _) <: // node55_59[335] -> R-, node55_59[1913] -> L- de.fdelay(rev_dt_4, rev_dt_4), _, _, _, _, de.fdelay(rev_dt_4, late_diff * (rev_dt_4/26.14)), !, !, !, !, // node59_63[121] -> L- de.fdelay(rev_dt_4, (rev_dt_4 / 1.58)), !, !, !, !: // node59_63[1996] -> R+ _ * decay * 1.5, _/Rmult-/,/Lmult-/swap/Rprev-/, _/Lsum/, _/L-/, _/R+/ : _, _, _, 0.6((-1 _) + _ - _), _ : _, _, _, swap : _, 0.6((-1 _) - _ + _), _ : // 2nd GOING TO RIGHT OUT / 3rd GOING TO LEFT OUT _, swap; // 2nd GOING TO LEFT OUT / 3rd GOING TO RIGHT OUT input_proc = par(i,2, de.fdelay(MAX_LAG, predelay) : input_diff); limiter = co.compressor_stereo(40,-1.5,0.0008,0.1); distortion_stereo(distortion) = par(i,2,cubic_distort(distortion, 0)) with { cubic_distort(drive, offset) = * (pregain) : + (offset) : clip(-1, 1) : cubic with { pregain = pow(10.0, 2 * drive); clip(lo, hi) = min(hi) : max(lo); cubic(x) = x - xxx / 3; postgain = max(1.0, 1.0 / pregain); }; }; process = _ ,_ : distortion_stereo(dist_amt) <: // split L/R to dry and wet (_, // left ch dry (input_proc) // left/right to 2 ch , _) : // right ch dry (_, // left ch dry (_, // 1st in left_side swap, // swap 3 & 2 that feedback goes to 1st in on right_side _ : // 2nd in right_side (left_side, right_side): _, _, swap, _, _ : _, swap, _, _, _) ~ (swap : feedback_diff_l, feedback_diff_r : co.compressor_stereo(6, -6, 0.1, 0.5))), _ : // right ch dry _, !, !, _, swap, _, _ : _, (_ ,_ :> _), (_, _ :> _), _ : _, _, swap : balance(rev_mix) :fi.dcblocker, fi.dcblocker : limiter;	https://raw.githubusercontent.com/rhinocerose/eurorack-modularev/0da6b85bbd3564c98ff45eb650747f4e9a911c48/Nemesis-hw-rev-2/software/examples/mooSpace/src/mooSpace.dsp	faust	Parameters Functions clip(lower, upper, x) = min(upper,max(x,lower)); node24_30[1990] -> L- node24_30[353] -> R+ node24_30[3627] -> R+ node31_33[187] -> L-, node31_33[1228] -> R- node33_39[2673] -> R+ node33_39[1066] -> L- Lmult- Rmult- Lprev- Rsum+ R+ L- 2nd GOING TO LEFT OUT / 3rd GOING TO RIGHT OUT node48_54[2111] -> R- node48_54[266] -> L+ node48_54[2974]-> L+ node55_59[335] -> R-, node55_59[1913] -> L- node59_63[121] -> L- node59_63[1996] -> R+ Rmult- Lmult- Rprev- Lsum L- R+ 2nd GOING TO RIGHT OUT / 3rd GOING TO LEFT OUT 2nd GOING TO LEFT OUT / 3rd GOING TO RIGHT OUT split L/R to dry and wet left ch dry left/right to 2 ch right ch dry left ch dry 1st in left_side swap 3 & 2 that feedback goes to 1st in on right_side 2nd in right_side right ch dry	declare name "mooSpace"; declare description "variable space reverberation audio effect"; declare author "Arev Imer ([email protected])"; declare copyright "Arev"; declare version "0.2"; declare options "[midi:on]"; import("stdfaust.lib"); MAX_DIFF = 9.5; MAX_LATE = 5; MAX_MOD = 150; MAX_LAG = 2^15-2; diff_mult = hslider("smear[midi:ctrl 11]", 0.5, 0, 1, 0.001) : si.smoo: _ * MAX_DIFF; late_diff = hslider("drag", 0.5, 0, 1, 0.001) : si.smoo: _ * MAX_LATE ; mod = hslider("modulate", 0.02, 0, 1, 0.001) : si.smoo * MAX_MOD * rand with { rand = (0.5 * (1 + no.lfnoiseN(3,5))); sine = (2os.lf_sawpos(2)) ma.PI : (sin + 1)0.5; }; decay = hslider("decay", 0.3, 0, 1., 0.001) : sqrt : si.smoo; predelay = hslider("lag", 0, 0, 1, 0.001) : si.smoo: _ (MAX_LAG - 1); damp = hslider("colour", 0.1, 0, 1, 0.01) : si.smoo; ducktime = 0.2 * (dtime / 2); dist_amt = hslider("push", 0, 0, 1, 0.01) : si.smoo; filt_ctrl = hslider("Filter", 0.5, 0, 1, 0.01) : si.smoo ; diff_ctrl = hslider("input diffusion", 0.5, 0, 1, 0.01) : si.smoo : _ * 1.3 ; lp_freq = filt_ctrl : clip(0.0, 0.48) * 2.083 <: * : _ * 15900 : _ + 100 ; hp_freq = filt_ctrl : (clip(0.52, 1) - 0.52) * 2.083 <: : _ 4980 : _ + 20 ; rev_mix = hslider("mix", 0.5, 0, 1, 0.01) : si.smoo; i_diff_1 = 0.75; i_diff_2 = 0.625; d_diff_1 = 0.7; d_diff_2 = 0.5; dt_idl_1 = 142; dt_idl_2 = 107; dt_idl_3 = 379; dt_idl_4 = 277; dt_fbd_l1 = 151; dt_fbd_l2 = 101; dt_fbd_l3 = 367; dt_fbd_l4 = 281; dt_fbd_r1 = 149; dt_fbd_r2 = 113; dt_fbd_r3 = 397; dt_fbd_r4 = 283; dt_late_l1 = 672; dt_late_l2 = 1800; dt_late_r1 = 908; dt_late_r2 = 2656; rev_dt_1 = 4453; rev_dt_2 = 3720; rev_dt_3 = 4217; rev_dt_4 = 3163; swap = _,_ <: !,_,_,!; clip(lo, hi) = min(hi) : max(lo); balance(mix, dry_l, wet_l, dry_r, wet_r) = sel(mix, dry_l, wet_l), sel(mix, dry_r, wet_r) with { sel(mix, dry, wet) = (1-mix) * dry + mix * wet; }; allpass(dmax, dt, coeff) = (+ <: de.fdelay(dmax, dt-1),(coeff)) ~ (-coeff) : mem,_ : + ; bandwidth(x) = _ * x : + ~ (mem * (1 - x)); damping(x) = _ * (1 - x) : + ~ (mem * x); filter_q = filt_ctrl : clip(0.4, 0.6) - 0.4 : _ * 10 - 1 : abs : _ * (3-2decay) : max(0.1,_) ; tank_filter = fi.resonlp(lp_freq, filter_q 0.5, 1) : fi.resonhp(hp_freq, filter_q * 0.5, 1); input_diff = allpass(MAX_DIFF * dt_idl_1, diff_mult * dt_idl_1+mod, i_diff_1 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_2, diff_mult * dt_idl_2+mod, i_diff_1 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_3, diff_mult * dt_idl_3+mod, i_diff_2 * diff_ctrl) : allpass(MAX_DIFF * dt_idl_4, diff_mult * dt_idl_4+mod, i_diff_2 * diff_ctrl) : _; feedback_diff_l = allpass(MAX_DIFF * dt_fbd_l1, diff_mult * dt_fbd_l1+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_l2, diff_mult * dt_fbd_l2+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_l3, diff_mult * dt_fbd_l3+mod, i_diff_2) : allpass(MAX_DIFF * dt_fbd_l4, diff_mult * dt_fbd_l4+mod, i_diff_2) : _; feedback_diff_r = allpass(MAX_DIFF * dt_fbd_r1, diff_mult * dt_fbd_r1+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_r2, diff_mult * dt_fbd_r2+mod, i_diff_1) : allpass(MAX_DIFF * dt_fbd_r3, diff_mult * dt_fbd_r3+mod, i_diff_2) : allpass(MAX_DIFF * dt_fbd_r4, diff_mult * dt_fbd_r4+mod, i_diff_2) : _; multi_tap_allpass_l(dt, coeff) = (+ <: de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff * dt - 1 + mod), * (coeff), de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff(dt/9.63)),de.fdelay(MAX_LATE dt + MAX_MOD, late_diff(dt/1.46))) ~( (-coeff), !, !, !) : mem, _, _, _ : +(_, _), _, _; multi_tap_allpass_r(dt, coeff) = (+ <: de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff * dt - 1 + mod), * (coeff), de.fdelay(MAX_LATE * dt + MAX_MOD, late_diff(dt/7.93)),de.fdelay(MAX_LATE dt + MAX_MOD, late_diff(dt/1.39))) ~( (-coeff), !, !, !) : mem, _, _, _ : +(_, _), _, _; left_side = _ * (2decay), _ : + : tank_filter : co.compressor_mono(8, -3, 0.5, 1) : allpass(MAX_LATE dt_late_l1 + MAX_MOD, late_diff * dt_late_l1 + mod, -d_diff_1) <: de.fdelay(rev_dt_1, rev_dt_1), damping(damp), _, _+_ : decay * 1.5 * _, _, _ : de.fdelay(rev_dt_2, rev_dt_2), _, _, _, _, _, _, _, 0.6((-1 _) + _ + _), _ : _, _, _, swap : right_side = _ * (2decay), _ : + : tank_filter : co.compressor_mono(8, -3, 0.1, 1) : allpass(MAX_LATE dt_late_r1 + MAX_MOD, late_diff * dt_late_r1 + mod, -d_diff_1) <: de.fdelay(rev_dt_3, rev_dt_3), damping(damp), _, _ + _ : decay * 1.5 * _, _, _ : de.fdelay(rev_dt_4, rev_dt_4), _, _, _, _, _, _, _, 0.6((-1 _) + _ - _), _ : _, _, _, swap : input_proc = par(i,2, de.fdelay(MAX_LAG, predelay) : input_diff); limiter = co.compressor_stereo(40,-1.5,0.0008,0.1); distortion_stereo(distortion) = par(i,2,cubic_distort(distortion, 0)) with { cubic_distort(drive, offset) = * (pregain) : + (offset) : clip(-1, 1) : cubic with { pregain = pow(10.0, 2 * drive); clip(lo, hi) = min(hi) : max(lo); cubic(x) = x - xxx / 3; postgain = max(1.0, 1.0 / pregain); }; }; process = _ ,_ : distortion_stereo(dist_amt) (left_side, right_side): _, _, swap, _, _ : _, swap, _, _, _) ~ (swap : feedback_diff_l, feedback_diff_r : co.compressor_stereo(6, -6, 0.1, 0.5))), _, !, !, _, swap, _, _ : _, (_ ,_ :> _), (_, _ :> _), _ : _, _, swap : balance(rev_mix) :fi.dcblocker, fi.dcblocker : limiter;
da0ce3a42da2e06348f0e00e7b99ff668bf66431dc3bce1b73c313efc9547e24	dxinteractive/mosfez-faust-dsp	noteplayer.dsp	import("stdfaust.lib"); tune1 = waveform{69,-1,73,-1,71,73,71,0}; tune2 = waveform{73,-1,76,-1,74,76,74,0}; tune3 = waveform{45,-1,0,0,40,-1,0,0}; tunePlayer(tune) = tuneGate,tuneFreq with { tuneNow = tune,int(os.phasor(8,1.0)) : rdtable; tuneGate = tuneNow > 0 : ba.sAndH(tuneNow != 0); tuneFreq = tuneNow : ba.sAndH(tuneNow > 0); }; vibrato = +(os.osc(10.0) * 0.2); synth(gate) = vibrato : ba.midikey2hz : os.osc : (gate) : (0.1); voice1 = tunePlayer(tune1) : synth; voice2 = tunePlayer(tune2) : synth; voice3 = tunePlayer(tune3) : synth; process = voice1 + voice2 + voice3 <: _,_;	https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/a2d7029a6d7ebe31e5bce808c3bc225420426984/noteplayer/noteplayer.dsp	faust		import("stdfaust.lib"); tune1 = waveform{69,-1,73,-1,71,73,71,0}; tune2 = waveform{73,-1,76,-1,74,76,74,0}; tune3 = waveform{45,-1,0,0,40,-1,0,0}; tunePlayer(tune) = tuneGate,tuneFreq with { tuneNow = tune,int(os.phasor(8,1.0)) : rdtable; tuneGate = tuneNow > 0 : ba.sAndH(tuneNow != 0); tuneFreq = tuneNow : ba.sAndH(tuneNow > 0); }; vibrato = +(os.osc(10.0) * 0.2); synth(gate) = vibrato : ba.midikey2hz : os.osc : (gate) : (0.1); voice1 = tunePlayer(tune1) : synth; voice2 = tunePlayer(tune2) : synth; voice3 = tunePlayer(tune3) : synth; process = voice1 + voice2 + voice3 <: _,_;
23bd595d6e4ae8c3bdec1c2cada8ef04cdc302a1cc224f1e6f5ff46cfadf5960	dxinteractive/mosfez-faust-dsp	proto-loopy.dsp	import("stdfaust.lib"); // consts tablesize = 300000; maxbars = 4; // could be adaptive, allow more bars if barlength is smaller? barlength = 50000; // hslider("loop length",50000,0,tablesize,1) : int; // utils displayimpulse = _ <: attach(_, ba.countdown(10000)); decreased(x) = x < x'; // inputs barstorec_input = hslider("bars to record",1,1,maxbars,1) : int; startrec_input = button("record") : int; metronome_input = hslider("metronome level",1.0,0.0,1.0,0.01); startrec_pulse = startrec_input : ba.impulsify; barstorec_state = barstorec_input : ba.latch(startrec_pulse); // clock barstart_pulse = ba.pulse(barlength); progress = barstart_pulse : ba.countup(tablesize) : hbargraph("progress", 0, barlength); get_sample(bar) = (bar * barlength) + progress; // metronome metronome_gain = progress / barlength : (-4.0) : +(1.0) : min(1.0) : max(0.0); metronome_audio = no.pink_noise 0.25 * metronome_gain * metronome_input; // play play_current_bar = barstart_pulse : ba.pulse_countup_loop(barstorec_state - 1, startrec_pulse : ==(0)) : hbargraph("current play bar", 0, maxbars); play_current_sample = get_sample(play_current_bar) : hbargraph("current play sample", 0, tablesize); play_current_sample_tail_active = play_current_sample + (barstorec_state * barlength) : select2(play_current_bar == 0, -1, _) : hbargraph("current play tail sample", -1, tablesize); // rec rec_current_bar = barstart_pulse : ba.pulse_countup_loop(barstorec_state, startrec_pulse : ==(0)) : hbargraph("current rec bar", 0, maxbars); rec_current_sample = get_sample(rec_current_bar); rec_active_state = ba.on_and_off(startrec_pulse, rec_current_sample : decreased); rec_current_sample_active = rec_current_sample : select2(rec_active_state, -1, _) : hbargraph("current rec sample", -1, tablesize); // tables table(size,write_pos,write_value,read_pos,read_active) = rwtable(size + 2,0.0,write_pos + 1,write_value,read_pos + 1) : select2(read_pos == -1, _, 0); looptable = table(tablesize,rec_current_sample_active,_); // combine looper = _ <: looptable(play_current_sample),looptable(play_current_sample_tail_active) :> _,metronome_audio :> _; process = looper,looper;	https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/ffe4c5bd06aed6b25cd6f191166389b83ca89b87/proto-loopy.dsp	faust	consts could be adaptive, allow more bars if barlength is smaller? hslider("loop length",50000,0,tablesize,1) : int; utils inputs clock metronome play rec tables combine	import("stdfaust.lib"); tablesize = 300000; displayimpulse = _ <: attach(_, ba.countdown(10000)); decreased(x) = x < x'; barstorec_input = hslider("bars to record",1,1,maxbars,1) : int; startrec_input = button("record") : int; metronome_input = hslider("metronome level",1.0,0.0,1.0,0.01); startrec_pulse = startrec_input : ba.impulsify; barstorec_state = barstorec_input : ba.latch(startrec_pulse); barstart_pulse = ba.pulse(barlength); progress = barstart_pulse : ba.countup(tablesize) : hbargraph("progress", 0, barlength); get_sample(bar) = (bar * barlength) + progress; metronome_gain = progress / barlength : (-4.0) : +(1.0) : min(1.0) : max(0.0); metronome_audio = no.pink_noise 0.25 * metronome_gain * metronome_input; play_current_bar = barstart_pulse : ba.pulse_countup_loop(barstorec_state - 1, startrec_pulse : ==(0)) : hbargraph("current play bar", 0, maxbars); play_current_sample = get_sample(play_current_bar) : hbargraph("current play sample", 0, tablesize); play_current_sample_tail_active = play_current_sample + (barstorec_state * barlength) : select2(play_current_bar == 0, -1, _) : hbargraph("current play tail sample", -1, tablesize); rec_current_bar = barstart_pulse : ba.pulse_countup_loop(barstorec_state, startrec_pulse : ==(0)) : hbargraph("current rec bar", 0, maxbars); rec_current_sample = get_sample(rec_current_bar); rec_active_state = ba.on_and_off(startrec_pulse, rec_current_sample : decreased); rec_current_sample_active = rec_current_sample : select2(rec_active_state, -1, _) : hbargraph("current rec sample", -1, tablesize); table(size,write_pos,write_value,read_pos,read_active) = rwtable(size + 2,0.0,write_pos + 1,write_value,read_pos + 1) : select2(read_pos == -1, _, 0); looptable = table(tablesize,rec_current_sample_active,_); looper = _ <: looptable(play_current_sample),looptable(play_current_sample_tail_active) :> _,metronome_audio :> _; process = looper,looper;
2536d646645aef4667c6dc165efd676f68bed05b43dc3a57a95f2245089c1212	dxinteractive/mosfez-faust-dsp	soundtest.dsp	import("stdfaust.lib"); //#################################### soundfiles.lib ######################################## // A library to handle soundfiles in Faust. Its official prefix is `so`. //######################################################################################## /********************************************************************** ******************************************************************** FAUST library file Copyright (C) 2018-2020 GRAME, Centre National de Creation Musicale ---------------------------------------------------------------------- This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. EXCEPTION TO THE LGPL LICENSE : As a special exception, you may create a larger FAUST program which directly or indirectly imports this library file and still distribute the compiled code generated by the FAUST compiler, or a modified version of this compiled code, under your own copyright and license. This EXCEPTION TO THE LGPL LICENSE explicitly grants you the right to freely choose the license for the resulting compiled code. In particular the resulting compiled code has no obligation to be LGPL or GPL. For example you are free to choose a commercial or closed source license or any other license if you decide so. ******************************************************************** *********************************************************************/ declare name "Faust Soundfile Library"; declare version "0.7"; ba = library("basics.lib"); ma = library("maths.lib"); si = library("signals.lib"); ro = library("routes.lib"); it = library("interpolators.lib"); //======================================================================= // Utility functions added in a 'super' environment (to test the idea...) //======================================================================= super = environment { length(sf, part) = (part, 0) : sf : (_,si.block(outputs(sf)-1)); srate(sf, part) = (part, 0) : sf : (!,_,si.block(outputs(sf)-2)) : float; outs(sf, level) = sf : si.block(2), bus(outputs(sf)-2) with { bus(n) = par(i,n,(level)); }; // Plays a soundfile // 'reader' in a function of type \(sf,part).(body) whih produces the (possibly fractional) read index player(sf, part, reader, level) = (part, it.int_part(reader(sf, part))) : outs(sf, level); // Plays a soundfile with configurable interpolation player_interp(sf, part, reader, level, selector) = it.interpolator_select(gen, idv, selector) with { // Adapts the (sf, part, reader) parameters as 'idv' and 'gen' types for the generic interpolator idv = reader(sf, part); gen(idx) = (part, idx) : outs(sf, level); }; // Plays a soundfile with configurable interpolation and a reference frequence 'ref' play_interp(sf, part, ref, freq, level, gate, selector) = player_interp(sf, part, reader, level, selector) with { reader(sf, part) = it.raise(gate, step, len) : +(len : (0.01)),_ with { step = freq/refsrate(sf, part)/ma.SR; len = length(sf, part); }; }; // Generic version loop_speed_level(sf, part, speed, level) = player(sf, part, reader, level) with { // A 'reader' which loops the sound with 'speed' and 'level' control reader(sf, part) = it.raise_modulo(1, step, length(sf, part)) with { step = speedsrate(sf, part)/ma.SR; }; }; // Defines 'loop_speed' as a specialized version of loop_speed_level with level = 1 loop_speed(sf, part, speed) = loop_speed_level(sf, part, speed, 1); // Defines 'loop_speed' as a specialized version of loop_speed_level with speed = 1 and level = 1 loop(sf, part) = loop_speed_level(sf, part, 1, 1); }; // End of environment //=============================Functions Reference======================================== //======================================================================================== //--------------------------------`(so.)loop`----------------------------------- // Play a soundfile in a loop taking into account its sampling rate. // `loop` is a standard Faust function. // // #### Usage // // ``` // loop(sf, part) // ``` // // Where: // // `sf`: the soundfile // * `part`: the part in the soundfile list of sounds // //----------------------------------------------------------------------------- loop(sf, part) = super.loop(sf, part); //--------------------------------`(so.)loop_speed`----------------------------------- // Play a soundfile in a loop taking into account its sampling rate, with speed control. // `loop_speed` is a standard Faust function. // // #### Usage // // ``` // loop_speed(sf, part, speed) // ``` // // Where: // // * `sf`: the soundfile // * `part`: the part in the soundfile list of sounds // * `speed`: the speed between 0 and n // //----------------------------------------------------------------------------- loop_speed(sf, part, speed) = super.loop_speed(sf, part, speed); //--------------------------------`(so.)loop_speed_level`----------------------------------- // Play a soundfile in a loop taking into account its sampling rate, with speed and level controls. // `loop_speed_level` is a standard Faust function. // // #### Usage // // ``` // loop_speed_level(sf, part, speed, level) // ``` // // Where: // // * `sf`: the soundfile // * `part`: the part in the soundfile list of sounds // * `speed`: the speed between 0 and n // * `level`: the volume between 0 and n // //----------------------------------------------------------------------------- loop_speed_level(sf, part, speed, level) = super.loop_speed_level(sf, part, speed, level); //==================================================== // Environment to handle a given sound in a soundfile //==================================================== sound(sf, part) = environment { // Looping the sound loop = super.loop(sf, part); loop_speed(speed) = super.loop_speed(sf, part, speed); loop_speed_level(speed, level) = super.loop_speed_level(sf, part, speed, level); // Play once play(level, gate) = super.player(sf, part, reader, level) with { reader(sf, part) = it.raise(gate, super.srate(sf, part)/ma.SR, super.length(sf, part)); }; // Play once in reverse play_rev(level, gate) = super.player(sf, part, reader, level) with { reader(sf, part) = it.decrease(gate, super.srate(sf, part)/ma.SR, super.length(sf, part)); }; // Play sound once with configurable interpolation and freq control (using a 'ref' value) play_interp(ref, freq, level, gate, selector) = super.play_interp(sf, part, ref, freq, level, gate, selector); // Play sound once and alternate between normal play and reverse play //play_alt(level, gate, ctrl) = super.player(sf, part, alt2(ramp1, ramp2, ctrl), level) play_alt(level, gate, ctrl) = super.player(sf, part, altN(lramp, ctrl), level) with { // High-order function which alternate between 2 'readers' depending of the 'ctrl' signal alt2(r1, r2, ctrl) = \(sf, part).(ba.selectmulti(ma.SR/100, lr, ctrl) with { lr = r1(sf, part), r2(sf, part); }); altN(lrs, ctrl) = \(sf, part).(ba.selectmulti(ma.SR/100, mapper(lrs), ctrl) with { mapper((xs, xxs)) = xs(sf, part), mapper(xxs); mapper(xs) = xs(sf, part); }); step = super.srate(sf, part)/ma.SR; ramp1(sf, part) = it.raise(gate, step, super.length(sf, part)); ramp2(sf, part) = it.decrease(gate, step, super.length(sf, part)); lramp = (ramp1, ramp2, ramp2, ramp2, ramp1); }; }; // End of environment /* // Using the `sound` environment allocated with a given `sf` and `part` import("soundfiles.lib"); s1 = soundfile("[url:{'piano-C5.ogg';'piano-G5.ogg';'piano-C6.ogg';'piano-G6.ogg'}]",2); sample1 = so.sound(s1, 0); sample2 = so.sound(s1, 1); sample3 = so.sound(s1, 2); // Plays the sound in various ways sample1.loop; sample1.loop_speed(0.5); sample1.loop_speed_level(0.5, 0.5); sample2.play(0.5, button("gate")); sample2.play_rev(0.5, button("gate")); sample2.play_alt(0.5, button("gate"), checkbox("alt")); sample3.play_interp(440.0, 600.0, 0.5, button("gate"), it.linear); sample3.play_interp(440.0, 800.0, en.ar(0.1, 0.8, button("gate")), button("gate"), it.cubic); play = button("gate"); sample3.play_interp(440.0, hslider("freq", 200, 200, 880, 0.01), hslider("gain", 0.5, 0, 1, 0.01)en.ar(0.1, 0.8, play), play, nentry("interp", 0, 0, 3, 1)); / s1 = soundfile("[url:{'A4.ogg'}]",2); sample = sound(s1,0); // envelope = en.adsr(0.01,0.04,0.8,0.1,button("gate")) : si.smoo; // process = sample.play(envelope, gate); // process = sample.play_interp(440.0, 600.0, 0.5, button("gate"), it.linear); // process = sample.play_interp(440.0, 600.0, 0.5, button("gate"), it.cubic); // process = sample.play(en.adsr(0.01,0.04,0.8,0.1, button("gate")), button("gate")); process = sample.play_interp(440.0, hslider("freq", 200, 200, 880, 0.01), en.adsr(0.01,1.0,1.0,0.01,button("gate")), button("gate"), it.cubic) : dm.zita_light;	https://raw.githubusercontent.com/dxinteractive/mosfez-faust-dsp/a2d7029a6d7ebe31e5bce808c3bc225420426984/test-nodejs/soundtest.dsp	faust	#################################### soundfiles.lib ######################################## A library to handle soundfiles in Faust. Its official prefix is `so`. ######################################################################################## ********************************************************************* ******************************************************************** FAUST library file Copyright (C) 2018-2020 GRAME, Centre National de Creation Musicale ---------------------------------------------------------------------- This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. EXCEPTION TO THE LGPL LICENSE : As a special exception, you may create a larger FAUST program which directly or indirectly imports this library file and still distribute the compiled code generated by the FAUST compiler, or a modified version of this compiled code, under your own copyright and license. This EXCEPTION TO THE LGPL LICENSE explicitly grants you the right to freely choose the license for the resulting compiled code. In particular the resulting compiled code has no obligation to be LGPL or GPL. For example you are free to choose a commercial or closed source license or any other license if you decide so. ******************************************************************** ********************************************************************* ======================================================================= Utility functions added in a 'super' environment (to test the idea...) ======================================================================= Plays a soundfile 'reader' in a function of type \(sf,part).(body) whih produces the (possibly fractional) read index Plays a soundfile with configurable interpolation Adapts the (sf, part, reader) parameters as 'idv' and 'gen' types for the generic interpolator Plays a soundfile with configurable interpolation and a reference frequence 'ref' Generic version A 'reader' which loops the sound with 'speed' and 'level' control Defines 'loop_speed' as a specialized version of loop_speed_level with level = 1 Defines 'loop_speed' as a specialized version of loop_speed_level with speed = 1 and level = 1 End of environment =============================Functions Reference======================================== ======================================================================================== --------------------------------`(so.)loop`----------------------------------- Play a soundfile in a loop taking into account its sampling rate. `loop` is a standard Faust function. #### Usage ``` loop(sf, part) ``` Where: * `sf`: the soundfile * `part`: the part in the soundfile list of sounds ----------------------------------------------------------------------------- --------------------------------`(so.)loop_speed`----------------------------------- Play a soundfile in a loop taking into account its sampling rate, with speed control. `loop_speed` is a standard Faust function. #### Usage ``` loop_speed(sf, part, speed) ``` Where: * `sf`: the soundfile * `part`: the part in the soundfile list of sounds * `speed`: the speed between 0 and n ----------------------------------------------------------------------------- --------------------------------`(so.)loop_speed_level`----------------------------------- Play a soundfile in a loop taking into account its sampling rate, with speed and level controls. `loop_speed_level` is a standard Faust function. #### Usage ``` loop_speed_level(sf, part, speed, level) ``` Where: * `sf`: the soundfile * `part`: the part in the soundfile list of sounds * `speed`: the speed between 0 and n * `level`: the volume between 0 and n ----------------------------------------------------------------------------- ==================================================== Environment to handle a given sound in a soundfile ==================================================== Looping the sound Play once Play once in reverse Play sound once with configurable interpolation and freq control (using a 'ref' value) Play sound once and alternate between normal play and reverse play play_alt(level, gate, ctrl) = super.player(sf, part, alt2(ramp1, ramp2, ctrl), level) High-order function which alternate between 2 'readers' depending of the 'ctrl' signal End of environment // Using the `sound` environment allocated with a given `sf` and `part` import("soundfiles.lib"); s1 = soundfile("[url:{'piano-C5.ogg';'piano-G5.ogg';'piano-C6.ogg';'piano-G6.ogg'}]",2); sample1 = so.sound(s1, 0); sample2 = so.sound(s1, 1); sample3 = so.sound(s1, 2); // Plays the sound in various ways sample1.loop; sample1.loop_speed(0.5); sample1.loop_speed_level(0.5, 0.5); sample2.play(0.5, button("gate")); sample2.play_rev(0.5, button("gate")); sample2.play_alt(0.5, button("gate"), checkbox("alt")); sample3.play_interp(440.0, 600.0, 0.5, button("gate"), it.linear); sample3.play_interp(440.0, 800.0, en.ar(0.1, 0.8, button("gate")), button("gate"), it.cubic); play = button("gate"); sample3.play_interp(440.0, hslider("freq", 200, 200, 880, 0.01), hslider("gain", 0.5, 0, 1, 0.01)*en.ar(0.1, 0.8, play), play, nentry("interp", 0, 0, 3, 1)); envelope = en.adsr(0.01,0.04,0.8,0.1,button("gate")) : si.smoo; process = sample.play(envelope, gate); process = sample.play_interp(440.0, 600.0, 0.5, button("gate"), it.linear); process = sample.play_interp(440.0, 600.0, 0.5, button("gate"), it.cubic); process = sample.play(en.adsr(0.01,0.04,0.8,0.1, button("gate")), button("gate"));	import("stdfaust.lib"); declare name "Faust Soundfile Library"; declare version "0.7"; ba = library("basics.lib"); ma = library("maths.lib"); si = library("signals.lib"); ro = library("routes.lib"); it = library("interpolators.lib"); super = environment { length(sf, part) = (part, 0) : sf : (_,si.block(outputs(sf)-1)); srate(sf, part) = (part, 0) : sf : (!,_,si.block(outputs(sf)-2)) : float; outs(sf, level) = sf : si.block(2), bus(outputs(sf)-2) with { bus(n) = par(i,n,(level)); }; player(sf, part, reader, level) = (part, it.int_part(reader(sf, part))) : outs(sf, level); player_interp(sf, part, reader, level, selector) = it.interpolator_select(gen, idv, selector) with { idv = reader(sf, part); gen(idx) = (part, idx) : outs(sf, level); }; play_interp(sf, part, ref, freq, level, gate, selector) = player_interp(sf, part, reader, level, selector) with { reader(sf, part) = it.raise(gate, step, len) : +(len : (0.01)),_ with { step = freq/refsrate(sf, part)/ma.SR; len = length(sf, part); }; }; loop_speed_level(sf, part, speed, level) = player(sf, part, reader, level) with { reader(sf, part) = it.raise_modulo(1, step, length(sf, part)) with { step = speedsrate(sf, part)/ma.SR; }; }; loop_speed(sf, part, speed) = loop_speed_level(sf, part, speed, 1); loop(sf, part) = loop_speed_level(sf, part, 1, 1); loop(sf, part) = super.loop(sf, part); loop_speed(sf, part, speed) = super.loop_speed(sf, part, speed); loop_speed_level(sf, part, speed, level) = super.loop_speed_level(sf, part, speed, level); sound(sf, part) = environment { loop = super.loop(sf, part); loop_speed(speed) = super.loop_speed(sf, part, speed); loop_speed_level(speed, level) = super.loop_speed_level(sf, part, speed, level); play(level, gate) = super.player(sf, part, reader, level) with { reader(sf, part) = it.raise(gate, super.srate(sf, part)/ma.SR, super.length(sf, part)); }; play_rev(level, gate) = super.player(sf, part, reader, level) with { reader(sf, part) = it.decrease(gate, super.srate(sf, part)/ma.SR, super.length(sf, part)); }; play_interp(ref, freq, level, gate, selector) = super.play_interp(sf, part, ref, freq, level, gate, selector); play_alt(level, gate, ctrl) = super.player(sf, part, altN(lramp, ctrl), level) with { alt2(r1, r2, ctrl) = \(sf, part).(ba.selectmulti(ma.SR/100, lr, ctrl) with { lr = r1(sf, part), r2(sf, part); }); altN(lrs, ctrl) = \(sf, part).(ba.selectmulti(ma.SR/100, mapper(lrs), ctrl) with { mapper((xs, xxs)) = xs(sf, part), mapper(xxs); mapper(xs) = xs(sf, part); }); step = super.srate(sf, part)/ma.SR; ramp1(sf, part) = it.raise(gate, step, super.length(sf, part)); ramp2(sf, part) = it.decrease(gate, step, super.length(sf, part)); lramp = (ramp1, ramp2, ramp2, ramp2, ramp1); }; s1 = soundfile("[url:{'A4.ogg'}]",2); sample = sound(s1,0); process = sample.play_interp(440.0, hslider("freq", 200, 200, 880, 0.01), en.adsr(0.01,1.0,1.0,0.01,button("gate")), button("gate"), it.cubic) : dm.zita_light;
60292fe281a4a193f00e4d469abf8bbc5f3485b0601ff5ac59b60a605bd296d9	mi-creative/FaustPM_2021_examples	06_Bounce.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 6: Bounce a hammer on the two mass system / OutGain = 30; K = 0.1; Z = 0.001; grav = 0.5; model = ( mi.mass(1, 0, 0, 0), mi.mass(1, 0, 0, 0), mi.ground(0), mi.mass(5., grav/ ma.SR, 10, 10 - (-100/ ma.SR)): RoutingMassToLink : mi.springDamper(K, Z, 0, 0), mi.springDamper(K, Z, 0, 0), mi.collision(0.1, 0.01, 0, 0, 10), par(i, nbOut, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ RoutingMassToLink(m0, m1, m2, m3) = / routed positions / m0, m2, m0, m1, m1, m3, / outputs / m0; RoutingLinkToMass(l0_f1, l0_f2, l1_f1, l1_f2, l2_f1, l2_f2, p_out1) = / routed forces / l0_f1 + l1_f1, l1_f2 + l2_f1, l0_f2, l2_f2, / pass-through / p_out1; nbMass = 4; nbOut = 1; }; process = model:(OutGain);	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/06_Bounce.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 6: Bounce a hammer on the two mass system routed positions outputs routed forces pass-through	import("stdfaust.lib"); OutGain = 30; K = 0.1; Z = 0.001; grav = 0.5; model = ( mi.mass(1, 0, 0, 0), mi.mass(1, 0, 0, 0), mi.ground(0), mi.mass(5., grav/ ma.SR, 10, 10 - (-100/ ma.SR)): RoutingMassToLink : mi.springDamper(K, Z, 0, 0), mi.springDamper(K, Z, 0, 0), mi.collision(0.1, 0.01, 0, 0, 10), par(i, nbOut, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ nbMass = 4; nbOut = 1; }; process = model:*(OutGain);
1b0c2735d95ccb7f0ff4d8708bf5d94033af3b5624917d342848b3c2c13c2b6c	mi-creative/FaustPM_2021_examples	01_OscillatorStructure.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 1: Designing a Mass-Spring-Ground Oscillator */ // A basic, hand coded mass spring oscillator // First we create the physical elements // note that all mass elements are set up in parallel, same for all interactions. // set the mass to have an initial vel of 0.1 meters per sample to check // if we want to be rigorous this previous position needs to be applied to the spring damper so that its first step computes correctly. process = (mi.mass(1, 0, 0, 0.1), mi.ground(0): mi.springDamper(0.1, 0.001, 0.1, 0) )~par(i,2,_) ; // So now we have a basic loopback of force calculations into the mass elements: the physics will start working // But we have no means of action on the object and the outputs we are listening to are the forces applied by the spring	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/01_OscillatorStructure.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 1: Designing a Mass-Spring-Ground Oscillator A basic, hand coded mass spring oscillator First we create the physical elements note that all mass elements are set up in parallel, same for all interactions. set the mass to have an initial vel of 0.1 meters per sample to check if we want to be rigorous this previous position needs to be applied to the spring damper so that its first step computes correctly. So now we have a basic loopback of force calculations into the mass elements: the physics will start working But we have no means of action on the object and the outputs we are listening to are the forces applied by the spring	import("stdfaust.lib"); process = (mi.mass(1, 0, 0, 0.1), mi.ground(0): mi.springDamper(0.1, 0.001, 0.1, 0) )~par(i,2,_) ;
3fb683b4abcd6482f7d5e24ef64cbca0f277740428b6e929234d967d33bc34d8	mi-creative/FaustPM_2021_examples	05_TwoMassScript.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 5: Building a two mass system via a MIMS script / in1 = button("Frc Input 1"): ba.impulsify 0.1; //write a specific force input signal operation here OutGain = 1; K = 0.1; Z = 0.001; model = ( mi.mass(1, 0, 0, 0), mi.mass(1, 0, 0, 0), mi.ground(0), par(i, nbFrcIn,_): RoutingMassToLink , par(i, nbFrcIn,_): mi.springDamper(K, Z, 0, 0), mi.springDamper(K, Z, 0, 0), par(i, nbOut+nbFrcIn, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ RoutingMassToLink(m0, m1, m2) = /* routed positions / m0, m2, m0, m1, / outputs / m0; RoutingLinkToMass(l0_f1, l0_f2, l1_f1, l1_f2, p_out1, f_in1) = / routed forces / f_in1 + l0_f1 + l1_f1, l1_f2, l0_f2, / pass-through / p_out1; nbMass = 3; nbFrcIn = 1; nbOut = 1; }; process = in1 : model:(OutGain);	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/05_TwoMassScript.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 5: Building a two mass system via a MIMS script write a specific force input signal operation here routed positions outputs routed forces pass-through	import("stdfaust.lib"); OutGain = 1; K = 0.1; Z = 0.001; model = ( mi.mass(1, 0, 0, 0), mi.mass(1, 0, 0, 0), mi.ground(0), par(i, nbFrcIn,_): RoutingMassToLink , par(i, nbFrcIn,_): mi.springDamper(K, Z, 0, 0), mi.springDamper(K, Z, 0, 0), par(i, nbOut+nbFrcIn, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ nbMass = 3; nbFrcIn = 1; nbOut = 1; }; process = in1 : model:*(OutGain);
43ec617ec1bb7ac735d27565eb60da6ad2d7b7e688e5843beb15a6facd23559b	mi-creative/FaustPM_2021_examples	02_OscillatorInsOuts.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 2: Using the Mass-Spring-Ground Oscillator / // We're going to use some routing functions to give ourselves more control over the model // First, let's say that we want to add a force input on the mass : create a route forces function that adds this force to the loopback force. // Then, we probably want to listen to the position of the mass rather than the force exerced by the spring: position routing // Careful, as we need to add a passthrough signal here in parallel to the spring calculation. // so now we have a basic harmonic oscillator that we can excite with an input force and listen to. in1 = button("test"):ba.impulsify 0.1; process = ( mi.mass(1, 0, 0, 0), mi.ground(0): RoutePositions: mi.springDamper(0.1, 0.001, 0, 0), _: RouteForces,_ )~par(i,2,_): par(i,2,!),_ with{ RouteForces (f_sp1, f_sp2) = f_sp1 + in1, f_sp2; RoutePositions (p_m1, p_g1) = p_m1, p_g1, p_m1; } ;	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/02_OscillatorInsOuts.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 2: Using the Mass-Spring-Ground Oscillator We're going to use some routing functions to give ourselves more control over the model First, let's say that we want to add a force input on the mass : create a route forces function that adds this force to the loopback force. Then, we probably want to listen to the position of the mass rather than the force exerced by the spring: position routing Careful, as we need to add a passthrough signal here in parallel to the spring calculation. so now we have a basic harmonic oscillator that we can excite with an input force and listen to.	import("stdfaust.lib"); in1 = button("test"):ba.impulsify * 0.1; process = ( mi.mass(1, 0, 0, 0), mi.ground(0): RoutePositions: mi.springDamper(0.1, 0.001, 0, 0), _: RouteForces,_ )~par(i,2,_): par(i,2,!),_ with{ RouteForces (f_sp1, f_sp2) = f_sp1 + in1, f_sp2; RoutePositions (p_m1, p_g1) = p_m1, p_g1, p_m1; } ;
a99e5a5d8bab69f8fa150bdeb13cbd0578b8902c7fee21d00f2fd5e0b55a5a6a	mi-creative/FaustPM_2021_examples	04_TwoMassSystem.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 4: Building a two mass system / // If we wanted to go a little further from here: add a second mass to the system // Add a second mass after the first one and before the ground module. // Add a second spring into the system // So now we need to change the the position routing so that one spring computes between m1 and ground, and the second between m1 and m2 // This also means we have to change the force routing function to account for the sum of forces on each element: // m1 receives forces from the first connection of sp1, and the first connection of sp2, and the external force input. // m2 receives forces from the second connection of sp2 // g1 receives forces from the second connection of sp1 // Now we have a system with two connected masses: giving to resonating modes (try and see) in1 = button("test"):ba.impulsify 0.1; process = ( mi.mass(3, 0, 0, 0), mi.mass(2, 0, 0, 0), mi.ground(0): RoutePositions: mi.springDamper(0.1, 0.001, 0, 0), mi.springDamper(0.01, 0.001, 0, 0), _: RouteForces,_ )~par(i,3,_): par(i,3,!),_ with{ RouteForces (f_sp1, f_sp2, f2_sp1, f2_sp2) = f_sp1 + in1 + f2_sp1, f2_sp2, f_sp2 ; RoutePositions (p_m1, p_m2, p_g1) = p_m1, p_g1, p_m1, p_m2, p_m1; } ; // This works as expected, but its starting to get a bit hard to understand. If we were to make the model more complex, the routing functions would become quite a hassle... //this is why a modelling or code generation system is very useful! Somewhere we can focus on the physical topology and parameters, and let the machine sort out the connection patterns and such.	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/04_TwoMassSystem.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 4: Building a two mass system If we wanted to go a little further from here: add a second mass to the system Add a second mass after the first one and before the ground module. Add a second spring into the system So now we need to change the the position routing so that one spring computes between m1 and ground, and the second between m1 and m2 This also means we have to change the force routing function to account for the sum of forces on each element: m1 receives forces from the first connection of sp1, and the first connection of sp2, and the external force input. m2 receives forces from the second connection of sp2 g1 receives forces from the second connection of sp1 Now we have a system with two connected masses: giving to resonating modes (try and see) This works as expected, but its starting to get a bit hard to understand. If we were to make the model more complex, the routing functions would become quite a hassle... this is why a modelling or code generation system is very useful! Somewhere we can focus on the physical topology and parameters, and let the machine sort out the connection patterns and such.	import("stdfaust.lib"); in1 = button("test"):ba.impulsify * 0.1; process = ( mi.mass(3, 0, 0, 0), mi.mass(2, 0, 0, 0), mi.ground(0): RoutePositions: mi.springDamper(0.1, 0.001, 0, 0), mi.springDamper(0.01, 0.001, 0, 0), _: RouteForces,_ )~par(i,3,_): par(i,3,!),_ with{ RouteForces (f_sp1, f_sp2, f2_sp1, f2_sp2) = f_sp1 + in1 + f2_sp1, f2_sp2, f_sp2 ; RoutePositions (p_m1, p_m2, p_g1) = p_m1, p_g1, p_m1, p_m2, p_m1; } ;
35624a97f9299f02b8f312ecd3c1c054d1624e24f539aef0ed40b8e675731634	mi-creative/FaustPM_2021_examples	13_MacroStringPrototype.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 13: Perspectives for macro-objects (finite difference style approach) / // Controls used in the patch in1 = button("frcIn") : ba.impulsify hslider("intensity[style:knob]", 0.1, 0.001, 1, 0.001); stiffness = hslider("string stiffness", 0.4, 0.001, 0.5, 0.001); damping = hslider("string damping", 0.01, 0.0001, 0.1, 0.0001); excite = hslider("excitePos",0.4,0,1,0.0001) : si.smoo ; listen = hslider("listenPos",0.3,0,1,0.0001) : si.smoo ; couple = hslider("couplingPoint",0.7,0,1,0.0001) : si.smoo; /* "Macro" definition of a mass-interaction string: lots of masses and springs connected in a specific pattern. The first and last material elements of the string are fixed points. Note: This expression could be reduced into a finite difference scheme which would make it simpler (see Ricardo Russo's work!) In that case, you would update "grid points" that correspond to the masses with an update scheme that directly incorporates the forces exerced by neighboring elements. / string(nbMass, K, Z) = ( forceSumming(nbMass): mi.ground(0.), par(i, nbMass-2, mi.mass(1., 0, 0., 0.)), mi.ground(0.): stringRoutePos(nbMass): par(i, nbMass-1, mi.springDamper(K, Z, 0., 0.)), par(i, nbMass, _): stringRouteForce(nbMass), par(i, nbMass, _) ) ~par(i, nbMass, _): par(i, nbMass,!),par(i, nbMass,_); // Some functions that we need to deal with the string position and force routings forceSumming(nb) = ro.interleave(nb,2):par(i,nb,+); stringRoutePos(nb) = (par(i, nb,_<:_,_)):ro.interleave(2,nb):_, par(i, nb-2, (_<:_,_)), _, par(i,nb,_); stringRouteForce(nb)= _, par(i, nb-2, _+_), _; / A wrapper around our string, allowing us to define an excitation point, listening point, and coupling junction to an outside element. - linear interpolation "proxies" are used to move these points along the string. - the wrapped string expects a force signal (from the outside coupling junction) and an input force - it outputs the position of its coupling junction, as well as a position output for listening to the string / stringWrapper(nbMass, excitePos, listenPos, couplingPos) = ( strProxFrc(nbMass, c), strProxFrc(nbMass, e): prox2str(nbMass, 2): string(nbMass, stiffness, damping): str2prox(nbMass, 2) : strProxPos(nbMass, c),strProxPos(nbMass, l) ) with{ c = couplingPosnbMass; e = excitePosnbMass; l = listenPosnbMass; } ; // Linear interpolators strProxFrc(nbMass, lPos) = _<:par(i,nbMass, select2(i == m1, select2(i == m2, 0, alpha_ ), (1-alpha)_) ) with{ m1 = floor(lPos); m2 = floor(lPos)+1; alpha = lPos-m1; }; strProxPos(nbMass, lPos) = (par(i,nbMass, _<:select2(i == m1, select2(i ==m2, 0, alpha_ ), (1-alpha)_ ) ) ):>_ with{ m1 = floor(lPos); m2 = floor(lPos)+1; alpha = lPos-m1; }; // ZERO order interpolators (for testing - UNUSED) strProxFrcZero(nbMass, lPos) = par(i, floor(lPos),0),_,par(i,nbMass-floor(lPos)-1, 0); strProxPosZero(nbMass, lPos) = par(i, floor(lPos),!),1_,par(i, nbMass-floor(lPos)-1, !); // Functions needed to route the positions and forces of the string masses into and out of the interpolators str2prox(nb, P) = (par(i, nb,_<:par(i,P,_))):ro.interleave(P,nb); prox2str(nb, P) = ro.interleave(nb, P):(par(i, nb,par(i,P,_):>_)); / The MODEL. It is composed of the wrapped string, coupled via a non-linear spring damper to a large oscillator. The coupling point bewteen the oscillator and the string can be moved along in real time. Note: some simple routing functions have been created to route the desired forces into the material elements (string junction and oscillator) and conversely for the positions output by the string coupling junction and the oscillator. This is quite simple to setup for a model this simple, but would get very hairy if we had many more elements: hence, the use of a modeller/FAUST code generator! */ model = ( in1 : ( LoopbackRouting: stringWrapper(250, excite, listen, couple), mi.oscil(100, 0.1, 0.01, 0, 0, 0): PosRouting: mi.nlSpringDamperClipped(0.00001, 1, 0.1, 0.001, 0, 0),_ )~par(i, 2, _) : par(i, 2, !), _ ) with{ LoopbackRouting(fb_s1, fb_s2, frcIn) = fb_s1, frcIn, fb_s2; PosRouting(str_p1, str_p2, osc_p1) = str_p1, osc_p1, str_p2; }; process = model:_<:_,_;	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/13_MacroStringPrototype.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 13: Perspectives for macro-objects (finite difference style approach) Controls used in the patch "Macro" definition of a mass-interaction string: lots of masses and springs connected in a specific pattern. The first and last material elements of the string are fixed points. Note: This expression could be reduced into a finite difference scheme which would make it simpler (see Ricardo Russo's work!) In that case, you would update "grid points" that correspond to the masses with an update scheme that directly incorporates the forces exerced by neighboring elements. Some functions that we need to deal with the string position and force routings A wrapper around our string, allowing us to define an excitation point, listening point, and coupling junction to an outside element. - linear interpolation "proxies" are used to move these points along the string. - the wrapped string expects a force signal (from the outside coupling junction) and an input force - it outputs the position of its coupling junction, as well as a position output for listening to the string Linear interpolators ZERO order interpolators (for testing - UNUSED) Functions needed to route the positions and forces of the string masses into and out of the interpolators The MODEL. It is composed of the wrapped string, coupled via a non-linear spring damper to a large oscillator. The coupling point bewteen the oscillator and the string can be moved along in real time. Note: some simple routing functions have been created to route the desired forces into the material elements (string junction and oscillator) and conversely for the positions output by the string coupling junction and the oscillator. This is quite simple to setup for a model this simple, but would get very hairy if we had many more elements: hence, the use of a modeller/FAUST code generator!	import("stdfaust.lib"); in1 = button("frcIn") : ba.impulsify * hslider("intensity[style:knob]", 0.1, 0.001, 1, 0.001); stiffness = hslider("string stiffness", 0.4, 0.001, 0.5, 0.001); damping = hslider("string damping", 0.01, 0.0001, 0.1, 0.0001); excite = hslider("excitePos",0.4,0,1,0.0001) : si.smoo ; listen = hslider("listenPos",0.3,0,1,0.0001) : si.smoo ; couple = hslider("couplingPoint",0.7,0,1,0.0001) : si.smoo; string(nbMass, K, Z) = ( forceSumming(nbMass): mi.ground(0.), par(i, nbMass-2, mi.mass(1., 0, 0., 0.)), mi.ground(0.): stringRoutePos(nbMass): par(i, nbMass-1, mi.springDamper(K, Z, 0., 0.)), par(i, nbMass, _): stringRouteForce(nbMass), par(i, nbMass, _) ) ~par(i, nbMass, _): par(i, nbMass,!),par(i, nbMass,_); forceSumming(nb) = ro.interleave(nb,2):par(i,nb,+); stringRoutePos(nb) = (par(i, nb,_<:_,_)):ro.interleave(2,nb):_, par(i, nb-2, (_<:_,_)), _, par(i,nb,_); stringRouteForce(nb)= _, par(i, nb-2, _+_), _; stringWrapper(nbMass, excitePos, listenPos, couplingPos) = ( strProxFrc(nbMass, c), strProxFrc(nbMass, e): prox2str(nbMass, 2): string(nbMass, stiffness, damping): str2prox(nbMass, 2) : strProxPos(nbMass, c),strProxPos(nbMass, l) ) with{ c = couplingPosnbMass; e = excitePosnbMass; l = listenPosnbMass; } ; strProxFrc(nbMass, lPos) = _<:par(i,nbMass, select2(i == m1, select2(i == m2, 0, alpha_ ), (1-alpha)_) ) with{ m1 = floor(lPos); m2 = floor(lPos)+1; alpha = lPos-m1; }; strProxPos(nbMass, lPos) = (par(i,nbMass, _<:select2(i == m1, select2(i ==m2, 0, alpha_ ), (1-alpha)_ ) ) ):>_ with{ m1 = floor(lPos); m2 = floor(lPos)+1; alpha = lPos-m1; }; strProxFrcZero(nbMass, lPos) = par(i, floor(lPos),0),_,par(i,nbMass-floor(lPos)-1, 0); strProxPosZero(nbMass, lPos) = par(i, floor(lPos),!),1_,par(i, nbMass-floor(lPos)-1, !); str2prox(nb, P) = (par(i, nb,_<:par(i,P,_))):ro.interleave(P,nb); prox2str(nb, P) = ro.interleave(nb, P):(par(i, nb,par(i,P,_):>_)); model = ( in1 : ( LoopbackRouting: stringWrapper(250, excite, listen, couple), mi.oscil(100, 0.1, 0.01, 0, 0, 0): PosRouting: mi.nlSpringDamperClipped(0.00001, 1, 0.1, 0.001, 0, 0),_ )~par(i, 2, _) : par(i, 2, !), _ ) with{ LoopbackRouting(fb_s1, fb_s2, frcIn) = fb_s1, frcIn, fb_s2; PosRouting(str_p1, str_p2, osc_p1) = str_p1, osc_p1, str_p2; }; process = model:_<:_,_;
2196099b1457f219d71af9e0e6162163c1cec0859aa593f447c4ba919e2135bb	mi-creative/FaustPM_2021_examples	07_String.dsp	import("stdfaust.lib"); /* Faust PM Workshop : Introduction to Mass-Interaction Modelling / / Part 7: Creating a basic string / in1 = button("Frc Input 1"): ba.impulsify 0.1; //write a specific force input signal operation here OutGain = 1; str_M = 1.0; str_K = 0.2; str_Z = 0.001; str_Zo = 0.0; model = ( mi.ground(0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.ground(0.00), par(i, nbFrcIn,_): RoutingMassToLink , par(i, nbFrcIn,_): mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), par(i, nbOut+nbFrcIn, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ 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) = /* routed positions / 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, m24, m25, m25, m26, m26, m27, m27, m28, m28, m29, m29, m30, m30, m31, / outputs / m28, m4; 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_out1, p_out2, f_in1) = / routed forces / 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, f_in1 + 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, / pass-through / p_out1, p_out2; nbMass = 32; nbFrcIn = 1; nbOut = 2; }; process = in1 : model:(OutGain), *(OutGain);	https://raw.githubusercontent.com/mi-creative/FaustPM_2021_examples/329e24a3d7c062cffb76416cff05a2922a3721f0/07_String.dsp	faust	Faust PM Workshop : Introduction to Mass-Interaction Modelling Part 7: Creating a basic string write a specific force input signal operation here routed positions outputs routed forces pass-through	import("stdfaust.lib"); OutGain = 1; str_M = 1.0; str_K = 0.2; str_Z = 0.001; str_Zo = 0.0; model = ( mi.ground(0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.oscil(str_M, 0, str_Zo, 0, 0.00, 0.00), mi.ground(0.00), par(i, nbFrcIn,_): RoutingMassToLink , par(i, nbFrcIn,_): mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), mi.springDamper(str_K, str_Z, 0.00, 0.00), par(i, nbOut+nbFrcIn, _): RoutingLinkToMass )~par(i, nbMass, _): par(i, nbMass, !), par(i, nbOut , _) with{ nbMass = 32; nbFrcIn = 1; nbOut = 2; }; process = in1 : model:(OutGain), (OutGain);

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