Datasets:

musicdsl
/

reamixed-project-files

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+    NAME "fx - Delay slap #_FX"
+    PEAKCOL 25198656
+    BEAT -1
+    AUTOMODE 0
+    VOLPAN 1 0 -1 -1 1
+    MUTESOLO 0 0 0
+    IPHASE 0
+    PLAYOFFS 0 1
+    ISBUS 0 0
+    BUSCOMP 0 0 0 0 0
+    SHOWINMIX 1 0.6667 0.5 1 0.5 0 -1 0
+    FREEMODE 0
+    SEL 0
+    REC 0 0 0 0 0 0 0
+    VU 2
+    TRACKHEIGHT 0 0 0 0 -1 0
+    INQ 0 0 0 0.5 100 0 0 100
+    NCHAN 2
+    FX 1
+    TRACKID {BD1C07D4-124C-42C9-B82A-CFA5A2BB0D4C}
+    PERF 0
+    AUXRECV 2 0 0.09468875277715 -0.458 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 15 1 0.20960685752829 -1 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 16 3 0.01679098080048 -0.544 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 18 0 0.08900335832088 1 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 20 0 0.09890631278077 0.44 0 0 0 0 0 -1:U 0 -1 ''
+    MIDIOUT -1
+    MAINSEND 1 0
+    <FXCHAIN
+      WNDRECT 831 98 754 466
+      SHOW 0
+      LASTSEL 0
+      DOCKED 0
+      BYPASS 0 0 0
+      <VST "VST: ReaEQ" reaeq.dll 0 "" 1919247729<56535472656571726561657100000000> ""
+        cWVlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAAyQAAAAEAAAAAABAA
+        IQAAAAUAAAAEAAAAAQAAAL+I1rS+zIVAAAAAAAAA8D8AAAAAAAAAQAEAAAAAAQAAAAAAAAAAwHJAAAAAAAAA8D8AAAAAAAAAQAEIAAAAAQAAAAAAAAAAQI9AAAAAAAAA
+        8D8AAAAAAAAAQAEIAAAAAQAAAH8L9tGCT51Afw0O/oZF7z8AAAAAAAAAQAEBAAAAAAAAAK+8ctPqyrBAKE6cnEyP7j/+////////PwEBAAAAAQAAAHDZAa98HvE/AAAA
+        AA8CAABhAQAA
+        AFJlYUVRIERlZmF1bHQAEAAAAA==
+      >
+      PRESETNAME "ReaEQ Default"
+      FLOATPOS 0 0 0 0
+      FXID {A9C1895A-E393-47D9-AE5D-BABDC4C866E5}
+      WAK 0 0
+      BYPASS 0 0 0
+      <VST "VST: ReaDelay" readelay.dll 0 "" 1919247468<5653547265646C72656164656C617900> ""
+        bGRlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAATAAAAAEAAAAAABAA
+        AAAAAAAAAAABAAAALAAAAAIAAAAAAAAAAACAPwAAAAAAAAAAAACAP6YeADwAAAAAnNEHMwAAgD8AAAAAAACAPwAAgD8AAIA/AAAAPw==
+        AAAQAAAA
+      >
+      FLOATPOS 0 0 0 0
+      FXID {70C5303A-F164-4CC8-86E8-EFCCDDA7DFEF}
+      WAK 0 0
+    >
+  >
+  <TRACK {DB705B0F-1A64-478E-9EAF-F5546AC95418}
+    NAME "Verb-Tanglewood #_FX"
+    PEAKCOL 16810112
+    BEAT -1
+    AUTOMODE 0
+    VOLPAN 0.17341828064739 0 -1 -1 1
+    MUTESOLO 0 0 0
+    IPHASE 0
+    PLAYOFFS 0 1
+    ISBUS 1 1
+    BUSCOMP 0 0 0 0 0
+    SHOWINMIX 1 0.6667 0.5 1 0.5 0 0 0
+    FREEMODE 0
+    SEL 0
+    REC 0 0 0 0 0 0 0
+    VU 2
+    TRACKHEIGHT 65 0 0 0 -1 0
+    INQ 0 0 0 0.5 100 0 0 100
+    NCHAN 6
+    FX 1
+    TRACKID {DB705B0F-1A64-478E-9EAF-F5546AC95418}
+    PERF 0
+    MIDIOUT -1
+    MAINSEND 1 0
+    <FXCHAIN
+      WNDRECT 951 264 728 566
+      SHOW 0
+      LASTSEL 2
+      DOCKED 0
+      BYPASS 0 0 0
+      <VST "VST: ReaDelay (Cockos)" readelay.dll 0 "" 1919247468<5653547265646C72656164656C617900> ""
+        bGRlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAYAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAABMAAAAAQAAAAAAEAA=
+        AAAAAAAAAAABAAAALAAAAAIAAAAAAAAAAACAPwAAAAAAAAAAAACAP3ydfDsAAAAAnNEHMwAAgD8AAAAAAACAPwAAgD8AAIA/AAAAPw==
+        AAAQAAAA
+      >
+      FLOATPOS 0 0 0 0
+      FXID {3DEFC0D3-A1DD-482B-B213-DC947B6B7E00}
+      WAK 0 0
+      BYPASS 0 0 0
+      <VST "VST: ReaEQ (Cockos)" reaeq.dll 0 "" 1919247729<56535472656571726561657100000000> ""
+        cWVlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAYAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAADJAAAAAQAAAAAAEAA=
+        IQAAAAUAAAAEAAAAAQAAAIGCA6PjrpBAAAAAAAAA8D8AAAAAAAAAQAEAAAAAAQAAAAAAAAAAwHJAAAAAAAAA8D8AAAAAAAAAQAEIAAAAAQAAAAAAAAAAQI9AAAAAAAAA
+        8D8AAAAAAAAAQAEIAAAAAQAAAH8L9tGCT51AQQ0O/oZF7z8AAAAAAAAAQAEDAAAAAQAAAD/OgxFEv71AP06cnEyP7j8BAAAAAAAAQAEBAAAAAQAAAAAAAAAAAPA/AAAA
+        AA8CAABhAQAA
+        AFJlYUVRIERlZmF1bHQAEAAAAA==
+      >
+      PRESETNAME "ReaEQ Default"
+      FLOATPOS 24 52 543 419
+      FXID {EB70B22B-649F-4AA9-995B-555CB6A7C316}
+      WAK 0 0
+      BYPASS 0 0 0
+      <VST "VST: ReaVerb (Cockos)" reaverb.dll 0 "ReaVerb Left" 1919252066<56535472657662726561766572620000> ""
+        YnZlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAYAAAAEAAAAAAAAAAgAAAAAAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAAD6AAAAAQAAAAAAEAA=
+        AAAAwQAAgD8AAAAANxiAPAAAgD8AAIA/AAAAPwAAgD8AAIA/RklMRUxEUgDKAAAACAAAAEc6XEtlblxNdXNpYyBQcm9ncmFtIERvd25sb2Fkc1xTYW1wbGljaXR5IE03
+        IE1haW4gLSAwMiAtIFdhdmUsIDMyIGJpdCwgNDggS2h6LCB2MS4xXFNhbXBsaWNpdHkgTTcgTWFpbiAtIDAyIC0gV2F2ZSwgMzIgYml0LCA0OCBLaHosIHYxLjFcTTcg
+        LSA2IFNwYWNlcyAwMSBOb3J0aCBDaHVyY2hcNiBTcGFjZXMgMDEgTm9ydGggQ2h1cmNoIEwud2F2AA==
+        AAAQAAAA
+      >
+      FLOATPOS 2967 58 517 519
+      FXID {ADA7389A-94CC-485B-960E-364BB4FFF602}
+      WAK 0 0
+      BYPASS 0 0 0
+      <VST "VST: ReaVerb (Cockos)" reaverb.dll 0 "Reaverb Right" 1919252066<56535472657662726561766572620000> ""
+        YnZlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAYAAAAQAAAAAAAAACAAAAAAAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAAAPAQAAAQAAAAAAEAA=
+        AAAAwQAAgD8AAAAANxiAPAAAgD8AAIA/AAAAPwAAgD8AAIA/RklMRUxEUgDKAAAACAAAAEc6XEtlblxNdXNpYyBQcm9ncmFtIERvd25sb2Fkc1xTYW1wbGljaXR5IE03
+        IE1haW4gLSAwMiAtIFdhdmUsIDMyIGJpdCwgNDggS2h6LCB2MS4xXFNhbXBsaWNpdHkgTTcgTWFpbiAtIDAyIC0gV2F2ZSwgMzIgYml0LCA0OCBLaHosIHYxLjFcTTcg
+        LSA2IFNwYWNlcyAwMSBOb3J0aCBDaHVyY2hcNiBTcGFjZXMgMDEgTm9ydGggQ2h1cmNoIFIud2F2ACFSRVZFUlNFAAgAAAAAAIA/AAAAAA==
+        AAAQAAAA
+      >
+      FLOATPOS 3482 57 517 519
+      FXID {310DD7B1-B651-4894-A74B-DABC202EE5CD}
+      WAK 0 0
+      BYPASS 0 0 0
+      <JS IX/Mixer_8xM-1xS ""
+        0.000000 1.200000 1.200000 0.000000 0.000000 0.000000 0.000000 0.000000 1.000000 1.000000 0.000000 0.000000 1.000000 1.000000 0.000000 1.000000 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+      >
+      <JS_PINMAP
+        6AMAAEwAAADoAwAABgAAAAgAAAAAAAAAAAAAAAAAAAAAAAAABAAAAAAAAAAIAAAAAAAAABAAAAAAAAAAIAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAHAAAAOgDAAAGAAAA
+        AgAAAAEAAAAAAAAAAgAAAAAAAAA=
+      >
+      FLOATPOS 0 0 0 0
+      FXID {1A7C3288-FF6C-4AC2-AF5A-DE200713F9C9}
+      WAK 0 0
+    >
+  >
+  <TRACK {D200C68F-02E3-4E41-9F99-53041FC9A453}
+    NAME "fx - Drum Reverb #_FX"
+    PEAKCOL 25198656
+    BEAT -1
+    AUTOMODE 0
+    VOLPAN 0.71255818392288 0 -1 -1 1
+    MUTESOLO 0 0 0
+    IPHASE 0
+    PLAYOFFS 0 1
+    ISBUS 2 -4
+    BUSCOMP 0 0 0 0 0
+    SHOWINMIX 1 0.6667 0.5 1 0.5 0 -1 0
+    FREEMODE 0
+    SEL 1
+    REC 0 0 0 0 0 0 0
+    VU 2
+    TRACKHEIGHT 75 0 0 0 -1 0
+    INQ 0 0 0 0.5 100 0 0 100
+    NCHAN 2
+    FX 1
+    TRACKID {D200C68F-02E3-4E41-9F99-53041FC9A453}
+    PERF 0
+    AUXRECV 2 0 0.05866823442716 0 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 11 0 0.16329416261566 0 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 12 0 0.17471604744101 0 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 15 0 0.05186930979198 0 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 16 0 0.01887461316062 0 0 0 0 0 0 -1:U 0 -1 ''
+    AUXRECV 17 0 0.11050517374163 0 0 0 0 0 0 -1:U 0 -1 ''
+    MIDIOUT -1
+    MAINSEND 1 0
+    <FXCHAIN
+      WNDRECT 957 306 962 573
+      SHOW 0
+      LASTSEL 0
+      DOCKED 0
+    >
+  >
+  <EXTENSIONS
+    <MCU_B_KLINKE
+      |#{PROJECT_CONFIG/}#|
+    >
+    <MCU_KLINKE
+      |#{PROJECT_CONFIG/}#|
+    >
+    <SWSAUTOCOLOR
+      {00000000-0000-0000-0000-000000000000} 0 "" "" ""
+      {D8296DE9-2437-4BC0-8B3F-6179F5AED30E} 33488896 "" "" ""
+      {071E1E44-E76F-40C1-B82C-905829C31F76} 33488896 "" "" ""
+      {B3B9382C-4206-407C-8BB6-AF5B3692AAB7} 25231359 "" "" ""
+      {AB3AAB42-0347-4296-B7E3-C5BDA79314B4} 33554304 "" "" ""
+      {30392194-3758-4CB5-8DE4-ED82E22ADA30} 25165952 "" "" ""
+      {9DC9B181-86B2-4046-95A4-7869F15FB915} 16777471 "" "" ""
+      {D8119841-A017-4387-A9AE-30EADD2455D7} 16777471 "" "" ""
+      {E87D89A0-C72C-4F1F-8AE8-27FA902BD901} 16777471 "" "" ""
+      {A4205E75-B8D1-4132-B44B-AC76A4E1D815} 16777471 "" "" ""
+      {9D7F296B-9D26-444D-96A0-B0D004A73939} 16777471 "" "" ""
+      {166CAB36-9F8A-41A1-BD2E-C2A4C4957E75} 16777471 "" "" ""
+      {F72B2A0E-AE5E-4153-970E-6D9590B9464E} 16777471 "" "" ""
+      {794C4362-5CF8-405A-83E7-FD6E12107F1D} 16777471 "" "" ""
+      {13AA0869-6496-4386-86A9-DDFE54E5D278} 16777471 "" "" ""
+      {182F3976-F181-42EC-A963-F4D0E9E5ADA5} 16777471 "" "" ""
+      {0712B694-81E0-4F83-8AF3-3112EAA58BC6} 17251587 "" "" ""
+      {9F9FCB87-9C3E-4091-8605-88CADE83196B} 33521664 "" "" ""
+      {1ADD356F-8E9A-4C05-8A9B-BC3FE2CD0618} 21036800 "" "" ""
+      {9DAF5D2B-A8D8-430E-BFF1-2145BEF1BE11} 21036800 "" "" ""
+      {E4C3CAA3-9553-487C-ADB7-93262AEC4B95} 21036800 "" "" ""
+      {94391018-6784-4B70-A2E3-0508686FC01D} 21036800 "" "" ""
+      {68C8018B-E095-4C28-B082-13F51F26B848} 25198656 "" "" ""
+      {BD1C07D4-124C-42C9-B82A-CFA5A2BB0D4C} 25198656 "" "" ""
+      {DB705B0F-1A64-478E-9EAF-F5546AC95418} 25198656 "" "" ""
+      {D200C68F-02E3-4E41-9F99-53041FC9A453} 25198656 "" "" ""
+    >
+  >
+>

202012projects/Make You Dance -Cyrille Aimee(Ali Nawaz)/Make You Dance (Ali Nawaz).rpp ADDED Viewed

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202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/MBI Mix of Cyrille Aimee - Make You Dance 110 48000-24 15dec2020 1858.flac.RPP ADDED Viewed

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202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/1175 ADDED Viewed

	@@ -0,0 +1,157 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:1175 Compressor
+desc:1175 FAST Attack Compressor with Program-Dependent Release [Stillwell]
+//tags: dynamics compressor
+//author: Stillwell
+slider1:0<-60,0,0.1>Threshold (dB)
+slider2:1<0,3,1{4,8,12,20,All}>Ratio
+slider3:0<-20,20,0.1>Gain (dB)
+slider4:20<20,2000,10>Attack (�s)
+slider5:250<20,1000,1>Release (ms)
+slider6:100<0,100,0.1>Mix (%)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  log2db = 8.6858896380650365530225783783321; // 20 / ln(10)
+  db2log = 0.11512925464970228420089957273422; // ln(10) / 20
+  attime=0.010;
+  reltime=0.100;
+  ratio=0;
+  cratio=0;
+  rundb=0;
+  overdb=0;
+  ratatcoef = exp(-1/(0.00001 * srate));
+  ratrelcoef = exp(-1/(0.5 * srate));
+  atcoef=exp(-1/(attime * srate));
+  relcoef=exp(-1/(reltime * srate));
+  mix=1;
+  gr_meter=1;
+  gr_meter_decay = exp(1/(1*srate));
+@slider
+  thresh = slider1;
+  threshv = exp(thresh * db2log);
+  ratio = (slider2==0 ? 4 : (slider2==1 ? 8 : (slider2 == 2 ? 12 : (slider2 == 3 ? 20 : 20 ))));
+  slider2 == 4 ? (allin=1; cratio=20;) : (allin=0; cratio = ratio;);
+  cthresh = (softknee ? (thresh -3) : thresh);
+  cthreshv = exp(cthresh * db2log);
+  makeup = slider3;
+  makeupv = exp((makeup+autogain) * db2log);
+  attime = slider4 / 1000000;
+  reltime = slider5 / 1000;
+  atcoef=exp(-1/(attime * srate));
+  relcoef=exp(-1/(reltime * srate));
+  mix=slider6/100;
+@sample
+  ospl0 = spl0;
+  ospl1 = spl1;
+  aspl0 = abs(spl0);
+  aspl1 = abs(spl1);
+  maxspl = max(aspl0, aspl1);
+  maxspl = maxspl * maxspl;
+  runave = maxspl + rmscoef * (runave - maxspl);
+  det = sqrt(max(0,runave));
+  overdb = 2.08136898 * log(det/cthreshv) * log2db;
+  overdb = max(0,overdb);
+  overdb - rundb > 5 ? (averatio = 4;);
+  overdb > rundb ? (
+    rundb = overdb + atcoef * (rundb - overdb);
+    runratio = averatio + ratatcoef * (runratio - averatio);
+  ) : (
+    rundb = overdb + relcoef * (rundb - overdb);
+    runratio = averatio + ratrelcoef * (runratio - averatio);
+  );
+  overdb = rundb;
+  averatio = runratio;
+  allin ? (
+    cratio = 12 + averatio;
+  ) : (
+    cratio = ratio;
+  );
+  gr = -overdb * (cratio-1)/cratio;
+  grv = exp(gr * db2log);
+  runmax = maxover + relcoef * (runmax - maxover);  // highest peak for setting att/rel decays in reltime
+  maxover = runmax;
+  grv < gr_meter ? gr_meter=grv : ( gr_meter*=gr_meter_decay; gr_meter>1?gr_meter=1; );
+  spl0 *= grv * makeupv * mix;
+  spl1 *= grv * makeupv * mix;
+  spl0 += ospl0 * (1-mix);
+  spl1 += ospl1 * (1-mix);
+@gfx 0 32 // request horizontal/vertical heights (0 means dont care)
+  gr_meter *= exp(1/30); gr_meter>1?gr_meter=1; // decay meter here so if the audio processing stops it doesnt "stick"
+  gfx_r=1; gfx_g=gfx_b=0; gfx_a=0.8;
+  meter_bot=20;
+  meter_h=min(gfx_h,32);
+  xscale=gfx_w*20/meter_bot;
+  gfx_y=0;
+  gfx_x=gfx_w + log10(gr_meter)*xscale;
+  gfx_rectto(gfx_w,meter_h);
+  gfx_r=gfx_g=gfx_b=1.0; gfx_a=0.6;
+  s2=sqrt(2)/2;
+  g = s2;
+  while(
+    gfx_x=gfx_w + log10(g)*xscale;
+    gfx_x >= 0 ?
+    (
+      gfx_y=0;
+      gfx_lineto(gfx_x,meter_h,0);
+      gfx_y=meter_h-gfx_texth;
+      gfx_x+=2;
+      gfx_drawnumber(log10(g)*20,0);
+      gfx_drawchar($'d');
+      gfx_drawchar($'B');
+    );
+    g*=s2;
+    gfx_x >=0;
+  );
+  gfx_a=1;
+  gfx_x=0; gfx_y=meter_h/2 - gfx_texth/2;
+  gfx_drawnumber(log10(gr_meter)*20,1);
+  gfx_drawchar($'d');
+  gfx_drawchar($'B');

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/Auto-Wideness v1.0 ADDED Viewed

	@@ -0,0 +1,246 @@

+// written by Till
+// filter written by SStillwell based on RBJ's filter cookbook
+// SStillwell's copyright notice can be found at the bottom
+desc: Auto-Wideness
+//tags: processing stereo
+//author: Till
+slider1:-18<-60,0,1>0% Wideness @ (dB)
+slider2:-6<-30,24,1>100% Wideness @ (dB)
+slider3:1<0,50,1>Attack (ms)
+slider4:250<20,2000,10>Release (ms)
+slider5:0<0,50,1>Min Width (%)
+slider6:100<50,500,10>Max Width (%)
+slider7:0<0,2,1{Left+Right,Left,Right}>0% Signal
+slider8:0<0,1,1{No,Yes}>Reverse Mode
+slider14:0<0,100,1>Current Wideness (%)
+slider9:0<0,5,1{Left+Right,Left,Right,Sidechain Left+Right,Sidechain Left,Sidechain Right}>Director
+slider10:20<20,20000,10>Director HP (Hz)
+slider11:20000<20,20000,10>Director LP (Hz)
+slider12:0<0,1,1{No,Yes}>Preview Director
+in_pin:left input
+in_pin:right input
+in_pin:sidechain left input
+in_pin:sidechain right input
+out_pin:left output
+out_pin:right output
+/////////////////
+///           ///
+///  I N I T  ///
+///           ///
+/////////////////
+@init
+  curwideness = 0; // factor
+/////////////////
+///           ///
+///  SLIDER   ///
+///           ///
+/////////////////
+@slider
+  // SLIDER VALUES
+  bottomdb = slider1; // dB
+  bottom = 2 ^ (bottomdb / 6); // Amplitude
+  topdb = slider2; // dB
+  top = 2 ^ (topdb / 6); // factor
+  attack = max(1, ceil(slider3 / 1000 * srate)); // samples
+  release = max(1, ceil(slider4 / 1000 * srate)); // samples
+  minwidth = slider5;
+  maxwidth = slider6;
+  zerowidth = slider7;
+  reverse = slider8;
+  director = slider9;
+  hipass = slider10;
+  lopass = slider11;
+  preview = slider12;
+  // filtering values
+  a0 = 1;
+  s0 = 1;
+  q0 = 1 / (sqrt((a0 + 1/a0)*(1/s0 - 1) + 2));
+  w00 = 2 * $pi * hipass/srate;
+  cosw00 = cos(w00);
+  sinw00 = sin(w00);
+  alpha0 = sinw00 / (2 * q0);
+  b00 = (1 + cosw00)/2;
+  b10 = -(1 + cosw00);
+  b20 = (1 + cosw00)/2;
+  a00 = 1 + alpha0;
+  a10 = -2 * cosw00;
+  a20 = 1 - alpha0;
+  b00 /= a00;
+  b10 /= a00;
+  b20 /= a00;
+  a10 /= a00;
+  a20 /= a00;
+  a9 = 1;
+  s9 = 2;
+  q9 = 1 / (sqrt((a9 + 1/a9)*(1/s9 - 1) + 2));
+  w09 = 2 * $pi * lopass/srate;
+  cosw09 = cos(w09);
+  sinw09 = sin(w09);
+  alpha9 = sinw09 / (2 * q9);
+  b09 = (1 - cosw09)/2;
+  b19 = (1 - cosw09);
+  b29 = (1 - cosw09)/2;
+  a09 = 1 + alpha9;
+  a19 = -2 * cosw09;
+  a29 = 1 - alpha9;
+  b09 /= a09;
+  b19 /= a09;
+  b29 /= a09;
+  a19 /= a09;
+  a29 /= a09;
+/////////////////
+///           ///
+///  SAMPLE   ///
+///           ///
+/////////////////
+@sample
+  // choosing director
+  director == 0 ? (
+    dl = spl0;
+    dr = spl1;
+  ) : director == 1 ? (
+    dl = spl0;
+    dr = spl0;
+  ) : director == 2 ? (
+    dl = spl1;
+    dr = spl1;
+  ) : director == 3 ? (
+    dl = spl2;
+    dr = spl3;
+  ) : director == 4 ? (
+    dl = spl2;
+    dr = spl2;
+  ) : director == 5 ? (
+    dl = spl3;
+    dr = spl3;
+  ) : 0;
+  // filtering
+  hipass > 20 ? (
+    ospl0 = dl;
+    dl = b00 * dl + b10 * xl10 + b20 * xl20 - a10 * yl10 - a20 * yl20;
+    xl20 = xl10;
+    xl10 = ospl0;
+    yl20 = yl10;
+    yl10 = dl;
+    ospl1 = dr;
+    dr = b00 * dr + b10 * xr10 + b20 * xr20 - a10 * yr10 - a20 * yr20;
+    xr20 = xr10;
+    xr10 = ospl1;
+    yr20 = yr10;
+    yr10 = dr;
+  );
+  lopass < 20000 ? (
+    ospl0 = dl;
+    dl = b09 * dl + b19 * xl19 + b29 * xl29 - a19 * yl19 - a29 * yl29;
+    xl29 = xl19;
+    xl19 = ospl0;
+    yl29 = yl19;
+    yl19 = dl;
+    ospl1 = dr;
+    dr = b09 * dr + b19 * xr19 + b29 * xr29 - a19 * yr19 - a29 * yr29;
+    xr29 = xr19;
+    xr19 = ospl1;
+    yr29 = yr19;
+    yr19 = dr;
+  );
+  // choosing 0% width signal
+  zerowidth == 0 ? (
+    z = (spl0 + spl1) / 2;
+  ) : zerowidth == 1 ? (
+    z = spl0;
+  ) : zerowidth == 2 ? (
+    z = spl1;
+  ) : 0;
+  cursample = (abs(dl) + abs(dr)) / 2;
+  cursampledb = 6 * log(cursample) / log(2);
+  destwideness = (cursampledb - bottomdb) / (topdb - bottomdb);
+  widenesschange = destwideness - curwideness;
+  widenesschange > 0 ? (widenesschange = widenesschange / attack) : (widenesschange = widenesschange / release);
+  curwideness += widenesschange;
+  curwideness = min(reverse ? (1 - minwidth / 100) : (maxwidth / 100), curwideness);
+  curwideness = max(reverse ? (1 - maxwidth / 100) : (minwidth / 100), curwideness);
+  actualwideness = curwideness;
+  reverse ? (
+    actualwideness = 1 - actualwideness;
+  ) : 0;
+  l = actualwideness * spl0 + (1 - actualwideness) * z;
+  r = actualwideness * spl1 + (1 - actualwideness) * z;
+  preview ? (
+    spl0 = dl;
+    spl1 = dr;
+  ) : (
+    spl0 = l;
+    spl1 = r;
+  );
+  slider14 = ceil(actualwideness * 100);
+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.

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+// (C) 2006-2007, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+desc:Digital Versatile Compressor v2
+desc:Digital Versatile Compressor v2 [LOSER]
+//tags: dynamics compressor limiter
+//author: LOSER
+slider1:-.1<-30,-.1,.1>Threshold (dB)
+slider2:1<1,20,.1>Ratio
+slider3:20<0,500,1>Attack (ms)
+slider4:200<0,1000,1>Release (ms)
+slider5:0<0,100,1>RMS Size (ms)
+slider6:0<0,1,1{No,Yes}>Auto Make-Up
+slider7:0<-12,12,.1>Output (dB)
+slider8:0<0,1,1{Compress,Limit}>Character
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+gain = seekgain = 1;
+c = 8.65617025;
+dc = 10^-30;
+gain = seekGain = 1;
+t = 0;
+b = -exp(-60 / srate );
+a = 1.0 + b;
+gr_meter=1;
+gr_meter_decay = exp(1/(1*srate));
+@slider
+threshDB = slider1;
+thresh = exp(threshDB/c);
+ratio = 1/slider2;
+attack = exp( threshDB / (slider3*srate/1000) / c);
+release = exp( threshdB / (slider4*srate/1000) / c );
+rmsSize = floor(slider5/1000*srate);
+rms_size = floor(slider5/1000*srate);
+rmsSqrSum = rmsPos = 0;
+memset(0,0,rmsSize);
+volume = exp(slider7/c) / (slider6 ? exp(( threshDB -threshDB*ratio )/c)  : 1 );
+seekgain = 1;
+@sample
+rmsS = rms = max( abs(spl0) , abs(spl1) );
+rms = sqrt( (t = a*rms-b*t) );
+slider8 ? rms = max(rms,rmsS);
+rmsSize > 1 ? (
+  rmsSqrSum = max(rmsSqrSum - rmsPos[0],0) + (rmsPos[0] = sqr(rms));
+  (rmsPos+=1) >= rmsSize ? rmsPos=0;
+  rms = sqrt(rmsSqrSum/rmsSize);
+);
+seekGain = ((rms > thresh) ? exp((threshDB + (log(rms)*c-threshDB)*ratio) /c) / rms : 1);
+gain = ((gain > seekGain) ? max( gain*attack , seekGain ) : min( gain/release , seekGain ));
+spl0 *= gain * volume;
+spl1 *= gain * volume;
+gain < gr_meter ? gr_meter=gain : ( gr_meter*=gr_meter_decay; gr_meter>1?gr_meter=1; );
+@gfx 0 32 // request horizontal/vertical heights (0 means dont care)
+  gr_meter *= exp(1/30); gr_meter>1?gr_meter=1; // decay meter here so if the audio processing stops it doesnt "stick"
+  gfx_r=1; gfx_g=gfx_b=0; gfx_a=0.8;
+  meter_bot=20;
+  meter_h=min(gfx_h,32);
+  xscale=gfx_w*20/meter_bot;
+  gfx_y=0;
+  gfx_x=gfx_w + log10(gr_meter)*xscale;
+  gfx_rectto(gfx_w,meter_h);
+  gfx_r=gfx_g=gfx_b=1.0; gfx_a=0.6;
+  s2=sqrt(2)/2;
+  g = s2;
+  while(
+    gfx_x=gfx_w + log10(g)*xscale;
+    gfx_x >= 0 ?
+    (
+      gfx_y=0;
+      gfx_lineto(gfx_x,meter_h,0);
+      gfx_y=meter_h-gfx_texth;
+      gfx_x+=2;
+      gfx_drawnumber(log10(g)*20,0);
+      gfx_drawchar($'d');
+      gfx_drawchar($'B');
+    );
+    g*=s2;
+    gfx_x >=0;
+  );
+  gfx_a=1;
+  gfx_x=0; gfx_y=meter_h/2 - gfx_texth/2;
+  gfx_drawnumber(log10(gr_meter)*20,1);
+  gfx_drawchar($'d');
+  gfx_drawchar($'B');

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/ReEQ.jsfx ADDED Viewed

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202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/ReSpectrum.jsfx ADDED Viewed

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+desc: ReSpectrum
+/*
+ReSpectrum - A spectrum analyzer
+Version: v1.0.1
+The MIT License (MIT)
+Copyright (c) 2020 Justin Johnson
+Permission is hereby granted, free of charge, to any person obtaining a copy
+of this software and associated documentation files (the "Software"), to deal
+in the Software without restriction, including without limitation the rights
+to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+copies of the Software, and to permit persons to whom the Software is
+furnished to do so, subject to the following conditions:
+The above copyright notice and this permission notice shall be included in all
+copies or substantial portions of the Software.
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+SOFTWARE.
+*/
+slider1:Spectrum_Mode=3<0,5,1{Full,Mid,Side,Mid / Side,Left,Right,Left / Right}>-Spectrum
+slider2:Display_Mode=0<0,2,1{Fill,Line,None}>-Display
+slider3:Ceiling_Value=0<0,2,1{0dB,20dB,40dB}>-Ceiling
+slider4:Floor_Value=0<0,2,1{-90dB,-140dB,-200dB}>-Floor
+slider5:Tilt_Value=3<0,5,1{0dB/oct,1.5dB/oct,3dB/oct,4.5dB/oct,6dB/oct}>-Tilt
+slider6:Type_Value=1<0,3,1{Hamming,Blackman-Harris,Blackman,Rectangular}>-Type
+slider7:Block_Value=2<0,3,1{2048,4096,8192,16384}>-Block Size
+slider8:Show_Piano=0<0,1,1{Off,On}>-Show Piano
+slider8:Show_Peaks=0<0,1,1{Off,On}>-Show Peaks
+import spectrum.jsfx-inc
+import svf_filter.jsfx-inc
+options:no_meter
+@init
+gfx_ext_retina  = 1;
+ext_nodenorm    = 1;
+ext_noinit = 1;
+last_gfx_ext_retina = -1;
+/*
+ * Round number up or down
+ */
+function round(in) (
+  floor(in + 0.5 * sign(in));
+);
+/*
+ * Standard log2
+ */
+function log2(x) (
+  log(x) / log(2);
+);
+/*
+ * Return string of integer
+ */
+function int2str(intIn) local (outStr) (
+  strcpy(outStr=#,"");
+  sprintf(outStr,"%d",intIn);
+  outStr;
+);
+/*
+ * Update the state of any changes
+ */
+function update_state() local (blocks) (
+  spectrum.ceiling = Ceiling_Value == 0 ? 0 : Ceiling_Value == 1 ? 20 : Ceiling_Value == 2 ? 40;
+  spectrum.noise_floor = Floor_Value == 0 ? -90 : Floor_Value == 1 ? -140 : Floor_Value == 2 ? -200;
+  spectrum.noise_floor = Floor_Value == 0 ? -90 : Floor_Value == 1 ? -140 : Floor_Value == 2 ? -200;
+  spectrum.tilt = Tilt_Value == 0 ? 0 : Tilt_Value == 1 ? 1.5 : Tilt_Value == 2 ? 3 : Tilt_Value == 3 ? 4.5 :
+                  Tilt_Value == 4 ? 6;
+  spectrum.windowtype != Type_Value+1 ? spectrum.set_type(Type_Value+1);
+  blocks = (2 ^ (Block_Value+1)) * 1024;
+  spectrum.windowsize != blocks ? spectrum.set_block_size(blocks);
+  Display_Mode == 0 ? (
+    fill_r = 46 / 255;
+    fill_g = 20 / 255;
+    fill_b = 83 / 255;
+    fill_a = 1.0;
+    spectrum.set_fill(0, 1);
+    spectrum.set_color(0, fill_r, fill_g, fill_b, fill_a);
+    fill_r = 96 / 255;
+    fill_g = 223 / 255;
+    fill_b = 255 / 255;
+    fill_a = 0.5;
+    spectrum.set_fill(1, 1);
+    spectrum.set_color(1, fill_r, fill_g, fill_b, fill_a);
+  ) : Display_Mode == 1 ? (
+    line_a=1.0;
+    line_r = 114 / 255; line_g = 215 / 255; line_b = 253 / 255;;
+    spectrum.set_fill(0, 0);
+    spectrum.set_color(0, line_r, line_g, line_b, line_a);
+    line_r = 253 / 255; line_g = 185 / 255; line_b = 21 / 255;;
+    spectrum.set_fill(1, 0);
+    spectrum.set_color(1, line_r, line_g, line_b, line_a);
+  );
+);
+/*
+ * Draw a crosshair where the mouse is
+ */
+function draw_mouse_crosshair() (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+    gfx_set(1.0, 1.0, 1.0, 0.3);
+    gfx_line(0,mouse_y,gfx_w,mouse_y,1);
+    gfx_line(mouse_x,0,mouse_x,gfx_h,1);
+  );
+);
+/*
+ * Draw a round cornered rectangle
+ */
+function draw_filled_rect(x, y, w, h, rad, alias) (
+    gfx_circle(x+rad, y+rad, rad, 1, alias);
+    gfx_circle(x+w-rad-1, y+rad, rad, 1, alias);
+    gfx_circle(x+w-rad-1, y+h-rad-1, rad, 1, alias);
+    gfx_circle(x+rad, y+h-rad-1, rad, 1, alias);
+    gfx_rect(x, y+rad, rad*2, h-rad*2, alias);
+    gfx_rect(x+w-rad*2, y+rad, rad*2, h-rad*2, alias);
+    gfx_rect(x+rad, y, w-rad*2, rad*2, alias);
+    gfx_rect(x+rad, y+h-rad*2, w-rad*2, rad*2, alias);
+    gfx_rect(x+rad, y+rad, w-rad*2, h-rad*2, alias);
+);
+/*
+ * Draw the info panel showing frequency, note, cent and dB
+ */
+function draw_info_panel(note_select)
+  local(read_freq, read_amp, q, band, C0, semi, octave, note, cent, keys, nn, note_freq, centstr, width, xpos, xpos2, ypos)
+ (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+    gfx_set(0, 0.5, 1);
+    read_freq = note_select == 0 ? spectrum.x_to_freq(mouse_x) : note_select;
+    read_amp = spectrum.y_to_db(mouse_y);
+    !((very_compact_width) | (very_compact_height)) ? (
+      xpos = 100;
+      xpos2 = 155;
+      gfx_ext_retina != 2 ? (xpos -= 50; xpos2 -= 70);
+      ypos = gfx_h - (gfx_texth*6) - spectrum.bottom_margin;
+    ) : (
+      xpos = 30;
+      xpos2 = 80;
+      gfx_ext_retina != 2 ? (xpos = 15; xpos2 -= 30);
+      ypos = gfx_h - (gfx_texth*4);
+    );
+    gfx_x = xpos;
+    gfx_y = ypos;
+    gfx_r = 0; gfx_g = 0; gfx_b = 0; gfx_a = 1.0;
+    width = 130;
+    gfx_ext_retina != 2 ? width -= 40;
+    draw_filled_rect(gfx_x-5, gfx_y-5, width, gfx_texth*4, 8, 1);
+    gfx_r = (114 / 255) * 0.5; gfx_g = (215 / 255) * 0.5; gfx_b = (253 / 255) * 0.5; gfx_a = 1.0;
+    draw_filled_rect(gfx_x-10, gfx_y-10, width, gfx_texth*4, 8, 1);
+    gfx_r = 114 / 255; gfx_g = 215 / 255; gfx_b = 253 / 255; gfx_a = 1.0;
+    gfx_ext_retina != 2 ? gfx_y -= 8;
+    read_freq < 100 ? ( gfx_drawstr(sprintf(#,"%.1f Hz", read_freq)) ) :
+      (read_freq < 1000 ? ( gfx_drawstr(sprintf(#,"%.0f Hz", read_freq)) ) : (
+        (read_freq < 10000 ? ( gfx_drawstr(sprintf(#,"%.2f kHz", read_freq/1000)) ) : (
+          gfx_drawstr(sprintf(#,"%.1f kHz", read_freq/1000));
+        )
+      )
+    ));
+    // 440Hz is A4, get C0 as offset from that
+    C0 = 440 * pow(2, -4.75);
+    // Get seminotes (note number), octave and note within octave
+    semi = round(12 * log2(read_freq / C0));
+    octave = floor(semi / 12);
+    note = (semi % 12);
+    // Calculate cents
+    note_freq = C0 * 2.71828 ^ (0.0577623 * semi);
+    cent = floor(1200 * log2(read_freq / note_freq));
+    // The above math goes a bit screwy for our -1 lowest octave.
+    // We get a kind of inverse reflection.  This fixes it up.
+    octave == -1 ? (
+      note = (13 - (-(semi))) % 12;
+      cent = -(99 - cent);
+    );
+    // Display it all
+    keys="CCDDEFFGGAAB";
+    strcpy_substr(nn=#,keys,note,1);
+    note==1 || note==3 || note==6 || note==8 || note==10 ? strcat(nn,"#");
+    strcat(nn, int2str(octave));
+    cent < 0 ? strcpy(centstr=#,"-") : strcpy(centstr=#,"+");
+    abs(cent) <= 9 ? strcat(centstr, "0");
+    strcat(centstr, sprintf(#, "%d", abs(cent)));
+    gfx_x = xpos;
+    //gfx_ext_retina != 2 ? gfx_x -= 50;
+    gfx_y += gfx_texth+2;
+    gfx_drawstr(nn);
+    gfx_x = xpos2;
+    //gfx_ext_retina != 2 ? gfx_x -= 70;
+    gfx_drawstr(centstr);
+    gfx_x = xpos;
+    //gfx_ext_retina != 2 ? gfx_x -= 50;
+    gfx_y += gfx_texth+2;
+    gfx_drawstr(sprintf(#,"%.1f DB", read_amp));
+  );
+);
+/*
+ * Draw the listener boundaries and set the Q for the bandpass filter
+ */
+function draw_listen_helper()
+  local (mouse_spec, lread_freq, rread_freq, lfreq, rfreq, lx, rx, c0, lnsemi, lnoct, rnsemi, rnoct, oct)
+(
+  gfx_r = 114 / 255; gfx_g = 215 / 255; gfx_b = 253 / 255;
+  listen_freq = spectrum.x_to_freq(mouse_x);
+  mouse_spec = (mouse_x - spectrum.left_margin) / (gfx_w - spectrum.left_margin - spectrum.right_margin);
+  lread_freq = spectrum.min_freq * exp(spectrum.freq_log_max * (mouse_spec - listen_width));
+  rread_freq = spectrum.min_freq * exp(spectrum.freq_log_max * (mouse_spec + listen_width));
+  lfreq = lread_freq;
+  rfreq = rread_freq;
+  lx = spectrum.freq_to_x(lfreq);
+  rx = spectrum.freq_to_x(rfreq);
+  c0 = 440.0 * 2.0 ^ (-57.0 / 12.0);    //C0 is 57 semitones below A4 (440 Hz)
+  lnsemi = 12.0 * log(lfreq / c0) / log(2.0);
+  lnoct = lnsemi / 12;           //Scientific pitch notation octave number
+  rnsemi = 12.0 * log(rfreq / c0) / log(2.0);
+  rnoct = rnsemi / 12;           //Scientific pitch notation octave number
+  oct = rnoct - lnoct;
+  listen_q = filter.zdf_bwtoq(oct);
+  gfx_a = 1.0;
+  gfx_line(lx, 0, lx, gfx_h - gfx_texth+2);
+  gfx_line(rx, 0, rx, gfx_h - gfx_texth+2);
+  gfx_a = 0.8;
+  gfx_line(lx-2, 0, lx-2, gfx_h - gfx_texth+2);
+  gfx_line(rx+2, 0, rx+2, gfx_h - gfx_texth+2);
+  gfx_a = 0.5;
+  gfx_line(lx-4, 0, lx-4, gfx_h - gfx_texth+2);
+  gfx_line(rx+4, 0, rx+4, gfx_h - gfx_texth+2);
+);
+/*
+ * Initialise the peaks show button
+ */
+function init_peak_button(xpos, ypos, buttonwidth) instance (x, y, width, label) (
+  x = xpos;
+  y = ypos;
+  width = buttonwidth;
+  label = "Peaks";
+);
+/*
+ * Draw the peaks toggle button
+ */
+function draw_peak_button() instance (x, y, width, menutext, label, pressed, height, label) local(w, h, a) (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+  gfx_a = 1;
+  gfx_measurestr(label, w, h);
+  height = h + 8;
+  mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+    gfx_r = (114 / 255) * 0.6;
+    gfx_g = (215 / 255) * 0.6;
+    gfx_b = (253 / 255) * 0.6;
+  ) : (
+    Show_Peaks ? a = 0.6 : a = 0.4;
+    gfx_r = (114 / 255) * a;
+    gfx_g = (215 / 255) * a;
+    gfx_b = (253 / 255) * a;
+  );
+  gfx_rect(x, y, width, h+9);
+  gfx_circle(x, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  gfx_circle(x + width, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  Show_Peaks ? (
+    gfx_r = (114 / 255);
+    gfx_g = (215 / 255);
+    gfx_b = (253 / 255);
+  ) : (
+    gfx_r = (114 / 300);
+    gfx_g = (215 / 300);
+    gfx_b = (253 / 300);
+  );
+  gfx_a = 1;
+  gfx_x = x + (width / 2) - (w / 2);
+  gfx_y = y + 4;
+  gfx_drawstr(label);
+  );
+);
+/*
+ * Handle clicking the peaks button
+ */
+function handle_peak_button() instance (x, y, width, label, pressed, height, label)
+  local (last_clicked_item)
+(
+  last_clicked_item = 0;
+  mouse_cap & 1 && !pressed ? (
+    mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+      pressed = 1;
+      Show_Peaks = Show_Peaks ? Show_Peaks = 0 : 1;
+      spectrum.set_show_peaks(Show_Peaks);
+    ) : pressed = 0;
+  ) : (
+    !(mouse_cap & 1) ? pressed = 0;
+  );
+);
+/*
+ * Initialise the piano keys toggle button
+ */
+function init_piano_button(xpos, ypos, buttonwidth) instance (x, y, width, label) (
+  x = xpos;
+  y = ypos;
+  width = buttonwidth;
+  label = "Keys";
+);
+/*
+ * Draw the piano keys button
+ */
+function draw_piano_button() instance (x, y, width, menutext, label, pressed, height, label) local(w, h, a) (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+  gfx_a = 1;
+  gfx_measurestr(label, w, h);
+  height = h + 8;
+  mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+    gfx_r = (114 / 255) * 0.6;
+    gfx_g = (215 / 255) * 0.6;
+    gfx_b = (253 / 255) * 0.6;
+  ) : (
+    Show_Piano ? a = 0.6 : a = 0.4;
+    gfx_r = (114 / 255) * a;
+    gfx_g = (215 / 255) * a;
+    gfx_b = (253 / 255) * a;
+  );
+  gfx_rect(x, y, width, h+9);
+  gfx_circle(x, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  gfx_circle(x + width, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  Show_Piano ? (
+    gfx_r = (114 / 255);
+    gfx_g = (215 / 255);
+    gfx_b = (253 / 255);
+  ) : (
+    gfx_r = (114 / 300);
+    gfx_g = (215 / 300);
+    gfx_b = (253 / 300);
+  );
+  gfx_a = 1;
+  gfx_x = x + (width / 2) - (w / 2);
+  gfx_y = y + 4;
+  gfx_drawstr(label);
+  );
+);
+/*
+ * Handle the piano keys button
+ */
+function handle_piano_button() instance (x, y, width, label, pressed, height, label)
+  local (last_clicked_item)
+(
+  last_clicked_item = 0;
+  mouse_cap & 1 && !pressed ? (
+    mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+      pressed = 1;
+      Show_Piano = Show_Piano ? Show_Piano = 0 : 1;
+    ) : pressed = 0;
+  ) : (
+    !(mouse_cap & 1) ? pressed = 0;
+  );
+);
+/*
+ * Initialise the analyzer options button
+ */
+function init_menu_button(xpos, ypos, buttonwidth, buttonlabel, menutext) instance (x, y, width, menutext, label) (
+  x = xpos;
+  y = ypos;
+  width = buttonwidth;
+  this.menutext = menutext;
+  label = buttonlabel;
+);
+/*
+ * Draw the analyzer options button
+ */
+function draw_menu_button() instance (x, y, width, menutext, label, pressed, height, label) (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+  gfx_a = 1;
+  gfx_measurestr(label, w, h);
+  height = h + 8;
+  mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+    gfx_r = (114 / 255) * 0.6;
+    gfx_g = (215 / 255) * 0.6;
+    gfx_b = (253 / 255) * 0.6;
+  ) : (
+    gfx_r = (114 / 255) * 0.4;
+    gfx_g = (215 / 255) * 0.4;
+    gfx_b = (253 / 255) * 0.4;
+  );
+  gfx_rect(x, y, width, h+9);
+  gfx_circle(x, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  gfx_circle(x + width, y + ((h+8)*0.5), ((h+8)*0.5), 1);
+  gfx_r = (114 / 255);
+  gfx_g = (215 / 255);
+  gfx_b = (253 / 255);
+  gfx_a = 1;
+  gfx_x = x + (width / 2) - (w / 2);
+  gfx_y = y + 4;
+  gfx_drawstr(label);
+  );
+);
+/*
+ * Handle the analyzer options button
+ */
+function handle_menu_button() instance (x, y, width, menutext, label, pressed, height, label)
+  local (last_clicked_item)
+(
+  last_clicked_item = 0;
+  mouse_cap & 1 && !pressed ? (
+    mouse_x >= x && mouse_x <= x+width && mouse_y >= y && mouse_y <= y + height ? (
+      pressed = 1;
+        #menu = "";
+        #menu += ">Spectrum|";
+        Spectrum_Mode == 0 ? #menu += "!"; #menu += "Full|";
+        Spectrum_Mode == 1 ? #menu += "!"; #menu += "Mid|";
+        Spectrum_Mode == 2 ? #menu += "!"; #menu += "Side|";
+        Spectrum_Mode == 3 ? #menu += "!"; #menu += "Mid + Side|";
+        Spectrum_Mode == 4 ? #menu += "!"; #menu += "Left|";
+        Spectrum_Mode == 5 ? #menu += "!"; #menu += "Right|";
+        Spectrum_Mode == 6 ? #menu += "!"; #menu += "<Left + Right|";
+        #menu += ">Display|";
+        Display_Mode == 0 ? #menu += "!"; #menu += "Fill|";
+        Display_Mode == 1 ? #menu += "!"; #menu += "Line|";
+        Display_Mode == 2 ? #menu += "!"; #menu += "<None|";
+        #menu += ">Range|";
+        Ceiling_Value == 0 ? #menu += "!"; #menu += "Ceiling 0dB|";
+        Ceiling_Value == 1 ? #menu += "!"; #menu += "Ceiling 20dB|";
+        Ceiling_Value == 2 ? #menu += "!"; #menu += "Ceiling 40dB||";
+        Floor_Value == 0 ? #menu += "!"; #menu += "Floor -90dB|";
+        Floor_Value == 1 ? #menu += "!"; #menu += "Floor -140dB|";
+        Floor_Value == 2 ? #menu += "!"; #menu += "<Floor -200dB|";
+        #menu += ">Tilt|";
+        Tilt_Value == 0 ? #menu += "!"; #menu += "0dB/oct|";
+        Tilt_Value == 1 ? #menu += "!"; #menu += "1.5dB/oct|";
+        Tilt_Value == 2 ? #menu += "!"; #menu += "3dB/oct|";
+        Tilt_Value == 3 ? #menu += "!"; #menu += "4.5dB/oct|";
+        Tilt_Value == 4 ? #menu += "!"; #menu += "<6dB/oct|";
+        #menu += ">Window Type|";
+        Type_Value == 0 ? #menu += "!"; #menu += "Hamming|";
+        Type_Value == 1 ? #menu += "!"; #menu += "Blackman-Harris|";
+        Type_Value == 2 ? #menu += "!"; #menu += "Blackman|";
+        Type_Value == 3 ? #menu += "!"; #menu += "<Rectangular|";
+        #menu += ">FFT Size|";
+        Block_Value == 0 ? #menu += "!"; #menu += "2048|";
+        Block_Value == 1 ? #menu += "!"; #menu += "4096|";
+        Block_Value == 2 ? #menu += "!"; #menu += "8192|";
+        Block_Value == 3 ? #menu += "!"; #menu += "16384|";
+      gfx_x = mouse_x;
+      gfx_y = mouse_y;
+      last_clicked_item = gfx_showmenu(#menu);
+      pressed = 0;
+      last_clicked_item >= 1 && last_clicked_item <= 7 ? (
+        // Force reset of peak buffers
+        spectrum.set_show_peaks(Show_Peaks);
+        Spectrum_Mode = last_clicked_item - 1;
+      );
+      last_clicked_item >= 8 && last_clicked_item <= 10 ? (
+        Display_Mode = last_clicked_item - 8;
+      );
+      last_clicked_item >= 11 && last_clicked_item <= 13 ? (
+        Ceiling_Value = last_clicked_item - 11;
+      );
+      last_clicked_item >= 14 && last_clicked_item <= 16 ? (
+        Floor_Value = last_clicked_item - 14;
+      );
+      last_clicked_item >= 17 && last_clicked_item <= 21 ? (
+        Tilt_Value = last_clicked_item - 17;
+      );
+      last_clicked_item >= 22 && last_clicked_item <= 25 ? (
+        Type_Value = last_clicked_item - 22;
+      );
+      last_clicked_item >= 26 && last_clicked_item <= 29 ? (
+        Block_Value = last_clicked_item - 26;
+      );
+      last_clicked_item >= 1 ? update_state();
+    ) : pressed = 0;
+  ) : (
+    !(mouse_cap & 1) ? pressed = 0;
+  );
+  last_clicked_item;
+);
+/*
+ * Set global state vars
+ */
+do_listen = 0;
+listen_width = 0.10;
+filter.zdf_set_sample_rate(srate);
+gfx_ext_retina == 2 ? (
+  menu.init_menu_button(gfx_w - 140, 10, 120, "Settings", "");
+  piano.init_piano_button(gfx_w - 300, 10, 100);
+  peaks.init_peak_button(gfx_w - 420, 10, 100);
+) : (
+  menu.init_menu_button(gfx_w - 140, 10, 80, "Settings", "");
+  piano.init_piano_button(gfx_w - 300, 10, 60);
+  peaks.init_peak_button(gfx_w - 420, 10, 60);
+);
+spectrum.set_show_peaks(Show_Peaks);
+spectrum.init();
+@slider
+update_state();
+@sample
+// Mid/Side encode
+mid = (spl0 + spl1) * 0.5;
+side = (spl0 - spl1) * 0.5;
+// Feed the correct buffers depending on spectrum modes
+Spectrum_Mode == 0 ? spectrum.sample0(spl0 + spl1) :
+Spectrum_Mode == 1 ? spectrum.sample0(mid) :
+Spectrum_Mode == 2 ? spectrum.sample0(side) :
+Spectrum_Mode == 3 ? (spectrum.sample0(mid); spectrum.sample1(side)) :
+Spectrum_Mode == 4 ? spectrum.sample0(spl0);
+Spectrum_Mode == 5 ? spectrum.sample0(spl1) :
+Spectrum_Mode == 6 ? (spectrum.sample0(spl0); spectrum.sample1(spl1));
+// Filter if we're in listen mode
+do_listen ? (
+  mono = 0.5 * (spl0 + spl1);
+  filter.zdf_bp2(listen_freq, listen_q);
+  spl0 = spl1 = filter.zdf_svf0(mono);
+);
+@gfx 640 400
+gfx_ext_retina != last_gfx_ext_retina ? (
+  last_gfx_ext_retina = gfx_ext_retina;
+  gfx_ext_retina > 1 ? (
+    gfx_setfont(1,"Arial",20,'b');
+    gfx_setfont(2,"Arial",18,'b');
+  ) : (
+    gfx_setfont(1,"Arial",12,'b');
+    gfx_setfont(2,"Arial",10,'b');
+  );
+  gfx_setfont(1);
+);
+actual_width = gfx_w / gfx_ext_retina;
+actual_height = gfx_h / gfx_ext_retina;
+// Calculage compact view flags
+// These are used to disable certain elements for graceful visual shrinking
+compact_width = actual_width < 600;
+compact_height = actual_height < 320;
+gfx_ext_retina != 2 ? (
+  very_compact_width = (actual_width < 450);
+  very_compact_height = (actual_height < 240);
+) : (
+  very_compact_width = (actual_width < 300);
+  very_compact_height = (actual_height < 160);
+);
+very_compact_width | very_compact_height ? (
+  spectrum.bottom_margin = -18 * gfx_ext_retina;
+) : (
+  spectrum.bottom_margin = 0;
+);
+Display_Mode < 2 ? (
+  spectrum.draw(0);
+  Spectrum_Mode == 3 || Spectrum_Mode == 6 ? spectrum.draw(1);
+);
+ht = (gfx_h - spectrum.bottom_margin - gfx_texth) + 2;
+dst_a = 0.55 / ht;
+gfx_gradrect(0, ht/2, gfx_w, ht/2, 0,0,0,0,    0, 0, 0, 0, 0, 0, 0, dst_a*2);
+!((very_compact_width) | (very_compact_height)) ? (
+  spectrum.draw_grid(0);
+);
+chr = gfx_getchar();
+mouse_cap & 8 ? (
+  do_listen = 1;
+  draw_listen_helper();
+  mw = mouse_wheel;
+  md = -(mw - last_wheel) / 120;
+  last_wheel = mw;
+  listen_width += md / 200;
+  listen_width = min(0.30, listen_width);
+  listen_width = max(0.01, listen_width);
+) : do_listen = 0;
+!((compact_width) | (compact_height)) ? (
+  mouse_x >= 0 && mouse_x < gfx_w && mouse_y >=0 && mouse_y < gfx_h ? (
+    note_select = Show_Piano ? spectrum.draw_piano() : 0;
+  ) : note_select = 0;
+);
+draw_info_panel(note_select);
+note_select == 0 ? (
+  draw_mouse_crosshair();
+);
+!((very_compact_width) | (very_compact_height)) ? (
+  gfx_ext_retina == 2 ? (menu.x = gfx_w - 140; menu.width = 120;) : (menu.x = gfx_w - 100; menu.width = 80;);
+  menu.draw_menu_button();
+  menu.handle_menu_button();
+  gfx_ext_retina == 2 ? (piano.x = gfx_w - 280; piano.width = 100;) : (piano.x = gfx_w - 190; piano.width = 60;);
+  piano.draw_piano_button();
+  piano.handle_piano_button();
+  gfx_ext_retina == 2 ? (peaks.x = gfx_w - 420; peaks.width = 100;) : (peaks.x = gfx_w - 280; peaks.width = 60;);
+  peaks.draw_peak_button();
+  peaks.handle_peak_button();
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/Saturation ADDED Viewed

	@@ -0,0 +1,78 @@

+// (C) 2006-2007, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+desc:Saturation
+desc:Saturation [LOSER]
+//tags: processing amplitude gain saturation
+//author: LOSER
+slider1:0<0,100,1>Amount (%)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+gfx_clear = 0;
+@slider
+foo=slider1/200*$pi;
+bar = sin(slider1/200*$pi);
+@sample
+slider1 ? (
+spl0 = min(max( sin(max(min(spl0,1),-1)*foo)/bar ,-1) ,1);
+spl1 = min(max( sin(max(min(spl1,1),-1)*foo)/bar ,-1) ,1);
+);
+@gfx 192 192
+gfxSize = min(gfx_w,gfx_h);
+gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+gfx_x=gfx_y=0;
+gfx_rectto(gfx_w,gfx_h);
+gfx_r=gfx_g=gfx_b=0.8; gfx_a=1;
+gfx_x=gfxSize/2; gfx_y=0;
+gfx_lineto(gfxSize/2,gfxSize,0);
+gfx_x=0; gfx_y=gfxSize/2;
+gfx_lineto(gfxSize,gfxSize/2,0);
+gfx_x = gfxSize-20; gfx_y = gfxSize/2;
+gfx_drawchar($'I');
+gfx_drawchar($'N');
+gfx_x = gfxSize/2+2; gfx_y = 0;
+gfx_drawchar($'O');
+gfx_drawchar($'U');
+gfx_drawchar($'T');
+slider1 ? (
+  gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=1;
+  gfx_x=0; gfx_y=gfxSize;
+  x = -1;
+  while(
+    y = -sin(x*foo)/bar;
+    gfx_lineto(x*gfxSize/2+gfxSize/2,y*gfxSize/2+gfxSize/2,1);
+    (x+=0.1) <= 1;
+  );
+  gfx_lineto(gfxSize,0,1);
+):(
+  gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=1;
+  gfx_x=0; gfx_y=gfxSize;
+  gfx_lineto(gfxSize,0,1);
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/Smooth Limiter.jsfx ADDED Viewed

	@@ -0,0 +1,337 @@

+desc:Smooth Limiter (by Geraint Luff)
+in_pin:Left
+in_pin:Right
+out_pin:Left
+out_pin:Right
+slider1:-3<-20,0.1,0.1>-limit (dB)
+slider2:10<0.1,100,0.1>-anticipation (ms)
+slider3:50<1,100,0.1>-release (ms)
+slider4:0<0,1,0.01>-distortion
+slider5:0<-12,12,0.1>-pre-gain (dB)
+import ui-lib.jsfx-inc
+@init
+gfx_ext_retina = 1;
+bufferlength = ceil(srate*1);
+buffer0 = 0;
+buffer1 = buffer0 + bufferlength;
+bufferpeak = buffer1 + bufferlength;
+freemem = bufferpeak + bufferlength;
+overcorrect_factor = 1.002; // about 0.02dB
+freemem = ui_setup(freemem);
+function tanh(x) (
+	x >= 20 ? (
+		1;
+	) : x <= -20 ? (
+		-1;
+	) : (
+		(exp(2*x) - 1)/(exp(2*x) + 1);
+	);
+);
+function atanh(x) (
+	x >= 1 ? (
+		20;
+	) ? (x <= -1) ? (
+		-20;
+	) : (
+		log((1 + x)/(1 - x))*0.5;
+	);
+);
+writepos = 10;
+delaysamples = 10;
+attacksamples = 10;
+releasesamples = 100;
+limit = 1;
+releasestartvalue = 1;
+releaseindex = srate;
+function update() (
+	attacksamples = ceil(slider2*srate/1000);
+	releasesamples = ceil(slider3*srate/1000);
+	delaysamples = ceil(attacksamples);
+	limit = pow(10, slider1/20);
+	pregain_factor = pow(10, slider5/20);
+);
+// Starts at 0, goes to 1
+function attackwindow(ratio) (
+	0.5 - 0.5*cos(ratio*$pi);
+);
+function releasewindow(ratio) (
+	0.5 + 0.5*cos(ratio*$pi);
+);
+A = 0;
+B = 1;
+function dist(x) (
+	B*x/(A*abs(x) + 1);
+);
+function distortion_for_peak(peak, limit) (
+	A = (1 - pow(limit/oldpeak, slider4))/limit;
+);
+function scaling_for_peak(peak, limit) (
+	pow(limit/peak, 1 - slider4);
+);
+@slider
+update();
+@block
+pdc_bot_ch = 0;
+pdc_top_ch = 2;
+pdc_delay = delaysamples - 1;
+@sample
+spl0 *= pregain_factor;
+spl1 *= pregain_factor;
+truepeak = max(abs(spl0), abs(spl1));
+releasepeak = limit;
+releaseindex < releasesamples ? (
+	releasepeak = limit + (releasestartvalue - limit)*releasewindow(releaseindex/releasesamples);
+	releaseindex += 1;
+);
+peak = max(releasepeak, truepeak);
+//peak = max(peak - releasegradient, truepeak);
+peak < limit ? (
+	peak = limit;
+	releasestartvalue = limit;
+	releaseindex = srate;
+) : (truepeak == peak) ? (
+	// It's a new peak
+	peak *= overcorrect_factor; // Add just a little bit extra, in the hopes that we don't have to do this again soon
+	// For future decay
+	//releasegradient = (peak - limit)/releasesamples;
+	releasestartvalue = peak;
+	releaseindex = 0;
+	// Attempt to extend an existing attack
+	i = 1;
+	startpeak = limit;
+	foundabove = 0;
+	foundintersection = 0;
+	intersectionindex = -1;
+	bestcorrection = -1;
+	bestindex = delaysamples - 1;
+	beststartpeak = limit;
+	while (i < attacksamples && !foundintersection) (
+		window = attackwindow(1 - i/attacksamples);
+		readpos = writepos - i;
+		readpos < 0 ? readpos += bufferlength;
+		oldpeak = bufferpeak[readpos];
+		newstartpeak = peak + (oldpeak - peak)/(1 - window);
+		newstartpeak > startpeak ? (
+			// Keep track of the smallest alteration,
+			//	but with a bias towards f
+			diff = (newstartpeak - startpeak)*(1 - window);
+			(bestcorrection < 0 || diff < bestcorrection) ? (
+				bestcorrection = diff;
+				bestindex = i;
+				beststartpeak = newstartpeak;
+			);
+			startpeak = newstartpeak;
+			intersectionindex = i;
+			foundabove = 1;
+		) : (foundabove) ? (
+			foundintersection = 1;
+		);
+		i += 1;
+	);
+	foundintersection ? (
+		i = 0;
+		while (i < intersectionindex) (
+			window = attackwindow(1 - i/attacksamples);
+			readpos = writepos - i;
+			readpos < 0 ? readpos += bufferlength;
+			newpeak = startpeak + (peak - startpeak)*window;
+			bufferpeak[readpos] = newpeak;
+			i += 1;
+		);
+	) : (
+		i = 0;
+		while (i < bestindex) (
+			window = attackwindow(1 - i/attacksamples);
+			readpos = writepos - i;
+			readpos < 0 ? readpos += bufferlength;
+			newpeak = beststartpeak + (peak - beststartpeak)*window;
+			faderatio = (1 - i/bestindex);
+			fadewindow = 1 - (1 - faderatio)*(1 - faderatio);
+			bufferpeak[readpos] += (newpeak - bufferpeak[readpos])*fadewindow;
+			i += 1;
+		);
+	);
+);
+buffer0[writepos] = spl0;
+buffer1[writepos] = spl1;
+bufferpeak[writepos] = peak;
+writepos += 1;
+writepos >= bufferlength ? (
+	writepos = 0;
+);
+readpos = writepos - delaysamples;
+readpos < 0 ? readpos += bufferlength;
+reduction = limit/bufferpeak[readpos];
+oldpeak = bufferpeak[readpos];
+B = scaling_for_peak(oldpeak, limit);
+A = distortion_for_peak(oldpeak, limit);
+spl0 = dist(buffer0[readpos]);
+spl1 = dist(buffer1[readpos]);
+@gfx 620 460
+function value_to_y(v) (
+	ui_top() + max(0, min(1, 0.5*(1 - v)))*ui_height();
+);
+function draw_response() local(i, x, y, ref) (
+	ui_retina(1);
+	control_background_passive();
+	ui_push(0.2);
+		ref = limit*2;
+		ui_color(192, 0, 0);
+		y = value_to_y(limit/ref);
+		gfx_line(ui_left(), y, ui_right() - 1, y);
+		y = value_to_y(-limit/ref);
+		gfx_line(ui_left(), y, ui_right() - 1, y);
+	ui_pop();
+	i = 0;
+	while (i < ui_width()) (
+		x = 2*i/(ui_width() - 1) - 1;
+		y = value_to_y(dist(x*ref)/ref);
+		i == 0 ? (
+			gfx_x = ui_left() + i;
+			gfx_y = y;
+		) : (
+			gfx_lineto(ui_left() + i, y);
+		);
+		i += 1;
+	);
+	control_finish_passive();
+);
+function draw_buffer(buffer, startpos, multiplier) local(width, i, i2, N, lowindex, highindex, low, high, readpos, v, x, y1, y2) (
+	i = 0;
+	N = ceil(bufferlength*0.75);
+	width = ui_width();
+	while (i < ui_width()) (
+		lowindex = floor(i/width*N);
+		highindex = ceil((i + 1)/width*N);
+		i2 = lowindex;
+		step = ceil((highindex - lowindex)/10);
+		readpos = (startpos + lowindex - N);
+		readpos < 0 ? readpos += bufferlength;
+		low = high = buffer[readpos];
+		while (i2 < highindex) (
+			readpos = (startpos + i2 - N);
+			readpos < 0 ? readpos += bufferlength;
+			low = min(low, buffer[readpos]);
+			high = max(high, buffer[readpos]);
+			i2 += step;
+		);
+		x = ui_left() + i;
+		y1 = value_to_y(low*multiplier);
+		y2 = value_to_y(high*multiplier);
+		gfx_line(x, y1, x, y2);
+		i += 1;
+	);
+);
+function draw_peaks(scale) local(startpos, y) (
+	ui_retina(1);
+	ui_color(0, 0, 0);
+	ui_fill();
+	ui_color(255, 0, 0);
+	y = ui_top() + 0.5*(1 - limit*scale)*ui_height();
+	gfx_line(ui_left(), y, ui_right() - 1, y);
+	y = ui_top() + 0.5*(1 + limit*scale)*ui_height();
+	gfx_line(ui_left(), y, ui_right() - 1, y);
+	startpos = writepos;
+	ui_color(64, 128, 192);
+	draw_buffer(buffer0, startpos, scale);
+	ui_color(192, 128, 64);
+	draw_buffer(buffer1, startpos, scale);
+	ui_color(255, 255, 255);
+	draw_buffer(bufferpeak, startpos, scale);
+	draw_buffer(bufferpeak, startpos, -scale);
+	control_finish_passive();
+);
+control_start("main", "black");
+function labelled_dial(value, low, high, bias, label, formatvalue, format, default) (
+	ui_push();
+		ui_align(0.6, 0.5);
+		ui_push_width(40);
+			value = control_dial_left(value, low, high, bias);
+		ui_pop();
+		ui_push_leftof(50);
+			ui_align(1, 0.5);
+			ui_text(label);
+		ui_pop();
+		ui_push_rightof(50);
+			ui_align(0, 0.5);
+			value = control_hidden_textnumber(value, formatvalue, format);
+		ui_pop();
+		ui_click() && ui_clickcount() == 2 ? (
+			value = default;
+		);
+	ui_pop();
+	value;
+);
+ui_screen() == "main" ? (
+	control_navbar("Smooth Limiter", -1, -1);
+	ui_split_left(max(ui_width()*0.4, 200));
+		ui_height() > 200 ? (
+			ui_split_bottom(min(ui_width()*0.5, ui_height()*0.4));
+				draw_response();
+			ui_pop();
+		);
+		ui_split_topratio(1/5);
+			slider1 = labelled_dial(slider1, -20, -0.1, -3.5, "limit:", slider1, "%0.1fdB", -3);
+		ui_split_next();
+			slider5 = labelled_dial(slider5, -12, 12, 0, "pre-gain:", slider5 + (slider5 > 0 ? 0.002 : -0.002), abs(slider5) < 10 ? "%0.2fdB" : "%0.1fdB", 0);
+		ui_split_next();
+			slider2 = labelled_dial(slider2, 0.1, 100, 3, "attack:", slider2, "%0.1fms", 10);
+		ui_split_next();
+			slider3 = labelled_dial(slider3, 1, 500, 3, "release:", floor(slider3 + 0.5), "%ims", 100);
+		ui_split_next();
+			slider4 = labelled_dial(slider4, 0, 1, 0, "distortion:", floor(slider4*100 + 0.5), "%i%%", 0);
+		ui_pop();
+	ui_pop();
+	draw_peaks(0.5);
+) : control_system();
+ui_interacted() ? update();

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/Spring-Box.jsfx ADDED Viewed

	@@ -0,0 +1,369 @@

+desc:Spring-Box Delay-Reverb (by Geraint Luff)
+in_pin:Ch1
+in_pin:Ch2
+out_pin:Ch1
+out_pin:Ch2
+slider1:50<1,1000,1>-density (ms)
+slider2:60<0,99,1>-feedback
+slider3:80<0,95,1>-late-bias (%)
+slider4:25<0,100,1>-wet (%)
+slider5:100<0,100,1>-dry (%)
+slider6:0<0,1,1{even,long}>-room shape
+slider7:8000<100,20000,1>-filter (lowpass Hz)
+slider8:10<0,100,1>-detuning (cents)
+slider9:2.5<0.1,10,0.1>-chorus speed (Hz)
+slider10:chorus_alignment=0<0,1,1{independent,linked}>-chorus phase
+import ui-lib.jsfx-inc
+import delay-utils.jsfx-inc
+import smoother.jsfx-inc
+filename:0,themes/bitmap-simple/theme-cyan.png
+@init
+freemem = ui_setup(0);
+gfx_ext_retina = 1;
+maxdetunefactor = pow(2, 110/1200)*exp(0.15); // 110 cents plus variation
+mindetunefreq = 0.1;
+max_delay_samples = ceil(srate*exp(0.3) + maxdetunefactor/mindetunefreq/(2*$pi)*srate + 1); // Longest possible delay, plus 100 samples
+freemem = delay1a.delay_init(freemem, max_delay_samples);
+freemem = delay1b.delay_init(freemem, max_delay_samples);
+freemem = delay2a.delay_init(freemem, max_delay_samples);
+freemem = delay2b.delay_init(freemem, max_delay_samples);
+freemem = delay3a.delay_init(freemem, max_delay_samples);
+freemem = delay3b.delay_init(freemem, max_delay_samples);
+freemem = delay4a.delay_init(freemem, max_delay_samples);
+freemem = delay4b.delay_init(freemem, max_delay_samples);
+filterLx1 = filterLx2 = 0;
+filterRx1 = filterRx2 = 0;
+filterLy1 = filterLy2 = 0;
+filterRy1 = filterRy2 = 0;
+writepos = 0;
+delaysamples1 = delaysamples2 = delaysamples3 = delaysamples4 = 0;
+chorusphase1 = rand()*2*$pi;
+chorusphase2 = rand()*2*$pi;
+chorusphase3 = rand()*2*$pi;
+chorusphase4 = rand()*2*$pi;
+function update() local(delay, chorus, chorusfactor) (
+	delayfactor1 = exp(0.3);
+	delayfactor2 = exp(0.1);
+	delayfactor3 = exp(-0.1);
+	delayfactor4 = exp(-0.3);
+	slider6 == 1 ? (
+		delayfactor1 = exp(0.0);
+		delayfactor2 = exp(0.04);
+		delayfactor3 = exp(-0.09);
+		delayfactor4 = exp(0.13);
+	);
+	delay = slider1*srate/1000;
+	delaysamples1 = min(max_delay_samples - 1, delay*delayfactor1);
+	delaysamples2 = min(max_delay_samples - 1, delay*delayfactor2);
+	delaysamples3 = min(max_delay_samples - 1, delay*delayfactor3);
+	delaysamples4 = min(max_delay_samples - 1, delay*delayfactor4);
+	delaysamples1i = ceil(delaysamples1);
+	delaysamples2i = ceil(delaysamples2);
+	delaysamples3i = ceil(delaysamples3);
+	delaysamples4i = ceil(delaysamples4);
+	chorus = slider9*2*$pi/srate;
+	chorus_alignment ? (
+		chorusphasespeed1 = chorusphasespeed2 = chorusphasespeed3 = chorusphasespeed4 = chorus;
+	) : (
+		chorusphasespeed1 = chorus*exp(-0.15);
+		chorusphasespeed2 = chorus*exp(-0.05);
+		chorusphasespeed3 = chorus*exp(0.05);
+		chorusphasespeed4 = chorus*exp(0.15);
+	);
+	chorusfactor = pow(2, slider8/1200) - 1;
+	chorussamples = chorusfactor*srate/(slider9*2*$pi);
+	feedbackA = slider2/100;
+	feedbackRatio = slider3/100;
+	feedbackB = feedbackA*feedbackRatio;
+	dry = slider5/100;
+	wet = slider4/100;
+	// Feedback-racing compensation
+	amp = (1 - feedbackA*feedbackRatio)/(1 - feedbackRatio);
+	ampB = amp*min(1, feedbackRatio*1.1);
+);
+update();
+smoother_init(wet);
+smoother_init(dry);
+/*
+// Create an orthogonal matrix for the mixing
+coeff_a = 1;
+coeff_b = exp(0);
+coeff_c = -coeff_a;
+coeff_d = 1/coeff_b;
+coeff_scale = sqrt(coeff_a*coeff_a + coeff_b*coeff_b + coeff_c*coeff_c + coeff_d*coeff_d);
+coeff_a /= coeff_scale;
+coeff_b /= coeff_scale;
+coeff_c /= coeff_scale;
+coeff_d /= coeff_scale;
+mat11 = coeff_a;
+mat12 = coeff_b;
+mat13 = coeff_c;
+mat14 = coeff_d;
+mat21 = -coeff_d;
+mat22 = -coeff_a;
+mat23 = -coeff_b;
+mat24 = -coeff_c;
+mat31 = -coeff_c;
+mat32 = -coeff_d;
+mat33 = -coeff_a;
+mat34 = -coeff_b;
+mat41 = coeff_b;
+mat42 = coeff_c;
+mat43 = coeff_d;
+mat44 = coeff_a;
+0 ? (
+	matA = 1;
+	matB = 1;
+	matC = -1;
+	matScaling = 1/sqrt(matA*matA + matB*matB + matC*matC);
+	matA *= matScaling;
+	matB *= matScaling;
+	matC *= matScaling;
+	mat11 = 0; mat12 = matA; mat13 = matB; mat14 = matC;
+	mat21 = -matA; mat22 = 0; mat23 = -matC; mat24 = matB;
+	mat31 = matB; mat32 = -matC; mat33 = 0; mat34 = matA;
+	mat41 = matC; mat42 = matB; mat43 = -matA; mat44 = 0;
+);
+*/
+@slider
+update();
+@block
+filter_Q = 0.5;
+filter_freq = slider7;
+filter_w0 = 2*$pi*min(0.49, filter_freq/srate);
+filter_cosW0 = cos(filter_w0);
+filter_alpha = sin(filter_w0)/(2*filter_Q);
+filter_a0 = 1 + filter_alpha;
+filter_a1 = (-2*filter_cosW0)/filter_a0;
+filter_a2 = (1 - filter_alpha)/filter_a0;
+filter_b1 = (1 - filter_cosW0)/filter_a0;
+filter_b0 = filter_b1/2;
+filter_b2 = filter_b0;
+smoothing = smoother_block(wet) + smoother_block(dry)
+	+ smoother_block(filter_a1) + smoother_block(filter_a2)
+	+ smoother_block(filter_b0) + smoother_block(filter_b1) + smoother_block(filter_b2);
+@sample
+smoothing ? (
+	smoother_sample(wet);
+	smoother_sample(dry);
+	smoother_sample(filter_a1);
+	smoother_sample(filter_a2);
+	smoother_sample(filter_b0);
+	smoother_sample(filter_b1);
+	smoother_sample(filter_b2);
+);
+chorus_alignment ? (
+	chorusphase1 += chorusphasespeed1;
+	chorusphase1 > 2*$pi ? chorusphase1 -= 2*$pi;
+	//chorusphase2 = chorusphase1 + 0.5*$pi;
+	//chorusphase3 = chorusphase1 + $pi;
+	//chorusphase4 = chorusphase1 + 1.5*$pi;
+	sine1 = sin(chorusphase1);
+	sine2 = cos(chorusphase2);
+	sine3 = -sine1;
+	sine4 = -sine2;
+) : (
+	chorusphase1 += chorusphasespeed1;
+	chorusphase1 > 2*$pi ? chorusphase1 -= 2*$pi;
+	chorusphase2 += chorusphasespeed2;
+	chorusphase2 > 2*$pi ? chorusphase2 -= 2*$pi;
+	chorusphase3 += chorusphasespeed3;
+	chorusphase3 > 2*$pi ? chorusphase3 -= 2*$pi;
+	chorusphase4 += chorusphasespeed4;
+	chorusphase4 > 2*$pi ? chorusphase4 -= 2*$pi;
+	sine1 = sin(chorusphase1);
+	sine2 = sin(chorusphase2);
+	sine3 = sin(chorusphase3);
+	sine4 = sin(chorusphase4);
+);
+d = delaysamples1 + (1 + sine1)*0.5*chorussamples - 1;
+echo1a = delay1a.delay_output_linear(d);
+echo1b = delay1b.delay_output_linear(d);
+d = delaysamples2 + (1 + sine2)*0.5*chorussamples - 1;
+echo2a = delay2a.delay_output_linear(d);
+echo2b = delay2b.delay_output_linear(d);
+d = delaysamples3 + (1 + sine3)*0.5*chorussamples - 1;
+echo3a = delay3a.delay_output_linear(d);
+echo3b = delay3b.delay_output_linear(d);
+d = delaysamples4 + (1 + sine4)*0.5*chorussamples - 1;
+echo4a = delay4a.delay_output_linear(d);
+echo4b = delay4b.delay_output_linear(d);
+y1a = 0.5*(echo1a + echo2a - echo3a + echo4a);
+y1b = 0.5*(echo1b + echo2b - echo3b + echo4b);
+y2a = -0.5*(echo1a + echo2a + echo3a - echo4a);
+y2b = -0.5*(echo1b + echo2b + echo3b - echo4b);
+y3a = 0.5*(echo1a - echo2a - echo3a - echo4a);
+y3b = 0.5*(echo1b - echo2b - echo3b - echo4b);
+y4a = 0.5*(echo1a - echo2a + echo3a + echo4a);
+y4b = 0.5*(echo1b - echo2b + echo3b + echo4b);
+left = spl0;
+right = spl1;
+delay1a.delay_input(y1a*feedbackA + left*amp);
+delay1b.delay_input(y1b*feedbackB + left*ampB);
+delay2a.delay_input(y2a*feedbackA + right*amp);
+delay2b.delay_input(y2b*feedbackB + right*ampB);
+delay3a.delay_input(y3a*feedbackA + left*amp);
+delay3b.delay_input(y3b*feedbackB + left*ampB);
+delay4a.delay_input(y4a*feedbackA + right*amp);
+delay4b.delay_input(y4b*feedbackB + right*ampB);
+left = (y1a - y1b + y3a - y3b)*0.71;
+right = (y2a - y2b + y4a - y4b)*0.71;
+// Filter
+x = left;
+left = smoother_value(filter_b0)*x + smoother_value(filter_b1)*filterLx1 + smoother_value(filter_b2)*filterLx2 - smoother_value(filter_a1)*filterLy1 - smoother_value(filter_a2)*filterLy2;
+filterLx2 = filterLx1;
+filterLx1 = x;
+filterLy2 = filterLy1;
+filterLy1 = left;
+x = right;
+right = smoother_value(filter_b0)*x + smoother_value(filter_b1)*filterRx1 + smoother_value(filter_b2)*filterRx2 - smoother_value(filter_a1)*filterRy1 - smoother_value(filter_a2)*filterRy2;
+filterRx2 = filterRx1;
+filterRx1 = x;
+filterRy2 = filterRy1;
+filterRy1 = right;
+spl0 = spl0*smoother_value(dry) + left*smoother_value(wet);
+spl1 = spl1*smoother_value(dry) + right*smoother_value(wet);
+writepos += 1;
+writepos >= buffersize ? writepos = 0;
+@gfx 500 350
+function labelled_dial(value*, low, high, bias, label, number_format) (
+	ui_push_height(60);
+		ui_automate(value, control_dial(value, low, high, bias));
+	ui_pop();
+	ui_push_above(60);
+		ui_align(0.5, 1);
+		ui_text(label);
+	ui_pop();
+	ui_push_below(60);
+		ui_align(0.5, 0);
+		number_format >= 0 ? (
+			ui_textnumber(value, number_format);
+		);
+	ui_pop();
+	value;
+);
+control_start("main", "bitmap-simple", 0);
+ui_screen() == "main" ? (
+	control_navbar("Spring-Box Delay", -1, -1);
+	ui_split_rightratio(0.7);
+		ui_split_topratio(0.55);
+			control_group("Delay");
+			ui_split_bottomratio(0.25);
+				ui_split_leftratio(1/2);
+					ui_split_right(50);
+						slider6 = control_radio(slider6, 1);
+					ui_pop();
+					ui_align(1, 0.5);
+					ui_text("clustered");
+				ui_split_next();
+					ui_split_right(50);
+						slider6 = control_radio(slider6, 0);
+					ui_pop();
+					ui_align(1, 0.5);
+					ui_text("smooth");
+				ui_pop();
+			ui_pop();
+			ui_split_leftratio(1/3);
+				slider1 = labelled_dial(slider1, 1, 1000, 4, "density", "%ims");
+			ui_split_next();
+				slider2 = labelled_dial(slider2, 0, 99, -1, "feedback", "%i%%");
+			ui_split_next();
+				slider3 = labelled_dial(slider3, 0, 95, 0, "late-bias", "%i%%");
+			ui_pop();
+		ui_split_next();
+			control_group("Output");
+			ui_split_leftratio(1/3);
+				slider4 = labelled_dial(slider4, 0, 100, 0, "wet", "%i%%");
+			ui_split_next();
+				slider5 = labelled_dial(slider5, 0, 100, 0, "dry", "%i%%");
+			ui_split_next();
+				slider7 = labelled_dial(slider7, 100, 20000, 2, "filter", "%iHz");
+			ui_pop();
+		ui_pop();
+	ui_split_next();
+		control_group("Chorus");
+		ui_split_leftratio(1);
+			ui_split_topratio(0.42);
+				slider8 = labelled_dial(slider8, 0, 100, 2, "detuning", "%i cents");
+			ui_split_next();
+				slider9 = labelled_dial(slider9, 0.1, 10, 0, "speed", "%.1fHz");
+			ui_pop();
+			ui_split_topratio(1/2);
+				ui_align(0.5, 1);
+				ui_split_right(35);
+					chorus_alignment = control_radio(chorus_alignment, 1);
+				ui_pop();
+				ui_align(1, -1);
+				ui_text("balanced");
+			ui_split_next();
+				ui_align(0.5, 0);
+				ui_split_right(35);
+					chorus_alignment = control_radio(chorus_alignment, 0);
+				ui_pop();
+				ui_align(1, -1);
+				ui_text("independent");
+			ui_pop();
+		ui_pop();
+	ui_pop();
+) : control_system();
+ui_interacted() ? update();
+@serialize
+preset_version = 1;
+file_var(0, preset_version);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/bus_comp.jsfx ADDED Viewed

	@@ -0,0 +1,633 @@

+// Bus Compressor
+//
+// A compressor primarily intended for signal densification, just to
+// avoid the word "glue". Use this wherever several different signal
+// sources meet and are combined into a single bus.
+//
+// Input gain allows "boosting" the signal into the compressor, this
+// helps to bring background signals up, "make cymbals breathe" etc.
+//
+// The Threshold, Ratio, Attack and Release settings are pretty much
+// as in any other compressor as well. If the Release is set to Auto,
+// the compressor will use a second release envelope, which helps to
+// keep a signal stable over long periods of time, but still lets it
+// "live" over shorter periods of time.
+//
+// If the Sidechain is switched to External, the compressor will use
+// inputs 3+4 as the Left and Right key signals. There's a high pass
+// filter that lets the detector circuit focus on higher frequencies
+// to avoid pumping from kick drums and bass where not desired.
+//
+// The channel routing switches between stereo and Mid/Side mode. In
+// stereo mode, the L channel is processed as the L channel, and the
+// R channel is processed as the R channel. In Mid/Side setting, the
+// L+R channels will be converted into M+S channels. M channel holds
+// the mid/center information of the signal, e.g. kick/snare/vocals,
+// and S channel holds the side/stereo information, e.g. guitars and
+// drum overheads. So in Mid/Side mode, the left sample holds center
+// information and the right sample holds the stereo information. In
+// M+S mode, the stereo field can appear "widened", depending on how
+// much each channel is compressed.
+//
+// With stereo linking disabled, both L+R channels will be processed
+// individually. Fading in stereo linking will make the detector act
+// on a mix of the L+R channels increasingly. If you have incoherent
+// signals (e.g. two separate guitars) on both channels, you'll most
+// likely not want any stereo linking. Coherent signals, e.g. drums,
+// will need stereo linking or their stereo image will suffer badly.
+//
+// NOTE: if stereo liking is set to 100%, there won't be an audible
+// difference between L+R and M+S mode.
+//
+// Instability will add a bit of low-level noise to the signal, both
+// the audible path as well as the detector path. The noise is auto-
+// blanked, meaning it won't hiss in quieter sections of the project.
+// It is very quiet (~ -89 dBfs RMS), so you probably won't be able
+// to hear it. But it adds different inconsistencies to every signal
+// path, audible + key/sidechain, like real-world analog devices do.
+// This results in ever so gentle "errors" in the compression, plus
+// it imparts an esoterically slight "graininess" onto the material.
+//
+// The saturation circuit is gain-reduction dependent, so the harder
+// the compressor squashes the signal, the more soft saturation will
+// be introduced into the material.
+//
+// Hard 0 dBfs output clipping may be enabled if so desired, but may
+// be a bit harsh and buzzy sounding. Use the Makeup gain to "boost"
+// the material into this, or don't.
+//
+// Finally, Dry/wet mix fades between the unprocessed and processed
+// signals, this is also known as parallel or New York compression.
+//
+// author: chokehold
+// url:    https://github.com/chkhld/jsfx/
+// tags:   processing compressor dynamics gain
+//
+desc: Bus Comp
+slider1: dBGain=0<-12, 12, 0.01>Input gain [dB]
+slider2: compThresh=0<-60, 0, 0.01>Threshold [dB]
+slider3: rawRatio=3<0, 6, {1.5,2,3,4,5,10,20}>Ratio [x:1]
+slider4: rawAttack=4<0, 5, {0.1,0.3,1,3,10,30}>Attack [ms]
+slider5: rawRelease=6<0, 6, {0.1,0.2,0.4,0.8,1.6,3.2,Auto}>Release [s]
+slider6: sidechain=0<0, 1, {Internal (inputs 1+2),External (inputs 3+4)}>Sidechain
+slider7: scFreq=75<20, 500, 1>SC high pass [Hz]
+slider8: midSide=0<0,1,{Stereo (L+R),Mid/Side (M+S)}>Channel routing
+slider9: linkAmount=100<0, 100, 1>Stereo link [%]
+slider10:instability=100<0,100,0.01>Instability [%]
+slider11:saturation=100<0,100,0.01>Saturation [%]
+slider12:dBTrim=0<-24, 24, 0.01>Makeup gain [dB]
+slider13:clip=0<0,1,{Disabled,Hard clip 0 dBfs}>Clip output
+slider14:pctMix=100<0,100,0.01>Dry/wet mix [%]
+in_pin:Input L
+in_pin:Input R
+in_pin:Sidechain L
+in_pin:Sidechain R
+out_pin:Output L
+out_pin:Output R
+@init
+  // Various convenience constants
+  M_LN10_20 = 8.68588963806503655302257837833210164588794011607333;
+  floatFloor = 0.0000000630957;  // dBToGain --> ~ -144 dBfs
+  noiseFloor = 0.00001258925412; // dBToGain --> ~  -98 dBfs
+  halfPi = $PI * 0.5;
+  satSpeed = 50.0;  // ms timing for saturation envelope follower
+  rcpSqrt2 = 0.7071067812; // Reciprocal constant 1.0 / sqrt(2.0)
+  compFeedback = 0.15;
+  // Buffer for noise generation states
+  noiseState = 10000;
+  // Converts dB values to float gain factors
+  function dBToGain (decibels) (10.0 ^ (decibels / 20.0));
+  // Converts float gain factors to dB values
+  function gainTodB (float) local (below)
+  (
+    float = abs(float);
+    below = float < floatFloor;
+    float = below * floatFloor + (!below) * float;
+    (log(float) * M_LN10_20);
+  );
+  // Stereo L+R and Mid/Side M+S conversion functions
+  //
+  function lrToM (sampleLeft, sampleRight) ((sampleLeft + sampleRight) * rcpSqrt2);
+  function lrToS (sampleLeft, sampleRight) ((sampleLeft - sampleRight) * rcpSqrt2);
+  function msToL (sampleMid,  sampleSide)  ((sampleMid  + sampleSide)  * rcpSqrt2);
+  function msToR (sampleMid,  sampleSide)  ((sampleMid  - sampleSide)  * rcpSqrt2);
+  // Accelerated 1/value calculation
+  function fastReciprocal (value) (sqr(invsqrt(value)));
+  // DC Blocker to filter near-static frequency content
+  // that would otherwise "offset" the waveform.
+  function dcBlocker () instance (stateIn, stateOut)
+  (
+    stateOut *= 0.99988487;
+    stateOut += this - stateIn;
+    stateIn = this;
+    this = stateOut;
+  );
+  // SAMPLE RANDOMIZATION
+  //
+  // Returns a randomized sample value between [-limit,+limit]
+  // which can be used as basic white noise.
+  //
+  function random (limit) (rand() * 2.0 * limit - limit);
+  // PINK NOISE
+  //
+  // "Warm" sounding, volume falls off at -3 dBfs per octave across the
+  // spectrum. Often said to be similar to the optimal mix balance, and
+  // to be generally pleasing to the human ear.
+  //
+  // Implemented after Larry Trammell's "newpink" method:
+  // http://www.ridgerat-tech.us/tech/newpink.htm
+  //
+  function tickPink (channel) local (offset, break, sample)
+  (
+    offset = channel * 50;
+    break = 0;
+    sample = rand();
+    break == 0 && sample <= 0.00198 ? (noiseState[offset+1] = random(1) * 3.8024; break = 1);
+    break == 0 && sample <= 0.01478 ? (noiseState[offset+2] = random(1) * 2.9694; break = 1);
+    break == 0 && sample <= 0.06378 ? (noiseState[offset+3] = random(1) * 2.5970; break = 1);
+    break == 0 && sample <= 0.23378 ? (noiseState[offset+4] = random(1) * 3.0870; break = 1);
+    break == 0 && sample <= 0.91578 ? (noiseState[offset+5] = random(1) * 3.4006; break = 1);
+    noiseState[offset] = 0;
+    noiseState[offset] += noiseState[offset+1];
+    noiseState[offset] += noiseState[offset+2];
+    noiseState[offset] += noiseState[offset+3];
+    noiseState[offset] += noiseState[offset+4];
+    noiseState[offset] += noiseState[offset+5];
+    noiseState[offset] * dBToGain(-15);
+  );
+  // Hard clipping at 0 dBfs, restricts samples to range [-1,+1]
+  function hardclip ()
+  (
+    this = max(-1, min(1, this));
+  );
+  // Hyperbolic tangent approximation
+  //
+  // Implemented after code posted by Antto on KVR
+  // https://www.kvraudio.com/forum/viewtopic.php?p=3781279#p3781279
+  //
+  function softclip (number) local (xa, x2, x3, x4, x7, res)
+  (
+    xa = abs(number); x2 = xa * xa; x3 = x2 * xa; x4 = x2 * x2; x7 = x4 * x3;
+    res = (1.0 - 1.0 / (1.0 + xa + x2 + 0.58576695 * x3 + 0.55442112 * x4 + 0.057481508 * x7));
+    sign(number) * res;
+  );
+  // SATURATION PROCESS
+  //
+  // Nothing special here, just adds a certain amount of soft
+  // clipped "warm tube drive" (sigh) onto the signal.
+  //
+  function saturate (drive) local (boost)
+  (
+    boost = 1.0 + (1.0 - drive);
+    this = (dryMix * this) + (satMix * softClip(this * boost));
+  );
+  // SIGNAL INSTABILITY
+  //
+  // Generates a noisefloor at ~ -89 dBfs RMS to make the signal
+  // become a little instable, as would be the case in an analog
+  // circuit. The noise is added to both the audible signal and
+  // the sidechain circuit, but it will be auto-blanked if input
+  // is quiet, so it will not "hiss" in the project when paused.
+  //
+  function variation (channel) local (channel)
+  (
+    noise = tickPink(channel) * noiseFloor * variationLevel;
+    noise;
+  );
+  // SIDECHAIN FILTER
+  //
+  // Simple Biquad High Pass filter used in the sidechain circuit.
+  // Implemented after Andrew Simper's State Variable Filter paper.
+  // https://cytomic.com/files/dsp/SvfLinearTrapOptimised2.pdf
+  //
+  function eqHP (Hz, Q) instance (a1, a2, a3, m0, m1, m2) local (g, k)
+  (
+    g = tan(halfPi * (Hz / srate)); k = fastReciprocal(Q);
+    a1 = fastReciprocal(1.0 + g * (g + k)); a2 = a1 * g; a3 = a2 * g;
+    m0 = 1.0; m1 = -k; m2 = -1.0;
+  );
+  //
+  function eqTick (sample) instance (v1, v2, v3, ic1eq, ic2eq)
+  (
+    v3 = sample - ic2eq; v1 = this.a1 * ic1eq + this.a2 * v3;
+    v2 = ic2eq + this.a2 * ic1eq + this.a3 * v3;
+    ic1eq = 2.0 * v1 - ic1eq; ic2eq = 2.0 * v2 - ic2eq;
+    (this.m0 * sample + this.m1 * v1 + this.m2 * v2);
+  );
+  // PRIMITIVE ENVELOPE FOLLOWER
+  //
+  // Follows the envelope of a signal at the speed set with the
+  // msTime argument. Higher ms values mean slower response to
+  // the signal, lower ms values mean faster response.
+  //
+  function envSetup (msTime) instance (coeff) local ()
+  (
+    coeff = exp(-1000 * fastReciprocal(msTime * srate));
+  );
+  //
+  // It's possible to do the calculations in dB or in gain factors.
+  // Because this compressor uses many dB values, I decided against
+  // constantly converting values back and forth, but to just run
+  // the envelopes on dB values.
+  //
+  // The sample should already be abs()-ed by here to dBfs.
+  //
+  // The envelope is NOT kept in this variable, but in the PARENT
+  // variable containing this one. This is the case so one variable
+  // could hold one envelope value, but two follower instances with
+  // different timings which could both work on the same envelope.
+  //
+  function envTick (dBsample) instance (coeff) local (active)
+  (
+    active = (coeff != 0);
+    (!active * dBsample) + (active * (dBsample + coeff * (this..envelope - dBsample)));
+  );
+  // ATTACK / RELEASE ENVELOPE
+  //
+  // This will turn a variable into a full envelope container that
+  // holds an envelope state as well as two time coefficients used
+  // for separate attack and release timings.
+  //
+  function attRelSetup (msAttack, msRelease) instance (coeffAtt, coeffRel) local ()
+  (
+    // Set attack and release time coefficients
+    coeffAtt = exp(-1000 * fastReciprocal(msAttack  * srate));
+    coeffRel = exp(-1000 * fastReciprocal(msRelease * srate));
+  );
+  //
+  // This calculates the new envelope state for the current sample.
+  // If the current sample is above the current envelope state, let
+  // the attack envelope run. And if the current sample is below the
+  // the current envelope state, then let the release envelope run.
+  //
+  // The sample should already be abs()-ed by here to dBfs
+  //
+  function attRelTick (dBsample) instance (envelope, coeffAtt, coeffRel) local (above, change)
+  (
+    above  = (dBsample > envelope);
+    change = envelope - dBsample;
+    // If above, calculate attack + if not above, calculate release
+    envelope = (above * (dBsample + coeffAtt * change)) + (!above * (dBsample + coeffRel * change));
+  );
+  // ATTACK / DUAL RELEASE ENVELOPE
+  //
+  // Same as an attack/release envelope, but this has a second release stage,
+  // which allows for less static and more "program dependent" compression.
+  //
+  function attRelRelSetup (msAttack, msRelease1, msRelease2) instance (coeffAtt, coeffRel, release2) local ()
+  (
+    // Set attack and release time coefficients
+    coeffAtt = exp(-1000 * fastReciprocal(msAttack   * srate));
+    coeffRel = exp(-1000 * fastReciprocal(msRelease1 * srate));
+    release2.envSetup(msRelease2);
+  );
+  //
+  function attRelRelTick (dBsample) instance (envelope, coeffAtt, coeffRel, release2) local (above, change)
+  (
+    above  = (dBsample > envelope);
+    change = envelope - dBsample;
+    // If above, calculate attack + if not above, calculate release
+    envelope = (above * (dBsample + coeffAtt * change)) + (!above * (dBsample + coeffRel * change));
+    // If not above, run second release envelope
+    !above ? envelope = release2.envTick(envelope);
+  );
+  // SATURATION ENVELOPE FOLLOWER
+  //
+  // To make the saturation smoother, this envelope follower will
+  // will "slow down" the amount of saturation that is applied to
+  // the compressed signal.
+  //
+  function satSetup (msSpeed) instance (satEnv) local ()
+  (
+    satEnv.envSetup(msSpeed);
+  );
+  //
+  function satTick (sampleGR) instance (satEnv, envelope) local ()
+  (
+    envelope = satEnv.envTick(sampleGR);
+    envelope;
+  );
+  // GAIN CALCULATOR
+  //
+  // From all the various levels, this will calculate more
+  // values required to calculate with later on.
+  //
+  function gainCalcSetup (dBThreshold, fullRatio, dBKnee) instance (threshold, ratio, knee, kneeWidth, kneeUpper, kneeLower) local ()
+  (
+    threshold = dBThreshold;            // signed dBfs
+    ratio = fastReciprocal(fullRatio);  // 1/x --> compression < 1, expansion > 1
+    knee = dBKnee;
+    kneeWidth = knee * 0.5;
+    kneeUpper = threshold + kneeWidth;
+    kneeLower = threshold - kneeWidth;
+  );
+  //
+  function gainCalcTick (dBsample) instance (ratio, knee, kneeLower, kneeUpper, threshold) local (dBReduction, slope)
+  (
+    dBReduction = dBsample;
+    slope = 1.0 - ratio;
+    // If the signal is inside the confies of the set Soft Knee,
+    // calculate the appropriate "soft" reduction here.
+    (knee > 0.0) && (dBsample > kneeLower) && (dBsample < kneeUpper) ?
+    (
+      slope *= ((dBsample - kneeLower) / knee) * 0.5;
+      dBReduction = slope * (kneeLower - dBsample);
+    ):(
+      dBReduction = min(0.0, slope * (threshold - dBsample));
+    );
+    // Return the gain reduction factor, i.e. NOT a sample value
+    dBToGain(dBReduction);
+  );
+  // COMPRESSOR
+  //
+  // Finally, now all the individual components created
+  // earlier are combined into a single big compressor.
+  //
+  // Full ratio: >1 for compression, <1 for expansion
+  // dBThreshold: signed dBfs
+  // dBKnee: absolute/positive dB
+  // pctFeedback: % of previous GR detector feedback
+  //
+  function compSetup (msAttack, msRelease, dBThreshold, fullRatio, dBKnee, pctFeedback) instance (attRel, attRelRel, calc, feedback) local ()
+  (
+    attRel.attRelSetup(msAttack, msRelease);
+    attRelRel.attRelRelSetup(msAttack, msRelease, 100);
+    calc.gainCalcSetup(dbThreshold, fullRatio, dBKnee);
+    feedback = pctFeedback * 0.01;
+  );
+  //
+  function compTick (sample) instance (GR, feedback, attRel, attRelRel, calc) local (feedbackFactor, keyGain, keyDecibels)
+  (
+    // The amount of previous GR to apply to this key sample,
+    // this is essentially a 1-sample-delayed feedback.
+    feedbackFactor = 1.0 - ((1.0 - GR) * feedback);
+    // The sidechain key sample value as a float gain factor.
+    // Doesn't need to be made absolute, this already happens
+    // outside after filtering, when the linking is prepared.
+    keyGain = sample * feedbackFactor;
+    // Turn the key sample [-1;1] into a dBfs value
+    keyDecibels = gainTodB(keyGain);
+    // Send the dBfs sample value into the envelope followers
+    // and get new envelope states. Both are being calculated
+    // here to avoid clicks and similar issues when switching
+    // between Manual and Auto release settings.
+    attRel.attRelTick(keyDecibels);
+    attRelRel.attRelRelTick(keyDecibels);
+    // Calculate the required gain reduction for this input
+    // sample based on user-specified parameters. This will
+    // output the GR value as a float gain factor, NOT in dB.
+    GR = calc.gainCalcTick(rawRelease < 6 ? attRel.envelope : attRelRel.envelope);
+    // This return value is the float factor gain adjustment
+    // that needs to be applied to the signal sample, it is
+    // NOT an actual sample value.
+    GR;
+  );
+  // Set up the dynamic saturation envelope followers
+  satL.satSetup(satSpeed);
+  satR.satSetup(satSpeed);
+@slider
+  // Set the compressor ratio
+  rawRatio == 0 ? compRatio = 1.5;
+  rawRatio == 1 ? compRatio = 2;
+  rawRatio == 2 ? compRatio = 3;
+  rawRatio == 3 ? compRatio = 4;
+  rawRatio == 4 ? compRatio = 5;
+  rawRatio == 5 ? compRatio = 10;
+  rawRatio == 6 ? compRatio = 20;
+  // Set the compressor attack time
+  rawAttack == 0 ? compAttack = 0.1;
+  rawAttack == 1 ? compAttack = 0.3;
+  rawAttack == 2 ? compAttack = 1;
+  rawAttack == 3 ? compAttack = 3;
+  rawAttack == 4 ? compAttack = 10;
+  rawAttack == 5 ? compAttack = 30;
+  // Set the compressor release time
+  rawRelease == 0 ? compRelease = 100;
+  rawRelease == 1 ? compRelease = 200;
+  rawRelease == 2 ? compRelease = 400;
+  rawRelease == 3 ? compRelease = 800;
+  rawRelease == 4 ? compRelease = 1600;
+  rawRelease == 5 ? compRelease = 3200;
+  rawRelease == 6 ? compRelease = 2400; // sets 2nd release time internally
+  // Sidechain instability "noise" level
+  variationLevel = instability * 0.01; // [0,100] --> [0,1]
+  // Knee level changes depending on Ratio setting.
+  // Higher ratio = narrow knee, lower ratio = wide knee.
+  compKnee = 20.0 * fastReciprocal(compRatio); // --> 20/ratio
+  // Prepare two compressor instances, one for each channel.
+  compL.compSetup(compAttack, compRelease, compThresh, compRatio, compKnee, compFeedback);
+  compR.compSetup(compAttack, compRelease, compThresh, compRatio, compKnee, compFeedback);
+  // Calculate amount of stereo-linking in the key signal
+  lnkMix = linkAmount * 0.01;
+  splMix = 1.0 - lnkMix;
+  // Configure the sidechain high-pass filters
+  filterL.eqHP(scFreq, 1.5);
+  filterR.eqHP(scFreq, 1.5);
+  // Turn input/output dB gain values into float factors
+  gainIn  = dBToGain(dBGain);
+  gainOut = dBToGain(dBTrim);
+  // The amount of saturation added to the signal
+  satMix = saturation * 0.01;
+  dryMix = 1.0 - satMix;
+  // The amount of dry and processed signal to blend
+  wetDry = pctMix * 0.01;
+  dryWet = 1.0 - wetDry;
+@sample
+  // Storing dry samples here for later dry/wet mixing
+  dryL = spl0;
+  dryR = spl1;
+  // Input gain. Branching is slow, so it's faster to
+  // just do this multiplication instead of running
+  // a check to see if it's needed, i.e. dBGain != 0
+  //
+  spl0 *= gainIn;
+  spl1 *= gainIn;
+  // If Mid/Side mode is set, convert L+R samples to M+S.
+  // This will turn the left sample into the mid sample,
+  // and the right sample into the side sample.
+  midSide == 1 ?
+  (
+    // Can mis-use these as buffers here, since they're
+    // not yet required by other parts of the process.
+    keyL = lrToM(spl0, spl1);
+    keyR = lrToS(spl0, spl1);
+    spl0 = keyL;
+    spl1 = keyR;
+  );
+  // Use channel 1+2 inputs if internal sidechain is
+  // selected, otherwise use channel 3+4 input samples
+  // for external sidechain.
+  //
+  scExternal = (sidechain == 1);
+  keyL = !scExternal * spl0 + scExternal * spl2;
+  keyR = !scExternal * spl1 + scExternal * spl3;
+  // Add sample value offsets to make the compression
+  // more unstable, this is like circuit noise.
+  //
+  instability > 0 ?
+  (
+    // Generate 4 independent noise samples, so every
+    // channel gets its own signature.
+    noise1 = variation(0);
+    noise2 = variation(1);
+    noise3 = variation(2);
+    noise4 = variation(3);
+    // If the input samples carry a signal, add noise.
+    // If they don't, then add no noise.
+    spl0 += (spl0 != 0) * noise1;
+    spl1 += (spl1 != 0) * noise2;
+    // If the key samples carry a signal, add noise
+    // If they don't, then add no noise.
+    keyL += (keyL != 0) * noise3;
+    keyR += (keyR != 0) * noise4;
+  );
+  // Filter sidechain samples and make them positive for
+  // the envelope followers.
+  //
+  // Keeping the filter in all the time because there is
+  // no valuable signal below 20 Hz anyway. When working
+  // at 20 Hz, this is basically a DC blocker.
+  //
+  keyL = abs(filterL.eqTick(keyL));
+  keyR = abs(filterR.eqTick(keyR));
+  // Stereo-link the detector signal?
+  lnkMix > 0 ?
+  (
+    // Take average of both key channels
+    linked = sqrt(sqr(keyL) + sqr(keyR)) * lnkMix;
+    // Adjust mix volume of un-linked samples
+    keyL *= splMix;
+    keyR *= splMix;
+    // Add linked sample on top
+    keyL += linked;
+    keyR += linked;
+  );
+  // Run the comp calculations on whatever mixture
+  // of the two input channels is left in the keys,
+  // then apply the resulting GR to the signal.
+  //
+  spl0 *= compL.compTick(keyL);
+  spl1 *= compR.compTick(keyR);
+  // Saturation stage
+  (saturation > 0) ?
+  (
+    // Send the compressor gain reduction values to the
+    // saturation envelope followers to slow them down.
+    saturationL = satL.satTick(compL.GR);
+    saturationR = satR.satTick(compR.GR);
+    // Add saturation to the samples
+    spl0.saturate(saturationL);
+    spl1.saturate(saturationR);
+    // Run the DC blocker on each sample to filter out
+    // potential DC offset introduced by saturation.
+    spl0.dcBlocker();
+    spl1.dcBlocker();
+  );
+  // If Mid/Side processing is selected
+  midSide == 1 ?
+  (
+    // Can mis-use these as buffers here, since they're
+    // no longer required by other parts of the process.
+    // The samples need to be buffered, else there will
+    // be problems converting back from M+S to L+R.
+    keyL = spl0;
+    keyR = spl1;
+    // Convert the M+S samples back to L+R samples
+    spl0 = msToL(keyL, keyR);
+    spl1 = msToR(keyL, keyR);
+  );
+  // Makeup gain. Probably faster to just multiply than
+  // doing conditional branching. This can be abused to
+  // "drive" the signal into the hard clipping stage.
+  spl0 *= gainOut;
+  spl1 *= gainOut;
+  // Output hard clipping
+  clip == 1 ?
+  (
+    spl0.hardclip();
+    spl1.hardclip();
+  );
+  // Dry/wet mix
+  //
+  // Mixes unprocessed and processed signals this way:
+  // - 0.0: 100% dry
+  // - 0.5:  50% dry + 50% wet
+  // - 1.0: 100% wet
+  //
+  wetDry < 1 ?
+  (
+    spl0 = dryWet * dryL + wetDry * spl0;
+    spl1 = dryWet * dryR + wetDry * spl1;
+  );

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/deesser ADDED Viewed

	@@ -0,0 +1,552 @@

+// (C) 2009, Lubomir I. Ivanov
+//
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+//
+// Released under GPL:
+// <http://www.gnu.org/licenses/>.
+//
+//******************************************************************************
+// Includes optimized version of Linkwitz-Riley (LR2) filters
+// by T. Lossius - ttblue project
+//******************************************************************************
+//==============================================================================
+// init
+//==============================================================================
+desc: De-esser
+desc: De-esser [Liteon]
+//tags: filter dynamics processing repair
+//author: Liteon
+slider1:1<0,1,1{Stereo,Mono}>Processing
+slider2:1<0,1,1{Bandpass,Hipass}>Target Type
+slider3:0<0,1,1{Off,On}>Monitor
+slider4:4000<1500,12000,1>Frequency (Hz)
+slider5:1.5<0.1,3.1,0.0005>Bandwidth (Oct)
+slider6:-25<-80,0,0.01>Threshold (dB)
+slider7:4<1,20,0.01>Ratio
+slider8:0<0,1,1{A: 3 �s - R: 50 ms,A: 30 �s - R: 100 ms,A: 100 �s - R: 300 ms}>Time Constants
+slider9:0<-24,24,0.001>Gain (-inf/+24dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+n = 0;
+sqrt2 = sqrt(2);
+s2 = sqrt2/2;
+cgain = 1;
+cdenorm = 10^-30;
+e10 = 10^-10;
+g_meter = gr_meter = g_reset = 1;
+gr_meter_decay = exp(1/(1*srate));
+//==============================================================================
+@slider
+//==============================================================================
+//------------------------------------------------------------------------------
+// settings
+//------------------------------------------------------------------------------
+mono = slider1;
+target = slider2;
+monitor = slider3;
+fc = slider4;
+bw  = slider5;
+//comp
+thr = pow(10, 2 * (slider6/80+1) - 2);
+rat = (slider7-1)/19;
+slider8 == 0 ? (
+att = pow(10, -0.002 - 3.97772619*(0/100));
+rel = pow(10, -3.11 - 1.8698*(21.20/100));
+);
+slider8 == 1 ? (
+att = pow(10, -0.002 - 3.97772619*(9.71/100));
+rel = pow(10, -3.11 - 1.8698*(37.19/100));
+);
+slider8 == 2 ? (
+att = pow(10, -0.002 - 3.97772619*(20.97/100));
+rel = pow(10, -3.11 - 1.8698*(62.61/100));
+);
+//outgain
+slider9 == -24 ? (
+outgain = 0;
+) : (
+outgain = 10^(slider9/20);
+);
+//------------------------------------------------------------------------------
+// crossover type: 2 or 3 bands
+// this is a bit confusing, but optimized for js !
+//------------------------------------------------------------------------------
+target == 0 ? (
+fh = min((fc + fc*bw/2),20000);
+//------------------------------
+// high-band split - s1 (at fh)
+//------------------------------
+fpi = $pi*fh;
+wc = 2*fpi;
+wc2 = wc*wc;
+wc22 = 2*wc2;
+k = wc/tan(fpi/srate);
+k2 = k*k;
+k22 = 2*k2;
+wck2 = 2*wc*k;
+tmpk = (k2+wc2+wck2);
+tgt_b1_s1 = (-k22+wc22)/tmpk;
+tgt_b2_s1 = (-wck2+k2+wc2)/tmpk;
+//---------------
+// low-pass (s1)
+//---------------
+tgt_a0_s1_lp = (wc2)/tmpk;
+tgt_a1_s1_lp = (wc22)/tmpk;
+tgt_a2_s1_lp = (wc2)/tmpk;
+//----------------
+// high-pass (s1)
+//----------------
+tgt_a0_s1_hp = (k2)/tmpk;
+tgt_a1_s1_hp = (-k22)/tmpk;
+tgt_a2_s1_hp = (k2)/tmpk;
+//----------------
+// prepare for s0
+//----------------
+fl = fc - fc*bw/4;
+fpi = $pi*fl;
+) : (
+fpi = $pi*fc;
+);
+//---------------------------------------------
+// low-band split - s0 (case: at 'fc' or 'fl')
+// s0 is always processed (2 band split)
+//---------------------------------------------
+wc = 2*fpi;
+wc2 = wc*wc;
+wc22 = 2*wc2;
+k = wc/tan(fpi/srate);
+k2 = k*k;
+k22 = 2*k2;
+wck2 = 2*wc*k;
+tmpk = (k2+wc2+wck2);
+tgt_b1_s0 = (-k22+wc22)/tmpk;
+tgt_b2_s0 = (-wck2+k2+wc2)/tmpk;
+//---------------
+// low-pass (s0)
+//---------------
+tgt_a0_s0_lp = (wc2)/tmpk;
+tgt_a1_s0_lp = (wc22)/tmpk;
+tgt_a2_s0_lp = (wc2)/tmpk;
+//----------------
+// high-pass (s0)
+//----------------
+tgt_a0_s0_hp = (k2)/tmpk;
+tgt_a1_s0_hp = (-k22)/tmpk;
+tgt_a2_s0_hp = (k2)/tmpk;
+//==============================================================================
+@sample
+//==============================================================================
+//------------------------------------------------------------------------------
+// mono
+//------------------------------------------------------------------------------
+mono == 1 ? (
+//----------------------------------
+// s0, b
+//----------------------------------
+b1_s0 += d_b1_s0;
+b2_s0 += d_b2_s0;
+//----------
+// s0, lp
+//----------
+a0_s0_lp += d_a0_s0_lp;
+a1_s0_lp += d_a1_s0_lp;
+a2_s0_lp += d_a2_s0_lp;
+s0_lp_l_in = (spl0+spl1)/2;
+s0_lp_l_output = a0_s0_lp*s0_lp_l_in + s0_lp_l_xm0;
+s0_lp_l_xm0 = a1_s0_lp*s0_lp_l_in - b1_s0*s0_lp_l_output + s0_lp_l_xm1;
+s0_lp_l_xm1 = a2_s0_lp*s0_lp_l_in - b2_s0*s0_lp_l_output;
+//----------
+// s0, hp
+//----------
+a0_s0_hp += d_a0_s0_hp;
+a1_s0_hp += d_a1_s0_hp;
+a2_s0_hp += d_a2_s0_hp;
+s0_hp_l_in = (spl0+spl1)/2;
+s0_hp_l_output = a0_s0_hp*s0_hp_l_in + s0_hp_l_xm0;
+s0_hp_l_xm0 = a1_s0_hp*s0_hp_l_in - b1_s0*s0_hp_l_output + s0_hp_l_xm1;
+s0_hp_l_xm1 = a2_s0_hp*s0_hp_l_in - b2_s0*s0_hp_l_output;
+s0_hp_l_output *= -1;
+//----------------------------------
+// s1, b
+//----------------------------------
+target == 0 ? (
+b1_s1 += d_b1_s1;
+b2_s1 += d_b2_s1;
+//----------
+// s1, lp
+//----------
+a0_s1_lp += d_a0_s1_lp;
+a1_s1_lp += d_a1_s1_lp;
+a2_s1_lp += d_a2_s1_lp;
+s1_lp_l_in = s0_hp_l_output;
+s1_lp_l_output = a0_s1_lp*s1_lp_l_in + s1_lp_l_xm0;
+s1_lp_l_xm0 = a1_s1_lp*s1_lp_l_in - b1_s1*s1_lp_l_output + s1_lp_l_xm1;
+s1_lp_l_xm1 = a2_s1_lp*s1_lp_l_in - b2_s1*s1_lp_l_output;
+//----------
+// s1, hp
+//----------
+a0_s1_hp += d_a0_s1_hp;
+a1_s1_hp += d_a1_s1_hp;
+a2_s1_hp += d_a2_s1_hp;
+s1_hp_l_in = s0_hp_l_output;
+s1_hp_l_output = a0_s1_hp*s1_hp_l_in + s1_hp_l_xm0;
+s1_hp_l_xm0 = a1_s1_hp*s1_hp_l_in - b1_s1*s1_hp_l_output + s1_hp_l_xm1;
+s1_hp_l_xm1 = a2_s1_hp*s1_hp_l_in - b2_s1*s1_hp_l_output;
+s1_hp_l_output *= -1;
+//---------------------------
+// set process band (cband)
+//---------------------------
+cband_l = s1_lp_l_output;
+) : (
+cband_l = s0_hp_l_output;
+);
+//---------------------------
+// compressor
+//---------------------------
+dtl = abs(cband_l);
+(dtl > envl) ? envl = envl + att*(dtl - envl) : envl = envl*(1 - rel);
+(envl > thr) ? (cgainl = 1+(rat*((envl/thr)-1)); g_reset = 0;) : (cgainl = 1; g_reset = 1);
+(envl < e10) ? envl = 0;
+//--------------------------
+// update gr meter
+//--------------------------
+g_reset == 0 ? g_meter = 1/cgainl : g_meter = 1;
+//-----------------------
+// monitor or sum bands
+//-----------------------
+monitor == 1 ? (
+outl = cband_l*outgain/cgainl+cdenorm;
+) : (
+target == 0 ? (
+sum_l = s0_lp_l_output+cband_l/cgainl+s1_hp_l_output;
+) : (
+sum_l = s0_lp_l_output+cband_l/cgainl;
+);
+outl = sum_l*outgain+cdenorm;
+);
+//check clip
+(outl < -1 || outl > 1) ? clip = 1;
+spl0 = spl1 = outl;
+//**********
+// test output
+// spl0 = spl1 = s1_lp_l_output;
+//**********
+//------------------------------------------------------------------------------
+// stereo
+//------------------------------------------------------------------------------
+) : (
+//----------------------------------
+// s0, b
+//----------------------------------
+b1_s0 += d_b1_s0;
+b2_s0 += d_b2_s0;
+//----------
+// s0, lp
+//----------
+a0_s0_lp += d_a0_s0_lp;
+a1_s0_lp += d_a1_s0_lp;
+a2_s0_lp += d_a2_s0_lp;
+s0_lp_l_in = spl0;
+s0_lp_l_output = a0_s0_lp*s0_lp_l_in + s0_lp_l_xm0;
+s0_lp_l_xm0 = a1_s0_lp*s0_lp_l_in - b1_s0*s0_lp_l_output + s0_lp_l_xm1;
+s0_lp_l_xm1 = a2_s0_lp*s0_lp_l_in - b2_s0*s0_lp_l_output;
+s0_lp_r_in = spl1;
+s0_lp_r_output = a0_s0_lp*s0_lp_r_in + s0_lp_r_xm0;
+s0_lp_r_xm0 = a1_s0_lp*s0_lp_r_in - b1_s0*s0_lp_r_output + s0_lp_r_xm1;
+s0_lp_r_xm1 = a2_s0_lp*s0_lp_r_in - b2_s0*s0_lp_r_output;
+//----------
+// s0, hp
+//----------
+a0_s0_hp += d_a0_s0_hp;
+a1_s0_hp += d_a1_s0_hp;
+a2_s0_hp += d_a2_s0_hp;
+s0_hp_l_in = spl0;
+s0_hp_l_output = a0_s0_hp*s0_hp_l_in + s0_hp_l_xm0;
+s0_hp_l_xm0 = a1_s0_hp*s0_hp_l_in - b1_s0*s0_hp_l_output + s0_hp_l_xm1;
+s0_hp_l_xm1 = a2_s0_hp*s0_hp_l_in - b2_s0*s0_hp_l_output;
+s0_hp_l_output *= -1;
+s0_hp_r_in = spl1;
+s0_hp_r_output = a0_s0_hp*s0_hp_r_in + s0_hp_r_xm0;
+s0_hp_r_xm0 = a1_s0_hp*s0_hp_r_in - b1_s0*s0_hp_r_output + s0_hp_r_xm1;
+s0_hp_r_xm1 = a2_s0_hp*s0_hp_r_in - b2_s0*s0_hp_r_output;
+s0_hp_r_output *= -1;
+//----------------------------------
+// s1, b
+//----------------------------------
+target == 0 ? (
+b1_s1 += d_b1_s1;
+b2_s1 += d_b2_s1;
+//----------
+// s1, lp
+//----------
+a0_s1_lp += d_a0_s1_lp;
+a1_s1_lp += d_a1_s1_lp;
+a2_s1_lp += d_a2_s1_lp;
+s1_lp_l_in = s0_hp_l_output;
+s1_lp_l_output = a0_s1_lp*s1_lp_l_in + s1_lp_l_xm0;
+s1_lp_l_xm0 = a1_s1_lp*s1_lp_l_in - b1_s1*s1_lp_l_output + s1_lp_l_xm1;
+s1_lp_l_xm1 = a2_s1_lp*s1_lp_l_in - b2_s1*s1_lp_l_output;
+s1_lp_r_in = s0_hp_r_output;
+s1_lp_r_output = a0_s1_lp*s1_lp_r_in + s1_lp_r_xm0;
+s1_lp_r_xm0 = a1_s1_lp*s1_lp_r_in - b1_s1*s1_lp_r_output + s1_lp_r_xm1;
+s1_lp_r_xm1 = a2_s1_lp*s1_lp_r_in - b2_s1*s1_lp_r_output;
+//----------
+// s1, hp
+//----------
+a0_s1_hp += d_a0_s1_hp;
+a1_s1_hp += d_a1_s1_hp;
+a2_s1_hp += d_a2_s1_hp;
+s1_hp_l_in = s0_hp_l_output;
+s1_hp_l_output = a0_s1_hp*s1_hp_l_in + s1_hp_l_xm0;
+s1_hp_l_xm0 = a1_s1_hp*s1_hp_l_in - b1_s1*s1_hp_l_output + s1_hp_l_xm1;
+s1_hp_l_xm1 = a2_s1_hp*s1_hp_l_in - b2_s1*s1_hp_l_output;
+s1_hp_l_output *= -1;
+s1_hp_r_in = s0_hp_r_output;
+s1_hp_r_output = a0_s1_hp*s1_hp_r_in + s1_hp_r_xm0;
+s1_hp_r_xm0 = a1_s1_hp*s1_hp_r_in - b1_s1*s1_hp_r_output + s1_hp_r_xm1;
+s1_hp_r_xm1 = a2_s1_hp*s1_hp_r_in - b2_s1*s1_hp_r_output;
+s1_hp_r_output *= -1;
+//---------------------------
+// set process band (cband)
+//---------------------------
+cband_l = s1_lp_l_output;
+cband_r = s1_lp_r_output;
+) : (
+cband_l = s0_hp_l_output;
+cband_r = s0_hp_r_output;
+);
+//---------------------------
+// compressor
+//---------------------------
+dtl = abs(cband_l);
+dtr = abs(cband_r);
+dtr > dtl ? dtl = dtr;
+(dtl > envl) ? envl = envl + att*(dtl - envl) : envl = envl*(1 - rel);
+(envl > thr) ? (cgainl = 1+(rat*((envl/thr)-1)); g_reset = 0;) : (cgainl = 1; g_reset = 1);
+(envl < e10) ? envl = 0;
+dtr = abs(cband_r);
+//--------------------------
+// update gr meter
+//--------------------------
+g_reset == 0 ? (
+(cgainl > cgainr) ? g_meter = 1/cgainl : g_meter = 1/cgainr;
+) : (
+g_meter = 1;
+);
+//-----------------------
+// monitor or sum bands
+//-----------------------
+monitor == 1 ? (
+outl = cband_l*outgain/cgainl+cdenorm;
+outr = cband_r*outgain/cgainl+cdenorm;
+) : (
+target == 0 ? (
+sum_l = s0_lp_l_output+cband_l/cgainl+s1_hp_l_output;
+sum_r = s0_lp_r_output+cband_r/cgainl+s1_hp_r_output;
+) : (
+sum_l = s0_lp_l_output+cband_l/cgainl;
+sum_r = s0_lp_r_output+cband_r/cgainl;
+);
+outl = sum_l*outgain+cdenorm;
+outr = sum_r*outgain+cdenorm;
+);
+//check clip
+(outl < -1 || outl > 1) ? clip = 1;
+(outr < -1 || outr > 1) ? clip = 1;
+spl0 = outl;
+spl1 = outr;
+);
+//**********
+// test output
+// spl0 = spl1 = s1_lp_l_output;
+//**********
+//-----------------------------------------
+// meter decay
+//-----------------------------------------
+g_meter < gr_meter ? gr_meter=g_meter : gr_meter*=gr_meter_decay;
+@block
+//-----------------------------------------
+// update clip indicator
+//-----------------------------------------
+bps = srate/samplesblock;
+n > bps ? (
+clip = 0;
+n = 0;
+);
+n += 1;
+//==============================================================================
+// interpolate *all* coefficients here
+//==============================================================================
+//------------------------------------------------------------------------------
+// s0
+//------------------------------------------------------------------------------
+//-------------------
+// s0 b
+//-------------------
+d_b1_s0 = (tgt_b1_s0-src_b1_s0)/samplesblock;
+b1_s0 = src_b1_s0;
+src_b1_s0 = tgt_b1_s0;
+d_b2_s0 = (tgt_b2_s0-src_b2_s0)/samplesblock;
+b2_s0 = src_b2_s0;
+src_b2_s0 = tgt_b2_s0;
+//-------------------
+// s0 a lp
+//-------------------
+d_a0_s0_lp = (tgt_a0_s0_lp-src_a0_s0_lp)/samplesblock;
+a0_s0_lp = src_a0_s0_lp;
+src_a0_s0_lp = tgt_a0_s0_lp;
+d_a1_s0_lp = (tgt_a1_s0_lp-src_a1_s0_lp)/samplesblock;
+a1_s0_lp = src_a1_s0_lp;
+src_a1_s0_lp = tgt_a1_s0_lp;
+d_a2_s0_lp = (tgt_a2_s0_lp-src_a2_s0_lp)/samplesblock;
+a2_s0_lp = src_a2_s0_lp;
+src_a2_s0_lp = tgt_a2_s0_lp;
+//-------------------
+// s0 a hp
+//-------------------
+d_a0_s0_hp = (tgt_a0_s0_hp-src_a0_s0_hp)/samplesblock;
+a0_s0_hp = src_a0_s0_hp;
+src_a0_s0_hp = tgt_a0_s0_hp;
+d_a1_s0_hp = (tgt_a1_s0_hp-src_a1_s0_hp)/samplesblock;
+a1_s0_hp = src_a1_s0_hp;
+src_a1_s0_hp = tgt_a1_s0_hp;
+d_a2_s0_hp = (tgt_a2_s0_hp-src_a2_s0_hp)/samplesblock;
+a2_s0_hp = src_a2_s0_hp;
+src_a2_s0_hp = tgt_a2_s0_hp;
+//------------------------------------------------------------------------------
+// s1
+//------------------------------------------------------------------------------
+target == 0 ? (
+//-------------------
+// s1 b
+//-------------------
+d_b1_s1 = (tgt_b1_s1-src_b1_s1)/samplesblock;
+b1_s1 = src_b1_s1;
+src_b1_s1 = tgt_b1_s1;
+d_b2_s1 = (tgt_b2_s1-src_b2_s1)/samplesblock;
+b2_s1 = src_b2_s1;
+src_b2_s1 = tgt_b2_s1;
+//-------------------
+// s1 a lp
+//-------------------
+d_a0_s1_lp = (tgt_a0_s1_lp-src_a0_s1_lp)/samplesblock;
+a0_s1_lp = src_a0_s1_lp;
+src_a0_s1_lp = tgt_a0_s1_lp;
+d_a1_s1_lp = (tgt_a1_s1_lp-src_a1_s1_lp)/samplesblock;
+a1_s1_lp = src_a1_s1_lp;
+src_a1_s1_lp = tgt_a1_s1_lp;
+d_a2_s1_lp = (tgt_a2_s1_lp-src_a2_s1_lp)/samplesblock;
+a2_s1_lp = src_a2_s1_lp;
+src_a2_s1_lp = tgt_a2_s1_lp;
+//-------------------
+// s1 a hp
+//-------------------
+d_a0_s1_hp = (tgt_a0_s1_hp-src_a0_s1_hp)/samplesblock;
+a0_s1_hp = src_a0_s1_hp;
+src_a0_s1_hp = tgt_a0_s1_hp;
+d_a1_s1_hp = (tgt_a1_s1_hp-src_a1_s1_hp)/samplesblock;
+a1_s1_hp = src_a1_s1_hp;
+src_a1_s1_hp = tgt_a1_s1_hp;
+d_a2_s1_hp = (tgt_a2_s1_hp-src_a2_s1_hp)/samplesblock;
+a2_s1_hp = src_a2_s1_hp;
+src_a2_s1_hp = tgt_a2_s1_hp;
+);
+//=============================================================================
+@gfx 425 18
+//=============================================================================
+//---------------------------------
+// set gr meter
+//---------------------------------
+gr_meter *= exp(1/30);
+gr_meter > 1 ? gr_meter=1;
+gfx_r=0.6;
+gfx_g=0.4;
+gfx_b=0.5;
+gfx_a=0.8;
+meter_bot=20;
+meter_h=min(gfx_h,21);
+xscale=gfx_w*20/meter_bot;
+gfx_y=0;
+gfx_x=gfx_w + log10(gr_meter)*xscale;
+gfx_rectto(gfx_w,meter_h);
+//---------------------------------
+// draw scale
+//---------------------------------
+gfx_r=1;
+gfx_b=1;
+gfx_g=1;
+gfx_a=0.6;
+g = s2;
+while(
+gfx_x=gfx_w + log10(g)*xscale;
+gfx_x >= 0 ? (
+gfx_y=0;
+gfx_lineto(gfx_x,meter_h-1,0);
+gfx_y=meter_h-gfx_texth-5;
+gfx_x+=4;
+gfx_drawnumber(log10(g)*20,0);
+gfx_drawchar($'d');
+gfx_drawchar($'B');
+);
+g*=s2;
+gfx_x >=0;
+);
+gfx_x=0;
+gfx_y=meter_h;
+gfx_lineto(gfx_w,meter_h,0);
+gfx_a=0.9;
+gfx_x=gfx_w - 61;
+gfx_y=meter_h + gfx_texth - 1;
+//---------------------------------
+// clip indicator
+//---------------------------------
+gfx_x=8;
+gfx_y=6;
+gfx_r=1;
+gfx_g=0;
+gfx_b=0;
+clip == 1 ? (
+gfx_a = 1;
+) : (
+gfx_a = 0.4;
+);
+gfx_drawchar($'*');

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/dirtsqueeze ADDED Viewed

	@@ -0,0 +1,121 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:Dirt Squeeze Compressor
+desc:Dirt Squeeze Compressor [Stillwell]
+//tags: dynamics compressor
+//author: Stillwell
+slider1:0<-60,0,0.1>Threshold (dB)
+slider2:1<1,20,0.1>Ratio
+slider3:0<0,1,1{No,Yes}>Automatic Make-Up
+slider4:0<-20,20,0.1>Manual Gain
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  i=0;
+  loop(
+    120,
+    attimes[i] = ((0.08924 / i) + (0.60755 / (i ^ 2)) - 0.00006)*srate;
+    i+=1;
+  );
+  overthresh = 0;
+  compressing = 0;
+  relfactor = 2 ^ (-20.833333333 / srate);
+  attime=0;
+  atctr=0;
+  prevmax=0;
+  maxover=0;
+  relctr=0;
+  cratio=0;
+  ratio=0;
+@slider
+  thresh = slider1;
+  threshv = 2^(thresh/6);
+  ratio = slider2;
+  cratio = ratio;
+  autogain = slider3;
+  makeup = autogain ? (((abs(thresh) - (abs(thresh) / ratio))/2) + slider4) : slider4;
+  makeupv = 2^(makeup / 6);
+@sample
+  aspl0 = abs(spl0);
+  aspl1 = abs(spl1);
+  maxspl = max(aspl0,aspl1);
+  maxspl > threshv ? (
+    overthresh = 1;
+    overdb = log(6 * maxspl / threshv) / log(2);
+    overdb > maxover ? (
+        maxover = overdb;
+        prevattime = attime;
+        attime = attimes[floor(overdb+0.5)];
+        prevattime > 0 ? (atctr += prevattime - attime);
+ 	atctr = min(atctr,attime);
+        reltime = srate * overdb / 125;
+        relctr = 0;
+        cratio = ratio;
+    );
+    relctr = 0;
+    releasing = 0;
+    atctr == 0 ? atctr = attimes[floor(overdb)];
+  );
+  overthresh ? (
+     atctr += 1;
+     atctr >= attime ? (
+       compressing = 1;
+       relctr = 0;
+     );
+  );
+  compressing ? (
+    overthresh = 0;
+    atctr = 0;
+    thresh0 = threshv * sign(spl0);
+    thresh1 = threshv * sign(spl1);
+    spl0 = (aspl0 <= threshv ? spl0 : (thresh0 + (spl0-thresh0) / cratio));
+    spl1 = (aspl1 <= threshv ? spl1 : (thresh1 + (spl1-thresh1) / cratio));
+  );
+  maxspl <= threshv ? (
+    relctr += 1;
+    releasing = 1;
+    relctr >= (reltime - 1000) ? (
+      compressing = 0;
+      overthresh = 0;
+      relctr = 0;
+      reltime = 0;
+      atctr = 0;
+      attime = 0;
+      releasing = 0;
+      cratio = ratio;
+    );
+  );
+  releasing ? (
+    cratio = max(1,cratio * relfactor);
+  );
+  spl0 = spl0 * makeupv;
+  spl1 = spl1 * makeupv;

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/dynamics_meter ADDED Viewed

	@@ -0,0 +1,215 @@

+desc:Dynamic Range Meter
+//tags: analysis utility dynamics
+in_pin:left input
+in_pin:right input
+out_pin:none
+@init
+// change these if you like
+RMS_MS = 300.0;
+GREEN_DR = 12;
+RED_DR = 6;
+// calibrate to JS frame meter numbers
+MAX_DB = 0.0;
+MIN_DB = -54.0;
+MAX_DR = 40;
+DR_BINS = 128;
+decay = exp(-1.0/(RMS_MS*srate*0.001));
+DB_LO = -60.0;
+buf = 0;
+buflen = (RMS_MS*srate*0.001)|0;
+memset(p, 0, 2*buflen);
+pos = 0;
+peak0 = peak1 = 0.0;
+sumsq0 = sumsq1 = 0.0;
+peakdb0 = peakdb1 = rmsdb0 = rmsdb1 = DB_LO;
+dyn = sumdyn = meandyn = 0.0;
+ndyn = 0;
+@block
+peak0 <= 0.0 ? peakdb0 = DB_LO : peakdb0 = 8.6562*log(peak0);
+rms = sqrt(sumsq0/buflen);
+rms == 0.0 ? rmsdb0 = DB_LO : rmsdb0 = 8.6562*log(rms);
+peak1 <= 0.0 ? peakdb1 = DB_LO : peakdb1 = 8.6562*log(peak1);
+rms = sqrt(sumsq1/buflen);
+rms == 0.0 ? rmsdb1 = DB_LO : rmsdb1 = 8.6562*log(rms);
+dyn = 0.5*(peakdb0+peakdb1-rmsdb0-rmsdb1);
+dyn < 0.0 ? dyn = 0.0;
+play_state == 1 ?
+(
+  ndyn = ndyn+1;
+  sumdyn = sumdyn+dyn;
+  meandyn = sumdyn/ndyn;
+);
+@sample
+new = abs(spl0);
+new > peak0 ? peak0 = new : peak0 = peak0*decay;
+newsq = new*new;
+oldsq = buf[pos];
+buf[pos] = newsq;
+sumsq0 = sumsq0+newsq-oldsq;
+pos = pos+1;
+new = abs(spl1);
+new > peak1 ? peak1 = new : peak1 = peak1*decay;
+newsq = new*new;
+oldsq = buf[pos];
+buf[pos] = newsq;
+sumsq1 = sumsq1+newsq-oldsq;
+pos = pos+1;
+pos == 2*buflen ? pos = 0;
+@gfx 100 200
+// calibrate to JS frame meter numbers
+T = (gfx_h-pxperdb*60.0)|0;
+B = (gfx_h-pxperdb*6.0)|0;
+pxperdb = (gfx_h+22.5)/66.0;
+greenpx = GREEN_DR*pxperdb;
+redpx = RED_DR*pxperdb;
+resetx = gfx_w-gfx_texth*5-4;
+doreset = 0;
+mouse_cap ?
+(
+  mouse_x >= resetx && mouse_y < 4+gfx_texth ? doreset = 1;
+);
+xw = -gfx_W*3/64;
+xs = -gfx_W/16;
+gfx_a = 1.0;
+i = 0;
+loop
+(
+  2,
+  i == 0 ?
+  (
+    tpeak = peakdb0;
+    trms = rmsdb0;
+  )
+  :
+  (
+    tpeak = peakdb1;
+    trms = rmsdb1;
+  );
+  peaky = B-pxperdb*(tpeak-MIN_DB);
+  peaky < T ? peaky = T : peaky > B ? peakY = B;
+  rmsy = B-pxperdb*(trms-MIN_DB);
+  rmsy < T ? rmsy = T : rmsy > B ? rmsY = B;
+  d = (rmsy-peaky-redpx)/(greenpx-redpx);
+  d < 0.0 ? d = 0.0 : d > 1.0 ? d = 1.0;
+  gfx_r = 1.0-d;
+  gfx_g = d;
+  gfx_b = 0.0;
+  gfx_x = gfx_w/2+xw/4;
+  gfx_y = rmsy;
+  gfx_rectto(gfx_x+xw, peaky);
+  gfx_r = 0.2;
+  gfx_g = 0.8;
+  gfx_b = 0.3;
+  gfx_x = gfx_x+xs;
+  gfx_rectto(gfx_x+xw, B);
+  gfx_x = gfx_x+xs;
+  gfx_rectto(gfx_x+xw, rmsy);
+  xw = -xw;
+  xs = -xs;
+  i = i+1;
+);
+i = 0;
+db = 60;
+while
+(
+  i%2 ? gfx_r=gfx_g=gfx_b=0.0 : gfx_r=gfx_g=gfx_b=0.375;
+  gfx_x = 4;
+  gfx_y = gfx_h-pxperdb*db-0.5;
+  gfx_lineto(gfx_w-4, gfx_y, 0);
+  db = db-3;
+  i = i+1;
+  db > 0.0;
+);
+gfx_r=gfx_g=gfx_b=1.0;
+txtw = gfx_texth;
+dyn >= 10.0 ? txtw += gfx_texth;
+gfx_x = (gfx_w-txtw)/2;
+gfx_y = gfx_h-gfx_texth/2-20;
+gfx_drawnumber(dyn+0.5,0);
+gfx_x = (gfx_w-gfx_texth*14)/2;
+gfx_y = gfx_h-gfx_texth/2-8;
+gfx_drawchar($'c');
+gfx_drawchar($'u');
+gfx_drawchar($'m');
+gfx_drawchar($'u');
+gfx_drawchar($'l');
+gfx_drawchar($'a');
+gfx_drawchar($'t');
+gfx_drawchar($'i');
+gfx_drawchar($'v');
+gfx_drawchar($'e');
+gfx_drawchar($':');
+gfx_drawchar($' ');
+doreset ?
+(
+  gfx_r=gfx_g=gfx_b=1.0;
+  gfx_drawchar($'-');
+)
+:
+(
+  d = (meandyn-RED_DR)/(GREEN_DR-RED_DR);
+  d < 0.0 ? d = 0.0 : d > 1.0 ? d = 1.0;
+  gfx_r = 1.0-d;
+  gfx_g = d;
+  gfx_b = 0.0;
+  gfx_drawnumber(meandyn+0.5,0);
+  gfx_r=gfx_g=gfx_b=0.75;
+);
+gfx_x = resetx;
+gfx_y = 4;
+gfx_drawchar($'r');
+gfx_drawchar($'e');
+gfx_drawchar($'s');
+gfx_drawchar($'e');
+gfx_drawchar($'t');
+doreset ?
+(
+  memset(p, 0, 2*buflen);
+  peak0 = peak1 = 0.0;
+  sumsq0 = sumsq1 = 0.0;
+  peakdb0 = peakdb1 = rmsdb0 = rmsdb1 = DB_LO;
+  pos = 0;
+  dyn = sumdyn = meandyn = 0.0;
+  ndyn = 0;
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/eventhorizon ADDED Viewed

	@@ -0,0 +1,78 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:Event Horizon Clipper
+desc:Event Horizon Clipper [Stillwell]
+//tags: dynamics limiter saturation
+//author: Stillwell
+slider1:0.0<-30.0,0.0,0.1>Threshold (dB)
+slider2:-0.1<-20.0,0.0,0.1>Ceiling (dB)
+slider3:2.0<0,6.0,0.01>Soft Clip (dB)
+//slider4:10<3,20,0.1>Soft Clip Ratio
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  pi = 3.1415926535;
+  log2db = 8.6858896380650365530225783783321; // 20 / ln(10)
+  db2log = 0.11512925464970228420089957273422; // ln(10) / 20
+@slider
+  thresh=exp(slider1 * db2log);
+  threshdb=slider1;
+  ceiling=exp(slider2 * db2log);
+  ceildb=slider2;
+  makeup=exp((ceildb-threshdb) * db2log);
+  makeupdb=ceildb-threshdb;
+  sc = -slider3;
+  scv = exp(sc * db2log);
+  sccomp = exp(-sc * db2log);
+  peakdb = ceildb+25;
+  peaklvl = exp(peakdb * db2log);
+  scratio = slider4;
+  scmult = abs((ceildb - sc) / (peakdb - sc));
+@sample
+  peak=max(abs(spl0),abs(spl1));
+  spl0=spl0*makeup;
+  spl1=spl1*makeup;
+  sign0 = sign(spl0);
+  sign1 = sign(spl1);
+  abs0=abs(spl0);
+  abs1=abs(spl1);
+  overdb0 = 2.08136898 * log(abs0) * log2db - ceildb;
+  overdb1 = 2.08136898 * log(abs1) * log2db - ceildb;
+  abs0 > scv ? (
+    spl0=sign0*(scv + exp(overdb0*scmult)*db2log);
+  );
+  abs1 > scv ? (
+    spl1=sign1*(scv + exp(overdb1*scmult)*db2log);
+  );
+  spl0=min(ceiling,abs(spl0))*sign(spl0);
+  spl1=min(ceiling,abs(spl1))*sign(spl1);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/eventhorizon2 ADDED Viewed

	@@ -0,0 +1,94 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:Event Horizon Limiter/Clipper
+desc:Event Horizon Limiter/Clipper [Stillwell]
+//tags: dynamics limiter
+//author: Stillwell
+slider1:0.0<-30.0,0.0,0.1>Threshold
+slider2:-0.1<-20.0,0.0,0.1>Ceiling
+slider3:0<0,1200,1>Release (ms) (0=auto)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  pi = 3.1415926535;
+  log2db = 8.6858896380650365530225783783321; // 20 / ln(10)
+  db2log = 0.11512925464970228420089957273422; // ln(10) / 20
+  attime=0.004;
+  reltime=0.200;
+  atcoef=exp(-1/(attime * srate));
+  relcoef=exp(-1/(reltime * srate));
+@slider
+  thresh=exp(slider1 * db2log);
+  threshdb=slider1;
+  ceiling=exp(slider2 * db2log);
+  ceildb=slider2;
+  makeup=exp((ceildb-threshdb) * db2log);
+  makeupdb=ceildb-threshdb;
+  peakdb = ceildb+25;
+  peaklvl = exp(peakdb * db2log);
+  release=slider3/1000;
+  release==0 ? (reltime = overdb / 125) : (reltime = release);
+  relcoef=exp(-1/(reltime * srate));
+@sample
+  spl0=spl0*makeup;
+  spl1=spl1*makeup;
+  abs0=abs(spl0);
+  abs1=abs(spl1);
+  overdbv = max(abs0, abs1);
+  overdb = 2.08136898 * log(overdbv) * log2db - ceilingdb;
+  overdb > rundb ? (                                  // calculate overshoot (and thus GR)
+    rundb = overdb + atcoef * (rundb - overdb);       //    use attack and release to
+  ) : (                                               //    smoothly scale gain reduction
+    rundb = overdb + relcoef * (rundb - overdb);
+  );
+  overdb = max(0,rundb);
+  release == 0 ? (                                    // Auto-release?  Compute release time
+    overdb > maxover ? (
+      maxover = overdb;
+      reltime = overdb / 125;                         // release at constant 125 dB/sec.
+      relcoef = exp(-1/(reltime * srate));
+    );
+    runmax = maxover + relcoef * (runmax - maxover);  // highest peak for setting att/rel decays in reltime
+    maxover = runmax;
+  );
+  gr = exp(overdb * db2log);
+  spl0*=gr;
+  spl1*=gr;
+  spl0=min(ceiling,abs(spl0))*sign(spl0);             // If it gets past the limiter, whack it.
+  spl1=min(ceiling,abs(spl1))*sign(spl1);             // since we don't lookahead, some stuff will

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/expressbus ADDED Viewed

	@@ -0,0 +1,157 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:Express Bus Compressor
+desc:Express Bus Compressor [Stillwell]
+//tags: dynamics compressor
+//author: Stillwell
+slider1:0<-60,0,0.1>Threshold (dB)
+slider2:1<1,20,0.1>Ratio
+slider3:0<-20,20,0.1>Gain
+slider4:0<0,1,1{Hard,Soft}>Knee
+slider5:0<0,1,1{Normal,Sidechain}>Detector Input
+slider6:0<0,1,1{No,Yes}>Automatic Make-Up
+slider7:0<0,1,1{Peak,RMS}>Detection
+slider8:0<0,1,1{Feedforward,Feedback}>Detection Source
+in_pin:left input
+in_pin:right input
+in_pin:sidechain left input
+in_pin:sidechain right input
+out_pin:left output
+out_pin:right output
+@init
+  log2db = 8.6858896380650365530225783783321; // 20 / ln(10)
+  db2log = 0.11512925464970228420089957273422; // ln(10) / 20
+  i=0;
+  loop(
+    120,
+    attimes[i] = ((0.08924 / i) + (0.60755 / (i ^ 2)) - 0.00006);
+    i+=1;
+  );
+  attime=0.010;
+  reltime=0.100;
+  maxover=0;
+  ratio=0;
+  cratio=0;
+  rundb=0;
+  overdb=0;
+  maxover=0;
+  atcoef=exp(-1/(attime * srate));
+  relcoef=exp(-1/(reltime * srate));
+  fbacoef=exp(-1000/(2 * srate)); // 2 msec. opto attack for feedback detection
+  fbrcoef=exp(-1000/(200 * srate)); // 200 msec. opto release for feedback detection
+  sidechain = 0;
+  automakeup = 0;
+@slider
+  thresh = slider1;
+  threshv = exp(thresh * db2log);
+  ratio = slider2;
+  softknee = slider4;
+  cthresh = (softknee ? (thresh -3) : thresh);
+  cthreshv = exp(cthresh * db2log);
+  sidechain = slider5;
+  automakeup = slider6;
+  automakeup ? (
+    autogain = (abs(thresh) - (abs(thresh)/max(1,ratio-1)))/2;
+  ) : (
+    autogain = 0;
+  );
+  makeup = slider3;
+  makeupv = exp((makeup+autogain) * db2log);
+  RMSdet = slider7;
+  RMSdet ? (
+    rmscoef=exp(-1000/(10 * srate));       // 10 ms RMS window
+  ) : (
+    rmscoef=exp(-1000/(0.0025 * srate));  // 2.5 us Peak detector
+  );
+  opto = slider8;
+@sample
+  sidechain ? (
+    aspl0 = abs(spl2);
+    aspl1 = abs(spl3);
+  ) : (
+    opto ? (
+      ospl = ospl0 * ospl0 + ospl1 * ospl1;
+      ospl > runospl ? (
+        runospl = ospl + atcoef * (runospl - ospl);
+      ) : (
+        runospl = ospl + relcoef * (runospl - ospl);
+      );
+      ospl = sqrt(max(0,runospl));
+      ospl *= 0.5;
+      aspl0 = abs(ospl);
+      aspl1 = abs(ospl);
+    ) : (
+      aspl0 = abs(spl0);
+      aspl1 = abs(spl1);
+    );
+  );
+  RMSDet ? (
+    ave = (aspl0 * aspl0) + (aspl1 * aspl1);
+    runave = ave + rmscoef * (runave - ave);
+    det = sqrt(max(0,runave));
+  ) : (
+    maxspl = max(aspl0, aspl1);
+    maxspl = maxspl * maxspl;
+    runave = maxspl + rmscoef * (runave - maxspl);
+    det = sqrt(max(0,runave));
+  );
+  overdb = 2.08136898 * log(det/cthreshv) * log2db;
+  overdb > maxover ? (
+    maxover = overdb;
+    reltime = overdb / 125;                        // release at constant 125 dB/sec.
+    relcoef = exp(-1/(reltime * srate));
+  );
+  overdb = max(0,overdb);
+  overdb > rundb ? (
+    rundb = overdb + atcoef * (rundb - overdb);
+  ) : (
+    rundb = overdb + relcoef * (rundb - overdb);
+  );
+  overdb = rundb;
+  cratio = (softknee ? (1 + (ratio-1) * min(overdb, 6) / 6) : ratio);
+  gr = -overdb * (cratio-1)/cratio;
+  grv = exp(gr * db2log);
+  runmax = maxover + relcoef * (runmax - maxover);  // highest peak for setting att/rel decays in reltime
+  maxover = runmax;
+  spl0 *= grv * makeupv;
+  spl1 *= grv * makeupv;
+  ospl0 = spl0;
+  ospl1 = spl1;

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/fairlychildish ADDED Viewed

	@@ -0,0 +1,149 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:Fairly Childish Compressor/Limiter
+desc:Fairly Childish Compressor/Limiter similar to F670 [Stillwell]
+//tags: dynamics compressor limiter
+//author: Stillwell
+slider1:0<-60,0,0.1>Threshold (dB)
+slider2:70<0.1,100,0.1>Bias
+slider3:0<-30,30,0.1>Makeup Gain
+slider4:0<0,1,1{Left/Right,Lat/Vert}>AGC
+slider5:1<1,6,1>Time Constant
+slider6:100<1,10000,1>Level Detector RMS Window
+slider7:1<1,50,0.1>Current Compression Ratio
+slider8:0<-90,0,0.1>Gain Reduction
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  log2db = 8.6858896380650365530225783783321; // 20 / ln(10)
+  db2log = 0.11512925464970228420089957273422; // ln(10) / 20
+  i=0;
+  attime=0.0002; //200us
+  reltime=0.300; //300ms
+  rmstime=0.000050; //50us
+  maxover=0;
+  ratio=0;
+  cratio=0;
+  rundb=0;
+  overdb=0;
+  maxover=0;
+  atcoef=exp(-1/(attime * srate));
+  relcoef=exp(-1/(reltime * srate));
+  rmscoef=exp(-1/(rmstime * srate));
+  leftright = 0;
+  latvert = 1;
+@slider
+  thresh = slider1;
+  threshv = exp(thresh * db2log);
+  ratio = 20;
+  bias = 80 * slider2 / 100;
+  cthresh = thresh - bias;
+  cthreshv = exp(cthresh * db2log);
+  makeup = slider3;
+  makeupv = exp(makeup * db2log);
+  agc = slider4;
+  timeconstant = slider5;
+  timeconstant == 1 ? (
+    attime = 0.0002;
+    reltime = 0.300;
+  );
+  timeconstant == 2 ? (
+    attime = 0.0002;
+    reltime = 0.800;
+  );
+  timeconstant == 3 ? (
+    attime = 0.0004;
+    reltime = 2.000;
+  );
+  timeconstant == 4 ? (
+    attime = 0.0008;
+    reltime = 5.000;
+  );
+  timeconstant == 5 ? (
+    attime = 0.0002;
+    reltime = 10.000;
+  );
+  timeconstant == 6 ? (
+    attime = 0.0004;
+    reltime = 25.000;
+  );
+  atcoef = exp(-1 / (attime * srate));
+  relcoef = exp(-1 / (reltime * srate));
+  rmstime = slider6 / 1000000;
+  rmscoef=exp(-1/(rmstime * srate));
+@sample
+  agc == leftright ? (
+    aspl0 = abs(spl0);
+    aspl1 = abs(spl1);
+  ) : (
+    aspl0 = abs(spl0+spl1)/2;
+    aspl1 = abs(spl0-spl1)/2;
+  );
+  maxspl = max(aspl0, aspl1);
+  maxspl = maxspl * maxspl;
+  runave = maxspl + rmscoef * (runave - maxspl);
+  det = sqrt(max(0,runave));
+  overdb = 2.08136898 * log(det/threshv) * log2db;
+  overdb = max(0,overdb);
+  overdb > rundb ? (
+    rundb = overdb + atcoef * (rundb - overdb);
+  ) : (
+    rundb = overdb + relcoef * (rundb - overdb);
+  );
+  overdb = max(rundb,0);
+  bias == 0 ? (
+    cratio = ratio;
+  ) : (
+    cratio = 1 + (ratio-1) * sqrt((overdb + dcoffset) / (bias + dcoffset));
+  );
+  slider7 = cratio;
+  gr = -overdb * (cratio-1)/cratio;
+  slider8 = -gr;
+  grv = exp(gr * db2log);
+  agc == leftright ? (
+    spl0 *= grv * makeupv;
+    spl1 *= grv * makeupv;
+  ) : (
+    sav0 = (spl0 + spl1) * grv;
+    sav1 = (spl0 - spl1) * grv;
+    spl0 = makeupv * (sav0 + sav1) * 0.5;
+    spl1 = makeupv * (sav0 - sav1) * 0.5;
+  );

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/gfxGoniometer ADDED Viewed

	@@ -0,0 +1,141 @@

+(C) 2007, Michael Gruhn.
+desc:Goniometer
+desc:Goniometer [LOSER]
+//tags: analysis visualization
+//author: LOSER
+slider1:0<0,2,1{Dots,Lines,Rays}>Display
+in_pin:left input
+in_pin:right input
+out_pin:none
+@init
+gfx_clear=-1;
+off = 500000;
+rot=-45*0.017453292;
+DOTS = 0;
+LINES = 1;
+RAYS = 2;
+MAXDRAWSPLS = 10000;
+PHASEUPDATERATE = srate/8;
+n = 0;
+phC = 0;
+ph = 0;
+@slider
+@block
+@sample
+s0 = sign(spl0);
+s1 = sign(spl1);
+angle = atan( spl0 / spl1 );
+(s0 == 1 && s1 == -1) || (s0 == -1 && s1 == -1) ? angle += 3.141592654;
+s0 == -1 && s1 == 1 ? angle += 6.283185307;
+spl1 == 0 ? spl0 > 0 ? angle = 1.570796327 : angle = 4.71238898;
+spl0 == 0 ? spl1 > 0 ? angle = 0 : angle = 3.141592654;
+radius = sqrt( sqr(spl0)+sqr(spl1) ) ;
+angle -= rot;
+vert = 0[b] = cos(angle)*radius;
+horiz = off[b] = sin(angle)*radius;
+b<MAXDRAWSPLS ? b += 1;
+s0 != s1 ? phC-=1:phC+=1;
+(n+=1) > PHASEUPDATERATE ? (
+  ph = (1-(phC/n))/2;
+  phC = n = 0;
+);
+@gfx 450 450
+size = min(gfx_w,gfx_h*.95)|0;
+// override drawing functions to center
+gxo = gfx_w*.5 - size*.5;
+function gfx_lineto(x,y,aa) ( gfx_x+=gxo; gfx_lineto(x+gxo,y,aa); gfx_x-=gxo; );
+function gfx_setpixel(r,g,b) ( gfx_x+=gxo; gfx_setpixel(r,g,b); gfx_x-=gxo; );
+function gfx_drawnumber(y,x) ( gfx_x+=gxo; gfx_w<200||gfx_drawnumber(y,x); gfx_x-=gxo; );
+function gfx_drawchar(x) (gfx_x+=gxo; gfx_w<200||gfx_drawchar(x); gfx_x-=gxo;);
+sizeH = size/2;
+sizeDSqr05 = sizeH * 0.70710681;
+sizeQ = sizeH/2;
+size3Q = 3*sizeQ;
+(mouse_cap) ? (
+  gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+  gfx_x=gfx_y=0;
+  gfx_rectto(gfx_w,gfx_h);
+);
+gfx_r=gfx_g=gfx_b=0; gfx_a=0.025;
+gfx_x=gfx_y=0;
+gfx_rectto(gfx_w,gfx_h);
+x = y = sizeH;
+i = min(b,MAXDRAWSPLS);
+while (
+  slider1 == DOTS ? (
+  gfx_a=1;
+  gfx_x=sizeH+0[i]*sizeDSqr05;
+  gfx_y=sizeH-off[i]*sizeDSqr05;
+  gfx_setpixel(0.5,1,0);
+  ):(
+    slider1 == LINES ? (
+      gfx_x=x; gfx_y=y;
+      x=sizeH+0[i]*sizeDSqr05;
+      y=sizeH-off[i]*sizeDSqr05;
+    ):(
+      gfx_x=sizeH+0[i]*sizeDSqr05;
+      gfx_y=sizeH-off[i]*sizeDSqr05;
+    );
+      gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=0.6;
+  gfx_lineto(x,y,0);
+  );
+  (i-=1)>0;
+);
+b=0;
+gfx_r=gfx_g=gfx_b=0.8; gfx_a=1;
+gfx_x=sizeQ; gfx_y=sizeQ;
+gfx_lineto(size3Q,size3Q,0);
+gfx_x=sizeQ; gfx_y=size3Q;
+gfx_lineto(size3Q,sizeQ,0);
+gfx_x = gfx_y = sizeQ;
+gfx_drawchar($'L');
+gfx_x = size3Q; gfx_y = sizeQ;
+gfx_drawchar($'R');
+gfx_x = sizeH; gfx_y = 0;
+gfx_drawchar($'M');
+gfx_x = 0; gfx_y = sizeH;
+gfx_drawchar($'+');
+gfx_drawchar($'S');
+gfx_x = size-20; gfx_y = sizeH;
+gfx_drawchar($'-');
+gfx_drawchar($'S');
+gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+gfx_x=0+gxo; gfx_y=size;
+gfx_rectto(size+1+gxo,size+20);
+gfx_r=1; gfx_g=0; gfx_b=0; gfx_a=1;
+gfx_x=1+ph*(size-1); gfx_y=size+1;
+gfx_lineto(gfx_x,size+19,0);
+gfx_r=gfx_g=gfx_b=0.8; gfx_a=1;
+gfx_x = 0; gfx_y = size+10;
+gfx_drawnumber(0,0);
+gfx_x = sizeH-8; gfx_y = size+10;
+gfx_drawnumber(90,0);
+gfx_x = size-25; gfx_y = size+10;
+gfx_drawnumber(180,0);
+gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=1;
+gfx_x = 0; gfx_y = size;
+gfx_drawnumber(ph*180,0);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/gfxanalyzer ADDED Viewed

	@@ -0,0 +1,444 @@

+desc:Frequency Spectrum Analyzer Meter (Cockos)
+//tags: analysis FFT meter spectrum
+//author: Cockos
+/*
+Copyright (C) 2007 Cockos Incorporated
+License: LGPL - http://www.gnu.org/licenses/lgpl.html
+*/
+slider1:6<0,9,1{16,32,64,128,256,512,1024,2048,4096,8192,16384,32768}>-FFT size
+slider2:-120<-450,-12,6>-floor
+slider3:0<0,1,1{disabled,enabled}>-show phase
+slider4:2<0,3,1{rectangular,hamming,blackman-harris,blackman}>-window
+slider5:0<0,2500,1>-integration time (ms)
+slider6:0<0,12,0.1>-slope (dB/octave)
+slider7:1000<10,10000,1>-octave gain center (Hz)
+in_pin:left input
+in_pin:right input
+options:no_meter
+@init
+gfx_ext_retina=1.0;
+ext_nodenorm=1;
+recpos=0;
+max_fft_size=32768;
+fftsize=max_fft_size;
+gfx_clear=-1;
+windowtype=-1;
+fftidx=-1;
+histsize=max_fft_size + (max_fft_size*0.5 - 1);
+window=histsize;
+fftworkspace=window+(max_fft_size*0.5 + 1);
+integrate_buf = fftworkspace + max_fft_size*2;
+@slider
+old_w=0;
+@block
+slider2 != lfloor ? (
+  lfloor = slider2;
+  minvol=2*exp(log(10)/20*slider2);
+);
+@sample
+abs(recpos[]=spl0+spl1) > minvol ? update=1;
+recpos = ((recpos+1) >= histsize ? 0 : (recpos+1));
+@gfx 640 400
+small_mode = gfx_w<200 || gfx_h < 50;
+gfx_ext_retina>1 ? gfx_setfont(1,"Arial",16*gfx_ext_retina,'b') : gfx_setfont(0);
+function draw_button(xp, yp, str)
+  instance(w,h,x,y)
+  globals(gfx_r,gfx_g,gfx_b,gfx_x,gfx_y)
+(
+  gfx_measurestr(str, w, h);
+  xp -= w+3;
+  x=xp;
+  y=yp;
+  gfx_set(0,0,.75);
+  w+=3;
+  h+=3;
+  gfx_rect(x,y,w,h);
+  gfx_set(0,.5,1);
+  gfx_line(x,y,x+w,y);
+  gfx_line(x+w,y,x+w,y+h);
+  gfx_line(x,y+h,x+w,y+h);
+  gfx_line(x,y,x,y+h);
+  h+=1;
+  w+=1;
+  gfx_x=xp+2; gfx_y=yp+2;
+  gfx_drawstr(str);
+  gfx_x = xp;
+);
+function hit_button(xp,yp,cm)
+  instance(w,h,x,y)
+  globals(cap_mode, cap_last_x, cap_last_y)
+(
+  xp>=x&&yp>=y&&xp<x+w&&yp<y+h ? (
+    cap_last_x = xp;
+    cap_last_y = yp;
+    cap_mode=cm;
+  );
+);
+function drag_slider(x, y, z, dx)
+  globals(mouse_y, cap_last_y, cap_drag)
+(
+  x = min(max(x + dx * (cap_last_y-mouse_y),y),z);
+  cap_last_y=mouse_y;
+  cap_drag=1;
+  x;
+);
+function drag_slider_precise(x, y, z, dx)
+  globals(mouse_cap)
+(
+  (mouse_cap & 4) ? dx *= 0.1;
+  drag_slider(x, y, z, dx);
+);
+function cycle_slider(x, y, z, dx)
+  globals(last_mouse_cap)
+(
+  (last_mouse_cap & 16) ? x -= dx : x += dx;
+  y > z ? ( dx=y; y=z; z=dx; );
+  x > z ? y : x < y ? z : x;
+);
+(mouse_cap & 1) ? (
+   !(last_mouse_cap & 1) ? (
+       (cap_mode == 1||cap_mode == 4) && !cap_drag && cap_timer < 12 ? (
+         cap_mode == 1 ? (
+            slider2 = -120;
+            slider_automate(slider2);
+          ) : (
+            slider5 = 0;
+            slider_automate(slider5);
+          );
+         cap_mode=0;
+         old_w=0;
+       ) : (
+         cap_mode = cap_drag = cap_timer = 0;
+         small_mode ? (
+          cap_last_x = mouse_x;
+          cap_last_y = mouse_y;
+          cap_mode=1; // floor
+         ) : phase_button.hit_button(mouse_x,mouse_y,-1) ? (
+           slider3=!slider3;
+           slider_automate(slider3);
+           old_w = 0;
+         ) : (
+           floor_button.hit_button(mouse_x,mouse_y,1)||
+           window_button.hit_button(mouse_x,mouse_y,2)||
+           fft_button.hit_button(mouse_x,mouse_y,3)||
+           integrate_button.hit_button(mouse_x,mouse_y,4)||
+           slope_button.hit_button(mouse_x,mouse_y,5);
+         );
+       );
+    );
+    cap_mode == 1 && cap_last_y != mouse_y ? (
+      slider2 = drag_slider_precise(slider2, -450, -12, 0.2);
+      old_w=0;
+      slider_automate(slider2);
+    );
+    cap_mode == 2 && cap_last_y != mouse_y ? (
+      slider4 = drag_slider(slider4, 0.0, 3.0, .03);
+      old_w=0;
+      slider_automate(slider4);
+    );
+    cap_mode == 3 && cap_last_y != mouse_y ? (
+      slider1 = drag_slider(slider1, 0.0, 11.0, .03);
+      old_w=0;
+      slider_automate(slider1);
+    );
+    cap_mode == 4 && cap_last_y != mouse_y ? (
+      slider5 = drag_slider_precise(slider5, 0.0, 2500.0, 5);
+      old_w=0;
+      slider_automate(slider5);
+    );
+    cap_mode == 5 && cap_last_y != mouse_y ? (
+      slider6 = drag_slider_precise(slider6, 0.0, 12.0, .1);
+      old_w=0;
+      slider_automate(slider6);
+    );
+) :
+(last_mouse_cap & 1) && !cap_drag ? (
+  cap_mode == 2 ? (
+    slider4 = cycle_slider(slider4, 0.0, 3.0, 1.0);
+    old_w=0;
+    slider_automate(slider4);
+  );
+  cap_mode == 3 ? (
+    slider1 = cycle_slider(slider1, 0.0, 11.0, 1.0);
+    old_w=0;
+    slider_automate(slider1);
+  );
+);
+cap_mode && cap_timer < 12 ? cap_timer += 1;
+(mouse_cap==0 && last_mouse_cap==2) ? (
+  gfx_x=mouse_x;
+  gfx_y=mouse_y;
+  i=0;
+  sprintf(#menustr,">FFT size",#menustr);
+  loop(12,
+    sprintf(#menustr,"%s|%s%d",#menustr,(slider1|0)==i ?"!":"", 16<<i);
+    i+=1;
+  );
+  sprintf(#menustr,"%s|<",#menustr);
+  sprintf(#menustr,"%s|>Window|%sRectangular|%sHamming|%sBlackman-Harris|%sBlackman|<",
+    #menustr,slider4==0?"!":"",slider4==1?"!":"", slider4==2?"!":"", slider4==3?"!":"");
+  sprintf(#menustr,"%s|%sShow phase",#menustr,slider3>.5?"!":"");
+ ret = gfx_showmenu(#menustr);
+  ret > 0 ? (
+    (ret-=1) < 12 ? (slider1 = ret; ):
+    (ret-=12) < 4 ? (slider4 = ret; ):
+    (ret-=4) == 0 ? (slider3 = !slider3; old_w=0;);
+  );
+  update=1;
+);
+last_mouse_cap = mouse_cap;
+// only update if new fft data is there or if the size changed
+update || old_w != gfx_w || old_h!=gfx_h? (
+old_w=gfx_w; old_h=gfx_h;
+gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+gfx_x=gfx_y=0;
+gfx_rectto(gfx_w,gfx_h);
+sc=(gfx_h-20)*20/(-slider2 * log(10));
+// draw horz grid
+gfx_r=gfx_g=gfx_b=0.6;
+gfx_a=0.5;
+gv=1;
+cnt=100;
+gfx_y=-100;
+small_mode||while(
+  y=20-log(gv)*sc;
+  y> gfx_y ? (
+    gfx_line(0,y,gfx_w,y,0);
+    bottom_line = gfx_y;
+    gfx_x=0;
+    gfx_y=y+2;
+    gfx_drawnumber(log10(gv)*20,0);
+    gfx_drawchar($'d');
+    gfx_drawchar($'B');
+    gfx_y+=gfx_texth;
+  );
+  gv*=0.5;
+  gfx_y<gfx_h && cnt-=1 > 0;
+);
+wsc=gfx_w/log(1+400);
+// draw vert grid
+f=20;
+gfx_x+=4;
+lx=gfx_x;
+small_mode||while(
+  tx = log(1.0+(f/srate*2.0)*400)*wsc;
+  dotext = tx > gfx_x && f!=40 && f!=4000 && f != 15000 &&
+     (f<400 || f >= 1000 || f == 500) && (f<6000 || f>=10000);
+  tx > lx ? ( lx=tx+4; gfx_line(tx,0,tx,gfx_h - (dotext ? 0 : gfx_texth+2),0); );
+  dotext ? (
+    gfx_x=tx +3;
+    gfx_y = gfx_h-gfx_texth;
+    f>=1000 ? gfx_printf("%dkHz",f*.001) : gfx_printf("%dHz",f);
+  );
+  f += (f<100?10:f<1000?100:f<10000?1000:5000);
+  f < srate*0.5;
+);
+small_mode ? (
+  gfx_set(1,1,1,0.25);
+  gfx_x=0;
+  gfx_y=2;
+  gfx_printf("FFT %d\n%ddB f",16<<slider1,slider2);
+) : (
+fft_button.draw_button(gfx_w, 0, sprintf(#,"%s%d",gfx_w<400?"":"FFT: ",16<<slider1));
+  window_button.draw_button(gfx_x-8, 0,
+    (slider4|0)==1 ? "hamming" :
+    (slider4|0)==2 ? "blackman-harris" :
+    (slider4|0)==3 ? "blackman" :
+    "rectangular");
+  sprintf(#floorstr,"%s%.1fdB",gfx_w<420?"":"floor: ",slider2);
+  sprintf(#intstr,"%s: %dms",gfx_w<420 ? "int" : "integrate", slider5|0);
+  sprintf(#slopestr,"%s%.1fdB/oct",gfx_w<420?"":"slope: ",floor(slider6*10+0.5)/10);
+  rowpos = gfx_w<700?gfx_texth+8:0;
+  rowpos > 0 ? (
+    phase_button.draw_button(gfx_x-8,0, slider3?"phase on" : "phase off");
+    gfx_x=gfx_w;
+  ) : gfx_x-=8;
+  floor_button.draw_button(gfx_x,rowpos,#floorstr);
+  slope_button.draw_button(gfx_x-8,rowpos, #slopestr);
+  integrate_button.draw_button(gfx_x-8,rowpos, #intstr);
+  rowpos <= 0 ? phase_button.draw_button(gfx_x-8,rowpos, slider3?"phase on" : "phase off");
+);
+update ? (
+  update=0;
+  integrate_sc = 1;
+  slider5 > 0 ? (
+    integrate_now = time_precise();
+    integrate_en ? (
+      // fps = 1/(integrate_now - integrate_lastt);
+      integrate_sc -= exp(-5 * 1000.0 * (integrate_now - integrate_lastt) / slider5);
+    ) : (
+      // force overwrite of buffer
+      integrate_en = 1;
+    );
+    integrate_lastt = integrate_now;
+  ) : (
+    integrate_en = 0;
+  );
+  fftidx != (slider1|0) ? (
+    fftidx=slider1|0;
+    fftsize=2^(min(max(fftidx,0),11)+4);
+    integrate_sc=1;
+  );
+  windowsize != fftsize || windowtype != (slider4|0) ? (
+    windowtype=slider4|0;
+    windowsize=fftsize;
+    dwindowpos = $pi*2/fftsize;
+    i=pwr=0;
+    loop(fftsize*.5+1,
+       windowpos=i*dwindowpos;
+       pwr += (window[i] = (
+         windowtype==1 ? 0.53836 - cos(windowpos)*0.46164 :
+         windowtype==2 ? 0.35875 - 0.48829 * cos(windowpos) + 0.14128 * cos(2*windowpos) - 0.01168 * cos(3*windowpos) :
+         windowtype==3 ? 0.42 - 0.50 * cos(windowpos) + 0.08 * cos(2.0*windowpos) :
+          1.0));
+       i+=1;
+    );
+    pwr=.5/(pwr*2-window[i-1]);
+    loop(fftsize*.5+1,window[i-=1]*=pwr);
+    integrate_sc=1;
+  );
+  buf1=recpos-fftsize;
+  buf1<0 ? buf1+=histsize;
+  buf2=window;
+  buf3=fftworkspace;
+  loop(fftsize*.5 + 1,
+    buf3[] = buf1[]*buf2[];
+    buf3+=1;
+    buf2+=1;
+    (buf1+=1) >= histsize ? buf1 -= histsize;
+  );
+  buf2-=1;
+  loop(fftsize*.5 - 1,
+    buf3[] = buf1[]*(buf2-=1)[];
+    buf3+=1;
+    (buf1+=1) >= histsize ? buf1 -= histsize;
+  );
+  fft_real(fftworkspace,fftsize);
+  fft_permute(fftworkspace,fftsize/2);
+  fftworkspace[1]=0;
+  ascale=gfx_h/$pi*0.25;
+  xscale=800/(fftsize-4);
+  buf3=fftworkspace;
+  buf2=integrate_buf+max_fft_size*0.5;
+  i=0;
+  lx=0;
+  slider3 ? loop(fftsize*0.5,
+    ang=-atan2(buf3[1],buf3[]);
+    buf3+=2;
+    integrate_en ? (
+      ang = buf2[] += integrate_sc * (ang - buf2[]);
+      buf2+=1;
+    );
+    ty2=ang*ascale + gfx_h*0.5;
+    tx = log(1.0+i*xscale)*wsc;
+    i ?
+    (
+      gfX_r=0.6; gfx_g=0; gfx_b=0.8; gfx_a=1;
+      gfx_x=lx; gfx_y=ly2; gfx_lineto(tx,ty2,1) ;
+    );
+    lx=tx; ly2=ty2;
+    i+=1;
+  );
+  buf3=fftworkspace;
+  buf2=integrate_buf;
+  lx=0;
+  i=0;
+  fill_slmin=gfx_h;
+  fill_slast=0;
+  octavegain = floor(slider6*10+0.5) * ((log(10)*2.0/10.0)/(log(2)*20.0));
+  octavegainoffs = log(1 + slider7 * fftsize / srate);
+  loop(fftsize*0.5,
+    ty = log(max(sqr(buf3[0])+sqr(buf3[1]),(10^(-500/20*2))));
+    octavegain > 0 ? ty += (log(i+1) - octavegainoffs)*octavegain;
+    buf3+=2;
+    integrate_en ? (
+      ty = buf2[] += integrate_sc * (ty - buf2[]);
+      buf2+=1;
+    );
+    ty = ty*-0.5*sc + 20;
+    tx = log(1.0+i*xscale)*wsc;
+    i ?
+    (
+      gfX_r=gfx_g=1; gfx_b=0;
+      1/*fill?*/ ? (
+        gfx_a=0.125;
+        tx0=tx|0;
+        lx0=lx|0;
+        tx0>lx0? (
+          ly < gfx_h || ty < gfx_h ? gfx_triangle(lx0,max(gfx_h,ly),lx0,ly,tx0-1,ty,tx0-1,max(gfx_h,ty));
+        ) : (
+          tx0 > fill_slast ? (
+           fill_slast < gfx_h ? gfx_line(fill_slast,gfx_h,fill_slast,fill_slmin);
+           fill_slmin=gfx_h;
+         ) : (
+           fill_slmin=min(fill_slmin,ty);
+          );
+        );
+        fill_slast=tx0;
+      );
+      gfx_a=1.0;
+      gfx_x=lx; gfx_y=ly; gfx_lineto(tx,ty,1) ;
+    );
+    ty<gfx_h ? update=1;
+    lx=tx; ly=ty; ly2=ty2;
+    i+=1;
+  );
+);
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/gfxscope ADDED Viewed

	@@ -0,0 +1,477 @@

+desc:Oscilloscope Meter (Cockos)
+//tags: analysis scope meter
+//author: Cockos
+/*
+Copyright (C) 2007 Cockos Incorporated
+License: LGPL - http://www.gnu.org/licenses/lgpl.html
+*/
+slider1:view_msec=100<1,2000,1>-view size (ms)
+slider2:view_maxdb=0<-450,36,.1>-vzoom
+slider3:view_retrig=0<0,3,1{instant,any,ascending,descending}>-retrig
+in_pin:left input
+in_pin:right input
+options:no_meter
+@init
+gfx_ext_retina=1;
+ext_nodenorm=1;
+recpos=0;
+gfx_clear=-1;
+g_maxlen_ms=2000;
+histsize=((srate*2.0*g_maxlen_ms/1000)|0)*2;
+g_hold=-1;
+need_view_update=1;
+@block
+g_hold<0?need_view_update=1;
+@sample
+g_hold<0 ? (
+  recpos[0]=spl0;
+  recpos[1]=spl1;
+  recpos = (recpos+2) >= histsize ? 0 : (recpos+2);
+);
+@gfx 640 400
+small_mode = gfx_w<200 || gfx_h<100;
+gfx_ext_retina>1 ? gfx_setfont(1,"Arial",16*gfx_ext_retina,'b') : gfx_setfont(0);
+gfx_getchar(); // request mouse_cap to be set even when mouse button not down
+function color1() ( gfx_r=0.0; gfx_g=0.0; gfx_b=1.0; );
+function color2() ( gfx_r=1.0; gfx_g=1.0; gfx_b=0.0; );
+function draw_button(xp, yp, str)
+  instance(w,h,x,y)
+  globals(gfx_r,gfx_g,gfx_b,gfx_x,gfx_y)
+(
+  gfx_measurestr(str, w, h);
+  xp -= w+3;
+  x=xp;
+  y=yp;
+  gfx_set(0,0,.75);
+  w+=3;
+  h+=3;
+  gfx_rect(x,y,w,h);
+  gfx_set(0,.5,1);
+  gfx_line(x,y,x+w,y);
+  gfx_line(x+w,y,x+w,y+h);
+  gfx_line(x,y+h,x+w,y+h);
+  gfx_line(x,y,x,y+h);
+  h+=1;
+  w+=1;
+  gfx_x=xp+2; gfx_y=yp+2;
+  gfx_drawstr(str);
+  gfx_x = xp;
+);
+function hit_button(xp,yp,cm)
+  instance(w,h,x,y)
+  globals(cap_mode, cap_last_x, cap_last_y)
+(
+  xp>=x&&yp>=y&&xp<x+w&&yp<y+h ? (
+    cap_last_x = xp;
+    cap_last_y = yp;
+    cap_mode=cm;
+  );
+);
+function drag_slider(x, y, z, dx)
+  globals(mouse_y, cap_last_y, cap_drag)
+(
+  x = min(max(x + dx * (cap_last_y-mouse_y),y),z);
+  cap_last_y=mouse_y;
+  cap_drag=1;
+  x;
+);
+function drag_slider_precise(x, y, z, dx)
+  globals(mouse_cap)
+(
+  (mouse_cap & 4) ? dx *= 0.1;
+  drag_slider(x, y, z, dx);
+);
+function cycle_slider(x, y, z, dx)
+  globals(last_mouse_cap)
+(
+  (last_mouse_cap & 16) ? x -= dx : x += dx;
+  y > z ? ( dx=y; y=z; z=dx; );
+  x > z ? y : x < y ? z : x;
+);
+(mouse_cap & 1) ? (
+   !(last_mouse_cap & 1) ? (
+     cap_mode == 1 && !cap_drag && cap_timer < 12 ? (
+       view_maxdb = 0;
+       cap_mode=0;
+       need_view_update=1;
+       slider_automate(view_maxdb);
+     ) : (
+      cap_mode = cap_drag = cap_timer = 0;
+      length_button.hit_button(mouse_x,mouse_y,2)||
+      (!small_mode && vzoom_button.hit_button(mouse_x,mouse_y,1))||
+      hold_button.hit_button(mouse_x,mouse_y,3)||
+      (!small_mode && retrig_button.hit_button(mouse_x,mouse_y,4));
+      cap_mode == 3 ? g_hold_needadj=1;
+      cap_mode == 0 && mouse_y >= 40 ? (
+        cap_mode = 100;
+        cap_last_y=mouse_y;
+        cap_last_x=mouse_x;
+        (mouse_cap&8) ? (
+          g_hold < 0 ? (
+            g_hold_needadj=1;
+            g_hold=0;
+          ) : g_hold=-1;
+        );
+      );
+    );
+  );
+  cap_last_y != mouse_y ? (
+    (cap_mode == 1 || cap_mode==100) ? (
+      cap_mode == 100 && (mouse_cap&16) ? (
+        g_hold >= 0 ? ovhold = g_hold + (gfx_w-mouse_x)*view_msec*0.001/gfx_w*srate;
+        view_msec = min(g_maxlen_ms,max(0.125,exp(drag_slider_precise(log(view_msec), log(0.125), log(g_maxlen_ms),-0.02))));
+        slider_automate(view_msec);
+        g_hold >= 0 ? (
+          // zoom at mouse cursor
+          g_hold = ovhold - (gfx_w-mouse_x)*view_msec*0.001/gfx_w*srate;
+          g_hold  > histsize*.5-viewsize_spls ? g_hold = histsize*.5-viewsize_spls : g_hold < 0 ? g_hold=0;
+        );
+      ) : (
+        view_maxdb = drag_slider_precise(view_maxdb, -450, 36, -0.2);
+        need_view_update=1;
+        slider_automate(view_maxdb);
+      );
+    );
+    cap_mode == 2 ? (
+      view_msec = min(g_maxlen_ms,max(0.125,exp(drag_slider_precise(log(view_msec), log(0.125), log(g_maxlen_ms),-0.02))));
+      slider_automate(view_msec);
+      need_view_update=1;
+    );
+    cap_mode == 4 ? (
+      view_retrig = drag_slider(view_retrig,0,3,0.03);
+      slider_automate(view_retrig);
+      need_view_update=1;
+    );
+  );
+  cap_mode == 3 || (cap_mode == 100&&g_hold>=0) ? (
+    dx = mouse_x-cap_last_x + (cap_mode == 3 ? (mouse_y-cap_last_y)*0.2);
+    dx ? (
+      cap_drag=1;
+      g_hold += dx * viewsize_spls/gfx_w;
+      g_hold  > histsize*.5-viewsize_spls ? g_hold = histsize*.5-viewsize_spls;
+      cap_last_x = mouse_x;
+      cap_last_y = mouse_y;
+      need_view_update=1;
+    );
+    g_hold < 0 ? g_hold=0;
+  );
+) : (
+  g_hold_needadj=0;
+  cap_mode == 3 && !cap_drag ? (
+    g_hold=-1;
+    cap_mode=0;
+  );
+  cap_mode == 4 && !cap_drag ? (
+    view_retrig = cycle_slider(view_retrig, 0.0, 3.0, 1.0);
+    old_w=0;
+    slider_automate(view_retrig);
+    cap_mode=0;
+  );
+);
+cap_mode && cap_timer < 12 ? cap_timer += 1;
+last_mouse_cap = mouse_cap;
+function format_time_msec(a) (
+  abs(a) < 1000 ?
+    sprintf(#,"%.02fms",a + 0.005) :
+    sprintf(#,"%.02fs",a*0.001 + 0.005);
+);
+function format_time_msec_hz(b)(
+  b > 1 ?
+    b > 250 ?
+      sprintf(#,small_mode ? "%.1fs":"%.02fs",b*0.001 + 0.005) :
+    sprintf(#,small_mode ? "%dHz":"%d Hz",1000/b+0.5) :
+  sprintf(#,small_mode?"%.1fk":"%.1f kHz",1/b + 0.05);
+);
+mouse_wheel ? (
+  (mouse_cap&8) ? (
+    view_maxdb = min(36,max(-450,view_maxdb*exp(-mouse_wheel*0.0003)));
+    slider_automate(view_maxdb);
+  ) : (mouse_cap&16) ? (
+    g_hold += mouse_wheel*(1/(120.0*8.0)) * viewsize_spls;
+    g_hold  > histsize*.5-viewsize_spls ? g_hold = histsize*.5-viewsize_spls : g_hold < 0 ? g_hold=0;
+  ) : (
+    g_hold >= 0 ? ovhold = g_hold + (gfx_w-mouse_x)*view_msec*0.001/gfx_w*srate;
+    view_msec = min(2000,max(1,view_msec*exp(-mouse_wheel*0.0003)));
+    slider_automate(view_msec);
+    g_hold >= 0 ? (
+      // zoom at mouse cursor
+      g_hold = ovhold - (gfx_w-mouse_x)*view_msec*0.001/gfx_w*srate;
+      g_hold  > histsize*.5-viewsize_spls ? g_hold = histsize*.5-viewsize_spls : g_hold < 0 ? g_hold=0;
+    );
+  );
+  mouse_wheel=0;
+  need_view_update=1;
+);
+// only update if new fft data is there or if the size changed
+need_view_update || view_maxdb != view_maxdb_last || old_w != gfx_w || old_h!=gfx_h? (
+  view_maxdb_last = view_maxdb;
+  need_view_update=0;
+  old_w=gfx_w; old_h=gfx_h;
+  gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+  gfx_x=gfx_y=0;
+  gfx_rectto(gfx_w,gfx_h);
+  scope_h = ((gfx_h-gfx_texth*2-6-4)*0.5)|0;
+  scope_ycent = gfx_h - scope_h - gfx_texth - 4;
+  sc= exp(-view_maxdb*(log(10)/20)) * scope_h;
+  // draw horz grid
+  gfx_r=gfx_g=gfx_b=0.6;
+  gfx_a=1.0;
+  gfx_line(0,scope_ycent,gfx_w,scope_ycent);
+  i=0;
+  v=view_maxdb;
+  ly = scope_h+20*gfx_ext_retina;
+  while (
+    a = floor(exp(v*(log(10)/20))*sc+0.5);
+    a > 24 ? (
+      a < ly ? (
+        gfx_a=.25;
+        gfx_line(0,scope_ycent-a,gfx_w,scope_ycent-a);
+        gfx_line(0,scope_ycent+a,gfx_w,scope_ycent+a);
+        gfx_x=0; gfx_y=scope_ycent+a+2;
+        v!=view_maxdb ? (
+          sprintf(#tmp,"%+.1fdB",v);
+          gfx_a=.5;
+          gfx_drawstr(#tmp);
+          gfx_x=0; gfx_y=scope_ycent-a-2-gfx_texth;
+          gfx_drawstr(#tmp);
+        );
+        ly=a - gfx_texth-20;
+      );
+      v = floor(v*(1/3)-1)*3;
+      i=1;
+      1;
+    );
+  );
+  // draw vert grid
+  v=gfx_w - 72*gfx_ext_retina;
+  small_mode || while(
+    gfx_a=0.25;
+    gfx_line(v,gfx_texth+8,v,gfx_h);
+    a = view_msec - view_msec * v / gfx_w;
+    gfx_a=0.5;
+    gfx_x = v + 2; gfx_y = gfx_texth+12;
+    gfx_drawstr(sprintf(#,"%d",a*srate*0.001+0.5));
+    g_hold > 0 ? (
+      gfx_x=v+2;
+      gfx_y += gfx_texth+2;
+      gfx_drawstr(sprintf(#,"-%d",a*srate*0.001 + g_hold + 0.5));
+    );
+    g_hold > 0 ? (
+      gfx_x=v+2;
+      gfx_y = gfx_h - gfx_texth*3 - 4;
+      gfx_drawstr(format_time_msec(-a-(g_hold*1000/srate)));
+    );
+    gfx_x = v + 2;
+    gfx_y = gfx_h - gfx_texth*2 - 2;
+    a <= 250 ? gfx_drawstr(format_time_msec_hz(a));
+    gfx_x = v + 2; gfx_y = gfx_h - gfx_texth;
+    gfx_drawstr(format_time_msec(a));
+    v -= 72*gfx_ext_retina;
+    v > 24*gfx_ext_retina;
+  );
+viewsize_spls = (view_msec*srate*0.001)|0;
+viewadv = gfx_w/viewsize_spls;
+rdptr = recpos - viewsize_spls*2 - 2;
+rdptr < 0 ? rdptr += histsize;
+(g_hold_needadj ? (g_hold>0) : (g_hold>=0)) && g_hold < histsize*0.5 ? (
+  rdptr -= (g_hold|0)*2;
+  rdptr < 0 ? rdptr += histsize;
+) : view_retrig >= 1.0 ? (
+  rdptr2 = recpos - 2;
+  rdptr2 < 0 ? rdptr2 += histsize;
+  pos = 0;
+  ll = rdptr2[0]; lr=rdptr2[1];
+  while(
+    pos < viewsize_spls ? (
+      rdptr2 -= 2;
+      rdptr2 < 0 ? rdptr2 += histsize;
+      l = rdptr2[0]; r=rdptr2[1];
+      ((view_retrig|0)==2 ? ((l>=0) && (ll<0) || ((r>=0) && (lr<0))) :
+      (view_retrig|0)==3 ? ((l<=0) && (ll>0) || ((r<=0) && (lr>0))) :
+      ((l<0) != (ll<0) || (r<0) != (lr<0))) ? (
+        g_hold == 0 && g_hold_needadj ? g_hold = pos+1;
+        rdptr=rdptr2 + 2 - viewsize_spls*2;
+        rdptr < 0 ? rdptr += histsize;
+        0;
+      ):(lr=r; ll=l; pos+=1; );
+    );
+  );
+);
+g_hold_needadj=0;
+rdptr >= histsize ? rdptr -= histsize;
+x=0;
+viewadv < 1 ? (
+ // multiple samples per pixel
+  lx=0;
+  i=0;
+  minl=maxl=rdptr[0]; minr=maxr=rdptr[1];
+  (rdptr+=2) >= histsize ? rdptr=0;
+  loop(viewsize_spls,
+    tx=(x|0);
+    tx>lx?(
+      minl = min(max(-1,(scope_ycent+0.5-minl*sc)|0),gfx_h+2);
+      maxl = min(max(-1,(scope_ycent+0.5-maxl*sc)|0),gfx_h+2);
+      minr = min(max(-1,(scope_ycent+0.5-minr*sc)|0),gfx_h+2);
+      maxr = min(max(-1,(scope_ycent+0.5-maxr*sc)|0),gfx_h+2);
+      gfx_a=0.25;
+      color1();
+      maxl-1 > scope_ycent ? gfx_line(lx,maxl-1,lx,scope_ycent) :
+      minl+1 < scope_ycent ? gfx_line(lx,minl+1,lx,scope_ycent);
+      color2();
+      maxr-1 > scope_ycent ? gfx_line(lx,maxr-1,lx,scope_ycent) :
+      minr+1 < scope_ycent ? gfx_line(lx,minr+1,lx,scope_ycent);
+      color1();
+      gfx_a=.6;
+      gfx_line(lx,minl,lx,maxl);
+      color2();
+      gfx_line(lx,minr,lx,maxr);
+      minl=maxl=rdptr[0];
+      minr=maxr=rdptr[1];
+      lx=tx;
+    ) : (
+      minl=min(minl,v = rdptr[0]); maxl=max(maxl,v);
+      minr=min(minr,v2 = rdptr[1]); maxr=max(maxr,v2);
+    );
+    (rdptr+=2) >= histsize ? rdptr=0;
+    x+=viewadv;
+  );
+  // last pixel
+  minl = min(max(-1,(scope_ycent+0.5-minl*sc)|0),gfx_h+2);
+  maxl = min(max(-1,(scope_ycent+0.5-maxl*sc)|0),gfx_h+2);
+  minr = min(max(-1,(scope_ycent+0.5-minr*sc)|0),gfx_h+2);
+  maxr = min(max(-1,(scope_ycent+0.5-maxr*sc)|0),gfx_h+2);
+  color1();
+  gfx_a=0.35;
+  maxl-1 > scope_ycent ? gfx_line(lx,maxl-1,lx,scope_ycent) :
+  minl+1 < scope_ycent ? gfx_line(lx,minl+1,lx,scope_ycent);
+  color2();
+  maxr-1 > scope_ycent ? gfx_line(lx,maxr-1,lx,scope_ycent) :
+  minr+1 < scope_ycent ? gfx_line(lx,minr+1,lx,scope_ycent);
+  gfx_a=.6;
+  color1();
+  gfx_line(lx,minl,lx,maxl);
+  color2();
+  gfx_line(lx,minr,lx,maxr);
+) : (
+  maxval=scope_h+64;
+  // multiple pixels per sample
+  i=viewsize_spls&1;
+  loop(viewsize_spls,
+    x1 = x|0;
+    x2 = (x+=viewadv)|0;
+    viewadv<3 ? (
+      color1();
+      loop(2,
+        v = (rdptr[0] * sc)|0;
+        gfx_a=.25;
+        v < 0 ? (
+          v < -maxval ? v=-maxval;
+          gfx_rect(x1,scope_ycent,x2-x1,-v)
+        ) : (
+          v > maxval ? v=maxval;
+          gfx_rect(x1,scope_ycent-v,x2-x1,v);
+        );
+        gfx_a=.6;
+        gfx_rect(x1,scope_ycent-v,x2-x1,1);
+        rdptr+=1;
+        color2();
+      );
+    ) : (
+      color1();
+      loop(2,
+        gfx_a=(i&1) ? 0.25:0.125;
+        v = (rdptr[0] * sc)|0;
+        v < 0 ? (
+          v < -maxval ? v=-maxval;
+          gfx_rect(x1,scope_ycent,x2-x1,-v)
+        ) : (
+          v > maxval ? v=maxval;
+          gfx_rect(x1,scope_ycent-v,x2-x1,v);
+        );
+        gfx_a=0.6;
+        gfx_rect(x1,scope_ycent-v,x2-x1,1);
+        rdptr+=1;
+        color2();
+        i+=1;
+      );
+      i+=1;
+    );
+    rdptr >= histsize ? rdptr=0;
+  );
+);
+gfx_x=gfx_w+8;
+hold_button.draw_button(gfx_x-8,small_mode ? (gfx_h-gfx_texth-4):0,
+  g_hold>=0 ? sprintf(#,small_mode?"h: -%d":"hold: -%d samples",g_hold+0.5) : "hold");
+small_mode? (gfx_x = gfx_w+8 );
+length_button.draw_button(gfx_x-8, 0, sprintf(#,"%s%s", small_mode?"":"length: ", format_time_msec_hz(view_msec)) );
+small_mode ? (
+  gfx_x=0;
+  gfx_y=2;
+  gfx_set(1,1,1,.25);
+  gfx_printf("%+.0f",view_maxdb);
+  gfx_a=1;
+) : (
+  vzoom_button.draw_button(gfx_x-8, 0, sprintf(#,"range: %+.1fdB",view_maxdb));
+retrig_button.draw_button(gfx_x-8,0, sprintf(#,"retrig: %s",(view_retrig|0)==1?"any" :
+  (view_retrig|0)==2?"ascend":
+  (view_retrig|0)==3?"descend":
+  "instant"));
+);
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/gfxspectrograph ADDED Viewed

	@@ -0,0 +1,418 @@

+desc:Spectrograph Spectrogram Meter (Cockos)
+//tags:analysis FFT meter spectrum
+//author: Cockos
+/*
+Copyright (C) 2007 Cockos Incorporated
+License: LGPL - http://www.gnu.org/licenses/lgpl.html
+*/
+slider1:6<0,11,1{16,32,64,128,256,512,1024,2048,4096,8192,16384,32768}>-FFT size
+slider2:2<0,3,1{rectangular,hamming,blackman-harris,blackman}>-window
+slider3:-180<-180,6,1>-gate (dB)
+slider4:0<0,10,0.1}>-frequency curve
+slider5:0<0,1,1>-scroll
+slider6:1<1,40,1>-rate
+in_pin:left input
+in_pin:right input
+options:no_meter
+/* color ramp:
+1111222233334444555566667777
+------------rrRRRRRRRRRRRRRR
+----ggGGGGGGGGGGGGgg----ggGG
+bbBBBBBBBBbb--------bbBBBBBB
+7 sections, we'll say each will be 24dB
+*/
+@init
+gfx_ext_retina=1;
+fftsize=32768;
+recpos=0;
+gfx_clear=-1;
+windowtype=-1;
+over24=1/24;
+histsize=fftsize*4;
+fftworkspace=histsize;
+window=fftworkspace + fftsize*2;
+lrecpos=0;
+need_button_refs=1;
+@slider
+lfft=fftsize;
+a=(slider1|0);
+a<0?a=0:a>11?a=11;
+fftsize=2^(a+4);
+minvol=10^(slider3/20*2); // squared
+islogmode = slider4>0.0;
+g_logscale=pow(10.0,(slider4<1 ? slider4: slider4*4.0-3.0));
+pixels_per_frame = slider6;
+@block
+ifftsize=1/fftsize;
+@sample
+recpos[]=(spl0+spl1);
+recpos+=1;
+reccnt+=1;
+recpos >= histsize ? recpos=0;
+@gfx 640 400
+gfx_ext_retina>1 ? gfx_setfont(1,"Arial",16*gfx_ext_retina,'b') : gfx_setfont(0);
+old_w != gfx_w || old_h!=gfx_h? (
+  small_mode = gfx_w<200 || gfx_h<200;
+  cur_xpos=0;
+  old_w=gfx_w; old_h=gfx_h;
+  gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+  gfx_x=gfx_y=0;
+  gfx_rectto(gfx_w,gfx_h);
+  need_button_refs=1;
+);
+use_h = small_mode ? gfx_h : (gfx_h-gfx_texth - 4);
+function calc_color(mv, col*) globals(over24)
+(
+  col.r=col.g=col.b=0;
+  mv <= -96  ?
+  (
+    mv>-168 ? (
+      mv <= -144 ? ( col.b = (mv+168)*over24*0.25) :
+      mv <= -120 ? ( col.g = (mv+144)*over24*0.25; col.b = 0.25; ) :
+                   ( col.g=0.25+(mv+120)*over24*0.5; col.b = 0.25-(mv+120)*over24*0.25)
+    );
+  ) : (
+    mv <= -72 ? ( col.r = (mv+96)*over24; col.g = 0.75; ) :
+    mv <= -48 ? ( col.r = 1; col.g = 0.75-(mv+72)*over24*0.75; ) :
+    mv <= -24 ? ( col.r = 1; col.b = (mv+48)*over24; ) :
+    mv <= 0 ? ( col.r=col.b=1; col.g=(mv+24)*over24; ) :
+      col.r=col.g=col.b=1;
+  );
+);
+function draw_button(xp, yp, str) instance(w,h,x,y)
+   globals(g_button_right_extent,gfx_r,gfx_g,gfx_b,gfx_x,gfx_y,gfx_w)
+(
+  gfx_measurestr(str, w, h);
+  x=xp;
+  y=yp;
+  gfx_r=gfx_g=0;
+  gfx_b=0.75;
+  w+=3;
+  h+=3;
+  gfx_rect(x,y,w,h);
+  gfx_b=1.0;
+  gfx_g=0.5;
+  gfx_line(x,y,x+w,y);
+  gfx_line(x+w,y,x+w,y+h);
+  gfx_line(x,y+h,x+w,y+h);
+  gfx_line(x,y,x,y+h);
+  h+=1;
+  w+=1;
+  gfx_x=xp+2; gfx_y=yp+2;
+  gfx_drawstr(str);
+  g_button_right_extent = gfx_x + 2;
+);
+function hit_button(xp,yp,cv)
+instance(w,h,x,y)
+globals(cap_mode, cap_last_x, cap_last_y)
+(
+  xp>=x&&yp>=y&&xp<x+w&&yp<y+h  ? (
+    cap_last_x = xp;
+    cap_last_y = yp;
+    cap_mode = cv;
+  );
+);
+(mouse_cap & 1) && !small_mode ? (
+  !(last_mouse_cap & 1) ? (
+    cap_mode=0;
+    scroll_button.hit_button(mouse_x,mouse_y,-1) ? (
+      slider5=!slider5;
+      sliderchange(slider5);
+      need_button_refs=1;
+    ) : (
+      gate_button.hit_button(mouse_x,mouse_y,1)||
+      curve_button.hit_button(mouse_x,mouse_y,2) ||
+      fft_button.hit_button(mouse_x,mouse_y,3) ||
+      rate_button.hit_button(mouse_x,mouse_y,5) ||
+      window_button.hit_button(mouse_x,mouse_y,4);
+    );
+  );
+  cap_mode == 1  && cap_last_y != mouse_y ? (
+    slider3 = min(max(slider3 + 0.1 * (cap_last_y-mouse_y),-180),6.0);
+    minvol=10^(slider3/20*2);
+    cap_last_y=mouse_y;
+    need_button_refs=1;
+    slider_automate(slider3);
+  );
+  cap_mode == 2  && cap_last_y != mouse_y ? (
+    slider4 = min(max(slider4 + 0.005 * (cap_last_y-mouse_y),0.0),10.0);
+    cap_last_y=mouse_y;
+    islogmode = slider4>0.0;
+    g_logscale=pow(10.0,(slider4<1 ? slider4: slider4*4.0-3.0));
+    need_button_refs=1;
+    slider_automate(slider4);
+  );
+  cap_mode == 3 && cap_last_y != mouse_y ? (
+    slider1 = min(max(slider1 + (cap_last_y-mouse_y)*.1,0.0),11.0);
+    fftsize=2^((slider1|0)+4);
+    cap_last_y=mouse_y;
+    need_button_refs=1;
+    slider_automate(slider1);
+  );
+  cap_mode == 4 && cap_last_y != mouse_y ? (
+    slider2 = min(max(slider2 + (cap_last_y-mouse_y)*.01,0.0),3.0);
+    cap_last_y=mouse_y;
+    need_button_refs=1;
+    slider_automate(slider2);
+  );
+  cap_mode == 5 && cap_last_y != mouse_y ? (
+    slider6 = min(max(slider6 + (cap_last_y-mouse_y)*.1,1.0),40.0)|0;
+    pixels_per_frame = slider6;
+    cap_last_y=mouse_y;
+    need_button_refs=1;
+    slider_automate(slider6);
+  );
+);
+(mouse_cap == 0 && last_mouse_cap == 2) ? (
+  gfx_x=mouse_x;
+  gfx_y=mouse_y;
+  sprintf(#menustr,"%sScroll",slider5?"!":"");
+  i=0;
+  sprintf(#menustr,"%s|>FFT size",#menustr);
+  loop(12,
+    sprintf(#menustr,"%s|%s%d",#menustr,(slider1|0)==i ?"!":"", 16<<i);
+    i+=1;
+  );
+  sprintf(#menustr,"%s|<",#menustr);
+  sprintf(#menustr,"%s|>Window|%sRectangular|%sHamming|%sBlackman-Harris|%sBlackman|<",
+    #menustr,slider2==0?"!":"",slider2==1?"!":"", slider2==2?"!":"", slider2==3?"!":"");
+  sprintf(#menustr,"%s|>Rate",#menustr);
+  i=1;
+  loop(8,
+    sprintf(#menustr,"%s|%s%d",#menustr,(slider6|0)==i ?"!":"", i);
+    i+=1;
+  );
+  sprintf(#menustr,"%s|<",#menustr);
+  ret = gfx_showmenu(#menustr);
+  ret > 0 ? (
+    ret == 1 ? (slider5=!slider5) :
+    (ret-=2) < 12 ? (slider1 = ret; ):
+    (ret-=12) < 4 ? (slider2 = ret; ):
+    (ret-=4) < 8 ? (pixels_per_frame = slider6 = ret+1; );
+  );
+  need_button_refs=1;
+);
+last_mouse_cap = mouse_cap;
+need_button_refs && !small_mode ? (
+  need_button_refs=0;
+  gfx_a=1;
+  gfx_r=gfx_g=gfx_b=0;
+  gfx_rect(0,use_h,gfx_w,gfx_h-use_h);
+  gfx_x=0;
+  is_extra_small = gfx_w<550;
+  is_small = gfx_w<640;
+  g_button_right_extent = 0;
+  scroll_button.draw_button(gfx_x, use_h, sprintf(#,"[%s]%s",slider5 ?"x":" ",is_extra_small?"scr":" scroll"));
+  fft_button.draw_button(gfx_x+8,use_h, sprintf(#,"%s%d",is_extra_small?"F:":"FFT: ",16<<slider1));
+  window_button.draw_button(gfx_x+8,use_h,
+     is_small ? (
+       (slider2|0)==1?"hamm":
+          (slider2|0)==2?"bm-h":
+          (slider2|0)==3?"bman":"rect"
+     ) :
+     (slider2|0)==1?"hamming":
+     (slider2|0)==2?"blackman-harris":
+     (slider2|0)==3?"blackman":"rectangular");
+  rate_button.draw_button(gfx_x+8,use_h, sprintf(#,"%s%d",is_extra_small?"r:":"rate: ",slider6));
+  curve_button.draw_button(gfx_x+8,use_h, sprintf(#,"%s%.1f",is_small?"c:":"curve: ",slider4));
+  gfx_w  < 430 ? gate_button.w = 0 :
+    gate_button.draw_button(gfx_x+8,use_h, sprintf(#,"%s%.1fdB",is_small?"g:":"gate: ",slider3));
+);
+reccnt>0 ? (
+  amt = min(reccnt,histsize*2);
+  reccnt=0;
+  drecpos = amt/pixels_per_frame;
+  lrecpos = recpos - amt;
+  draw_pos=0;
+  loop(pixels_per_frame,
+  windowsize != fftsize || windowtype != (slider2|0) ? (
+    windowtype=slider2|0;
+    windowsize=fftsize;
+    i=0;
+    dwindowpos = $pi*2/fftsize;
+    windowpos=0;
+    pwr=0;
+    loop(fftsize*.5+1,
+       pwr += (window[i] =  (
+         windowtype==1 ? 0.53836 - cos(windowpos)*0.46164 :
+         windowtype==2 ? 0.35875 - 0.48829 * cos(windowpos) + 0.14128 * cos(2*windowpos) - 0.01168 * cos(3*windowpos) :
+         windowtype==3 ? 0.42 - 0.50 * cos(windowpos) + 0.08 * cos(2.0*windowpos) :
+          1.0));
+       windowpos+=dwindowpos;
+       i+=1;
+    );
+    pwr=1.0/(pwr*2-window[i-1]);
+    loop(fftsize,window[i-=1]*=pwr; );
+  );
+  lrecpos += drecpos;
+  buf1=(lrecpos|0)-fftsize;
+  buf1<0 ? buf1+=histsize;
+  buf2=window;
+  buf3=fftworkspace;
+  loop(fftsize*.5+1,
+    buf3[] = buf1[]*buf2[];
+    buf3[1]=0;
+    buf3+=2;
+    buf2+=1;
+    (buf1+=1) >= histsize ? buf1 -= histsize;
+  );
+  buf2-=1;
+  loop(fftsize*.5-1,
+    buf3[] = buf1[]*(buf2-=1)[];
+    buf3[1]=0;
+    buf3+=2;
+    (buf1+=1) >= histsize ? buf1 -= histsize;
+  );
+  fft(fftworkspace,fftsize);
+  fft_permute(fftworkspace,fftsize);
+  lfftpos=0;
+  i=0;
+  lscale=10/log(10);
+  !(mouse_cap&1) || cap_mode>0 ? (
+   slider5 ? (
+     gfx_a=1;
+     cur_xpos = gfx_w-1-pixels_per_frame+draw_pos;
+     draw_pos==0?
+       gfx_blit(-1,pixels_per_frame,0, pixels_per_frame,0,gfx_w-pixels_per_frame,use_h, 0,0,gfx_w-pixels_per_frame,use_h);
+   ) : (
+     gfx_a=0.1;
+     gfx_x=cur_xpos+1;
+     gfx_y=0;
+     gfx_r=gfx_g=gfx_b=0;
+     gfx_rectto(cur_xpos+20,use_h);
+     cur_xpos+20 > gfx_w ? (
+       gfx_x=0;
+       gfx_y=0;
+       gfx_rectto(cur_xpos+20-gfx_w,use_h);
+     );
+   );
+   uselm = islogmode;
+   sc = (uselm ? (1.0/log(1+g_logscale)) : (1.0/use_h)) * 0.5*fftsize;
+   sc2=g_logscale/use_h;
+   loop(use_h,
+    tpos = (uselm ? ((fftsize*0.5 - 1 - log(1+(use_h-1-i)*sc2)*sc)) : i*sc)|0;
+    tpos >= fftsize*0.5 ? tpos=fftsize*0.5;
+    lfftpos >= tpos ? ( lfftpos=tpos-1; );
+    mv=0;
+    loop(tpos-lfftpos,
+      usei = max(lfftpos,0)*2;
+      aa=fftworkspace[usei];
+      bb=fftworkspace[usei+1];
+      dv=aa*aa+bb*bb;
+      dv<0.00000000000000000000001 ? dv=0.0000000000000000000000001;
+      dv>mv?mv=dv;
+      lfftpos+=1;
+    );
+    mv=mv <= minvol ? -200 : log(mv)*lscale;
+    gfx_x=cur_xpos;
+    gfx_y=use_h-i-1;
+    gfx_a=1;
+    calc_color(mv,drawc);
+    gfx_setpixel(drawc.r,drawc.g,drawc.b);
+    i+=1;
+  );
+  cur_xpos+=1;
+  cur_xpos >= gfx_w ? cur_xpos=0;
+  draw_pos+=1;
+  );
+  );
+);
+gfx_x=g_button_right_extent;
+gfx_y=use_h;
+gfx_r=gfx_g=gfx_b=0;
+gfx_a=1;
+gfx_rectto(gfx_w,gfx_h);
+mouse_x >=0 && mouse_x < gfx_w  &&
+mouse_y >= 0 && mouse_y < use_h ? (
+  !(mouse_cap&1) ? mb=-169;
+  bla=0;
+  loop(9,
+    gfx_x=mouse_x - 1 + (bla%3);
+    gfx_y=mouse_y - 1 + (bla/3);
+    gfx_getpixel(r,g,b);
+    r||g||b ?
+    (
+      val = i = -169;
+      bestdist = 10000000000;
+      while (i<=0)
+      (
+        calc_color(i,tmp);
+        dist = sqr(tmp.r-r)+sqr(tmp.g-g)+sqr(tmp.b-b);
+        dist < bestdist ? ( val=i; bestdist=dist; );
+        i+=1;
+      );
+      mb = max(mb,val);
+    );
+    bla+=1;
+  );
+  (
+    disp_hz=mouse_y/use_h;
+    islogmode ? (
+      disp_hz = log(1+disp_hz*g_logscale)/log(1+g_logscale);
+    );
+    sprintf(#infostr,"%.0fHz",(1-disp_hz)*srate*0.5);
+    mb > -168 ? (
+     sprintf(#infostr, "%s %.1fdB",#infostr,mb);
+    ) : (
+     #infostr += " -oodB";
+    );
+    gfx_measurestr(#infostr,wid,0);
+    gfx_x=max(gfx_w-wid,g_button_right_extent+4);
+    gfx_y=use_h + 2;
+    gfx_r=gfx_g=gfx_b=1;
+    gfx_drawstr(#infostr);
+  );
+);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/hpflpf ADDED Viewed

	@@ -0,0 +1,171 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc:RBJ Highpass/Lowpass Filters
+desc:RBJ Highpass/Lowpass Filters [Stillwell]
+//tags: filter
+//author: Stillwell
+slider1:0<0,1000,10>HPF
+slider2:22000<1000,22000,100>LPF
+slider3:0<-20,20,0.1>Gain
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  hpf = 0;
+  gain1 = 0;
+  freq1 = slider1;
+  a1 = 1;
+  s1 = 1;
+  q1 = 1 / (sqrt((a1 + 1/a1)*(1/s1 - 1) + 2));
+  w01 = 2 * $pi * freq1/srate;
+  cosw01 = cos(w01);
+  sinw01 = sin(w01);
+  alpha1 = sinw01 / (2 * q1);
+  b01 = (1 + cosw01)/2;
+  b11 = -(1 + cosw01);
+  b21 = (1 + cosw01)/2;
+  a01 = 1 + alpha1;
+  a11 = -2 * cosw01;
+  a21 = 1 - alpha1;
+  b01 /= a01;
+  b11 /= a01;
+  b21 /= a01;
+  a11 /= a01;
+  a21 /= a01;
+  lpf = 0;
+  gain3 = 0;
+  freq3 = 22000;
+  a3 = 10^(gain3/40);
+  s3 = 2;
+  q3 = 1 / (sqrt((a3 + 1/a3)*(1/s3 - 1) + 2));
+  w03 = 2 * $pi * freq3/srate;
+  cosw03 = cos(w03);
+  sinw03 = sin(w03);
+  alpha3 = sinw03 / (2 * q3);
+  b03 = (1 - cosw03)/2;
+  b13 = (1 - cosw03);
+  b23 = (1 - cosw03)/2;
+  a03 = 1 + alpha3;
+  a13 = -2 * cosw03;
+  a23 = 1 - alpha3;
+  b03 /= a03;
+  b13 /= a03;
+  b23 /= a03;
+  a13 /= a03;
+  a23 /= a03;
+  gain = 1;
+@slider
+  freq1 = slider1;
+  freq3 = slider2;
+  gain = 10^(slider3/20);
+  slider1 == 0 ? hpf = 0 : hpf = 1;
+  slider2 == 22000 ? lpf = 0 : lpf = 1;
+  a1 = 1;
+  s1 = 1;
+  q1 = 1 / (sqrt((a1 + 1/a1)*(1/s1 - 1) + 2));
+  w01 = 2 * $pi * freq1/srate;
+  cosw01 = cos(w01);
+  sinw01 = sin(w01);
+  alpha1 = sinw01 / (2 * q1);
+  b01 = (1 + cosw01)/2;
+  b11 = -(1 + cosw01);
+  b21 = (1 + cosw01)/2;
+  a01 = 1 + alpha1;
+  a11 = -2 * cosw01;
+  a21 = 1 - alpha1;
+  b01 /= a01;
+  b11 /= a01;
+  b21 /= a01;
+  a11 /= a01;
+  a21 /= a01;
+  a3 = 1;
+  s3 = 1;
+  q3 = 1 / (sqrt((a3 + 1/a3)*(1/s3 - 1) + 2));
+  w03 = 2 * $pi * freq3/srate;
+  cosw03 = cos(w03);
+  sinw03 = sin(w03);
+  alpha3 = sinw03 / (2 * q3);
+  b03 = (1 - cosw03)/2;
+  b13 = (1 - cosw03);
+  b23 = (1 - cosw03)/2;
+  a03 = 1 + alpha3;
+  a13 = -2 * cosw03;
+  a23 = 1 - alpha3;
+  b03 /= a03;
+  b13 /= a03;
+  b23 /= a03;
+  a13 /= a03;
+  a23 /= a03;
+@sample
+  hpf != 0 ? (
+  ospl0 = spl0;
+  spl0 = b01 * spl0 + b11 * xl11 + b21 * xl21 - a11 * yl11 - a21 * yl21;
+  xl21 = xl11;
+  xl11 = ospl0;
+  yl21 = yl11;
+  yl11 = spl0;
+  ospl1 = spl1;
+  spl1 = b01 * spl1 + b11 * xr11 + b21 * xr21 - a11 * yr11 - a21 * yr21;
+  xr21 = xr11;
+  xr11 = ospl1;
+  yr21 = yr11;
+  yr11 = spl1;
+  );
+  lpf != 0 ? (
+  ospl0 = spl0;
+  spl0 = b03 * spl0 + b13 * xl13 + b23 * xl23 - a13 * yl13 - a23 * yl23;
+  xl23 = xl13;
+  xl13 = ospl0;
+  yl23 = yl13;
+  yl13 = spl0;
+  ospl1 = spl1;
+  spl1 = b03 * spl1 + b13 * xr13 + b23 * xr23 - a13 * yr13 - a23 * yr23;
+  xr23 = xr13;
+  xr13 = ospl1;
+  yr23 = yr13;
+  yr13 = spl1;
+  );
+  spl0 *= gain;
+  spl1 *= gain;

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/hugebooty ADDED Viewed

	@@ -0,0 +1,180 @@

+// Copyright 2007, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+desc: Huge Booty Bass Enhancer
+desc: Huge Booty Bass Enhancer [Stillwell]
+//tags: processing saturation
+//author: Stillwell
+slider1:0<0,100,0.1>Mix (%)
+slider2:0<0,100,0.1>Drive (%)
+slider3:100<20,200,1>Frequency (Hz)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  gain1 = 0;
+  freq1 = freq;
+  a1 = 1;
+  s1 = 1;
+  q1 = 1 / (sqrt((a1 + 1/a1)*(1/s1 - 1) + 2));
+  w01 = 2 * $pi * freq1/srate;
+  cosw01 = cos(w01);
+  sinw01 = sin(w01);
+  alpha1 = sinw01 / (2 * q1);
+  b01 = (1 - cosw01)/2;
+  b11 = (1 - cosw01);
+  b21 = (1 - cosw01)/2;
+  a01 = 1 + alpha1;
+  a11 = -2 * cosw01;
+  a21 = 1 - alpha1;
+  b01 /= a01;
+  b11 /= a01;
+  b21 /= a01;
+  a11 /= a01;
+  a21 /= a01;
+  gain3 = 0;
+  freq3 = freq;
+  a3 = 10^(gain3/40);
+  s3 = 1;
+  q3 = 1 / (sqrt((a3 + 1/a3)*(1/s3 - 1) + 2));
+  w03 = 2 * $pi * freq3/srate;
+  cosw03 = cos(w03);
+  sinw03 = sin(w03);
+  alpha3 = sinw03 / (2 * q3);
+  b03 = (1 + cosw03)/2;
+  b13 = -(1 + cosw03);
+  b23 = (1 + cosw03)/2;
+  a03 = 1 + alpha3;
+  a13 = -2 * cosw03;
+  a23 = 1 - alpha3;
+  b03 /= a03;
+  b13 /= a03;
+  b23 /= a03;
+  a13 /= a03;
+  a23 /= a03;
+@slider
+  mix=(slider1 * 1.5) / 100;
+  drive=slider2 / 100;
+  mix1 = 1 - mix;
+  drive1 = 1 / (1 - (drive / 2));
+  drive2 = drive / 2;
+  freq = slider3;
+  gain1 = 0;
+  freq1 = freq;
+  a1 = 1;
+  s1 = 1;
+  q1 = 1 / (sqrt((a1 + 1/a1)*(1/s1 - 1) + 2));
+  w01 = 2 * $pi * freq1/srate;
+  cosw01 = cos(w01);
+  sinw01 = sin(w01);
+  alpha1 = sinw01 / (2 * q1);
+  b01 = (1 - cosw01)/2;
+  b11 = (1 - cosw01);
+  b21 = (1 - cosw01)/2;
+  a01 = 1 + alpha1;
+  a11 = -2 * cosw01;
+  a21 = 1 - alpha1;
+  b01 /= a01;
+  b11 /= a01;
+  b21 /= a01;
+  a11 /= a01;
+  a21 /= a01;
+  gain3 = 0;
+  freq3 = freq;
+  a3 = 10^(gain3/40);
+  s3 = 1;
+  q3 = 1 / (sqrt((a3 + 1/a3)*(1/s3 - 1) + 2));
+  w03 = 2 * $pi * freq3/srate;
+  cosw03 = cos(w03);
+  sinw03 = sin(w03);
+  alpha3 = sinw03 / (2 * q3);
+  b03 = (1 + cosw03)/2;
+  b13 = -(1 + cosw03);
+  b23 = (1 + cosw03)/2;
+  a03 = 1 + alpha3;
+  a13 = -2 * cosw03;
+  a23 = 1 - alpha3;
+  b03 /= a03;
+  b13 /= a03;
+  b23 /= a03;
+  a13 /= a03;
+  a23 /= a03;
+@sample
+  dry0 = spl0;
+  dry1 = spl1;
+  //lpf to extract bass signal
+  ospl0 = dry0;
+  dry0 = b01 * dry0 + b11 * xl11 + b21 * xl21 - a11 * yl11 - a21 * yl21;
+  xl21 = xl11;
+  xl11 = ospl0;
+  yl21 = yl11;
+  yl11 = dry0;
+  ospl1 = dry1;
+  dry1 = b01 * dry1 + b11 * xr11 + b21 * xr21 - a11 * yr11 - a21 * yr21;
+  xr21 = xr11;
+  xr11 = ospl1;
+  yr21 = yr11;
+  yr11 = dry1;
+  //enhance bass signal
+  wet0 = drive1 * dry0 * (1 - abs(dry0 * drive2));
+  wet1 = drive1 * dry1 * (1 - abs(dry1 * drive2));
+  //hpf to isolate enhance signal
+  ospl0 = wet0;
+  wet0 = b03 * wet0 + b13 * xl13 + b23 * xl23 - a13 * yl13 - a23 * yl23;
+  xl23 = xl13;
+  xl13 = ospl0;
+  yl23 = yl13;
+  yl13 = wet0;
+  ospl1 = wet1;
+  wet1 = b03 * wet1 + b13 * xr13 + b23 * xr23 - a13 * yr13 - a23 * yr23;
+  xr23 = xr13;
+  xr13 = ospl1;
+  yr23 = yr13;
+  yr13 = wet1;
+  spl0 = spl0 + (mix) * wet0;
+  spl1 = spl1 + (mix) * wet1;

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/masterLimiter ADDED Viewed

	@@ -0,0 +1,89 @@

+// (C) 2006, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+desc:Master Limiter
+//tags: dynamics limiter
+//author: LOSER
+slider1:-3<-20,-.1,.1>Threshold (dB)
+slider2:200<0,1000,1>Look Ahead (�s)
+slider3:100<0,1000,1>Attack (�s)
+slider4:0<0,10,.1>Hold (ms)
+slider5:250<0,1000,1>Release (ms)
+slider6:-.1<-6,0,.01>Limit (dB)
+slider7:0,Reduction
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+gain = seekgain = 1;
+c_ampdB = 8.65617025;
+@slider
+treshdB = min(slider1,-.1);
+tresh = exp(treshdB/c_ampdB);
+treshdB == -.1 ? (gain = seekgain = 1; );
+look = floor(max( min( slider2/1000000*srate , 500000) , 1));
+attack = exp( -treshdB/max( slider3/1000000*srate , 0) / c_ampdB  ) ;
+hold = slider4/1000*srate;
+under_tresh = 0;
+release = exp( -treshdB/max( slider5/1000*srate , 0) / c_ampdB ) ;
+limit = exp(slider6/c_ampdB);
+mode_make_up = 1;
+volume = limit / (mode_make_up ? tresh : 1);
+seekgain = 1;
+@sample
+detect = max(abs(spl0),abs(spl1));
+bufPos[0] = spl0;
+bufPos[look] = spl1;
+(bufPos += 1) >= look ? bufPos = 0 ;
+spl0 = bufPos[0];
+spl1 = bufPos[look];
+// Prevent From Preopening, I Know There Might Be Transients In Between, But Fuck'Em :/
+detect = max(max(abs(spl0),abs(spl1)),detect);
+detect > tresh ? (
+    under_tresh = 0;
+    hold ? seekgain = min( tresh/detect ,seekgain ) : seekgain = tresh/detect;
+):(
+    (under_tresh+=1)>hold ? (seekgain = 1; );
+);
+gain > seekgain ? gain=max(gain/attack,seekgain):gain=min(gain*release,seekgain);
+spl0 *= gain * volume;
+spl1 *= gain * volume;
+// Prevent From Unecessary Distortion, Better Distort Just Once Even Tho Hard :)
+max(abs(spl0),abs(spl1)) > limit ? gain = seekgain; // Uber Nifty Metering For This Doesn't Work :(
+spl0 = max(min(spl0,limit),-limit);
+spl1 = max(min(spl1,limit),-limit);
+slider7 = log(gain)*c_ampdB;
+sliderchange(64);

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/rbj12eq-teej ADDED Viewed

	@@ -0,0 +1,683 @@

+// Copyright 2006, Thomas Scott Stillwell
+// 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.
+//
+//The name of Thomas Scott Stillwell may not be used to endorse or
+//promote products derived from this software without specific prior written permission.
+//
+//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 OWNER 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.
+//
+//
+//This modified version of the most excellent SS:rbj7eq is presented by TJ Higley.
+//Last modified: 2:36 PM, 2/18/07
+//
+//The frequency of the low shelf filter is customizable by modifying 'lowshelffreq' in line 52.
+//The frequency of each slider is customizable by modifying 'sliderXfreq' in lines 53 - 64. If you change these,
+//be sure to change the label in lines 36 - 51!  :)
+//The Q value of each slider is customizable by modifying 'sliderQ' in lines 65 - 76.
+desc:RBJ 12-Band EQ w/HPF
+//tags: equalizer filter
+//author: teej
+// based on RBJ Filter Cookbook
+slider1:0<0,400,5>HPF (dB)
+slider2:0<-12,12,0.1>Low Shelf (dB)
+slider3:0<-12,12,0.5>80 Hz (dB)
+slider4:0<-12,12,0.5>150 Hz (dB)
+slider5:0<-12,12,0.5>250 Hz (dB)
+slider6:0<-12,12,0.5>400 Hz (dB)
+slider7:0<-12,12,0.5>630 Hz (dB)
+slider8:0<-12,12,0.5>800 Hz (dB)
+slider9:0<-12,12,0.5>1.6 kHz (dB)
+slider10:0<-12,12,0.5>3 kHz (dB)
+slider11:0<-12,12,0.5>5 kHz (dB)
+slider12:0<-12,12,0.5>7 kHz (dB)
+slider13:0<-12,12,0.5>10 kHz (dB)
+slider14:0<-12,12,0.5>12 kHz (dB)
+slider15:22000<400,22000,5>LPF (dB)
+slider16:0<-12,12,0.5>Output Gain (dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  lowshelffreq = 110;
+  slider3freq = 80;
+  slider4freq = 150;
+  slider5freq = 250;
+  slider6freq = 400;
+  slider7freq = 630;
+  slider8freq = 800;
+  slider9freq = 1600;
+  slider10freq = 3000;
+  slider11freq = 5000;
+  slider12freq = 7000;
+  slider13freq = 10000;
+  slider14freq = 12000;
+  slider3Q = 1;
+  slider4Q = 1;
+  slider5Q = 1;
+  slider6Q = 1;
+  slider7Q = 1;
+  slider8Q = 1;
+  slider9Q = 1;
+  slider10Q = 1;
+  slider11Q = 1;
+  slider12Q = 1;
+  slider13Q = 1;
+  slider14Q = 1;
+cDcAdd = 10^-30;
+cDenorm = 10^-30;
+@slider
+  gain = 10^(slider16/20);
+  aHPF = 1;
+  sHPF = 1;
+  qHPF = 1 / (sqrt((aHPF + 1/aHPF)*(1/sHPF - 1) + 2));
+  w0HPF = 2 * $pi * slider1/srate;
+  cosw0HPF = cos(w0HPF);
+  sinw0HPF = sin(w0HPF);
+  alphaHPF = sinw0HPF / (2 * qHPF);
+  b0HPF = (1 + cosw0HPF)/2;
+  b1HPF = -(1 + cosw0HPF);
+  b2HPF = (1 + cosw0HPF)/2;
+  a0HPF = 1 + alphaHPF;
+  a1HPF = -2 * cosw0HPF;
+  a2HPF = 1 - alphaHPF;
+  b0HPF /= a0HPF;
+  b1HPF /= a0HPF;
+  b2HPF /= a0HPF;
+  a1HPF /= a0HPF;
+  a2HPF /= a0HPF;
+  aLS = 10^(slider2/40);
+  sLS = 2;
+  qLS = 1 / (sqrt((aLS + 1/aLS)*(1/sLS - 1) + 2));
+  w0LS = 2 * $pi * lowshelffreq/srate;
+  cosw0LS = cos(w0LS);
+  sinw0LS = sin(w0LS);
+  alphaLS = sinw0LS / (2 * qLS);
+  b0LS = aLS * ((aLS+1) - (aLS-1)*cosw0LS + 2*sqrt(aLS)*alphaLS);
+  b1LS = 2 * aLS * ((aLS-1) - (aLS+1)*cosw0LS);
+  b2LS = aLS * ((aLS+1) - (aLS-1)*cosw0LS - 2*sqrt(aLS)*alphaLS);
+  a0LS = (aLS+1) + (aLS-1)*cosw0LS + 2*sqrt(aLS)*alphaLS;
+  a1LS = -2 * ((aLS-1) + (aLS+1)*cosw0LS);
+  a2LS = (aLS+1)+(aLS-1)*cosw0LS-2*sqrt(aLS)*alphaLS;
+  b0LS /= a0LS;
+  b1LS /= a0LS;
+  b2LS /= a0LS;
+  a1LS /= a0LS;
+  a2LS /= a0LS;
+  qC = slider3Q;
+  aC = 10^(slider3/40);
+  w0C = 2 * $pi * slider3freq/srate;
+  cosw0C = cos(w0C);
+  sinw0C = sin(w0C);
+  alphaC = sinw0C / (2 * qC);
+  b0C = 1 + alphaC * aC;
+  b1C = -2 * cosw0C;
+  b2C = 1 - alphaC * aC;
+  a0C = 1 + alphaC / aC;
+  a1C = -2 * cosw0C;
+  a2C = 1 - alphaC / aC;
+  b0C /= a0C;
+  b1C /= a0C;
+  b2C /= a0C;
+  a1C /= a0C;
+  a2C /= a0C;
+  qD = slider4Q;
+  aD = 10^(slider4/40);
+  w0D = 2 * $pi * slider4freq/srate;
+  cosw0D = cos(w0D);
+  sinw0D = sin(w0D);
+  alphaD = sinw0D / (2 * qD);
+  b0D = 1 + alphaD * aD;
+  b1D = -2 * cosw0D;
+  b2D = 1 - alphaD * aD;
+  a0D = 1 + alphaD / aD;
+  a1D = -2 * cosw0D;
+  a2D = 1 - alphaD / aD;
+  b0D /= a0D;
+  b1D /= a0D;
+  b2D /= a0D;
+  a1D /= a0D;
+  a2D /= a0D;
+  qE = slider5Q;
+  aE = 10^(slider5/40);
+  w0E = 2 * $pi * slider5freq/srate;
+  cosw0E = cos(w0E);
+  sinw0E = sin(w0E);
+  alphaE = sinw0E / (2 * qE);
+  b0E = 1 + alphaE * aE;
+  b1E = -2 * cosw0E;
+  b2E = 1 - alphaE * aE;
+  a0E = 1 + alphaE / aE;
+  a1E = -2 * cosw0E;
+  a2E = 1 - alphaE / aE;
+  b0E /= a0E;
+  b1E /= a0E;
+  b2E /= a0E;
+  a1E /= a0E;
+  a2E /= a0E;
+  qF = slider6Q;
+  aF = 10^(slider6/40);
+  w0F = 2 * $pi * slider6freq/srate;
+  cosw0F = cos(w0F);
+  sinw0F = sin(w0F);
+  alphaF = sinw0F / (2 * qF);
+  b0F = 1 + alphaF * aF;
+  b1F = -2 * cosw0F;
+  b2F = 1 - alphaF * aF;
+  a0F = 1 + alphaF / aF;
+  a1F = -2 * cosw0F;
+  a2F = 1 - alphaF / aF;
+  b0F /= a0F;
+  b1F /= a0F;
+  b2F /= a0F;
+  a1F /= a0F;
+  a2F /= a0F;
+  qG = slider7Q;
+  aG = 10^(slider7/40);
+  w0G = 2 * $pi * slider7freq/srate;
+  cosw0G = cos(w0G);
+  sinw0G = sin(w0G);
+  alphaG = sinw0G / (2 * qG);
+  b0G = 1 + alphaG * aG;
+  b1G = -2 * cosw0G;
+  b2G = 1 - alphaG * aG;
+  a0G = 1 + alphaG / aG;
+  a1G = -2 * cosw0G;
+  a2G = 1 - alphaG / aG;
+  b0G /= a0G;
+  b1G /= a0G;
+  b2G /= a0G;
+  a1G /= a0G;
+  a2G /= a0G;
+  qH = slider8Q;
+  aH = 10^(slider8/40);
+  w0H = 2 * $pi * slider8freq/srate;
+  cosw0H = cos(w0H);
+  sinw0H = sin(w0H);
+  alphaH = sinw0H / (2 * qH);
+  b0H = 1 + alphaH * aH;
+  b1H = -2 * cosw0H;
+  b2H = 1 - alphaH * aH;
+  a0H = 1 + alphaH / aH;
+  a1H = -2 * cosw0H;
+  a2H = 1 - alphaH / aH;
+  b0H /= a0H;
+  b1H /= a0H;
+  b2H /= a0H;
+  a1H /= a0H;
+  a2H /= a0H;
+  qI = slider9Q;
+  aI = 10^(slider9/40);
+  w0I = 2 * $pi * slider9freq/srate;
+  cosw0I = cos(w0I);
+  sinw0I = sin(w0I);
+  alphaI = sinw0I / (2 * qI);
+  b0I = 1 + alphaI * aI;
+  b1I = -2 * cosw0I;
+  b2I = 1 - alphaI * aI;
+  a0I = 1 + alphaI / aI;
+  a1I = -2 * cosw0I;
+  a2I = 1 - alphaI / aI;
+  b0I /= a0I;
+  b1I /= a0I;
+  b2I /= a0I;
+  a1I /= a0I;
+  a2I /= a0I;
+  qJ = slider10Q;
+  aJ = 10^(slider10/40);
+  w0J = 2 * $pi * slider10freq/srate;
+  cosw0J = cos(w0J);
+  sinw0J = sin(w0J);
+  alphaJ = sinw0J / (2 * qJ);
+  b0J = 1 + alphaJ * aJ;
+  b1J = -2 * cosw0J;
+  b2J = 1 - alphaJ * aJ;
+  a0J = 1 + alphaJ / aJ;
+  a1J = -2 * cosw0J;
+  a2J = 1 - alphaJ / aJ;
+  b0J /= a0J;
+  b1J /= a0J;
+  b2J /= a0J;
+  a1J /= a0J;
+  a2J /= a0J;
+  qK = slider11Q;
+  aK = 10^(slider11/40);
+  w0K = 2 * $pi * slider11freq/srate;
+  cosw0K = cos(w0K);
+  sinw0K = sin(w0K);
+  alphaK = sinw0K / (2 * qK);
+  b0K = 1 + alphaK * aK;
+  b1K = -2 * cosw0K;
+  b2K = 1 - alphaK * aK;
+  a0K = 1 + alphaK / aK;
+  a1K = -2 * cosw0K;
+  a2K = 1 - alphaK / aK;
+  b0K /= a0K;
+  b1K /= a0K;
+  b2K /= a0K;
+  a1K /= a0K;
+  a2K /= a0K;
+  qL = slider12Q;
+  aL = 10^(slider12/40);
+  w0L = 2 * $pi * slider12freq/srate;
+  cosw0L = cos(w0L);
+  sinw0L = sin(w0L);
+  alphaL = sinw0L / (2 * qL);
+  b0L = 1 + alphaL * aL;
+  b1L = -2 * cosw0L;
+  b2L = 1 - alphaL * aL;
+  a0L = 1 + alphaL / aL;
+  a1L = -2 * cosw0L;
+  a2L = 1 - alphaL / aL;
+  b0L /= a0L;
+  b1L /= a0L;
+  b2L /= a0L;
+  a1L /= a0L;
+  a2L /= a0L;
+  qM = slider13Q;
+  aM = 10^(slider13/40);
+  w0M = 2 * $pi * slider13freq/srate;
+  cosw0M = cos(w0M);
+  sinw0M = sin(w0M);
+  alphaM = sinw0M / (2 * qM);
+  b0M = 1 + alphaM * aM;
+  b1M = -2 * cosw0M;
+  b2M = 1 - alphaM * aM;
+  a0M = 1 + alphaM / aM;
+  a1M = -2 * cosw0M;
+  a2M = 1 - alphaM / aM;
+  b0M /= a0M;
+  b1M /= a0M;
+  b2M /= a0M;
+  a1M /= a0M;
+  a2M /= a0M;
+  qN = slider14Q;
+  aN = 10^(slider14/40);
+  w0N = 2 * $pi * slider14freq/srate;
+  cosw0N = cos(w0N);
+  sinw0N = sin(w0N);
+  alphaN = sinw0N / (2 * qN);
+  b0N = 1 + alphaN * aN;
+  b1N = -2 * cosw0N;
+  b2N = 1 - alphaN * aN;
+  a0N = 1 + alphaN / aN;
+  a1N = -2 * cosw0N;
+  a2N = 1 - alphaN / aN;
+  b0N /= a0N;
+  b1N /= a0N;
+  b2N /= a0N;
+  a1N /= a0N;
+  a2N /= a0N;
+  aP = 1;
+  sP = 2;
+  qP = 1 / (sqrt((aP + 1/aP)*(1/sP - 1) + 2));
+  w0P = 2 * $pi * slider15/srate;
+  cosw0P = cos(w0P);
+  sinw0P = sin(w0P);
+  alphaP = sinw0P / (2 * qP);
+  b0P = (1 - cosw0P)/2;
+  b1P = (1 - cosw0P);
+  b2P = (1 - cosw0P)/2;
+  a0P = 1 + alphaP;
+  a1P = -2 * cosw0P;
+  a2P = 1 - alphaP;
+  b0P /= a0P;
+  b1P /= a0P;
+  b2P /= a0P;
+  a1P /= a0P;
+  a2P /= a0P;
+@sample
+  freq0 > 10 ? (
+  ospl0 = spl0;
+  spl0 = b00 * spl0 + b10 * xl10 + b20 * xl20 - a10 * yl10 - a20 * yl20;
+  xl20 = xl10;
+  xl10 = ospl0;
+  yl20 = yl10;
+  yl10 = abs(spl0) < cDenorm ? 0 : spl0 ;
+  ospl1 = spl1;
+  spl1 = b00 * spl1 + b10 * xr10 + b20 * xr20 - a10 * yr10 - a20 * yr20;
+  xr20 = xr10;
+  xr10 = ospl1;
+  yr20 = yr10;
+  yr10 = abs(spl1) < cDenorm ? 0 : spl1 ;
+  );
+  slider1 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0HPF * spl0 + b1HPF * xl1HPF + b2HPF * xl2HPF - a1HPF * yl1HPF - a2HPF * yl2HPF;
+  xl2HPF = xl1HPF;
+  xl1HPF = ospl0;
+  yl2HPF = yl1HPF;
+  yl1HPF = abs(spl0) < cDenorm ? 0 : spl0 ;
+  ospl1 = spl1;
+  spl1 = b0HPF * spl1 + b1HPF * xr1HPF + b2HPF * xr2HPF - a1HPF * yr1HPF - a2HPF * yr2HPF;
+  xr2HPF = xr1HPF;
+  xr1HPF = ospl1;
+  yr2HPF = yr1HPF;
+  yr1HPF = abs(spl1) < cDenorm ? 0 : spl1 ;
+  );
+spl0 += cDcAdd;
+spl1 += cDcAdd;
+  slider2 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0LS * spl0 + b1LS * xl1LS + b2LS * xl2LS - a1LS * yl1LS - a2LS * yl2LS;
+  xl2LS = xl1LS;
+  xl1LS = ospl0;
+  yl2LS = yl1LS;
+  yl1LS = spl0;
+  ospl1 = spl1;
+  spl1 = b0LS * spl1 + b1LS * xr1LS + b2LS * xr2LS - a1LS * yr1LS - a2LS * yr2LS;
+  xr2LS = xr1LS;
+  xr1LS = ospl1;
+  yr2LS = yr1LS;
+  yr1LS = spl1;
+  );
+  slider3 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0C * spl0 + b1C * xl1C + b2C * xl2C - a1C * yl1C - a2C * yl2C;
+  xl2C = xl1C;
+  xl1C = ospl0;
+  yl2C = yl1C;
+  yl1C = spl0;
+  ospl1 = spl1;
+  spl1 = b0C * spl1 + b1C * xr1C + b2C * xr2C - a1C * yr1C - a2C * yr2C;
+  xr2C = xr1C;
+  xr1C = ospl1;
+  yr2C = yr1C;
+  yr1C = spl1;
+  );
+  slider4 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0D * spl0 + b1D * xl1D + b2D * xl2D - a1D * yl1D - a2D * yl2D;
+  xl2D = xl1D;
+  xl1D = ospl0;
+  yl2D = yl1D;
+  yl1D = spl0;
+  ospl1 = spl1;
+  spl1 = b0D * spl1 + b1D * xr1D + b2D * xr2D - a1D * yr1D - a2D * yr2D;
+  xr2D = xr1D;
+  xr1D = ospl1;
+  yr2D = yr1D;
+  yr1D = spl1;
+  );
+  slider5 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0E * spl0 + b1E * xl1E + b2E * xl2E - a1E * yl1E - a2E * yl2E;
+  xl2E = xl1E;
+  xl1E = ospl0;
+  yl2E = yl1E;
+  yl1E = spl0;
+  ospl1 = spl1;
+  spl1 = b0E * spl1 + b1E * xr1E + b2E * xr2E - a1E * yr1E - a2E * yr2E;
+  xr2E = xr1E;
+  xr1E = ospl1;
+  yr2E = yr1E;
+  yr1E = spl1;
+  );
+  slider6 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0F * spl0 + b1F * xl1F + b2F * xl2F - a1F * yl1F - a2F * yl2F;
+  xl2F = xl1F;
+  xl1F = ospl0;
+  yl2F = yl1F;
+  yl1F = spl0;
+  ospl1 = spl1;
+  spl1 = b0F * spl1 + b1F * xr1F + b2F * xr2F - a1F * yr1F - a2F * yr2F;
+  xr2F = xr1F;
+  xr1F = ospl1;
+  yr2F = yr1F;
+  yr1F = spl1;
+  );
+  slider7 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0G * spl0 + b1G * xl1G + b2G * xl2G - a1G * yl1G - a2G * yl2G;
+  xl2G = xl1G;
+  xl1G = ospl0;
+  yl2G = yl1G;
+  yl1G = spl0;
+  ospl1 = spl1;
+  spl1 = b0G * spl1 + b1G * xr1G + b2G * xr2G - a1G * yr1G - a2G * yr2G;
+  xr2G = xr1G;
+  xr1G = ospl1;
+  yr2G = yr1G;
+  yr1G = spl1;
+  );
+  slider8 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0H * spl0 + b1H * xl1H + b2H * xl2H - a1H * yl1H - a2H * yl2H;
+  xl2H = xl1H;
+  xl1H = ospl0;
+  yl2H = yl1H;
+  yl1H = spl0;
+  ospl1 = spl1;
+  spl1 = b0H * spl1 + b1H * xr1H + b2H * xr2H - a1H * yr1H - a2H * yr2H;
+  xr2H = xr1H;
+  xr1H = ospl1;
+  yr2H = yr1H;
+  yr1H = spl1;
+  );
+  slider9 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0I * spl0 + b1I * xl1I + b2I * xl2I - a1I * yl1I - a2I * yl2I;
+  xl2I = xl1I;
+  xl1I = ospl0;
+  yl2I = yl1I;
+  yl1I = spl0;
+  ospl1 = spl1;
+  spl1 = b0I * spl1 + b1I * xr1I + b2I * xr2I - a1I * yr1I - a2I * yr2I;
+  xr2I = xr1I;
+  xr1I = ospl1;
+  yr2I = yr1I;
+  yr1I = spl1;
+  );
+  slider10 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0J * spl0 + b1J * xl1J + b2J * xl2J - a1J * yl1J - a2J * yl2J;
+  xl2J = xl1J;
+  xl1J = ospl0;
+  yl2J = yl1J;
+  yl1J = spl0;
+  ospl1 = spl1;
+  spl1 = b0J * spl1 + b1J * xr1J + b2J * xr2J - a1J * yr1J - a2J * yr2J;
+  xr2J = xr1J;
+  xr1J = ospl1;
+  yr2J = yr1J;
+  yr1J = spl1;
+  );
+  slider11 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0K * spl0 + b1K * xl1K + b2K * xl2K - a1K * yl1K - a2K * yl2K;
+  xl2K = xl1K;
+  xl1K = ospl0;
+  yl2K = yl1K;
+  yl1K = spl0;
+  ospl1 = spl1;
+  spl1 = b0K * spl1 + b1K * xr1K + b2K * xr2K - a1K * yr1K - a2K * yr2K;
+  xr2K = xr1K;
+  xr1K = ospl1;
+  yr2K = yr1K;
+  yr1K = spl1;
+  );
+  slider12 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0L * spl0 + b1L * xl1L + b2L * xl2L - a1L * yl1L - a2L * yl2L;
+  xl2L = xl1L;
+  xl1L = ospl0;
+  yl2L = yl1L;
+  yl1L = spl0;
+  ospl1 = spl1;
+  spl1 = b0L * spl1 + b1L * xr1L + b2L * xr2L - a1L * yr1L - a2L * yr2L;
+  xr2L = xr1L;
+  xr1L = ospl1;
+  yr2L = yr1L;
+  yr1L = spl1;
+  );
+  slider13 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0M * spl0 + b1M * xl1M + b2M * xl2M - a1M * yl1M - a2M * yl2M;
+  xl2M = xl1M;
+  xl1M = ospl0;
+  yl2M = yl1M;
+  yl1M = spl0;
+  ospl1 = spl1;
+  spl1 = b0M * spl1 + b1M * xr1M + b2M * xr2M - a1M * yr1M - a2M * yr2M;
+  xr2M = xr1M;
+  xr1M = ospl1;
+  yr2M = yr1M;
+  yr1M = spl1;
+  );
+  slider14 != 0 ? (
+  ospl0 = spl0;
+  spl0 = b0N * spl0 + b1N * xl1N + b2N * xl2N - a1N * yl1N - a2N * yl2N;
+  xl2N = xl1N;
+  xl1N = ospl0;
+  yl2N = yl1N;
+  yl1N = spl0;
+  ospl1 = spl1;
+  spl1 = b0N * spl1 + b1N * xr1N + b2N * xr2N - a1N * yr1N - a2N * yr2N;
+  xr2N = xr1N;
+  xr1N = ospl1;
+  yr2N = yr1N;
+  yr1N = spl1;
+  );
+  slider15 != 22000 ? (
+  ospl0 = spl0;
+  spl0 = b0P * spl0 + b1P * xl1P + b2P * xl2P - a1P * yl1P - a2P * yl2P;
+  xl2P = xl1P;
+  xl1P = ospl0;
+  yl2P = yl1P;
+  yl1P = spl0;
+  ospl1 = spl1;
+  spl1 = b0P * spl1 + b1P * xr1P + b2P * xr2P - a1P * yr1P - a2P * yr2P;
+  xr2P = xr1P;
+  xr1P = ospl1;
+  yr2P = yr1P;
+  yr1P = spl1;
+  );
+  spl0 *= gain;
+  spl1 *= gain;

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/soft_clipper.jsfx ADDED Viewed

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+// Soft Clipper
+//
+// Based on hyperbolic tangent clipping, it's what some would
+// sell you as gentle tube distortion with warm harmonics. :)
+//
+// The basic idea is to have it both ways round: you can boost a
+// signal into the ceiling, or lower the ceiling onto the signal.
+//
+// Either way, the closer the signal approaches the ceiling, the
+// more it will be pushed down and squashed. The signal will not
+// reach 0 dBfs (*) however hard you push it. This is an instant
+// effect, so there are no attack or release times.
+//
+// Since saturation and soft-clipping can introduce a DC offset,
+// there's an optional DC blocker included that can filter 0 Hz
+// frequency content.
+//
+// Saturation and soft-clipping can also introduce evil aliasing,
+// that's when newly generated harmonics are so high in frequency
+// that they shoot past 22 kHz and could not possibly be handled
+// anymore by the samplerate, so they "fold back" into the lower
+// part of the frequency spectrum where they can cause havoc and
+// destruction by becoming audible, sitting in unharmonic spaces
+// and even cancelling out signal that you actually want to hear.
+//
+// To battle this, I've built in a crude oversampling mechanism.
+// Pick an oversampling factor and a filtering intensity, that's
+// it. Bear in mind that oversampling adds new samples that were
+// not part of the signal before, so your CPU will have to munch
+// through exponentially more samples than without oversampling.
+// Higher oversampling amount = higher CPU load.
+//
+// Processing more samples also means that the filtering that is
+// so essential to oversampling has to run through more samples,
+// which means that even the "relaxed" filtering intensity could
+// become quite heavy to handle at very high oversampling rates
+// on older or weaker machines.
+//
+// The trick is to find a balance between the oversampling ratio
+// and the filtering. Checking with just a sine wave, a ratio of
+// 8x and "normal" or "heavy" filtering would take care of just
+// about any aliasing here in my test setup. But obviously, real
+// music is immensely more complex than a mere sine wave, so you
+// might find that higher ratios or intensities work better in
+// your specific case/s, or that you can maybe get away with far
+// lower settings than me.
+//
+// (*) While the idea of a clipper is to, well, clip the tops off
+//     a signal at a fixed ceiling, unfortunately filtering will
+//     inherently come with an undesirable side-effect: it screws
+//     with the volume. So if you activate oversampling or the DC
+//     blocker, there will be no 0 dBfs ceiling "and not higher"
+//     guarantee anymore, i.e. a hot signal may still shoot above
+//     0 dBfs.
+//
+// To counter this, set the ceiling level low, so you hardly ever
+// see any spikes over 0 dBfs, then activate the hard clipper. As
+// the hard clipper is NOT oversampled, and located behind all of
+// the filters, it will always guarantee true 0 dBfs peak safety.
+//
+// However, it will also cause nasty aliasing and pretty quickly,
+// so make sure you don't boost into it too much. Unless you want
+// to, in that case go right ahead and knock yourself out. :)
+//
+// author: chokehold
+// url:    https://github.com/chkhld/jsfx/
+// tags:   processing gain amplitude clipper distortion saturation
+//
+desc: Soft Clipper
+slider1:dBCeil=0<-48, 0,0.01> Ceiling dBfs
+slider2:dBGain=0<  0,48,0.01> Boost dBfs
+slider3:ovs=1<0,4,{Off,2x,4x,8x,16x}> Oversampling
+slider4:filter=1<0,3,{Relaxed,Normal,Heavy,Insane}> Filtering
+slider5:blocker=1<0,0,{Disabled,Enabled}> DC blocker
+slider6:hard=0<0,1,{Disabled,Enabled}> Hard clipping
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+  // Buffer for upsampled samples
+  ups = 100000;
+  // Order of up-/downsampling filters. These values should NOT
+  // be updated immediately after the setting changes on the UI,
+  // otherwise the filter parameters may change mid-processing,
+  // which could have nasty side-effects.
+  orderUp = 1;
+  orderDn = 1;
+  // Decibel to gain factor conversion
+  function dBToGain (decibels) (10.0 ^ (decibels / 20.0));
+  // Hyperbolic tangent approximation, used for soft clipping.
+  //
+  // Implemented after code posted by Antto on KVR
+  // https://www.kvraudio.com/forum/viewtopic.php?p=3781279#p3781279
+  //
+  function tanh (number) local (xa, x2, x3, x4, x7, res)
+  (
+    xa = abs(number);
+    x2 = xa * xa;
+    x3 = x2 * xa;
+    x4 = x2 * x2;
+    x7 = x4 * x3;
+    res = (1.0 - 1.0 / (1.0 + xa + x2 + 0.58576695 * x3 + 0.55442112 * x4 + 0.057481508 * x7));
+    sign(number) * res;
+  );
+  // Soft clipping function with ceiling
+  function softclip ()
+  (
+    //  Tricky to do, because highest result of soft clipping
+    //  is always 1.0 (ceiling). To get a 'real' ceiling make
+    //  the input louder first, then clip the tops off, later
+    //  attenuate it again.
+    //
+    //  1) first get a ceiling <= 1.0
+    //  2) the amount of boost = 1 / ceiling --> 1 / 0.5 = 2
+    //  3) clip: input * boost
+    //  4) attenuate to ceiling level again
+    //
+    vCeiling = min(roof, 1.0);
+    vUpscale = gain / vCeiling;
+    this  = tanh(this * vUpscale);
+    this *= vCeiling;
+  );
+  // Clamping a.k.a. hard clipping,
+  // restricts samples to range [-1/+1]
+  function hardclip ()
+  (
+    this = max(-1, min(1, this))
+  );
+  // DC Blocker to remove near-static frequency content
+  // that would otherwise "offset" the waveform.
+  function dcBlocker () instance (stateIn, stateOut)
+  (
+    stateOut *= 0.99988487;
+    stateOut += this - stateIn;
+    stateIn = this;
+    this = stateOut;
+  );
+  // Filter used for up- and downsampling
+  function bwLP (Hz, SR, order, memOffset) instance (a, d1, d2, w0, w1, w2, stack) local (a1, a2, ro4, step, r, ar, ar2, s2, rs2)
+  (
+    a  = memOffset; d1 = a+order; d2 = d1+order; w0 = d2+order; w1 = w0+order; w2 = w1+order;
+    stack = order; a1  = tan($PI * (Hz / SR)); a2  = sqr(a1); ro4 = 1.0 / (4.0 * order);
+    step = 0; while (step < order)
+    (
+      r   = sin($PI * (2.0 * step + 1.0) * ro4); ar2 = 2.0 * a1 * r; s2  = a2 + ar2 + 1.0; rs2 = 1.0 / s2;
+      a[step]  = a2 * rs2; d1[step] = 2.0 * (1.0 - a2) * rs2; d2[step] = -(a2 - ar2 + 1.0) * rs2; step += 1;
+    );
+  );
+  function bwTick (sample) instance (a, d1, d2, w0, w1, w2, stack) local (output, step)
+  (
+    output = sample; step = 0;
+    while (step < stack)
+    (
+      w0[step] = d1[step] * w1[step] + d2[step] * w2[step] + output;
+      output = a[step] * (w0[step] + 2.0 * w1[step] + w2[step]);
+      w2[step] = w1[step]; w1[step] = w0[step]; step += 1;
+    );
+    output;
+  );
+  // If the oversampling parameters were updated immediately when
+  // the sliders/dropdowns change, that could cause undesirable
+  // side effects if happens in the middle of a calculation run.
+  //
+  // Instead of altering the variables right away, check first if
+  // the new values have changed at all, and only trigger updates
+  // if that is the case. This saves CPU from calculating filter
+  // coefficients less frequently, and it guarantees that values
+  // will only change when this function is called, and only then.
+  //
+  function updateOversamplingX () local (newX, newUp, newDn)
+  (
+    // Calculate new values, "just in case" and to compare
+    newX = pow(2, ovs); // 0,1,2,3 -> 1,2,4,8
+    newUp = 2^(filter+1);
+    newDn = 2^(filter+2);
+    // Check if the new values have in any way changed from the
+    // previous values, and only if that is the case...
+    ((newX != ovsX) || (newUp != orderUp) || (newDn != orderDn)) ?
+    (
+      // Update the variables that are used in code with the new
+      // values, because when this function is called, it's safe
+      // to do so.
+      ovsX = newX;
+      orderUp = newUp;
+      orderDn = newDn;
+      // Update the filter instances with the new settings.
+      // Since these operate at oversampled sample rate, it
+      // should be fine to have them set really high. In my
+      // tests these values worked fine, although a filter
+      // at 22 kHz needs to be REALLY steep to cut off all
+      // nasties above 22.05 kHz. :)
+      upFilterL.bwLP(22050, srate*ovsX, orderUp, 200000);
+      upFilterR.bwLP(22050, srate*ovsX, orderUp, 201000);
+      dnFilterL.bwLP(22000, srate*ovsX, orderDn, 202000);
+      dnFilterR.bwLP(22000, srate*ovsX, orderDn, 203000);
+    );
+  );
+@slider
+  // Simple "slider dB value to gain factor" conversions
+  roof = dBToGain(dBCeil); // ceiling
+  gain = dBToGain(dBGain); // boost
+@sample
+  // Before any processing starts, check if new parameter values were
+  // set on the UI, and "import" them to their targets if so.
+  updateOversamplingX();
+  // Do the following only if oversampling is happening
+  ovsX > 1 ?
+  (
+    // Oversampling is achieved by stuffing an array of samples with
+    // zeroes, and then running a filter over them. By adding "dead"
+    // values to the signal and filtering it, the overall volume of
+    // the zero-stuffed signal will drop by half for every step. To
+    // counter this, it's enough to multiply the incoming sample by
+    // the oversampling factor before filtering, this will keep the
+    // signal level consistent.
+    spl0 = upFilterL.bwTick(spl0 * ovsX);
+    spl1 = upFilterR.bwTick(spl1 * ovsX);
+    // After filtering the original input samples, it's time to also
+    // filter all the "dead" zero-value samples that are now part of
+    // the signal. This is necessary to keep filters' states in sync
+    // with what is going on, but unfortunately adds to the CPU load
+    // significantly. For every oversampling step, it's necessary to
+    // process one "dead" sample with the upsampling filter as well.
+    // Minus one round, that is, since the filter already ran on the
+    // input sample.
+    counter = 0;
+    while (counter < ovsX-1)
+    (
+      ups[counter]      = upFilterL.bwTick(0);
+      ups[counter+ovsX] = upFilterR.bwTick(0);
+      counter += 1;
+    );
+  );
+  // Oversampled or not, this is the place where the magic happens,
+  // i.e. this is where the signal is clipped.
+  spl0.softclip();
+  spl1.softclip();
+  // And yet another block of stuff that has to be processed when
+  // oversamplign is activated
+  ovsX > 1 ?
+  (
+    // Unfortunately, even though they'll be discarded without second
+    // thought later on, it's necessary to process the "dead" samples
+    // as well, just so the filters have signal to work on & can stay
+    // in sync with the rest of the process. Omitting this step would
+    // save CPU cycles, but it would not sound right. Sad.
+    counter = 0;
+    while (counter < ovsX-1)
+    (
+      orly1 = ups[counter];
+      orly1.softclip();
+      ups[counter] = orly1;
+      orly2 = ups[counter+ovsX];
+      orly2.softclip();
+      ups[counter+ovsX] = orly2;
+      counter += 1;
+    );
+    // Filtering the actual signal samples that we really want to keep.
+    // These downsampling filters should be really steep, so that they
+    // cut away all the frequency content above 22 kHz that would fold
+    // into the audible signal and cause aliasing.
+    spl0 = dnFilterL.bwTick(spl0);
+    spl1 = dnFilterR.bwTick(spl1);
+    // And yet another loop to let the downsampling filters process
+    // dead samples. Although these samples are practically irrelevant
+    // after this step, it's still necessary to run them through the
+    // filters so that they run at oversampled sample rate and so they
+    // are in the correct state for when the next real sample arrives.
+    counter = 0;
+    while (counter < ovsX-1)
+    (
+      ups[counter]      = dnFilterL.bwTick(ups[counter]);
+      ups[counter+ovsX] = dnFilterR.bwTick(ups[counter+ovsX]);
+      counter += 1;
+    );
+  );
+  // If DC blocking enabled
+  blocker == 1 ?
+  (
+    // Run the DC blocker on each sample
+    spl0.dcBlocker();
+    spl1.dcBlocker();
+  );
+  // If hard clipping is enabled
+  hard == 1 ?
+  (
+    // Hard-clip the output to avoid any distortion outside of this
+    // plugin. Careful, this is not oversampled, so once it clips,
+    // it will alias. Try to avoid using this, unless of course you
+    // want to.
+    spl0.hardclip();
+    spl1.hardclip();
+  );

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/tilteq ADDED Viewed

	@@ -0,0 +1,108 @@

+// (C) 2009, Lubomir I. Ivanov
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+//
+// Released under GPL:
+// <http://www.gnu.org/licenses/>.
+desc:Tilt Equalizer
+//tags: equalizer
+//author: Liteon
+slider1:0<0,1,1{Stereo,Mono}>Processing
+slider2:50<0,100,0.05>Center Frequency (Scale)
+slider3:0<-6,6,0.05>Tilt (Low/High) (dB)
+slider4:0<-25,25,0.05>Output Gain (dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+amp = 6/log(2);
+denorm = 10^-30;
+pi = 22/7;
+sr3 = 3*srate;
+@slider
+mono = slider1;
+gain = slider3;
+outgain = exp(slider4/amp);
+//conditition
+gfactor = 4;
+gain > 0 ? (
+    g1 = -gfactor*gain;
+    g2 = gain;
+) : (
+    g1 = -gain;
+    g2 = gfactor*gain;
+);
+//two separate gains
+lgain = exp(g1/amp)-1;
+hgain = exp(g2/amp)-1;
+//f0
+sx = 16+slider2*1.20103;
+f0 = floor(exp(sx*log(1.059))*8.17742);
+//filter
+omega = 2*pi*f0;
+n = 1/(sr3 + omega);
+a0 = 2*omega*n;
+b1 = (sr3 - omega)*n;
+@sample
+mono == 1 ? (
+//process mono
+input = (spl0+spl1)/2;
+lp_out = a0*input + b1*lp_out;
+output = input + lgain*lp_out + hgain*(input - lp_out);
+spl0=spl1=output*outgain+denorm;
+) : (
+//process stereo
+input = spl0;
+lp_out = a0*input + b1*lp_out;
+output = input + lgain*lp_out + hgain*(input - lp_out);
+spl0=output*outgain+denorm;
+input_r = spl1;
+lp_out_r = a0*input_r + b1*lp_out_r;
+output_r = input_r + lgain*lp_out_r + hgain*(input_r - lp_out_r);
+spl1=output_r*outgain+denorm;
+);
+@gfx 100 16
+//draw freq scale numbers
+gfx_x=gfx_y=5;
+gfx_lineto(gfx_x, gfx_y,0);
+gfx_r=0;
+gfx_b=0.8;
+gfx_g=0.6;
+gfx_a=1;
+gfx_drawchar($'F');
+gfx_drawchar($' ');
+gfx_drawchar($'=');
+gfx_drawchar($' ');
+gfx_drawnumber(f0,0);
+gfx_drawchar($' ');
+gfx_drawchar($'H');
+gfx_drawchar($'z');

202012projects/MisterGTR aka MBI - Reamixed Dec 2020 Cyrille Aimee - Make You Dance/Plugins/volume ADDED Viewed

	@@ -0,0 +1,33 @@

+// This effect Copyright (C) 2004 and later Cockos Incorporated
+// License: LGPL - http://www.gnu.org/licenses/lgpl.html
+desc: Volume Adjustment
+//tags: utility gain
+//author: Cockos
+slider1:6<-150,150,1>Adjustment (dB)
+slider2:0<-150,150,1>Max Volume (dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@slider
+  adj1=2 ^ (slider1/6);
+  adj2=2 ^ (slider2/6);
+  doseek=1;
+@block
+doseek ? (
+  dadj=(adj1-adj1_s)/samplesblock;
+  doseek=0;
+):(
+  dadj=0;
+  adj1_s=adj1;
+);
+@sample
+spl0=min(max(spl0*adj1_s,-adj2),adj2);
+spl1=min(max(spl1*adj1_s,-adj2),adj2);
+adj1_s+=dadj;

202012projects/PVinKC122020/PVinKC_DEC2020RPP.RPP ADDED Viewed

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202012projects/PVinKC122020/READ THIS!.txt ADDED Viewed

	@@ -0,0 +1,7 @@

+My Reaper Forum Username is PVinKC
+Please find in this zip my Project File and backup, my FLAC file, copies of all JS FX and Impulse Responses used in making my mix.
+THANKS for all that you do and for bringing this BACK!!!
+JS FX and All Impulse Responses are included.

202012projects/Serhii Duzhykh - Cyrille Aimee/ReaMixed_12_2020_Al_Schmitt_Cyrille_Aimee.rpp ADDED Viewed

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202012projects/Son1ka70/Son1ka70.rpp ADDED Viewed

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202012projects/Tiny Tortoise_Make You Dance - Cyrille Aimee/JSFX/DC offset.jsfx ADDED Viewed

	@@ -0,0 +1,14 @@

+desc: DC offset
+version: 1.0
+changelog: init
+author: MPL
+website: http://forum.cockos.com/showthread.php?t=188335
+slider1:0<-1,1,0.0001>DC
+@init
+bpos=0;
+@block
+blah+=samplesblock;
+@sample
+spl0=spl0+slider1;
+spl1=spl1+slider1;

202012projects/Tiny Tortoise_Make You Dance - Cyrille Aimee/JSFX/ReaperBlog_Multichannel Volume Trim 2.jsfx ADDED Viewed

	@@ -0,0 +1,20 @@

+desc: Multichannel Volume Trim 2
+//desc: single fader to trim 32-channels by same amount
+//Version: 1.0
+//Author: REAPER Blog
+//Links:
+// https://forum.cockos.com/showthread.php?t=205533
+// https://reaperblog.net/2018/04/multichannel-volume-trimming/ ‎
+slider1:dB1=0.0<-144.0, 18.0, 0.1>Volume (dB)
+@slider
+vol1 = 10 ^ (dB1 / 20);
+@sample
+x=0;
+loop(32,//up to this number of track channels
+  spl(x)*= vol1;
+  x+=1;
+);

202012projects/Tiny Tortoise_Make You Dance - Cyrille Aimee/JSFX/ReaperBlog_Multichannel Volume Trim.jsfx ADDED Viewed

	@@ -0,0 +1,76 @@

+desc: Multichannel Volume Trim
+//desc: Faders to trim 32-channels by same amount in stereo pairs
+//Version: 1.0
+//Author: REAPER Blog
+//Links:
+// https://forum.cockos.com/showthread.php?t=205533
+// https://reaperblog.net/2018/04/multichannel-volume-trimming/ ‎
+slider1:dB1=0.0<-144.0, 18.0, 0.1>1/2 Volume (dB)
+slider2:dB2=0.0<-144.0, 18.0, 0.1>3/4 Volume (dB)
+slider3:dB3=0.0<-144.0, 18.0, 0.1>5/6 Volume (dB)
+slider4:dB4=0.0<-144.0, 18.0, 0.1>7/8 Volume (dB)
+slider5:dB5=0.0<-144.0, 18.0, 0.1>9/10 Volume (dB)
+slider6:dB6=0.0<-144.0, 18.0, 0.1>11/12 Volume (dB)
+slider7:dB7=0.0<-144.0, 18.0, 0.1>13/14 Volume (dB)
+slider8:dB8=0.0<-144.0, 18.0, 0.1>15/16 Volume (dB)
+slider9:dB9=0.0<-144.0, 18.0, 0.1>17/18 Volume (dB)
+slider10:dB10=0.0<-144.0, 18.0, 0.1>19/20 Volume (dB)
+slider11:dB11=0.0<-144.0, 18.0, 0.1>21/22 Volume (dB)
+slider12:dB12=0.0<-144.0, 18.0, 0.1>23/24 Volume (dB)
+slider13:dB13=0.0<-144.0, 18.0, 0.1>25/26 Volume (dB)
+slider14:dB14=0.0<-144.0, 18.0, 0.1>27/28 Volume (dB)
+slider15:dB15=0.0<-144.0, 18.0, 0.1>29/30 Volume (dB)
+slider16:dB16=0.0<-144.0, 18.0, 0.1>31/32 Volume (dB)
+@slider
+vol1 = 10 ^ (dB1 / 20);
+vol2 = 10 ^ (dB2 / 20);
+vol3 = 10 ^ (dB3 / 20);
+vol4 = 10 ^ (dB4 / 20);
+vol5 = 10 ^ (dB5 / 20);
+vol6 = 10 ^ (dB6 / 20);
+vol7 = 10 ^ (dB7 / 20);
+vol8 = 10 ^ (dB8 / 20);
+vol9 = 10 ^ (dB9 / 20);
+vol10 = 10 ^ (dB10 / 20);
+vol11 = 10 ^ (dB11 / 20);
+vol12 = 10 ^ (dB11 / 20);
+vol13 = 10 ^ (dB13 / 20);
+vol14 = 10 ^ (dB14 / 20);
+vol15 = 10 ^ (dB15 / 20);
+vol16 = 10 ^ (dB16 / 20);
+@sample
+spl0 *= vol1;
+spl1 *= vol1;
+spl2 *= vol2;
+spl3 *= vol2;
+spl4 *= vol3;
+spl5 *= vol3;
+spl6 *= vol4;
+spl7 *= vol4;
+spl8 *= vol5;
+spl9 *= vol5;
+spl10 *= vol6;
+spl11 *= vol6;
+spl12 *= vol7;
+spl13 *= vol7;
+spl14 *= vol8;
+spl15 *= vol8;
+spl16 *= vol9;
+spl17 *= vol9;
+spl18 *= vol10;
+spl19 *= vol10;
+spl20 *= vol11;
+spl21 *= vol11;
+spl22 *= vol12;
+spl23 *= vol12;
+spl24 *= vol13;
+spl25 *= vol13;
+spl26 *= vol14;
+spl27 *= vol14;
+spl28 *= vol15;
+spl29 *= vol15;
+spl30 *= vol16;
+spl31 *= vol16;

202012projects/Tiny Tortoise_Make You Dance - Cyrille Aimee/JSFX/nofish_Volume utility +-10db (sample accurate automation).jsfx ADDED Viewed

	@@ -0,0 +1,71 @@

+desc:Volume utility +-10db (sample accurate automation)
+version: 1.0
+author: Cockos, mod by nofish
+link: http://forum.cockos.com/member.php?u=6870
+changelog:
+  version 1.0
+  + initial release
+about:
+  simple volume adjustment utility
+  modded from Cockos "Volume/Pan Smoother v5" JS
+  I like to use this one for volume automation instead of Reaper's native volume envelope because
+  - I rarely make changes > +- 10db so it gives me more 'resolution' in the envelope
+  - Reaper's fader are kept free for trim adjustments
+//tags: utility gain stereo
+slider1:0<-10,10,0.1>Volume (dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+AMP_dB_i=1/8.68588963806504;
+db=slider1; // initialize here but not in @slider for playback start
+@slider
+ddb=0.0;
+@block
+cnt=0;
+ddb=0.0;
+db_chg_splpos=slider_next_chg(1, tgtdb);
+db_chg_splpos > 0 ?
+(
+  db=slider1;
+) : (
+  tgtdb = slider1;
+  db_chg_splpos = samplesblock;
+);
+ddb=(tgtdb-db)/db_chg_splpos;
+@sample
+cnt == db_chg_splpos ?
+(
+  ddb=0.0;
+  db_chg_splpos=slider_next_chg(1, tgtdb);
+  db_chg_splpos > cnt ?
+  (
+    ddb=(tgtdb-db)/(db_chg_splpos-cnt);
+  );
+);
+adj=exp(db*AMP_DB_i);
+spl0 *= adj;
+spl1 *= adj;
+db += ddb;
+cnt += 1;

202012projects/Tiny Tortoise_Make You Dance - Cyrille Aimee/Make You Dance - Cyrille Aim‚e.rpp ADDED Viewed

	@@ -0,0 +1,2134 @@

+<REAPER_PROJECT 0.1 "6.18/win64" 1607565601
+  RIPPLE 0
+  GROUPOVERRIDE 0 0 0
+  AUTOXFADE 1
+  ENVATTACH 1
+  POOLEDENVATTACH 0
+  MIXERUIFLAGS 11 309
+  PEAKGAIN 12.66205880960864
+  FEEDBACK 0
+  PANLAW 1
+  PROJOFFS -1.6 -1 0
+  MAXPROJLEN 0 600
+  GRID 3199 28 0.25 8 1 0 0 0
+  TIMEMODE 1 5 -1 30 0 0 -1
+  VIDEO_CONFIG 0 0 256
+  PANMODE 3
+  CURSOR 14.46002607775117
+  ZOOM 10.65004994956068 0 0
+  VZOOMEX 1 0
+  USE_REC_CFG 0
+  RECMODE 1
+  SMPTESYNC 0 30 100 40 1000 300 0 0 1 0 0
+  LOOP 1
+  LOOPGRAN 0 4
+  RECORD_PATH "" ""
+  <RECORD_CFG
+    ZXZhdxgAAA==
+  >
+  <APPLYFX_CFG
+  >
+  RENDER_FILE ""
+  RENDER_PATTERN "Make You Dance"
+  RENDER_FMT 0 2 0
+  RENDER_1X 0
+  RENDER_RANGE 1 0 0 16 1000
+  RENDER_RESAMPLE 9 9 1
+  RENDER_ADDTOPROJ 0
+  RENDER_STEMS 0
+  RENDER_DITHER 1
+  TIMELOCKMODE 0
+  TEMPOENVLOCKMODE 1
+  ITEMMIX 0
+  DEFPITCHMODE 589824 0
+  TAKELANE 1
+  SAMPLERATE 96000 1 0
+  <RENDER_CFG
+    Y2FsZhgAAAAIAAAA
+  >
+  LOCK 1
+  <METRONOME 6 2
+    VOL 0.25 0.125
+    FREQ 800 1600 1
+    BEATLEN 4
+    SAMPLES "" ""
+    PATTERN 2863311530 2863311529
+  >
+  GLOBAL_AUTO -1
+  TEMPO 120 4 4
+  PLAYRATE 1 0 0.25 4
+  SELECTION 0 0
+  SELECTION2 0 0
+  MASTERAUTOMODE 0
+  MASTERTRACKHEIGHT 0 0
+  MASTERPEAKCOL 20001073
+  MASTERMUTESOLO 24
+  MASTERTRACKVIEW 1 0.6667 0.5 0.5 0 -1 0 0 0 0 0 0 0
+  MASTERHWOUT 0 0 1 0 0 0 0 -1
+  MASTER_NCH 2 2
+  MASTER_VOLUME 1 0 -1 -1 1
+  MASTER_FX 1
+  MASTER_SEL 0
+  <MASTERFXLIST
+    WNDRECT 1953 1276 1100 420
+    SHOW 0
+    LASTSEL 3
+    DOCKED 0
+    BYPASS 0 0 0
+    <JS sstillwell/badbussmojo_aa ""
+      0.000000 0.000000 1.003000 1.000000 256.000000 256.000000 0.000000 100.000000 7.000000 0.000000 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Mellow
+    >
+    PRESETNAME Mellow
+    FLOATPOS -16 352 756 440
+    FXID {D6E54CFC-4DD2-472E-812B-5D1768398328}
+    WAK 0 0
+    BYPASS 0 0 0
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+      cWVlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAA6gAAAAEAAAAAABAA
+      IQAAAAYAAAAHAAAAAQAAAAEAAAAAQI9AAwAAAAAA8D////////8vQAEIAAAAAQAAAMZuK2eFVXFAKlPA/TGa5D+Ol24Sg8ACQAEIAAAAAQAAAKMpHC/NHYZAI44BukTz
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+      v8uP7D+MmZmZmZkEQAEBAAAAAQAAAAAAAAAAAPA/AAAAABYDAAAfAgAA
+      AAAQAAAA
+    >
+    FLOATPOS 1742 949 812 637
+    FXID {F08484DC-D434-441B-BA0C-39947BBC1BE5}
+    WAK 0 0
+    BYPASS 0 0 0
+    <VST "VST: ReaComp (Cockos)" reacomp.dll 0 "" 1919247213<5653547265636D726561636F6D700000> ""
+      bWNlcu9e7f4EAAAAAQAAAAAAAAACAAAAAAAAAAQAAAAAAAAACAAAAAAAAAACAAAAAQAAAAAAAAACAAAAAAAAAFQAAAAAAAAAAAAQAA==
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+      AAAQAAAA
+    >
+    FLOATPOS 1214 1075 762 592
+    FXID {82622A07-A6CF-416C-AF3F-DEA379832A24}
+    WAK 0 0
+    BYPASS 0 0 0
+    <JS loser/masterLimiter ""
+      0.000000 470.000000 72.000000 0.000000 45.000000 -1.000000 0.000000 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - "-1.0dBFS Peak (Small lookahead)"
+    >
+    PRESETNAME "-1.0dBFS Peak (Small lookahead)"
+    FLOATPOS 1771 1239 756 347
+    FXID {103EC032-4A69-4A61-A7FE-E699E5E0D07E}
+    WAK 0 0
+  >
+  <MASTERPLAYSPEEDENV
+    EGUID {44B92CA6-2077-4F3B-8127-79707C9E3C5E}
+    ACT 0 -1
+    VIS 0 1 1
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+    DEFSHAPE 0 -1 -1
+  >
+  <TEMPOENVEX
+    EGUID {7A1B59B7-04B0-424A-87EC-D9AD44A13E7F}
+    ACT 0 -1
+    VIS 1 0 1
+    LANEHEIGHT 0 0
+    ARM 0
+    DEFSHAPE 1 -1 -1
+  >
+  <PROJBAY
+  >
+  <TRACK {FB2D6B6F-4EAB-4D00-BF04-A30AF1FC2727}
+    NAME "01 Vocal"
+    PEAKCOL 24740647
+    BEAT -1
+    AUTOMODE 0
+    VOLPAN 1.18169906277985 0 -1 -1 1
+    MUTESOLO 0 0 0
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+    SHOWINMIX 1 0.6667 0.5 1 0.5 -1 -1 -1
+    FREEMODE 0
+    SEL 0
+    REC 0 0 0 0 0 0 0
+    VU 2
+    TRACKHEIGHT 0 0 0 0 -1 0
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+    NCHAN 2
+    FX 1
+    TRACKID {FB2D6B6F-4EAB-4D00-BF04-A30AF1FC2727}
+    PERF 0
+    MIDIOUT -1
+    MAINSEND 1 0
+    <FXCHAIN
+      WNDRECT 378 377 2488 1688
+      SHOW 0
+      LASTSEL 1
+      DOCKED 0
+      BYPASS 0 0 0
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+        cWVlcu5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAACwEAAAEAAAAAABAA
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+        AAAQAAAA
+      >
+      FLOATPOS 0 0 0 0
+      FXID {5DDBE431-6EE6-484F-89E4-2E9CE3BA556C}
+      <PARMENV 10 0 1 0.25
+        EGUID {534CE7A7-3627-4AEC-9139-A6B20F23EDF0}
+        ACT 1 -1
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+        DEFSHAPE 0 -1 -1
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+        PT 209.69029829 0.38557039 0
+        PT 210.67245426 0.39396591 0 0 1
+      >
+      <PARMENV 4 0 1 0.25
+        EGUID {1A09632C-13D7-4E31-85B4-EE4FFE4FE2C0}
+        ACT 1 -1
+        VIS 1 1 1
+        LANEHEIGHT 0 0
+        ARM 1
+        DEFSHAPE 0 -1 -1
+        PT 0 0.22677921 0
+        PT 57.39064682 0.22677921 0
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+        PT 76.19893353 0.22677921 0
+        PT 80.68411243 0.22677921 0
+        PT 81.63352987 0.23237622 0 0 1
+      >
+      WAK 0 0
+      BYPASS 0 0 0
+      <JS dynamics/general_dynamics ""
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+      >
+      JS_DIMS 2122 1559
+      <JS_SER
+        AAB6QwAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+        AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+        AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+        AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
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+        vV2Cv5rIgb94M4G/VZ6AvzIJgL8e6H6/2L19v5OTfL9NaXu/Bz96v8IUeb8AAAAAAADYwg==
+      >
+      FLOATPOS 0 0 0 0
+      FXID {ECAE3C8C-0B8D-4EA3-AF85-CDDC2910EFDE}
+      WAK 0 0
+    >
+    <ITEM
+      POSITION 9.10044620272766
+      SNAPOFFS 0
+      LENGTH 230.90674129727233
+      LOOP 1
+      ALLTAKES 0
+      FADEIN 1 0.36198 0 1 0 0
+      FADEOUT 1 0.01 0 1 0 0
+      MUTE 0 0
+      SEL 0
+      IGUID {1B5C881B-5F0C-45F1-AF04-A8956B25DAB1}
+      IID 16
+      NAME "01 Vocal.wav"
+      VOLPAN 1 0 1 -1
+      SOFFS 9.10044620272766
+      PLAYRATE 1 1 0 -1 0 0.0025
+      CHANMODE 0
+      GUID {E1D384A9-CF2D-4FC1-B19E-5D8C70E13112}
+      <SOURCE WAVE
+        FILE "Make You Dance STEMS 24Bit 96kHz\01 Vocal.wav"
+      >
+    >
+  >
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+      {67BA79A3-AE34-43F9-88E8-889082AE7052} 21653137 "" "" ""
+      {6D5A1B61-ACDC-4E28-97D3-51235DDB57E8} 30251339 "" "" ""
+    >
+  >
+>

202012projects/javiramallo/reaMixed Cyrille_Aimee_Mixing_Contest - Javiramallo.flac.RPP ADDED Viewed

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202012projects/reaper contest 2020_12_grundton/mix.RPP ADDED Viewed

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202012projects/reaper contest 2020_12_grundton/note.txt ADDED Viewed

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1	+ mixed by Grundton.
2	+ https://forum.cockos.com/member.php?u=122499

202012projects/trogdor/Make You Dance.rpp ADDED Viewed

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202012projects/trogdor/username_Trogdor mix.txt ADDED Viewed

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202012projects/upload_202012_1607743570643-2020-11 Cyrille Aimee - Make You Dance - Funicello3/Cyrille Aimee-Make You Dance-Funicello3.RPP ADDED Viewed

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202012projects/upload_202012_1607910026049-make-you-dance_raleighrecords/make-you-dance_raleighrecords.rpp ADDED Viewed

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202012projects/upload_202012_1607942975494-Fergler Dec ReaMixed/Effects/50HzKicker ADDED Viewed

	@@ -0,0 +1,67 @@

+// (C) 2007, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+// Further more is this released under the GPL License:
+// http://www.gnu.org/licenses/gpl.html
+desc:50 Hz Kicker
+desc:50 Hz Kicker (Kick Drum Enhancer) [LOSER]
+//tags: processing equalizer
+//author: LOSER
+slider1:50<10,200,1>Freqency (Hz)
+slider2:-12<-120,12,1>Wet (dB)
+slider3:-3<-120,12,1>Dry (dB)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+b1Det = -exp(-300 / srate );
+a0Det = 1.0 + b1Det;
+b1Env1 = -exp(-3 / srate );
+a0Env1 = 1.0 + b1Env1;
+b1Env2 = -exp(-30 / srate );
+a0Env2 = 1.0 + b1Env2;
+@slider
+adj = 2*$pi*slider1 / srate;
+wet = 2^(slider2/6);
+dry = 2^(slider3/6);
+gain = 0;
+tmpDet = 0;
+tmpEnv1 = 0.1;
+tmpEnv2 = 0;
+@sample
+det = abs(sqrt(tmpDet = a0Det*(spl0+spl1)*2 - b1Det*tmpDet));
+env1 = sqrt(tmpEnv1 = a0Env1*det - b1Env1*tmpEnv1);
+env2 = sqrt(tmpEnv2 = a0Env2*det - b1Env2*tmpEnv2);
+gain = min(max(env2/env1,1)-1,1);
+gain == 0 ? pos=0;
+spl0 = sin(pos)*gain*wet + spl0*dry;
+spl1 = sin(pos)*gain*wet + spl1*dry;
+pos += adj;

202012projects/upload_202012_1607942975494-Fergler Dec ReaMixed/Effects/MGA_JSLimiter ADDED Viewed

	@@ -0,0 +1,103 @@

+// MGA JS Limiter: Limits the maximum output volume of a audio signal
+// Copyright (C) 2008  Michael Gruhn
+//
+// This program is free software: you can redistribute it and/or modify
+// it under the terms of the GNU General Public License as published by
+// the Free Software Foundation, either version 3 of the License, or
+// (at your option) any later version.
+//
+// This program is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+// GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License
+// along with this program.  If not, see <http://www.gnu.org/licenses/>.
+desc:MGA JS Limiter
+//tags: dynamics limiter
+//author: LOSER
+slider1:0<-30,0,0.1>Threshold (dB)
+slider2:200<0,500,1>Release (ms)
+slider3:-0.1<-6,0,0.1>Ceiling
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+HOLDTIME = srate/128;
+r1Timer = 0;
+r2Timer = HOLDTIME/2;
+gr_meter=1;
+gr_meter_decay = exp(1/(1*srate));
+@slider
+thresh = 10^(slider1/20);
+ceiling = 10^(slider3/20);
+volume = ceiling/thresh;
+release = slider2/1000;
+r = exp(-3/(srate*max(release,0.05)));
+@sample
+maxSpls=max(abs(spl0),abs(spl1));
+(r1Timer+=1) > HOLDTIME ? (r1Timer = 0; max1Block = 0; );
+max1Block = max(max1Block,maxSpls);
+(r2Timer+=1) > HOLDTIME ? (r2Timer = 0; max2Block = 0; );
+max2Block = max(max2Block,maxSpls);
+envT = max(max1Block,max2Block);
+env = env < envT ? envT : envT + r*(env-envT);
+(env > thresh) ? gain = (g_meter=(thresh / env))*volume : (g_meter=1; gain=volume;);
+spl0*=gain;
+spl1*=gain;
+g_meter < gr_meter ? gr_meter=g_meter : ( gr_meter*=gr_meter_decay; gr_meter>1?gr_meter=1; );
+@gfx 0 32 // request horizontal/vertical heights (0 means dont care)
+  gr_meter *= exp(1/30); gr_meter>1?gr_meter=1; // decay meter here so if the audio processing stops it doesnt "stick"
+  gfx_r=1; gfx_g=gfx_b=0; gfx_a=0.8;
+  meter_bot=20;
+  meter_h=min(gfx_h,32);
+  xscale=gfx_w*20/meter_bot;
+  gfx_y=0;
+  gfx_x=gfx_w + log10(gr_meter)*xscale;
+  gfx_rectto(gfx_w,meter_h);
+  gfx_r=gfx_g=gfx_b=1.0; gfx_a=0.6;
+  s2=sqrt(2)/2;
+  g = s2;
+  while(
+    gfx_x=gfx_w + log10(g)*xscale;
+    gfx_x >= 0 ?
+    (
+      gfx_y=0;
+      gfx_lineto(gfx_x,meter_h,0);
+      gfx_y=meter_h-gfx_texth;
+      gfx_x+=2;
+      gfx_drawnumber(log10(g)*20,0);
+      gfx_drawchar($'d');
+      gfx_drawchar($'B');
+    );
+    g*=s2;
+    gfx_x >=0;
+  );
+  gfx_a=1;
+  gfx_x=0; gfx_y=meter_h/2 - gfx_texth/2;
+  gfx_drawnumber(log10(gr_meter)*20,1);
+  gfx_drawchar($'d');
+  gfx_drawchar($'B');

202012projects/upload_202012_1607942975494-Fergler Dec ReaMixed/Effects/Saturation ADDED Viewed

	@@ -0,0 +1,78 @@

+// (C) 2006-2007, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+desc:Saturation
+desc:Saturation [LOSER]
+//tags: processing amplitude gain saturation
+//author: LOSER
+slider1:0<0,100,1>Amount (%)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@init
+gfx_clear = 0;
+@slider
+foo=slider1/200*$pi;
+bar = sin(slider1/200*$pi);
+@sample
+slider1 ? (
+spl0 = min(max( sin(max(min(spl0,1),-1)*foo)/bar ,-1) ,1);
+spl1 = min(max( sin(max(min(spl1,1),-1)*foo)/bar ,-1) ,1);
+);
+@gfx 192 192
+gfxSize = min(gfx_w,gfx_h);
+gfx_r=gfx_g=gfx_b=0; gfx_a=1;
+gfx_x=gfx_y=0;
+gfx_rectto(gfx_w,gfx_h);
+gfx_r=gfx_g=gfx_b=0.8; gfx_a=1;
+gfx_x=gfxSize/2; gfx_y=0;
+gfx_lineto(gfxSize/2,gfxSize,0);
+gfx_x=0; gfx_y=gfxSize/2;
+gfx_lineto(gfxSize,gfxSize/2,0);
+gfx_x = gfxSize-20; gfx_y = gfxSize/2;
+gfx_drawchar($'I');
+gfx_drawchar($'N');
+gfx_x = gfxSize/2+2; gfx_y = 0;
+gfx_drawchar($'O');
+gfx_drawchar($'U');
+gfx_drawchar($'T');
+slider1 ? (
+  gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=1;
+  gfx_x=0; gfx_y=gfxSize;
+  x = -1;
+  while(
+    y = -sin(x*foo)/bar;
+    gfx_lineto(x*gfxSize/2+gfxSize/2,y*gfxSize/2+gfxSize/2,1);
+    (x+=0.1) <= 1;
+  );
+  gfx_lineto(gfxSize,0,1);
+):(
+  gfx_r=0.5; gfx_g=1; gfx_b=0; gfx_a=1;
+  gfx_x=0; gfx_y=gfxSize;
+  gfx_lineto(gfxSize,0,1);
+);

202012projects/upload_202012_1607942975494-Fergler Dec ReaMixed/Effects/TimeDelayer ADDED Viewed

	@@ -0,0 +1,60 @@

+// (C) 2007, Michael Gruhn.
+// NO WARRANTY IS GRANTED. THIS PLUG-IN IS PROVIDED ON AN "AS IS" BASIS, WITHOUT
+// WARRANTY OF ANY KIND. NO LIABILITY IS GRANTED, INCLUDING, BUT NOT LIMITED TO,
+// ANY DIRECT OR INDIRECT,  SPECIAL,  INCIDENTAL OR CONSEQUENTIAL DAMAGE ARISING
+// OUT OF  THE  USE  OR INABILITY  TO  USE  THIS PLUG-IN,  COMPUTER FAILTURE  OF
+// MALFUNCTION INCLUDED.  THE USE OF THE SOURCE CODE,  EITHER  PARTIALLY  OR  IN
+// TOTAL, IS ONLY GRANTED,  IF USED IN THE SENSE OF THE AUTHOR'S INTENTION,  AND
+// USED WITH ACKNOWLEDGEMENT OF THE AUTHOR. FURTHERMORE IS THIS PLUG-IN A  THIRD
+// PARTY CONTRIBUTION,  EVEN IF INCLUDED IN REAPER(TM),  COCKOS INCORPORATED  OR
+// ITS AFFILIATES HAVE NOTHING TO DO WITH IT.  LAST BUT NOT LEAST, BY USING THIS
+// PLUG-IN YOU RELINQUISH YOUR CLAIM TO SUE IT'S AUTHOR, AS WELL AS THE CLAIM TO
+// ENTRUST SOMEBODY ELSE WITH DOING SO.
+desc:Channel Time Delayer
+desc:Channel Time Delayer [LOSER]
+//tags: stereo delay
+//author: LOSER
+slider1:0<-100,100,1>Delay L (ms)
+slider2:0<-100,100,1>Delay R (ms)
+in_pin:left input
+in_pin:right input
+out_pin:left output
+out_pin:right output
+@slider
+slider1 >= 0 && slider2 >= 0 ?
+(
+  buflL = floor(slider1 / 1000 * srate) ;
+  buflR = floor(slider2 / 1000 * srate) + buflL+1;
+):(
+  slider1 <= slider2 ?
+  (
+    buflL = 0 ;
+    buflR = floor((slider2-slider1) / 1000 * srate) + buflL+1;
+  ):(
+    buflL = floor((slider1-slider2) / 1000 * srate) ;
+    buflR = buflL+1;
+  );
+  pdc_delay = floor(min( -min(slider1,slider2)/1000 * srate,500000));
+  pdc_bot_ch=0; pdc_top_ch=2;
+);
+@sample
+bufLpos[0] = spl0 ;
+bufLpos = bufLpos + 1 ;
+bufLpos >= buflL ? bufLpos = 0;
+bufRpos[0] = spl1 ;
+bufRpos = bufRpos + 1 ;
+bufRpos >= buflR ? bufRpos = buflL+1;
+spl0 = bufLpos[0] ;
+spl1 = bufRpos[0] ;