--- a/trunk/src/LV2/gxamp.lv2/gx_amp.cc
+++ b/trunk/src/LV2/gxamp.lv2/gx_amp.cc
@@ -1,6 +1,6 @@
 /*
  * Copyright (C) 2012 Hermann Meyer, Andreas Degert, Pete Shorthose
- * 
+ *
  * 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 2 of the License, or
@@ -20,292 +20,307 @@
 
 inline void GxAmp::clear_state_f()
 {
-	for (int i=0; i<2; i++) fRec0[i] = 0;
-	for (int i=0; i<2; i++) fRec7[i] = 0;
-	for (int i=0; i<2; i++) fRec18[i] = 0;
-	for (int i=0; i<3; i++) fRec17[i] = 0;
-	for (int i=0; i<2; i++) fVec0[i] = 0;
-	for (int i=0; i<2; i++) fRec16[i] = 0;
-	for (int i=0; i<2; i++) fRec15[i] = 0;
-	for (int i=0; i<3; i++) fRec14[i] = 0;
-	for (int i=0; i<2; i++) fVec1[i] = 0;
-	for (int i=0; i<2; i++) fRec13[i] = 0;
-	for (int i=0; i<3; i++) fRec12[i] = 0;
-	for (int i=0; i<3; i++) fRec11[i] = 0;
-	for (int i=0; i<2; i++) fRec22[i] = 0;
-	for (int i=0; i<3; i++) fRec21[i] = 0;
-	for (int i=0; i<2; i++) fVec2[i] = 0;
-	for (int i=0; i<2; i++) fRec20[i] = 0;
-	for (int i=0; i<3; i++) fRec19[i] = 0;
-	for (int i=0; i<2; i++) fRec26[i] = 0;
-	for (int i=0; i<3; i++) fRec25[i] = 0;
-	for (int i=0; i<3; i++) fRec24[i] = 0;
-	for (int i=0; i<3; i++) fRec23[i] = 0;
-	for (int i=0; i<2; i++) fRec28[i] = 0;
-	for (int i=0; i<3; i++) fRec27[i] = 0;
-	for (int i=0; i<2; i++) fVec3[i] = 0;
-	for (int i=0; i<2; i++) fRec10[i] = 0;
-	for (int i=0; i<2; i++) fRec29[i] = 0;
-	for (int i=0; i<3; i++) fRec9[i] = 0;
-	for (int i=0; i<2; i++) fRec8[i] = 0;
-	for (int i=0; i<2; i++) fVec4[i] = 0;
-	for (int i=0; i<2; i++) fRec6[i] = 0;
-	for (int i=0; i<2; i++) fRec30[i] = 0;
-	for (int i=0; i<3; i++) fRec5[i] = 0;
-	for (int i=0; i<2; i++) fRec4[i] = 0;
-	for (int i=0; i<2; i++) fVec5[i] = 0;
-	for (int i=0; i<2; i++) fRec3[i] = 0;
-	for (int i=0; i<2; i++) fRec31[i] = 0;
-	for (int i=0; i<3; i++) fRec2[i] = 0;
-	for (int i=0; i<2; i++) fRec1[i] = 0;
+  for (int i=0; i<2; i++) fRec0[i] = 0;
+  for (int i=0; i<2; i++) fRec7[i] = 0;
+  for (int i=0; i<2; i++) fRec18[i] = 0;
+  for (int i=0; i<3; i++) fRec17[i] = 0;
+  for (int i=0; i<2; i++) fVec0[i] = 0;
+  for (int i=0; i<2; i++) fRec16[i] = 0;
+  for (int i=0; i<2; i++) fRec15[i] = 0;
+  for (int i=0; i<3; i++) fRec14[i] = 0;
+  for (int i=0; i<2; i++) fVec1[i] = 0;
+  for (int i=0; i<2; i++) fRec13[i] = 0;
+  for (int i=0; i<3; i++) fRec12[i] = 0;
+  for (int i=0; i<3; i++) fRec11[i] = 0;
+  for (int i=0; i<2; i++) fRec22[i] = 0;
+  for (int i=0; i<3; i++) fRec21[i] = 0;
+  for (int i=0; i<2; i++) fVec2[i] = 0;
+  for (int i=0; i<2; i++) fRec20[i] = 0;
+  for (int i=0; i<3; i++) fRec19[i] = 0;
+  for (int i=0; i<2; i++) fRec26[i] = 0;
+  for (int i=0; i<3; i++) fRec25[i] = 0;
+  for (int i=0; i<3; i++) fRec24[i] = 0;
+  for (int i=0; i<3; i++) fRec23[i] = 0;
+  for (int i=0; i<2; i++) fRec28[i] = 0;
+  for (int i=0; i<3; i++) fRec27[i] = 0;
+  for (int i=0; i<2; i++) fVec3[i] = 0;
+  for (int i=0; i<2; i++) fRec10[i] = 0;
+  for (int i=0; i<2; i++) fRec29[i] = 0;
+  for (int i=0; i<3; i++) fRec9[i] = 0;
+  for (int i=0; i<2; i++) fRec8[i] = 0;
+  for (int i=0; i<2; i++) fVec4[i] = 0;
+  for (int i=0; i<2; i++) fRec6[i] = 0;
+  for (int i=0; i<2; i++) fRec30[i] = 0;
+  for (int i=0; i<3; i++) fRec5[i] = 0;
+  for (int i=0; i<2; i++) fRec4[i] = 0;
+  for (int i=0; i<2; i++) fVec5[i] = 0;
+  for (int i=0; i<2; i++) fRec3[i] = 0;
+  for (int i=0; i<2; i++) fRec31[i] = 0;
+  for (int i=0; i<3; i++) fRec2[i] = 0;
+  for (int i=0; i<2; i++) fRec1[i] = 0;
 }
 
 inline void GxAmp::init(unsigned int samplingFreq)
 {
-	fSamplingFreq = samplingFreq;
-    fslider0 = 0;
-	iConst0 = min(192000, max(1, fSamplingFreq));
-	fConst1 = (1.0 / tan((97.38937226128358 / iConst0)));
-	fConst2 = (1 + fConst1);
-	fConst3 = (0 - ((1 - fConst1) / fConst2));
-	fConst4 = (1.0 / tan((20517.741620594938 / iConst0)));
-	fConst5 = (1 + fConst4);
-	fConst6 = (0 - ((1 - fConst4) / fConst5));
-	fConst7 = tan((942.4777960769379 / iConst0));
-	fConst8 = (1.0 / faustpower<2>(fConst7));
-	fConst9 = (2 * (1 - fConst8));
-	fConst10 = (1.0 / fConst7);
-	fConst11 = (1 + ((fConst10 - 1.0) / fConst7));
-	fConst12 = (1.0 / (1 + ((1.0 + fConst10) / fConst7)));
-	fConst13 = tan((3769.9111843077517 / iConst0));
-	fConst14 = (1.0 / faustpower<2>(fConst13));
-	fConst15 = (2 * (1 - fConst14));
-	fConst16 = (1.0 / fConst13);
-	fConst17 = (1 + ((fConst16 - 1.0000000000000004) / fConst13));
-	fConst18 = (1 + ((fConst16 + 1.0000000000000004) / fConst13));
-	fConst19 = (1.0 / fConst18);
-	fConst20 = (1 + fConst16);
-	fConst21 = (0 - ((1 - fConst16) / fConst20));
-	fConst22 = tan((10053.096491487338 / iConst0));
-	fConst23 = (1.0 / faustpower<2>(fConst22));
-	fConst24 = (2 * (1 - fConst23));
-	fConst25 = (1.0 / fConst22);
-	fConst26 = (1 + ((fConst25 - 1.0000000000000004) / fConst22));
-	fConst27 = (1 + ((1.0000000000000004 + fConst25) / fConst22));
-	fConst28 = (1.0 / fConst27);
-	fConst29 = (1 + fConst25);
-	fConst30 = (0 - ((1 - fConst25) / fConst29));
-	fConst31 = tan((47123.8898038469 / iConst0));
-	fConst32 = (2 * (1 - (1.0 / faustpower<2>(fConst31))));
-	fConst33 = (1.0 / fConst31);
-	fConst34 = (1 + ((fConst33 - 1.414213562373095) / fConst31));
-	fConst35 = (1 + ((1.414213562373095 + fConst33) / fConst31));
-	fConst36 = (1.0 / fConst35);
-	fConst37 = (0 - fConst1);
-	fConst38 = (1.0 / (fConst2 * fConst35));
-	fConst39 = (1.0 / fConst29);
-	fConst40 = (0 - fConst16);
-	fConst41 = (1.0 / (fConst20 * fConst27));
-	fConst42 = (2 * (0 - fConst14));
-	fConst43 = (1 + ((fConst10 - 1.0000000000000004) / fConst7));
-	fConst44 = (1.0 / (1 + ((fConst10 + 1.0000000000000004) / fConst7)));
-	fConst45 = (1 + fConst10);
-	fConst46 = (0 - ((1 - fConst10) / fConst45));
-	fConst47 = (0 - fConst10);
-	fConst48 = (1.0 / (fConst45 * fConst18));
-	fConst49 = (2 * (0 - fConst8));
-	fConst50 = (1 + ((fConst16 - 1.0) / fConst13));
-	fConst51 = (1.0 / (1 + ((1.0 + fConst16) / fConst13)));
-	fConst52 = (0 - fConst25);
-	fConst53 = (2 * (0 - fConst23));
-	fConst54 = (1.0 / fConst5);
-	fConst55 = (1.0 / tan((270.1769682087222 / iConst0)));
-	fConst56 = (1 + fConst55);
-	fConst57 = (0 - ((1 - fConst55) / fConst56));
-	fConst58 = (0.027 / fConst56);
-	fConst59 = (0.025 / fConst2);
-	fConst60 = (1.0 / tan((414.6902302738527 / iConst0)));
-	fConst61 = (1 + fConst60);
-	fConst62 = (0 - ((1 - fConst60) / fConst61));
-	fConst63 = (0.015 / fConst61);
-	fConst64 = (1.0 / tan((609.4689747964198 / iConst0)));
-	fConst65 = (1 + fConst64);
-	fConst66 = (0 - ((1 - fConst64) / fConst65));
-	fConst67 = (0.0082 / fConst65);
-	clear_state_f();
+  fSamplingFreq = samplingFreq;
+  fslider0 = 0;
+  iConst0 = min(192000, max(1, fSamplingFreq));
+  fConst1 = (1.0 / tan((97.38937226128358 / iConst0)));
+  fConst2 = (1 + fConst1);
+  fConst3 = (0 - ((1 - fConst1) / fConst2));
+  fConst4 = (1.0 / tan((20517.741620594938 / iConst0)));
+  fConst5 = (1 + fConst4);
+  fConst6 = (0 - ((1 - fConst4) / fConst5));
+  fConst7 = tan((942.4777960769379 / iConst0));
+  fConst8 = (1.0 / faustpower<2>(fConst7));
+  fConst9 = (2 * (1 - fConst8));
+  fConst10 = (1.0 / fConst7);
+  fConst11 = (1 + ((fConst10 - 1.0) / fConst7));
+  fConst12 = (1.0 / (1 + ((1.0 + fConst10) / fConst7)));
+  fConst13 = tan((3769.9111843077517 / iConst0));
+  fConst14 = (1.0 / faustpower<2>(fConst13));
+  fConst15 = (2 * (1 - fConst14));
+  fConst16 = (1.0 / fConst13);
+  fConst17 = (1 + ((fConst16 - 1.0000000000000004) / fConst13));
+  fConst18 = (1 + ((fConst16 + 1.0000000000000004) / fConst13));
+  fConst19 = (1.0 / fConst18);
+  fConst20 = (1 + fConst16);
+  fConst21 = (0 - ((1 - fConst16) / fConst20));
+  fConst22 = tan((10053.096491487338 / iConst0));
+  fConst23 = (1.0 / faustpower<2>(fConst22));
+  fConst24 = (2 * (1 - fConst23));
+  fConst25 = (1.0 / fConst22);
+  fConst26 = (1 + ((fConst25 - 1.0000000000000004) / fConst22));
+  fConst27 = (1 + ((1.0000000000000004 + fConst25) / fConst22));
+  fConst28 = (1.0 / fConst27);
+  fConst29 = (1 + fConst25);
+  fConst30 = (0 - ((1 - fConst25) / fConst29));
+  fConst31 = tan((47123.8898038469 / iConst0));
+  fConst32 = (2 * (1 - (1.0 / faustpower<2>(fConst31))));
+  fConst33 = (1.0 / fConst31);
+  fConst34 = (1 + ((fConst33 - 1.414213562373095) / fConst31));
+  fConst35 = (1 + ((1.414213562373095 + fConst33) / fConst31));
+  fConst36 = (1.0 / fConst35);
+  fConst37 = (0 - fConst1);
+  fConst38 = (1.0 / (fConst2 * fConst35));
+  fConst39 = (1.0 / fConst29);
+  fConst40 = (0 - fConst16);
+  fConst41 = (1.0 / (fConst20 * fConst27));
+  fConst42 = (2 * (0 - fConst14));
+  fConst43 = (1 + ((fConst10 - 1.0000000000000004) / fConst7));
+  fConst44 = (1.0 / (1 + ((fConst10 + 1.0000000000000004) / fConst7)));
+  fConst45 = (1 + fConst10);
+  fConst46 = (0 - ((1 - fConst10) / fConst45));
+  fConst47 = (0 - fConst10);
+  fConst48 = (1.0 / (fConst45 * fConst18));
+  fConst49 = (2 * (0 - fConst8));
+  fConst50 = (1 + ((fConst16 - 1.0) / fConst13));
+  fConst51 = (1.0 / (1 + ((1.0 + fConst16) / fConst13)));
+  fConst52 = (0 - fConst25);
+  fConst53 = (2 * (0 - fConst23));
+  fConst54 = (1.0 / fConst5);
+  fConst55 = (1.0 / tan((270.1769682087222 / iConst0)));
+  fConst56 = (1 + fConst55);
+  fConst57 = (0 - ((1 - fConst55) / fConst56));
+  fConst58 = (0.027 / fConst56);
+  fConst59 = (0.025 / fConst2);
+  fConst60 = (1.0 / tan((414.6902302738527 / iConst0)));
+  fConst61 = (1 + fConst60);
+  fConst62 = (0 - ((1 - fConst60) / fConst61));
+  fConst63 = (0.015 / fConst61);
+  fConst64 = (1.0 / tan((609.4689747964198 / iConst0)));
+  fConst65 = (1 + fConst64);
+  fConst66 = (0 - ((1 - fConst64) / fConst65));
+  fConst67 = (0.0082 / fConst65);
+  clear_state_f();
 }
 
 void GxAmp::connect(uint32_t port,void* data)
 {
-    switch ((PortIndex)port) {
-      case AMP_MASTERGAIN:
-        fslider0_ = (float*)data;
-        break;
-      case AMP_PREGAIN:
-        fslider1_ = (float*)data;
-        break;
-      case AMP_WET_DRY:
-        fslider2_ = (float*)data;
-        break;
-      case AMP_DRIVE:
-        fslider3_ = (float*)data;
-        break;
-      case MID:
-        break;
-      case BASS:
-        break;
-      case TREBLE:
-        break;
-      case CLevel:
-        break;
-      case ALevel:
-        break;
-      case AMP_OUTPUT:
-        output = (float*)data;
-        break;
-      case AMP_INPUT:
-        input = (float*)data;
-        break;
-      case AMP_CONTROL:
-        break;
-      case AMP_NOTIFY:
-        break;
+  switch ((PortIndex)port)
+    {
+    case AMP_MASTERGAIN:
+      fslider0_ = (float*)data;
+      break;
+    case AMP_PREGAIN:
+      fslider1_ = (float*)data;
+      break;
+    case AMP_WET_DRY:
+      fslider2_ = (float*)data;
+      break;
+    case AMP_DRIVE:
+      fslider3_ = (float*)data;
+      break;
+    case MID:
+      break;
+    case BASS:
+      break;
+    case TREBLE:
+      break;
+    case CLevel:
+      break;
+    case ALevel:
+      break;
+    case AMP_OUTPUT:
+      output = (float*)data;
+      break;
+    case AMP_INPUT:
+      input = (float*)data;
+      break;
+    case AMP_CONTROL:
+      break;
+    case AMP_NOTIFY:
+      break;
     }
 }
 
 void GxAmp::run(uint32_t n_samples, GXPlugin *self)
 {
-    fslider0  = (*fslider0_);
-	fslider1  = (*fslider1_);
-	fslider2  = (*fslider2_);
-	fslider3  = (*fslider3_);
-	double 	fSlow0 = (0.0010000000000000009 * pow(10,(0.05 * fslider0)));
-	double 	fSlow1 = (0.0010000000000000009 * pow(10,(0.05 * fslider1)));
-	double 	fSlow2 = (1.000000000000001e-05 * fslider2);
-	double 	fSlow3 = fslider3;
-	double 	fSlow4 = pow(1e+01,(1.2 * fSlow3));
-	double 	fSlow5 = (fConst44 * pow(1e+01,(2 * fSlow3)));
-	double 	fSlow6 = pow(1e+01,(0.8 * fSlow3));
-	double 	fSlow7 = (fConst44 * pow(1e+01,(0.9 * fSlow3)));
-	double 	fSlow8 = (2 * (fSlow3 - 0.5));
-	double 	fSlow9 = (1 - max(0, (0 - fSlow8)));
-	double 	fSlow10 = (1.25 * fSlow3);
-	double 	fSlow11 = (1 - max(0, fSlow8));
-	for (uint32_t i=0; i<n_samples; i++) {
-		fRec0[0] = (fSlow0 + (0.999 * fRec0[1]));
-		fRec7[0] = (fSlow1 + (0.999 * fRec7[1]));
-		double fTemp0 = (fConst9 * fRec11[1]);
-		fRec18[0] = (fSlow2 + (0.999 * fRec18[1]));
-		double fTemp1 = (double)input[i];
-		fRec17[0] = ((fTemp1 * fRec18[0]) - (fConst36 * ((fConst34 * fRec17[2]) + (fConst32 * fRec17[1]))));
-		double fTemp2 = (fRec17[2] + (fRec17[0] + (2 * fRec17[1])));
-		fVec0[0] = fTemp2;
-		fRec16[0] = ((fConst38 * ((fConst37 * fVec0[1]) + (fConst1 * fVec0[0]))) + (fConst3 * fRec16[1]));
-		fRec15[0] = ((fConst39 * (fRec16[0] + fRec16[1])) + (fConst30 * fRec15[1]));
-		fRec14[0] = (fRec15[0] - (fConst28 * ((fConst26 * fRec14[2]) + (fConst24 * fRec14[1]))));
-		double fTemp3 = (fRec14[2] + (fRec14[0] + (2 * fRec14[1])));
-		fVec1[0] = fTemp3;
-		fRec13[0] = ((fConst41 * ((fConst40 * fVec1[1]) + (fConst16 * fVec1[0]))) + (fConst21 * fRec13[1]));
-		fRec12[0] = (fRec13[0] - (fConst19 * ((fConst17 * fRec12[2]) + (fConst15 * fRec12[1]))));
-		fRec11[0] = ((fConst19 * (((fConst14 * fRec12[0]) + (fConst42 * fRec12[1])) + (fConst14 * fRec12[2]))) - (fConst12 * ((fConst11 * fRec11[2]) + fTemp0)));
-		double fTemp4 = max(-1, min(1, (fSlow4 * (fRec11[2] + (fConst12 * (fTemp0 + (fConst11 * fRec11[0])))))));
-		fRec22[0] = ((fConst41 * (fVec1[0] + fVec1[1])) + (fConst21 * fRec22[1]));
-		fRec21[0] = (fRec22[0] - (fConst19 * ((fConst17 * fRec21[2]) + (fConst15 * fRec21[1]))));
-		double fTemp5 = (fRec21[2] + (fRec21[0] + (2 * fRec21[1])));
-		fVec2[0] = fTemp5;
-		fRec20[0] = ((fConst48 * ((fConst47 * fVec2[1]) + (fConst10 * fVec2[0]))) + (fConst46 * fRec20[1]));
-		fRec19[0] = (fRec20[0] - (fConst44 * ((fConst43 * fRec19[2]) + (fConst9 * fRec19[1]))));
-		double fTemp6 = max(-1, min(1, (fSlow5 * (((fConst8 * fRec19[0]) + (fConst49 * fRec19[1])) + (fConst8 * fRec19[2])))));
-		double fTemp7 = (fConst9 * fRec23[1]);
-		double fTemp8 = (fConst15 * fRec24[1]);
-		fRec26[0] = ((fConst39 * ((fConst52 * fRec16[1]) + (fConst25 * fRec16[0]))) + (fConst30 * fRec26[1]));
-		fRec25[0] = (fRec26[0] - (fConst28 * ((fConst26 * fRec25[2]) + (fConst24 * fRec25[1]))));
-		fRec24[0] = ((fConst28 * (((fConst23 * fRec25[0]) + (fConst53 * fRec25[1])) + (fConst23 * fRec25[2]))) - (fConst51 * ((fConst50 * fRec24[2]) + fTemp8)));
-		fRec23[0] = ((fRec24[2] + (fConst51 * (fTemp8 + (fConst50 * fRec24[0])))) - (fConst12 * ((fConst11 * fRec23[2]) + fTemp7)));
-		double fTemp9 = max(-1, min(1, (fSlow6 * (fRec23[2] + (fConst12 * (fTemp7 + (fConst11 * fRec23[0])))))));
-		fRec28[0] = ((fConst48 * (fVec2[0] + fVec2[1])) + (fConst46 * fRec28[1]));
-		fRec27[0] = (fRec28[0] - (fConst44 * ((fConst43 * fRec27[2]) + (fConst9 * fRec27[1]))));
-		double fTemp10 = max(-1, min(1, (fSlow7 * (fRec27[2] + (fRec27[0] + (2 * fRec27[1]))))));
-		double fTemp11 = ((1.2589412 * (fTemp10 * (1 - (0.3333333333333333 * faustpower<2>(fTemp10))))) + (1.584893192 * ((fTemp9 * (1 - (0.3333333333333333 * faustpower<2>(fTemp9)))) + ((fTemp6 * (1 - (0.3333333333333333 * faustpower<2>(fTemp6)))) + (0.8413951417869425 * (fTemp4 * (1 - (0.3333333333333333 * faustpower<2>(fTemp4)))))))));
-		fVec3[0] = fTemp11;
-		fRec10[0] = ((fConst54 * (fVec3[0] + fVec3[1])) + (fConst6 * fRec10[1]));
-		fRec29[0] = ((fConst58 * (fRec9[1] + fRec9[2])) + (fConst57 * fRec29[1]));
-		double fTemp12 = (1 - fRec18[0]);
-		fRec9[0] = (Ftube(TUBE_TABLE_12AX7_68k, (((fTemp1 * ((fSlow11 * fRec18[0]) + (fTemp12 * (1 + (fSlow10 * ((4 - (4 * fabs((fTemp1 * fTemp12)))) - 1)))))) + (fRec29[0] + (fSlow9 * fRec10[0]))) - 1.581656)) - 191.42014814814814);
-		fRec8[0] = ((fConst59 * ((fConst37 * fRec9[1]) + (fConst1 * fRec9[0]))) + (fConst3 * fRec8[1]));
-		double fTemp13 = (fRec8[0] * fRec7[0]);
-		fVec4[0] = fTemp13;
-		fRec6[0] = ((fConst54 * (fVec4[0] + fVec4[1])) + (fConst6 * fRec6[1]));
-		fRec30[0] = ((fConst63 * (fRec5[1] + fRec5[2])) + (fConst62 * fRec30[1]));
-		fRec5[0] = (Ftube(TUBE_TABLE_12AX7_250k, ((fRec30[0] + fRec6[0]) - 1.204285)) - 169.71433333333334);
-		fRec4[0] = ((fConst59 * ((fConst37 * fRec5[1]) + (fConst1 * fRec5[0]))) + (fConst3 * fRec4[1]));
-		double fTemp14 = (fRec7[0] * fRec4[0]);
-		fVec5[0] = fTemp14;
-		fRec3[0] = ((fConst54 * (fVec5[0] + fVec5[1])) + (fConst6 * fRec3[1]));
-		fRec31[0] = ((fConst67 * (fRec2[1] + fRec2[2])) + (fConst66 * fRec31[1]));
-		fRec2[0] = (Ftube(TUBE_TABLE_12AX7_250k, ((fRec31[0] + fRec3[0]) - 0.840703)) - 147.47524390243905);
-		fRec1[0] = ((fConst59 * ((fConst37 * fRec2[1]) + (fConst1 * fRec2[0]))) + (fConst3 * fRec1[1]));
-		output[i] = (float)(fRec1[0] * fRec0[0]);
-		// post processing
-		fRec1[1] = fRec1[0];
-		fRec2[2] = fRec2[1]; fRec2[1] = fRec2[0];
-		fRec31[1] = fRec31[0];
-		fRec3[1] = fRec3[0];
-		fVec5[1] = fVec5[0];
-		fRec4[1] = fRec4[0];
-		fRec5[2] = fRec5[1]; fRec5[1] = fRec5[0];
-		fRec30[1] = fRec30[0];
-		fRec6[1] = fRec6[0];
-		fVec4[1] = fVec4[0];
-		fRec8[1] = fRec8[0];
-		fRec9[2] = fRec9[1]; fRec9[1] = fRec9[0];
-		fRec29[1] = fRec29[0];
-		fRec10[1] = fRec10[0];
-		fVec3[1] = fVec3[0];
-		fRec27[2] = fRec27[1]; fRec27[1] = fRec27[0];
-		fRec28[1] = fRec28[0];
-		fRec23[2] = fRec23[1]; fRec23[1] = fRec23[0];
-		fRec24[2] = fRec24[1]; fRec24[1] = fRec24[0];
-		fRec25[2] = fRec25[1]; fRec25[1] = fRec25[0];
-		fRec26[1] = fRec26[0];
-		fRec19[2] = fRec19[1]; fRec19[1] = fRec19[0];
-		fRec20[1] = fRec20[0];
-		fVec2[1] = fVec2[0];
-		fRec21[2] = fRec21[1]; fRec21[1] = fRec21[0];
-		fRec22[1] = fRec22[0];
-		fRec11[2] = fRec11[1]; fRec11[1] = fRec11[0];
-		fRec12[2] = fRec12[1]; fRec12[1] = fRec12[0];
-		fRec13[1] = fRec13[0];
-		fVec1[1] = fVec1[0];
-		fRec14[2] = fRec14[1]; fRec14[1] = fRec14[0];
-		fRec15[1] = fRec15[0];
-		fRec16[1] = fRec16[0];
-		fVec0[1] = fVec0[0];
-		fRec17[2] = fRec17[1]; fRec17[1] = fRec17[0];
-		fRec18[1] = fRec18[0];
-		fRec7[1] = fRec7[0];
-		fRec0[1] = fRec0[0];
-	}
-    self->ampconv->run_static(n_samples,self->ampconv, output);
-    self->ts->run_static(n_samples, self->ts, output);
-    self->cabconv->run_static(n_samples,self->cabconv, output);
-    
+  fslider0  = (*fslider0_);
+  fslider1  = (*fslider1_);
+  fslider2  = (*fslider2_);
+  fslider3  = (*fslider3_);
+  double 	fSlow0 = (0.0010000000000000009 * pow(10,(0.05 * fslider0)));
+  double 	fSlow1 = (0.0010000000000000009 * pow(10,(0.05 * fslider1)));
+  double 	fSlow2 = (1.000000000000001e-05 * fslider2);
+  double 	fSlow3 = fslider3;
+  double 	fSlow4 = pow(1e+01,(1.2 * fSlow3));
+  double 	fSlow5 = (fConst44 * pow(1e+01,(2 * fSlow3)));
+  double 	fSlow6 = pow(1e+01,(0.8 * fSlow3));
+  double 	fSlow7 = (fConst44 * pow(1e+01,(0.9 * fSlow3)));
+  double 	fSlow8 = (2 * (fSlow3 - 0.5));
+  double 	fSlow9 = (1 - max(0, (0 - fSlow8)));
+  double 	fSlow10 = (1.25 * fSlow3);
+  double 	fSlow11 = (1 - max(0, fSlow8));
+  for (uint32_t i=0; i<n_samples; i++)
+    {
+      fRec0[0] = (fSlow0 + (0.999 * fRec0[1]));
+      fRec7[0] = (fSlow1 + (0.999 * fRec7[1]));
+      double fTemp0 = (fConst9 * fRec11[1]);
+      fRec18[0] = (fSlow2 + (0.999 * fRec18[1]));
+      double fTemp1 = (double)input[i];
+      fRec17[0] = ((fTemp1 * fRec18[0]) - (fConst36 * ((fConst34 * fRec17[2]) + (fConst32 * fRec17[1]))));
+      double fTemp2 = (fRec17[2] + (fRec17[0] + (2 * fRec17[1])));
+      fVec0[0] = fTemp2;
+      fRec16[0] = ((fConst38 * ((fConst37 * fVec0[1]) + (fConst1 * fVec0[0]))) + (fConst3 * fRec16[1]));
+      fRec15[0] = ((fConst39 * (fRec16[0] + fRec16[1])) + (fConst30 * fRec15[1]));
+      fRec14[0] = (fRec15[0] - (fConst28 * ((fConst26 * fRec14[2]) + (fConst24 * fRec14[1]))));
+      double fTemp3 = (fRec14[2] + (fRec14[0] + (2 * fRec14[1])));
+      fVec1[0] = fTemp3;
+      fRec13[0] = ((fConst41 * ((fConst40 * fVec1[1]) + (fConst16 * fVec1[0]))) + (fConst21 * fRec13[1]));
+      fRec12[0] = (fRec13[0] - (fConst19 * ((fConst17 * fRec12[2]) + (fConst15 * fRec12[1]))));
+      fRec11[0] = ((fConst19 * (((fConst14 * fRec12[0]) + (fConst42 * fRec12[1])) + (fConst14 * fRec12[2]))) - (fConst12 * ((fConst11 * fRec11[2]) + fTemp0)));
+      double fTemp4 = max(-1, min(1, (fSlow4 * (fRec11[2] + (fConst12 * (fTemp0 + (fConst11 * fRec11[0])))))));
+      fRec22[0] = ((fConst41 * (fVec1[0] + fVec1[1])) + (fConst21 * fRec22[1]));
+      fRec21[0] = (fRec22[0] - (fConst19 * ((fConst17 * fRec21[2]) + (fConst15 * fRec21[1]))));
+      double fTemp5 = (fRec21[2] + (fRec21[0] + (2 * fRec21[1])));
+      fVec2[0] = fTemp5;
+      fRec20[0] = ((fConst48 * ((fConst47 * fVec2[1]) + (fConst10 * fVec2[0]))) + (fConst46 * fRec20[1]));
+      fRec19[0] = (fRec20[0] - (fConst44 * ((fConst43 * fRec19[2]) + (fConst9 * fRec19[1]))));
+      double fTemp6 = max(-1, min(1, (fSlow5 * (((fConst8 * fRec19[0]) + (fConst49 * fRec19[1])) + (fConst8 * fRec19[2])))));
+      double fTemp7 = (fConst9 * fRec23[1]);
+      double fTemp8 = (fConst15 * fRec24[1]);
+      fRec26[0] = ((fConst39 * ((fConst52 * fRec16[1]) + (fConst25 * fRec16[0]))) + (fConst30 * fRec26[1]));
+      fRec25[0] = (fRec26[0] - (fConst28 * ((fConst26 * fRec25[2]) + (fConst24 * fRec25[1]))));
+      fRec24[0] = ((fConst28 * (((fConst23 * fRec25[0]) + (fConst53 * fRec25[1])) + (fConst23 * fRec25[2]))) - (fConst51 * ((fConst50 * fRec24[2]) + fTemp8)));
+      fRec23[0] = ((fRec24[2] + (fConst51 * (fTemp8 + (fConst50 * fRec24[0])))) - (fConst12 * ((fConst11 * fRec23[2]) + fTemp7)));
+      double fTemp9 = max(-1, min(1, (fSlow6 * (fRec23[2] + (fConst12 * (fTemp7 + (fConst11 * fRec23[0])))))));
+      fRec28[0] = ((fConst48 * (fVec2[0] + fVec2[1])) + (fConst46 * fRec28[1]));
+      fRec27[0] = (fRec28[0] - (fConst44 * ((fConst43 * fRec27[2]) + (fConst9 * fRec27[1]))));
+      double fTemp10 = max(-1, min(1, (fSlow7 * (fRec27[2] + (fRec27[0] + (2 * fRec27[1]))))));
+      double fTemp11 = ((1.2589412 * (fTemp10 * (1 - (0.3333333333333333 * faustpower<2>(fTemp10))))) + (1.584893192 * ((fTemp9 * (1 - (0.3333333333333333 * faustpower<2>(fTemp9)))) + ((fTemp6 * (1 - (0.3333333333333333 * faustpower<2>(fTemp6)))) + (0.8413951417869425 * (fTemp4 * (1 - (0.3333333333333333 * faustpower<2>(fTemp4)))))))));
+      fVec3[0] = fTemp11;
+      fRec10[0] = ((fConst54 * (fVec3[0] + fVec3[1])) + (fConst6 * fRec10[1]));
+      fRec29[0] = ((fConst58 * (fRec9[1] + fRec9[2])) + (fConst57 * fRec29[1]));
+      double fTemp12 = (1 - fRec18[0]);
+      fRec9[0] = (Ftube(TUBE_TABLE_12AX7_68k, (((fTemp1 * ((fSlow11 * fRec18[0]) + (fTemp12 * (1 + (fSlow10 * ((4 - (4 * fabs((fTemp1 * fTemp12)))) - 1)))))) + (fRec29[0] + (fSlow9 * fRec10[0]))) - 1.581656)) - 191.42014814814814);
+      fRec8[0] = ((fConst59 * ((fConst37 * fRec9[1]) + (fConst1 * fRec9[0]))) + (fConst3 * fRec8[1]));
+      double fTemp13 = (fRec8[0] * fRec7[0]);
+      fVec4[0] = fTemp13;
+      fRec6[0] = ((fConst54 * (fVec4[0] + fVec4[1])) + (fConst6 * fRec6[1]));
+      fRec30[0] = ((fConst63 * (fRec5[1] + fRec5[2])) + (fConst62 * fRec30[1]));
+      fRec5[0] = (Ftube(TUBE_TABLE_12AX7_250k, ((fRec30[0] + fRec6[0]) - 1.204285)) - 169.71433333333334);
+      fRec4[0] = ((fConst59 * ((fConst37 * fRec5[1]) + (fConst1 * fRec5[0]))) + (fConst3 * fRec4[1]));
+      double fTemp14 = (fRec7[0] * fRec4[0]);
+      fVec5[0] = fTemp14;
+      fRec3[0] = ((fConst54 * (fVec5[0] + fVec5[1])) + (fConst6 * fRec3[1]));
+      fRec31[0] = ((fConst67 * (fRec2[1] + fRec2[2])) + (fConst66 * fRec31[1]));
+      fRec2[0] = (Ftube(TUBE_TABLE_12AX7_250k, ((fRec31[0] + fRec3[0]) - 0.840703)) - 147.47524390243905);
+      fRec1[0] = ((fConst59 * ((fConst37 * fRec2[1]) + (fConst1 * fRec2[0]))) + (fConst3 * fRec1[1]));
+      output[i] = (float)(fRec1[0] * fRec0[0]);
+      // post processing
+      fRec1[1] = fRec1[0];
+      fRec2[2] = fRec2[1];
+      fRec2[1] = fRec2[0];
+      fRec31[1] = fRec31[0];
+      fRec3[1] = fRec3[0];
+      fVec5[1] = fVec5[0];
+      fRec4[1] = fRec4[0];
+      fRec5[2] = fRec5[1];
+      fRec5[1] = fRec5[0];
+      fRec30[1] = fRec30[0];
+      fRec6[1] = fRec6[0];
+      fVec4[1] = fVec4[0];
+      fRec8[1] = fRec8[0];
+      fRec9[2] = fRec9[1];
+      fRec9[1] = fRec9[0];
+      fRec29[1] = fRec29[0];
+      fRec10[1] = fRec10[0];
+      fVec3[1] = fVec3[0];
+      fRec27[2] = fRec27[1];
+      fRec27[1] = fRec27[0];
+      fRec28[1] = fRec28[0];
+      fRec23[2] = fRec23[1];
+      fRec23[1] = fRec23[0];
+      fRec24[2] = fRec24[1];
+      fRec24[1] = fRec24[0];
+      fRec25[2] = fRec25[1];
+      fRec25[1] = fRec25[0];
+      fRec26[1] = fRec26[0];
+      fRec19[2] = fRec19[1];
+      fRec19[1] = fRec19[0];
+      fRec20[1] = fRec20[0];
+      fVec2[1] = fVec2[0];
+      fRec21[2] = fRec21[1];
+      fRec21[1] = fRec21[0];
+      fRec22[1] = fRec22[0];
+      fRec11[2] = fRec11[1];
+      fRec11[1] = fRec11[0];
+      fRec12[2] = fRec12[1];
+      fRec12[1] = fRec12[0];
+      fRec13[1] = fRec13[0];
+      fVec1[1] = fVec1[0];
+      fRec14[2] = fRec14[1];
+      fRec14[1] = fRec14[0];
+      fRec15[1] = fRec15[0];
+      fRec16[1] = fRec16[0];
+      fVec0[1] = fVec0[0];
+      fRec17[2] = fRec17[1];
+      fRec17[1] = fRec17[0];
+      fRec18[1] = fRec18[0];
+      fRec7[1] = fRec7[0];
+      fRec0[1] = fRec0[0];
+    }
+  self->ampconv->run_static(n_samples,self->ampconv, output);
+  self->ts->run_static(n_samples, self->ts, output);
+  self->cabconv->run_static(n_samples,self->cabconv, output);
+
 }
 
 // static wrappers
 void GxAmp::init_static(unsigned int samplingFreq, GxAmp *p)
 {
-	p->init(samplingFreq);
+  p->init(samplingFreq);
 }
 
 void GxAmp::connect_static(uint32_t port,void* data, GxAmp *p)
 {
-	p->connect(port, data);
+  p->connect(port, data);
 }
 
 
 void GxAmp::run_static(uint32_t n_samples, GXPlugin *self)
 {
-	self->amplifier->run(n_samples, self);
-}
-
+  self->amplifier->run(n_samples, self);
+}
+