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- /*
-
- Phaser.cpp - Phasing and Approximate digital model of an analog JFET phaser.
- Analog modeling implemented by Ryan Billing aka Transmogrifox.
- ZynAddSubFX - a software synthesizer
-
- Phaser.cpp - Phaser effect
- Copyright (C) 2002-2005 Nasca Octavian Paul
- Copyright (C) 2009-2010 Ryan Billing
- Copyright (C) 2010-2010 Mark McCurry
- Author: Nasca Octavian Paul
- Ryan Billing
- Mark McCurry
-
- DSP analog modeling theory & practice largely influenced by various CCRMA publications, particularly works by Julius O. Smith.
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of version 2 of the GNU General Public License
- as published by the Free Software Foundation.
-
- 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 (version 2 or later) for more details.
-
- You should have received a copy of the GNU General Public License (version 2)
- along with this program; if not, write to the Free Software Foundation,
- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-
- */
-
- #include <cmath>
- #include <algorithm>
- #include "Phaser.h"
-
- using namespace std;
-
- #define PHASER_LFO_SHAPE 2
- #define ONE_ 0.99999f // To prevent LFO ever reaching 1.0f for filter stability purposes
- #define ZERO_ 0.00001f // Same idea as above.
-
- Phaser::Phaser(const int &insertion_, float *efxoutl_, float *efxoutr_, unsigned int srate, int bufsize)
- :Effect(insertion_, efxoutl_, efxoutr_, NULL, 0, srate, bufsize), lfo(srate, bufsize), old(NULL), xn1(NULL),
- yn1(NULL), diff(0.0f), oldgain(0.0f), fb(0.0f)
- {
- analog_setup();
- setpreset(Ppreset);
- cleanup();
- }
-
- void Phaser::analog_setup()
- {
- //model mismatch between JFET devices
- offset[0] = -0.2509303f;
- offset[1] = 0.9408924f;
- offset[2] = 0.998f;
- offset[3] = -0.3486182f;
- offset[4] = -0.2762545f;
- offset[5] = -0.5215785f;
- offset[6] = 0.2509303f;
- offset[7] = -0.9408924f;
- offset[8] = -0.998f;
- offset[9] = 0.3486182f;
- offset[10] = 0.2762545f;
- offset[11] = 0.5215785f;
-
- barber = 0; //Deactivate barber pole phasing by default
-
- mis = 1.0f;
- Rmin = 625.0f; // 2N5457 typical on resistance at Vgs = 0
- Rmax = 22000.0f; // Resistor parallel to FET
- Rmx = Rmin / Rmax;
- Rconst = 1.0f + Rmx; // Handle parallel resistor relationship
- C = 0.00000005f; // 50 nF
- CFs = 2.0f * samplerate_f * C;
- invperiod = 1.0f / buffersize_f;
- }
-
- Phaser::~Phaser()
- {
- if(old.l)
- delete[] old.l;
- if(xn1.l)
- delete[] xn1.l;
- if(yn1.l)
- delete[] yn1.l;
- if(old.r)
- delete[] old.r;
- if(xn1.r)
- delete[] xn1.r;
- if(yn1.r)
- delete[] yn1.r;
- }
-
- /*
- * Effect output
- */
- void Phaser::out(const Stereo<float *> &input)
- {
- if(Panalog)
- AnalogPhase(input);
- else
- normalPhase(input);
- }
-
- void Phaser::AnalogPhase(const Stereo<float *> &input)
- {
- Stereo<float> gain(0.0f), lfoVal(0.0f), mod(0.0f), g(0.0f), b(0.0f), hpf(
- 0.0f);
-
- lfo.effectlfoout(&lfoVal.l, &lfoVal.r);
- mod.l = lfoVal.l * width + (depth - 0.5f);
- mod.r = lfoVal.r * width + (depth - 0.5f);
-
- mod.l = limit(mod.l, ZERO_, ONE_);
- mod.r = limit(mod.r, ZERO_, ONE_);
-
- if(Phyper) {
- //Triangle wave squared is approximately sin on bottom, tri on top
- //Result is exponential sweep more akin to filter in synth with
- //exponential generator circuitry.
- mod.l *= mod.l;
- mod.r *= mod.r;
- }
-
- //g.l,g.r is Vp - Vgs. Typical FET drain-source resistance follows constant/[1-sqrt(Vp - Vgs)]
- mod.l = sqrtf(1.0f - mod.l);
- mod.r = sqrtf(1.0f - mod.r);
-
- diff.r = (mod.r - oldgain.r) * invperiod;
- diff.l = (mod.l - oldgain.l) * invperiod;
-
- g = oldgain;
- oldgain = mod;
-
- for(int i = 0; i < buffersize; ++i) {
- g.l += diff.l; // Linear interpolation between LFO samples
- g.r += diff.r;
-
- Stereo<float> xn(input.l[i] * pangainL, input.r[i] * pangainR);
-
- if(barber) {
- g.l = fmodf((g.l + 0.25f), ONE_);
- g.r = fmodf((g.r + 0.25f), ONE_);
- }
-
- xn.l = applyPhase(xn.l, g.l, fb.l, hpf.l, yn1.l, xn1.l);
- xn.r = applyPhase(xn.r, g.r, fb.r, hpf.r, yn1.r, xn1.r);
-
-
- fb.l = xn.l * feedback;
- fb.r = xn.r * feedback;
- efxoutl[i] = xn.l;
- efxoutr[i] = xn.r;
- }
-
- if(Poutsub) {
- invSignal(efxoutl, buffersize);
- invSignal(efxoutr, buffersize);
- }
- }
-
- float Phaser::applyPhase(float x, float g, float fb,
- float &hpf, float *yn1, float *xn1)
- {
- for(int j = 0; j < Pstages; ++j) { //Phasing routine
- mis = 1.0f + offsetpct * offset[j];
-
- //This is symmetrical.
- //FET is not, so this deviates slightly, however sym dist. is
- //better sounding than a real FET.
- float d = (1.0f + 2.0f * (0.25f + g) * hpf * hpf * distortion) * mis;
- Rconst = 1.0f + mis * Rmx;
-
- // This is 1/R. R is being modulated to control filter fc.
- float b = (Rconst - g) / (d * Rmin);
- float gain = (CFs - b) / (CFs + b);
- yn1[j] = gain * (x + yn1[j]) - xn1[j];
-
- //high pass filter:
- //Distortion depends on the high-pass part of the AP stage.
- hpf = yn1[j] + (1.0f - gain) * xn1[j];
-
- xn1[j] = x;
- x = yn1[j];
- if(j == 1)
- x += fb; //Insert feedback after first phase stage
- }
- return x;
- }
- void Phaser::normalPhase(const Stereo<float *> &input)
- {
- Stereo<float> gain(0.0f), lfoVal(0.0f);
-
- lfo.effectlfoout(&lfoVal.l, &lfoVal.r);
- gain.l =
- (expf(lfoVal.l
- * PHASER_LFO_SHAPE) - 1) / (expf(PHASER_LFO_SHAPE) - 1.0f);
- gain.r =
- (expf(lfoVal.r
- * PHASER_LFO_SHAPE) - 1) / (expf(PHASER_LFO_SHAPE) - 1.0f);
-
- gain.l = 1.0f - phase * (1.0f - depth) - (1.0f - phase) * gain.l * depth;
- gain.r = 1.0f - phase * (1.0f - depth) - (1.0f - phase) * gain.r * depth;
-
- gain.l = limit(gain.l, ZERO_, ONE_);
- gain.r = limit(gain.r, ZERO_, ONE_);
-
- for(int i = 0; i < buffersize; ++i) {
- float x = (float)i / buffersize_f;
- float x1 = 1.0f - x;
- //TODO think about making panning an external feature
- Stereo<float> xn(input.l[i] * pangainL + fb.l,
- input.r[i] * pangainR + fb.r);
-
- Stereo<float> g(gain.l * x + oldgain.l * x1,
- gain.r * x + oldgain.r * x1);
-
- xn.l = applyPhase(xn.l, g.l, old.l);
- xn.r = applyPhase(xn.r, g.r, old.r);
-
- //Left/Right crossing
- crossover(xn.l, xn.r, lrcross);
-
- fb.l = xn.l * feedback;
- fb.r = xn.r * feedback;
- efxoutl[i] = xn.l;
- efxoutr[i] = xn.r;
- }
-
- oldgain = gain;
-
- if(Poutsub) {
- invSignal(efxoutl, buffersize);
- invSignal(efxoutr, buffersize);
- }
- }
-
- float Phaser::applyPhase(float x, float g, float *old)
- {
- for(int j = 0; j < Pstages * 2; ++j) { //Phasing routine
- float tmp = old[j];
- old[j] = g * tmp + x;
- x = tmp - g * old[j];
- }
- return x;
- }
-
- /*
- * Cleanup the effect
- */
- void Phaser::cleanup()
- {
- fb = oldgain = Stereo<float>(0.0f);
- for(int i = 0; i < Pstages * 2; ++i) {
- old.l[i] = 0.0f;
- old.r[i] = 0.0f;
- }
- for(int i = 0; i < Pstages; ++i) {
- xn1.l[i] = 0.0f;
- yn1.l[i] = 0.0f;
- xn1.r[i] = 0.0f;
- yn1.r[i] = 0.0f;
- }
- }
-
- /*
- * Parameter control
- */
- void Phaser::setwidth(unsigned char Pwidth)
- {
- this->Pwidth = Pwidth;
- width = ((float)Pwidth / 127.0f);
- }
-
- void Phaser::setfb(unsigned char Pfb)
- {
- this->Pfb = Pfb;
- feedback = (float) (Pfb - 64) / 64.2f;
- }
-
- void Phaser::setvolume(unsigned char Pvolume)
- {
- this->Pvolume = Pvolume;
- outvolume = Pvolume / 127.0f;
- if(insertion == 0)
- volume = 1.0f;
- else
- volume = outvolume;
- }
-
- void Phaser::setdistortion(unsigned char Pdistortion)
- {
- this->Pdistortion = Pdistortion;
- distortion = (float)Pdistortion / 127.0f;
- }
-
- void Phaser::setoffset(unsigned char Poffset)
- {
- this->Poffset = Poffset;
- offsetpct = (float)Poffset / 127.0f;
- }
-
- void Phaser::setstages(unsigned char Pstages)
- {
- if(old.l)
- delete[] old.l;
- if(xn1.l)
- delete[] xn1.l;
- if(yn1.l)
- delete[] yn1.l;
- if(old.r)
- delete[] old.r;
- if(xn1.r)
- delete[] xn1.r;
- if(yn1.r)
- delete[] yn1.r;
-
-
- this->Pstages = min(MAX_PHASER_STAGES, (int)Pstages);
-
- old = Stereo<float *>(new float[Pstages * 2],
- new float[Pstages * 2]);
-
- xn1 = Stereo<float *>(new float[Pstages],
- new float[Pstages]);
-
- yn1 = Stereo<float *>(new float[Pstages],
- new float[Pstages]);
-
- cleanup();
- }
-
- void Phaser::setphase(unsigned char Pphase)
- {
- this->Pphase = Pphase;
- phase = (Pphase / 127.0f);
- }
-
- void Phaser::setdepth(unsigned char Pdepth)
- {
- this->Pdepth = Pdepth;
- depth = (float)(Pdepth) / 127.0f;
- }
-
-
- void Phaser::setpreset(unsigned char npreset)
- {
- const int PRESET_SIZE = 15;
- const int NUM_PRESETS = 12;
- unsigned char presets[NUM_PRESETS][PRESET_SIZE] = {
- //Phaser
- //0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
- {64, 64, 36, 0, 0, 64, 110, 64, 1, 0, 0, 20,
- 0, 0,
- 0 },
- {64, 64, 35, 0, 0, 88, 40, 64, 3, 0, 0, 20, 0, 0,
- 0 },
- {64, 64, 31, 0, 0, 66, 68, 107, 2, 0, 0, 20, 0, 0,
- 0 },
- {39, 64, 22, 0, 0, 66, 67, 10, 5, 0, 1, 20, 0, 0,
- 0 },
- {64, 64, 20, 0, 1, 110, 67, 78, 10, 0, 0, 20, 0, 0,
- 0 },
- {64, 64, 53, 100, 0, 58, 37, 78, 3, 0, 0, 20, 0, 0,
- 0 },
- //APhaser
- //0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
- {64, 64, 14, 0, 1, 64, 64, 40, 4, 10, 0, 110,1, 20,
- 1 },
- {64, 64, 14, 5, 1, 64, 70, 40, 6, 10, 0, 110,1, 20,
- 1 },
- {64, 64, 9, 0, 0, 64, 60, 40, 8, 10, 0, 40, 0, 20,
- 1 },
- {64, 64, 14, 10, 0, 64, 45, 80, 7, 10, 1, 110,1, 20,
- 1 },
- {25, 64, 127, 10, 0, 64, 25, 16, 8, 100, 0, 25, 0, 20,
- 1 },
- {64, 64, 1, 10, 1, 64, 70, 40, 12, 10, 0, 110,1, 20,
- 1 }
- };
- if(npreset >= NUM_PRESETS)
- npreset = NUM_PRESETS - 1;
- for(int n = 0; n < PRESET_SIZE; ++n)
- changepar(n, presets[npreset][n]);
- Ppreset = npreset;
- }
-
-
- void Phaser::changepar(int npar, unsigned char value)
- {
- switch(npar) {
- case 0:
- setvolume(value);
- break;
- case 1:
- setpanning(value);
- break;
- case 2:
- lfo.Pfreq = value;
- lfo.updateparams();
- break;
- case 3:
- lfo.Prandomness = value;
- lfo.updateparams();
- break;
- case 4:
- lfo.PLFOtype = value;
- lfo.updateparams();
- barber = (2 == value);
- break;
- case 5:
- lfo.Pstereo = value;
- lfo.updateparams();
- break;
- case 6:
- setdepth(value);
- break;
- case 7:
- setfb(value);
- break;
- case 8:
- setstages(value);
- break;
- case 9:
- setlrcross(value);
- setoffset(value);
- break;
- case 10:
- Poutsub = min((int)value, 1);
- break;
- case 11:
- setphase(value);
- setwidth(value);
- break;
- case 12:
- Phyper = min((int)value, 1);
- break;
- case 13:
- setdistortion(value);
- break;
- case 14:
- Panalog = value;
- break;
- }
- }
-
- unsigned char Phaser::getpar(int npar) const
- {
- switch(npar) {
- case 0: return Pvolume;
- case 1: return Ppanning;
- case 2: return lfo.Pfreq;
- case 3: return lfo.Prandomness;
- case 4: return lfo.PLFOtype;
- case 5: return lfo.Pstereo;
- case 6: return Pdepth;
- case 7: return Pfb;
- case 8: return Pstages;
- case 9: return Plrcross;
- return Poffset; //same
- case 10: return Poutsub;
- case 11: return Pphase;
- return Pwidth; //same
- case 12: return Phyper;
- case 13: return Pdistortion;
- case 14: return Panalog;
- default: return 0;
- }
- }
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