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merge into: Gordonjcp:tidyup
Branches Tags
Gordonjcp:master
Gordonjcp:controllers
Gordonjcp:calibration
Gordonjcp:gui
Gordonjcp:tidyup
Gordonjcp:parameters
Gordonjcp:chorusboard
Gordonjcp:voices
Gordonjcp:modelb
...
pull from: Gordonjcp:master
Branches Tags
Gordonjcp:controllers
Gordonjcp:master
Gordonjcp:calibration
Gordonjcp:gui
Gordonjcp:tidyup
Gordonjcp:parameters
Gordonjcp:chorusboard
Gordonjcp:voices
Gordonjcp:modelb

18 Commits
tidyup ... master

Author SHA1 Message Date
Gordon JC Pearce 4bf634a767 bunch of stuff to do with controls 2026-01-09 23:56:07 +00:00
Gordon JC Pearce d0a259a960 rescaled lookup table 2026-01-09 00:44:19 +00:00
Gordon JC Pearce 6a8e0686a6 pitch bender for oscillator, no range setting 2026-01-09 00:29:54 +00:00
Gordon JC Pearce c5ca40d22c calibration 2026-01-08 16:23:26 +00:00
Gordon JC Pearce 58ee2d4ca8 Merge branch 'gui' into calibration 2026-01-08 16:19:59 +00:00
Gordon JC Pearce 4077447102 levels balanced a bit better 2026-01-08 16:17:42 +00:00
Gordon JC Pearce 38ddbf91b1 fixed levels 2026-01-08 15:31:12 +00:00
Gordon JC Pearce e3c54e3ef1 noise level 2026-01-08 15:29:10 +00:00
Gordon JC Pearce 8ca166a662 fix level 2026-01-08 15:27:14 +00:00
Gordon JC Pearce 7d60cac407 update windows and linux runners 2026-01-08 10:45:22 +00:00
Gordon JC Pearce 1199cc1fc0 update macos workflow 2026-01-07 12:37:40 +00:00
Gordon JC Pearce 168fe2912d add github workflow 2026-01-07 12:30:40 +00:00
Gordon JC Pearce d2e8e6126d adjustments to timing 2026-01-07 12:25:46 +00:00
Gordon JC Pearce e452e282f4 fixed button update bug in Windows 2026-01-07 11:38:04 +00:00
Gordon JC Pearce a3a2e0dd04 fix lfo and pitch calculation 2026-01-06 22:16:39 +00:00
Gordon JC Pearce 7ff0bf0659 better LFO and PW 2026-01-06 20:20:30 +00:00
Gordon JC Pearce 8c2263c129 chorus a bit more like the real thing 2026-01-05 23:08:50 +00:00
Gordon JC Pearce ffe4026b18 fix module being updated at the wrong time causing incorrect LFO speed 2026-01-05 21:34:30 +00:00
13 changed files with 229 additions and 165 deletions
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43
.github/workflows/build.yml vendored Normal file
View File

@ -0,0 +1,43 @@
name: build
on: [push, pull_request]
jobs:
linux:
strategy:
matrix:
target: [linux-arm64, linux-armhf, linux-i686, linux-riscv64, linux-x86_64]
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v4
with:
submodules: recursive
- uses: distrho/dpf-makefile-action@v1
with:
target: ${{ matrix.target }}
macos:
strategy:
matrix:
target: [macos-intel, macos-universal]
runs-on: macos-15
steps:
- uses: actions/checkout@v4
with:
submodules: recursive
- uses: distrho/dpf-makefile-action@v1
with:
target: ${{ matrix.target }}
windows:
strategy:
matrix:
target: [win32, win64]
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v4
with:
submodules: recursive
- uses: distrho/dpf-makefile-action@v1
with:
target: ${{ matrix.target }}

4
plugin/DistrhoPluginInfo.h
View File

@ -74,6 +74,10 @@
pChorusMode, pChorusMode,
pVcoBend,
pVcfBend,
pModDepth,
parameterCount parameterCount
}; };

3
plugin/Makefile
View File

@ -34,7 +34,8 @@ include ../dpf/Makefile.plugins.mk
SKIP_NATIVE_AUDIO_FALLBACK = true SKIP_NATIVE_AUDIO_FALLBACK = true
TARGETS += jack lv2_sep vst3 clap # omitting LV2 for the moment until I figure out cross-compiling
TARGETS += jack vst2 vst3 clap
all: $(TARGETS) all: $(TARGETS)

9
plugin/assigner.cpp
View File

@ -61,9 +61,11 @@ void Assigner::handleMidi(MidiEvent* ev) {
break; break;
case 0xb0: case 0xb0:
switch (ev->data[1]) { switch (ev->data[1]) {
case 0x01: // modwheel
printf("mod wheel %02x\n", ev->data[2]);
m->modWheel = ev->data[2];
// handle the following // handle the following
// CC 1 - modwheel // CC 64 - sustain // FIXME sustain not implemented
// CC 64 - sustain
// possibly JU-06 CC values // possibly JU-06 CC values
default: default:
break; break;
@ -71,7 +73,8 @@ void Assigner::handleMidi(MidiEvent* ev) {
break; // nothing to do here except in special cases where we don't expect the host to pass on controls break; // nothing to do here except in special cases where we don't expect the host to pass on controls
case 0xc0: // program change case 0xc0: // program change
break; break;
case 0xe0: // pitch bend; case 0xe0: // pitch bend
m->bend = ((ev->data[1] + (ev->data[2]<<7))>>5)-0x100;
break; break;
case 0xf0: // sysex case 0xf0: // sysex
break; break;

28
plugin/chorus.cpp
View File

@ -19,9 +19,8 @@
#include "chorus.hpp" #include "chorus.hpp"
#include <math.h> #include <math.h>
#include <string.h>
#include <stdio.h> #include <stdio.h>
#include <string.h>
Chorus::Chorus() { Chorus::Chorus() {
lpfOut1 = new float[bufferSize]; lpfOut1 = new float[bufferSize];
lpfOut2 = new float[bufferSize]; lpfOut2 = new float[bufferSize];
@ -30,7 +29,8 @@ Chorus::Chorus() {
lfoPhase = 1; lfoPhase = 1;
lfoSpeed = 6.283 * 10.7 / sampleRate; // plainly silly value to show if it hasn't been set lfoSpeed = 6.283 * 10.7 / sampleRate; // plainly silly value to show if it hasn't been set
gainTC = 1 - exp(-6.283 * 10 / sampleRate); gainTC = 1 - exp(-M_PI * 10 / sampleRate); // 1/10th of a second declick
bbdTC = 1 - exp(-M_PI * 60 / sampleRate); // hpf into BBD
// not quite Butterworth but you'd never hear the difference // not quite Butterworth but you'd never hear the difference
// these are calculated from the real-world component values // these are calculated from the real-world component values
@ -76,11 +76,14 @@ void Chorus::run(float* input, float** outputs, uint32_t frames) {
hpDelay = flt; hpDelay = flt;
input[i] += (flt * hpGain); input[i] += (flt * hpGain);
ram[delayptr] = input[i]; flt = ((input[i] - bbdRC) * bbdTC) + bbdRC;
bbdRC = flt;
ram[delayptr] = input[i] - flt;
// delays in milliseconds // delays in milliseconds
#define BASE 0.005 #define BASE 0.0035
#define AMT 0.00175 #define AMT 0.002
dly1 = (BASE + (AMT * lfoPhase)) * sampleRate; dly1 = (BASE + (AMT * lfoPhase)) * sampleRate;
delay = (int)dly1; delay = (int)dly1;
@ -103,8 +106,6 @@ void Chorus::run(float* input, float** outputs, uint32_t frames) {
delayptr++; delayptr++;
delayptr &= 0x3ff; delayptr &= 0x3ff;
} }
//printf("dly1 = %f\n", dly1);
postFilter1l->runSVF(lpfOut1, lpfOut1, frames); postFilter1l->runSVF(lpfOut1, lpfOut1, frames);
postFilter2l->runSVF(lpfOut1, lpfOut1, frames); postFilter2l->runSVF(lpfOut1, lpfOut1, frames);
postFilter1r->runSVF(lpfOut2, lpfOut2, frames); postFilter1r->runSVF(lpfOut2, lpfOut2, frames);
@ -113,7 +114,6 @@ void Chorus::run(float* input, float** outputs, uint32_t frames) {
for (uint32_t i = 0; i < frames; i++) { for (uint32_t i = 0; i < frames; i++) {
float y = input[i]; float y = input[i];
gainRC = (gain - gainRC) * gainTC + gainRC; gainRC = (gain - gainRC) * gainTC + gainRC;
outputs[0][i] = y + (gainRC * lpfOut1[i]); outputs[0][i] = y + (gainRC * lpfOut1[i]);
outputs[1][i] = y + (gainRC * lpfOut2[i]); outputs[1][i] = y + (gainRC * lpfOut2[i]);
} }
@ -127,11 +127,11 @@ void Chorus::setHpf(uint8_t mode) {
// k = 1-exp(-2pi * Fc * sampleRate) // k = 1-exp(-2pi * Fc * sampleRate)
switch (mode) { switch (mode) {
case 0x00: case 0x00:
hpCut = 1 - exp(-6.283 * 720 / sampleRate); hpCut = 1 - exp(-M_PI * 720 / sampleRate);
hpGain = -1; hpGain = -1;
break; break;
case 0x08: case 0x08:
hpCut = 1 - exp(-6.283 * 225 / sampleRate); hpCut = 1 - exp(-M_PI * 225 / sampleRate);
hpGain = -1; hpGain = -1;
break; break;
case 0x10: case 0x10:
@ -140,7 +140,7 @@ void Chorus::setHpf(uint8_t mode) {
break; break;
case 0x18: case 0x18:
hpCut = 1 - exp(-6.283 * 85 / sampleRate); hpCut = 1 - exp(-6.283 * 85 / sampleRate);
hpGain = 1.707; hpGain = 1.0;
break; break;
} }
} }
@ -154,11 +154,11 @@ void Chorus::setChorus(uint8_t mode) {
break; break;
case 0x40: case 0x40:
gain = 1.2; gain = 1.2;
lfoSpeed = 6.283 * 0.3 / sampleRate; lfoSpeed = M_PI * 0.525 / sampleRate;
break; break;
case 0x00: case 0x00:
gain = 1.2; gain = 1.2;
lfoSpeed = 6.283 * 0.5 / sampleRate; lfoSpeed = M_PI * 0.85 / sampleRate;
break; break;
} }
} }

2
plugin/chorus.hpp
View File

@ -46,6 +46,8 @@ class Chorus {
float gainRC = 0; float gainRC = 0;
float gainTC = 0; float gainTC = 0;
float bbdRC=0, bbdTC=0;
uint16_t delayptr = 0; uint16_t delayptr = 0;

107
plugin/module.cpp
View File

@ -25,9 +25,9 @@
Module::Module() { Module::Module() {
// cutoff frequencies for various RC networks // cutoff frequencies for various RC networks
vcaTC = 1 - exp(-6.283 * 159 / sampleRate); // VCA and VCF 10k/0.1u time constant vcaTC = 1 - exp(-M_PI * 159 / sampleRate); // VCA and VCF 10k/0.1u time constant
subTC = 1 - exp(-6.283 * 15 / sampleRate); // Main VCA and Sub Level 1k + 10u time constant subTC = 1 - exp(-M_PI * 15 / sampleRate); // Main VCA and Sub Level 1k + 10u time constant
pwmTC = 1 - exp(-6.283 * 40 / sampleRate); // integrator with 100k/0.047u time constant pwmTC = 1 - exp(-M_PI * 40 / sampleRate); // integrator with 100k/0.047u time constant
vcaBuf = new float[bufferSize]; vcaBuf = new float[bufferSize];
subBuf = new float[bufferSize]; subBuf = new float[bufferSize];
@ -46,7 +46,7 @@ void Module::genNoise() {
for (uint32_t i = 0; i < bufferSize; i++) { for (uint32_t i = 0; i < bufferSize; i++) {
noiseRNG *= 0x8088405; noiseRNG *= 0x8088405;
noiseRNG++; noiseRNG++;
noiseBuf[i] = 2 - (noiseRNG & 0xffff) / 16384.0f; noiseBuf[i] = 1 - (noiseRNG & 0xffff) / 32768.0f;
} }
} }
@ -58,32 +58,41 @@ void Module::lfoRampOn() {
void Module::runLFO() { void Module::runLFO() {
if (lfoDelayState == 1) { if (lfoDelayState == 1) {
lfoDelayTimer += lfoDelayTable[patchRam.lfoDelay >> 4]; lfoDelayTimer += attackTable[patchRam.lfoDelay];
if (lfoDelayTimer & 0xc000) lfoDelayState = 2; if (lfoDelayTimer > 0x3fff) lfoDelayState = 2;
} }
if ((lfoDelayState == 2)) { if ((lfoDelayState == 2)) {
lfoDelay += attackTable[patchRam.lfoDelay]; lfoDelay += lfoDelayTable[patchRam.lfoDelay >> 4];
} }
if (lfoDelay & 0xc000) { if (lfoDelay > 0xff) {
lfoDelayState = 0; lfoDelayState = 0;
lfoDelay = 0x3fff; lfoDelay = 0xff;
} }
lfoPhase += lfoRateTable[patchRam.lfoRate]; lfoRate = lfoRateTable[patchRam.lfoRate]; // FIXME move to parameters
if (lfoPhase & 0x4000)
lfo = 0x1fff - (lfoPhase & 0x3fff);
else
lfo = (lfoPhase & 0x3fff) - 0x1fff;
pw = 0x3fff-(((0x2000 + lfo) * patchRam.pwmLfo) >> 7); lfoPhase += (lfoState & 0x01) ? -lfoRate : lfoRate;
pw = (patchRam.switch2 & 0x01) ? 0x3fff - (patchRam.pwmLfo << 7 ) : pw; if (lfoPhase > 0x1fff) {
lfo = (lfo * lfoDelay) >> 14; lfoPhase = 0x1fff;
lfoState++;
}
if (lfoPhase < 0x0000) {
lfoPhase = 0x0000;
lfoState++;
}
lfo = (lfoState & 0x02) ? -lfoPhase : lfoPhase;
pw = (lfoState & 0x02) ? lfoPhase + 0x2000 : 0x2000 - lfoPhase; // PW LFO is unipolar
pw = (patchRam.switch2 & 0x01) ? 0x3fff : pw; // either LFO or "all on"
pw = 0x3fff - ((pw * (int)(patchRam.pwmLfo*0.9125)) >> 7); // FIXME tidy up this bit
} }
void Module::run(Voice* voices, uint32_t blockSize) { void Module::run(Voice* voices, uint32_t blockSize) {
// run updates for module board // run updates for module board
int16_t lfoToVco = 0, lfoToVcf = 0;
// FIXME break these out to the patch setter // FIXME break these out to the patch setter
a = attackTable[patchRam.env_a]; // attack time coeff looked up in table a = attackTable[patchRam.env_a]; // attack time coeff looked up in table
d = decayTable[patchRam.env_d]; // decay time coeff looked up in table d = decayTable[patchRam.env_d]; // decay time coeff looked up in table
@ -92,15 +101,12 @@ void Module::run(Voice* voices, uint32_t blockSize) {
master = powf(2, (patchRam.vca / 31.75 - 4.0f)) * 0.1; master = powf(2, (patchRam.vca / 31.75 - 4.0f)) * 0.1;
// originally I had 0.28, 0.36, 0.4 square = (patchRam.switch1 & 0x08) ? 1 : 0;
// measurement suggests that saw and square are around 100mV each with sub 160mV saw = (patchRam.switch1 & 0x10) ? 1 : 0;
sub = (patchRam.sub / 127.0f) * 1.4;
square = (patchRam.switch1 & 0x08) ? 0.3 : 0;
saw = (patchRam.switch1 & 0x10) ? .3 : 0;
sub = (patchRam.sub / 127.0f) * 0.48;
res = patchRam.vcfReso / 127.0; res = patchRam.vcfReso / 127.0;
noise = (patchRam.noise / 127.0) * 0.4; noise = (patchRam.noise / 127.0);
// FIXME the exp in these is expensive, don't call it all the time // FIXME the exp in these is expensive, don't call it all the time
chorus->setChorus(patchRam.switch1 & 0x60); chorus->setChorus(patchRam.switch1 & 0x60);
@ -108,10 +114,11 @@ void Module::run(Voice* voices, uint32_t blockSize) {
runLFO(); runLFO();
float pwf = pw / 32768.0f; // calculate "smoothed" parameters
// these are single outputs with heavy RC smoothing
for (uint32_t i = 0; i < blockSize; i++) { for (uint32_t i = 0; i < blockSize; i++) {
vcaRC = (master - vcaRC) * subTC + vcaRC; vcaRC = (master - vcaRC) * subTC + vcaRC;
pwmRC = (pwf - pwmRC) * pwmTC + pwmRC; pwmRC = ((pw / 32768.0f) - pwmRC) * pwmTC + pwmRC;
subRC = (sub - subRC) * vcaTC + subRC; subRC = (sub - subRC) * vcaTC + subRC;
vcaBuf[i] = vcaRC; vcaBuf[i] = vcaRC;
@ -121,13 +128,28 @@ void Module::run(Voice* voices, uint32_t blockSize) {
if (bufPtr < bufferSize) bufPtr++; if (bufPtr < bufferSize) bufPtr++;
} }
int16_t vcf = (patchRam.vcfEnv << 7) * ((patchRam.switch2 & 0x02) ? -1 : 1); lfoToVco = (lfoDepthTable[patchRam.vcoLfo] * lfoDelay) >> 8; // lookup table is 0-255
lfoToVco += ((int)(modWheel * modDepth));
int16_t pitchBase = 0x1818; if (lfoToVco > 0xff) lfoToVco = 0xff;
pitchBase += (lfo * lfoDepthTable[patchRam.vcoLfo]) >> 11; lfoToVco = (lfo * lfoToVco) >> 11; // 8 for normalisation plus three additional DSLR EA
lfoToVcf = (patchRam.vcfLfo * lfoDelay) >> 7; // value is 0-127
lfoToVcf = (lfo * lfoToVcf) >> 9; // 8 for normalisation plus one additional DSLR EA
int16_t pitchBase = 0x1818, vcfBase = 0;
pitchBase += lfoToVco;
pitchBase += vcoBendDepth * bend;
vcfBase = (patchRam.vcfFreq << 7);
vcfBase += lfoToVcf;
vcfBase += vcfBendDepth * bend;
if (vcfBase > 0x3fff) vcfBase = 0x3fff;
if (vcfBase < 0x0000) vcfBase = 0x0000;
// per-voice calculations
for (uint32_t i = 0; i < NUM_VOICES; i++) { for (uint32_t i = 0; i < NUM_VOICES; i++) {
// maybe move all this into voice.cpp FIXME // run one step of the envelope
Voice* v = &voices[i]; Voice* v = &voices[i];
switch (v->envPhase) { switch (v->envPhase) {
case 0: // release phase FIXME use an enum I guess case 0: // release phase FIXME use an enum I guess
@ -146,23 +168,30 @@ void Module::run(Voice* voices, uint32_t blockSize) {
} }
// pitch // pitch
// FIXME clean this all up a bit uint16_t pitch = pitchBase + (v->note << 8);
int16_t pitch = pitchBase + (v->note << 8); int8_t semi = pitch >> 8;
int16_t semi = pitch >> 8; semi -= 36;
float frac = (pitch & 0xff) / 256.0; float frac = (pitch & 0xff) / 256.0;
if (semi < 0) {
semi = 0;
frac = 0;
}
if (semi >= 103) {
semi = 103;
frac = 0;
};
float p1 = pitchTable[semi], p2 = pitchTable[semi + 1]; float p1 = pitchTable[semi], p2 = pitchTable[semi + 1];
int16_t px = ((p2 - p1) * frac + p1); int16_t px = ((p2 - p1) * frac + p1); // interpolated pitch from table
// octave divider
px *= (patchRam.switch1 & 0x07); px *= (patchRam.switch1 & 0x07);
v->omega = px / (sampleRate * 8.0f); // fixme use proper scaler v->omega = px / sampleRate; // FIXME recalculate table using proper scaler
// per voice we need to calculate the key follow amount and envelope amount // per voice we need to calculate the key follow amount and envelope amount
v->vcfCut = (patchRam.vcfFreq << 7) + ((vcf * v->env) >> 14); v->vcfCut = vcfBase + (((v->env * patchRam.vcfEnv) >> 7) * ((patchRam.switch2 & 0x02) ? -1 : 1));
v->vcfCut += (lfo * patchRam.vcfLfo) >> 9;
v->vcfCut += (int)((v->note - 36) * (patchRam.vcfKey << 1) * 0.375); v->vcfCut += (int)((v->note - 60) * (patchRam.vcfKey << 1) * 0.375);
if (v->vcfCut > 0x3fff) v->vcfCut = 0x3fff; if (v->vcfCut > 0x3fff) v->vcfCut = 0x3fff;
if (v->vcfCut < 0) v->vcfCut = 0; if (v->vcfCut < 0) v->vcfCut = 0;

67
plugin/module.hpp
View File

@ -43,56 +43,10 @@ class Module {
uint16_t a, d, s, r; uint16_t a, d, s, r;
float saw = 0, square = 0, sub = 0, noise = 0, master = 0; float saw = 0, square = 0, sub = 0, noise = 0, master = 0;
int16_t bend = 0, modWheel=0;
/* float vcoBendDepth = 4, vcfBendDepth=1.5, modDepth=.5;
#if 0
struct {
uint8_t lfoRate = 0x58;
uint8_t lfoDelay = 0x00;
uint8_t vcoLfo = 0x00;
uint8_t pwmLfo = 0x3b;
uint8_t noise = 0x00;
uint8_t vcfFreq = 0x25; // 1c; // 0x3f80
uint8_t vcfReso = 0x6a;
uint8_t vcfEnv = 0x25; // 4e;
uint8_t vcfLfo = 0x00;
uint8_t vcfKey = 0x00; // 47;
uint8_t vca = 0x35;
uint8_t env_a = 0x00;
uint8_t env_d = 0x3c;
uint8_t env_s = 0x00; // 0x3f80
uint8_t env_r = 0x3c;
uint8_t sub = 0x7f;
uint8_t switch1 = 0x4a;
uint8_t switch2 = 0x18;
} patchRam;
#else
struct {
uint8_t lfoRate = 0x40;
uint8_t lfoDelay = 0x00;
uint8_t vcoLfo = 0x00;
uint8_t pwmLfo = 0x00;
uint8_t noise = 0x01;
uint8_t vcfFreq = 0x31;
uint8_t vcfReso = 0x7f;
uint8_t vcfEnv = 0x00;
uint8_t vcfLfo = 0x00;
uint8_t vcfKey = 0x7f;
uint8_t vca = 0x40;
uint8_t env_a = 0x00;
uint8_t env_d = 0x00;
uint8_t env_s = 0x00; // 0x3f80
uint8_t env_r = 0x00;
uint8_t sub = 0x00;
uint8_t switch1 = 0x22;
uint8_t switch2 = 0x1d;
} patchRam;
#endif
*/
struct { struct {
uint8_t lfoRate = 0x00; uint8_t lfoRate = 0x1f;
uint8_t lfoDelay = 0x00; uint8_t lfoDelay = 0x00;
uint8_t vcoLfo = 0x00; uint8_t vcoLfo = 0x00;
uint8_t pwmLfo = 0x3c; uint8_t pwmLfo = 0x3c;
@ -124,12 +78,15 @@ class Module {
private: private:
void runLFO(); void runLFO();
// precalculated coefficients for RC networks // precalculated coefficients for RC networks
float pwmTC = 0, subTC = 0, mVcaTC = 0; float pwmTC = 0, subTC = 0, mVcaTC = 0;
float pwmRC = 0, subRC = 0, vcaRC = 0; float pwmRC = 0, subRC = 0, vcaRC = 0;
int16_t lfo, pw; int16_t lfo, pw;
uint32_t lfoPhase; int16_t lfoPhase;
uint8_t lfoState = 0;
uint16_t lfoRate;
uint32_t noiseRNG = 1; uint32_t noiseRNG = 1;
@ -153,11 +110,11 @@ class Voice {
uint8_t pulseStage = 1; // pulse wave phase uint8_t pulseStage = 1; // pulse wave phase
float subosc = 1; // sub oscillator flipflop output float subosc = 1; // sub oscillator flipflop output
uint8_t envPhase = 0; uint8_t envPhase = 0; // current running state of envelope
int16_t env = 0; // output amplitude int16_t env = 0; // calculated envelope amount
uint16_t vcfCut; int16_t vcfCut; // calculated cutoff to filter
int16_t vcaEnv; int16_t vcaEnv; // calculated level to VCA (env/gate)
float vcaRC = 0, vcfRC = 0; float vcaRC = 0, vcfRC = 0; // RC circuit state values
uint8_t note = 0; uint8_t note = 0;

67
plugin/parameters.cpp
View File

@ -309,19 +309,35 @@ void Peacock::initParameter(uint32_t index, Parameter& parameter) {
enumValues[2].label = "Fast"; enumValues[2].label = "Fast";
parameter.enumValues.values = enumValues; parameter.enumValues.values = enumValues;
} }
/* break;
case pModWheel:
parameter.hints = kParameterIsAutomatable | kParameterIsHidden; case pVcoBend:
parameter.name = "Mod wheel"; parameter.hints = kParameterIsAutomatable;
parameter.symbol = "pfau_modwheel"; parameter.name = "VCO Bend";
parameter.ranges.min = 0.0f; parameter.symbol = "pfau_vcobend";
parameter.ranges.max = 127.0f; parameter.ranges.min = 0.0f;
parameter.ranges.def = 0.0f; parameter.ranges.max = 12.0f;
parameter.midiCC = 1; parameter.ranges.def = 4.0f;
break; break;
*/
case pVcfBend:
parameter.hints = kParameterIsAutomatable;
parameter.name = "VCF Bend";
parameter.symbol = "pfau_vcfbend";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 42.0f;
parameter.ranges.def = 4.0f;
break;
case pModDepth:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Mod Depth";
parameter.symbol = "pfau_moddepth";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 4.0f;
parameter.ranges.def = 0.5f;
break;
} }
// chorus, porta, bend range, key mode still to do
} }
void Peacock::setParameterValue(uint32_t index, float value) { void Peacock::setParameterValue(uint32_t index, float value) {
@ -341,7 +357,7 @@ void Peacock::setParameterValue(uint32_t index, float value) {
m->patchRam.vcoLfo = value; m->patchRam.vcoLfo = value;
break; break;
case pPWMDepth: case pPWMDepth:
m->patchRam.pwmLfo = value / 1.27; m->patchRam.pwmLfo = value;
break; break;
case pSubLevel: case pSubLevel:
m->patchRam.sub = value; m->patchRam.sub = value;
@ -434,10 +450,15 @@ void Peacock::setParameterValue(uint32_t index, float value) {
m->patchRam.switch2 &= 0xe7; m->patchRam.switch2 &= 0xe7;
m->patchRam.switch2 |= (3 - (int)value) << 3; m->patchRam.switch2 |= (3 - (int)value) << 3;
break; break;
/* case pVcoBend:
case pModWheel: m->vcoBendDepth = value;
//s.ff64 = (int)value << 1; break;
break;*/ case pVcfBend:
m->vcfBendDepth = value / 2.66f;
break;
case pModDepth:
m->modDepth = value;
break;
} }
} }
@ -466,7 +487,7 @@ float Peacock::getParameterValue(uint32_t index) const {
return m->patchRam.vcoLfo; return m->patchRam.vcoLfo;
break; break;
case pPWMDepth: case pPWMDepth:
return m->patchRam.pwmLfo * 1.27f; return m->patchRam.pwmLfo;
break; break;
case pPWMMode: case pPWMMode:
@ -536,6 +557,16 @@ float Peacock::getParameterValue(uint32_t index) const {
default: default:
break; break;
} }
break;
case pVcoBend:
return m->vcoBendDepth;
break;
case pVcfBend:
return m->vcfBendDepth * 2.66f;
break;
case pModDepth:
return m->modDepth;
break;
} }
return 0; return 0;
} }

7
plugin/peacock.cpp
View File

@ -28,6 +28,7 @@ Peacock::Peacock() : Plugin(parameterCount, 0, 0) {
sampleRate = getSampleRate(); sampleRate = getSampleRate();
bufferSize = getBufferSize(); bufferSize = getBufferSize();
chorus = new Chorus(); chorus = new Chorus();
m = new Module(); m = new Module();
ic1 = new Assigner; ic1 = new Assigner;
@ -80,16 +81,14 @@ void Peacock::run(const float**, float** outputs, uint32_t frames, const MidiEve
while (framePos < frames) { while (framePos < frames) {
if (blockLeft == 0) { if (blockLeft == 0) {
// no more samples to calculate in this update period // no more samples to calculate in this update period
blockLeft = sampleRate / 238; // update rate in Hz blockLeft = sampleRate / 233.5; // update rate in Hz, measured
runMidi(midiEvents, midiEventCount, framePos + blockLeft); runMidi(midiEvents, midiEventCount, framePos + blockLeft);
m->run(voice, blockLeft);
} }
// how many frames to do? Are we about to run off an update block // how many frames to do? Are we about to run off an update block
sizeThisTime = (framesLeft < blockLeft) ? framesLeft : blockLeft; sizeThisTime = (framesLeft < blockLeft) ? framesLeft : blockLeft;
// update the module board for this block
m->run(voice, sizeThisTime);
// now run all the voices for this chunk of samples // now run all the voices for this chunk of samples
for (uint32_t i = 0; i < NUM_VOICES; i++) { for (uint32_t i = 0; i < NUM_VOICES; i++) {
voice[i].run(m, outputs[0], framePos, sizeThisTime); voice[i].run(m, outputs[0], framePos, sizeThisTime);

26
plugin/tables.cpp
View File

@ -89,19 +89,19 @@ uint16_t lfoDelayTable[8] = {
0xffff, 0x0419, 0x020c, 0x015e, 0x0100, 0x0100, 0x0100, 0x0100}; 0xffff, 0x0419, 0x020c, 0x015e, 0x0100, 0x0100, 0x0100, 0x0100};
float pitchTable[104] = { float pitchTable[104] = {
32.494, 34.430, 36.486, 38.658, 40.962, 43.399, 45.990, 48.731, 8.123, 8.607, 9.122, 9.664, 10.240, 10.850, 11.497, 12.183,
51.633, 54.711, 57.969, 61.419, 65.072, 68.944, 73.059, 77.405, 12.908, 13.678, 14.492, 15.355, 16.268, 17.236, 18.265, 19.351,
82.014, 86.892, 92.077, 97.556, 103.365, 109.529, 116.043, 122.933, 20.504, 21.723, 23.019, 24.389, 25.841, 27.382, 29.011, 30.733,
130.242, 137.988, 146.220, 154.919, 164.136, 173.898, 184.264, 195.217, 32.561, 34.497, 36.555, 38.730, 41.034, 43.474, 46.066, 48.804,
206.847, 219.178, 232.207, 245.972, 260.586, 276.091, 292.569, 309.981, 51.712, 54.795, 58.052, 61.493, 65.147, 69.023, 73.142, 77.495,
328.407, 347.947, 368.664, 390.549, 413.822, 438.500, 464.576, 492.005, 82.102, 86.987, 92.166, 97.637, 103.455, 109.625, 116.144, 123.001,
521.241, 552.334, 585.309, 620.155, 657.030, 696.136, 737.463, 781.250, 130.310, 138.083, 146.327, 155.039, 164.258, 174.034, 184.366, 195.312,
827.815, 877.193, 929.368, 984.252, 1042.753, 1104.972, 1170.960, 1240.695, 206.954, 219.298, 232.342, 246.063, 260.688, 276.243, 292.740, 310.174,
1314.060, 1392.758, 1474.926, 1562.500, 1655.629, 1754.386, 1858.736, 1968.504, 328.515, 348.189, 368.732, 390.625, 413.907, 438.596, 464.684, 492.126,
2085.506, 2209.945, 2341.920, 2481.390, 2628.121, 2785.515, 2949.853, 3125.000, 521.376, 552.486, 585.480, 620.347, 657.030, 696.379, 737.463, 781.250,
3311.258, 3508.772, 3717.472, 3937.008, 4175.365, 4424.779, 4683.841, 4962.779, 827.815, 877.193, 929.368, 984.252, 1043.841, 1106.195, 1170.960, 1240.695,
5263.158, 5571.031, 5899.705, 6250.000, 6622.517, 7017.544, 7434.944, 7874.016, 1315.789, 1392.758, 1474.926, 1562.500, 1655.629, 1754.386, 1858.736, 1968.504,
8333.333, 8849.558, 9389.671, 9950.249, 10526.316, 11173.184, 11834.320, 12500.000 2083.333, 2212.389, 2347.418, 2487.562, 2631.579, 2793.296, 2958.580, 3125.000,
}; };
#endif #endif

7
plugin/ui.cpp
View File

@ -258,15 +258,17 @@ void DistrhoUIPeacock::parameterChanged(uint32_t index, float value) {
sw1 &= 0xf8; // mask sw1 &= 0xf8; // mask
if (value > 2) value = 2; if (value > 2) value = 2;
sw1 |= (1 << (int)value); sw1 |= (1 << (int)value);
xBtn16ft->repaint(); // will repaint all the panel repaint();
break; break;
case pSqr: case pSqr:
sw1 &= 0xf7; sw1 &= 0xf7;
sw1 |= ((value >= 0.5)) << 3; sw1 |= ((value >= 0.5)) << 3;
repaint();
break; break;
case pSaw: case pSaw:
sw1 &= 0xef; sw1 &= 0xef;
sw1 |= (value > 0.5) << 4; sw1 |= (value > 0.5) << 4;
repaint();
break; break;
case pChorusMode: case pChorusMode:
@ -283,6 +285,8 @@ void DistrhoUIPeacock::parameterChanged(uint32_t index, float value) {
sw1 |= 0x00; sw1 |= 0x00;
break; break;
} }
repaint();
break;
} }
} }
@ -340,6 +344,7 @@ void DistrhoUIPeacock::imageButtonClicked(ImageButton* imgBtn, int) {
default: default:
break; break;
} }
repaint();
} }
void DistrhoUIPeacock::onDisplay() { void DistrhoUIPeacock::onDisplay() {

24
plugin/voice.cpp
View File

@ -40,9 +40,9 @@ Voice::Voice() {
} }
void Voice::on(uint8_t midiNote) { void Voice::on(uint8_t midiNote) {
while (midiNote < 24) midiNote += 12; while (midiNote < 24) midiNote += 12; // limit lowest note to C1
while (midiNote > 108) midiNote -= 12; while (midiNote > 108) midiNote -= 12; // limit highest note to C8
note = midiNote - 24; note = midiNote;
envPhase = 1; envPhase = 1;
} }
@ -50,16 +50,6 @@ void Voice::off() {
envPhase = 0; envPhase = 0;
} }
// tanh(x)/x approximation, flatline at very high inputs
// so might not be safe for very large feedback gains
// [limit is 1/15 so very large means ~15 or +23dB]
float tanhXdX(float x) {
return 1 - 0.05 * abs(x);
float s = 0.0333, d = 30.0;
return 1.0f - s * (d + 1.0f) * x * x / (d + x * x);
}
void Voice::run(Module* m, float* buffer, uint32_t framePos, uint32_t samples) { void Voice::run(Module* m, float* buffer, uint32_t framePos, uint32_t samples) {
// carry out per-voice calculations for each block of samples // carry out per-voice calculations for each block of samples
float out, t, fb; float out, t, fb;
@ -70,9 +60,9 @@ void Voice::run(Module* m, float* buffer, uint32_t framePos, uint32_t samples) {
cut = cut / (1 + cut); // correct tuning warp cut = cut / (1 + cut); // correct tuning warp
if (cut > 0.7) cut = 0.7; if (cut > 0.7) cut = 0.7;
float r = 5 * m->res; float r = 6 * m->res;
float amp = vcaEnv / 4096.0f; float amp = vcaEnv / 32768.0f;
for (uint32_t i = 0; i < samples; i++) { for (uint32_t i = 0; i < samples; i++) {
out = delay; out = delay;
@ -117,8 +107,8 @@ void Voice::run(Module* m, float* buffer, uint32_t framePos, uint32_t samples) {
fb = y3; fb = y3;
// hard clip // hard clip
fb = ((out * 0.5) - fb) * r; fb = ((out * 0.5) - fb) * r;
if (fb > 2) fb = 2; if (fb > 6) fb = 6;
if (fb < -2) fb = -2; if (fb < -6) fb = -6;
y0 = ((out + fb - y0) * vcfRC) + y0; y0 = ((out + fb - y0) * vcfRC) + y0;
y1 = ((y0 - y1) * vcfRC) + y1; y1 = ((y0 - y1) * vcfRC) + y1;