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initial parameter support

This commit is contained in:
Gordon JC Pearce 2025-12-19 23:21:12 +00:00
parent 792e6e59b5
commit 3bd35fb838
3 changed files with 538 additions and 3 deletions
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1
plugin/Makefile
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@ -14,6 +14,7 @@ FILES_DSP = \
module.cpp \ module.cpp \
voice.cpp \ voice.cpp \
tables.cpp \ tables.cpp \
parameters.cpp \
peacock.cpp peacock.cpp
include ../dpf/Makefile.plugins.mk include ../dpf/Makefile.plugins.mk

498
plugin/parameters.cpp Normal file
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@ -0,0 +1,498 @@
/*
Chassis polysynth framework
Copyright 2024 Gordon JC Pearce <gordonjcp@gjcp.net>
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "peacock.hpp"
void Peacock::initParameter(uint32_t index, Parameter& parameter) {
switch (index) {
case paramLFORate:
parameter.hints = kParameterIsAutomatable;
parameter.name = "LFO Rate";
parameter.symbol = "ch_lforate";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 48.0f;
parameter.midiCC = 3;
break;
case paramLFODelay:
parameter.hints = kParameterIsAutomatable;
parameter.name = "LFO Delay";
parameter.symbol = "ch_lfodelay";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 9;
break;
case paramVCORange:
parameter.hints = kParameterIsAutomatable | kParameterIsInteger;
parameter.name = "Range";
parameter.symbol = "ch_vcorange";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 2.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 12;
parameter.enumValues.count = 3;
parameter.enumValues.restrictedMode = true;
{
ParameterEnumerationValue* const enumValues = new ParameterEnumerationValue[3];
enumValues[0].value = 0.0f;
enumValues[0].label = "16'";
enumValues[1].value = 1.0f;
enumValues[1].label = "8'";
enumValues[2].value = 2.0f;
enumValues[2].label = "4'";
parameter.enumValues.values = enumValues;
}
break;
case paramVCOLFO:
parameter.hints = kParameterIsAutomatable;
parameter.name = "LFO";
parameter.symbol = "ch_lfo";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 10.0f;
parameter.midiCC = 13;
break;
case paramPWMLFO:
parameter.hints = kParameterIsAutomatable;
parameter.name = "PWM";
parameter.symbol = "ch_pwm";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 48.0f;
parameter.midiCC = 14;
break;
case paramPWMMode:
parameter.hints = kParameterIsAutomatable | kParameterIsBoolean;
parameter.name = "PWM Mode";
parameter.symbol = "ch_pwmmode";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 1.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 15;
parameter.enumValues.count = 2;
parameter.enumValues.restrictedMode = true;
{
ParameterEnumerationValue* const enumValues = new ParameterEnumerationValue[2];
enumValues[0].value = 0.0f;
enumValues[0].label = "LFO";
enumValues[1].value = 1.0f;
enumValues[1].label = "MAN";
parameter.enumValues.values = enumValues;
}
break;
case paramSaw:
parameter.hints = kParameterIsAutomatable | kParameterIsBoolean;
parameter.name = "Saw";
parameter.symbol = "ch_saw";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 1.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 17;
break;
case paramSqr:
parameter.hints = kParameterIsAutomatable | kParameterIsBoolean;
parameter.name = "Square";
parameter.symbol = "ch_sqr";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 1.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 16;
break;
case paramSub:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Sub Osc";
parameter.symbol = "ch_sub";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 18;
break;
case paramNoise:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Noise";
parameter.symbol = "ch_noise";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 19;
break;
case paramHPF:
parameter.hints = kParameterIsAutomatable | kParameterIsInteger;
parameter.name = "HPF";
parameter.symbol = "ch_hpf";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 3.9f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 20;
break;
case paramVCFFreq:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Freq";
parameter.symbol = "ch_freq";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 60.0f;
parameter.midiCC = 74;
break;
case paramVCFReso:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Res";
parameter.symbol = "ch_reso";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 71;
break;
case paramVCFMode:
parameter.hints = kParameterIsAutomatable | kParameterIsInteger;
parameter.name = "Polarity";
parameter.symbol = "ch_vcfmode";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 1.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 21;
parameter.enumValues.count = 2;
parameter.enumValues.restrictedMode = true;
{
ParameterEnumerationValue* const enumValues = new ParameterEnumerationValue[2];
enumValues[0].value = 0.0f;
enumValues[0].label = "POS";
enumValues[1].value = 1.0f;
enumValues[1].label = "INV";
parameter.enumValues.values = enumValues;
}
break;
case paramVCFEnv:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Env";
parameter.symbol = "ch_vcfenv";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 46.0f;
parameter.midiCC = 22;
break;
case paramVCFLFO:
parameter.hints = kParameterIsAutomatable;
parameter.name = "LFO";
parameter.symbol = "ch_vcflfo";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 23;
break;
case paramVCFKey:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Kybd";
parameter.symbol = "ch_vcfkey";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 71.0f;
parameter.midiCC = 24;
break;
case paramAttack:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Attack";
parameter.symbol = "ch_attack";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 27.0f;
parameter.midiCC = 73;
break;
case paramDecay:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Decay";
parameter.symbol = "ch_decay";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 57.0f;
parameter.midiCC = 75;
break;
case paramSustain:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Sustain";
parameter.symbol = "ch_sustain";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 57.0f;
parameter.midiCC = 27;
break;
case paramRelease:
parameter.hints = kParameterIsAutomatable;
parameter.name = "Release";
parameter.symbol = "ch_release";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 48.0f;
parameter.midiCC = 72;
break;
case paramEnvGate:
parameter.hints = kParameterIsAutomatable | kParameterIsInteger; // | kParameterIsBoolean;
parameter.name = "Env-Gate";
parameter.symbol = "ch_envgate";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 1.0f;
parameter.ranges.def = 1.0f;
parameter.midiCC = 25;
parameter.enumValues.count = 2;
parameter.enumValues.restrictedMode = true;
{
ParameterEnumerationValue* const enumValues = new ParameterEnumerationValue[2];
enumValues[0].value = 0.0f;
enumValues[0].label = "ENV";
enumValues[1].value = 1.0f;
enumValues[1].label = "GATE";
parameter.enumValues.values = enumValues;
}
break;
case paramVCALevel:
parameter.hints = kParameterIsAutomatable;
parameter.name = "VCA Level";
parameter.symbol = "ch_vcalevel";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 40.0f;
parameter.midiCC = 26;
break;
case paramModWheel:
parameter.hints = kParameterIsAutomatable | kParameterIsHidden;
parameter.name = "Mod wheel";
parameter.symbol = "ch_modwheel";
parameter.ranges.min = 0.0f;
parameter.ranges.max = 127.0f;
parameter.ranges.def = 0.0f;
parameter.midiCC = 1;
break;
}
// chorus, porta, bend range, key mode still to do
}
void Peacock::setParameterValue(uint32_t index, float value) {
// should be trapped by host, but let's be safe
if (value < 0.0f) value = 0.0f;
if (value > 127.0f) value = 127.0f;
switch (index) {
case paramLFORate:
m->patchRam.lfoRate = value;
break;
case paramLFODelay:
m->patchRam.lfoDelay = value;
break;
case paramVCOLFO:
m->patchRam.vcoLfo = value;
break;
case paramPWMLFO:
m->patchRam.pwmLfo = value / 1.27;
break;
case paramSub:
m->patchRam.sub = value;
break;
case paramNoise:
m->patchRam.noise = value;
break;
case paramVCFFreq:
m->patchRam.vcfFreq = value;
break;
case paramVCFReso:
m->patchRam.vcfReso = value;
break;
case paramVCFEnv:
m->patchRam.vcfEnv = value;
break;
case paramVCFLFO:
m->patchRam.vcfLfo = value;
break;
case paramVCFKey:
m->patchRam.vcfKey = value;
break;
case paramVCALevel:
m->patchRam.vca = value;
break;
case paramAttack:
m->patchRam.env_a = value;
break;
case paramDecay:
m->patchRam.env_d = value;
break;
case paramSustain:
m->patchRam.env_s = value;
break;
case paramRelease:
m->patchRam.env_r = value;
break;
// switch 1 params
case paramVCORange: // bits 0-2 of switch 1
// doesn't look great in Carla because of odd behaviour with small integer knobs
m->patchRam.switch1 &= 0xf8;
m->patchRam.switch1 |= (1 << (int)(value - 1));
break;
case paramSqr: // bit 3 of switch 1
m->patchRam.switch1 &= 0xf7;
m->patchRam.switch1 |= (value >= 0.5) << 3;
break;
case paramSaw: // bit 4 of switch 1
m->patchRam.switch1 &= 0xef;
m->patchRam.switch1 |= (value >= 0.5) << 4;
break;
// missing chorus switch
// switch 2 params
case paramPWMMode: // bit 0 of switch 2
m->patchRam.switch2 &= 0xfe;
m->patchRam.switch2 |= (value >= 0.5);
break;
case paramVCFMode: // bit 1 of switch 2
m->patchRam.switch2 &= 0xfd;
m->patchRam.switch2 |= (value >= 0.5) << 1;
break;
case paramEnvGate:
m->patchRam.switch2 &= 0xfb;
m->patchRam.switch2 |= (value >= 0.5) << 2;
break;
case paramHPF: // bits 3-4 of switch 2
// doesn't look great in Carla because of odd behaviour with small integer knobs
printf("setPV %d %f\n", index, value);
if (value > 3) value = 3;
m->patchRam.switch2 &= 0xe7;
m->patchRam.switch2 |= (3-(int)value )<< 3;
break;
case paramModWheel:
//s.ff64 = (int)value << 1;
break;
}
}
float Peacock::getParameterValue(uint32_t index) const {
switch (index) {
case paramLFORate:
return m->patchRam.lfoRate;
break;
case paramLFODelay:
return m->patchRam.lfoDelay;
break;
case paramVCORange:
// FIXME this needs to be better generally
switch (m->patchRam.switch1 & 0x07) {
case 1:
return 0;
break;
case 4:
return 2;
break;
default:
return 1;
}
break;
case paramVCOLFO:
return m->patchRam.vcoLfo;
break;
case paramPWMLFO:
return m->patchRam.pwmLfo * 1.27f;
break;
case paramPWMMode:
return (m->patchRam.switch2 & 0x01) != 0;
break;
case paramSaw:
return (m->patchRam.switch1 & 0x10) != 0;
break;
case paramSqr:
return (m->patchRam.switch1 & 0x08) != 0;
case paramSub:
return m->patchRam.sub;
break;
case paramNoise:
return m->patchRam.noise;
break;
case paramHPF:
return 3-((m->patchRam.switch2 & 0x18) >> 3);
break;
case paramVCFFreq:
return m->patchRam.vcfFreq;
break;
case paramVCFReso:
return m->patchRam.vcfReso;
break;
case paramVCFEnv:
return m->patchRam.vcfEnv;
break;
case paramVCFLFO:
return m->patchRam.vcfLfo;
break;
case paramVCFKey:
return m->patchRam.vcfKey;
break;
case paramVCFMode:
return (m->patchRam.switch2 & 0x02) != 0;
break;
case paramAttack:
return m->patchRam.env_a;
break;
case paramDecay:
return m->patchRam.env_d;
break;
case paramSustain:
return m->patchRam.env_s;
break;
case paramRelease:
return m->patchRam.env_r;
break;
case paramEnvGate:
return (m->patchRam.switch2 & 0x04) != 0;
case paramVCALevel:
return m->patchRam.vca;
break;
}
return 0;
}

42
plugin/peacock.hpp
View File

@ -29,6 +29,40 @@ class Peacock : public Plugin {
Peacock(); Peacock();
~Peacock(); ~Peacock();
enum Parameters {
paramLFORate,
paramLFODelay,
paramVCORange,
paramVCOLFO,
paramPWMLFO,
paramPWMMode,
paramSaw,
paramSqr,
paramSub,
paramNoise,
paramHPF,
paramVCFFreq,
paramVCFReso,
paramVCFMode,
paramVCFEnv,
paramVCFLFO,
paramVCFKey,
paramEnvGate,
paramVCALevel,
paramAttack,
paramDecay,
paramSustain,
paramRelease,
paramModWheel,
parameterCount
};
protected: protected:
const char* getLabel() const override { return "peacock-8"; } const char* getLabel() const override { return "peacock-8"; }
@ -43,6 +77,11 @@ class Peacock : public Plugin {
// Initialisation // Initialisation
void initAudioPort(bool input, uint32_t index, AudioPort& port) override; void initAudioPort(bool input, uint32_t index, AudioPort& port) override;
void initParameter(uint32_t index, Parameter &parameter) override;
void setParameterValue(uint32_t index, float value) override;
float getParameterValue(uint32_t index) const override;
void run(const float**, float** outputs, uint32_t frames, const MidiEvent* midiEvents, uint32_t midiEventCount) override; void run(const float**, float** outputs, uint32_t frames, const MidiEvent* midiEvents, uint32_t midiEventCount) override;
void runMidi(const MidiEvent* ev, uint32_t ev_count, uint32_t timeLimit); void runMidi(const MidiEvent* ev, uint32_t ev_count, uint32_t timeLimit);
@ -52,15 +91,12 @@ class Peacock : public Plugin {
Assigner* ic1; Assigner* ic1;
Module* m; Module* m;
uint32_t sampleRate; uint32_t sampleRate;
// variables for breaking up the 4.3 millisecond module board ticks // variables for breaking up the 4.3 millisecond module board ticks
uint32_t lastEvent = 0; // event number of last MIDI event processed in a chunk uint32_t lastEvent = 0; // event number of last MIDI event processed in a chunk
uint32_t framesLeft = 0, blockLeft = 0; uint32_t framesLeft = 0, blockLeft = 0;
DISTRHO_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(Peacock); DISTRHO_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(Peacock);
}; };