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801 lines
22 KiB
801 lines
22 KiB
/**
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Copyright (c) 2016-2017 Holger Wirtz <dcoredump@googlemail.com>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software Foundation,
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Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include "synth.h"
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#include "dexed.h"
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#include "EngineMkI.h"
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#include "EngineOpl.h"
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#include "fm_core.h"
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#include "exp2.h"
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#include "sin.h"
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#include "freqlut.h"
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#include "controllers.h"
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#include "trace.h"
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#include <unistd.h>
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#include <limits.h>
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Dexed::Dexed(int rate)
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{
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uint8_t i;
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Exp2::init();
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Tanh::init();
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Sin::init();
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Freqlut::init(rate);
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Lfo::init(rate);
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PitchEnv::init(rate);
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Env::init_sr(rate);
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engineMkI = new EngineMkI;
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engineOpl = new EngineOpl;
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engineMsfa = new FmCore;
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/*
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if(!(engineMkI=new (std::nothrow) EngineMkI))
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TRACE("Cannot not create engine EngineMkI");
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if(!(engineOpl=new (std::nothrow) EngineOpl))
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{
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delete(engineMkI);
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TRACE("Cannot not create engine EngineOpl");
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}
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if(!(engineMsfa=new (std::nothrow) FmCore))
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{
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delete(engineMkI);
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delete(engineOpl);
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TRACE("Cannot create engine FmCore");
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}
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*/
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for (i = 0; i < MAX_ACTIVE_NOTES; i++) {
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voices[i].dx7_note = new Dx7Note;
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voices[i].keydown = false;
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voices[i].sustained = false;
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voices[i].live = false;
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}
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/* for(i=0;i<sizeof(data);++i)
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{
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data_float[i]=static_cast<float>(data[i]);
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}*/
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max_notes = 16;
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currentNote = 0;
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controllers.values_[kControllerPitch] = 0x2000;
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controllers.values_[kControllerPitchRange] = 0;
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controllers.values_[kControllerPitchStep] = 0;
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controllers.modwheel_cc = 0;
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controllers.foot_cc = 0;
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controllers.breath_cc = 0;
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controllers.aftertouch_cc = 0;
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controllers.masterTune = 0;
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controllers.opSwitch = 0x3f; // enable all operators
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//controllers.opSwitch=0x00;
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lfo.reset(data + 137);
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setMonoMode(false);
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sustain = false;
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extra_buf_size_ = 0;
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memset(&voiceStatus, 0, sizeof(VoiceStatus));
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setEngineType(DEXED_ENGINE_MODERN);
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}
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Dexed::~Dexed()
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{
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currentNote = -1;
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for (uint8_t note = 0; note < MAX_ACTIVE_NOTES; ++note)
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delete voices[note].dx7_note;
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delete(engineMsfa);
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delete(engineOpl);
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delete(engineMkI);
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}
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void Dexed::activate(void)
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{
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panic();
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controllers.values_[kControllerPitchRange] = data[155];
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controllers.values_[kControllerPitchStep] = data[156];
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controllers.refresh();
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}
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void Dexed::deactivate(void)
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{
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; // nothing to do...
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}
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void Dexed::GetSamples(uint16_t n_samples, int16_t* buffer)
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{
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uint16_t i;
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if (refreshVoice) {
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for (i = 0; i < max_notes; i++) {
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if ( voices[i].live )
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voices[i].dx7_note->update(data, voices[i].midi_note, voices[i].velocity);
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}
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lfo.reset(data + 137);
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refreshVoice = false;
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}
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// flush first events
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for (i = 0; i < n_samples && i < extra_buf_size_; i++) {
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buffer[i] = extra_buf_[i];
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}
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// remaining buffer is still to be processed
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if (extra_buf_size_ > n_samples) {
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for (uint16_t j = 0; j < extra_buf_size_ - n_samples; j++) {
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extra_buf_[j] = extra_buf_[j + n_samples];
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}
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extra_buf_size_ -= n_samples;
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}
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else
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{
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for (; i < n_samples; i += _N_) {
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AlignedBuf<int32_t, _N_> audiobuf;
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float sumbuf[_N_];
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for (uint8_t j = 0; j < _N_; ++j) {
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audiobuf.get()[j] = 0;
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sumbuf[j] = 0.0;
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}
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int32_t lfovalue = lfo.getsample();
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int32_t lfodelay = lfo.getdelay();
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for (uint8_t note = 0; note < max_notes; ++note) {
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if (voices[note].live) {
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voices[note].dx7_note->compute(audiobuf.get(), lfovalue, lfodelay, &controllers);
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for (uint8_t j = 0; j < _N_; ++j) {
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int32_t val = audiobuf.get()[j];
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val = val >> 4;
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int32_t clip_val = val < -(1 << 24) ? 0x8000 : val >= (1 << 24) ? 0x7fff : val >> 9;
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float f = static_cast<float>(clip_val >> 1) / 0x8000;
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if (f > 1) f = 1;
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if (f < -1) f = -1;
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sumbuf[j] += f;
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audiobuf.get()[j] = 0;
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}
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}
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}
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uint16_t jmax = n_samples - i;
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for (uint8_t j = 0; j < _N_; ++j) {
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if (j < jmax)
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{
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buffer[i + j] = static_cast<int16_t>(sumbuf[j] * 0x8000);
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}
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else
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extra_buf_[j - jmax] = static_cast<int16_t>(sumbuf[j] * 0x8000);
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}
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}
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extra_buf_size_ = i - n_samples;
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}
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if (++_k_rate_counter % 32 && !monoMode)
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{
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uint8_t op_carrier = controllers.core->get_carrier_operators(data[134]); // look for carriers
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for (i = 0; i < max_notes; i++)
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{
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if (voices[i].live == true)
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{
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uint8_t op_amp = 0;
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uint8_t op_carrier_num = 0;
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voices[i].dx7_note->peekVoiceStatus(voiceStatus);
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for (uint8_t op = 0; op < 6; op++)
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{
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uint8_t op_bit = static_cast<uint8_t>(pow(2, op));
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if ((op_carrier & op_bit) > 0)
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{
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// this voice is a carrier!
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op_carrier_num++;
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//TRACE("Voice[%2d] OP [%d] amp=%ld,amp_step=%d,pitch_step=%d",i,op,voiceStatus.amp[op],voiceStatus.ampStep[op],voiceStatus.pitchStep);
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if (voiceStatus.amp[op] <= 1069 && voiceStatus.ampStep[op] == 4) // this voice produces no audio output
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op_amp++;
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}
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}
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if (op_amp == op_carrier_num)
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{
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// all carrier-operators are silent -> disable the voice
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voices[i].live = false;
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voices[i].sustained = false;
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voices[i].keydown = false;
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TRACE("Shutted down Voice[%2d]", i);
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}
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}
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}
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}
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}
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bool Dexed::ProcessMidiMessage(uint8_t type, uint8_t data1, uint8_t data2)
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{
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switch (type & 0xf0) {
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case 0x80 :
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//TRACE("MIDI keyup event: %d", data1);
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keyup(data1);
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return (false);
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break;
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case 0x90 :
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//TRACE("MIDI keydown event: %d %d", data1, data2);
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keydown(data1, data2);
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return (false);
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break;
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case 0xb0 : {
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uint8_t ctrl = data1;
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uint8_t value = data2;
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switch (ctrl) {
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case 1:
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//TRACE("MIDI modwheel event: %d %d", ctrl, value);
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controllers.modwheel_cc = value;
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controllers.refresh();
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break;
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case 2:
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//TRACE("MIDI breath event: %d %d", ctrl, value);
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controllers.breath_cc = value;
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controllers.refresh();
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break;
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case 4:
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//TRACE("MIDI footsw event: %d %d", ctrl, value);
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controllers.foot_cc = value;
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controllers.refresh();
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break;
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case 64:
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//TRACE("MIDI sustain event: %d %d", ctrl, value);
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sustain = value > 63;
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if (!sustain) {
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for (uint8_t note = 0; note < max_notes; note++) {
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if (voices[note].sustained && !voices[note].keydown) {
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voices[note].dx7_note->keyup();
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voices[note].sustained = false;
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}
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}
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}
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break;
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case 120:
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//TRACE("MIDI all-sound-off: %d %d", ctrl, value);
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panic();
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return (true);
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break;
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case 123:
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//TRACE("MIDI all-notes-off: %d %d", ctrl, value);
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notes_off();
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return (true);
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break;
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}
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break;
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}
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// case 0xc0 :
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// setCurrentProgram(data1);
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// break;
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// channel aftertouch
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case 0xd0 :
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//TRACE("MIDI aftertouch 0xd0 event: %d %d", data1);
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controllers.aftertouch_cc = data1;
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controllers.refresh();
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break;
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// pitchbend
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case 0xe0 :
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//TRACE("MIDI pitchbend 0xe0 event: %d %d", data1, data2);
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controllers.values_[kControllerPitch] = data1 | (data2 << 7);
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break;
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default:
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//TRACE("MIDI event unknown: cmd=%d, val1=%d, val2=%d", cmd, data1, data2);
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break;
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}
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TRACE("Bye");
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return (false);
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}
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void Dexed::keydown(uint8_t pitch, uint8_t velo) {
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TRACE("Hi");
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TRACE("pitch=%d, velo=%d\n", pitch, velo);
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if ( velo == 0 ) {
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keyup(pitch);
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return;
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}
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pitch += data[144] - 24;
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uint8_t note = currentNote;
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uint8_t keydown_counter = 0;
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for (uint8_t i = 0; i < max_notes; i++) {
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if (!voices[note].keydown) {
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currentNote = (note + 1) % max_notes;
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voices[note].midi_note = pitch;
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voices[note].velocity = velo;
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voices[note].sustained = sustain;
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voices[note].keydown = true;
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voices[note].dx7_note->init(data, (int)pitch, (int)velo);
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if ( data[136] )
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voices[note].dx7_note->oscSync();
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break;
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}
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else
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keydown_counter++;
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note = (note + 1) % max_notes;
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}
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if (keydown_counter == 0)
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lfo.keydown();
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if ( monoMode ) {
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for (uint8_t i = 0; i < max_notes; i++) {
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if ( voices[i].live ) {
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// all keys are up, only transfer signal
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if ( ! voices[i].keydown ) {
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voices[i].live = false;
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voices[note].dx7_note->transferSignal(*voices[i].dx7_note);
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break;
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}
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if ( voices[i].midi_note < pitch ) {
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voices[i].live = false;
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voices[note].dx7_note->transferState(*voices[i].dx7_note);
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break;
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}
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return;
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}
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}
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}
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voices[note].live = true;
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TRACE("Bye");
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}
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void Dexed::keyup(uint8_t pitch) {
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TRACE("Hi");
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TRACE("pitch=%d\n", pitch);
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pitch += data[144] - 24;
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uint8_t note;
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for (note = 0; note < max_notes; ++note) {
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if ( voices[note].midi_note == pitch && voices[note].keydown ) {
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voices[note].keydown = false;
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break;
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}
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}
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// note not found ?
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if ( note >= max_notes ) {
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TRACE("note-off not found???");
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return;
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}
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if ( monoMode ) {
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int8_t highNote = -1;
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int8_t target = 0;
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for (int8_t i = 0; i < max_notes; i++) {
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if ( voices[i].keydown && voices[i].midi_note > highNote ) {
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target = i;
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highNote = voices[i].midi_note;
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}
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}
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if ( highNote != -1 && voices[note].live ) {
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voices[note].live = false;
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voices[target].live = true;
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voices[target].dx7_note->transferState(*voices[note].dx7_note);
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}
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}
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if ( sustain ) {
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voices[note].sustained = true;
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} else {
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voices[note].dx7_note->keyup();
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}
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TRACE("Bye");
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}
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/*
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void Dexed::onParam(uint8_t param_num, float param_val)
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{
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int32_t tune;
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if (param_val != data_float[param_num])
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{
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TRACE("Parameter %d change from %f to %f", param_num, data_float[param_num], param_val);
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#ifdef DEBUG
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uint8_t tmp = data[param_num];
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#endif
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_param_change_counter++;
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if (param_num == 144 || param_num == 134 || param_num == 172)
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panic();
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refreshVoice = true;
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data[param_num] = static_cast<uint8_t>(param_val);
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data_float[param_num] = param_val;
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switch (param_num)
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{
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case 155:
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controllers.values_[kControllerPitchRange] = data[param_num];
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break;
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case 156:
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controllers.values_[kControllerPitchStep] = data[param_num];
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break;
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case 157:
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controllers.wheel.setRange(data[param_num]);
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controllers.wheel.setTarget(data[param_num + 1]);
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controllers.refresh();
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break;
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case 158:
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controllers.wheel.setRange(data[param_num - 1]);
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controllers.wheel.setTarget(data[param_num]);
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controllers.refresh();
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break;
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case 159:
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controllers.foot.setRange(data[param_num]);
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controllers.foot.setTarget(data[param_num + 1]);
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controllers.refresh();
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break;
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case 160:
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controllers.foot.setRange(data[param_num - 1]);
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controllers.foot.setTarget(data[param_num]);
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controllers.refresh();
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break;
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case 161:
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controllers.breath.setRange(data[param_num]);
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controllers.breath.setTarget(data[param_num + 1]);
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controllers.refresh();
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break;
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case 162:
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controllers.breath.setRange(data[param_num - 1]);
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controllers.breath.setTarget(data[param_num]);
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controllers.refresh();
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break;
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case 163:
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controllers.at.setRange(data[param_num]);
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controllers.at.setTarget(data[param_num + 1]);
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controllers.refresh();
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break;
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case 164:
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controllers.at.setRange(data[param_num - 1]);
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controllers.at.setTarget(data[param_num]);
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controllers.refresh();
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break;
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case 165:
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tune = param_val * 0x4000;
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controllers.masterTune = (tune << 11) * (1.0 / 12);
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break;
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case 166:
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case 167:
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case 168:
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case 169:
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case 170:
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case 171:
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controllers.opSwitch = (data[166] << 5) | (data[167] << 4) | (data[168] << 3) | (data[169] << 2) | (data[170] << 1) | data[171];
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break;
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case 172:
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max_notes = data[param_num];
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break;
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}
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TRACE("Done: Parameter %d changed from %d to %d", param_num, tmp, data[param_num]);
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}
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}
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*/
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uint8_t Dexed::getEngineType() {
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return engineType;
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}
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void Dexed::setEngineType(uint8_t tp) {
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TRACE("settings engine %d", tp);
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if (engineType == tp && controllers.core != NULL)
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return;
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switch (tp) {
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case DEXED_ENGINE_MARKI:
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TRACE("DEXED_ENGINE_MARKI:%d", DEXED_ENGINE_MARKI);
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controllers.core = engineMkI;
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break;
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case DEXED_ENGINE_OPL:
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TRACE("DEXED_ENGINE_OPL:%d", DEXED_ENGINE_OPL);
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controllers.core = engineOpl;
|
|
break;
|
|
default:
|
|
TRACE("DEXED_ENGINE_MODERN:%d", DEXED_ENGINE_MODERN);
|
|
controllers.core = engineMsfa;
|
|
tp = DEXED_ENGINE_MODERN;
|
|
break;
|
|
}
|
|
engineType = tp;
|
|
panic();
|
|
controllers.refresh();
|
|
}
|
|
|
|
bool Dexed::isMonoMode(void) {
|
|
return monoMode;
|
|
}
|
|
|
|
void Dexed::setMonoMode(bool mode) {
|
|
if (monoMode == mode)
|
|
return;
|
|
|
|
monoMode = mode;
|
|
}
|
|
|
|
void Dexed::panic(void) {
|
|
for (uint8_t i = 0; i < MAX_ACTIVE_NOTES; i++)
|
|
{
|
|
if (voices[i].live == true) {
|
|
voices[i].keydown = false;
|
|
voices[i].live = false;
|
|
voices[i].sustained = false;
|
|
if ( voices[i].dx7_note != NULL ) {
|
|
voices[i].dx7_note->oscSync();
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
void Dexed::notes_off(void) {
|
|
for (uint8_t i = 0; i < MAX_ACTIVE_NOTES; i++) {
|
|
if (voices[i].live == true && voices[i].keydown == true) {
|
|
voices[i].keydown = false;
|
|
}
|
|
}
|
|
}
|
|
|
|
void Dexed::set_params(void)
|
|
{
|
|
/* //TRACE("Hi");
|
|
|
|
_param_change_counter=0;
|
|
|
|
bool polymono=bool(*p(p_polymono));
|
|
uint8_t engine=uint8_t(*p(p_engine));
|
|
float f_gain=*p(p_output);
|
|
float f_cutoff=*p(p_cutoff);
|
|
float f_reso=*p(p_resonance);
|
|
|
|
// Dexed-Unisono
|
|
if(isMonoMode()!=polymono)
|
|
setMonoMode(polymono);
|
|
|
|
// Dexed-Engine
|
|
if(controllers.core==NULL || getEngineType()!=engine)
|
|
{
|
|
setEngineType(engine);
|
|
refreshVoice=true;
|
|
}
|
|
|
|
// Dexed-Filter
|
|
if(fx.uiCutoff!=f_cutoff)
|
|
{
|
|
fx.uiCutoff=f_cutoff;
|
|
refreshVoice=true;
|
|
}
|
|
if(fx.uiReso!=f_reso)
|
|
{
|
|
fx.uiReso=f_reso;
|
|
refreshVoice=true;
|
|
}
|
|
if(fx.uiGain!=f_gain)
|
|
{
|
|
fx.uiGain=f_gain;
|
|
refreshVoice=true;
|
|
}
|
|
|
|
// OP6
|
|
onParam(0,*p(p_op6_eg_rate_1));
|
|
onParam(1,*p(p_op6_eg_rate_2));
|
|
onParam(2,*p(p_op6_eg_rate_3));
|
|
onParam(3,*p(p_op6_eg_rate_4));
|
|
onParam(4,*p(p_op6_eg_level_1));
|
|
onParam(5,*p(p_op6_eg_level_2));
|
|
onParam(6,*p(p_op6_eg_level_3));
|
|
onParam(7,*p(p_op6_eg_level_4));
|
|
onParam(8,*p(p_op6_kbd_lev_scl_brk_pt));
|
|
onParam(9,*p(p_op6_kbd_lev_scl_lft_depth));
|
|
onParam(10,*p(p_op6_kbd_lev_scl_rht_depth));
|
|
onParam(11,*p(p_op6_kbd_lev_scl_lft_curve));
|
|
onParam(12,*p(p_op6_kbd_lev_scl_rht_curve));
|
|
onParam(13,*p(p_op6_kbd_rate_scaling));
|
|
onParam(14,*p(p_op6_amp_mod_sensitivity));
|
|
onParam(15,*p(p_op6_key_vel_sensitivity));
|
|
onParam(16,*p(p_op6_operator_output_level));
|
|
onParam(17,*p(p_op6_osc_mode));
|
|
onParam(18,*p(p_op6_osc_freq_coarse));
|
|
onParam(19,*p(p_op6_osc_freq_fine));
|
|
onParam(20,*p(p_op6_osc_detune)+7);
|
|
// OP5
|
|
onParam(21,*p(p_op5_eg_rate_1));
|
|
onParam(22,*p(p_op5_eg_rate_2));
|
|
onParam(23,*p(p_op5_eg_rate_3));
|
|
onParam(24,*p(p_op5_eg_rate_4));
|
|
onParam(25,*p(p_op5_eg_level_1));
|
|
onParam(26,*p(p_op5_eg_level_2));
|
|
onParam(27,*p(p_op5_eg_level_3));
|
|
onParam(28,*p(p_op5_eg_level_4));
|
|
onParam(29,*p(p_op5_kbd_lev_scl_brk_pt));
|
|
onParam(30,*p(p_op5_kbd_lev_scl_lft_depth));
|
|
onParam(31,*p(p_op5_kbd_lev_scl_rht_depth));
|
|
onParam(32,*p(p_op5_kbd_lev_scl_lft_curve));
|
|
onParam(33,*p(p_op5_kbd_lev_scl_rht_curve));
|
|
onParam(34,*p(p_op5_kbd_rate_scaling));
|
|
onParam(35,*p(p_op5_amp_mod_sensitivity));
|
|
onParam(36,*p(p_op5_key_vel_sensitivity));
|
|
onParam(37,*p(p_op5_operator_output_level));
|
|
onParam(38,*p(p_op5_osc_mode));
|
|
onParam(39,*p(p_op5_osc_freq_coarse));
|
|
onParam(40,*p(p_op5_osc_freq_fine));
|
|
onParam(41,*p(p_op5_osc_detune)+7);
|
|
// OP4
|
|
onParam(42,*p(p_op4_eg_rate_1));
|
|
onParam(43,*p(p_op4_eg_rate_2));
|
|
onParam(44,*p(p_op4_eg_rate_3));
|
|
onParam(45,*p(p_op4_eg_rate_4));
|
|
onParam(46,*p(p_op4_eg_level_1));
|
|
onParam(47,*p(p_op4_eg_level_2));
|
|
onParam(48,*p(p_op4_eg_level_3));
|
|
onParam(49,*p(p_op4_eg_level_4));
|
|
onParam(50,*p(p_op4_kbd_lev_scl_brk_pt));
|
|
onParam(51,*p(p_op4_kbd_lev_scl_lft_depth));
|
|
onParam(52,*p(p_op4_kbd_lev_scl_rht_depth));
|
|
onParam(53,*p(p_op4_kbd_lev_scl_lft_curve));
|
|
onParam(54,*p(p_op4_kbd_lev_scl_rht_curve));
|
|
onParam(55,*p(p_op4_kbd_rate_scaling));
|
|
onParam(56,*p(p_op4_amp_mod_sensitivity));
|
|
onParam(57,*p(p_op4_key_vel_sensitivity));
|
|
onParam(58,*p(p_op4_operator_output_level));
|
|
onParam(59,*p(p_op4_osc_mode));
|
|
onParam(60,*p(p_op4_osc_freq_coarse));
|
|
onParam(61,*p(p_op4_osc_freq_fine));
|
|
onParam(62,*p(p_op4_osc_detune)+7);
|
|
// OP3
|
|
onParam(63,*p(p_op3_eg_rate_1));
|
|
onParam(64,*p(p_op3_eg_rate_2));
|
|
onParam(65,*p(p_op3_eg_rate_3));
|
|
onParam(66,*p(p_op3_eg_rate_4));
|
|
onParam(67,*p(p_op3_eg_level_1));
|
|
onParam(68,*p(p_op3_eg_level_2));
|
|
onParam(69,*p(p_op3_eg_level_3));
|
|
onParam(70,*p(p_op3_eg_level_4));
|
|
onParam(71,*p(p_op3_kbd_lev_scl_brk_pt));
|
|
onParam(72,*p(p_op3_kbd_lev_scl_lft_depth));
|
|
onParam(73,*p(p_op3_kbd_lev_scl_rht_depth));
|
|
onParam(74,*p(p_op3_kbd_lev_scl_lft_curve));
|
|
onParam(75,*p(p_op3_kbd_lev_scl_rht_curve));
|
|
onParam(76,*p(p_op3_kbd_rate_scaling));
|
|
onParam(77,*p(p_op3_amp_mod_sensitivity));
|
|
onParam(78,*p(p_op3_key_vel_sensitivity));
|
|
onParam(79,*p(p_op3_operator_output_level));
|
|
onParam(80,*p(p_op3_osc_mode));
|
|
onParam(81,*p(p_op3_osc_freq_coarse));
|
|
onParam(82,*p(p_op3_osc_freq_fine));
|
|
onParam(83,*p(p_op3_osc_detune)+7);
|
|
// OP2
|
|
onParam(84,*p(p_op2_eg_rate_1));
|
|
onParam(85,*p(p_op2_eg_rate_2));
|
|
onParam(86,*p(p_op2_eg_rate_3));
|
|
onParam(87,*p(p_op2_eg_rate_4));
|
|
onParam(88,*p(p_op2_eg_level_1));
|
|
onParam(89,*p(p_op2_eg_level_2));
|
|
onParam(90,*p(p_op2_eg_level_3));
|
|
onParam(91,*p(p_op2_eg_level_4));
|
|
onParam(92,*p(p_op2_kbd_lev_scl_brk_pt));
|
|
onParam(93,*p(p_op2_kbd_lev_scl_lft_depth));
|
|
onParam(94,*p(p_op2_kbd_lev_scl_rht_depth));
|
|
onParam(95,*p(p_op2_kbd_lev_scl_lft_curve));
|
|
onParam(96,*p(p_op2_kbd_lev_scl_rht_curve));
|
|
onParam(97,*p(p_op2_kbd_rate_scaling));
|
|
onParam(98,*p(p_op2_amp_mod_sensitivity));
|
|
onParam(99,*p(p_op2_key_vel_sensitivity));
|
|
onParam(100,*p(p_op2_operator_output_level));
|
|
onParam(101,*p(p_op2_osc_mode));
|
|
onParam(102,*p(p_op2_osc_freq_coarse));
|
|
onParam(103,*p(p_op2_osc_freq_fine));
|
|
onParam(104,*p(p_op2_osc_detune)+7);
|
|
// OP1
|
|
onParam(105,*p(p_op1_eg_rate_1));
|
|
onParam(106,*p(p_op1_eg_rate_2));
|
|
onParam(107,*p(p_op1_eg_rate_3));
|
|
onParam(108,*p(p_op1_eg_rate_4));
|
|
onParam(109,*p(p_op1_eg_level_1));
|
|
onParam(110,*p(p_op1_eg_level_2));
|
|
onParam(111,*p(p_op1_eg_level_3));
|
|
onParam(112,*p(p_op1_eg_level_4));
|
|
onParam(113,*p(p_op1_kbd_lev_scl_brk_pt));
|
|
onParam(114,*p(p_op1_kbd_lev_scl_lft_depth));
|
|
onParam(115,*p(p_op1_kbd_lev_scl_rht_depth));
|
|
onParam(116,*p(p_op1_kbd_lev_scl_lft_curve));
|
|
onParam(117,*p(p_op1_kbd_lev_scl_rht_curve));
|
|
onParam(118,*p(p_op1_kbd_rate_scaling));
|
|
onParam(119,*p(p_op1_amp_mod_sensitivity));
|
|
onParam(120,*p(p_op1_key_vel_sensitivity));
|
|
onParam(121,*p(p_op1_operator_output_level));
|
|
onParam(122,*p(p_op1_osc_mode));
|
|
onParam(123,*p(p_op1_osc_freq_coarse));
|
|
onParam(124,*p(p_op1_osc_freq_fine));
|
|
onParam(125,*p(p_op1_osc_detune)+7);
|
|
// Global for all OPs
|
|
onParam(126,*p(p_pitch_eg_rate_1));
|
|
onParam(127,*p(p_pitch_eg_rate_2));
|
|
onParam(128,*p(p_pitch_eg_rate_3));
|
|
onParam(129,*p(p_pitch_eg_rate_4));
|
|
onParam(130,*p(p_pitch_eg_level_1));
|
|
onParam(131,*p(p_pitch_eg_level_2));
|
|
onParam(132,*p(p_pitch_eg_level_3));
|
|
onParam(133,*p(p_pitch_eg_level_4));
|
|
onParam(134,*p(p_algorithm_num)-1);
|
|
onParam(135,*p(p_feedback));
|
|
onParam(136,*p(p_oscillator_sync));
|
|
onParam(137,*p(p_lfo_speed));
|
|
onParam(138,*p(p_lfo_delay));
|
|
onParam(139,*p(p_lfo_pitch_mod_depth));
|
|
onParam(140,*p(p_lfo_amp_mod_depth));
|
|
onParam(141,*p(p_lfo_sync));
|
|
onParam(142,*p(p_lfo_waveform));
|
|
onParam(143,*p(p_pitch_mod_sensitivity));
|
|
onParam(144,*p(p_transpose));
|
|
// 10 bytes (145-154) are the name of the patch
|
|
// Controllers (added at the end of the data[])
|
|
onParam(155,*p(p_pitch_bend_range));
|
|
onParam(156,*p(p_pitch_bend_step));
|
|
onParam(157,*p(p_mod_wheel_range));
|
|
onParam(158,*p(p_mod_wheel_assign));
|
|
onParam(159,*p(p_foot_ctrl_range));
|
|
onParam(160,*p(p_foot_ctrl_assign));
|
|
onParam(161,*p(p_breath_ctrl_range));
|
|
onParam(162,*p(p_breath_ctrl_assign));
|
|
onParam(163,*p(p_aftertouch_range));
|
|
onParam(164,*p(p_aftertouch_assign));
|
|
onParam(165,*p(p_master_tune));
|
|
onParam(166,*p(p_op1_enable));
|
|
onParam(167,*p(p_op2_enable));
|
|
onParam(168,*p(p_op3_enable));
|
|
onParam(169,*p(p_op4_enable));
|
|
onParam(170,*p(p_op5_enable));
|
|
onParam(171,*p(p_op6_enable));
|
|
onParam(172,*p(p_number_of_voices));
|
|
|
|
if(_param_change_counter>PARAM_CHANGE_LEVEL)
|
|
{
|
|
panic();
|
|
controllers.refresh();
|
|
}
|
|
|
|
//TRACE("Bye");
|
|
*/
|
|
;
|
|
}
|
|
|
|
|