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/**
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*
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* Copyright (c) 2013 Pascal Gauthier.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be
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* useful, but WITHOUT ANY WARRANTY; without even the implied
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* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public
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* License along with this program; if not, write to the Free
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* Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301 USA.
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*/
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#include "PluginProcessor.h"
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#include "PluginEditor.h"
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#include "msfa/synth.h"
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#include "msfa/freqlut.h"
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#include "msfa/sin.h"
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#include "msfa/exp2.h"
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#include "msfa/pitchenv.h"
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#include "msfa/aligned_buf.h"
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//==============================================================================
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DexedAudioProcessor::DexedAudioProcessor() {
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#ifdef DEBUG
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Logger *tmp = Logger::getCurrentLogger();
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if ( tmp == NULL ) {
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Logger::setCurrentLogger(FileLogger::createDateStampedLogger("Dexed", "DebugSession-", "log", "DexedAudioProcessor Created"));
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}
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TRACE("Hi");
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#endif
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Exp2::init();
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Tanh::init();
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Sin::init();
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currentNote = -1;
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workBlock = NULL;
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initCtrl();
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setCurrentProgram(0);
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sendSysexChange = true;
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}
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DexedAudioProcessor::~DexedAudioProcessor() {
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TRACE("Bye");
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}
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//==============================================================================
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void DexedAudioProcessor::prepareToPlay(double sampleRate, int samplesPerBlock) {
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Freqlut::init(sampleRate);
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Lfo::init(sampleRate);
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PitchEnv::init(sampleRate);
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for (int note = 0; note < MAX_ACTIVE_NOTES; ++note) {
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voices[note].dx7_note = new Dx7Note;
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voices[note].keydown = false;
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voices[note].sustained = false;
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voices[note].live = false;
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}
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currentNote = 0;
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controllers.values_[kControllerPitch] = 0x2000;
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sustain = false;
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extra_buf_size = 0;
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workBlockSize = samplesPerBlock;
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workBlock = new SInt16[samplesPerBlock];
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keyboardState.reset();
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}
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void DexedAudioProcessor::releaseResources() {
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currentNote = -1;
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for (int note = 0; note < MAX_ACTIVE_NOTES; ++note) {
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delete voices[note].dx7_note;
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voices[note].keydown = false;
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voices[note].sustained = false;
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voices[note].live = false;
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}
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if ( workBlock != NULL ) {
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delete workBlock;
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}
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keyboardState.reset();
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}
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void DexedAudioProcessor::processBlock(AudioSampleBuffer& buffer, MidiBuffer& midiMessages) {
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int numSamples = buffer.getNumSamples();
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if ( refreshVoice ) {
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for(int i=0;i<MAX_ACTIVE_NOTES;i++) {
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if ( voices[i].live )
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voices[i].dx7_note->update(data, voices[i].midi_note);
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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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// check buffer size
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if ( numSamples > workBlockSize ) {
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delete workBlock;
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workBlockSize = numSamples;
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workBlock = new SInt16[workBlockSize];
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}
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// Now pass any incoming midi messages to our keyboard state object, and let it
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// add messages to the buffer if the user is clicking on the on-screen keys
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keyboardState.processNextMidiBuffer (midiMessages, 0, numSamples, true);
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// check input
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MidiBuffer::Iterator it(midiMessages);
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MidiMessage msg;
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int pos;
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while(it.getNextEvent(msg, pos)) {
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processMidiMessage(&msg);
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}
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midiMessages.clear();
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processSamples(numSamples, workBlock);
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float *channelData = buffer.getSampleData(0);
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for(int i = 0; i < numSamples; i++ ) {
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float f = ((float) workBlock[i]) / (float) 32768;
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if( f > 1 ) f = 1;
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if( f < -1 ) f = -1;
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channelData[i] = (double) f;
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}
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//fx.process(channelData, numSamples);
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// DX7 is a mono synth
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for (int channel = 1; channel < getNumInputChannels(); ++channel) {
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buffer.copyFrom(channel, 0, channelData, numSamples, 1);
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}
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// In case we have more outputs than inputs, we'll clear any output
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// channels that didn't contain input data, (because these aren't
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// guaranteed to be empty - they may contain garbage).
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for (int i = getNumInputChannels(); i < getNumOutputChannels(); ++i) {
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buffer.clear (i, 0, buffer.getNumSamples());
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}
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if ( ! midiOut.isEmpty() ) {
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midiMessages.swapWith(midiOut);
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}
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}
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//==============================================================================
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// This creates new instances of the plugin..
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AudioProcessor* JUCE_CALLTYPE createPluginFilter() {
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return new DexedAudioProcessor();
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}
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void DexedAudioProcessor::processMidiMessage(MidiMessage *msg) {
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if ( msg->isSysEx() ) {
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const uint8 *buf = msg->getSysExData();
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int sz = msg->getSysExDataSize();
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TRACE("SYSEX RECEIVED %d", sz);
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if ( sz < 3 )
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return;
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// test if it is a Yamaha Sysex
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if ( buf[0] != 0x43 ) {
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TRACE("not a yamaha sysex %d", buf[0]);
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return;
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}
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TRACE("buf 2 %d", buf[2]);
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// single voice dump
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if ( buf[2] == 0 ) {
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if ( sz < 155 ) {
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TRACE("wrong single voice datasize %d", sz);
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return;
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}
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TRACE("program update sysex");
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updateProgramFromSysex(buf+4);
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refreshUI |= REFRESH_COMP;
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return;
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}
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// 32 voice dump
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if ( buf[2] == 9 ) {
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if ( sz < 4016 ) {
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TRACE("wrong 32 voice datasize %d", sz);
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return;
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}
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TRACE("update 32bulk voice)");
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importSysex((const char *)buf+4);
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refreshUI |= REFRESH_COMP;
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}
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return;
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}
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const uint8 *buf = msg->getRawData();
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uint8_t cmd = buf[0];
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switch(cmd & 0xf0) {
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case 0x80 :
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keyup(buf[1]);
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return;
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case 0x90 :
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keydown(buf[1], buf[2]);
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return;
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case 0xb0 : {
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int controller = buf[1];
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int value = buf[2];
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if (controller == 64) {
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sustain = value != 0;
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if (!sustain) {
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for (int note = 0; note < MAX_ACTIVE_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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}
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}
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return;
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case 0xc0 :
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setCurrentProgram(buf[1]);
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return;
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}
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switch (cmd) {
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case 0xe0 :
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controllers.values_[kControllerPitch] = (char) buf[1] | (buf[2] << 7);
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break;
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}
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}
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void DexedAudioProcessor::keydown(uint8_t pitch, uint8_t 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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int note = currentNote;
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for (int i = 0; i < MAX_ACTIVE_NOTES; i++) {
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if (!voices[note].keydown) {
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currentNote = (note + 1) % MAX_ACTIVE_NOTES;
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lfo.keydown(); // TODO: should only do this if # keys down was 0
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voices[note].midi_note = pitch;
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voices[note].keydown = true;
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voices[note].sustained = sustain;
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voices[note].live = true;
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voices[note].dx7_note->init(data, pitch, velo);
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return;
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}
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note = (note + 1) % MAX_ACTIVE_NOTES;
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}
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}
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void DexedAudioProcessor::keyup(uint8_t pitch) {
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for (int note = 0; note < MAX_ACTIVE_NOTES; ++note) {
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if (voices[note].midi_note == pitch && voices[note].keydown) {
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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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voices[note].keydown = false;
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}
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}
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}
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void DexedAudioProcessor::processSamples(int n_samples, int16_t *buffer) {
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int i;
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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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if (extra_buf_size > n_samples) {
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for (int 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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return;
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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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for (int j = 0; j < N; ++j) {
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audiobuf.get()[j] = 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 (int note = 0; note < MAX_ACTIVE_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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}
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}
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int jmax = n_samples - i;
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for (int j = 0; j < N; ++j) {
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int32_t val = audiobuf.get()[j] >> 4;
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int clip_val = val < -(1 << 24) ? 0x8000 : val >= (1 << 24) ? 0x7fff :
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val >> 9;
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// TODO: maybe some dithering?
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if (j < jmax) {
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buffer[i + j] = clip_val;
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} else {
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extra_buf[j - jmax] = clip_val;
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}
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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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// ====================================================================
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bool DexedAudioProcessor::peekEnvStatus(int32_t *env) {
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if ( currentNote == -1 )
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return false;
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// we are trying to find the last "keydown" note
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int note = currentNote;
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for (int i = 0; i < MAX_ACTIVE_NOTES; i++) {
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if (voices[note].keydown) {
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voices[note].dx7_note->peekEnvStatus(env);
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return true;
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}
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if ( --note < 0 )
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note = MAX_ACTIVE_NOTES-1;
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}
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// not found; try a live note
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note = currentNote;
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for (int i = 0; i < MAX_ACTIVE_NOTES; i++) {
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if (voices[note].live) {
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voices[note].dx7_note->peekEnvStatus(env);
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return true;
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}
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if ( --note < 0 )
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note = MAX_ACTIVE_NOTES-1;
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}
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// all the notes are stopped, return 0;
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memset(env, 0, sizeof(int32_t) * 6);
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return true;
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}
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const String DexedAudioProcessor::getInputChannelName (int channelIndex) const {
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return String (channelIndex + 1);
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}
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const String DexedAudioProcessor::getOutputChannelName (int channelIndex) const {
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return String (channelIndex + 1);
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}
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bool DexedAudioProcessor::isInputChannelStereoPair (int index) const {
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return true;
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}
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bool DexedAudioProcessor::isOutputChannelStereoPair (int index) const {
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return true;
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}
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bool DexedAudioProcessor::acceptsMidi() const {
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#if JucePlugin_WantsMidiInput
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return true;
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#else
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return false;
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#endif
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}
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bool DexedAudioProcessor::producesMidi() const {
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#if JucePlugin_ProducesMidiOutput
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return true;
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#else
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return false;
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#endif
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}
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bool DexedAudioProcessor::silenceInProducesSilenceOut() const {
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return false;
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}
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double DexedAudioProcessor::getTailLengthSeconds() const {
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return 0.0;
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}
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const String DexedAudioProcessor::getName() const {
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return JucePlugin_Name;
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}
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//==============================================================================
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bool DexedAudioProcessor::hasEditor() const {
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return true; // (change this to false if you choose to not supply an editor)
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}
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void DexedAudioProcessor::updateUI() {
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AudioProcessorEditor *editor = getActiveEditor();
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if ( editor == NULL ) {
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TRACE("no editor found!?");
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return;
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}
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DexedAudioProcessorEditor *dexedEditor = (DexedAudioProcessorEditor *) editor;
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dexedEditor->updateUI();
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}
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AudioProcessorEditor* DexedAudioProcessor::createEditor() {
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return new DexedAudioProcessorEditor (this);
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}
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void DexedAudioProcessor::log(const char *source, const char *fmt, ...) {
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char output[4096];
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|
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va_list argptr;
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va_start(argptr, fmt);
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vsnprintf(output, 4095, fmt, argptr);
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va_end(argptr);
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|
|
String dest;
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|
|
dest << source << " " << output;
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|
|
Logger::writeToLog(dest);
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|
}
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