/** * * Copyright (c) 2013 Pascal Gauthier. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be * useful, but WITHOUT ANY WARRANTY; without even the implied * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this program; if not, write to the Free * Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301 USA. */ #include #include "PluginParam.h" #include "PluginProcessor.h" #include "PluginEditor.h" // ************************************************************************ // Ctrl::Ctrl(String name) { label << name; slider = NULL; button = NULL; comboBox = NULL; } void Ctrl::bind(Slider *s) { slider = s; updateComponent(); s->addListener(this); } void Ctrl::bind(Button *b) { button = b; updateComponent(); b->addListener(this); } void Ctrl::bind(ComboBox *c) { comboBox = c; updateComponent(); c->addListener(this); } void Ctrl::unbind() { if (slider != NULL) { slider->removeListener(this); slider = NULL; } if (button != NULL) { button->removeListener(this); button = NULL; } if (comboBox != NULL) { comboBox->removeListener(this); comboBox = NULL; } } void Ctrl::publishValue(float value) { parent->beginParameterChangeGesture(idx); parent->setParameterNotifyingHost(idx, value); parent->endParameterChangeGesture(idx); } void Ctrl::sliderValueChanged(Slider* moved) { publishValue(moved->getValue()); } void Ctrl::buttonClicked(Button* clicked) { publishValue(clicked->getToggleStateValue() == 1 ? 1 : 0); } void Ctrl::comboBoxChanged(ComboBox* combo) { publishValue((combo->getSelectedId() - 1) / combo->getNumItems()); } // ************************************************************************ // CtrlDX - control DX mapping CtrlFloat::CtrlFloat(String name, float *storageValue) : Ctrl(name) { vPointer = storageValue; } float CtrlFloat::getValueHost() { return *vPointer; } void CtrlFloat::setValueHost(float v) { *vPointer = v; } String CtrlFloat::getValueDisplay() { String display; display << *vPointer; return display; } void CtrlFloat::updateComponent() { if (slider != NULL) { slider->setValue(*vPointer, NotificationType::dontSendNotification); } } // ************************************************************************ // CtrlDX - control DX mapping CtrlDX::CtrlDX(String name, int steps, int offset, int displayValue) : Ctrl(name) { this->displayValue = displayValue; this->steps = steps; dxValue = 0; dxOffset = offset; } float CtrlDX::getValueHost() { return dxValue / steps; } void CtrlDX::setValueHost(float f) { setValue((f * steps)); } void CtrlDX::setValue(int v) { if (v >= steps) { TRACE("WARNING: value too big %s : %d", label.toRawUTF8(), v); v = steps - 1; } dxValue = v; if (dxOffset >= 0) { if (parent != NULL) parent->setDxValue(dxOffset, v); } } int CtrlDX::getValue() { if (dxOffset >= 0) dxValue = parent->data[dxOffset]; return dxValue; } int CtrlDX::getOffset() { return dxOffset; } String CtrlDX::getValueDisplay() { String ret; ret << ( getValue() + displayValue ); return ret; } void CtrlDX::publishValue(float value) { Ctrl::publishValue(value / steps); DexedAudioProcessorEditor *editor = (DexedAudioProcessorEditor *) parent->getActiveEditor(); if ( editor == NULL ) return; String msg; msg << label << " = " << getValueDisplay(); editor->global.setParamMessage(msg); } void CtrlDX::sliderValueChanged(Slider* moved) { publishValue(((int) moved->getValue() - displayValue)); } void CtrlDX::comboBoxChanged(ComboBox* combo) { publishValue(combo->getSelectedId() - 1); } void CtrlDX::updateComponent() { if (slider != NULL) { slider->setValue(getValue() + displayValue, NotificationType::dontSendNotification); } if (button != NULL) { if (getValue() == 0) { button->setToggleState(false, NotificationType::dontSendNotification); } else { button->setToggleState(true, NotificationType::dontSendNotification); } } if (comboBox != NULL) { int cvalue = getValue() + 1; if (comboBox->getNumItems() <= cvalue) { cvalue = comboBox->getNumItems(); } comboBox->setSelectedId(cvalue, NotificationType::dontSendNotification); } } /*************************************************************** * */ void DexedAudioProcessor::initCtrl() { MemoryInputStream *mis = new MemoryInputStream(BinaryData::builtin_pgm_zip, BinaryData::builtin_pgm_zipSize, false); builtin_pgm = new ZipFile(mis, true); builtin_pgm->sortEntriesByFilename(); loadBuiltin(0); currentProgram = 0; fxCutoff = new CtrlFloat("Cutoff", &fx.uiCutoff); ctrl.add(fxCutoff); fxReso = new CtrlFloat("Resonance", &fx.uiReso); ctrl.add(fxReso); algo = new CtrlDX("ALGORITHM", 32, 134, 1); ctrl.add(algo); feedback = new CtrlDX("FEEDBACK", 8, 135); ctrl.add(feedback); oscSync = new CtrlDX("OSC KEY SYNC", 2, 136); ctrl.add(oscSync); lfoRate = new CtrlDX("LFO SPEED", 100, 137); ctrl.add(lfoRate); lfoDelay = new CtrlDX("LFO DELAY", 100, 138); ctrl.add(lfoDelay); lfoPitchDepth = new CtrlDX("LFO PM DEPTH", 100, 139); ctrl.add(lfoPitchDepth); lfoAmpDepth = new CtrlDX("LFO AM DEPTH", 100, 140); ctrl.add(lfoAmpDepth); lfoSync = new CtrlDX("LFO KEY SYNC", 2, 141); ctrl.add(lfoSync); lfoWaveform = new CtrlDX("LFO WAVE", 5, 142); ctrl.add(lfoWaveform); transpose = new CtrlDX("MIDDLE C", 49, 144); ctrl.add(transpose); pitchModSens = new CtrlDX("P MODE SENS.", 8, 143); ctrl.add(pitchModSens); for (int i=0;i<4;i++) { String rate; rate << "PITCH EG RATE " << (i+1); pitchEgRate[i] = new CtrlDX(rate, 99, 126+i); ctrl.add(pitchEgRate[i]); } for (int i=0;i<4;i++) { String level; level << "PITCH EG LEVEL " << (i+1); pitchEgLevel[i] = new CtrlDX(level, 99, 130+i); ctrl.add(pitchEgLevel[i]); } // fill operator values; for (int i = 0; i < 6; i++) { //// In the Sysex, OP6 comes first, then OP5... int opTarget = (5-i) * 21; int opVal = i; String opName; opName << "OP" << (opVal + 1); for (int j = 0; j < 4; j++) { String opRate; opRate << opName << " EG RATE " << (j + 1); opCtrl[opVal].egRate[j] = new CtrlDX(opRate, 100, opTarget + j); ctrl.add(opCtrl[opVal].egRate[j]); } for (int j = 0; j < 4; j++) { String opLevel; opLevel << opName << " EG LEVEL " << (j + 1); opCtrl[opVal].egLevel[j] = new CtrlDX(opLevel, 100, opTarget + j + 4); ctrl.add(opCtrl[opVal].egLevel[j]); } String opVol; opVol << opName << " OUTPUT LEVEL"; opCtrl[opVal].level = new CtrlDX(opVol, 100, opTarget + 16); ctrl.add(opCtrl[opVal].level); String opMode; opMode << opName << " MODE"; opCtrl[opVal].opMode = new CtrlDX(opMode, 2, opTarget + 17); ctrl.add(opCtrl[opVal].opMode); String coarse; coarse << opName << " F COARSE"; opCtrl[opVal].coarse = new CtrlDX(coarse, 32, opTarget + 18); ctrl.add(opCtrl[opVal].coarse); String fine; fine << opName << " F FINE"; opCtrl[opVal].fine = new CtrlDX(fine, 100, opTarget + 19); ctrl.add(opCtrl[opVal].fine); String detune; detune << opName << " OSC DETUNE"; opCtrl[opVal].detune = new CtrlDX(detune, 15, opTarget + 20, -7); ctrl.add(opCtrl[opVal].detune); String sclBrkPt; sclBrkPt << opName << " BREAK POINT"; opCtrl[opVal].sclBrkPt = new CtrlDX(sclBrkPt, 100, opTarget + 8); ctrl.add(opCtrl[opVal].sclBrkPt); String sclLeftDepth; sclLeftDepth << opName << " L SCALE DEPTH"; opCtrl[opVal].sclLeftDepth = new CtrlDX(sclLeftDepth, 100, opTarget + 9); ctrl.add(opCtrl[opVal].sclLeftDepth); String sclRightDepth; sclRightDepth << opName << " R SCALE DEPTH"; opCtrl[opVal].sclRightDepth = new CtrlDX(sclRightDepth, 100, opTarget + 10); ctrl.add(opCtrl[opVal].sclRightDepth); String sclLeftCurve; sclLeftCurve << opName << " L KEY SCALE"; opCtrl[opVal].sclLeftCurve = new CtrlDX(sclLeftCurve, 4, opTarget + 11); ctrl.add(opCtrl[opVal].sclLeftCurve); String sclRightCurve; sclRightCurve << opName << " R KEY SCALE"; opCtrl[opVal].sclRightCurve = new CtrlDX(sclRightCurve, 4, opTarget + 12); ctrl.add(opCtrl[opVal].sclRightCurve); String sclRate; sclRate << opName << " RATE SCALING"; opCtrl[opVal].sclRate = new CtrlDX(sclRate, 8, opTarget + 13); ctrl.add(opCtrl[opVal].sclRate); String ampModSens; ampModSens << opName << " A MOD SENS."; opCtrl[opVal].ampModSens = new CtrlDX(ampModSens, 4, opTarget + 14); ctrl.add(opCtrl[opVal].ampModSens); String velModSens; velModSens << opName << " KEY VELOCITY"; opCtrl[opVal].velModSens = new CtrlDX(velModSens, 8, opTarget + 15); ctrl.add(opCtrl[opVal].velModSens); } for (int i=0; i < ctrl.size(); i++) { ctrl[i]->idx = i; ctrl[i]->parent = this; } } int DexedAudioProcessor::importSysex(const char *imported) { memcpy(sysex, imported + 6, 4096); for (int i = 0; i < 32; i++) { memcpy(patchNames[i], sysex + ((i * 128) + 118), 11); for (int j = 0; j < 10; j++) { char c = (unsigned char) patchNames[i][j]; switch (c) { case 92: c = 'Y'; break; /* yen */ case 126: c = '>'; break; /* >> */ case 127: c = '<'; break; /* << */ default: if (c < 32 || c > 127) c = 32; break; } patchNames[i][j] = c; } patchNames[i][11] = 0; } return 0; } void DexedAudioProcessor::exportSysex(char *dest) { uint8_t header[] = { 0xF0, 0x43, 0x00, 0x09, 0x20, 0x00 }; memcpy(dest, header, 6); // copy 32 voices memcpy(dest+6, sysex, 4096); // make checksum for dump uint8_t footer[] = { 0x00, 0xF7 }; uint8_t sum = 0; for (int i=0; i<4096; i++) sum = (sum + sysex[i]) % (1 << 8); footer[0] = ((1 << 8) - sum); memcpy(dest+4102, footer, 2); } void DexedAudioProcessor::unpackProgram(int idx) { char *bulk = sysex + (idx * 128); for (int op = 0; op < 6; op++) { // eg rate and level, brk pt, depth, scaling memcpy(data + op * 21, bulk + op * 17, 11); char leftrightcurves = bulk[op * 17 + 11]; data[op * 21 + 11] = leftrightcurves & 3; data[op * 21 + 12] = (leftrightcurves >> 2) & 3; char detune_rs = bulk[op * 17 + 12]; data[op * 21 + 13] = detune_rs & 7; char kvs_ams = bulk[op * 17 + 13]; data[op * 21 + 14] = kvs_ams & 3; data[op * 21 + 15] = kvs_ams >> 2; data[op * 21 + 16] = bulk[op * 17 + 14]; // output level char fcoarse_mode = bulk[op * 17 + 15]; data[op * 21 + 17] = fcoarse_mode & 1; data[op * 21 + 18] = fcoarse_mode >> 1; data[op * 21 + 19] = bulk[op * 17 + 16]; // fine freq data[op * 21 + 20] = detune_rs >> 3; } memcpy(data + 126, bulk + 102, 9); // pitch env, algo char oks_fb = bulk[111]; data[135] = oks_fb & 7; data[136] = oks_fb >> 3; memcpy(data + 137, bulk + 112, 4); // lfo char lpms_lfw_lks = bulk[116]; data[141] = lpms_lfw_lks & 1; data[142] = (lpms_lfw_lks >> 1) & 7; data[143] = lpms_lfw_lks >> 4; memcpy(data + 144, bulk + 117, 11); // transpose, name data[155] = 1; // operator on/off data[156] = 1; data[157] = 1; data[158] = 1; data[159] = 1; data[160] = 1; } void DexedAudioProcessor::packProgram(int idx, const char *name) { char *bulk = sysex + (idx * 128); for(int op = 0; op < 6; op++) { // eg rate and level, brk pt, depth, scaling memcpy(bulk + op * 17, data + op * 21, 11); int pp = op*17; int up = op*21; // left curves bulk[pp+11] = (data[up+11]&0x03) | ((data[up+12]&0x03) << 2); bulk[pp+12] = (data[up+13]&0x07) | ((data[up+20]&0x0f) << 3); // kvs_ams bulk[pp+13] = (data[up+14]&0x03) | ((data[up+15]&0x07) << 2); // output lvl bulk[pp+14] = data[up+16]; // fcoarse_mode bulk[pp+15] = (data[up+17]&0x01) | ((data[up+18]&0x1f) << 1); // fine freq bulk[pp+16] = data[up+19]; } memcpy(bulk + 102, data + 126, 9); // pitch env, algo bulk[111] = (data[135]&0x07) | ((data[136]&0x01) << 3); memcpy(bulk + 112, data + 137, 4); // lfo bulk[116] = (data[141]&0x01) | (((data[142]&0x07) << 1) | ((data[143]&0x07) << 4)); bulk[117] = data[144]; int eos = 0; for(int i=0; i < 10; i++) { char c = name[i]; if ( c == 0 ) eos = 1; if ( eos ) { bulk[117+i] = ' '; continue; } c = c < 32 ? ' ' : c; c = c > 127 ? ' ' : c; bulk[117+i] = c; } memcpy(patchNames[idx], bulk+117, 10); patchNames[idx][10] = 0; } void DexedAudioProcessor::updateProgramFromSysex(const uint8 *rawdata) { memcpy(data, rawdata, 160); refreshUI = true; } void DexedAudioProcessor::setDxValue(int offset, int v) { TRACE("setting dx %d %d", offset, v); refreshVoice = true; if (offset >= 0) data[offset] = v; if (!sendSysexChange) return; uint8 msg[7] = { 0xF0, 0x43, 0x10, offset > 127, 0, (uint8) v, 0xF7 }; msg[4] = offset & 0x7F; midiOut.addEvent(msg, 7, 0); } void DexedAudioProcessor::loadBuiltin(int idx) { InputStream *is = builtin_pgm->createStreamForEntry(idx); if ( is == NULL ) { TRACE("ENTRY IN ZIP NOT FOUND"); return; } uint8_t syx_data[4104]; is->read(&syx_data, 4104); delete is; importSysex((char *) &syx_data); } void DexedAudioProcessor::unbindUI() { for (int i = 0; i < ctrl.size(); i++) { ctrl[i]->unbind(); } } //============================================================================== int DexedAudioProcessor::getNumParameters() { return ctrl.size(); } float DexedAudioProcessor::getParameter(int index) { return ctrl[index]->getValueHost(); } void DexedAudioProcessor::setParameter(int index, float newValue) { ctrl[index]->setValueHost(newValue); } int DexedAudioProcessor::getNumPrograms() { return 32; } int DexedAudioProcessor::getCurrentProgram() { return currentProgram; } void DexedAudioProcessor::setCurrentProgram(int index) { TRACE("setting program %d state", index); if ( lastStateSave + 2 < time(NULL) ) { for (int i = 0; i < MAX_ACTIVE_NOTES; i++) { if (voices[i].keydown == false && voices[i].live == true) { voices[i].live = false; } } index = index > 31 ? 31 : index; unpackProgram(index); lfo.reset(data + 137); } currentProgram = index; updateUI(); } const String DexedAudioProcessor::getProgramName(int index) { if (index >= 32) index = 31; return String(patchNames[index]); } void DexedAudioProcessor::changeProgramName(int index, const String& newName) { } const String DexedAudioProcessor::getParameterName(int index) { return ctrl[index]->label; } const String DexedAudioProcessor::getParameterText(int index) { return ctrl[index]->getValueDisplay(); } struct PluginState { uint8_t sysex[4011]; uint8_t program[161]; float cutoff; float reso; }; //============================================================================== void DexedAudioProcessor::getStateInformation(MemoryBlock& destData) { // You should use this method to store your parameters in the memory block. // You could do that either as raw data, or use the XML or ValueTree classes // as intermediaries to make it easy to save and load complex data. // used to SAVE plugin state PluginState state; exportSysex((char *)(&state.sysex)); memcpy(state.program, data, 161); state.cutoff = fx.uiCutoff; state.reso = fx.uiReso; destData.insert(&state, sizeof(PluginState), 0); } void DexedAudioProcessor::setStateInformation(const void* source, int sizeInBytes) { // You should use this method to restore your parameters from this memory block, // whose contents will have been created by the getStateInformation() call. // used to LOAD plugin state PluginState state; if ( sizeInBytes < sizeof(PluginState) ) { TRACE("too small plugin state size %d", sizeInBytes); return; } if ( sizeInBytes > sizeof(PluginState) ) { TRACE("hmmm, too big plugin state size %d", sizeInBytes); sizeInBytes = sizeof(PluginState); } memcpy((void *) &state, source, sizeInBytes); importSysex((char *) state.sysex); memcpy(data, state.program, 161); fx.uiCutoff = state.cutoff; fx.uiReso = state.reso; lastStateSave = (long) time(NULL); TRACE("setting VST STATE"); updateUI(); } //============================================================================== /*void DexedAudioProcessor::getCurrentProgramStateInformation( MemoryBlock& destData) { destData.insert(data, 161, 0); } void DexedAudioProcessor::setCurrentProgramStateInformation(const void* source, int sizeInBytes) { memcpy((void *) data, source, sizeInBytes); updateUI(); }*/