void MidiManager::processMidiMessage(const juce::MidiMessage &midi_message, int sample_position) { ScopedLock lock(*critical_section_); if (midi_message.isNoteOn()) { float velocity = (1.0 * midi_message.getVelocity()) / mopo::MIDI_SIZE; synth_->noteOn(midi_message.getNoteNumber(), velocity, sample_position); } else if (midi_message.isNoteOff()) synth_->noteOff(midi_message.getNoteNumber(), sample_position); else if (midi_message.isSustainPedalOn()) synth_->sustainOn(); else if (midi_message.isSustainPedalOff()) synth_->sustainOff(); else if (midi_message.isAllNotesOff()) synth_->allNotesOff(); else if (midi_message.isAftertouch()) { mopo::mopo_float note = midi_message.getNoteNumber(); mopo::mopo_float value = (1.0 * midi_message.getAfterTouchValue()) / mopo::MIDI_SIZE; synth_->setAftertouch(note, value); } else if (midi_message.isPitchWheel()) { double percent = (1.0 * midi_message.getPitchWheelValue()) / PITCH_WHEEL_RESOLUTION; double value = 2 * percent - 1.0; synth_->setPitchWheel(value); } else if (midi_message.isController()) { if (midi_message.getControllerNumber() == MOD_WHEEL_CONTROL_NUMBER) { double percent = (1.0 * midi_message.getControllerValue()) / MOD_WHEEL_RESOLUTION; synth_->setModWheel(percent); } midiInput(midi_message.getControllerNumber(), midi_message.getControllerValue()); } }
void MIDIProcessor::handleIncomingMidiMessage(juce::MidiInput * /*device*/, const juce::MidiMessage& message) { if (message.isController()) { const auto channel = static_cast<unsigned short int>(message.getChannel()); // 1-based const auto control = static_cast<unsigned short int>(message.getControllerNumber()); const auto value = static_cast<unsigned short int>(message.getControllerValue()); if (nrpn_filter_.ProcessMidi(channel, control, value)) { //true if nrpn piece if (nrpn_filter_.IsReady(channel)) { //send when finished for (const auto listener : listeners_) listener->handleMidiCC(channel, nrpn_filter_.GetControl(channel), nrpn_filter_.GetValue(channel)); nrpn_filter_.Clear(channel); } } else //regular message for (const auto listener : listeners_) listener->handleMidiCC(channel, control, value); } else if (message.isNoteOn()) { for (const auto listener : listeners_) { listener->handleMidiNote(message.getChannel(), message.getNoteNumber()); } } else if (message.isPitchWheel()) { const auto value = static_cast<unsigned short int>(message.getPitchWheelValue()); for (auto listener : listeners_) { listener->handlePitchWheel(message.getChannel(), value); } } }
void OwlNestSettings::handleIncomingMidiMessage(juce::MidiInput *source, const juce::MidiMessage &message){ lastMidiMessageTime = Time::currentTimeMillis(); bool hasChanged = false; if(message.isController()){ int cc = message.getControllerNumber(); int value = message.getControllerValue(); midiArray[cc] = value; hasChanged = true; #ifdef DEBUG std::cout << "rx cc " << cc << ": " << value << std::endl; #endif // DEBUG }else if(message.isSysEx() && message.getSysExDataSize() > 2){ const uint8 *data = message.getSysExData(); if(data[0] == MIDI_SYSEX_MANUFACTURER && data[1] == MIDI_SYSEX_DEVICE){ switch(data[2]){ case SYSEX_PRESET_NAME_COMMAND: { handlePresetNameMessage(data[3], (const char*)&data[4], message.getSysExDataSize()-4); // hasChanged = true; break; } case SYSEX_PARAMETER_NAME_COMMAND: { handleParameterNameMessage(data[3], (const char*)&data[4], message.getSysExDataSize()-4); hasChanged = true; break; } case SYSEX_DEVICE_STATS: { handleDeviceStatsMessage((const char*)&data[3], message.getSysExDataSize()-3); break; } case SYSEX_FIRMWARE_VERSION: { handleFirmwareVersionMessage((const char*)&data[3], message.getSysExDataSize()-3); break; } case SYSEX_DEVICE_ID: { #if JUCE_MAC || JUCE_LINUX int len = message.getSysExDataSize()-3; uint8_t deviceId[len]; len = sysex_to_data((uint8_t*)(data+3), deviceId, len); handleDeviceIdMessage(deviceId, len); #endif break; } case SYSEX_SELFTEST:{ handleSelfTestMessage(data[3]); if(message.getSysExDataSize() > 4) handleErrorMessage(data[4]); break; } } } } if(hasChanged) theUpdateGui.setValue(!(bool)theUpdateGui.getValue()); }