MicroDexed/midi_devices.hpp

/*
   MicroDexed
   
   MicroDexed is a port of the Dexed sound engine
   (https://github.com/asb2m10/dexed) for the Teensy-3.5/3.6/4.x with audio shield.
   Dexed ist heavily based on https://github.com/google/music-synthesizer-for-android

   (c)2018-2023 H. Wirtz <wirtz@parasitstudio.de>
   (c)2021-2022 H. Wirtz <wirtz@parasitstudio.de>, M. Koslowski <positionhigh@gmx.de>

   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 3 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
*/

#ifndef MIDI_DEVICES_H
#define MIDI_DEVICES_H

#include <MIDI.h>
#include <midi_Message.h>
#include "config.h"

extern config_t configuration;

#if defined(MIDI_DEVICE_USB_HOST) || defined(MIDI_DEVICE_USB_HOST_SERIAL)
#include <USBHost_t36.h>
#endif

// override default sysex size settings
struct MicroDexedSettings : public midi::DefaultSettings {
  static const bool UseRunningStatus = false;
  static const bool HandleNullVelocityNoteOnAsNoteOff = true;
  static const bool Use1uint8_tParsing = true;
  static const unsigned SysExMaxSize = 4104;
  static const bool UseSenderActiveSensing = false;
  static const bool UseReceiverActiveSensing = false;
  static const uint16_t SenderActiveSensingPeriodicity = 0;
};

struct CustomBaudRateSettings : public MIDI_NAMESPACE::DefaultSerialSettings {
  static const long BaudRate = 38400;
};

#ifdef MIDI_DEVICE_DIN
MIDI_CREATE_CUSTOM_INSTANCE(HardwareSerial, MIDI_DEVICE_DIN, midi_serial, MicroDexedSettings);
#endif

#if defined(MIDI_DEVICE_USB_HOST) || defined(MIDI_DEVICE_USB_HOST_SERIAL)
USBHost usb_host;
#endif
#ifdef MIDI_DEVICE_USB_HOST
MIDIDevice midi_usb(usb_host);
#endif
#ifdef MIDI_DEVICE_USB_HOST_SERIAL
#if NUM_HUBS_MIDI_DEVICE_USB_HOST_SERIAL < 2
USBHub hub1(usb_host);
#elif NUM_HUBS_MIDI_DEVICE_USB_HOST_SERIAL < 3
USBHub hub2(usb_host);
#elif NUM_HUBS_MIDI_DEVICE_USB_HOST_SERIAL < 4
USBHub hub3(usb_host);
#elif NUM_HUBS_MIDI_DEVICE_USB_HOST_SERIAL < 5
USBHub hub4(usb_host);
#endif
//USBSerial_BigBuffer userial(usb_host, 1);
//MIDI_NAMESPACE::SerialMIDI<USBSerial_BigBuffer, CustomBaudRateSettings> serialMIDI(userial);
//MIDI_NAMESPACE::MidiInterface<MIDI_NAMESPACE::SerialMIDI<USBSerial_BigBuffer, CustomBaudRateSettings>> usbhost_midi_serial((MIDI_NAMESPACE::SerialMIDI<USBSerial_BigBuffer, CustomBaudRateSettings> &)serialMIDI);
USBSerial userial(usb_host);
MIDI_NAMESPACE::SerialMIDI<USBSerial, CustomBaudRateSettings> serialMIDI(userial);
MIDI_NAMESPACE::MidiInterface<MIDI_NAMESPACE::SerialMIDI<USBSerial, CustomBaudRateSettings>> usbhost_midi_serial((MIDI_NAMESPACE::SerialMIDI<USBSerial, CustomBaudRateSettings> &)serialMIDI);
#endif

void handleNoteOn(uint8_t inChannel, uint8_t inNumber, uint8_t inVelocity);
void handleNoteOff(uint8_t inChannel, uint8_t inNumber, uint8_t inVelocity);
void handleControlChange(uint8_t inChannel, uint8_t inData1, uint8_t inData2);
void handleAfterTouch(uint8_t inChannel, uint8_t inPressure);
void handlePitchBend(uint8_t inChannel, int inPitch);
void handleProgramChange(uint8_t inChannel, uint8_t inProgram);
void handleAfterTouchPoly(uint8_t inChannel, uint8_t inNumber, uint8_t inVelocity);
void handleSystemExclusive(uint8_t *data, uint len);
//void handleSystemExclusiveChunk(const uint8_t *data, uint len, bool last);
void handleTimeCodeQuarterFrame(uint8_t data);
void handleSongSelect(uint8_t inSong);
void handleTuneRequest(void);
void handleClock(void);
void handleStart(void);
void handleContinue(void);
void handleStop(void);
void handleActiveSensing(void);
void handleSystemReset(void);
//void handleRealTimeSystem(void); 
void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value);

#define MIDI_BY_DIN "MIDI_DIN"
#define MIDI_BY_USB "USB_MIDI"
#define MIDI_BY_USB_HOST "MIDI_USB_HOST"
#define MIDI_BY_USB_HOST_SERIAL "MIDI_USB_HOST_SERIAL"

void handle_generic(uint8_t inChannel, uint8_t inData1, uint8_t inData2, const char *midi_device, midi::MidiType event) {
//void handle_generic(uint8_t inChannel, uint8_t inData1, uint8_t inData2, const char *midi_device, uint_8t event) {
  char text[10];

  switch (event) {
    case midi::NoteOn:
      handleNoteOn(inChannel, inData1, inData2);
      strlcpy(text, "NoteOn", sizeof(text));
      break;
    case midi::NoteOff:
      handleNoteOff(inChannel, inData1, inData2);
      strlcpy(text, "NoteOff", sizeof(text));
      break;
    case midi::ControlChange:
      handleControlChange(inChannel, inData1, inData2);
      strlcpy(text, "CC", sizeof(text));
      break;
    case midi::AfterTouchChannel:
      handleAfterTouch(inChannel, inData1);
      strlcpy(text, "Mono AT", sizeof(text));
      break;
    case midi::PitchBend:
      handlePitchBend(inChannel, (inData2 << 7) | inData1);
      strlcpy(text, "PB", sizeof(text));
      break;
    case midi::ProgramChange:
      handleProgramChange(inChannel, inData1);
      strlcpy(text, "PC", sizeof(text));
      break;
    case midi::AfterTouchPoly:
      handleAfterTouchPoly(inChannel, inData1, inData2);
      strlcpy(text, "Poly AT", sizeof(text));
      break;
    default:
      break;
  }
#ifdef DEBUG
  Serial.printf_P(PSTR("[%s] %s"), midi_device, text);
#endif

  // MIDI THRU
  if (configuration.sys.soft_midi_thru == 1) {
#ifdef MIDI_DEVICE_USB
    if (strcmp(MIDI_BY_USB, midi_device)) {
      switch (event) {
        case midi::NoteOn:
          usbMIDI.sendNoteOn(inData1, inData2, inChannel);
          break;
        case midi::NoteOff:
          usbMIDI.sendNoteOff(inData1, inData2, inChannel);
          break;
        case midi::ControlChange:
          usbMIDI.sendControlChange(inData1, inData2, inChannel);
          break;
        case midi::AfterTouchChannel:
          usbMIDI.sendAfterTouch(inData1, inChannel);
          break;
        case midi::PitchBend:
          usbMIDI.sendPitchBend((inData2 << 7) | inData1, inChannel);
          break;
        case midi::ProgramChange:
          usbMIDI.sendProgramChange(inData1, inChannel);
          break;
        case midi::AfterTouchPoly:
          usbMIDI.sendAfterTouch(inData1, inData2, inChannel);
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_DIN
    if (strcmp(MIDI_BY_DIN, midi_device)) {
      switch (event) {
        case midi::NoteOn:
          midi_serial.sendNoteOn(inData1, inData2, inChannel);
          break;
        case midi::NoteOff:
          midi_serial.sendNoteOff(inData1, inData2, inChannel);
          break;
        case midi::ControlChange:
          midi_serial.sendControlChange(inData1, inData2, inChannel);
          break;
        case midi::AfterTouchChannel:
          midi_serial.sendAfterTouch(inData1, inChannel);
          break;
        case midi::PitchBend:
          midi_serial.sendPitchBend((inData2 << 7) | inData1, inChannel);
          break;
        case midi::ProgramChange:
          midi_serial.sendProgramChange(inData1, inChannel);
          break;
        case midi::AfterTouchPoly:
          midi_serial.sendAfterTouch(inData1, inData2, inChannel);
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_DIN"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST
    if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
      switch (event) {
        case midi::NoteOn:
          midi_usb.sendNoteOn(inData1, inData2, inChannel);
          break;
        case midi::NoteOff:
          midi_usb.sendNoteOff(inData1, inData2, inChannel);
          break;
        case midi::ControlChange:
          midi_usb.sendControlChange(inData1, inData2, inChannel);
          break;
        case midi::AfterTouchChannel:
          midi_usb.sendAfterTouch(inData1, inChannel);
          break;
        case midi::PitchBend:
          midi_usb.sendPitchBend((inData2 << 7) | inData1, inChannel);
          break;
        case midi::ProgramChange:
          midi_usb.sendProgramChange(inData1, inChannel);
          break;
        case midi::AfterTouchPoly:
          midi_usb.sendAfterTouch(inData1, inData2, inChannel);
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
    if (strcmp(MIDI_BY_USB_HOST_SERIAL, midi_device)) {
      switch (event) {
        case midi::NoteOn:
          usbhost_midi_serial.sendNoteOn(inData1, inData2, inChannel);
          break;
        case midi::NoteOff:
          usbhost_midi_serial.sendNoteOff(inData1, inData2, inChannel);
          break;
        case midi::ControlChange:
          usbhost_midi_serial.sendControlChange(inData1, inData2, inChannel);
          break;
        case midi::AfterTouchChannel:
          usbhost_midi_serial.sendAfterTouch(inData1, inChannel);
          break;
        case midi::PitchBend:
          usbhost_midi_serial.sendPitchBend((inData2 << 7) | inData1, inChannel);
          break;
        case midi::ProgramChange:
          usbhost_midi_serial.sendProgramChange(inData1, inChannel);
          break;
        case midi::AfterTouchPoly:
          usbhost_midi_serial.sendAfterTouch(inData1, inData2, inChannel);
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST_SERIAL"));
#endif
    }
#endif
  }

#ifdef DEBUG
  Serial.println();
#endif
}

void handleSystemExclusive_generic(uint8_t *data, uint len, const char *midi_device) {
  handleSystemExclusive(data, len);
#ifdef DEBUG
  Serial.printf_P(PSTR("[%s] SysEx"), midi_device);
#endif

  // MIDI THRU
  if (configuration.sys.soft_midi_thru == 1) {
#ifdef MIDI_DEVICE_USB
    if (strcmp(MIDI_BY_USB, midi_device)) {
      usbMIDI.sendSysEx(len, data);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_DIN
    if (strcmp(MIDI_BY_DIN, midi_device)) {
      midi_serial.sendSysEx(len, data);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_DIN"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST
    if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
      midi_usb.sendSysEx(len, data);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
    if (strcmp(MIDI_BY_USB_HOST_SERIAL, midi_device)) {
      usbhost_midi_serial.sendSysEx(len, data);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST_SERIAL"));
#endif
    }
#endif
  }

#ifdef DEBUG
  Serial.println();
#endif
}

void handleSystemCommon_generic(uint8_t inData1, const char *midi_device, midi::MidiType event) {
  char text[10];

  switch (event) {
    case midi::TimeCodeQuarterFrame:
      handleTimeCodeQuarterFrame(inData1);
      strlcpy(text, "TimeCodeQuarterFrame", sizeof(text));
      break;
    case midi::SongSelect:
      handleSongSelect(inData1);
      strlcpy(text, "SongSelect", sizeof(text));
      break;
    case midi::TuneRequest:
      handleTuneRequest();
      strlcpy(text, "TuneRequest", sizeof(text));
      break;
    default:
      break;
  }
#ifdef DEBUG
  Serial.printf_P(PSTR("[%s] %s"), midi_device, text);
#endif

  // MIDI THRU
  if (configuration.sys.soft_midi_thru == 1) {
#ifdef MIDI_DEVICE_USB
    if (strcmp(MIDI_BY_USB, midi_device)) {
      switch (event) {
        case midi::TimeCodeQuarterFrame:
          usbMIDI.sendTimeCodeQuarterFrame(0xF1, inData1);
          break;
        case midi::SongSelect:
          usbMIDI.sendSongSelect(inData1);
          break;
        case midi::TuneRequest:
          usbMIDI.sendTuneRequest();
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_DIN
    if (strcmp(MIDI_BY_DIN, midi_device)) {
      switch (event) {
        case midi::TimeCodeQuarterFrame:
          midi_serial.sendTimeCodeQuarterFrame(inData1);
          break;
        case midi::SongSelect:
          midi_serial.sendSongSelect(inData1);
          break;
        case midi::TuneRequest:
          midi_serial.sendTuneRequest();
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_DIN"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST
    if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
      switch (event) {
        case midi::TimeCodeQuarterFrame:
          midi_usb.sendTimeCodeQuarterFrame(0xF1, inData1);
          break;
        case midi::SongSelect:
          midi_usb.sendSongSelect(inData1);
          break;
        case midi::TuneRequest:
          midi_usb.sendTuneRequest();
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
    if (strcmp(MIDI_BY_USB_HOST_SERIAL, midi_device)) {
      switch (event) {
        case midi::TimeCodeQuarterFrame:
          usbhost_midi_serial.sendTimeCodeQuarterFrame(0xF1, inData1);
          break;
        case midi::SongSelect:
          usbhost_midi_serial.sendSongSelect(inData1);
          break;
        case midi::TuneRequest:
          usbhost_midi_serial.sendTuneRequest();
          break;
        default:
          break;
      }
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST_SERIAL"));
#endif
    }
#endif
  }

#ifdef DEBUG
  Serial.println();
#endif
}

void handleRealtime_generic(const char *midi_device, midi::MidiType event) {
  char text[10];

  switch (event) {
    case midi::Clock:
      handleClock();
      strlcpy(text, "Clock", sizeof(text));
      break;
    case midi::Start:
      handleStart();
      strlcpy(text, "Start", sizeof(text));
      break;
    case midi::Continue:
      handleContinue();
      strlcpy(text, "Continue", sizeof(text));
      break;
    case midi::Stop:
      handleStop();
      strlcpy(text, "Stop", sizeof(text));
      break;
    case midi::ActiveSensing:
      handleActiveSensing();
      strlcpy(text, "ActiveSensing", sizeof(text));
      break;
    case midi::SystemReset:
      handleSystemReset();
      strlcpy(text, "SystemReset", sizeof(text));
      break;
    default:
      break;
  }
#ifdef DEBUG
  Serial.printf_P(PSTR("[%s] %s"), midi_device, text);
#endif

  // MIDI THRU
  if (configuration.sys.soft_midi_thru == 1) {
#ifdef MIDI_DEVICE_USB
    if (strcmp(MIDI_BY_USB, midi_device)) {
      usbMIDI.sendRealTime(event);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_DIN
    if (strcmp(MIDI_BY_DIN, midi_device)) {
      midi_serial.sendRealTime(event);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_DIN"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST
    if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
      midi_usb.sendRealTime(event);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif
    }
#endif

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
    if (strcmp(MIDI_BY_USB_HOST_SERIAL, midi_device)) {
      usbhost_midi_serial.sendRealTime(event);
#ifdef DEBUG
      Serial.print(F(" THRU->MIDI_USB_HOST_SERIAL"));
#endif
    }
#endif
  }

#ifdef DEBUG
  Serial.println();
#endif
}

///* void handleSystemExclusiveChunk_MIDI_DEVICE_DIN(uint8_t *data, uint len, bool last)

// void handlRealTimeSystem_generic(uint8_t inRealTime, uint8_t midi_device) {
//   handleRealTimeSystem();
// #ifdef DEBUG
//   switch(midi_device) {
//     case MIDI_DIN:
//       Serial.print(F("[MIDI_DIN] RealTimeSystem"));
//       break;
//     case MIDI_USB_HOST:
//       Serial.print(F("[MIDI_USB_HOST] RealTimeSystem"));
//       break;
//     case USB_MIDI:
//       Serial.print(F("[USB_MIDI] RealTimeSystem"));
//       break;
//   }
// #endif
//   if (configuration.sys.soft_midi_thru == 1)
//   {
// #ifdef MIDI_DEVICE_USB
//     if(midi_device != USB_MIDI) {
//         usbMIDI.sendRealTime(inRealTime);
//   #ifdef DEBUG
//         Serial.print(F(" THRU->MIDI_USB"));
//   #endif
//     }
// #endif

// #ifdef MIDI_DEVICE_DIN
//     if(midi_device != MIDI_DIN) {
//       midi_serial.sendRealTime((midi::MidiType)inRealTime);
//   #ifdef DEBUG
//         Serial.print(F(" THRU->MIDI_DIN"));
//   #endif
//     }
// #endif

// #ifdef MIDI_DEVICE_USB_HOST
//     if(midi_device != MIDI_USB_HOST) {
//         midi_usb.sendRealTime(inRealTime);
//   #ifdef DEBUG
//         Serial.print(F(" THRU->MIDI_USB_HOST"));
//   #endif
//     }
// #endif
//   }

// #ifdef DEBUG
//   Serial.println();
// #endif
// }


/*****************************************
   MIDI_DEVICE_DIN
 *****************************************/
#ifdef MIDI_DEVICE_DIN

void handleNoteOn_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOn);
}

void handleNoteOff_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOff);
}

void handleControlChange_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inData1, uint8_t inData2) {
  handle_generic(inChannel, inData1, inData2, MIDI_BY_DIN, midi::ControlChange);
}

void handleAfterTouch_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inPressure) {
  handle_generic(inChannel, inPressure, '\0', MIDI_BY_DIN, midi::AfterTouchChannel);
}

void handlePitchBend_MIDI_DEVICE_DIN(uint8_t inChannel, int inPitch) {
  inPitch += 0x2000;
  handle_generic(inChannel, (inPitch & 0x07), (inPitch >> 0x07), MIDI_BY_DIN, midi::PitchBend);
}

void handleProgramChange_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inProgram) {
  handle_generic(inChannel, inProgram, '\0', MIDI_BY_DIN, midi::ProgramChange);
}

void handleAfterTouchPoly_MIDI_DEVICE_DIN(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::AfterTouchPoly);
}

void handleSystemExclusive_MIDI_DEVICE_DIN(uint8_t *data, uint len) {
  handleSystemExclusive_generic(data, len, MIDI_BY_DIN);
}

/* void handleSystemExclusiveChunk_MIDI_DEVICE_DIN(uint8_t *data, uint len, bool last)
  {
  handleSystemExclusiveChunk(data, len, last);
  #ifdef DEBUG
  Serial.print(F("[MIDI_DIN] SysExChunk"));
  #endif
    if (configuration.sys.soft_midi_thru == 1)
  {
  #ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_USB_HOST"));
  #endif
  #endif
  #ifdef MIDI_DEVICE_USB
  usbMIDI.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_USB"));
  #endif
  #endif
  }
  #ifdef DEBUG
  Serial.println();
  #endif
  } */

void handleTimeCodeQuarterFrame_MIDI_DEVICE_DIN(uint8_t data) {
  handleSystemCommon_generic(data, MIDI_BY_DIN, midi::TimeCodeQuarterFrame);
}

void handleSongSelect_MIDI_DEVICE_DIN(uint8_t inSong) {
  handleSystemCommon_generic(inSong, MIDI_BY_DIN, midi::SongSelect);
}

void handleTuneRequest_MIDI_DEVICE_DIN(void) {
  handleSystemCommon_generic('\0', MIDI_BY_DIN, midi::TuneRequest);
}

void handleClock_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::Clock);
}

void handleStart_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::Start);
}

void handleContinue_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::Continue);
}

void handleStop_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::Stop);
}

void handleActiveSensing_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::ActiveSensing);
}

void handleSystemReset_MIDI_DEVICE_DIN(void) {
  handleRealtime_generic(MIDI_BY_DIN, midi::SystemReset);
}

/* void handlRealTimeSysteme_MIDI_DEVICE_DIN(uint8_t inRealTime)
  {
  handleRealTimeSystem_generic(MIDI_DIN);
  } */
#endif  // MIDI_DEVICE_DIN

/*****************************************
   MIDI_DEVICE_USB_HOST
 *****************************************/
#ifdef MIDI_DEVICE_USB_HOST
void handleNoteOn_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOn);
}

void handleNoteOff_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOff);
}

void handleControlChange_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inData1, uint8_t inData2) {
  handle_generic(inChannel, inData1, inData2, MIDI_BY_USB_HOST, midi::ControlChange);
}

void handleAfterTouch_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inPressure) {
  handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB_HOST, midi::AfterTouchChannel);
}

void handlePitchBend_MIDI_DEVICE_USB_HOST(uint8_t inChannel, int inPitch) {
  inPitch += 0x2000;
  handle_generic(inChannel, (inPitch & 0x07), (inPitch >> 0x07), MIDI_BY_USB_HOST, midi::PitchBend);
}

void handleProgramChange_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inProgram) {
  handle_generic(inChannel, inProgram, '\0', MIDI_BY_USB_HOST, midi::ProgramChange);
}

void handleAfterTouchPoly_MIDI_DEVICE_USB_HOST(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::AfterTouchPoly);
}

void handleSystemExclusive_MIDI_DEVICE_USB_HOST(uint8_t *data, uint len) {
  handleSystemExclusive_generic(data, len, MIDI_BY_USB_HOST);
}

/* void handleSystemExclusiveChunk_MIDI_DEVICE_USB_HOST(uint8_t *data, uint len, bool last)
  {
  handleSystemExclusiveChunk(data, len, last);
  #ifdef DEBUG
  Serial.print(F("[MIDI_USB_HOST] SysExChunk"));
  #endif
    if (configuration.sys.soft_midi_thru == 1)
  {
  #ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_DIN"));
  #endif
  #endif
  #ifdef MIDI_DEVICE_USB
  usbMIDI.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_USB"));
  #endif
  #endif
  }
  #ifdef DEBUG
  Serial.println();
  #endif
  } */

void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST(uint8_t data) {
  handleSystemCommon_generic(data, MIDI_BY_USB_HOST, midi::TimeCodeQuarterFrame);
}

void handleSongSelect_MIDI_DEVICE_USB_HOST(uint8_t inSong) {
  handleSystemCommon_generic(inSong, MIDI_BY_USB_HOST, midi::SongSelect);
}

void handleTuneRequest_MIDI_DEVICE_USB_HOST(void) {
  handleSystemCommon_generic('\0', MIDI_BY_USB_HOST, midi::TuneRequest);
}

void handleClock_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::Clock);
}

void handleStart_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::Start);
}

void handleContinue_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::Continue);
}

void handleStop_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::Stop);
}

void handleActiveSensing_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::ActiveSensing);
}

void handleSystemReset_MIDI_DEVICE_USB_HOST(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST, midi::SystemReset);
}

/* void handlRealTimeSystem_MIDI_DEVICE_USB_HOST(midi::MidiType inRealTime)
  {
  handleRealTimeSystem_generic(inRealTime, MIDI_USB_HOST);
  } */

#endif  // MIDI_DEVICE_USB_HOST

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
void handleNoteOn_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST_SERIAL, midi::NoteOn);
}

void handleNoteOff_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST_SERIAL, midi::NoteOff);
}

void handleControlChange_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inData1, uint8_t inData2) {
  handle_generic(inChannel, inData1, inData2, MIDI_BY_USB_HOST_SERIAL, midi::ControlChange);
}

void handleAfterTouch_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inPressure) {
  handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB_HOST_SERIAL, midi::AfterTouchChannel);
}

void handlePitchBend_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, int inPitch) {
  inPitch += 0x2000;
  handle_generic(inChannel, (inPitch & 0x07), (inPitch >> 0x07), MIDI_BY_USB_HOST_SERIAL, midi::PitchBend);
}

void handleProgramChange_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inProgram) {
  handle_generic(inChannel, inProgram, '\0', MIDI_BY_USB_HOST_SERIAL, midi::ProgramChange);
}

void handleAfterTouchPoly_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST_SERIAL, midi::AfterTouchPoly);
}

void handleSystemExclusive_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t *data, uint len) {
  handleSystemExclusive_generic(data, len, MIDI_BY_USB_HOST_SERIAL);
}

/* void handleSystemExclusiveChunk_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t *data, uint len, bool last)
  {
  handleSystemExclusiveChunk(data, len, last);
  #ifdef DEBUG
  Serial.print(F("[MIDI_USB_HOST] SysExChunk"));
  #endif
    if (configuration.sys.soft_midi_thru == 1)
  {
  #ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_DIN"));
  #endif
  #endif
  #ifdef MIDI_DEVICE_USB
  usbMIDI.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_USB"));
  #endif
  #endif
  }
  #ifdef DEBUG
  Serial.println();
  #endif
  } */

void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t data) {
  handleSystemCommon_generic(data, MIDI_BY_USB_HOST_SERIAL, midi::TimeCodeQuarterFrame);
}

void handleSongSelect_MIDI_DEVICE_USB_HOST_SERIAL(uint8_t inSong) {
  handleSystemCommon_generic(inSong, MIDI_BY_USB_HOST_SERIAL, midi::SongSelect);
}

void handleTuneRequest_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleSystemCommon_generic('\0', MIDI_BY_USB_HOST_SERIAL, midi::TuneRequest);
}

void handleClock_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::Clock);
}

void handleStart_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::Start);
}

void handleContinue_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::Continue);
}

void handleStop_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::Stop);
}

void handleActiveSensing_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::ActiveSensing);
}

void handleSystemReset_MIDI_DEVICE_USB_HOST_SERIAL(void) {
  handleRealtime_generic(MIDI_BY_USB_HOST_SERIAL, midi::SystemReset);
}

/* void handlRealTimeSystem_MIDI_DEVICE_USB_HOST_SERIAL(midi::MidiType inRealTime)
  {
  handleRealTimeSystem_generic(inRealTime, MIDI_USB_HOST);
  } */
#endif  // MIDI_DEVICE_USB_HOST_SERIAL

/*****************************************
   MIDI_DEVICE_USB
 *****************************************/
#ifdef MIDI_DEVICE_USB
void handleNoteOn_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOn);
}

void handleNoteOff_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOff);
}

void handleControlChange_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inData1, uint8_t inData2) {
  handle_generic(inChannel, inData1, inData2, MIDI_BY_USB, midi::ControlChange);
}

void handleAfterTouch_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inPressure) {
  handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB, midi::AfterTouchChannel);
}

void handlePitchBend_MIDI_DEVICE_USB(uint8_t inChannel, int inPitch) {
  inPitch += 0x2000;
  handle_generic(inChannel, (inPitch & 0x07), (inPitch >> 0x07), MIDI_BY_USB, midi::PitchBend);
}

void handleProgramChange_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inProgram) {
  handle_generic(inChannel, inProgram, '\0', MIDI_BY_USB, midi::ProgramChange);
}

void handleAfterTouchPoly_MIDI_DEVICE_USB(uint8_t inChannel, uint8_t inNoteNumber, uint8_t inVelocity) {
  handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::AfterTouchPoly);
}

void handleSystemExclusive_MIDI_DEVICE_USB(uint8_t *data, uint len) {
  handleSystemExclusive_generic(data, len, MIDI_BY_USB);
}

/* FLASHMEM void handleSystemExclusiveChunk_MIDI_DEVICE_USB(uint8_t *data, uint len, bool last)
  {
  handleSystemExclusiveChunk(data, len, last);
  #ifdef DEBUG
  Serial.print(F("[MIDI_USB] SysExChunk"));
  #endif
    if (configuration.sys.soft_midi_thru == 1)
  {
  #ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_DIN"));
  #endif
  #endif
  #ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendSysEx(len, data, last);
  #ifdef DEBUG
  Serial.print(F(" THRU->MIDI_USB_HOST"));
  #endif
  #endif
  }
  #ifdef DEBUG
  Serial.println();
  #endif
  } */

void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB(uint8_t data) {
  handleSystemCommon_generic(data, MIDI_BY_USB, midi::TimeCodeQuarterFrame);
}

void handleSongSelect_MIDI_DEVICE_USB(uint8_t inSong) {
  handleSystemCommon_generic(inSong, MIDI_BY_USB, midi::SongSelect);
}

void handleTuneRequest_MIDI_DEVICE_USB(void) {
  handleSystemCommon_generic('\0', MIDI_BY_USB, midi::TuneRequest);
}

void handleClock_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::Clock);
}

void handleStart_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::Start);
}

void handleContinue_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::Continue);
}

void handleStop_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::Stop);
}

void handleActiveSensing_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::ActiveSensing);
}

void handleSystemReset_MIDI_DEVICE_USB(void) {
  handleRealtime_generic(MIDI_BY_USB, midi::SystemReset);
}

/* FLASHMEM void handleRealTimeSystem_MIDI_DEVICE_USB(uint8_t inRealTime)
  {
  handleRealTimeSystem_generic(inRealTime, USB_MIDI);
  } */
#endif  // MIDI_DEVICE_USB

FLASHMEM void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value) {
#ifdef DEBUG
  Serial.print(F("[MD] SendControlChange CH:"));
  Serial.print(channel, DEC);
  Serial.print(F(" CC:"));
  Serial.print(cc);
  Serial.print(F(" VAL:"));
  Serial.print(value);
#endif
#ifdef MIDI_DEVICE_DIN
  midi_serial.sendControlChange(cc, value, channel);
#ifdef DEBUG
  Serial.print(F(" MIDI-DIN"));
#endif
#endif
#ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendControlChange(cc, value, channel);
#ifdef DEBUG
  Serial.print(F(" MIDI-USB-HOST"));
#endif
#endif
#ifdef MIDI_DEVICE_USB
  usbMIDI.sendControlChange(cc, value, channel);
#ifdef DEBUG
  Serial.print(F(" MIDI-USB"));
#endif
#endif
#ifdef DEBUG
  Serial.println();
#endif
}

/*****************************************
   HELPER FUNCTIONS
 *****************************************/
FLASHMEM void setup_midi_devices(void) {
#ifdef MIDI_DEVICE_DIN
  // Start serial MIDI
  midi_serial.begin(DEFAULT_MIDI_CHANNEL);
  midi_serial.setHandleNoteOn(handleNoteOn_MIDI_DEVICE_DIN);
  midi_serial.setHandleNoteOff(handleNoteOff_MIDI_DEVICE_DIN);
  midi_serial.setHandleControlChange(handleControlChange_MIDI_DEVICE_DIN);
  midi_serial.setHandleAfterTouchChannel(handleAfterTouch_MIDI_DEVICE_DIN);
  midi_serial.setHandlePitchBend(handlePitchBend_MIDI_DEVICE_DIN);
  midi_serial.setHandleProgramChange(handleProgramChange_MIDI_DEVICE_DIN);
  midi_serial.setHandleSystemExclusive(handleSystemExclusive_MIDI_DEVICE_DIN);
  //midi_serial.setHandleSystemExclusiveChunk(handleSystemExclusiveChunk_MIDI_DEVICE_DIN);
  midi_serial.setHandleTimeCodeQuarterFrame(handleTimeCodeQuarterFrame_MIDI_DEVICE_DIN);
  midi_serial.setHandleAfterTouchPoly(handleAfterTouchPoly_MIDI_DEVICE_DIN);
  midi_serial.setHandleSongSelect(handleSongSelect_MIDI_DEVICE_DIN);
  midi_serial.setHandleTuneRequest(handleTuneRequest_MIDI_DEVICE_DIN);
  midi_serial.setHandleClock(handleClock_MIDI_DEVICE_DIN);
  midi_serial.setHandleStart(handleStart_MIDI_DEVICE_DIN);
  midi_serial.setHandleContinue(handleContinue_MIDI_DEVICE_DIN);
  midi_serial.setHandleStop(handleStop_MIDI_DEVICE_DIN);
  midi_serial.setHandleActiveSensing(handleActiveSensing_MIDI_DEVICE_DIN);
  midi_serial.setHandleSystemReset(handleSystemReset_MIDI_DEVICE_DIN);
  //midi_serial.setHandleRealTimeSystem(handleRealTimeSystem_MIDI_DEVICE_DIN);
#ifdef DEBUG
  Serial.println(F("MIDI_DEVICE_DIN enabled"));
#endif
#endif

  // start up USB host
#ifdef MIDI_DEVICE_USB_HOST
  usb_host.begin();
  midi_usb.setHandleNoteOn(handleNoteOn_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleNoteOff(handleNoteOff_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleControlChange(handleControlChange_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleAfterTouchChannel(handleAfterTouch_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandlePitchChange(handlePitchBend_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleProgramChange(handleProgramChange_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleSystemExclusive(handleSystemExclusive_MIDI_DEVICE_USB_HOST);
  //midi_usb.setHandleSystemExclusiveChunk(handleSystemExclusiveChunk_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleTimeCodeQuarterFrame(handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleAfterTouchPoly(handleAfterTouchPoly_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleSongSelect(handleSongSelect_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleTuneRequest(handleTuneRequest_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleClock(handleClock_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleStart(handleStart_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleContinue(handleContinue_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleStop(handleStop_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleActiveSensing(handleActiveSensing_MIDI_DEVICE_USB_HOST);
  midi_usb.setHandleSystemReset(handleSystemReset_MIDI_DEVICE_USB_HOST);
  //midi_usb.setHandleRealTimeSystem(handleRealTimeSystem_MIDI_DEVICE_USB_HOST);
#ifdef DEBUG
  Serial.println(F("MIDI_DEVICE_USB_HOST enabled."));
#endif
#endif

#ifdef MIDI_DEVICE_USB_HOST_SERIAL
  usb_host.begin();
  userial.begin(USB_HOST_SERIAL_BAUD, USB_HOST_SERIAL_FORMAT);
  usbhost_midi_serial.setHandleNoteOn(handleNoteOn_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleNoteOff(handleNoteOff_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleControlChange(handleControlChange_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleAfterTouchChannel(handleAfterTouch_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandlePitchBend(handlePitchBend_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleProgramChange(handleProgramChange_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleSystemExclusive(handleSystemExclusive_MIDI_DEVICE_USB_HOST_SERIAL);
  //usbhost_midi_serial.setHandleSystemExclusiveChunk(handleSystemExclusiveChunk_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleTimeCodeQuarterFrame(handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleAfterTouchPoly(handleAfterTouchPoly_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleSongSelect(handleSongSelect_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleTuneRequest(handleTuneRequest_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleClock(handleClock_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleStart(handleStart_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleContinue(handleContinue_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleStop(handleStop_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleActiveSensing(handleActiveSensing_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.setHandleSystemReset(handleSystemReset_MIDI_DEVICE_USB_HOST_SERIAL);
  //usbhost_midi_serial.setHandleRealTimeSystem(handleRealTimeSystem_MIDI_DEVICE_USB_HOST_SERIAL);
  usbhost_midi_serial.begin(DEFAULT_MIDI_CHANNEL);

#ifdef DEBUG
  Serial.print(F("MIDI_DEVICE_USB_HOST_SERIAL enabled"));
  if (userial.idVendor() > 0 && userial.idProduct() > 0) {
    Serial.print(F("(0x"));
    Serial.print(userial.idVendor());
    Serial.print(F("/0x"));
    Serial.print(userial.idProduct());
    Serial.print(F(")"));
  }
  Serial.println(F("."));
#endif
#endif

  // check for onboard USB-MIDI
#ifdef MIDI_DEVICE_USB
  usbMIDI.begin();
  usbMIDI.setHandleNoteOn(handleNoteOn_MIDI_DEVICE_USB);
  usbMIDI.setHandleNoteOff(handleNoteOff_MIDI_DEVICE_USB);
  usbMIDI.setHandleControlChange(handleControlChange_MIDI_DEVICE_USB);
  usbMIDI.setHandleAfterTouchChannel(handleAfterTouch_MIDI_DEVICE_USB);
  usbMIDI.setHandlePitchChange(handlePitchBend_MIDI_DEVICE_USB);
  usbMIDI.setHandleProgramChange(handleProgramChange_MIDI_DEVICE_USB);
  usbMIDI.setHandleSystemExclusive(handleSystemExclusive_MIDI_DEVICE_USB);
  //usbMIDI.setHandleSystemExclusiveChunk(handleSystemExclusiveChunk_MIDI_DEVICE_USB);
  usbMIDI.setHandleTimeCodeQuarterFrame(handleTimeCodeQuarterFrame_MIDI_DEVICE_USB);
  usbMIDI.setHandleAfterTouchPoly(handleAfterTouchPoly_MIDI_DEVICE_USB);
  usbMIDI.setHandleSongSelect(handleSongSelect_MIDI_DEVICE_USB);
  usbMIDI.setHandleTuneRequest(handleTuneRequest_MIDI_DEVICE_USB);
  usbMIDI.setHandleClock(handleClock_MIDI_DEVICE_USB);
  usbMIDI.setHandleStart(handleStart_MIDI_DEVICE_USB);
  usbMIDI.setHandleContinue(handleContinue_MIDI_DEVICE_USB);
  usbMIDI.setHandleStop(handleStop_MIDI_DEVICE_USB);
  usbMIDI.setHandleActiveSensing(handleActiveSensing_MIDI_DEVICE_USB);
  usbMIDI.setHandleSystemReset(handleSystemReset_MIDI_DEVICE_USB);
  //usbMIDI.setHandleRealTimeSystem(handleRealTimeSystem_MIDI_DEVICE_USB);
#ifdef DEBUG
  Serial.println(F("MIDI_DEVICE_USB enabled."));
#endif
#endif
}

FLASHMEM void check_midi_devices(void) {
#ifdef MIDI_DEVICE_DIN
  midi_serial.read();
#endif
#ifdef MIDI_DEVICE_USB
  usbMIDI.read();
#endif
#ifdef MIDI_DEVICE_USB_HOST
  usb_host.Task();
  midi_usb.read();
#endif
#ifdef MIDI_DEVICE_USB_HOST_SERIAL
  usb_host.Task();
  usbhost_midi_serial.read();
#endif
}

FLASHMEM void send_sysex_voice(uint8_t midi_channel, uint8_t *data) {
  uint8_t checksum = 0;
  uint8_t vd[161];

  // Send SYSEX data also via MIDI
  //vd[0] = 0xF0; // SysEx start
  vd[0] = 0x43;          // ID=Yamaha
  vd[1] = midi_channel;  // Sub-status and MIDI channel
  vd[2] = 0x00;          // Format number (0=1 voice)
  vd[3] = 0x01;          // uint8_t count MSB
  vd[4] = 0x1B;          // uint8_t count LSB
  for (uint8_t n = 0; n < 155; n++) {
    checksum -= data[n];
    vd[5 + n] = data[n];
  }
  vd[160] = checksum & 0x7f;  // Checksum
  //vd[162] = 0xF7; // SysEx end

#ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(161, vd);  // Send to DIN MIDI
#endif
#ifdef MIDI_DEVICE_USB
  usbMIDI.sendSysEx(161, vd);  // Send to USB MIDI
#endif
#ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendSysEx(161, vd);  // Send to USB-HOST MIDI
#endif
}

FLASHMEM void send_sysex_bank(uint8_t midi_channel, uint8_t *bank_data) {
#ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(4104, bank_data);  // Send to DIN MIDI
#endif
#ifdef MIDI_DEVICE_USB
  // Sysex bank dump is splitted due to Windows USB driver limitations
  usbMIDI.sendSysEx(2048, bank_data, true);  // Send to USB MIDI
  delay(50);
  usbMIDI.sendSysEx(2048, bank_data + 2048, true);
  delay(50);
  usbMIDI.sendSysEx(8, bank_data + 4096, true);
#endif
#ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendSysEx(4104, bank_data);  // Send to USB-HOST MIDI
#endif
}

FLASHMEM void send_sysex_param(uint8_t midi_channel, uint8_t var, uint8_t val, uint8_t param_group) {
  uint8_t s[5];

  s[0] = 0x43;                    // ID=Yamaha
  s[1] = midi_channel;            // Sub-status and MIDI channel
  s[2] = (param_group & 5) << 2;  // Format number (0=1 voice)
  if (param_group == 0) {
    s[2] |= 1;
    s[3] = var & 0x7f;
  } else {
    s[3] = var & 0x7f;
  }
  s[4] = val & 0x7f;

#ifdef MIDI_DEVICE_DIN
  midi_serial.sendSysEx(5, s);  // Send to DIN MIDI
#endif
#ifdef MIDI_DEVICE_USB
  usbMIDI.sendSysEx(5, s);  // Send to USB MIDI
#endif
#ifdef MIDI_DEVICE_USB_HOST
  midi_usb.sendSysEx(5, s);  // Send to USB-HOST MIDI
#endif
}

#endif  // MIDI_DEVICES_H