BMC.hardware.pots.cpp

/*
  See https://www.RoxXxtar.com/bmc for more details
  Copyright (c) 2020 RoxXxtar.com
  Licensed under the MIT license.
  See LICENSE file in the project root for full license information.
*/
#include <BMC.h>

#if BMC_MAX_POTS > 0 || BMC_MAX_GLOBAL_POTS > 0
// SETUP
void BMC::setupPots(){
#if BMC_MAX_POTS > 0
  for(uint8_t i = 0; i < BMC_MAX_POTS; i++){
    BMCUIData ui = BMCBuildData::getUIData(BMC_DEVICE_ID_POT, i);
    pots[i].begin(ui.pins[0]);
  }
#endif

#if BMC_MAX_GLOBAL_POTS > 0
  for(uint8_t i = 0; i < BMC_MAX_GLOBAL_POTS; i++){
    BMCUIData ui = BMCBuildData::getUIData(BMC_DEVICE_ID_GLOBAL_POT, i);
    globalPots[i].begin(ui.pins[0]);
  }
#endif
}

void BMC::assignPots(){
#if BMC_MAX_POTS > 0
  for(uint8_t i = 0; i < BMC_MAX_POTS; i++){
    bmcStoreDevice <1, 3>& device = store.pages[page].pots[i];
    //bmcStoreEvent data = globals.getDeviceEventType(device.events[0]);
    bmcEvent_t toeEngage = device.events[1];
    bmcEvent_t toeDisengage = device.events[2];
    pots[i].reassign();
    pots[i].setCalibration(
      globalData.potCalibration[i].events[0],
      globalData.potCalibration[i].events[1]
    );
    //pot.setTaper(bitRead(BMC_GET_BYTE(3, event), 7));
    pots[i].assignToeSwitch(toeEngage, toeDisengage, device.settings[0]);
  }
#endif
#if BMC_MAX_GLOBAL_POTS > 0
  for(uint8_t i = 0; i < BMC_MAX_GLOBAL_POTS; i++){
    bmcStoreDevice <1, 3>& device = store.global.pots[i];
    bmcEvent_t toeEngage = device.events[1];
    bmcEvent_t toeDisengage = device.events[2];
    globalPots[i].reassign();
    globalPots[i].setCalibration(
      globalData.potCalibration[BMC_MAX_POTS+i].events[0],
      globalData.potCalibration[BMC_MAX_POTS+i].events[1]
    );
    //pot.setTaper(bitRead(BMC_GET_BYTE(3, event), 7));
    globalPots[i].assignToeSwitch(toeEngage, toeDisengage, device.settings[0]);
  }
#endif
}

void BMC::readPots(){
#if BMC_MAX_POTS > 0
  // handle Calibration
  if(potCalibration.active()){
    if(potCalibration.getDeviceType()==BMC_DEVICE_ID_POT){
      uint16_t n = potCalibration.getIndex();
#if BMC_MAX_MUX_IN_ANALOG > 0
      pots[n].setMuxValue(mux.readAnalog(pots[n].getMuxPin()));
#endif
      uint16_t value = pots[n].getAnalogValue();
      potCalibration.setValue(value);
      return;
    }
  }
  for(uint8_t i = 0; i < BMC_MAX_POTS; i++){
    bmcStoreDevice <1, 3>& device = store.pages[page].pots[i];
    //bmcStoreEvent data = globals.getDeviceEventType(device.events[0]);
#if BMC_MAX_MUX_IN_ANALOG > 0
    pots[i].setMuxValue(mux.readAnalog(pots[i].getMuxPin()));
#endif

    if(pots[i].toeSwitchActive()){
      potParseToeSwitch(pots[i]);
    }
    bool sendData = false;
    if(pots[i].update()){
      sendData = true;
      uint8_t value = pots[i].getValue();
      processEvent(BMC_DEVICE_GROUP_POT, BMC_DEVICE_ID_POT, i, BMC_EVENT_IO_TYPE_INPUT, device.events[0], value);
      // HANDLE CALLBACKS
      /*
      if(data.type==BMC_EVENT_TYPE_CUSTOM && callback.potCustomActivity){
        callback.potCustomActivity(i, value);
      } else if(callback.potActivity){
        callback.potActivity(i, value);
      }
      */
    }
    if(globals.editorConnected() && (sendData || editor.isTriggerStates())){
      editor.utilitySendPotActivity(BMC_DEVICE_ID_POT, i, pots[i].getPosition());
    }
  }
#endif

#if BMC_MAX_GLOBAL_POTS > 0
  if(potCalibration.active()){
    if(potCalibration.getDeviceType()==BMC_DEVICE_ID_GLOBAL_POT){
      uint16_t n = potCalibration.getIndex();
  #if BMC_MAX_MUX_IN_ANALOG > 0
      globalPots[n].setMuxValue(mux.readAnalog(globalPots[n].getMuxPin()));
  #endif
      uint16_t value = globalPots[n].getAnalogValue();
      potCalibration.setValue(value);
      return;
    }
  }
  for(uint8_t i = 0; i < BMC_MAX_GLOBAL_POTS; i++){
  #if BMC_MAX_MUX_IN_ANALOG > 0
    globalPots[i].setMuxValue(mux.readAnalog(globalPots[i].getMuxPin()));
  #endif
    bmcStoreDevice <1, 3>& device = store.global.pots[i];
    //bmcStoreEvent data = globals.getDeviceEventType(device.events[0]);
    if(globalPots[i].toeSwitchActive()){
      potParseToeSwitch(globalPots[i]);
      /*
      if(callback.globalPotsToeSwitchState && BMC_GET_BYTE(0, globalPots[i].toeSwitchGetEvent())>0){
        callback.globalPotsToeSwitchState(i, globalPots[i].toeSwitchGetState());
      }
      */
    }
    bool sendData = false;
    if(globalPots[i].update()){
      sendData = true;
      uint8_t value = globalPots[i].getValue();
      processEvent(BMC_DEVICE_GROUP_POT, BMC_DEVICE_ID_GLOBAL_POT, i, BMC_EVENT_IO_TYPE_INPUT, device.events[0], value);
      // HANDLE CALLBACKS
      /*
      if(data.type==BMC_EVENT_TYPE_CUSTOM && callback.globalPotCustomActivity){
        callback.globalPotCustomActivity(i, value);
      } else if(callback.globalPotActivity){
        callback.globalPotActivity(i, value);
      }
      */
    }
    if(globals.editorConnected() && (sendData || editor.isTriggerStates())){
      editor.utilitySendPotActivity(BMC_DEVICE_ID_GLOBAL_POT, i, globalPots[i].getPosition());
    }
  }
#endif
}

void BMC::potParseToeSwitch(BMCPot& pot){
  if(!pot.toeSwitchAvailable()){
    return;
  }
  processEvent(BMC_DEVICE_GROUP_BUTTON, BMC_DEVICE_ID_BUTTON, 0, BMC_EVENT_IO_TYPE_INPUT, pot.toeSwitchGetEvent());
}
/*
void BMC::handlePot(bmcStorePot& data, uint8_t value){
  uint8_t type = BMC_GET_BYTE(0, data.event);
  if(type == BMC_NONE){
    return;
  }
  uint8_t byteA = BMC_GET_BYTE(1, data.event);
  switch(parseMidiEventType(type)){
    case BMC_MIDI_CONTROL_CHANGE:
    case BMC_MIDI_NOTE_ON:
    case BMC_MIDI_NOTE_OFF:
      midi.send(data.ports, ((data.event & 0xFFFF) | value << 16));
      streamMidi(type & 0xF0, BMC_TO_MIDI_CHANNEL(type), byteA, value);
      break;
    case BMC_MIDI_PROGRAM_CHANGE:
      midi.sendProgramChange(data.ports, BMC_TO_MIDI_CHANNEL(type), value);
      streamMidi(type & 0xF0, BMC_TO_MIDI_CHANNEL(type), value);
      break;
    case BMC_POT_EVENT_TYPE_CLOCK:
      {
        uint16_t min = (data.event >> 8) & 0x1FF;
        uint16_t max = (data.event >> 17) & 0x1FF;
        midiClock.setBpm(map(value, 0, 127, min, max));
      }
      break;
    case BMC_POT_EVENT_TYPE_PITCH:
      {
        uint8_t channel = (byteA&0x0F)+1;
        int8_t pitch = midi.getLocalPitch(channel);
        if(value<59){
          // pitch down
          uint16_t newPitch = map(value, 0, 58, -8192, -1);
          midi.sendPitchBend(data.ports, channel, newPitch);
        } else if(value>68){
          // pitch up
          uint16_t newPitch = map(value, 69, 127, 1, 8191);
          midi.sendPitchBend(data.ports, channel, newPitch);
        } else if(pitch!=0){
          // center
          midi.sendPitchBend(data.ports, channel, 0);
          midi.setLocalPitch(channel, 0);
        }
      }
      break;
    case BMC_POT_EVENT_TYPE_PITCH_UP:
      {
        uint8_t channel = (byteA&0x0F)+1;
        // leave the first 10 values of the pot as a buffer for a flat pitch
        if(value>9){
          // move pitch up
          uint16_t newPitch = map(value, 10, 127, 1, 8191);
          midi.sendPitchBend(data.ports, channel, newPitch);
        } else if(midi.getLocalPitch(channel)!=0){
          midi.sendPitchBend(data.ports, channel, 0);
          midi.setLocalPitch(channel, 0);
        }
      }
      break;
    case BMC_POT_EVENT_TYPE_PITCH_DOWN:
      {
        uint8_t channel = (byteA&0x0F)+1;
        // leave the first 10 values of the pot as a buffer for a flat pitch
        if(value>9){
          // move pitch up
          int16_t newPitch = map(value, 10, 127, -1, -8192);
          midi.sendPitchBend(data.ports, channel, newPitch);
        } else if(midi.getLocalPitch(channel)!=0){
          midi.sendPitchBend(data.ports, channel, 0);
          midi.setLocalPitch(channel, 0);
        }
      }
      break;

#ifdef BMC_USE_BEATBUDDY
    case BMC_POT_EVENT_TYPE_BEATBUDDY_CMD:
      if(byteA == BMC_BEATBUDDY_CMD_MIX_VOL){
        sync.beatBuddy.mixVol(map(value, 0, 127, 0, 100));
      } else if(byteA == BMC_BEATBUDDY_CMD_HP_VOL){
        sync.beatBuddy.hpVol(map(value, 0, 127, 0, 100));
      } else if(byteA == BMC_BEATBUDDY_CMD_BPM_INC || BMC_BEATBUDDY_CMD_BPM_DEC){
        sync.beatBuddy.tempoExpression(value);
      }
      break;
#endif

#ifdef BMC_USE_CLICK_TRACK
    case BMC_POT_EVENT_TYPE_CLICK_TRACK_FREQ:
      {
        uint8_t byteB = BMC_GET_BYTE(2, data.event);
        uint8_t mapped = map(value, 0, 127, byteA, byteB);
        midiClock.clickTrackSetFrequency(map((mapped&0x07), 0, 7, 500, 4000));
      }
      break;
    case BMC_POT_EVENT_TYPE_CLICK_TRACK_LEVEL:
      {
        uint8_t byteB = BMC_GET_BYTE(2, data.event);
        midiClock.clickTrackSetLevel(map(value, 0, 127, byteA, byteB));
      }
      break;
#endif
    case BMC_POT_EVENT_TYPE_USER_1:
    case BMC_POT_EVENT_TYPE_USER_2:
    case BMC_POT_EVENT_TYPE_USER_3:
    case BMC_POT_EVENT_TYPE_USER_4:
    case BMC_POT_EVENT_TYPE_USER_5:
    case BMC_POT_EVENT_TYPE_USER_6:
    case BMC_POT_EVENT_TYPE_USER_7:
    case BMC_POT_EVENT_TYPE_USER_8:
      if(callback.userEventPots){
        callback.userEventPots(parseUserEventType(type), data.event, data.ports, value);
      }
      break;
  }
}
*/
#endif