Exemplo n.º 1
0
void insertExpoMix(uint8_t expo, uint8_t idx)
{
  pauseMixerCalculations();
  if (expo) {
    ExpoData *expo = expoAddress(idx);
    memmove(expo+1, expo, (MAX_EXPOS-(idx+1))*sizeof(ExpoData));
    memclear(expo, sizeof(ExpoData));
    expo->srcRaw = (s_currCh > 4 ? MIXSRC_Rud - 1 + s_currCh : MIXSRC_Rud - 1 + channel_order(s_currCh));
    expo->curve.type = CURVE_REF_EXPO;
    expo->mode = 3; // pos&neg
    expo->chn = s_currCh - 1;
    expo->weight = 100;
  }
  else {
    MixData *mix = mixAddress(idx);
    memmove(mix+1, mix, (MAX_MIXERS-(idx+1))*sizeof(MixData));
    memclear(mix, sizeof(MixData));
    mix->destCh = s_currCh-1;
    mix->srcRaw = s_currCh;
    if (!isSourceAvailable(mix->srcRaw)) {
      mix->srcRaw = (s_currCh > 4 ? MIXSRC_Rud - 1 + s_currCh : MIXSRC_Rud - 1 + channel_order(s_currCh));
      while (!isSourceAvailable(mix->srcRaw)) {
        mix->srcRaw += 1;
      }
    }
    mix->weight = 100;
  }
  resumeMixerCalculations();
  eeDirty(EE_MODEL);
}
Exemplo n.º 2
0
void eeLoadModel(uint8_t id)
{
  if (id<MAX_MODELS) {

#if defined(SDCARD)
    closeLogs();
#endif

    if (pulsesStarted()) {
      pausePulses();
    }

    pauseMixerCalculations();

    uint32_t size = loadModel(id);

#if defined(SIMU)
    if (sizeof(uint16_t) + sizeof(g_model) > EEPROM_ZONE_SIZE)
      TRACE("Model data size can't exceed %d bytes (%d bytes)", int(EEPROM_ZONE_SIZE-sizeof(uint16_t)), (int)sizeof(g_model));
    if (size > 0 && size != sizeof(g_model))
      TRACE("Model data read=%d bytes vs %d bytes\n", size, (int)sizeof(ModelData));
#endif

    if (size < EEPROM_BUFFER_SIZE) { // if not loaded a fair amount
      modelDefault(id) ;
      eeCheck(true);
    }

    AUDIO_FLUSH();
    flightReset();
    logicalSwitchesReset();

    if (pulsesStarted()) {
      checkAll();
      resumePulses();
    }

    customFunctionsReset();

    restoreTimers();

    resumeMixerCalculations();
    // TODO pulses should be started after mixer calculations ...

#if defined(FRSKY)
    frskySendAlarms();
#endif

#if defined(SDCARD)
    referenceModelAudioFiles();
#endif

    LOAD_MODEL_BITMAP();
    SEND_FAILSAFE_1S();
    PLAY_MODEL_NAME();
  }
}
Exemplo n.º 3
0
void copyExpoMix(uint8_t expo, uint8_t idx)
{
  pauseMixerCalculations();
  if (expo) {
    ExpoData *expo = expoAddress(idx);
    memmove(expo+1, expo, (MAX_EXPOS-(idx+1))*sizeof(ExpoData));
  }
  else {
    MixData *mix = mixAddress(idx);
    memmove(mix+1, mix, (MAX_MIXERS-(idx+1))*sizeof(MixData));
  }
  resumeMixerCalculations();
  eeDirty(EE_MODEL);
}
Exemplo n.º 4
0
void deleteExpoMix(uint8_t expo, uint8_t idx)
{
  pauseMixerCalculations();
  if (expo) {
    ExpoData *expo = expoAddress(idx);
    int input = expo->chn;
    memmove(expo, expo+1, (MAX_EXPOS-(idx+1))*sizeof(ExpoData));
    memclear(&g_model.expoData[MAX_EXPOS-1], sizeof(ExpoData));
    if (!isInputAvailable(input)) {
      memclear(&g_model.inputNames[input], LEN_INPUT_NAME);
    }
  }
  else {
    MixData *mix = mixAddress(idx);
    memmove(mix, mix+1, (MAX_MIXERS-(idx+1))*sizeof(MixData));
    memclear(&g_model.mixData[MAX_MIXERS-1], sizeof(MixData));
  }
  resumeMixerCalculations();
  eeDirty(EE_MODEL);
}
Exemplo n.º 5
0
bool swapExpoMix(uint8_t expo, uint8_t &idx, uint8_t up)
{
  void *x, *y;
  uint8_t size;
  int8_t tgt_idx = (up ? idx-1 : idx+1);

  if (expo) {
    x = (ExpoData *)expoAddress(idx);

    if (tgt_idx < 0) {
      if (((ExpoData *)x)->chn == 0)
        return false;
      ((ExpoData *)x)->chn--;
      return true;
    }

    if (tgt_idx == MAX_EXPOS) {
      if (((ExpoData *)x)->chn == NUM_INPUTS-1)
        return false;
      ((ExpoData *)x)->chn++;
      return true;
    }

    y = (ExpoData *)expoAddress(tgt_idx);
    if(((ExpoData *)x)->chn != ((ExpoData *)y)->chn || !EXPO_VALID((ExpoData *)y)) {
      if (up) {
        if (((ExpoData *)x)->chn>0) ((ExpoData *)x)->chn--;
        else return false;
      }
      else {
        if (((ExpoData *)x)->chn<NUM_INPUTS-1) ((ExpoData *)x)->chn++;
        else return false;
      }
      return true;
    }

    size = sizeof(ExpoData);
  }
  else {
    x = (MixData *)mixAddress(idx);

    if (tgt_idx < 0) {
      if (((MixData *)x)->destCh == 0)
        return false;
      ((MixData *)x)->destCh--;
      return true;
    }

    if (tgt_idx == MAX_MIXERS) {
      if (((MixData *)x)->destCh == NUM_CHNOUT-1)
        return false;
      ((MixData *)x)->destCh++;
      return true;
    }

    y = (MixData *)mixAddress(tgt_idx);
    uint8_t destCh = ((MixData *)x)->destCh;
    if(!((MixData *)y)->srcRaw || destCh != ((MixData *)y)->destCh) {
      if (up) {
        if (destCh>0) ((MixData *)x)->destCh--;
        else return false;
      }
      else {
        if (destCh<NUM_CHNOUT-1) ((MixData *)x)->destCh++;
        else return false;
      }
      return true;
    }

    size = sizeof(MixData);
  }

  pauseMixerCalculations();
  memswap(x, y, size);
  resumeMixerCalculations();

  idx = tgt_idx;
  return true;
}
Exemplo n.º 6
0
void eeLoadModel(uint8_t id)
{
  if (id<MAX_MODELS) {

#if defined(SDCARD)
    closeLogs();
#endif

    if (pulsesStarted()) {
      pausePulses();
    }

    pauseMixerCalculations();

    uint16_t size = File_system[id+1].size ;

    memset(&g_model, 0, sizeof(g_model));

#if defined(SIMU)
    if (sizeof(struct t_eeprom_header) + sizeof(g_model) > 4096)
      TRACE("Model data size can't exceed %d bytes (%d bytes)", int(4096-sizeof(struct t_eeprom_header)), (int)sizeof(g_model));
    else if (size > 0 && size != sizeof(g_model))
      TRACE("Model data read=%d bytes vs %d bytes\n", size, (int)sizeof(ModelData));
#endif

    if (size > sizeof(g_model)) {
      size = sizeof(g_model) ;
    }

    if(size < 256) { // if not loaded a fair amount
      modelDefault(id) ;
      eeCheck(true);
    }
    else {
      read32_eeprom_data((File_system[id+1].block_no << 12) + sizeof(struct t_eeprom_header), (uint8_t *)&g_model, size) ;
    }

    AUDIO_FLUSH();
    flightReset();
    logicalSwitchesReset();

    if (pulsesStarted()) {
      checkAll();
      resumePulses();
    }

    activeFnSwitches = 0;
    activeFunctions = 0;
    memclear(lastFunctionTime, sizeof(lastFunctionTime));

    restoreTimers();

    resumeMixerCalculations();
    // TODO pulses should be started after mixer calculations ...

#if defined(FRSKY)
    frskySendAlarms();
#endif

#if defined(CPUARM) && defined(SDCARD)
    referenceModelAudioFiles();
#endif

    LOAD_MODEL_BITMAP();

    SEND_FAILSAFE_1S();
  }
}