Ejemplos de addAuxControls en C++ (Cpp)

Ejemplo n.º 1

Archivo: sestosenso.cpp Proyecto: rrogge/indi

bool SestoSenso::initProperties()
{
    INDI::Focuser::initProperties();

    // Firmware Information
    IUFillText(&FirmwareT[0], "VERSION", "Version", "");
    IUFillTextVector(&FirmwareTP, FirmwareT, 1, getDeviceName(), "FOCUS_FIRMWARE", "Firmware", MAIN_CONTROL_TAB, IP_RO, 0, IPS_IDLE);

    // Focuser temperature
    IUFillNumber(&TemperatureN[0], "TEMPERATURE", "Celsius", "%6.2f", -50, 70., 0., 0.);
    IUFillNumberVector(&TemperatureNP, TemperatureN, 1, getDeviceName(), "FOCUS_TEMPERATURE", "Temperature", MAIN_CONTROL_TAB, IP_RO, 0, IPS_IDLE);

    // Sync
    IUFillNumber(&SyncN[0], "FOCUS_SYNC_OFFSET", "Offset", "%6.0f", 0, 60000., 0., 0.);
    IUFillNumberVector(&SyncNP, SyncN, 1, getDeviceName(), "FOCUS_SYNC", "Sync", MAIN_CONTROL_TAB, IP_RW, 0, IPS_IDLE);

    // Relative and absolute movement
    FocusRelPosN[0].min   = 0.;
    FocusRelPosN[0].max   = 50000.;
    FocusRelPosN[0].value = 0;
    FocusRelPosN[0].step  = 1000;

    FocusAbsPosN[0].min   = 0.;
    FocusAbsPosN[0].max   = 100000.;
    FocusAbsPosN[0].value = 0;
    FocusAbsPosN[0].step  = 1000;

    addAuxControls();

    updatePeriodMS = POLLMS;

    return true;
}

Ejemplo n.º 2

Archivo: flip_flat.cpp Proyecto: azwing/indi

bool FlipFlat::initProperties()
{
    INDI::DefaultDevice::initProperties();

    // Status
    IUFillText(&StatusT[0], "Cover", "", nullptr);
    IUFillText(&StatusT[1], "Light", "", nullptr);
    IUFillText(&StatusT[2], "Motor", "", nullptr);
    IUFillTextVector(&StatusTP, StatusT, 3, getDeviceName(), "Status", "", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

    // Firmware version
    IUFillText(&FirmwareT[0], "Version", "", nullptr);
    IUFillTextVector(&FirmwareTP, FirmwareT, 1, getDeviceName(), "Firmware", "", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

    initDustCapProperties(getDeviceName(), MAIN_CONTROL_TAB);
    initLightBoxProperties(getDeviceName(), MAIN_CONTROL_TAB);

    LightIntensityN[0].min  = 0;
    LightIntensityN[0].max  = 255;
    LightIntensityN[0].step = 10;

    // Set DUSTCAP_INTEFACE later on connect after we verify whether it's flip-flat (dust cover + light) or just flip-man (light only)
    setDriverInterface(AUX_INTERFACE | LIGHTBOX_INTERFACE);

    addAuxControls();

    serialConnection = new Connection::Serial(this);
    serialConnection->registerHandshake([&]() { return Handshake(); });
    registerConnection(serialConnection);

    return true;
}

Ejemplo n.º 3

Archivo: indi_radiosim_detector.cpp Proyecto: djibb/indi

/**************************************************************************************
** INDI is asking us to init our properties.
***************************************************************************************/
bool RadioSim::initProperties()
{
	// Must init parent properties first!
	INDI::Detector::initProperties();

	// We set the Detector capabilities
	uint32_t cap = DETECTOR_CAN_ABORT | DETECTOR_HAS_CONTINUUM;
	SetDetectorCapability(cap);

	IUFillNumber(&DetectorPropertiesN[0], "DETECTOR_SIZE", "Dish size (m)", "%4.0f", 5, MAX_DISH_SIZE_M, 1, 5.0);
	IUFillNumberVector(&DetectorPropertiesNP, DetectorPropertiesN, 1, getDeviceName(), "DETECTOR_PROPERTIES", "Control", MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

	IUFillNumber(&DetectorCoordsN[0], "DETECTOR_RA", "Position (RA)", "%2.3f", 0, FOV_DEG, 1, 0);
	IUFillNumber(&DetectorCoordsN[1], "DETECTOR_DEC", "Position (DEC)", "%2.3f", 0, FOV_DEG, 1, FOV_DEG/2);
	IUFillNumberVector(&DetectorCoordsNP, DetectorCoordsN, 2, getDeviceName(), "DETECTOR_COORDS", "Coordinates", MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

	PrimaryDetector.setMinMaxStep("DETECTOR_CAPTURE", "DETECTOR_CAPTURE_VALUE", 0.3, 10, 1, false);
	PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_FREQUENCY", FREQUENCY, FREQUENCY, 0, false);
	PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_SAMPLERATE", 0, 1.0, 0, false);
	PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_BITSPERSAMPLE", 8, 8, 1, false);

	// Add Debug, Simulator, and Configuration controls
	addAuxControls();

        setDefaultPollingPeriod(500);

	return true;
}

Ejemplo n.º 4

Archivo: gphoto_ccd.cpp Proyecto: A-j-K/indi

void GPhotoCCD::ISGetProperties(const char *dev)
{
  INDI::CCD::ISGetProperties(dev);

  defineText(&PortTP);
  loadConfig(true, "DEVICE_PORT");

  if (isConnected())
  {
      if (mIsoSP.nsp > 0)
            defineSwitch(&mIsoSP);
      if (mFormatSP.nsp > 0)
        defineSwitch(&mFormatSP);

      defineSwitch(&transferFormatSP);
      defineSwitch(&livePreviewSP);
      defineSwitch(&autoFocusSP);

      defineSwitch(&FocusMotionSP);
      defineNumber(&FocusSpeedNP);
      defineNumber(&FocusTimerNP);

      ShowExtendedOptions();

      ITextVectorProperty *modelTP = getText("model");
      if (modelTP && !strcmp(modelTP->label, "model") && strstr(modelTP->tp[0].text, "Canon"))
          defineNumber(&mMirrorLockNP);

  }

  // Add Debug, Simulator, and Configuration controls
  addAuxControls();
}

Ejemplo n.º 5

Archivo: gphoto_ccd.cpp Proyecto: hoxca/indi-gphoto

void GPhotoCCD::ISGetProperties(const char *dev)
{
  INDI::CCD::ISGetProperties(dev);

  defineText(&PortTP);
  loadConfig(true, "DEVICE_PORT");

  if (isConnected())
  {
      if(PortTP.tp[0].text && strlen(PortTP.tp[0].text))
      {
          defineNumber(&mMirrorLockNP);
      }

      if (mIsoSP.nsp > 0)
            defineSwitch(&mIsoSP);
      if (mFormatSP.nsp > 0)
        defineSwitch(&mFormatSP);

      defineSwitch(&transferFormatSP);
      defineSwitch(&livePreviewSP);
      defineSwitch(&autoFocusSP);

      defineSwitch(&FocusMotionSP);
      defineNumber(&FocusSpeedNP);
      defineNumber(&FocusTimerNP);

      ShowExtendedOptions();
  }

  // Add Debug, Simulator, and Configuration controls
  addAuxControls();
}

Ejemplo n.º 6

Archivo: detector_simulator.cpp Proyecto: azwing/indi

/**************************************************************************************
** INDI is asking us to init our properties.
***************************************************************************************/
bool RadioSim::initProperties()
{
    // Must init parent properties first!
    INDI::Detector::initProperties();

    // We set the Detector capabilities
    uint32_t cap = DETECTOR_CAN_ABORT | DETECTOR_HAS_CONTINUUM | DETECTOR_HAS_SPECTRUM;
    SetDetectorCapability(cap);

    IUFillNumber(&DetectorPropertiesN[0], "DETECTOR_SIZE", "Dish size (m)", "%4.0f", 5, MAX_DISH_SIZE_M, 1, 5.0);
    IUFillNumberVector(&DetectorPropertiesNP, DetectorPropertiesN, 1, getDeviceName(), "DETECTOR_PROPERTIES", "Control", MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

    PrimaryDetector.setMinMaxStep("DETECTOR_CAPTURE", "DETECTOR_CAPTURE_VALUE", 1.0e-6, 86164.092, 0.001, false);
    PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_FREQUENCY", 1.0e+6, 50.0e+9, 1.0, false);
    PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_SAMPLERATE", 1.0e+3, 100.0e+3, 1.0, false);
    PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_GAIN", 0.0, 25.0, 1.0, false);
    PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_BANDWIDTH", 1.0e+3, 100.0e+6, 1.0, false);
    PrimaryDetector.setMinMaxStep("DETECTOR_SETTINGS", "DETECTOR_BITSPERSAMPLE", -64, -64, -64, false);
    PrimaryDetector.setCaptureExtension("fits");
    // Add Debug, Simulator, and Configuration controls
    addAuxControls();

    setDefaultPollingPeriod(500);

    return true;
}

Ejemplo n.º 7

Archivo: xagyl_wheel.cpp Proyecto: phomer60/indi

bool XAGYLWheel::initProperties()
{
    INDI::FilterWheel::initProperties();

    // Device port
    IUFillText(&PortT[0],"PORT","Port","/dev/ttyUSB0");
    IUFillTextVector(&PortTP,PortT,1,getDeviceName(),"DEVICE_PORT","Ports",OPTIONS_TAB,IP_RW,60,IPS_IDLE);

    // Firmware info
    IUFillText(&FirmwareInfoT[0],"Product","",NULL);
    IUFillText(&FirmwareInfoT[1],"Firmware","",NULL);
    IUFillText(&FirmwareInfoT[2],"Serial #","",NULL);
    IUFillTextVector(&FirmwareInfoTP,FirmwareInfoT,3,getDeviceName(),"Info","",MAIN_CONTROL_TAB,IP_RO,60,IPS_IDLE);

    // Settings
    IUFillNumber(&SettingsN[0], "Speed", "", "%.f", 0, 100, 10., 0.);
    IUFillNumber(&SettingsN[1], "Jitter", "", "%.f", 0, 10, 1., 0.);
    IUFillNumber(&SettingsN[2], "Threshold", "", "%.f", 0, 100, 10., 0.);
    IUFillNumber(&SettingsN[3], "Pulse Width", "", "%.f", 100, 10000, 100., 0.);
    IUFillNumberVector(&SettingsNP, SettingsN, 4, getDeviceName(), "Settings", "", SETTINGS_TAB, IP_RW, 0, IPS_IDLE);

    // Reset
    IUFillSwitch(&ResetS[0], "Reboot", "", ISS_OFF);
    IUFillSwitch(&ResetS[1], "Initialize", "", ISS_OFF);
    IUFillSwitch(&ResetS[2], "Clear Calibration", "", ISS_OFF);
    IUFillSwitch(&ResetS[3], "Perform Calibration", "", ISS_OFF);
    IUFillSwitchVector(&ResetSP, ResetS, 4, getDeviceName(), "Commands", "", MAIN_CONTROL_TAB, IP_RW, ISR_ATMOST1, 0, IPS_IDLE);

    addAuxControls();

    return true;
}

Ejemplo n.º 8

Archivo: indi_fishcamp.cpp Proyecto: azwing/indi

void FishCampCCD::ISGetProperties(const char *dev)
{
    INDI::CCD::ISGetProperties(dev);

    // Add Debug, Simulator, and Configuration controls
    addAuxControls();
}

Ejemplo n.º 9

Archivo: asi_ccd.cpp Proyecto: jochym/indilib

bool ASICCD::initProperties()
{
  INDI::CCD::initProperties();

  IUFillNumber(&CoolerN[0], "CCD_COOLER_VALUE", "Cooling Power (%)", "%+06.2f", 0., 1., .2, 0.0);
  IUFillNumberVector(&CoolerNP, CoolerN, 1, getDeviceName(), "CCD_COOLER_POWER", "Cooling Power", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

  IUFillNumberVector(&ControlNP, NULL, 0, getDeviceName(), "CCD_CONTROLS", "Controls", CONTROL_TAB, IP_RW, 60, IPS_IDLE);

  IUFillSwitchVector(&ControlSP, NULL, 0, getDeviceName(), "CCD_CONTROLS_MODE", "Set Auto", CONTROL_TAB, IP_RW, ISR_NOFMANY, 60, IPS_IDLE);

  IUFillSwitchVector(&VideoFormatSP, NULL, 0, getDeviceName(), "CCD_VIDEO_FORMAT", "Format", CONTROL_TAB, IP_RW, ISR_1OFMANY, 60, IPS_IDLE);

  IUSaveText(&BayerT[2], getBayerString());

  int maxBin=1;
  for (int i=0; i < 16; i++)
  {
      if (m_camInfo->SupportedBins[i] != 0)
          maxBin = m_camInfo->SupportedBins[i];
      else
          break;
  }

  PrimaryCCD.setResolution(m_camInfo->MaxWidth, m_camInfo->MaxHeight);
  PrimaryCCD.setMinMaxStep("CCD_EXPOSURE", "CCD_EXPOSURE_VALUE", MIN_DURATION, 3600, 1, false);
  PrimaryCCD.setMinMaxStep("CCD_BINNING", "HOR_BIN", 1, maxBin, 1, false);
  PrimaryCCD.setMinMaxStep("CCD_BINNING", "VER_BIN", 1, maxBin, 1, false);    

  uint32_t cap =0;

  cap |= CCD_CAN_ABORT;
  if (maxBin > 1)
      cap |= CCD_CAN_BIN;

  cap |= CCD_CAN_SUBFRAME;

  if (m_camInfo->IsCoolerCam)
      cap |= CCD_HAS_COOLER;

  if (m_camInfo->MechanicalShutter)
      cap |= CCD_HAS_SHUTTER;

  if (m_camInfo->ST4Port)
      cap |= CCD_HAS_ST4_PORT;

  if (m_camInfo->IsColorCam)
      cap |= CCD_HAS_BAYER;

  #ifndef OSX_EMBEDED_MODE
  cap |= CCD_HAS_STREAMING;
  #endif

  SetCCDCapability(cap);

  addAuxControls();

  return true;
}

Ejemplo n.º 10

Archivo: nfocus.cpp Proyecto: rrogge/indi

bool NFocus::initProperties()
{
    INDI::Focuser::initProperties();

    // No speed for nfocus
    FocusSpeedN[0].min = FocusSpeedN[0].max = FocusSpeedN[0].value = 1;

    IUUpdateMinMax(&FocusSpeedNP);

    /* Focuser temperature */
    IUFillNumber(&TemperatureN[0], "TEMPERATURE", "Celsius", "%6.2f", 0, 65000., 0., 10000.);
    IUFillNumberVector(&TemperatureNP, TemperatureN, 1, getDeviceName(), "FOCUS_TEMPERATURE", "Temperature",
                       MAIN_CONTROL_TAB, IP_RO, 0, IPS_IDLE);

    /* Settings of the Nfocus */
    IUFillNumber(&SettingsN[0], "ON time", "ON waiting time", "%6.0f", 10., 250., 0., 73.);
    IUFillNumber(&SettingsN[1], "OFF time", "OFF waiting time", "%6.0f", 1., 250., 0., 15.);
    IUFillNumber(&SettingsN[2], "Fast Mode Delay", "Fast Mode Delay", "%6.0f", 0., 255., 0., 9.);
    IUFillNumberVector(&SettingsNP, SettingsN, 3, getDeviceName(), "FOCUS_SETTINGS", "Settings", OPTIONS_TAB, IP_RW, 0,
                       IPS_IDLE);

    /* tick scaling factor. Inward dir ticks times this factor is considered to
    be the same as outward dir tick numbers. This is to compensate  for DC motor
    incapabilities with regards to exact positioning at least a bit on the mass
    dependent path.... */
    IUFillNumber(&InOutScalarN[0], "In/Out Scalar", "In/Out Scalar", "%1.2f", 0., 2., 1., 1.0);
    IUFillNumberVector(&InOutScalarNP, InOutScalarN, 1, getDeviceName(), "FOCUS_DIRSCALAR", "Direction scaling factor",
                       OPTIONS_TAB, IP_RW, 0, IPS_IDLE);

    /* Nfocus should stay within these limits */
    IUFillNumber(&MinMaxPositionN[0], "MINPOS", "Minimum Tick", "%6.0f", -65000., 65000., 0., -65000.);
    IUFillNumber(&MinMaxPositionN[1], "MAXPOS", "Maximum Tick", "%6.0f", 1., 65000., 0., 65000.);
    IUFillNumberVector(&MinMaxPositionNP, MinMaxPositionN, 2, getDeviceName(), "FOCUS_MINMAXPOSITION", "Extrema",
                       OPTIONS_TAB, IP_RW, 0, IPS_IDLE);

    IUFillNumber(&MaxTravelN[0], "MAXTRAVEL", "Maximum travel", "%6.0f", 1., 64000., 0., 10000.);
    IUFillNumberVector(&MaxTravelNP, MaxTravelN, 1, getDeviceName(), "FOCUS_MAXTRAVEL", "Max. travel", OPTIONS_TAB,
                       IP_RW, 0, IPS_IDLE);

    /* Set Nfocus position register to this position */
    IUFillNumber(&SyncN[0], "FOCUS_SYNC_OFFSET", "Offset", "%.f", 0, 64000., 0., 0.);
    IUFillNumberVector(&SyncNP, SyncN, 1, getDeviceName(), "FOCUS_SYNC", "Sync", MAIN_CONTROL_TAB, IP_RW, 0, IPS_IDLE);

    /* Relative and absolute movement */
    FocusRelPosN[0].min   = 0;
    FocusRelPosN[0].max   = MinMaxPositionN[1].value;
    FocusRelPosN[0].value = 1000;
    FocusRelPosN[0].step  = 100;

    FocusAbsPosN[0].min   = MinMaxPositionN[0].min;
    FocusAbsPosN[0].max   = MinMaxPositionN[0].max;
    FocusAbsPosN[0].value = 0;
    FocusAbsPosN[0].step  = 10000;

    addAuxControls();

    return true;
}

Ejemplo n.º 11

Archivo: roll_off.cpp Proyecto: jochym/indilib

/************************************************************************************
 *
* ***********************************************************************************/
bool RollOff::initProperties()
{
    INDI::Dome::initProperties();

    SetParkDataType(PARK_NONE);

    addAuxControls();

    return true;
}

Ejemplo n.º 12

Archivo: dome_simulator.cpp Proyecto: mp77/indi

/************************************************************************************
 *
* ***********************************************************************************/
bool DomeSim::initProperties()
{
    INDI::Dome::initProperties();

    SetParkDataType(PARK_AZ);

    addAuxControls();

    return true;
}

Ejemplo n.º 13

Archivo: mi_ccd.cpp Proyecto: azwing/indi

bool MICCD::initProperties()
{
    INDI::CCD::initProperties();
    INDI::FilterInterface::initProperties(FILTER_TAB);

    FilterSlotN[0].min = 1;
    FilterSlotN[0].max = numFilters;

    // Temp ram
    IUFillNumber(&TemperatureRampN[0], "TEMP_RAMP", "Max. dT (C/min)", "%2.0f", 0, 30, 1, 2);
    IUFillNumberVector(&TemperatureRampNP, TemperatureRampN, 1, getDeviceName(), "CCD_TEMP_RAMP", "Temp. Ramp",
                       MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Regulation power
    IUFillNumber(&CoolerN[0], "CCD_COOLER_VALUE", "Cooling Power (%)", "%+6.2f", 0.0, 1.0, 0.01, 0.0);
    IUFillNumberVector(&CoolerNP, CoolerN, 1, getDeviceName(), "CCD_COOLER_POWER", "Cooling Power", MAIN_CONTROL_TAB,
                       IP_RO, 60, IPS_IDLE);

    // CCD Fan
    IUFillNumber(&FanN[0], "FAN", "Fan speed", "%2.0f", 0, maxFanValue, 1, 0);
    IUFillNumberVector(&FanNP, FanN, 1, getDeviceName(), "CCD_FAN", "Fan", MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Window heating
    IUFillNumber(&WindowHeatingN[0], "WINDOW_HEATING", "Heating Intensity", "%2.0f", 0, maxHeatingValue, 1, 0);
    IUFillNumberVector(&WindowHeatingNP, WindowHeatingN, 1, getDeviceName(), "CCD_WINDOW_HEATING", "Window Heating",
                       MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Gain
    IUFillNumber(&GainN[0], "GAIN", "Gain (e-/ADU)", "%2.2f", 0, 100, 1, 0);
    IUFillNumberVector(&GainNP, GainN, 1, getDeviceName(), "CCD_GAIN", "Gain", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

    // Noise mode
    IUFillSwitch(&ReadModeS[0], "PREVIEW", "Preview", ISS_OFF);
    IUFillSwitch(&ReadModeS[1], "LOW_NOISE", "Low noise", numReadModes == 2 ? ISS_ON : ISS_OFF);
    IUFillSwitch(&ReadModeS[2], "ULTA_LOW_NOISE", "Ultra low noise", numReadModes == 3 ? ISS_ON : ISS_OFF);
    IUFillSwitchVector(&ReadModeSP, ReadModeS, numReadModes, getDeviceName(), "CCD_READ_MODE", "Read Mode",
                       MAIN_CONTROL_TAB, IP_RW, ISR_1OFMANY, 0, IPS_IDLE);

    // NIR Preflash
    IUFillNumber(&PreflashN[0], "NIR_EXPOSURE_TIME", "Preflash duration (s)", "%4.3f", 0.0, 65.535, 0.001, 0.0);
    IUFillNumber(&PreflashN[1], "NIR_CLEAR_NUM", "Num. clear", "%2.0f", 1, 16, 1, 3);
    IUFillNumberVector(&PreflashNP, PreflashN, 2, getDeviceName(), "NIR_PRE_FLASH", "NIR Preflash",
                       MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

    addAuxControls();

    setDriverInterface(getDriverInterface() | FILTER_INTERFACE);

    return true;
}

Ejemplo n.º 14

Archivo: simple_detector_simulator.cpp Proyecto: rrogge/indi

/**************************************************************************************
** INDI is asking us to init our properties.
***************************************************************************************/
bool SimpleDetector::initProperties()
{
    // Must init parent properties first!
    INDI::Detector::initProperties();

    // We set the Detector capabilities
    uint32_t cap = DETECTOR_CAN_ABORT | DETECTOR_HAS_COOLER | DETECTOR_HAS_SHUTTER | DETECTOR_HAS_CONTINUUM | DETECTOR_HAS_SPECTRUM;
    SetDetectorCapability(cap);

    // Add Debug, Simulator, and Configuration controls
    addAuxControls();

    return true;
}

Ejemplo n.º 15

Archivo: qhycfw2.cpp Proyecto: pchev/indi

bool QHYCFW2::initProperties()
{
    INDI::FilterWheel::initProperties();

    IUFillNumber(&MaxFilterN[0], "Count", "Count", "%.f", 1, 16, 1, 5);
    IUFillNumberVector(&MaxFilterNP, MaxFilterN, 1, getDeviceName(), "MAX_FILTER", "Filters", MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

    CurrentFilter      = 1;
    FilterSlotN[0].min = 1;
    FilterSlotN[0].max = MaxFilterN[0].value;

    addAuxControls();

    return true;
}

Ejemplo n.º 16

Archivo: ffmv_ccd.cpp Proyecto: A-j-K/indi

/**************************************************************************************
** INDI is asking us to init our properties.
***************************************************************************************/
bool FFMVCCD::initProperties()
{
    // Must init parent properties first!
    INDI::CCD::initProperties();

    // Add Debug, Simulator, and Configuration controls
    addAuxControls();

    /* Add Gain Vref switch */
    IUFillSwitch(&GainS[0], "GAINVREF", "Vref Boost", ISS_OFF);
    IUFillSwitch(&GainS[1], "GAIN2X", "2x Digital Boost", ISS_OFF);
    IUFillSwitchVector(&GainSP, GainS, 2, getDeviceName(), "GAIN", "Gain", IMAGE_SETTINGS_TAB, IP_WO, ISR_NOFMANY, 0, IPS_IDLE);

    return true;

}

Ejemplo n.º 17

Archivo: qhy_ccd.cpp Proyecto: rrogge/indi

bool QHYCCD::initProperties()
{
    INDI::CCD::initProperties();
    INDI::FilterInterface::initProperties(FILTER_TAB);

    FilterSlotN[0].min = 1;
    FilterSlotN[0].max = 9;

    // CCD Cooler Switch
    IUFillSwitch(&CoolerS[0], "COOLER_ON", "On", ISS_OFF);
    IUFillSwitch(&CoolerS[1], "COOLER_OFF", "Off", ISS_ON);
    IUFillSwitchVector(&CoolerSP, CoolerS, 2, getDeviceName(), "CCD_COOLER", "Cooler", MAIN_CONTROL_TAB, IP_RW,
                       ISR_1OFMANY, 0, IPS_IDLE);

    // CCD Regulation power
    IUFillNumber(&CoolerN[0], "CCD_COOLER_VALUE", "Cooling Power (%)", "%+06.2f", 0., 1., .2, 0.0);
    IUFillNumberVector(&CoolerNP, CoolerN, 1, getDeviceName(), "CCD_COOLER_POWER", "Cooling Power", MAIN_CONTROL_TAB,
                       IP_RO, 60, IPS_IDLE);

    // CCD Gain
    IUFillNumber(&GainN[0], "GAIN", "Gain", "%3.0f", 0, 100, 1, 11);
    IUFillNumberVector(&GainNP, GainN, 1, getDeviceName(), "CCD_GAIN", "Gain", MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);

    // CCD Offset
    IUFillNumber(&OffsetN[0], "Offset", "Offset", "%3.0f", 0, 0, 1, 0);
    IUFillNumberVector(&OffsetNP, OffsetN, 1, getDeviceName(), "CCD_OFFSET", "Offset", MAIN_CONTROL_TAB, IP_RW, 60,
                       IPS_IDLE);

    // USB Speed
    IUFillNumber(&SpeedN[0], "Speed", "Speed", "%3.0f", 0, 0, 1, 0);
    IUFillNumberVector(&SpeedNP, SpeedN, 1, getDeviceName(), "USB_SPEED", "USB Speed", MAIN_CONTROL_TAB, IP_RW, 60,
                       IPS_IDLE);

    // USB Traffic
    IUFillNumber(&USBTrafficN[0], "Speed", "Speed", "%3.0f", 0, 0, 1, 0);
    IUFillNumberVector(&USBTrafficNP, USBTrafficN, 1, getDeviceName(), "USB_TRAFFIC", "USB Traffic", MAIN_CONTROL_TAB,
                       IP_RW, 60, IPS_IDLE);

    // Set minimum exposure speed to 0.001 seconds
    //PrimaryCCD.setMinMaxStep("CCD_EXPOSURE", "CCD_EXPOSURE_VALUE", MINIMUM_CCD_EXPOSURE, 3600, 1, false);

    addAuxControls();

    setDriverInterface(getDriverInterface() | FILTER_INTERFACE);

    return true;
}

Ejemplo n.º 18

Archivo: baader_dome.cpp Proyecto: rrogge/indi

bool BaaderDome::initProperties()
{
    INDI::Dome::initProperties();

    IUFillSwitch(&CalibrateS[0], "Start", "", ISS_OFF);
    IUFillSwitchVector(&CalibrateSP, CalibrateS, 1, getDeviceName(), "Calibrate", "", MAIN_CONTROL_TAB, IP_RW,
                       ISR_ATMOST1, 0, IPS_IDLE);

    IUFillSwitch(&DomeFlapS[0], "FLAP_OPEN", "Open", ISS_OFF);
    IUFillSwitch(&DomeFlapS[1], "FLAP_CLOSE", "Close", ISS_ON);
    IUFillSwitchVector(&DomeFlapSP, DomeFlapS, 2, getDeviceName(), "DOME_FLAP", "Flap", MAIN_CONTROL_TAB, IP_RW,
                       ISR_1OFMANY, 60, IPS_OK);

    SetParkDataType(PARK_AZ);

    addAuxControls();

    return true;
}

Ejemplo n.º 19

Archivo: atik_ccd.cpp Proyecto: azwing/indi

bool ATIKCCD::initProperties()
{
    INDI::CCD::initProperties();

    // Cooler control
    IUFillSwitch(&CoolerS[COOLER_ON], "COOLER_ON", "ON", ISS_OFF);
    IUFillSwitch(&CoolerS[COOLER_OFF], "COOLER_OFF", "OFF", ISS_ON);
    IUFillSwitchVector(&CoolerSP, CoolerS, 2, getDeviceName(), "CCD_COOLER", "Cooler", MAIN_CONTROL_TAB, IP_WO,
                       ISR_1OFMANY, 2, IPS_IDLE);

    // Temperature value
    IUFillNumber(&CoolerN[0], "CCD_COOLER_VALUE", "Cooling Power (%)", "%+06.2f", 0., 1., .2, 0.0);
    IUFillNumberVector(&CoolerNP, CoolerN, 1, getDeviceName(), "CCD_COOLER_POWER", "Cooling Power", MAIN_CONTROL_TAB,
                       IP_RO, 60, IPS_IDLE);

    // Version information
    IUFillText(&VersionInfoS[VERSION_API], "VERSION_API", "API", std::to_string(ArtemisAPIVersion()).c_str());
    IUFillText(&VersionInfoS[VERSION_FIRMWARE], "VERSION_FIRMWARE", "Firmware", "Unknown");
    IUFillTextVector(&VersionInfoSP, VersionInfoS, 2, getDeviceName(), "VERSION", "Version", INFO_TAB, IP_RO, 60, IPS_IDLE);

    // Gain/Offset Presets
    IUFillSwitch(&ControlPresetsS[PRESET_CUSTOM], "PRESET_CUSTOM", "Custom", ISS_ON);
    IUFillSwitch(&ControlPresetsS[PRESET_LOW], "PRESET_LOW", "Low", ISS_OFF);
    IUFillSwitch(&ControlPresetsS[PRESET_MEDIUM], "PRESET_MEDIUM", "Medium", ISS_OFF);
    IUFillSwitch(&ControlPresetsS[PRESET_HIGH], "PRESET_HIGH", "High", ISS_OFF);
    IUFillSwitchVector(&ControlPresetsSP, ControlPresetsS, 2, getDeviceName(), "CCD_CONTROL_PRESETS", "GO Presets", CONTROLS_TAB, IP_RW,
                       ISR_1OFMANY, 4, IPS_IDLE);

    // Gain/Offset Controls
    IUFillNumber(&ControlN[CONTROL_GAIN], "CONTROL_GAIN", "Gain", "%.f", 0, 60, 5, 30);
    IUFillNumber(&ControlN[CONTROL_OFFSET], "CONTROL_OFFSET", "Offset", "%.f", 0, 511, 10, 0);
    IUFillNumberVector(&ControlNP, ControlN, 2, getDeviceName(), "CCD_CONTROLS", "GO Controls", CONTROLS_TAB,
                       IP_RO, 60, IPS_IDLE);

    IUSaveText(&BayerT[2], "RGGB");

    INDI::FilterInterface::initProperties(FILTER_TAB);

    addAuxControls();

    return true;
}

Ejemplo n.º 20

Archivo: mi_ccd.cpp Proyecto: garlick/indi

bool MICCD::initProperties()
{
    INDI::CCD::initProperties();
    initFilterProperties(getDeviceName(), FILTER_TAB);

    FilterSlotN[0].min = 1;
    FilterSlotN[0].max = numFilters;

    // Temp ram
    IUFillNumber(&TemperatureRampN[0], "TEMP_RAMP", "Max. dT (C/min)", "%2.0f", 0, 30, 1, 2);
    IUFillNumberVector(&TemperatureRampNP, TemperatureRampN, 1, getDeviceName(), "CCD_TEMP_RAMP", "Temp. ramp", MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Regulation power
    IUFillNumber(&CoolerN[0], "CCD_COOLER_VALUE", "Cooling Power (%)", "%+6.2f", 0.0, 1.0, 0.01, 0.0);
    IUFillNumberVector(&CoolerNP, CoolerN, 1, getDeviceName(), "CCD_COOLER_POWER", "Cooling Power", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

    // CCD Fan
    IUFillNumber(&FanN[0], "FAN", "Fan speed", "%2.0f", 0, maxFanValue, 1, 0);
    IUFillNumberVector(&FanNP, FanN, 1, getDeviceName(), "CCD_FAN", "Fan", MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Window heating
    IUFillNumber(&WindowHeatingN[0], "WINDOW_HEATING", "Heating intensity", "%2.0f", 0, maxHeatingValue, 1, 0);
    IUFillNumberVector(&WindowHeatingNP, WindowHeatingN, 1, getDeviceName(), "CCD_WINDOW_HEATING", "Heating", MAIN_CONTROL_TAB, IP_WO, 60, IPS_IDLE);

    // CCD Gain
    IUFillNumber(&GainN[0], "GAIN", "Gain (e-/ADU)", "%2.2f", 0, 100, 1, 0);
    IUFillNumberVector(&GainNP, GainN, 1, getDeviceName(), "CCD_GAIN", "Gain", MAIN_CONTROL_TAB, IP_RO, 60, IPS_IDLE);

    // Noise mode
    IUFillSwitch(&NoiseS[0], "NORMAL_NOISE", "Normal", ISS_ON);
    IUFillSwitch(&NoiseS[1], "LOW_NOISE", "Low", ISS_OFF);
    IUFillSwitch(&NoiseS[2], "ULTA_LOW_NOISE", "Ultra low", ISS_OFF);
    IUFillSwitchVector(&NoiseSP, NoiseS, numReadModes, getDeviceName(), "CCD_NOISE", "Noise", MAIN_CONTROL_TAB, IP_RW, ISR_1OFMANY, 0, IPS_IDLE);

    addAuxControls();

    setDriverInterface(getDriverInterface() | FILTER_INTERFACE);

    return true;
}

Ejemplo n.º 21

Archivo: paramount.cpp Proyecto: azwing/indi

bool Paramount::initProperties()
{
    /* Make sure to init parent properties first */
    INDI::Telescope::initProperties();

    for (int i = 0; i < SlewRateSP.nsp-1; i++)
    {
        sprintf(SlewRateSP.sp[i].label, "%.fx", slewspeeds[i]);
        SlewRateSP.sp[i].aux = (void *)&slewspeeds[i];
    }

    // Set 64x as default speed
    SlewRateSP.sp[5].s = ISS_ON;

    /* How fast do we guide compared to sidereal rate */
    IUFillNumber(&JogRateN[RA_AXIS], "JOG_RATE_WE", "W/E Rate (arcmin)", "%g", 0, 600, 60, 30);
    IUFillNumber(&JogRateN[DEC_AXIS], "JOG_RATE_NS", "N/S Rate (arcmin)", "%g", 0, 600, 60, 30);
    IUFillNumberVector(&JogRateNP, JogRateN, 2, getDeviceName(), "JOG_RATE", "Jog Rate", MOTION_TAB, IP_RW, 0,
                       IPS_IDLE);

    /* How fast do we guide compared to sidereal rate */
    IUFillNumber(&GuideRateN[RA_AXIS], "GUIDE_RATE_WE", "W/E Rate", "%1.1f", 0.0, 1.0, 0.1, 0.5);
    IUFillNumber(&GuideRateN[DEC_AXIS], "GUIDE_RATE_NS", "N/S Rate", "%1.1f", 0.0, 1.0, 0.1, 0.5);
    IUFillNumberVector(&GuideRateNP, GuideRateN, 2, getDeviceName(), "GUIDE_RATE", "Guiding Rate", MOTION_TAB, IP_RW, 0,
                       IPS_IDLE);

    // Tracking Mode
#if 0
    IUFillSwitch(&TrackModeS[TRACK_SIDEREAL], "TRACK_SIDEREAL", "Sidereal", ISS_OFF);
    IUFillSwitch(&TrackModeS[TRACK_SOLAR], "TRACK_SOLAR", "Solar", ISS_OFF);
    IUFillSwitch(&TrackModeS[TRACK_LUNAR], "TRACK_LUNAR", "Lunar", ISS_OFF);
    IUFillSwitch(&TrackModeS[TRACK_CUSTOM], "TRACK_CUSTOM", "Custom", ISS_OFF);
    IUFillSwitchVector(&TrackModeSP, TrackModeS, 4, getDeviceName(), "TELESCOPE_TRACK_MODE", "Track Mode",
                       MAIN_CONTROL_TAB, IP_RW, ISR_ATMOST1, 0, IPS_IDLE);
#endif

    AddTrackMode("TRACK_SIDEREAL", "Sidereal", true);
    AddTrackMode("TRACK_SOLAR", "Solar");
    AddTrackMode("TRACK_LUNAR", "Lunar");
    AddTrackMode("TRACK_CUSTOM", "Custom");

    // Custom Tracking Rate
#if 0
    IUFillNumber(&TrackRateN[0], "TRACK_RATE_RA", "RA (arcsecs/s)", "%.6f", -16384.0, 16384.0, 0.000001, 15.041067);
    IUFillNumber(&TrackRateN[1], "TRACK_RATE_DE", "DE (arcsecs/s)", "%.6f", -16384.0, 16384.0, 0.000001, 0);
    IUFillNumberVector(&TrackRateNP, TrackRateN, 2, getDeviceName(), "TELESCOPE_TRACK_RATE", "Track Rates",
                       MAIN_CONTROL_TAB, IP_RW, 60, IPS_IDLE);
#endif

    // Let's simulate it to be an F/7.5 120mm telescope with 50m 175mm guide scope
    ScopeParametersN[0].value = 120;
    ScopeParametersN[1].value = 900;
    ScopeParametersN[2].value = 50;
    ScopeParametersN[3].value = 175;

    TrackState = SCOPE_IDLE;

    SetParkDataType(PARK_RA_DEC);

    initGuiderProperties(getDeviceName(), MOTION_TAB);

    setDriverInterface(getDriverInterface() | GUIDER_INTERFACE);

    addAuxControls();

    double longitude=0, latitude=90;
    // Get value from config file if it exists.
    IUGetConfigNumber(getDeviceName(), "GEOGRAPHIC_COORD", "LONG", &longitude);
    currentRA  = get_local_sidereal_time(longitude);
    IUGetConfigNumber(getDeviceName(), "GEOGRAPHIC_COORD", "LAT", &latitude);
    currentDEC = latitude > 0 ? 90 : -90;

    return true;
}

Ejemplo n.º 22

Archivo: synscandriver.cpp Proyecto: azwing/indi

bool SynscanDriver::initProperties()
{
    INDI::Telescope::initProperties();

    SetTelescopeCapability(TELESCOPE_CAN_PARK | TELESCOPE_CAN_ABORT | TELESCOPE_CAN_SYNC | TELESCOPE_CAN_GOTO |
                           TELESCOPE_HAS_TIME | TELESCOPE_HAS_LOCATION | TELESCOPE_HAS_PIER_SIDE | TELESCOPE_CAN_CONTROL_TRACK |
                           TELESCOPE_HAS_TRACK_MODE, 10);
    SetParkDataType(PARK_RA_DEC_ENCODER);

    // Slew Rates
    strncpy(SlewRateS[0].label, "1x", MAXINDILABEL);
    strncpy(SlewRateS[1].label, "8x", MAXINDILABEL);
    strncpy(SlewRateS[2].label, "16x", MAXINDILABEL);
    strncpy(SlewRateS[3].label, "32x", MAXINDILABEL);
    strncpy(SlewRateS[4].label, "64x", MAXINDILABEL);
    strncpy(SlewRateS[5].label, "128x", MAXINDILABEL);
    strncpy(SlewRateS[6].label, "400x", MAXINDILABEL);
    strncpy(SlewRateS[7].label, "600x", MAXINDILABEL);
    strncpy(SlewRateS[8].label, "Max", MAXINDILABEL);
    strncpy(SlewRateS[9].label, "Custom", MAXINDILABEL);
    IUResetSwitch(&SlewRateSP);
    // Max is the default
    SlewRateS[8].s = ISS_ON;

    //////////////////////////////////////////////////////////////////////////////////////////////////
    /// Mount Info Text Property
    //////////////////////////////////////////////////////////////////////////////////////////////////
    IUFillText(&StatusT[MI_FW_VERSION], "MI_FW_VERSION", "Firmware", "-");
    IUFillText(&StatusT[MI_MOUNT_MODEL], "MI_MOUNT_MODEL", "Model", "-");
    IUFillText(&StatusT[MI_GOTO_STATUS], "MI_GOTO_STATUS", "Goto", "-");
    IUFillText(&StatusT[MI_POINT_STATUS], "MI_POINT_STATUS", "Pointing", "-");
    IUFillText(&StatusT[MI_TRACK_MODE], "MI_TRACK_MODE", "Tracking Mode", "-");
    IUFillTextVector(&StatusTP, StatusT, 5, getDeviceName(), "MOUNT_STATUS",
                     "Status", MOUNT_TAB, IP_RO, 60, IPS_IDLE);

    //////////////////////////////////////////////////////////////////////////////////////////////////
    /// Custom Slew Rate
    //////////////////////////////////////////////////////////////////////////////////////////////////
    IUFillNumber(&CustomSlewRateN[AXIS_RA], "AXIS1", "RA/AZ (arcsecs/s)", "%.2f", 0.05, 800, 10, 0);
    IUFillNumber(&CustomSlewRateN[AXIS_DE], "AXIS2", "DE/AL (arcsecs/s)", "%.2f", 0.05, 800, 10, 0);
    IUFillNumberVector(&CustomSlewRateNP, CustomSlewRateN, 2, getDeviceName(), "CUSTOM_SLEW_RATE", "Custom Slew", MOTION_TAB, IP_RW, 60, IPS_IDLE);

    //////////////////////////////////////////////////////////////////////////////////////////////////
    /// Guide Rate
    //////////////////////////////////////////////////////////////////////////////////////////////////
    IUFillNumber(&GuideRateN[AXIS_RA], "GUIDE_RATE_WE", "W/E Rate", "%.2f", 0, 1, 0.1, 0.5);
    IUFillNumber(&GuideRateN[AXIS_DE], "GUIDE_RATE_NS", "N/S Rate", "%.2f", 0, 1, 0.1, 0.5);
    IUFillNumberVector(&GuideRateNP, GuideRateN, 2, getDeviceName(), "GUIDE_RATE", "Guiding Rate", GUIDE_TAB, IP_RW, 0, IPS_IDLE);

    //////////////////////////////////////////////////////////////////////////////////////////////////
    /// Horizontal Coords
    //////////////////////////////////////////////////////////////////////////////////////////////////
    IUFillNumber(&HorizontalCoordsN[AXIS_AZ], "AZ", "Az D:M:S", "%10.6m", 0.0, 360.0, 0.0, 0);
    IUFillNumber(&HorizontalCoordsN[AXIS_ALT], "ALT", "Alt  D:M:S", "%10.6m", -90., 90.0, 0.0, 0);
    IUFillNumberVector(&HorizontalCoordsNP, HorizontalCoordsN, 2, getDeviceName(), "HORIZONTAL_COORD",
                       "Horizontal Coord", MAIN_CONTROL_TAB, IP_RW, 0, IPS_IDLE);

    AddTrackMode("TRACK_ALTAZ", "Alt/Az");
    AddTrackMode("TRACK_EQ", "Equatorial", true);
    AddTrackMode("TRACK_PEC", "PEC Mode");

    SetParkDataType(PARK_AZ_ALT);

    // Initialize guiding properties.
    initGuiderProperties(getDeviceName(), GUIDE_TAB);

    addAuxControls();

    //GUIDE Set guider interface.
    setDriverInterface(getDriverInterface() | GUIDER_INTERFACE);

    return true;
}

Ejemplo n.º 23

Archivo: scopedome_dome.cpp Proyecto: azwing/indi

bool ScopeDome::initProperties()
{
    INDI::Dome::initProperties();

    IUFillNumber(&DomeHomePositionN[0], "DH_POSITION", "AZ (deg)", "%6.2f", 0.0, 360.0, 1.0, 0.0);
    IUFillNumberVector(&DomeHomePositionNP, DomeHomePositionN, 1, getDeviceName(), "DOME_HOME_POSITION",
                       "Home sensor position", SITE_TAB, IP_RW, 60, IPS_OK);

    IUFillSwitch(&ParkShutterS[0], "ON", "On", ISS_ON);
    IUFillSwitch(&ParkShutterS[1], "OFF", "Off", ISS_OFF);
    IUFillSwitchVector(&ParkShutterSP, ParkShutterS, 2, getDeviceName(), "PARK_SHUTTER", "Park controls shutter",
                       OPTIONS_TAB, IP_RW, ISR_1OFMANY, 0, IPS_OK);

    IUFillSwitch(&FindHomeS[0], "START", "Start", ISS_OFF);
    IUFillSwitchVector(&FindHomeSP, FindHomeS, 1, getDeviceName(), "FIND_HOME", "Find home", MAIN_CONTROL_TAB, IP_RW,
                       ISR_ATMOST1, 0, IPS_IDLE);

    IUFillSwitch(&DerotateS[0], "START", "Start", ISS_OFF);
    IUFillSwitchVector(&DerotateSP, DerotateS, 1, getDeviceName(), "DEROTATE", "Derotate", MAIN_CONTROL_TAB, IP_RW,
                       ISR_ATMOST1, 0, IPS_IDLE);

    IUFillSwitch(&PowerRelaysS[0], "CCD", "CCD", ISS_OFF);
    IUFillSwitch(&PowerRelaysS[1], "SCOPE", "Telescope", ISS_OFF);
    IUFillSwitch(&PowerRelaysS[2], "LIGHT", "Light", ISS_OFF);
    IUFillSwitch(&PowerRelaysS[3], "FAN", "Fan", ISS_OFF);
    IUFillSwitchVector(&PowerRelaysSP, PowerRelaysS, 4, getDeviceName(), "POWER_RELAYS", "Power relays",
                       MAIN_CONTROL_TAB, IP_RW, ISR_NOFMANY, 0, IPS_IDLE);

    IUFillSwitch(&RelaysS[0], "RELAY_1", "Relay 1 (reset)", ISS_OFF);
    IUFillSwitch(&RelaysS[1], "RELAY_2", "Relay 2 (heater)", ISS_OFF);
    IUFillSwitch(&RelaysS[2], "RELAY_3", "Relay 3", ISS_OFF);
    IUFillSwitch(&RelaysS[3], "RELAY_4", "Relay 4", ISS_OFF);
    IUFillSwitchVector(&RelaysSP, RelaysS, 4, getDeviceName(), "RELAYS", "Relays", MAIN_CONTROL_TAB, IP_RW, ISR_NOFMANY,
                       0, IPS_IDLE);

    IUFillSwitch(&AutoCloseS[0], "CLOUD", "Cloud sensor", ISS_OFF);
    IUFillSwitch(&AutoCloseS[1], "RAIN", "Rain sensor", ISS_OFF);
    IUFillSwitch(&AutoCloseS[2], "FREE", "Free input", ISS_OFF);
    IUFillSwitch(&AutoCloseS[3], "NO_POWER", "No power", ISS_OFF);
    IUFillSwitch(&AutoCloseS[4], "DOME_LOW", "Low dome battery", ISS_OFF);
    IUFillSwitch(&AutoCloseS[5], "SHUTTER_LOW", "Low shutter battery", ISS_OFF);
    IUFillSwitch(&AutoCloseS[6], "WEATHER", "Bad weather", ISS_OFF);
    IUFillSwitch(&AutoCloseS[7], "LOST_CONNECTION", "Lost connection", ISS_OFF);
    IUFillSwitchVector(&AutoCloseSP, AutoCloseS, 8, getDeviceName(), "AUTO_CLOSE", "Close shutter automatically",
                       SITE_TAB, IP_RW, ISR_NOFMANY, 0, IPS_IDLE);

    IUFillNumber(&EnvironmentSensorsN[0], "LINK_STRENGTH", "Shutter link strength", "%3.0f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[1], "SHUTTER_POWER", "Shutter internal power", "%2.2f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[2], "SHUTTER_BATTERY", "Shutter battery power", "%2.2f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[3], "CARD_POWER", "Card internal power", "%2.2f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[4], "CARD_BATTERY", "Card battery power", "%2.2f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[5], "TEMP_DOME_IN", "Temperature in dome", "%2.2f", -100.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[6], "TEMP_DOME_OUT", "Temperature outside dome", "%2.2f", -100.0, 100.0, 1.0,
                 0.0);
    IUFillNumber(&EnvironmentSensorsN[7], "TEMP_DOME_HUMIDITY", "Temperature humidity sensor", "%2.2f", -100.0, 100.0,
                 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[8], "HUMIDITY", "Humidity", "%3.2f", 0.0, 100.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[9], "PRESSURE", "Pressure", "%4.1f", 0.0, 2000.0, 1.0, 0.0);
    IUFillNumber(&EnvironmentSensorsN[10], "DEW_POINT", "Dew point", "%2.2f", -100.0, 100.0, 1.0, 0.0);
    IUFillNumberVector(&EnvironmentSensorsNP, EnvironmentSensorsN, 11, getDeviceName(), "SCOPEDOME_SENSORS",
                       "Environment sensors", INFO_TAB, IP_RO, 60, IPS_IDLE);

    IUFillSwitch(&SensorsS[0], "AZ_COUNTER", "Az counter", ISS_OFF);
    IUFillSwitch(&SensorsS[1], "ROTATE_CCW", "Rotate CCW", ISS_OFF);
    IUFillSwitch(&SensorsS[2], "HOME", "Dome at home", ISS_OFF);
    IUFillSwitch(&SensorsS[3], "OPEN_1", "Shutter 1 open", ISS_OFF);
    IUFillSwitch(&SensorsS[4], "CLOSE_1", "Shutter 1 closed", ISS_OFF);
    IUFillSwitch(&SensorsS[5], "OPEN_2", "Shutter 2 open", ISS_OFF);
    IUFillSwitch(&SensorsS[6], "CLOSE_2", "Shutter 2 closed", ISS_OFF);
    IUFillSwitch(&SensorsS[7], "SCOPE_HOME", "Scope at home", ISS_OFF);
    IUFillSwitch(&SensorsS[8], "RAIN", "Rain sensor", ISS_OFF);
    IUFillSwitch(&SensorsS[9], "CLOUD", "Cloud sensor", ISS_OFF);
    IUFillSwitch(&SensorsS[10], "SAFE", "Observatory safe", ISS_OFF);
    IUFillSwitch(&SensorsS[11], "LINK", "Rotary link", ISS_OFF);
    IUFillSwitch(&SensorsS[12], "FREE", "Free input", ISS_OFF);
    IUFillSwitchVector(&SensorsSP, SensorsS, 13, getDeviceName(), "INPUTS", "Input sensors", INFO_TAB, IP_RO,
                       ISR_NOFMANY, 0, IPS_IDLE);

    IUFillNumber(&FirmwareVersionsN[0], "MAIN", "Main part", "%2.2f", 0.0, 99.0, 1.0, 0.0);
    IUFillNumber(&FirmwareVersionsN[1], "ROTARY", "Rotary part", "%2.1f", 0.0, 99.0, 1.0, 0.0);
    IUFillNumberVector(&FirmwareVersionsNP, FirmwareVersionsN, 2, getDeviceName(), "FIRMWARE_VERSION",
                       "Firmware versions", INFO_TAB, IP_RO, 60, IPS_IDLE);

    SetParkDataType(PARK_AZ);

    addAuxControls();

    // Set serial parameters
    serialConnection->setDefaultBaudRate(Connection::Serial::B_115200);
    return true;
}

Ejemplo n.º 24

Archivo: tcfs.cpp Proyecto: djibb/indi

bool TCFS::initProperties()
{
//LOGF_DEBUG("%s %s",__FUNCTION__, me);
    INDI::Focuser::initProperties();

    // Set upper limit for TCF-S3 focuser
    if (strcmp(me, "indi_tcfs3_focus") == 0)
    {
        isTCFS3 = true;

        FocusAbsPosN[0].max  = 9999;
        FocusRelPosN[0].max  = 2000;
        FocusRelPosN[0].step = FocusAbsPosN[0].step = 100;
        FocusRelPosN[0].value                       = 0;
        LOG_DEBUG("TCF-S3 detected. Updating maximum position value to 9999.");
    }
    else
    {
        isTCFS3 = false;

        FocusAbsPosN[0].max  = 7000;
        FocusRelPosN[0].max  = 2000;
        FocusRelPosN[0].step = FocusAbsPosN[0].step = 100;
        FocusRelPosN[0].value                       = 0;
        LOG_DEBUG("TCF-S detected. Updating maximum position value to 7000.");
    }
//    setDynamicPropertiesBehavior(false, false);

//    buildSkeleton("indi_tcfs_sk.xml");

    IUFillSwitch(&FocusModeS[0], "Manual", "", ISS_ON);
    IUFillSwitch(&FocusModeS[1], "Auto A", "", ISS_OFF);
    IUFillSwitch(&FocusModeS[2], "Auto B", "", ISS_OFF);
    IUFillSwitchVector(&FocusModeSP, FocusModeS, 3, getDeviceName(), "FOCUS_MODE", "Mode", "Main Control", IP_RW,
                       ISR_1OFMANY, 0, IPS_IDLE);

    IUFillSwitch(&FocusPowerS[0], "FOCUS_SLEEP", "Sleep", ISS_OFF);
    IUFillSwitch(&FocusPowerS[1], "FOCUS_WAKEUP", "Wake up", ISS_OFF);
    IUFillSwitchVector(&FocusPowerSP, FocusPowerS, 2, getDeviceName(), "FOCUS_POWER", "Power", "Operation", IP_RW,
                       ISR_ATMOST1, 0, IPS_IDLE);

    IUFillSwitch(&FocusGotoS[0], "FOCUS_MIN", "Min", ISS_OFF);
    IUFillSwitch(&FocusGotoS[1], "FOCUS_CENTER", "Center", ISS_OFF);
    IUFillSwitch(&FocusGotoS[2], "FOCUS_MAX", "Max", ISS_OFF);
    IUFillSwitch(&FocusGotoS[3], "FOCUS_HOME", "Home", ISS_OFF);
    IUFillSwitchVector(&FocusGotoSP, FocusGotoS, 4, getDeviceName(), "FOCUS_GOTO", "Go to", "Main Control", IP_RW,
                       ISR_ATMOST1, 0, IPS_IDLE);
    
    IUFillNumber(&FocusTemperatureN[0], "FOCUS_TEMPERATURE_VALUE", "Temperature (c)", "%.3f", -50.0, 80, 0, 0);
    IUFillNumberVector(&FocusTemperatureNP, FocusTemperatureN, 1, getDeviceName(), "FOCUS_TEMPERATURE", "Probe", "Operation", IP_RO, 0, IPS_IDLE);
    
    IUFillSwitch(&FocusTelemetryS[0], "FOCUS_TELEMETRY_ON", "Enable", ISS_ON);
    IUFillSwitch(&FocusTelemetryS[1], "FOCUS_TELEMETRY_OFF", "Disable", ISS_OFF);
    IUFillSwitchVector(&FocusTelemetrySP, FocusTelemetryS, 2, getDeviceName(), "FOCUS_TELEMETRY", "Telemetry", "Operation", IP_RW,
                       ISR_1OFMANY, 0, IPS_IDLE);

    // Mode parameters
    IUFillNumber(&FocusModeAN[0], "FOCUS_SLOPE_A", "Slope A", "%.0f", -999, 999, 10, 0);
    IUFillNumber(&FocusModeAN[1], "FOCUS_DELAY_A", "Delay A", "%.2f", 0.00, 9.99, 1.0, 0);
    IUFillNumberVector(&FocusModeANP, FocusModeAN, 2, getDeviceName(), "FOCUS_MODE_A", "Mode A", "Presets", IP_RW, 0, IPS_IDLE);
    IUFillNumber(&FocusModeBN[0], "FOCUS_SLOPE_B", "Slope B", "%.0f", -999, 999, 10, 0);
    IUFillNumber(&FocusModeBN[1], "FOCUS_DELAY_B", "Delay B", "%.2f", 0.00, 9.99, 1.0, 0);
    IUFillNumberVector(&FocusModeBNP, FocusModeBN, 2, getDeviceName(), "FOCUS_MODE_B", "Mode B", "Presets", IP_RW, 0, IPS_IDLE);

    // Default to 19200
    serialConnection->setDefaultBaudRate(Connection::Serial::B_19200);

    addAuxControls();

    setDefaultPollingPeriod(500);

    return true;
}

Ejemplo n.º 25

Archivo: ieqpro.cpp Proyecto: mp77/indi

bool IEQPro::initProperties()
{
    INDI::Telescope::initProperties();

    /* Firmware */
    IUFillText(&FirmwareT[FW_MODEL], "Model", "", 0);
    IUFillText(&FirmwareT[FW_BOARD], "Board", "", 0);
    IUFillText(&FirmwareT[FW_CONTROLLER], "Controller", "", 0);
    IUFillText(&FirmwareT[FW_RA], "RA", "", 0);
    IUFillText(&FirmwareT[FW_DEC], "DEC", "", 0);
    IUFillTextVector(&FirmwareTP, FirmwareT, 5, getDeviceName(), "Firmware Info", "", MOUNTINFO_TAB, IP_RO, 0, IPS_IDLE);

    /* Tracking Mode */
    IUFillSwitch(&TrackModeS[TRACK_SIDEREAL], "TRACK_SIDEREAL", "Sidereal", ISS_ON);
    IUFillSwitch(&TrackModeS[TRACK_SOLAR], "TRACK_SOLAR", "Solar", ISS_OFF);
    IUFillSwitch(&TrackModeS[TRACK_LUNAR], "TRACK_LUNAR", "Lunar", ISS_OFF);
    IUFillSwitch(&TrackModeS[TRACK_CUSTOM], "TRACK_CUSTOM", "Custom", ISS_OFF);
    IUFillSwitchVector(&TrackModeSP, TrackModeS, 4, getDeviceName(), "TELESCOPE_TRACK_MODE", "Track Mode", MAIN_CONTROL_TAB, IP_RW, ISR_1OFMANY, 0, IPS_IDLE);

    /* Custom Tracking Rate */
    IUFillNumber(&CustomTrackRateN[0],"TRACK_RATE_CUSTOM","Rate","%g",-0.0100, 0.0100, 0.005, 0);
    IUFillNumberVector(&CustomTrackRateNP, CustomTrackRateN,1,getDeviceName(),"TELESCOPE_TRACK_RATE","Track Rates",MOTION_TAB,IP_RW,60,IPS_IDLE);

    /* GPS Status */
    IUFillSwitch(&GPSStatusS[GPS_OFF], "Off", "", ISS_ON);
    IUFillSwitch(&GPSStatusS[GPS_ON], "On", "", ISS_OFF);
    IUFillSwitch(&GPSStatusS[GPS_DATA_OK], "Data OK", "", ISS_OFF);
    IUFillSwitchVector(&GPSStatusSP, GPSStatusS, 3, getDeviceName(), "GPS_STATUS", "GPS", MOUNTINFO_TAB, IP_RO, ISR_1OFMANY, 0, IPS_IDLE);

    /* Time Source */
    IUFillSwitch(&TimeSourceS[TS_RS232], "RS232", "", ISS_ON);
    IUFillSwitch(&TimeSourceS[TS_CONTROLLER], "Controller", "", ISS_OFF);
    IUFillSwitch(&TimeSourceS[TS_GPS], "GPS", "", ISS_OFF);
    IUFillSwitchVector(&TimeSourceSP, TimeSourceS, 3, getDeviceName(), "TIME_SOURCE", "Time Source", MOUNTINFO_TAB, IP_RO, ISR_1OFMANY, 0, IPS_IDLE);

    /* Hemisphere */
    IUFillSwitch(&HemisphereS[HEMI_SOUTH], "South", "", ISS_OFF);
    IUFillSwitch(&HemisphereS[HEMI_NORTH], "North", "", ISS_ON);
    IUFillSwitchVector(&HemisphereSP, HemisphereS, 2, getDeviceName(), "HEMISPHERE", "Hemisphere", MOUNTINFO_TAB, IP_RO, ISR_1OFMANY, 0, IPS_IDLE);

    /* Home */
    IUFillSwitch(&HomeS[IEQ_FIND_HOME], "FindHome", "Find Home", ISS_OFF);
    IUFillSwitch(&HomeS[IEQ_SET_HOME], "SetCurrentAsHome", "Set current as Home", ISS_OFF);
    IUFillSwitch(&HomeS[IEQ_GOTO_HOME], "GoToHome", "Go to Home", ISS_OFF);
    IUFillSwitchVector(&HomeSP, HomeS, 3, getDeviceName(), "HOME", "Home", MAIN_CONTROL_TAB, IP_RW, ISR_ATMOST1, 0, IPS_IDLE);

    /* How fast do we guide compared to sidereal rate */
    IUFillNumber(&GuideRateN[0], "GUIDE_RATE", "x Sidereal", "%g", 0.1, 0.9, 0.1, 0.5);
    IUFillNumberVector(&GuideRateNP, GuideRateN, 1, getDeviceName(), "GUIDE_RATE", "Guiding Rate", MOTION_TAB, IP_RW, 0, IPS_IDLE);

    TrackState=SCOPE_IDLE;

    initGuiderProperties(getDeviceName(), MOTION_TAB);

    setDriverInterface(getDriverInterface() | GUIDER_INTERFACE);

    SetParkDataType(PARK_RA_DEC);

    addAuxControls();

    return true;
}