Ejemplos de NMEAInputLine::ReadChecked en C++ (Cpp)

Ejemplo n.º 1

Archivo: Westerboer.cpp Proyecto: CnZoom/XcSoarPull

/**
 * $PWES1,DD,MM,S,AAA,F,V,LLL,BB*CS<CR><LF>
 */
static bool
PWES1(NMEAInputLine &line, NMEAInfo &info)
{
  line.Skip(); /* device */

  int i;
  if (line.ReadChecked(i))
    info.settings.ProvideMacCready(fixed(i) / 10, info.clock);

  info.switch_state.flight_mode = SwitchState::FlightMode::UNKNOWN;
  if (line.ReadChecked(i)) {
    if (i == 0)
      info.switch_state.flight_mode = SwitchState::FlightMode::CIRCLING;
    else if (i == 1)
      info.switch_state.flight_mode = SwitchState::FlightMode::CRUISE;
  }

  line.Skip(3);

  if (line.ReadChecked(i))
    info.settings.ProvideWingLoading(fixed(i) / 10, info.clock);

  if (line.ReadChecked(i))
    info.settings.ProvideBugs(fixed(100 - i) / 100, info.clock);

  return true;
}

Ejemplo n.º 2

Archivo: Parser.cpp Proyecto: kwtskran/XCSoar

/**
 * Parse the $PLXVS sentence (LXNav V7).
 *
 * $PLXVS,OAT,mode,voltage *CS<CR><LF>
 *
 * Example: $PLXVS,23.1,0,12.3,*CS<CR><LF>
 *
 * @see http://www.xcsoar.org/trac/raw-attachment/ticket/1666/V7%20dataport%20specification%201.97.pdf
 */
static bool
PLXVS(NMEAInputLine &line, NMEAInfo &info)
{
  fixed temperature;
  if (line.ReadChecked(temperature)) {
    info.temperature = CelsiusToKelvin(temperature);
    info.temperature_available = true;
  }

  int mode;
  info.switch_state.flight_mode = SwitchState::FlightMode::UNKNOWN;
  if (line.ReadChecked(mode)) {
    if (mode == 0)
      info.switch_state.flight_mode = SwitchState::FlightMode::CIRCLING;
    else if (mode == 1)
      info.switch_state.flight_mode = SwitchState::FlightMode::CRUISE;
  }

  fixed voltage;
  if (line.ReadChecked(voltage)) {
    info.voltage = voltage;
    info.voltage_available.Update(info.clock);
  }

  return true;
}

Ejemplo n.º 3

Archivo: Zander.cpp Proyecto: CnZoom/XcSoarPull

static bool
PZAN3(NMEAInputLine &line, NMEAInfo &info)
{
  // old: $PZAN3,+,026,V,321,035,A,321,035,V*cc
  // new: $PZAN3,+,026,A,321,035,V[,A]*cc

  line.Skip(3);

  int direction, speed;
  if (!line.ReadChecked(direction) || !line.ReadChecked(speed))
    return false;

  char okay = line.ReadFirstChar();
  if (okay == 'V') {
    okay = line.ReadFirstChar();
    if (okay == 'V')
      return true;

    if (okay != 'A') {
      line.Skip();
      okay = line.ReadFirstChar();
    }
  }

  if (okay == 'A') {
    SpeedVector wind(Angle::Degrees(direction),
                     Units::ToSysUnit(fixed(speed), Unit::KILOMETER_PER_HOUR));
    info.ProvideExternalWind(wind);
  }

  return true;
}

Ejemplo n.º 4

Archivo: Parser.cpp Proyecto: osteocool/XCSoar-1

static bool
LXWP2(NMEAInputLine &line, NMEAInfo &info)
{
  /*
   * $LXWP2,
   * maccready value, (m/s)
   * ballast, (1.0 - 1.5)
   * bugs, (0 - 100%)
   * polar_a,
   * polar_b,
   * polar_c,
   * audio volume
   */

  fixed value;
  // MacCready value
  if (line.ReadChecked(value))
    info.settings.ProvideMacCready(value, info.clock);

  // Ballast
  if (line.ReadChecked(value))
    info.settings.ProvideBallastOverload(value, info.clock);

  // Bugs
  if (line.ReadChecked(value))
    info.settings.ProvideBugs((fixed(100) - value) / 100, info.clock);

  return true;
}

Ejemplo n.º 5

Archivo: Vaulter.cpp Proyecto: CnZoom/XcSoarPull

static bool
ParsePITV3(NMEAInputLine &line, NMEAInfo &info)
{
  fixed value;

  // bank angle [degrees, positive right]
  if (line.ReadChecked(value)) {
    info.attitude.bank_angle_available.Update(info.clock);
    info.attitude.bank_angle = Angle::Degrees(value);
  }

  // pitch angle [degrees, positive up]
  if (line.ReadChecked(value)) {
    info.attitude.pitch_angle_available.Update(info.clock);
    info.attitude.pitch_angle = Angle::Degrees(value);
  }

  // heading [degrees]
  if (line.ReadChecked(value)) {
    info.attitude.heading_available.Update(info.clock);
    info.attitude.heading = Angle::Degrees(value);
  }

  // IAS [m/s]
  if (line.ReadChecked(value)) {
    info.ProvideIndicatedAirspeed(value);
  }

  // Load factor [g]
  if (line.ReadChecked(value)) {
    info.acceleration.ProvideGLoad(value, true);
  }

  return true;
}

Ejemplo n.º 6

Archivo: Westerboer.cpp Proyecto: osteocool/XCSoar-1

/**
 * $PWES1,DD,MM,S,AAA,F,V,LLL,BB*CS<CR><LF>
 */
static bool
PWES1(NMEAInputLine &line, NMEAInfo &info)
{
  line.Skip(); /* device */

  int i;
  if (line.ReadChecked(i))
    info.settings.ProvideMacCready(fixed(i) / 10, info.clock);

  if (line.ReadChecked(i)) {
    if (i == 0) {
      info.switch_state.flight_mode = SwitchInfo::FlightMode::CIRCLING;
      info.switch_state.speed_command = false;
      info.switch_state_available = true;
    } else if (i == 1) {
      info.switch_state.flight_mode = SwitchInfo::FlightMode::CRUISE;
      info.switch_state.speed_command = true;
      info.switch_state_available = true;
    }
  }

  line.Skip(3);

  if (line.ReadChecked(i))
    info.settings.ProvideWingLoading(fixed(i) / 10, info.clock);

  if (line.ReadChecked(i))
    info.settings.ProvideBugs(fixed(100 - i) / 100, info.clock);

  return true;
}

Ejemplo n.º 7

Archivo: AltairPro.cpp Proyecto: kedder/xcsoar

static bool
PTFRS(NMEAInputLine &line, NMEAInfo &info)
{
    // $PTFRS,1,0,0,0,0,0,0,0,5,1,10,0,3,1338313437,0,0,0,,,2*4E
    //
    // $PTFRS,<sealed>,<downloadmode>,<event>,<neartp>,<sealing>,<baromode>,
    //        <decllock>,<newrecavail>,<enl>,<rpm>,<interval>,<error>,<timbase>,
    //        <time>,<secpower>,<secpowerint>,<usup>,<ulit>,
    //        <chargerstate>,<antstate>*CS<CR><LF>

    line.Skip(8);

    unsigned enl;
    if (line.ReadChecked(enl)) {
        info.engine_noise_level = enl;
        info.engine_noise_level_available.Update(info.clock);
    }

    line.Skip(7);

    unsigned supply_voltage;
    if (line.ReadChecked(supply_voltage) && supply_voltage != 0) {
        info.voltage = fixed(supply_voltage) / 1000;
        info.voltage_available.Update(info.clock);
    }

    return true;
}

Ejemplo n.º 8

Archivo: LevilAHRS_G.cpp Proyecto: kwtskran/XCSoar

static bool
ParseAPENV1(NMEAInputLine &line, NMEAInfo &info)
{
  // $APENV1,IAS,Altitude,0,0,0,VerticalSpeed,

  int ias;
  if (!line.ReadChecked(ias)) return false;

  int altitude;
  if (!line.ReadChecked(altitude)) return false;

  line.Skip();
  line.Skip();
  line.Skip();

  // In ft/min, quality of this is limited, do not use for the time being
  int vs;
  if (!line.ReadChecked(vs)) return false;

  auto sys_alt = Units::ToSysUnit(fixed(altitude), Unit::FEET);
  info.ProvidePressureAltitude(sys_alt);
  info.ProvideIndicatedAirspeedWithAltitude(Units::ToSysUnit(fixed(ias), Unit::KNOTS), sys_alt);

  return true;
}

Ejemplo n.º 9

Archivo: Parser.cpp Proyecto: CnZoom/XcSoarPull

static bool
PDVVT(NMEAInputLine &line, NMEAInfo &info)
{
  int value;
  info.temperature_available = line.ReadChecked(value);
  if (info.temperature_available)
    info.temperature = fixed(value) / 10;

  info.humidity_available = line.ReadChecked(info.humidity);

  return true;
}

Ejemplo n.º 10

Archivo: Zander.cpp Proyecto: CnZoom/XcSoarPull

static bool
PZAN2(NMEAInputLine &line, NMEAInfo &info)
{
  fixed vtas, wnet;

  if (line.ReadChecked(vtas))
    info.ProvideTrueAirspeed(Units::ToSysUnit(vtas, Unit::KILOMETER_PER_HOUR));

  if (line.ReadChecked(wnet))
    info.ProvideTotalEnergyVario((wnet - fixed(10000)) / 100);

  return true;
}

Ejemplo n.º 11

Archivo: Parser.cpp Proyecto: CnZoom/XcSoarPull

static bool
PDSWC(NMEAInputLine &line, NMEAInfo &info, Vega::VolatileData &volatile_data)
{
  unsigned value;
  if (line.ReadChecked(value) &&
      info.settings.ProvideMacCready(fixed(value) / 10, info.clock))
    volatile_data.mc = value;

  auto &switches = info.switch_state;
  auto &vs = switches.vega;
  vs.inputs = line.ReadHex(0);
  vs.outputs = line.ReadHex(0);

  if (vs.GetFlapLanding())
    switches.flap_position = SwitchState::FlapPosition::LANDING;
  else if (vs.GetFlapZero())
    switches.flap_position = SwitchState::FlapPosition::NEUTRAL;
  else if (vs.GetFlapNegative())
    switches.flap_position = SwitchState::FlapPosition::NEGATIVE;
  else if (vs.GetFlapPositive())
    switches.flap_position = SwitchState::FlapPosition::POSITIVE;
  else
    switches.flap_position = SwitchState::FlapPosition::UNKNOWN;

  if (vs.GetUserSwitchMiddle())
    switches.user_switch = SwitchState::UserSwitch::MIDDLE;
  else if (vs.GetUserSwitchUp())
    switches.user_switch = SwitchState::UserSwitch::UP;
  else if (vs.GetUserSwitchDown())
    switches.user_switch = SwitchState::UserSwitch::DOWN;
  else
    switches.user_switch = SwitchState::UserSwitch::UNKNOWN;

  if (vs.GetAirbrakeLocked())
    switches.airbrake_state = SwitchState::AirbrakeState::LOCKED;
  else if (vs.GetAirbrakeNotLocked())
    switches.airbrake_state = SwitchState::AirbrakeState::NOT_LOCKED;
  else
    switches.airbrake_state = SwitchState::AirbrakeState::UNKNOWN;

  switches.flight_mode = vs.GetCircling()
    ? SwitchState::FlightMode::CIRCLING
    : SwitchState::FlightMode::CRUISE;

  if (line.ReadChecked(value)) {
    info.voltage = fixed(value) / 10;
    info.voltage_available.Update(info.clock);
  }

  return true;
}

Ejemplo n.º 12

Archivo: Leonardo.cpp Proyecto: MaxPower-No1/XCSoar

static bool
ReadSpeedVector(NMEAInputLine &line, SpeedVector &value_r)
{
  double norm, bearing;

  bool norm_valid = line.ReadChecked(norm);
  bool bearing_valid = line.ReadChecked(bearing);

  if (bearing_valid && norm_valid) {
    value_r.norm = Units::ToSysUnit(norm, Unit::KILOMETER_PER_HOUR);
    value_r.bearing = Angle::Degrees(bearing);
    return true;
  } else
    return false;
}

Ejemplo n.º 13

Archivo: Parser.cpp Proyecto: kwtskran/XCSoar

static bool
LXWP3(NMEAInputLine &line, NMEAInfo &info)
{
  /*
   * $LXWP3,
   * altioffset
   * scmode
   * variofil
   * tefilter
   * televel
   * varioavg
   * variorange
   * sctab
   * sclow
   * scspeed
   * SmartDiff
   * glider name
   * time offset
   */

  fixed value;

  // Altitude offset -> QNH
  if (line.ReadChecked(value)) {
    value = Units::ToSysUnit(-value, Unit::FEET);
    auto qnh = AtmosphericPressure::PressureAltitudeToStaticPressure(value);
    info.settings.ProvideQNH(qnh, info.clock);
  }

  return true;
}

Ejemplo n.º 14

Archivo: Parser.cpp Proyecto: ThomasXBMC/XCSoar

bool
NMEAParser::ReadTime(NMEAInputLine &line, BrokenTime &broken_time,
                     fixed &time_of_day_s)
{
    fixed value;
    if (!line.ReadChecked(value))
        return false;

    // Calculate Hour
    auto hours = value / 10000;
    broken_time.hour = (int)hours;

    // Calculate Minute
    auto mins = value / 100;
    mins = mins - fixed(broken_time.hour) * 100;
    broken_time.minute = (int)mins;

    // Calculate Second
    auto secs = value - fixed(broken_time.hour * 10000 +
                              broken_time.minute * 100);
    broken_time.second = (int)secs;

    time_of_day_s = secs + fixed(broken_time.minute * 60 + broken_time.hour * 3600);
    return true;
}

Ejemplo n.º 15

Archivo: Parser.cpp Proyecto: alon/xcsoar

// $PDVDS,nx,nz,flap,stallratio,netto
static bool
PDVDS(NMEAInputLine &line, NMEAInfo &info)
{
  fixed AccelX = line.Read(fixed_zero);
  fixed AccelZ = line.Read(fixed_zero);

  fixed mag = SmallHypot(AccelX, AccelZ);
  info.acceleration.ProvideGLoad(fixed(mag) / 100, true);

  /*
  double flap = line.Read(0.0);
  */
  line.Skip();

  info.stall_ratio = line.Read(fixed_zero);
  info.stall_ratio_available.Update(info.clock);

  fixed value;
  if (line.ReadChecked(value))
    info.ProvideNettoVario(value / 10);

  //hasVega = true;

  return true;
}

Ejemplo n.º 16

Archivo: Parser.cpp Proyecto: ThomasXBMC/XCSoar

static bool
ReadFixedAndChar(NMEAInputLine &line, fixed &d, char &ch)
{
    bool success = line.ReadChecked(d);
    ch = line.ReadFirstChar();
    return success;
}

Ejemplo n.º 17

Archivo: Parser.cpp Proyecto: kwtskran/XCSoar

static bool
LXWP0(NMEAInputLine &line, NMEAInfo &info)
{
  /*
  $LXWP0,Y,222.3,1665.5,1.71,,,,,,239,174,10.1

   0 loger_stored (Y/N)
   1 IAS (kph) ----> Condor uses TAS!
   2 baroaltitude (m)
   3-8 vario (m/s) (last 6 measurements in last second)
   9 heading of plane
  10 windcourse (deg)
  11 windspeed (kph)
  */

  line.Skip();

  fixed airspeed;
  bool tas_available = line.ReadChecked(airspeed);
  if (tas_available && (airspeed < fixed(-50) || airspeed > fixed(250)))
    /* implausible */
    return false;

  fixed value;
  if (line.ReadChecked(value))
    /* a dump on a LX7007 has confirmed that the LX sends uncorrected
       altitude above 1013.25hPa here */
    info.ProvidePressureAltitude(value);

  if (tas_available)
    /*
     * Call ProvideTrueAirspeed() after ProvidePressureAltitude() to use
     * the provided altitude (if available)
     */
    info.ProvideTrueAirspeed(Units::ToSysUnit(airspeed, Unit::KILOMETER_PER_HOUR));

  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value);

  line.Skip(6);

  SpeedVector wind;
  if (ReadSpeedVector(line, wind))
    info.ProvideExternalWind(wind);

  return true;
}

Ejemplo n.º 18

Archivo: Leonardo.cpp Proyecto: MaxPower-No1/XCSoar

/**
 * Parse a "$D" sentence.
 *
 * Example: "$D,+0,100554,+25,18,+31,,0,-356,+25,+11,115,96*6A"
 */
static bool
LeonardoParseD(NMEAInputLine &line, NMEAInfo &info)
{
  double value;

  // 0 = vario [dm/s]
  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value / 10);

  if (line.Rest().empty())
    /* short "$D" sentence ends after vario */
    return true;

  // 1 = air pressure [Pa]
  if (line.ReadChecked(value))
    info.ProvideStaticPressure(AtmosphericPressure::Pascal(value));

  // 2 = netto vario [dm/s]
  if (line.ReadChecked(value))
    info.ProvideNettoVario(value / 10);

  // 3 = airspeed [km/h]
  /* XXX is that TAS or IAS? */
  if (line.ReadChecked(value))
    info.ProvideTrueAirspeed(Units::ToSysUnit(value, Unit::KILOMETER_PER_HOUR));

  // 4 = temperature [deg C]
  double oat;
  info.temperature_available = line.ReadChecked(oat);
  if (info.temperature_available)
    info.temperature = CelsiusToKelvin(oat);

  // 5 = compass [degrees]
  /* XXX unsupported by XCSoar */

  // 6 = optimal speed [km/h]
  /* XXX unsupported by XCSoar */

  // 7 = equivalent MacCready [cm/s]
  /* XXX unsupported by XCSoar */

  // 8 = wind speed [km/h]
  /* not used here, the "$C" record repeats it together with the
     direction */

  return true;
}

Ejemplo n.º 19

Archivo: OpenVario.cpp Proyecto: kwtskran/XCSoar

bool
OpenVarioDevice::POV(NMEAInputLine &line, NMEAInfo &info)
{
  /*
   * Type definitions:
   *
   * E: TE vario in m/s
   * P: static pressure in hPa
   * Q: dynamic pressure in Pa
   * R: total pressure in hPa
   * S: true airspeed in km/h
   * T: temperature in deg C
   */

  while (!line.IsEmpty()) {
    char type = line.ReadOneChar();
    if (type == '\0')
      break;

    fixed value;
    if (!line.ReadChecked(value))
      break;

    switch (type) {
      case 'E': {
        info.ProvideTotalEnergyVario(value);
        break;
      }
      case 'P': {
        AtmosphericPressure pressure = AtmosphericPressure::HectoPascal(value);
        info.ProvideStaticPressure(pressure);
        break;
      }
      case 'Q': {
        AtmosphericPressure pressure = AtmosphericPressure::Pascal(value);
        info.ProvideDynamicPressure(pressure);
        break;
      }
      case 'R': {
        AtmosphericPressure pressure = AtmosphericPressure::HectoPascal(value);
        info.ProvidePitotPressure(pressure);
        break;
      }
      case 'S': {
        value = Units::ToSysUnit(value, Unit::KILOMETER_PER_HOUR);
        info.ProvideTrueAirspeed(value);
        break;
      }
      case 'T': {
        info.temperature = CelsiusToKelvin(value);
        info.temperature_available = true;
        break;
      }
    }
  }

  return true;
}

Ejemplo n.º 20

Archivo: Parser.cpp Proyecto: ThomasXBMC/XCSoar

bool
NMEAParser::PTAS1(NMEAInputLine &line, NMEAInfo &info)
{
    /*
     * $PTAS1,xxx,yyy,zzzzz,aaa*CS<CR><LF>
     *
     * xxx
     * CV or current vario. =vario*10+200 range 0-400(display +/-20.0 knots)
     *
     * yyy
     * AV or average vario. =vario*10+200 range 0-400(display +/-20.0 knots)
     *
     * zzzzz
     * Barometric altitude in feet +2000
     *
     * aaa
     * TAS knots 0-200
     */

    // Parse current vario data
    fixed vario;
    if (line.ReadChecked(vario)) {
        // Properly convert to m/s
        vario = Units::ToSysUnit((vario - fixed(200)) / 10, Unit::KNOTS);
        info.ProvideTotalEnergyVario(vario);
    }

    // Skip average vario data
    line.Skip();

    // Parse barometric altitude
    fixed baro_altitude;
    if (line.ReadChecked(baro_altitude)) {
        // Properly convert to meter
        baro_altitude = Units::ToSysUnit(baro_altitude - fixed(2000), Unit::FEET);
        info.ProvidePressureAltitude(baro_altitude);
    }

    // Parse true airspeed
    fixed vtas;
    if (line.ReadChecked(vtas))
        info.ProvideTrueAirspeed(Units::ToSysUnit(vtas, Unit::KNOTS));

    return true;
}

Ejemplo n.º 21

Archivo: Condor.cpp Proyecto: alon/xcsoar

static bool
cLXWP0(NMEAInputLine &line, NMEAInfo &info)
{
  /*
  $LXWP0,Y,222.3,1665.5,1.71,,,,,,239,174,10.1

   0 logger_stored (Y/N)
   1 IAS (kph) ----> Condor uses TAS!
   2 baroaltitude (m)
   3 vario (m/s)
   4-8 unknown
   9 heading of plane
  10 windcourse (deg)
  11 windspeed (kph)
  */

  fixed value;

  line.Skip();

  fixed airspeed;
  bool tas_available = line.ReadChecked(airspeed);

  fixed alt = line.Read(fixed_zero);

  if (tas_available)
    info.ProvideTrueAirspeedWithAltitude(Units::ToSysUnit(airspeed,
                                                               Unit::KILOMETER_PER_HOUR),
                                              alt);

  // ToDo check if QNH correction is needed!
  info.ProvideBaroAltitudeTrue(alt);

  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value);

  line.Skip(6);

  SpeedVector wind;
  if (ReadSpeedVector(line, wind))
    info.ProvideExternalWind(wind);

  return true;
}

Ejemplo n.º 22

Archivo: Condor.cpp Proyecto: CnZoom/XcSoarPull

static bool
ReadSpeedVector(NMEAInputLine &line, SpeedVector &value_r)
{
  fixed bearing, norm;

  bool bearing_valid = line.ReadChecked(bearing);
  bool norm_valid = line.ReadChecked(norm);

  if (bearing_valid && norm_valid) {
    // Condor 1.1.4 outputs the direction that the wind is going to,
    // _not_ the direction it is coming from !!
    //
    // This seems to differ from the output that the LX devices are giving !!
    value_r.bearing = Angle::Degrees(bearing).Reciprocal();
    value_r.norm = Units::ToSysUnit(norm, Unit::KILOMETER_PER_HOUR);
    return true;
  } else
    return false;
}

Ejemplo n.º 23

Archivo: Leonardo.cpp Proyecto: MaxPower-No1/XCSoar

/**
 * Parse a "$C" sentence.
 *
 * Example: "$C,+2025,-7,+18,+25,+29,122,314,314,0,-356,+25,45,T*3D"
 */
static bool
LeonardoParseC(NMEAInputLine &line, NMEAInfo &info)
{
  double value;

  // 0 = altitude [m]
  if (line.ReadChecked(value))
    info.ProvideBaroAltitudeTrue(value);

  // 1 = vario [cm/s]
  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value / 100);

  // 2 = airspeed [km/h]
  /* XXX is that TAS or IAS? */
  if (line.ReadChecked(value))
    info.ProvideTrueAirspeed(Units::ToSysUnit(value, Unit::KILOMETER_PER_HOUR));

  if (line.Rest().empty())
    /* short "$C" sentence ends after airspeed */
    return true;

  // 3 = netto vario [dm/s]
  if (line.ReadChecked(value))
    info.ProvideNettoVario(value / 10);

  // 4 = temperature [deg C]
  double oat;
  info.temperature_available = line.ReadChecked(oat);
  if (info.temperature_available)
    info.temperature = CelsiusToKelvin(oat);

  line.Skip(5);

  // 10 = wind speed [km/h]
  // 11 = wind direction [degrees]
  SpeedVector wind;
  if (ReadSpeedVector(line, wind))
    info.ProvideExternalWind(wind);

  return true;
}

Ejemplo n.º 24

Archivo: Vaulter.cpp Proyecto: CnZoom/XcSoarPull

static bool
ParsePITV4(NMEAInputLine &line, NMEAInfo &info)
{
  fixed value;

  // TE vario [m/s]
  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value);

  return true;
}

Ejemplo n.º 25

Archivo: Parser.cpp Proyecto: alon/xcsoar

static bool
PDVDV(NMEAInputLine &line, NMEAInfo &info)
{
  fixed value;

  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value / 10);

  bool ias_available = line.ReadChecked(value);
  fixed tas_ratio = line.Read(fixed(1024)) / 1024;
  if (ias_available)
    info.ProvideBothAirspeeds(value / 10, value / 10 * tas_ratio);

  //hasVega = true;

  if (line.ReadChecked(value))
    info.ProvidePressureAltitude(value);

  return true;
}

Ejemplo n.º 26

Archivo: Zander.cpp Proyecto: CnZoom/XcSoarPull

static bool
PZAN4(NMEAInputLine &line, NMEAInfo &info)
{
  // $PZAN4,1.5,+,20,39,45*cc

  fixed mc;
  if (line.ReadChecked(mc))
    info.settings.ProvideMacCready(mc, info.clock);

  return true;
}

Ejemplo n.º 27

Archivo: PosiGraph.cpp Proyecto: Tjeerdm/XCSoarDktjm

static bool
GPWIN(NMEAInputLine &line, NMEAInfo &info)
{
  line.Skip(2);

  fixed value;
  if (line.ReadChecked(value))
    info.ProvidePressureAltitude(value / 10);

  return false;
}

Ejemplo n.º 28

Archivo: Leonardo.cpp Proyecto: alon/xcsoar

/**
 * Parse a "$PDGFTL1" sentence.
 *
 * Example: "$PDGFTL1,2025,2000,250,-14,45,134,28,65,382,153*3D"
 */
static bool
PDGFTL1(NMEAInputLine &line, NMEAInfo &info)
{
  fixed value;

  //  Baro Altitude QNE(1013.25)     2025     meter        2025 mt
  if (line.ReadChecked(value))
    info.ProvidePressureAltitude(value);

  //  Baro Altitude QNH  2000     meter        2000 mt
  if (line.ReadChecked(value))
    info.ProvideBaroAltitudeTrue(value);

  //  Vario  250      cm/sec       +2,50 m/s
  if (line.ReadChecked(value))
    info.ProvideTotalEnergyVario(value / 100);

  //  Netto Vario  -14      dm/sec       -1,40 m/s
  if (line.ReadChecked(value))
    info.ProvideNettoVario(value / 10);

  //  Indicated Air Speed  45       km/h         45 km/h
  //  Ground Efficiency  134      ratio        13,4 : 1
  line.Skip(2);

  //  Wind Speed  28       km/h         28 km/h
  //  Wind Direction  65       degree       65 degree
  SpeedVector wind;
  if (ReadSpeedVector(line, wind))
    info.ProvideExternalWind(wind);

  //  Main Lithium Battery Voltage   382      0.01 volts   3,82 volts
  if (line.ReadChecked(value)) {
    info.voltage = value / 100;
    info.voltage_available.Update(info.clock);
  }

  //  Backup AA Battery Voltage      153      0.01 volts   1,53 volts

  return true;
}

Ejemplo n.º 29

Archivo: Parser.cpp Proyecto: kwtskran/XCSoar

static bool
LXWP2(NMEAInputLine &line, NMEAInfo &info)
{
  /*
   * $LXWP2,
   * maccready value, (m/s)
   * ballast, (1.0 - 1.5)
   * bugs, (0 - 100%)
   * polar_a,
   * polar_b,
   * polar_c,
   * audio volume
   */

  fixed value;
  // MacCready value
  if (line.ReadChecked(value))
    info.settings.ProvideMacCready(value, info.clock);

  // Ballast
  if (line.ReadChecked(value))
    info.settings.ProvideBallastOverload(value, info.clock);

  // Bugs
  if (line.ReadChecked(value)) {
    if (value <= fixed(1.5) && value >= fixed(1.0))
      // LX160 (sw 3.04) reports bugs as 1.00, 1.05 or 1.10 (#2167)
      info.settings.ProvideBugs(fixed(2) - value, info.clock);
    else
      // All other known LX devices report bugs as 0, 5, 10, 15, ...
      info.settings.ProvideBugs((fixed(100) - value) / 100, info.clock);
  }

  line.Skip(3);

  unsigned volume;
  if (line.ReadChecked(volume))
    info.settings.ProvideVolume(volume, info.clock);

  return true;
}

Ejemplo n.º 30

Archivo: Zander.cpp Proyecto: CnZoom/XcSoarPull

static bool
PZAN1(NMEAInputLine &line, NMEAInfo &info)
{
  fixed baro_altitude;
  if (line.ReadChecked(baro_altitude))
    /* the ZS1 documentation does not specify wheter the altitude is
       STD or QNH, but Franz Poeschl confirmed via email that it is
       the QNH altitude */
    info.ProvideBaroAltitudeTrue(baro_altitude);

  return true;
}