Example #1
0
static bool
ParseLineTNP(Airspaces &airspace_database, TCHAR *line,
             TempAirspaceType &temp_area, bool &ignore)
{
  // Strip comments
  TCHAR *comment = _tcschr(line, _T('*'));
  if (comment != nullptr)
    *comment = _T('\0');

  const TCHAR* parameter;
  if ((parameter = StringAfterPrefixCI(line, _T("INCLUDE="))) != nullptr) {
    if (StringStartsWithIgnoreCase(parameter, _T("YES")))
      ignore = false;
    else if (StringStartsWithIgnoreCase(parameter, _T("NO")))
      ignore = true;

    return true;
  }

  if (ignore)
    return true;

  if ((parameter = StringAfterPrefixCI(line, _T("POINT="))) != nullptr) {
    GeoPoint temp_point;
    if (!ParseCoordsTNP(parameter, temp_point))
      return false;

    temp_area.points.push_back(temp_point);
  } else if ((parameter =
      StringAfterPrefixCI(line, _T("CIRCLE "))) != nullptr) {
    if (!ParseCircleTNP(parameter, temp_area))
      return false;

    temp_area.AddCircle(airspace_database);
    temp_area.ResetTNP();
  } else if ((parameter =
      StringAfterPrefixCI(line, _T("CLOCKWISE "))) != nullptr) {
    temp_area.rotation = 1;
    if (!ParseArcTNP(parameter, temp_area))
      return false;
  } else if ((parameter =
      StringAfterPrefixCI(line, _T("ANTI-CLOCKWISE "))) != nullptr) {
    temp_area.rotation = -1;
    if (!ParseArcTNP(parameter, temp_area))
      return false;
  } else if ((parameter = StringAfterPrefixCI(line, _T("TITLE="))) != nullptr) {
    temp_area.AddPolygon(airspace_database);
    temp_area.ResetTNP();

    temp_area.name = parameter;
  } else if ((parameter = StringAfterPrefixCI(line, _T("TYPE="))) != nullptr) {
    temp_area.AddPolygon(airspace_database);
    temp_area.ResetTNP();

    temp_area.type = ParseTypeTNP(parameter);
  } else if ((parameter = StringAfterPrefixCI(line, _T("CLASS="))) != nullptr) {
    temp_area.type = ParseClassTNP(parameter);
  } else if ((parameter = StringAfterPrefixCI(line, _T("TOPS="))) != nullptr) {
    ReadAltitude(parameter, temp_area.top);
  } else if ((parameter = StringAfterPrefixCI(line, _T("BASE="))) != nullptr) {
    ReadAltitude(parameter, temp_area.base);
  } else if ((parameter = StringAfterPrefixCI(line, _T("RADIO="))) != nullptr) {
    temp_area.radio = parameter;
  } else if ((parameter = StringAfterPrefixCI(line, _T("ACTIVE="))) != nullptr) {
    if (StringIsEqualIgnoreCase(parameter, _T("WEEKEND")))
      temp_area.days_of_operation.SetWeekend();
    else if (StringIsEqualIgnoreCase(parameter, _T("WEEKDAY")))
      temp_area.days_of_operation.SetWeekdays();
    else if (StringIsEqualIgnoreCase(parameter, _T("EVERYDAY")))
      temp_area.days_of_operation.SetAll();
  }

  return true;
}
Example #2
0
static bool
ParseLineTNP(Airspaces &airspace_database, const TCHAR *line,
             TempAirspaceType &temp_area, bool &ignore)
{
  const TCHAR* parameter;
  if ((parameter = string_after_prefix_ci(line, _T("INCLUDE="))) != NULL) {
    if (_tcsicmp(parameter, _T("YES")) == 0)
      ignore = false;
    else if (_tcsicmp(parameter, _T("NO")) == 0)
      ignore = true;

    return true;
  }

  if (ignore)
    return true;

  if ((parameter = string_after_prefix_ci(line, _T("TITLE="))) != NULL) {
    temp_area.Name = parameter;
  } else if ((parameter = string_after_prefix_ci(line, _T("RADIO="))) != NULL) {
    temp_area.Radio = parameter;
  } else if ((parameter = string_after_prefix_ci(line, _T("ACTIVE="))) != NULL) {
    if (_tcsicmp(parameter, _T("WEEKEND")) == 0)
      temp_area.days_of_operation.set_weekend();
    else if (_tcsicmp(parameter, _T("WEEKDAY")) == 0)
      temp_area.days_of_operation.set_weekdays();
    else if (_tcsicmp(parameter, _T("EVERYDAY")) == 0)
      temp_area.days_of_operation.set_all();
  } else if ((parameter = string_after_prefix_ci(line, _T("TYPE="))) != NULL) {
    if (!temp_area.Waiting)
      temp_area.AddPolygon(airspace_database);

    temp_area.reset();

    temp_area.Type = ParseTypeTNP(parameter);
    temp_area.Waiting = false;
  } else if ((parameter = string_after_prefix_ci(line, _T("CLASS="))) != NULL) {
    if (temp_area.Type == OTHER)
      temp_area.Type = ParseClassTNP(parameter);
  } else if ((parameter = string_after_prefix_ci(line, _T("TOPS="))) != NULL) {
    ReadAltitude(parameter, &temp_area.Top);
  } else if ((parameter = string_after_prefix_ci(line, _T("BASE="))) != NULL) {
    ReadAltitude(parameter, &temp_area.Base);
  } else if ((parameter = string_after_prefix_ci(line, _T("POINT="))) != NULL) {
    GeoPoint TempPoint;
    if (!ParseCoordsTNP(parameter, TempPoint))
      return false;

    temp_area.points.push_back(TempPoint);
  } else if ((parameter =
      string_after_prefix_ci(line, _T("CIRCLE "))) != NULL) {
    if (!ParseCircleTNP(parameter, temp_area))
      return false;

    temp_area.AddCircle(airspace_database);
  } else if ((parameter =
      string_after_prefix_ci(line, _T("CLOCKWISE "))) != NULL) {
    temp_area.Rotation = 1;
    if (!ParseArcTNP(parameter, temp_area))
      return false;
  } else if ((parameter =
      string_after_prefix_ci(line, _T("ANTI-CLOCKWISE "))) != NULL) {
    temp_area.Rotation = -1;
    if (!ParseArcTNP(parameter, temp_area))
      return false;
  }

  return true;
}
Example #3
0
static bool
ParseLine(Airspaces &airspace_database, TCHAR *line,
          TempAirspaceType &temp_area)
{
  const TCHAR *value;

  // Strip comments
  TCHAR *comment = _tcschr(line, _T('*'));
  if (comment != nullptr)
    *comment = _T('\0');

  // Only return expected lines
  switch (line[0]) {
  case _T('D'):
  case _T('d'):
    switch (line[1]) {
    case _T('P'):
    case _T('p'):
      value = ValueAfterSpace(line + 2);
      if (value == nullptr)
        break;

    {
      GeoPoint temp_point;
      if (!ReadCoords(value, temp_point))
        return false;

      temp_area.points.push_back(temp_point);
      break;
    }

    case _T('C'):
    case _T('c'):
      temp_area.radius = Units::ToSysUnit(fixed(ParseDouble(&line[2])),
                                          Unit::NAUTICAL_MILES);
      temp_area.AddCircle(airspace_database);
      temp_area.Reset();
      break;

    case _T('A'):
    case _T('a'):
      ParseArcBearings(line, temp_area);
      break;

    case _T('B'):
    case _T('b'):
      return ParseArcPoints(line, temp_area);

    default:
      return true;
    }
    break;

  case _T('V'):
  case _T('v'):
    // Need to set these while in count mode, or DB/DA will crash
    if ((value = StringAfterPrefixCI(SkipSpaces(line + 1), _T("X="))) != nullptr) {
      if (!ReadCoords(value, temp_area.center))
        return false;
    } else if (StringAfterPrefixCI(SkipSpaces(line + 1), _T("D=-"))) {
      temp_area.rotation = -1;
    } else if (StringAfterPrefixCI(SkipSpaces(line + 1), _T("D=+"))) {
      temp_area.rotation = +1;
    }
    break;

  case _T('A'):
  case _T('a'):
    switch (line[1]) {
    case _T('C'):
    case _T('c'):
      value = ValueAfterSpace(line + 2);
      if (value == nullptr)
        break;

      temp_area.AddPolygon(airspace_database);
      temp_area.Reset();

      temp_area.type = ParseType(value);
      break;

    case _T('N'):
    case _T('n'):
      value = ValueAfterSpace(line + 2);
      if (value != nullptr)
        temp_area.name = value;
      break;

    case _T('L'):
    case _T('l'):
      value = ValueAfterSpace(line + 2);
      if (value != nullptr)
        ReadAltitude(value, temp_area.base);
      break;

    case _T('H'):
    case _T('h'):
      value = ValueAfterSpace(line + 2);
      if (value != nullptr)
        ReadAltitude(value, temp_area.top);
      break;

    case _T('R'):
    case _T('r'):
      value = ValueAfterSpace(line + 2);
      if (value != nullptr)
        temp_area.radio = value;
      break;

    default:
      return true;
    }

    break;

  }
  return true;
}
Example #4
0
static bool
ParseLine(Airspaces &airspace_database, const TCHAR *line,
          TempAirspaceType &temp_area)
{
  const TCHAR *value;

  // Only return expected lines
  switch (line[0]) {
  case _T('A'):
  case _T('a'):
    switch (line[1]) {
    case _T('C'):
    case _T('c'):
      value = value_after_space(line + 2);
      if (value == NULL)
        break;

      if (!temp_area.Waiting)
        temp_area.AddPolygon(airspace_database);

      temp_area.reset();

      temp_area.Type = ParseType(value);
      temp_area.Waiting = false;
      break;

    case _T('N'):
    case _T('n'):
      value = value_after_space(line + 2);
      if (value != NULL)
        temp_area.Name = value;
      break;

    case _T('R'):
    case _T('r'):
      value = value_after_space(line + 2);
      if (value != NULL)
        temp_area.Radio = value;
      break;

    case _T('L'):
    case _T('l'):
      value = value_after_space(line + 2);
      if (value != NULL)
        ReadAltitude(value, &temp_area.Base);
      break;

    case _T('H'):
    case _T('h'):
      value = value_after_space(line + 2);
      if (value != NULL)
        ReadAltitude(value, &temp_area.Top);
      break;

    default:
      return true;
    }

    break;

  case _T('D'):
  case _T('d'):
    switch (line[1]) {
    case _T('A'):
    case _T('a'):
      CalculateSector(line, temp_area);
      break;

    case _T('B'):
    case _T('b'):
      CalculateArc(line, temp_area);
      break;

    case _T('C'):
    case _T('c'):
      temp_area.Radius = Units::ToSysUnit(fixed(_tcstod(&line[2], NULL)),
                                          unNauticalMiles);
      temp_area.AddCircle(airspace_database);
      temp_area.reset();
      break;

    case _T('P'):
    case _T('p'):
      value = value_after_space(line + 2);
      if (value == NULL)
        break;

    {
      GeoPoint TempPoint;
      if (!ReadCoords(value, TempPoint))
        return false;

      temp_area.points.push_back(TempPoint);
      break;
    }
    default:
      return true;
    }
    break;

  case _T('V'):
  case _T('v'):
    // Need to set these while in count mode, or DB/DA will crash
    if (string_after_prefix_ci(&line[2], _T("X="))) {
      if (!ReadCoords(&line[4],temp_area.Center))
        return false;
    } else if (string_after_prefix_ci(&line[2], _T("D=-"))) {
      temp_area.Rotation = -1;
    } else if (string_after_prefix_ci(&line[2], _T("D=+"))) {
      temp_area.Rotation = +1;
    }
    break;
  }

  return true;
}