Payload constructor

Payload({
  1. required Dragon? dragon,
  2. required String name,
  3. required String type,
  4. required bool reused,
  5. required String launch,
  6. required List<String> customers,
  7. required List<num> noradIds,
  8. required List<String> nationalities,
  9. required List<String> manufacturers,
  10. required num massKg,
  11. required num massLbs,
  12. required String orbit,
  13. required String referenceSystem,
  14. required String regime,
  15. required num longitude,
  16. required num semiMajorAxisKm,
  17. required num eccentricity,
  18. required num periapsisKm,
  19. required num apoapsisKm,
  20. required num inclinationDeg,
  21. required num periodMin,
  22. num? lifespanYears,
  23. String? epoch,
  24. required num meanMotion,
  25. required num raan,
  26. required num argOfPericenter,
  27. required num meanAnomaly,
  28. required String id,
})

Implementation

Payload({
  required Dragon? dragon,
  required String name,
  required String type,
  required bool reused,
  required String launch,
  required List<String> customers,
  required List<num> noradIds,
  required List<String> nationalities,
  required List<String> manufacturers,
  required num massKg,
  required num massLbs,
  required String orbit,
  required String referenceSystem,
  required String regime,
  required num longitude,
  required num semiMajorAxisKm,
  required num eccentricity,
  required num periapsisKm,
  required num apoapsisKm,
  required num inclinationDeg,
  required num periodMin,
  num? lifespanYears,
  String? epoch,
  required num meanMotion,
  required num raan,
  required num argOfPericenter,
  required num meanAnomaly,
  required String id,
}) {
  _dragon = dragon;
  _name = name;
  _type = type;
  _reused = reused;
  _launch = launch;
  _customers = customers;
  _noradIds = noradIds;
  _nationalities = nationalities;
  _manufacturers = manufacturers;
  _massKg = massKg;
  _massLbs = massLbs;
  _orbit = orbit;
  _referenceSystem = referenceSystem;
  _regime = regime;
  _longitude = longitude;
  _semiMajorAxisKm = semiMajorAxisKm;
  _eccentricity = eccentricity;
  _periapsisKm = periapsisKm;
  _apoapsisKm = apoapsisKm;
  _inclinationDeg = inclinationDeg;
  _periodMin = periodMin;
  _lifespanYears = lifespanYears;
  _epoch = epoch;
  _meanMotion = meanMotion;
  _raan = raan;
  _argOfPericenter = argOfPericenter;
  _meanAnomaly = meanAnomaly;
  _id = id;
}