public static bool TryParse(string recordString, out Ars ars) => NASRDataParserGeneric <Ars> .TryParse(recordString, 1529, "ARS", fieldList, out ars);
public static List <Airport> ParseFile(FileStream file) { var airports = new List <Airport>(); using (var streamReader = new StreamReader(file, true)) { string line; Airport airport = null; string siteNumber = null; while ((line = streamReader.ReadLine()) != null) { switch (line.Substring(0, 3)) { case "APT": { if (!Apt.TryParse(line, out Apt apt)) { throw new ApplicationException("Could not parse APT\n" + line); } if (!(airport is null)) { airports.Add(airport); } siteNumber = apt.SiteNumber; airport = new Airport { FAAComputerIdentifier = apt.SiteNumber, LandingFacilityType = apt.LandingFacilityType, LocationIdentifier = apt.LocationIdentifier, InformationEffectiveDate = apt.InformationEffectiveDate, FAAFieldOffice = apt.FAAFieldOffice, StatePostOfficeCode = apt.StatePostOfficeCode, StateName = apt.StateName, CountyName = apt.CountyName, CountyStatePostOfficeCode = apt.CountyStatePostOfficeCode, CityName = apt.CityName, FacilityName = apt.FacilityName, AirportOwnershipType = apt.AirportOwnershipType, FacilityUse = apt.FacilityUse, OwnersName = apt.OwnersName, OwnersAddress1 = apt.OwnersAddress1, OwnersAddress2 = apt.OwnersAddress2, OwnersPhone = apt.OwnersPhone, ManagersName = apt.ManagersName, ManagersAddress1 = apt.ManagersAddress1, ManagersAddress2 = apt.ManagersAddress2, ManagersPhone = apt.ManagersPhone, Latitude = apt.Latitude, Longitude = apt.Longitude, ReferencePointDeterminationMethod = apt.ReferencePointDeterminationMethod, Elevation = apt.Elevation, ElevationDeterminationMethod = apt.ElevationDeterminationMethod, MagneticVariation = apt.MagneticVariation, MagneticVariationEpochYear = apt.MagneticVariationEpochYear, TPA = apt.TPA, SectionalName = apt.SectionalName, DistanceFromCBDInNm = apt.DistanceFromCBDInNm, DirectionFromCBD = apt.DirectionFromCBD, BoundaryArtccIdentifier = apt.BoundaryArtccIdentifier, BoundaryArtccFaaComputerIdentifier = apt.BoundaryArtccFaaComputerIdentifier, BoundaryArtccName = apt.BoundaryArtccName, ResponsibleArtccIdentifier = apt.ResponsibleArtccIdentifier, ResponsibleArtccFaaComputerIdentifier = apt.ResponsibleArtccFaaComputerIdentifier, ResponsibleArtccName = apt.ResponsibleArtccName, TieInFssOnFacility = (bool)apt.TieInFssOnFacility, TieInFssIdentifier = apt.TieInFssIdentifier, TieInFssName = apt.TieInFssName, LocalFssPhoneNumber = apt.LocalFssPhoneNumber, TollFreeFssPhoneNumber = apt.TollFreeFssPhoneNumber, AlternateFssIdentifier = apt.AlternateFssIdentifier, AlternateFssName = apt.AlternateFssName, TollFreeAlternateFssNumber = apt.TollFreeAlternateFssNumber, NotamAndWeatherFacilityIdentifier = apt.NotamAndWeatherFacilityIdentifier, NotamDAvailableAtAirport = (bool)apt.NotamDAvailableAtAirport }; break; } case "ATT": { if (!Att.TryParse(line, out Att att)) { throw new ApplicationException("Could not parse ATT\n" + line); } if (att.SiteNumber != siteNumber) { throw new ApplicationException("Mismatch in APT and ATT\n" + line); } break; } case "RWY": { if (!Rwy.TryParse(line, out Rwy rwy)) { if (Rwy.instrumentRunwayBogusEntry.IsMatch(rwy.RwyIdentification)) { // These are entries that seem to be used for instrument approaches to runways. // Don't know how to handle these, so won't be handling for now. continue; } else { throw new ApplicationException("Could not parse RWY\n" + line); } } if (rwy.SiteNumber != siteNumber) { throw new ApplicationException("Mismatch in APT and RWY\n" + line); } foreach (ILandingStructure landingStructure in airport.LandingStructures) { if (landingStructure.Identification == rwy.RwyIdentification) { throw new ApplicationException("Duplicate RWY entry\n" + line); } } if (Rwy.helipadRegex.IsMatch(rwy.RwyIdentification)) { airport.LandingStructures.Add(item: new Helipad { Identification = rwy.RwyIdentification, Latitude = rwy.BaseEndLatitude, Longitude = rwy.BaseEndLongitude, Elevation = rwy.BaseEndElevation, SurfaceType = rwy.RunwaySurface.surfaceTypes, SurfaceCondition = rwy.RunwaySurface.surfaceCondition }); } else if (Rwy.balloonportRegex.IsMatch(rwy.RwyIdentification)) { airport.LandingStructures.Add(item: new BalloonPort { Identification = rwy.RwyIdentification, LengthInFeet = rwy.LengthInFeet, WidthInFeet = rwy.WidthInFeet, Latitude = rwy.BaseEndLatitude, Longitude = rwy.BaseEndLongitude, Elevation = rwy.BaseEndElevation, SurfaceType = rwy.RunwaySurface.surfaceTypes, SurfaceCondition = rwy.RunwaySurface.surfaceCondition }); } else if (Rwy.runwayRegex.IsMatch(rwy.RwyIdentification)) { airport.LandingStructures.Add(item: new Runway { Identification = rwy.RwyIdentification, LengthInFeet = rwy.LengthInFeet, WidthInFeet = rwy.WidthInFeet, SurfaceType = rwy.RunwaySurface.surfaceTypes, SurfaceCondition = rwy.RunwaySurface.surfaceCondition, BaseEndIdentifier = rwy.BaseEndIdentifier, BaseEndTrueAlignment = rwy.BaseEndTrueAlignment, BaseEndRightTraffic = (bool)rwy.BaseEndRightTraffic, BaseEndLatitude = rwy.BaseEndLatitude, BaseEndLongitude = rwy.BaseEndLongitude, BaseEndElevation = rwy.BaseEndElevation, BaseEndDisplacedThresholdLatitude = rwy.BaseEndDisplacedThresholdLatitude, BaseEndDisplacedThresholdLongitude = rwy.BaseEndDisplacedThresholdLongitude, BaseEndDisplacedThresholdElevation = rwy.BaseEndDisplacedThresholdElevation, BaseEndTouchdownZoneElevation = rwy.BaseEndTouchdownZoneElevation, ReciprocalEndIdentifier = rwy.ReciprocalEndIdentifier, ReciprocalEndTrueAlignment = rwy.ReciprocalEndTrueAlignment, ReciprocalEndRightTraffic = (bool)rwy.ReciprocalEndRightTraffic, ReciprocalEndLatitude = rwy.ReciprocalEndLatitude, ReciprocalEndLongitude = rwy.ReciprocalEndLongitude, ReciprocalEndElevation = rwy.ReciprocalEndElevation, ReciprocalEndDisplacedThresholdLatitude = rwy.ReciprocalEndDisplacedThresholdLatitude, ReciprocalEndDisplacedThresholdLongitude = rwy.ReciprocalEndDisplacedThresholdLongitude, ReciprocalEndDisplacedThresholdElevation = rwy.ReciprocalEndDisplacedThresholdElevation, ReciprocalEndTouchdownZoneElevation = rwy.ReciprocalEndTouchdownZoneElevation }); } else { throw new ApplicationException("Something went wrong with RWY regexes\n" + line); } break; } case "ARS": { if (!Ars.TryParse(line, out Ars ars)) { throw new ApplicationException("Could not parse ARS\n" + line); } if (ars.SiteNumber != siteNumber) { throw new ApplicationException("Mismatch in APT and ARS\n" + line); } bool found = false; foreach (Runway rwy in airport.LandingStructures) { if (rwy.Identification == ars.RwyIdentification) { if (rwy.BaseEndIdentifier == ars.RwyEndIdentifier || rwy.ReciprocalEndIdentifier == ars.RwyEndIdentifier) { found = true; } else { throw new ApplicationException("Could not locate runway end identifier\n" + line); } break; } } if (!found) { throw new ApplicationException("Could not find runway for ARS\n" + line); } break; } case "RMK": { if (!Rmk.TryParse(line, out Rmk rmk)) { throw new ApplicationException("Could not parse RMK\n" + line); } if (rmk.SiteNumber != siteNumber) { throw new ApplicationException("Mismatch in APT and RMK\n" + line); } break; } default: throw new ApplicationException("Funny line\n" + line); // continue; } } } return(airports); }