// method to match actual flight objects to planned flight lines
public void MatchPairs(ActualFlightProject actualFlightProject, PlannedFlightProject plannedFlightProject)
{
// New "PlannedFlightProject" object to use for comparison
PlannedFlightProject newPlannedFlight = new PlannedFlightProject();
KMLParser kmlParser = new KMLParser();
newPlannedFlight = kmlParser.ParseKMLFile();
// New "ActualFlightProject" object to use for comparison
ActualFlightProject newActualFlight = new ActualFlightProject();
RPPParser rppParser = new RPPParser();
newActualFlight = RPPParser.AddSwathsFromRPP();
var test = new GeoCoordinate();
var totalPlanned = newPlannedFlight.totalPlannedSwaths();
// try with matching start or finish lat or longs to each other with a <400m difference
foreach (var swath in newPlannedFlight.PlannedSwathList)
{
}
}
static void Main(string[] args)
{
KMLParser parser = new KMLParser();
PlannedFlightProject plannedFlightProject = parser.ParseKMLFile();
ActualFlightProject actualFlightProject = RPPParser.AddSwathsFromRPP();
foreach (var swath in actualFlightProject.ActualSwathList)
{
Console.WriteLine("Actual Order = " + swath.ActualOrder);
Console.WriteLine("Planned order = " + swath.PlannedOrder);
}
GeoCoordinate newGeo = new GeoCoordinate(89.4455, 123.4455);
GeoCoordinate newGeo1 = new GeoCoordinate(89.4454, 123.4454);
Console.WriteLine("Distance between 1 and 2: " + newGeo.GetDistanceTo(newGeo1));
Console.WriteLine("Total planned flights: " + plannedFlightProject.totalPlannedSwaths());
}
