# A3XX FMGC Flightplan Driver
# Copyright (c) 2020 Josh Davidson (Octal450) and Jonathan Redpath (legoboyvdlp)

var wpDep = nil;
var wpArr = nil;
var pos = nil;
var geoPosPrev = geo.Coord.new();
var currentLegCourseDist = nil;
var courseDistanceFrom = nil;
var courseDistanceFromPrev = nil;
var sizeWP = nil;
var magTrueError = 0;

var DEBUG_DISCONT = 1;

# Props.getNode
var magHDG = props.globals.getNode("/orientation/heading-magnetic-deg", 1);
var trueHDG = props.globals.getNode("/orientation/heading-deg", 1);
var FMGCdep = props.globals.getNode("/FMGC/internal/dep-arpt", 1);
var FMGCarr = props.globals.getNode("/FMGC/internal/arr-arpt", 1);
var toFromSet = props.globals.getNode("/FMGC/internal/tofrom-set", 1);

# Props.initNode
var wpID = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/id", "", "STRING")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/id", "", "STRING")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/id", "", "STRING")]];
var wpLat = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/lat", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/lat", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/lat", 0, "DOUBLE")]];
var wpLon = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/lon", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/lon", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/lon", 0, "DOUBLE")]];
var wpCourse = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/course", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/course", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/course", 0, "DOUBLE")]];
var wpDistance = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/distance", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/distance", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/distance", 0, "DOUBLE")]];
var wpCoursePrev = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/course-from-prev", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/course-from-prev", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/course-from-prev", 0, "DOUBLE")]];
var wpDistancePrev = [[props.globals.initNode("/FMGC/flightplan[0]/wp[0]/distance-from-prev", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[1]/wp[0]/distance-from-prev", 0, "DOUBLE")], [props.globals.initNode("/FMGC/flightplan[2]/wp[0]/distance-from-prev", 0, "DOUBLE")]];

var flightPlanController = {
	flightplans: [createFlightplan(), createFlightplan(), createFlightplan(), nil],
	temporaryFlag: [0, 0],
	
	# These flags are only for the main flgiht-plan
	active: props.globals.initNode("/FMGC/flightplan[2]/active", 0, "BOOL"),
	
	currentToWpt: nil, # container for the current TO waypoint ghost
	currentToWptIndex: props.globals.initNode("/FMGC/flightplan[2]/current-wp", 0, "INT"),
	currentToWptIndexTemp: 0,
	currentToWptID: props.globals.initNode("/FMGC/flightplan[2]/current-leg", "", "STRING"),
	courseToWpt: props.globals.initNode("/FMGC/flightplan[2]/current-leg-course", 0, "DOUBLE"),
	courseMagToWpt: props.globals.initNode("/FMGC/flightplan[2]/current-leg-course-mag", 0, "DOUBLE"),
	distToWpt: props.globals.initNode("/FMGC/flightplan[2]/current-leg-dist", 0, "DOUBLE"),
	wptType: nil,
	wptTypeNoAdvanceDelete: 0,
	
	distanceToDest: [0, 0, 0],
	num: [props.globals.initNode("/FMGC/flightplan[0]/num", 0, "INT"), props.globals.initNode("/FMGC/flightplan[1]/num", 0, "INT"), props.globals.initNode("/FMGC/flightplan[2]/num", 0, "INT")],
	arrivalIndex: [0, 0, 0],
	arrivalDist: 0,
	_arrivalDist: 0,
	fromWptTime: nil,
	fromWptAlt: nil,
	_timeTemp: nil,
	_altTemp: nil,
	
	reset: func() {
		me.temporaryFlag[0] = 0;
		me.temporaryFlag[1] = 0;
		me.resetFlightplan(0);
		me.resetFlightplan(1);
		me.resetFlightplan(2);
	},
	
	resetFlightplan: func(n) {
		me.flightplans[n].cleanPlan();
		me.flightplans[n].departure = nil;
		me.flightplans[n].destination = nil;
	},
	
	createTemporaryFlightPlan: func(n) {
		me.resetFlightplan(n);
		me.flightplans[n] = me.flightplans[2].clone();
		me.temporaryFlag[n] = 1;
		if (canvas_mcdu.myDirTo[n] != nil) {
			canvas_mcdu.myDirTo[n].updateTmpy();
		}
		if (canvas_mcdu.myHold[n] != nil) {
			canvas_mcdu.myHold[n].updateTmpy();
		}
		if (canvas_mcdu.myAirways[n] != nil) {
			canvas_mcdu.myAirways[n].updateTmpy();
		}
		me.flightPlanChanged(n);
	},
	
	loadFlightPlan: func(path) {
		call(func {me.flightplans[3] = createFlightplan(path);}, nil, var err = []);	
		if (size(err) or me.flightplans[3] == nil) {
			print(err[0]);
			print("Load failed.");
		}
		# try to fix fgfp
		me.flightplans[3].destination = airportinfo(getprop("FMGC/internal/arr-arpt"));
		me.destroyTemporaryFlightPlan(3, 1);
	},
	
	destroyTemporaryFlightPlan: func(n, a) { # a = 1 activate, a = 0 erase
		if (a == 1) {
			flightPlanTimer.stop();
			me.resetFlightplan(2);
			me.flightplans[2] = me.flightplans[n].clone();
			me.flightPlanChanged(2);
			flightPlanTimer.start();
		}
		if (n == 3) { return; }
		me.resetFlightplan(n);
		me.temporaryFlag[n] = 0;
		if (canvas_mcdu.myDirTo[n] != nil) {
			canvas_mcdu.myDirTo[n].updateTmpy();
		}
	},
	
	updateAirports: func(dep, arr, plan) {
		me.resetFlightplan(plan);
		me.flightplans[plan].departure = airportinfo(dep);
		me.flightplans[plan].destination = airportinfo(arr);
		if (plan == 2) {
			me.destroyTemporaryFlightPlan(0, 0);
			me.destroyTemporaryFlightPlan(1, 0);
			me.currentToWptIndex.setValue(0);
		}
		
		me.addDiscontinuity(1, plan);
		# reset mcdu if it exists
		if (canvas_mcdu.myArrival[0] != nil) { canvas_mcdu.myArrival[0].reset(); }
		if (canvas_mcdu.myArrival[1] != nil) { canvas_mcdu.myArrival[1].reset(); }
		if (canvas_mcdu.myDeparture[0] != nil) { canvas_mcdu.myDeparture[0].reset(); }
		if (canvas_mcdu.myDeparture[1] != nil) { canvas_mcdu.myDeparture[1].reset(); }
		#todo if plan = 2, kill any tmpy flightplan
		me.flightPlanChanged(plan);
	},
	
	autoSequencing: func() {
		me._timeTemp = math.round(getprop("/sim/time/utc/minute") + (getprop("/sim/time/utc/second") / 60));
		if (me._timeTemp < 10) {
			me._timeTemp = "0" ~ me._timeTemp;
		}
		me.fromWptTime = getprop("/sim/time/utc/hour") ~ me._timeTemp;
		me._altTemp = getprop("/systems/navigation/adr/output/baro-alt-corrected-1-capt");
		
		if (me._altTemp > getprop("FMGC/internal/trans-alt")) {
			me.fromWptAlt = "FL" ~ math.round(me._altTemp / 100);
		} else {
			if (me._altTemp > 0) {
				me.fromWptAlt = math.round(me._altTemp);
			} else {
				me.fromWptAlt = "M" ~ math.round(me._altTemp);
			}
		}
		
		# todo setlistener on sim/time/warp to recompute predictions
		
		# Advancing logic
		me.currentToWptIndexTemp = me.currentToWptIndex.getValue();
		if (me.currentToWptIndexTemp < 1) {
			me.currentToWptIndex.setValue(1);
		} else if (me.num[2].getValue() > 2) {
			if (me.currentToWptIndexTemp == 2) { # Clean up after a no-sequence waypoint
				me.currentToWptIndex.setValue(1); # MUST be set first
				# TODO: Add support for deleting multiple waypoints at once, this will do for now
				if (me.temporaryFlag[0] == 1 and wpID[0][0] == wpID[2][0]) {
					me.deleteWP(0, 0);
				}
				if (me.temporaryFlag[1] == 1 and wpID[1][0] == wpID[2][0]) {
					me.deleteWP(0, 1);
				}
				me.deleteWP(0, 2, 0, 1);
				if (me.temporaryFlag[0] == 1 and wpID[0][0] == wpID[2][0]) {
					me.deleteWP(0, 0);
				}
				if (me.temporaryFlag[1] == 1 and wpID[1][0] == wpID[2][0]) {
					me.deleteWP(0, 1);
				}
				me.deleteWP(0, 2, 0, 1);
			} else {
				me.wptType = me.flightplans[2].getWP(me.currentToWptIndexTemp).wp_type;
				me.wptTypeNoAdvanceDelete = me.wptType == "radialIntercept" or me.wptType == "vectors" or me.wptType == "hdgToAlt";
				if (me.wptTypeNoAdvanceDelete) {
					me.currentToWptIndex.setValue(2);
				} else {
					if (me.temporaryFlag[0] == 1 and wpID[0][0] == wpID[2][0]) {
						me.deleteWP(0, 0);
					}
					if (me.temporaryFlag[1] == 1 and wpID[1][0] == wpID[2][0]) {
						me.deleteWP(0, 1);
					}
					me.deleteWP(0, 2, 0, 1);
				}
			}
		}
	},
	
	# for these two remember to call flightPlanChanged. We are assuming this is called from a function which will all flightPlanChanged itself.
	
	addDiscontinuity: func(index, plan) {
		if (DEBUG_DISCONT) { return; }
		if (index > 0) {
			if (me.flightplans[plan].getWP(index).wp_name != "DISCONTINUITY" and me.flightplans[plan].getWP(index - 1).wp_name != "DISCONTINUITY") {
				me.flightplans[plan].insertWP(createDiscontinuity(), index);
			}
		} else {
			if (me.flightplans[plan].getWP(index).wp_name != "DISCONTINUITY") {
				me.flightplans[plan].insertWP(createDiscontinuity(), index);
			}
		}
	},
	
	# insertTP - insert PPOS waypoint denoted "T-P" at specified index
	# args: n, index
	#    n: flightplan to which the PPOS waypoint will be inserted
	#    index: optional argument, defaults to 1, index which the waypoint will be at. 
	# Default to one, as direct to will insert TP, then create leg to DIRTO waypoint, then delete waypoint[0]
	
	insertTP: func(n, index = 1) {
		me.flightplans[n].insertWP(createWP(geo.aircraft_position(), "T-P"), index);
	},
	
	# childWPBearingDistance - return waypoint at bearing and distance from specified waypoint ghost
	# args: wpt, bearing, dist, name, typeStr
	#    wpt: waypoint ghost
	#    bearing: bearing of waypoint to be created from specified waypoint
	#    distance: distance of waypoint to be created from specified waypoint, nautical miles
	#    name: name of waypoint to be created
	#    typeStr: optional argument to be passed to createWP, must be one of "sid", "star" "approach" "missed" or "pseudo"
	
	childWPBearingDistance: func(wpt, bearing, dist, name, typeStr = "") {
		var coordinates = greatCircleMove(wpt.lat, wpt.lon, bearing, dist);
		if (typeStr != "") {
			return createWP(coordinates, name);
		} else {
			return createWP(coordinates, name, typeStr);
		}
	},
	
	# insertNOSID - create default SID and add to flightplan
	# args: n: plan on which the SID will be created
	# The default SID is a leg from departure runway to a point 2.5 miles on the runway extended centreline
	# if NO SID has already been inserted, we will not insert another one.
	
	insertNOSID: func(n) {
		var wptStore = me.flightplans[n].getWP(0);
		if (wptStore.wp_type == "runway") {
			if (me.flightplans[n].getWP(1).id == "1500") { # check if we have NO SID already loaded
				me.deleteWP(1, n, 1);
			}
			
			# fudge the altitude since we cannot create a hdgtoAlt from nasal. Assume 600 feet per mile - 2.5 miles 
			me.flightplans[n].insertWP(me.childWPBearingDistance(wptStore, me.flightplans[n].departure_runway.heading, 2.5, "1500", "sid"), 1);
		}
		me.flightPlanChanged(n);
	},
	
	# insertNOSTAR - create default STAR and add to flightplan
	# args: n: plan on which the STAR will be created
	# The default STAR is a leg from departure runway to a point 5 miles on the runway extended centreline
	# if NO STAR has already been inserted, we will not insert another one.
	
	insertNOSTAR: func(n) {
		var wptStore = me.flightplans[n].getWP(me.arrivalIndex[n]);
		if (wptStore.wp_type == "runway") {
			if (me.flightplans[n].getWP(me.arrivalIndex[n] - 1).id == "CF") { # check if we have NO STAR already loaded
				me.deleteWP(me.arrivalIndex[n] - 1, n, 1);
			}
			var hdg = me.flightplans[n].destination_runway.heading + 180;
			if (hdg > 360) {
				hdg = hdg - 360;
			}
			me.flightplans[n].insertWP(me.childWPBearingDistance(wptStore, hdg, 5, "CF", "star"), me.arrivalIndex[n]);
		}
		me.flightPlanChanged(n);
	},
	
	# directTo - create leg direct from present position to a specified waypoint
	# args: waypointGhost, plan
	#    waypointGost: waypoint ghost of the waypoint
	#    plan: plan on which the direct to leg will be created
	# We first insert a PPOS waypoint at index 1
	# We check if the flightplan already contains the waypoint passed to the function
	# If it exists, we delete intermediate waypoints
	# If it does not, we insert the waypoint at index 2 and add a discontinuity at index 3
	# In either case, we delete the current FROM waypoint, index 0, and call flightPlanChanged to recalculate
	# We attempt to get the distance from the aircraft current position to the chosen waypoint and update mcdu with it
	
	directTo: func(waypointGhost, plan) {
		if (me.flightplans[plan].indexOfWP(waypointGhost) == -1) {
			me.insertTP(plan, 1);
			me.flightplans[plan].insertWP(createWPFrom(waypointGhost), 2);
			me.addDiscontinuity(3, plan);
		} else {
			# we want to delete the intermediate waypoints up to but not including the waypoint. Leave index 0, we delete it later. 
			# example - waypoint dirto is index 5, we want to delete indexes 1 -> 4. 5 - 1 = 4.
			# so four individual deletions. Delete index 1 four times. 
			# Add one extra for the TP, so while > 2
			
			var timesToDelete = me.flightplans[plan].indexOfWP(waypointGhost);
			while (timesToDelete > 1) {
				me.deleteWP(1, plan, 1);
				timesToDelete -= 1; 
			}
			# Add TP afterwards, this is essential
			me.insertTP(plan, 1);
		}
		me.deleteWP(0, plan);
		me.flightPlanChanged(plan);
		var curAircraftPosDirTo = geo.aircraft_position();
		canvas_mcdu.myDirTo[plan].updateDist(me.flightplans[plan].getWP(1).courseAndDistanceFrom(curAircraftPosDirTo)[1]);
	},
	
	deleteWP: func(index, n, a = 0, s = 0) { # a = 1, means adding a waypoint via deleting intermediate. s = 1, means autosequencing
		var wp = wpID[n][index].getValue();
		if (((s == 0 and left(wp, 4) != FMGCdep.getValue() and left(wp, 4) != FMGCarr.getValue()) or (s == 1)) and me.flightplans[n].getPlanSize() > 2) {
			if (me.flightplans[n].getWP(index).id != "DISCONTINUITY" and a == 0) { # if it is a discont, don't make a new one
				me.flightplans[n].deleteWP(index);
				if (me.flightplans[n].getWP(index) != nil and s == 0) {
					if (me.flightplans[n].getWP(index).id != "DISCONTINUITY") { # else, if the next one isn't a discont, add one
						me.addDiscontinuity(index, n);
					}
				}
			} else {
				me.flightplans[n].deleteWP(index);
			}
			me.flightPlanChanged(n);
			canvas_nd.A3XXRouteDriver.triggerSignal("fp-removed");
			return 2;
		} else {
			return 1;
		}
	},
	
	insertAirport: func(text, index, plan, override = 0, overrideIndex = -1) {
		if (index == 0) {
			return 1;
		}
		
		var airport = findAirportsByICAO(text);
		if (size(airport) == 0) {
			return 0;
		}
		
		if (size(airport) == 1 or override) {
			if (!override) {
				if (me.flightplans[plan].indexOfWP(airport[0]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(airport[0]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(airport[0]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			} else {
				if (me.flightplans[plan].indexOfWP(airport[overrideIndex]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(airport[overrideIndex]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(airport[overrideIndex]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			}
		} elsif (size(airport) >= 1) {
			if (canvas_mcdu.myDuplicate[plan] != nil) {
				canvas_mcdu.myDuplicate[plan].del();
			}
			canvas_mcdu.myDuplicate[plan] = nil;
			canvas_mcdu.myDuplicate[plan] = mcdu.duplicateNamesPage.new(airport, index, 0, plan);
			setprop("MCDU[" ~ plan ~ "]/page", "DUPLICATENAMES");
			return 2;
		}
	},
	
	insertFix: func(text, index, plan, override = 0, overrideIndex = -1) { # override - means always choose [0]
		if (index == 0) {
			return 1;
		}
		
		var fix = findFixesByID(text);
		if (size(fix) == 0) {
			return 0;
		}
		
		if (size(fix) == 1 or override) {
			if (!override) {
				if (me.flightplans[plan].indexOfWP(fix[0]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(fix[0]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(fix[0]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			} else {
				if (me.flightplans[plan].indexOfWP(fix[overrideIndex]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(fix[overrideIndex]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(fix[overrideIndex]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			}
		} elsif (size(fix) >= 1) {
			if (canvas_mcdu.myDuplicate[plan] != nil) {
				canvas_mcdu.myDuplicate[plan].del();
			}
			canvas_mcdu.myDuplicate[plan] = nil;
			canvas_mcdu.myDuplicate[plan] = mcdu.duplicateNamesPage.new(fix, index, 0, plan);
			setprop("MCDU[" ~ plan ~ "]/page", "DUPLICATENAMES");
			return 2;
		}
	},
	
	insertLatLonFix: func(text, index, plan) {
		if (index == 0) {
			return 1;
		}
		
		var lat = split("/", text)[0];
		var lon = split("/", text)[1];
		var latDecimal = mcdu.stringToDegrees(lat, "lat");
		var lonDecimal = mcdu.stringToDegrees(lon, "lon");
		
		if (latDecimal > 90 or latDecimal < -90 or lonDecimal > 180 or lonDecimal < -180) {
			return 1;
		}
		
		var myWpLatLon = createWP(latDecimal, lonDecimal, "LL" ~ index);
		if (me.flightplans[plan].indexOfWP(myWpLatLon) == -1) {
			me.flightplans[plan].insertWP(myWpLatLon, index);
			me.addDiscontinuity(index + 1, plan);
			me.flightPlanChanged(plan);
			return 2;
		} else {
			var numToDel = me.flightplans[plan].indexOfWP(myWpLatLon) - index;
			while (numToDel > 0) {
				me.deleteWP(index, plan, 1);
				numToDel -= 1;
			}
			return 2;
		}
	},
	
	insertNavaid: func(text, index, plan, override = 0, overrideIndex = -1) {
		if (index == 0) {
			return 1;
		}
		
		var navaid = findNavaidsByID(text);
		if (size(navaid) == 0) {
			return 0;
		}
		
		if (size(navaid) == 1 or override) {
			if (!override) {
				if (me.flightplans[plan].indexOfWP(navaid[0]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(navaid[0]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(navaid[0]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			} else {
				if (me.flightplans[plan].indexOfWP(navaid[overrideIndex]) == -1) {
					me.flightplans[plan].insertWP(createWPFrom(navaid[overrideIndex]), index);
					me.addDiscontinuity(index + 1, plan);
					me.flightPlanChanged(plan);
					return 2;
				} else {
					var numToDel = me.flightplans[plan].indexOfWP(navaid[overrideIndex]) - index;
					while (numToDel > 0) {
						me.deleteWP(index, plan, 1);
						numToDel -= 1;
					}
					return 2;
				}
			}
		} elsif (size(navaid) >= 1) {
			if (canvas_mcdu.myDuplicate[plan] != nil) {
				canvas_mcdu.myDuplicate[plan].del();
			}
			canvas_mcdu.myDuplicate[plan] = nil;
			canvas_mcdu.myDuplicate[plan] = mcdu.duplicateNamesPage.new(navaid, index, 1, plan);
			setprop("MCDU[" ~ plan ~ "]/page", "DUPLICATENAMES");
			return 2;
		}
	},
	
	scratchpad: func(text, index, plan) { # return 0 not in database, 1 not allowed, 2 success, 3 = not allowed due to dir to
		if (mcdu.dirToFlag) {
			return 3;
		}
		
		if (!fmgc.flightPlanController.temporaryFlag[plan]) {
			if (text == "CLR" and me.flightplans[2].getWP(index).wp_name == "DISCONTINUITY") {
				var thePlan = 2;
			} else {
				fmgc.flightPlanController.createTemporaryFlightPlan(plan);
				var thePlan = plan;
			}
		} else {
			var thePlan = plan;
		}
		
		if (text == "CLR") {
			return me.deleteWP(index, thePlan, 0);
		} elsif (size(text) > 12) {
			return me.insertLatLonFix(text, index, thePlan);
		} elsif (size(text) == 5) {
			return me.insertFix(text, index, thePlan);
		} elsif (size(text) == 4) {
			return me.insertAirport(text, index, thePlan);
		} elsif (size(text) == 3 or size(text) == 2) {
			return me.insertNavaid(text, index, thePlan);
		} else {
			return 1;
		}
	},
	
	flightPlanChanged: func(n) {
		sizeWP = size(wpID[n]);
		for (var counter = sizeWP; counter < me.flightplans[n].getPlanSize(); counter += 1) { # create new properties if they are required
			append(wpID[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/text", "", "STRING"));
			append(wpLat[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/lat", 0, "DOUBLE"));
			append(wpLon[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/lon", 0, "DOUBLE"));
			append(wpCourse[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/course", 0, "DOUBLE"));
			append(wpDistance[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/distance", 0, "DOUBLE"));
			append(wpCoursePrev[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/course-from-prev", 0, "DOUBLE"));
			append(wpDistancePrev[n], props.globals.initNode("/FMGC/flightplan[" ~ n ~ "]/wp[" ~ counter ~ "]/distance-from-prev", 0, "DOUBLE"));
		}
		me.updatePlans();
		canvas_nd.A3XXRouteDriver.triggerSignal("fp-added");
	},
	
	updatePlans: func() {
		me.updateCurrentWaypoint();
		me._arrivalDist = 0;
		for (var n = 0; n <= 2; n += 1) {
			for (var wpt = 0; wpt < me.flightplans[n].getPlanSize(); wpt += 1) { # Iterate through the waypoints and update their data
				var curAircraftPos = geo.aircraft_position(); # don't want to get this corrupted so make sure it is a local variable
				var waypointHashStore = me.flightplans[n].getWP(wpt);
				
				courseDistanceFrom = waypointHashStore.courseAndDistanceFrom(curAircraftPos);
				wpID[n][wpt].setValue(waypointHashStore.wp_name);
				wpLat[n][wpt].setValue(waypointHashStore.wp_lat);
				wpLon[n][wpt].setValue(waypointHashStore.wp_lon);
				
				wpCourse[n][wpt].setValue(waypointHashStore.courseAndDistanceFrom(curAircraftPos)[0]);
				wpDistance[n][wpt].setValue(waypointHashStore.courseAndDistanceFrom(curAircraftPos)[1]);
				
				if (wpt == 1) {
					if (me.flightplans[n].getWP(wpt).wp_name != "DISCONTINUITY" and me.flightplans[n].getWP(wpt).wp_type != "vectors" and me.flightplans[n].getWP(wpt).wp_type != "hdgToAlt" and wpt <= me.arrivalIndex[n]) {
						# print("Adding " ~ courseDistanceFrom[1] ~ " miles for waypoint " ~ me.flightplans[n].getWP(wpt).wp_name);
						me._arrivalDist += courseDistanceFrom[1]; # distance to next waypoint, therafter to end of flightplan
					}
				}
				
				if (left(wpID[n][wpt].getValue(), 4) == FMGCarr.getValue() and wpt != 0) {
					if (me.arrivalIndex[n] != wpt) {
						me.arrivalIndex[n] = wpt;
					}
				}
				
				if (wpt > 0) {
					geoPosPrev.set_latlon(me.flightplans[n].getWP(wpt - 1).lat, me.flightplans[n].getWP(wpt - 1).lon);
					
					courseDistanceFromPrev = waypointHashStore.courseAndDistanceFrom(geoPosPrev);
					wpCoursePrev[n][wpt].setValue(courseDistanceFromPrev[0]);
					wpDistancePrev[n][wpt].setValue(courseDistanceFromPrev[1]);
					if (wpt > 1) {
						if (me.flightplans[n].getWP(wpt - 1).wp_name != "DISCONTINUITY" and me.flightplans[n].getWP(wpt).wp_name != "DISCONTINUITY" and me.flightplans[n].getWP(wpt - 1).wp_type != "vectors" and me.flightplans[n].getWP(wpt - 1).wp_type != "hdgToAlt" and me.flightplans[n].getWP(wpt).wp_type != "vectors" and me.flightplans[n].getWP(wpt).wp_type != "hdgToAlt" and wpt <= me.arrivalIndex[n]) {
							# print("Adding " ~ courseDistanceFromPrev[1] ~ " miles for waypoint " ~ me.flightplans[n].getWP(wpt).wp_name);
							me._arrivalDist += courseDistanceFromPrev[1]; 
						}
					}
				} else {
					# use PPOS for the first waypoint
					wpCoursePrev[n][wpt].setValue(courseDistanceFrom[0]);
					wpDistancePrev[n][wpt].setValue(courseDistanceFrom[1]);
				}
				
				if (left(wpID[n][wpt].getValue(), 4) == FMGCarr.getValue() and wpt != 0) {
					if (me.arrivalIndex[n] != wpt) { # don't merge line 397 and 398 if statements
						if (canvas_mcdu.myFpln[0] != nil) {
							canvas_mcdu.myFpln[0].destInfo();
						}
						if (canvas_mcdu.myFpln[1] != nil) {
							canvas_mcdu.myFpln[1].destInfo();
						}
					}
				}
			}
		}
		# print("Total: " ~ me._arrivalDist);
		me.arrivalDist = me._arrivalDist;
		me.updateMCDUDriver(n);
	},
	
	updateCurrentWaypoint: func() {
		for (var india = 0; india <= 2; india += 1) {
			if (toFromSet.getBoolValue() and me.flightplans[india].departure != nil and me.flightplans[india].destination != nil) { # check if flightplan exists
				var curAircraftPos = geo.aircraft_position(); # don't want to get this corrupted so make sure it is a local variable
	
				if (india == 2) { # main plan
					if (!me.active.getBoolValue()) {
						me.active.setValue(1);
					}
					
					if (me.currentToWptIndex.getValue() > me.flightplans[india].getPlanSize()) {
						me.currentToWptIndex.setValue(me.flightplans[india].getPlanSize());
					}
					
					me.currentToWpt = me.flightplans[india].getWP(me.currentToWptIndex.getValue());
					
					if (me.currentToWptID.getValue() != me.currentToWpt.wp_name) {
						me.currentToWptID.setValue(me.currentToWpt.wp_name);
					}
					me.courseToWpt.setValue(me.currentToWpt.courseAndDistanceFrom(curAircraftPos)[0]);
					me.distToWpt.setValue(me.currentToWpt.courseAndDistanceFrom(curAircraftPos)[1]);
					
					magTrueError = magHDG.getValue() - trueHDG.getValue();
					me.courseMagToWpt.setValue(me.courseToWpt.getValue() + magTrueError);
					
				}
				
				if (me.num[india].getValue() != me.flightplans[india].getPlanSize()) {
					me.num[india].setValue(me.flightplans[india].getPlanSize());
				}
			} else {
				if (india == 2) {
					if (me.active.getBoolValue()) {
						me.active.setValue(0);
					}
					if (me.currentToWptID.getValue() != "") {
						me.currentToWptID.setValue("");
					}
				}
				
				if (me.num[india].getValue() != 0) {
					me.num[india].setValue(0);
				}
			}
		}
	},
	
	updateMCDUDriver: func() {
		for (var i = 0; i <= 1; i += 1) {
			if (canvas_mcdu.myFpln[i] != nil) {
				canvas_mcdu.myFpln[i].updatePlan();
			}
			if (canvas_mcdu.myDirTo[i] != nil) {
				canvas_mcdu.myDirTo[i].updateFromFpln();
			}
		}
	},
};

var flightPlanTimer = maketimer(0.1, flightPlanController, flightPlanController.updatePlans);