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oprf_assets/Frigate/Nasal/radar-logic.nas
l0k1 c080beaf57 init
2016-12-22 00:31:49 -08:00

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var clamp = func(v, min, max) { v < min ? min : v > max ? max : v }
var encode3bits = func(first, second, third) {
var integer = first;
integer = integer + 2 * second;
integer = integer + 4 * third;
return integer;
}
var AIR = 0;
var MARINE = 1;
var SURFACE = 2;
var ORDNANCE = 3;
var Contact = {
# For now only used in guided missiles, to make it compatible with Mirage 2000-5.
new: func(c, class) {
var obj = { parents : [Contact]};
#debug.benchmark("radar process1", func {
obj.rdrProp = c.getNode("radar");
obj.oriProp = c.getNode("orientation");
obj.velProp = c.getNode("velocities");
obj.posProp = c.getNode("position");
obj.heading = obj.oriProp.getNode("true-heading-deg");
#});
#debug.benchmark("radar process2", func {
obj.alt = obj.posProp.getNode("altitude-ft");
obj.lat = obj.posProp.getNode("latitude-deg");
obj.lon = obj.posProp.getNode("longitude-deg");
#});
#debug.benchmark("radar process3", func {
#As it is a geo.Coord object, we have to update lat/lon/alt ->and alt is in meters
obj.coord = geo.Coord.new();
obj.coord.set_latlon(obj.lat.getValue(), obj.lon.getValue(), obj.alt.getValue() * FT2M);
#});
#debug.benchmark("radar process4", func {
obj.pitch = obj.oriProp.getNode("pitch-deg");
obj.speed = obj.velProp.getNode("true-airspeed-kt");
obj.vSpeed = obj.velProp.getNode("vertical-speed-fps");
obj.callsign = c.getNode("callsign", 1);
obj.shorter = c.getNode("model-shorter");
obj.orig_callsign = obj.callsign.getValue();
obj.name = c.getNode("name");
obj.sign = c.getNode("sign",1);
obj.valid = c.getNode("valid");
obj.painted = c.getNode("painted");
obj.unique = c.getNode("unique");
obj.validTree = 0;
#});
#debug.benchmark("radar process5", func {
#obj.transponderID = c.getNode("instrumentation/transponder/transmitted-id");
#});
#debug.benchmark("radar process6", func {
obj.acType = c.getNode("sim/model/ac-type");
obj.type = c.getName();
obj.index = c.getIndex();
obj.string = "ai/models/" ~ obj.type ~ "[" ~ obj.index ~ "]";
obj.shortString = obj.type ~ "[" ~ obj.index ~ "]";
#});
#debug.benchmark("radar process7", func {
obj.range = obj.rdrProp.getNode("range-nm");
obj.bearing = obj.rdrProp.getNode("bearing-deg");
obj.elevation = obj.rdrProp.getNode("elevation-deg");
#});
obj.deviation = nil;
obj.node = c;
obj.class = class;
obj.polar = [0,0];
obj.cartesian = [0,0];
return obj;
},
isValid: func () {
var valid = me.valid.getValue();
if (valid == nil) {
valid = FALSE;
}
if (me.callsign.getValue() != me.orig_callsign) {
valid = FALSE;
}
return valid;
},
isPainted: func () {
if (me.painted == nil) {
me.painted = me.node.getNode("painted");
}
if (me.painted == nil) {
return nil;
}
var p = me.painted.getValue();
return p;
},
getUnique: func () {
if (me.unique == nil) {
me.unique = me.node.getNode("unique");
}
if (me.unique == nil) {
return nil;
}
var u = me.unique.getValue();
return u;
},
getElevation: func() {
var e = 0;
e = me.elevation.getValue();
if(e == nil or e == 0) {
# AI/MP has no radar properties
var self = geo.aircraft_position();
me.get_Coord();
var angleInv = clamp(self.distance_to(me.coord)/self.direct_distance_to(me.coord), -1, 1);
e = (self.alt()>me.coord.alt()?-1:1)*math.acos(angleInv)*R2D;
}
return e;
},
getNode: func () {
return me.node;
},
getFlareNode: func () {
return me.node.getNode("sim/multiplay/generic/string[10]");
},
setPolar: func(dist, angle) {
me.polar = [dist,angle];
},
setCartesian: func(x, y) {
me.cartesian = [x,y];
},
remove: func(){
if(me.validTree != 0){
me.validTree.setValue(0);
}
},
get_Coord: func(){
me.coord.set_latlon(me.lat.getValue(), me.lon.getValue(), me.alt.getValue() * FT2M);
var TgTCoord = geo.Coord.new(me.coord);
return TgTCoord;
},
get_Callsign: func(){
var n = me.callsign.getValue();
if(n != "" and n != nil) {
return n;
}
if (me.name == nil) {
me.name = me.getNode().getNode("name");
}
if (me.name == nil) {
n = "";
} else {
n = me.name.getValue();
}
if(n != "" and n != nil) {
return n;
}
n = me.sign.getValue();
if(n != "" and n != nil) {
return n;
}
return "UFO";
},
get_model: func(){
var n = "";
if (me.shorter == nil) {
me.shorter = me.node.getNode("model-shorter");
}
if (me.shorter != nil) {
n = me.shorter.getValue();
}
if(n != "" and n != nil) {
return n;
}
n = me.sign.getValue();
if(n != "" and n != nil) {
return n;
}
if (me.name == nil) {
me.name = me.getNode().getNode("name");
}
if (me.name == nil) {
n = "";
} else {
n = me.name.getValue();
}
if(n != "" and n != nil) {
return n;
}
return me.get_Callsign();
},
get_Speed: func(){
# return true airspeed
var n = me.speed.getValue();
return n;
},
get_Longitude: func(){
var n = me.lon.getValue();
return n;
},
get_Latitude: func(){
var n = me.lat.getValue();
return n;
},
get_Pitch: func(){
var n = me.pitch.getValue();
return n;
},
get_heading : func(){
var n = me.heading.getValue();
if(n == nil)
{
n = 0;
}
return n;
},
get_bearing: func(){
var n = 0;
n = me.bearing.getValue();
if(n == nil or n == 0) {
# AI/MP has no radar properties
n = me.get_bearing_from_Coord(geo.aircraft_position());
}
return n;
},
get_bearing_from_Coord: func(MyAircraftCoord){
me.get_Coord();
var myBearing = 0;
if(me.coord.is_defined()) {
myBearing = MyAircraftCoord.course_to(me.coord);
}
return myBearing;
},
get_reciprocal_bearing: func(){
return geo.normdeg(me.get_bearing() + 180);
},
get_deviation: func(true_heading_ref, coord){
me.deviation = - deviation_normdeg(true_heading_ref, me.get_bearing_from_Coord(coord));
return me.deviation;
},
get_altitude: func(){
#Return Alt in feet
return me.alt.getValue();
},
get_Elevation_from_Coord: func(MyAircraftCoord) {
me.get_Coord();
var value = (me.coord.alt() - MyAircraftCoord.alt()) / me.coord.direct_distance_to(MyAircraftCoord);
if (math.abs(value) > 1) {
# warning this else will fail if logged in as observer and see aircraft on other side of globe
return 0;
}
var myPitch = math.asin(value) * R2D;
return myPitch;
},
get_total_elevation_from_Coord: func(own_pitch, MyAircraftCoord){
var myTotalElevation = - deviation_normdeg(own_pitch, me.get_Elevation_from_Coord(MyAircraftCoord));
return myTotalElevation;
},
get_total_elevation: func(own_pitch) {
me.deviation = - deviation_normdeg(own_pitch, me.getElevation());
return me.deviation;
},
get_range: func() {
var r = 0;
if(me.range == nil or me.range.getValue() == nil or me.range.getValue() == 0) {
# AI/MP has no radar properties
me.get_Coord();
r = me.coord.direct_distance_to(geo.aircraft_position()) * M2NM;
} else {
r = me.range.getValue();
}
return r;
},
get_range_from_Coord: func(MyAircraftCoord) {
var myCoord = me.get_Coord();
var myDistance = 0;
if(myCoord.is_defined()) {
myDistance = MyAircraftCoord.direct_distance_to(myCoord) * M2NM;
}
return myDistance;
},
get_type: func () {
return me.class;
},
get_cartesian: func() {
return me.cartesian;
},
get_polar: func() {
return me.polar;
},
};
var isNotBehindTerrain = func( mp ) {
###########
var pos = mp.getNode("position");
var alt = pos.getNode("altitude-ft").getValue();
var lat = pos.getNode("latitude-deg").getValue();
var lon = pos.getNode("longitude-deg").getValue();
if(alt == nil or lat == nil or lon == nil) {
return isVisible = 0;
}
var aircraftPos = geo.Coord.new().set_latlon(lat, lon, alt*0.3048);
#################
var isVisible = 0;
var MyCoord = geo.aircraft_position();
# Because there is no terrain on earth that can be between these 2
if(MyCoord.alt() < 8900 and aircraftPos.alt() < 8900)
{
# Temporary variable
# A (our plane) coord in meters
var a = MyCoord.x();
var b = MyCoord.y();
var c = MyCoord.z();
# B (target) coord in meters
var d = aircraftPos.x();
var e = aircraftPos.y();
var f = aircraftPos.z();
var x = 0;
var y = 0;
var z = 0;
var RecalculatedL = 0;
var difa = d - a;
var difb = e - b;
var difc = f - c;
# direct Distance in meters
var myDistance = aircraftPos.direct_distance_to(MyCoord);
var Aprime = geo.Coord.new();
# Here is to limit FPS drop on very long distance
var L = 500;
if(myDistance > 50000)
{
L = myDistance / 15;
}
var step = L;
var maxLoops = int(myDistance / L);
isVisible = 1;
# This loop will make travel a point between us and the target and check if there is terrain
for(var i = 0 ; i < maxLoops ; i += 1)
{
L = i * step;
var K = (L * L) / (1 + (-1 / difa) * (-1 / difa) * (difb * difb + difc * difc));
var DELTA = (-2 * a) * (-2 * a) - 4 * (a * a - K);
if(DELTA >= 0)
{
# So 2 solutions or 0 (1 if DELTA = 0 but that 's just 2 solution in 1)
var x1 = (-(-2 * a) + math.sqrt(DELTA)) / 2;
var x2 = (-(-2 * a) - math.sqrt(DELTA)) / 2;
# So 2 y points here
var y1 = b + (x1 - a) * (difb) / (difa);
var y2 = b + (x2 - a) * (difb) / (difa);
# So 2 z points here
var z1 = c + (x1 - a) * (difc) / (difa);
var z2 = c + (x2 - a) * (difc) / (difa);
# Creation Of 2 points
var Aprime1 = geo.Coord.new();
Aprime1.set_xyz(x1, y1, z1);
var Aprime2 = geo.Coord.new();
Aprime2.set_xyz(x2, y2, z2);
# Here is where we choose the good
if(math.round((myDistance - L), 2) == math.round(Aprime1.direct_distance_to(aircraftPos), 2))
{
Aprime.set_xyz(x1, y1, z1);
}
else
{
Aprime.set_xyz(x2, y2, z2);
}
var AprimeLat = Aprime.lat();
var Aprimelon = Aprime.lon();
var AprimeTerrainAlt = geo.elevation(AprimeLat, Aprimelon);
if(AprimeTerrainAlt == nil)
{
AprimeTerrainAlt = 0;
}
if(AprimeTerrainAlt > Aprime.alt())
{
isVisible = 0;
}
}
}
}
else
{
isVisible = 1;
}
return isVisible;
}
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