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fgdata/Nasal/tanker.nas

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if (globals["tanker"] != nil) {
# reload with io.load_nasal(getprop("/sim/fg-root") ~ "/Nasal/tanker.nas");
print("reloading " ~ caller(0)[2]);
var _setlistener = reinit;
reinit();
}
#--------------------------------------------------------------------------------------------------
var boom_tanker = "Models/Geometry/KC135/KC135.xml";
var probe_tanker = "Models/Geometry/KA6-D/KA6-D.xml";
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var oclock = func(bearing) int(0.5 + geo.normdeg(bearing) / 30) or 12;
var tanker_msg = func setprop("sim/messages/ai-plane", call(sprintf, arg));
var pilot_msg = func setprop("/sim/messages/pilot", call(sprintf, arg));
var atc_msg = func setprop("sim/messages/atc", call(sprintf, arg));
var identity = {
# return free AI id number and least used, free callsign/channel pair
get: func {
var data = {}; # copy of me.pool
var revdata = {}; # channel->callsign
foreach (var k; keys(me.pool)) {
data[k] = me.pool[k];
revdata[me.pool[k][0]] = k;
}
var id_used = {};
foreach (var t; props.globals.getNode("ai/models", 1).getChildren()) {
if ((var c = t.getNode("callsign")) != nil)
delete(data, c.getValue() or "");
if ((var c = t.getNode("navaids/tacan/channel-ID")) != nil)
delete(data, revdata[c.getValue() or ""]);
if ((var c = t.getNode("id")) != nil)
id_used[c.getValue()] = 1;
}
for (var aiid = -2; aiid; aiid -= 1)
if (!id_used[aiid])
break;
if (!size(data))
return [aiid, "MOBIL3", "062X"];
var d = sort(keys(data), func(a, b) data[a][1] - data[b][1])[0];
me.pool[d][1] += 1;
return [aiid, d, data[d][0]];
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},
pool: {
ESSO1: ["040X", 0], ESSO2: ["041X", 0], ESSO3: ["042X", 0],
TEXACO1: ["050X", 0], TEXACO2: ["051X", 0], TEXACO3: ["052X", 0],
MOBIL1: ["060X", 0], MOBIL2: ["061X", 0], MOBIL3: ["062X", 0],
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},
};
var Tanker = {
new: func(aiid, callsign, tacan, type, kias, heading, coord) {
var m = { parents: [Tanker] };
m.callsign = callsign;
m.tacan = tacan;
m.kias = kias;
m.heading = m.course = heading;
m.out_of_range_time = 0;
m.interval = 10;
m.length = (getprop("tanker/pattern-length-nm") or 50) * NM2M;
m.roll = 0;
m.coord = geo.Coord.new(coord);
m.anchor = geo.Coord.new(coord).apply_course_distance(m.heading, m.length); # ARCP
m.goal = [nil, m.anchor];
m.lastmode = "turn";
m.mode = "leg";
m.rollrate = 2; # deg/s
m.maxbank = 25;
var n = props.globals.getNode("models", 1);
for (var i = 0; 1; i += 1)
if (n.getChild("model", i, 0) == nil)
break;
m.model = n.getChild("model", i, 1);
var n = props.globals.getNode("ai/models", 1);
for (var i = 0; 1; i += 1)
if (n.getChild("tanker", i, 0) == nil)
break;
m.ai = n.getChild("tanker", i, 1);
m.ai.getNode("id", 1).setIntValue(aiid);
m.ai.getNode("callsign", 1).setValue(m.callsign ~ "");
m.ai.getNode("tanker", 1).setBoolValue(1);
m.ai.getNode("valid", 1).setBoolValue(1);
m.ai.getNode("navaids/tacan/channel-ID", 1).setValue(m.tacan);
m.ai.getNode("refuel/type", 1).setValue(type);
m.ai.getNode("refuel/contact", 1).setBoolValue(0);
m.latN = m.ai.getNode("position/latitude-deg", 1);
m.lonN = m.ai.getNode("position/longitude-deg", 1);
m.altN = m.ai.getNode("position/altitude-ft", 1);
m.hdgN = m.ai.getNode("orientation/true-heading-deg", 1);
m.pitchN = m.ai.getNode("orientation/pitch-deg", 1);
m.rollN = m.ai.getNode("orientation/roll-deg", 1);
m.ktasN = m.ai.getNode("velocities/true-airspeed-kt", 1);
m.vertN = m.ai.getNode("velocities/vertical-speed-fps", 1);
m.rangeN = m.ai.getNode("radar/range-nm", 1);
m.brgN = m.ai.getNode("radar/bearing-deg", 1);
m.elevN = m.ai.getNode("radar/elevation-deg", 1);
m.contactN = m.ai.getNode("refuel/contact", 1);
m.update();
m.model.getNode("path", 1).setValue(type == "boom" ? boom_tanker : probe_tanker);
m.model.getNode("latitude-deg-prop", 1).setValue(m.latN.getPath());
m.model.getNode("longitude-deg-prop", 1).setValue(m.lonN.getPath());
m.model.getNode("elevation-ft-prop", 1).setValue(m.altN.getPath());
m.model.getNode("heading-deg-prop", 1).setValue(m.hdgN.getPath());
m.model.getNode("pitch-deg-prop", 1).setValue(m.pitchN.getPath());
m.model.getNode("roll-deg-prop", 1).setValue(m.rollN.getPath());
m.model.getNode("load", 1).remove();
m.identify();
return Tanker.active[m.callsign] = m;
},
del: func {
tanker_msg(me.callsign ~ " returns to base");
me.model.remove();
me.ai.remove();
delete(Tanker.active, me.callsign);
},
update: func {
var dt = getprop("sim/time/delta-sec");
var alt = me.coord.alt();
if ((me.interval += dt) >= 5) {
me.interval -= 5;
me.headwind = aircraft.wind_speed_from(me.heading);
me.ktas = aircraft.kias_to_ktas(me.kias, alt);
}
var distance = dt * (me.ktas - me.headwind) * NM2M / 3600;
var deviation = me.roll ? dt * 1085.941 * math.tan(me.roll * D2R) / me.ktas : 0;
if (me.mode == "leg") {
if (me.lastmode != "leg") {
me.lastmode = "leg";
# swap ARCP anchor and tanker exit point as leg end points
var g = me.goal[0];
me.goal[0] = me.goal[1];
me.goal[1] = g;
me.heading = me.coord.course_to(me.goal[0]);
me.leg_remaining = me.coord.distance_to(me.goal[0]);
me.roll_target = 0;
me.leg_warning = 0;
}
if ((me.leg_remaining -= distance) < 0)
me.mode = "turn";
} else { # me.mode == "turn"
if (me.lastmode != "turn") {
me.lastmode = "turn";
me.full_bank_turn_angle = 0;
me.turn_remaining = 180;
me.roll_target = 25;
}
if (!me.full_bank_turn_angle and me.roll >= me.roll_target)
me.full_bank_turn_angle = geo.normdeg(180 - me.turn_remaining);
if (me.turn_remaining < me.full_bank_turn_angle)
me.roll_target = 0;
if ((me.turn_remaining -= deviation) < 0) {
if (me.goal[1] == nil) # define tanker exit point (opposite of anchor point/ARCP)
me.goal[1] = geo.Coord.new(me.coord).apply_course_distance(me.course - 180,
me.length);
me.mode = "leg";
}
}
me.coord.apply_course_distance(me.heading -= deviation, distance);
me.ac = geo.aircraft_position();
me.distance = me.ac.distance_to(me.coord);
me.bearing = me.ac.course_to(me.coord);
var dalt = alt - me.ac.alt();
var ac_hdg = getprop("/orientation/heading-deg");
me.latN.setDoubleValue(me.coord.lat());
me.lonN.setDoubleValue(me.coord.lon());
me.altN.setDoubleValue(alt * M2FT);
me.hdgN.setDoubleValue(me.heading);
me.pitchN.setDoubleValue(0);
me.rollN.setDoubleValue(-me.roll);
me.ktasN.setDoubleValue(me.ktas);
me.vertN.setDoubleValue(0);
me.rangeN.setDoubleValue(me.distance * M2NM);
me.brgN.setDoubleValue(me.bearing);
me.elevN.setDoubleValue(math.atan2(dalt, me.distance) * R2D);
me.contactN.setBoolValue(me.distance < 76 and dalt > 0 # 250 ft
and abs(view.normdeg(me.bearing - ac_hdg)) < 20);
var droll = me.roll_target - me.roll;
if (droll > 0) {
me.roll += me.rollrate * dt;
if (me.roll > me.roll_target)
me.roll = me.roll_target;
} elsif (droll < 0) {
me.roll -= me.rollrate * dt;
if (me.roll < me.roll_target)
me.roll = me.roll_target;
}
if (!me.leg_warning and me.leg_remaining < NM2M) {
tanker_msg(me.callsign ~ ", turn in one mile");
me.leg_warning = 1;
}
me.now = getprop("/sim/time/elapsed-sec");
if (me.distance < 90000)
me.out_of_range_time = me.now;
elsif (me.now - me.out_of_range_time > 600)
return me.del();
settimer(func me.update(), 0);
},
identify: func {
me.out_of_range_time = me.now;
var alt = int((me.coord.alt() * M2FT + 50) / 100) * 100;
tanker_msg("%s at %.0f, heading %.0f with %.0f knots, TACAN %s",
me.callsign, alt, me.heading, me.kias, me.tacan);
},
report: func {
me.out_of_range_time = me.now;
var dist = int(me.distance * M2NM);
var hdg = getprop("orientation/heading-deg");
var diff = (me.coord.alt() - me.ac.alt()) * M2FT;
var qual = diff > 3000 ? " well" : abs(diff) > 1000 ? " slightly" : "";
var rel = diff > 1000 ? " above" : diff < -1000 ? " below" : "";
atc_msg("Tanker %s is at %s o'clock%s",
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me.callsign, oclock(me.ac.course_to(me.coord) - hdg),
qual ~ rel);
},
active: {},
};
var request = func {
var tanker = values(Tanker.active);
if (size(tanker))
return tanker[0].identify();
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var type = props.globals.getNode("systems/refuel", 1).getChildren("type");
if (!size(type))
return;
type = type[rand() * size(type)].getValue();
var (aiid, callsign, tacanid) =_= identity.get();
var hdg = getprop("orientation/heading-deg");
var course = hdg + (rand() - 0.5) * 60;
var dist = 6000 + rand() * 4000;
var alt = int(10 + rand() * 15) * 1000; # FL100--FL250
var coord = geo.aircraft_position().apply_course_distance(course, dist).set_alt(alt * FT2M);
Tanker.new(aiid, callsign, tacanid, type, 250, hdg, coord);
}
var report = func {
var tanker = values(Tanker.active);
if (size(tanker))
tanker[0].report();
}
var reinit = func {
foreach (var t; values(Tanker.active))
t.del();
# randomize tacan pool usage counter (0 and -1)
foreach (var t; values(identity.pool))
t[1] = int(rand() * 2) - 1;
}
_setlistener("/sim/signals/nasal-dir-initialized", func {
var aar_capable = size(props.globals.getNode("systems/refuel", 1).getChildren("type"));
gui.menuEnable("tanker", aar_capable);
if (!aar_capable)
request = func { atc_msg("no tanker in range") }; # braces mandatory
setlistener("/sim/signals/reinit", reinit, 1);
});