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fgdata/Aircraft/Instruments-3d/rwr/rwr.nas

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# RWR routines.
# Alexis Bory (xiii)
var OurAlt = props.globals.getNode("position/altitude-ft");
var OurHdg = props.globals.getNode("orientation/heading-deg");
var EcmOn = props.globals.getNode("instrumentation/ecm/on-off", 1);
var EcmAlert1 = props.globals.getNode("instrumentation/ecm/alert-type1", 1);
var EcmAlert2 = props.globals.getNode("instrumentation/ecm/alert-type2", 1);
var our_alt = 0;
var Mp = props.globals.getNode("ai/models");
var tgts_list = [];
var ecm_alert1 = 0;
var ecm_alert2 = 0;
var ecm_alert1_last = 0;
var ecm_alert2_last = 0;
var u_ecm_signal = 0;
var u_ecm_signal_norm = 0;
var u_radar_standby = 0;
var u_ecm_type_num = 0;
var launched = 0;
init = func() {
if (! launched) {
radardist.init();
settimer(rwr_loop, 0.5);
launched = 1;
}
}
# Main loop ###############
var rwr_loop = func() {
ecm_on = EcmOn.getBoolValue();
if ( ecm_on) {
our_alt = OurAlt.getValue();
tgts_list = [];
var raw_list = Mp.getChildren();
foreach( var c; raw_list ) {
var type = c.getName();
if (!c.getNode("valid", 1).getValue()) {
continue;
}
var HaveRadarNode = c.getNode("radar");
if (type == "multiplayer" or type == "tanker" and HaveRadarNode != nil) {
var u = Threat.new(c);
u_ecm_signal = 0;
u_ecm_signal_norm = 0;
u_radar_standby = 0;
u_ecm_type_num = 0;
if ( u.Range != nil) {
# Test if target has a radar. Compute if we are illuminated. This propery used by ECM
# over MP, should be standardized, like "ai/models/multiplayer[0]/radar/radar-standby".
var u_name = radardist.get_aircraft_name(u.string);
var u_maxrange = radardist.my_maxrange(u_name); # in kilometer, 0 is unknown or no radar.
var horizon = u.get_horizon( our_alt );
var u_rng = u.get_range();
var u_carrier = u.check_carrier_type();
if ( u.get_rdr_standby() == 0 and u_maxrange > 0 and u_rng < horizon ) {
# Test if we are in its radar field (hard coded 74°) or if we have a MPcarrier.
# Compute the signal strength.
var our_deviation_deg = deviation_normdeg(u.get_heading(), u.get_reciprocal_bearing());
if ( our_deviation_deg < 0 ) { our_deviation_deg *= -1 }
if ( our_deviation_deg < 37 or u_carrier == 1 ) {
u_ecm_signal = (((-our_deviation_deg/20)+2.5)*(!u_carrier )) + (-u_rng/20) + 2.6 + (u_carrier*1.8);
u_ecm_type_num = radardist.get_ecm_type_num(u_name);
}
} else {
u_ecm_signal = 0;
}
# Compute global threat situation for undiscriminant warning lights
# and discrete (normalized) definition of threat strength.
if ( u_ecm_signal > 1 and u_ecm_signal < 3 ) {
EcmAlert1.setBoolValue(1);
ecm_alert1 = 1;
u_ecm_signal_norm = 2;
} elsif ( u_ecm_signal >= 3 ) {
EcmAlert2.setBoolValue(1);
ecm_alert2 = 1;
u_ecm_signal_norm = 1;
}
u.EcmSignal.setValue(u_ecm_signal);
u.EcmSignalNorm.setIntValue(u_ecm_signal_norm);
u.EcmTypeNum.setIntValue(u_ecm_type_num);
}
}
}
# Summarize ECM alerts.
if ( ecm_alert1 == 0 and ecm_alert1_last == 0 ) { EcmAlert1.setBoolValue(0) }
if ( ecm_alert2 == 0 and ecm_alert1_last == 0 ) { EcmAlert2.setBoolValue(0) }
ecm_alert1_last = ecm_alert1; # And avoid alert blinking at each loop.
ecm_alert2_last = ecm_alert2;
ecm_alert1 = 0;
ecm_alert2 = 0;
} elsif ( size(tgts_list) > 0 ) {
foreach( u; tgts_list ) {
u.EcmSignal.setValue(0);
u.EcmSignalNorm.setIntValue(0);
u.EcmTypeNum.setIntValue(0);
}
}
settimer(rwr_loop, 0.05);
}
# Utilities.
var deviation_normdeg = func(our_heading, target_bearing) {
var dev_norm = our_heading - target_bearing;
while (dev_norm < -180) dev_norm += 360;
while (dev_norm > 180) dev_norm -= 360;
return(dev_norm);
}
setlistener("sim/signals/fdm-initialized", init);
# Target class
var Threat = {
new : func (c) {
var obj = { parents : [Threat]};
obj.RdrProp = c.getNode("radar");
obj.Heading = c.getNode("orientation/true-heading-deg");
obj.Alt = c.getNode("position/altitude-ft");
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 ~ "]";
obj.InstrTgts = props.globals.getNode("instrumentation/radar2/targets", 1);
obj.TgtsFiles = obj.InstrTgts.getNode(obj.shortstring, 1);
obj.Range = obj.RdrProp.getNode("range-nm");
obj.Bearing = obj.RdrProp.getNode("bearing-deg");
obj.Elevation = obj.RdrProp.getNode("elevation-deg");
obj.BBearing = obj.TgtsFiles.getNode("bearing-deg", 1);
obj.BHeading = obj.TgtsFiles.getNode("true-heading-deg", 1);
obj.RangeScore = obj.TgtsFiles.getNode("range-score", 1);
obj.RelBearing = obj.TgtsFiles.getNode("ddd-relative-bearing", 1);
obj.Carrier = obj.TgtsFiles.getNode("carrier", 1);
obj.EcmSignal = obj.TgtsFiles.getNode("ecm-signal", 1);
obj.EcmSignalNorm = obj.TgtsFiles.getNode("ecm-signal-norm", 1);
obj.EcmTypeNum = obj.TgtsFiles.getNode("ecm_type_num", 1);
obj.RadarStandby = c.getNode("sim/multiplay/generic/int[2]");
obj.deviation = nil;
return obj;
},
get_heading : func {
var n = me.Heading.getValue();
me.BHeading.setValue(n);
return n;
},
get_bearing : func {
var n = me.Bearing.getValue();
me.BBearing.setValue(n);
return n;
},
set_relative_bearing : func(n) {
me.RelBearing.setValue(n);
},
get_reciprocal_bearing : func {
return geo.normdeg(me.get_bearing() + 180);
},
get_deviation : func(true_heading_ref) {
me.deviation = - deviation_normdeg(true_heading_ref, me.get_bearing());
return me.deviation;
},
get_altitude : func {
return me.Alt.getValue();
},
get_range : func {
return me.Range.getValue();
},
get_horizon : func(own_alt) {
var tgt_alt = me.get_altitude();
if ( tgt_alt != nil ) {
if ( own_alt < 0 ) { own_alt = 0.001 }
if ( debug.isnan(tgt_alt)) {
return(0);
}
if ( tgt_alt < 0 ) { tgt_alt = 0.001 }
return radardist.radar_horizon( own_alt, tgt_alt );
} else {
return(0);
}
},
check_carrier_type : func {
var type = "none";
var carrier = 0;
if ( me.AcType != nil ) { type = me.AcType.getValue() }
if ( type == "MP-Nimitz" or type == "MP-Eisenhower" or type == "MP-Vinson") { carrier = 1 }
# This works only after the mp-carrier model has been loaded. Before that it is seen like a common aircraft.
me.Carrier.setBoolValue(carrier);
return carrier;
},
get_rdr_standby : func {
var s = 0;
if ( me.RadarStandby != nil ) {
s = me.RadarStandby.getValue();
if (s == nil) { s = 0 } elsif (s != 1) { s = 0 }
}
return s;
},
list : [],
};