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fgdata/Aircraft/c172p/Nasal/c172p.nas

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##########################################
# Autostart
##########################################
var autostart = func (msg=1) {
if (getprop("/engines/active-engine/running")) {
if (msg)
gui.popupTip("Engine already running", 5);
return;
}
# Reset battery charge and circuit breakers
electrical.reset_battery_and_circuit_breakers();
# Setting levers and switches for startup
setprop("/controls/switches/magnetos", 3);
setprop("/controls/engines/current-engine/throttle", 0.2);
var auto_mixture = getprop("/fdm/jsbsim/engine/auto-mixture");
setprop("/controls/engines/current-engine/mixture", auto_mixture);
setprop("/controls/flight/elevator-trim", 0.0);
setprop("/controls/switches/master-bat", 1);
setprop("/controls/switches/master-alt", 1);
setprop("/controls/switches/master-avionics", 1);
if (getprop("controls/panel/glass")) {
setprop("/controls/switches/master-avionics2", 1);
}
# Setting lights
setprop("/controls/lighting/nav-lights", 1);
setprop("/controls/lighting/strobe", 1);
setprop("/controls/lighting/beacon", 1);
# Setting instrument lights if needed
var light_level = 1-getprop("/rendering/scene/diffuse/red");
if (light_level > .6) {
if (!getprop("/controls/panel/glass")){
if (getprop("/controls/lighting/instruments-norm") == 0) {
if (light_level > .8) light_level = .8;
setprop("/controls/lighting/instruments-norm", light_level);
}
setprop("/controls/switches/dome-red", 1);
}
if (getprop("/controls/panel/glass")) {
if (getprop("/controls/lighting/swcb-norm") == 0) {
setprop("/controls/lighting/swcb-norm", .55);
}
if (getprop("/controls/lighting/avionics-norm") == 0) {
setprop("/controls/lighting/avionics-norm", .6);
}
if (getprop("/controls/lighting/stby-norm") == 0) {
setprop("/controls/lighting/stby-norm", .8);
}
}
} else {
if (getprop("/controls/panel/glass")) {
if (getprop("/controls/lighting/swcb-norm") == 0) {
setprop("/controls/lighting/swcb-norm", .35);
}
if (getprop("/controls/lighting/avionics-norm") == 0) {
setprop("/controls/lighting/avionics-norm", .35);
}
if (getprop("/controls/lighting/stby-norm") == 0) {
setprop("/controls/lighting/stby-norm", .75);
}
}
}
if (getprop("/controls/panel/glass")) {
setprop("/controls/switches/stby-batt", 2);
}
# Setting amphibious landing gear if needed
if (getprop("/fdm/jsbsim/bushkit")==4){
if (getprop("/fdm/jsbsim/hydro/active-norm")) {
setprop("controls/gear/gear-down-command", 0);
setprop("/fdm/jsbsim/gear/gear-pos-norm", 0);
} else {
setprop("controls/gear/gear-down-command", 1);
setprop("/fdm/jsbsim/gear/gear-pos-norm", 1);
}
}
# Setting flaps to 0
setprop("/controls/flight/flaps", 0.0);
# Set the altimeter
var pressure_sea_level = getprop("/environment/pressure-sea-level-inhg");
setprop("/instrumentation/altimeter/setting-inhg", pressure_sea_level);
# Set heading offset
var magnetic_variation = getprop("/environment/magnetic-variation-deg");
setprop("/instrumentation/heading-indicator/offset-deg", -magnetic_variation);
# Pre-flight inspection
setprop("/sim/model/c172p/cockpit/control-lock-placed", 0);
setprop("/controls/gear/brake-parking", 0);
setprop("/sim/model/c172p/securing/chock", 0);
setprop("/sim/model/c172p/securing/cowl-plugs-visible", 0);
setprop("/sim/model/c172p/securing/pitot-cover-visible", 0);
setprop("/sim/model/c172p/securing/tiedownL-visible", 0);
setprop("/sim/model/c172p/securing/tiedownR-visible", 0);
setprop("/sim/model/c172p/securing/tiedownT-visible", 0);
# Setting max oil level
var oil_enabled = getprop("/engines/active-engine/oil_consumption_allowed");
var oil_level = getprop("/engines/active-engine/oil-level");
if (oil_enabled and oil_level < 5.0) {
if (getprop("/controls/engines/active-engine") == 0) {
setprop("/engines/active-engine/oil-level", 7.0);
}
else {
setprop("/engines/active-engine/oil-level", 8.0);
};
};
# removing any ice from the carburetor
setprop("/engines/active-engine/carb_ice", 0.0);
setprop("/engines/active-engine/carb_icing_rate", 0.0);
setprop("/engines/active-engine/volumetric-efficiency-factor", 0.85);
# Removing any contamination from water
setprop("/consumables/fuel/tank[0]/water-contamination", 0.0);
setprop("/consumables/fuel/tank[1]/water-contamination", 0.0);
setprop("/consumables/fuel/tank[0]/sample-water-contamination", 0.0);
setprop("/consumables/fuel/tank[1]/sample-water-contamination", 0.0);
# set fuel configuration
set_fuel();
setprop("/controls/engines/engine[0]/primer-lever", 0);
setprop("/controls/engines/engine/primer", 3);
# All set, starting engine
setprop("/controls/switches/starter", 1);
setprop("/engines/active-engine/auto-start", 1);
var engine_running_check_delay = 5.0;
settimer(func {
if (!getprop("/engines/active-engine/running")) {
gui.popupTip("The autostart failed to start the engine. You must lean the mixture and start the engine manually.", 5);
}
setprop("/controls/switches/starter", 0);
setprop("/engines/active-engine/auto-start", 0);
}, engine_running_check_delay);
};
##########################################
# Brakes
##########################################
controls.applyBrakes = func (v, which = 0) {
if (which <= 0 and !getprop("/fdm/jsbsim/gear/unit[1]/broken")) {
interpolate("/controls/gear/brake-left", v, controls.fullBrakeTime);
}
if (which >= 0 and !getprop("/fdm/jsbsim/gear/unit[2]/broken")) {
interpolate("/controls/gear/brake-right", v, controls.fullBrakeTime);
}
};
##########################################
# Set Fuel Configuration
##########################################
var set_fuel = func {
# Checking for minimal fuel level
var fuel_level_left_default = getprop("/consumables/fuel/tank[0]/level-norm");
var fuel_level_right_default = getprop("/consumables/fuel/tank[1]/level-norm");
var fuel_level_left_integral = getprop("/consumables/fuel/tank[2]/level-norm");
var fuel_level_right_integral = getprop("/consumables/fuel/tank[3]/level-norm");
# Check which tanks are being used
var integral_tanks = getprop("/fdm/jsbsim/fuel/tank");
if (integral_tanks) {
if (fuel_level_left_integral < 0.25)
setprop("/consumables/fuel/tank[2]/level-norm", 0.25);
if (fuel_level_right_integral < 0.25)
setprop("/consumables/fuel/tank[3]/level-norm", 0.25);
setprop("/consumables/fuel/tank[2]/selected", 1);
setprop("/consumables/fuel/tank[3]/selected", 1);
setprop("/consumables/fuel/tank[0]/selected", 0);
setprop("/consumables/fuel/tank[1]/selected", 0);
} else {
if (fuel_level_left_default < 0.25)
setprop("/consumables/fuel/tank[0]/level-norm", 0.25);
if (fuel_level_right_default < 0.25)
setprop("/consumables/fuel/tank[1]/level-norm", 0.25);
setprop("/consumables/fuel/tank[0]/selected", 1);
setprop("/consumables/fuel/tank[1]/selected", 1);
setprop("/consumables/fuel/tank[2]/selected", 0);
setprop("/consumables/fuel/tank[3]/selected", 0);
}
setprop("sim/model/open-pfuel-cap", 0);
setprop("sim/model/open-sfuel-cap", 0);
setprop("sim/model/open-pfuel-sump", 0);
setprop("sim/model/open-sfuel-sump", 0);
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-left-fuel-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-right-fuel-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-fuel-both-tanks-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-left-fuel-sample-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-right-fuel-sample-dialog"}));
};
##########################################
# Fuel Contamination
##########################################
var fuel_contamination = func {
var chance = rand();
# Chance of contamination is 1 %
if (getprop("/consumables/fuel/contamination_allowed") and chance < 0.01) {
# Quantity of water is much more likely to be small than large, since
# it's given by x^6 (76 % of the time it will be lower than 0.2)
var water = math.pow(rand(), 6);
setprop("/consumables/fuel/tank[0]/water-contamination", water);
# level of water in the right tank will be the same as in the left tank +- 0.1
water = water + 0.2 * (rand() - 0.5);
water = std.max(0.0, std.min(water, 1.0));
setprop("/consumables/fuel/tank[1]/water-contamination", water);
}
else {
setprop("/consumables/fuel/tank[0]/water-contamination", 0.0);
setprop("/consumables/fuel/tank[1]/water-contamination", 0.0);
};
};
##########################################
# Take Fuel Sample
##########################################
var take_fuel_sample = func(index) {
var fuel = getprop("/consumables/fuel/tank", index, "level-gal_us");
var water = getprop("/consumables/fuel/tank", index, "water-contamination");
# Remove 50 ml of fuel
setprop("/consumables/fuel/tank", index, "level-gal_us", fuel - 0.0132086);
# Remove a bit of water if contaminated
if (water > 0.0) {
var sample_water = std.min(0.2, water);
water = water - sample_water;
setprop("/consumables/fuel/tank", index, "water-contamination", water);
setprop("/consumables/fuel/tank", index, "sample-water-contamination", sample_water);
};
};
##########################################
# Return Fuel Sample
##########################################
var return_fuel_sample = func(index) {
var fuel = getprop("/consumables/fuel/tank", index, "level-gal_us");
var water = getprop("/consumables/fuel/tank", index, "water-contamination");
var sample_water = getprop("/consumables/fuel/tank", index, "sample-water-contamination");
# Add back the 50 ml of fuel
setprop("/consumables/fuel/tank", index, "level-gal_us", fuel + 0.0132086);
# Add back the (contaminated) water
if (sample_water > 0.0) {
water = water + sample_water;
setprop("/consumables/fuel/tank", index, "water-contamination", water);
setprop("/consumables/fuel/tank", index, "sample-water-contamination", 0.0);
};
};
##########################################
# Preflight control surface check: left aileron
##########################################
var control_surface_check_left_aileron = func {
var auto_coordination = getprop("/controls/flight/auto-coordination");
setprop("/controls/flight/auto-coordination", 0);
interpolate("/controls/flight/aileron", 1.0, 0.5, -1.0, 1.0, 0.0, 0.5);
settimer(func(){
setprop("/controls/flight/auto-coordination", auto_coordination);
}, 2.0);
};
##########################################
# Preflight control surface check: right aileron
##########################################
var control_surface_check_right_aileron = func {
var auto_coordination = getprop("/controls/flight/auto-coordination");
setprop("/controls/flight/auto-coordination", 0);
interpolate("/controls/flight/aileron", -1.0, 0.5, 1.0, 1.0, 0.0, 0.5);
settimer(func(){
setprop("/controls/flight/auto-coordination", auto_coordination);
}, 2.0);
};
##########################################
# Preflight control surface check: elevator
##########################################
var control_surface_check_elevator = func {
interpolate("/controls/flight/elevator", 1.0, 0.8, -1.0, 1.6, 0.0, 0.8);
};
##########################################
# Preflight control surface check: rudder
##########################################
var control_surface_check_rudder = func {
interpolate("/controls/flight/rudder", -1.0, 0.8, 1.0, 1.6, 0.0, 0.8);
};
##########################################
# Switches Save State
##########################################
var switches_save_state = func {
if (!getprop("/instrumentation/save-switches-state")) {
setprop("/controls/engines/engine[0]/primer", 0);
setprop("/controls/engines/engine[0]/primer-lever", 0);
setprop("/controls/engines/engine[0]/use-primer", 0);
setprop("/controls/engines/current-engine/throttle", 0.0);
setprop("/controls/engines/current-engine/mixture", 0.0);
#setprop("/controls/circuit-breakers/aircond", 1);
setprop("/controls/circuit-breakers/autopilot", 1);
setprop("/controls/circuit-breakers/bcnlt", 1);
setprop("/controls/circuit-breakers/flaps", 1);
setprop("/controls/circuit-breakers/instr", 1);
setprop("/controls/circuit-breakers/intlt", 1);
setprop("/controls/circuit-breakers/landing", 1);
setprop("/controls/circuit-breakers/master", 1);
setprop("/controls/circuit-breakers/navlt", 1);
setprop("/controls/circuit-breakers/pitot-heat", 1);
setprop("/controls/circuit-breakers/radio1", 1);
setprop("/controls/circuit-breakers/radio2", 1);
setprop("/controls/circuit-breakers/radio3", 1);
setprop("/controls/circuit-breakers/radio4", 1);
setprop("/controls/circuit-breakers/radio5", 1);
setprop("/controls/circuit-breakers/strobe", 1);
if (getprop("sim/model/variant") == 4) {
setprop("controls/circuit-breakers/gear-advisory", 1);
setprop("controls/circuit-breakers/hydraulic-pump", 1);
setprop("controls/circuit-breakers/gear-select", 1);
}
setprop("/controls/circuit-breakers/turn-coordinator", 1);
setprop("/controls/switches/master-avionics", 0);
setprop("/controls/switches/starter", 0);
setprop("/controls/switches/master-alt", 0);
setprop("/controls/switches/master-bat", 0);
setprop("/controls/switches/magnetos", 0);
setprop("/controls/switches/dome-white", 0);
setprop("/controls/switches/dome-red", 0);
setprop("/controls/lighting/nav-lights", 0);
setprop("/controls/lighting/beacon", 0);
setprop("/controls/lighting/strobe", 0);
setprop("/controls/lighting/taxi-light", 0);
setprop("/controls/lighting/landing-lights", 0);
setprop("/controls/lighting/instruments-norm", 0.0);
setprop("/controls/lighting/radio-norm", 0.0);
setprop("/controls/lighting/dome-white-norm", 1.0);
setprop("/controls/lighting/gps-norm", 0.0);
setprop("/controls/lighting/gearled", 0);
setprop("/controls/gear/water-rudder", 0);
setprop("/controls/gear/water-rudder-down", 0);
setprop("/controls/gear/brake-parking", 1);
setprop("/controls/flight/flaps", 0.0);
setprop("/surface-positions/flap-pos-norm", 0.0);
setprop("/controls/flight/elevator-trim", 0.0);
setprop("/controls/anti-ice/engine[0]/carb-heat", 0);
setprop("/controls/anti-ice/engine[1]/carb-heat", 0);
setprop("/controls/anti-ice/pitot-heat", 0);
setprop("/environment/aircraft-effects/cabin-heat-set", 0.0);
setprop("/environment/aircraft-effects/cabin-air-set", 0.0);
setprop("/consumables/fuel/tank[0]/level-norm", 0.0);
setprop("/consumables/fuel/tank[1]/level-norm", 0.0);
setprop("/consumables/fuel/tank[2]/level-norm", 0.0);
setprop("/consumables/fuel/tank[3]/level-norm", 0.0);
if (getprop("/sim/model/c172p/ruddertrim-visible"))
setprop("/controls/flight/rudder-trim", 0);
if (getprop("controls/panel/glass")) {
electrical.reset_battery_and_circuit_breakers();
setprop("/controls/switches/master-avionics", 0);
setprop("/controls/switches/master-avionics2", 0);
}
};
};
##########################################
# Click Sounds
##########################################
var click = func (name, timeout=0.1, delay=0) {
var sound_prop = "/sim/model/c172p/sound/click-" ~ name;
settimer(func {
# Play the sound
setprop(sound_prop, 1);
# Reset the property after 0.2 seconds so that the sound can be
# played again.
settimer(func {
setprop(sound_prop, 0);
}, timeout);
}, delay);
};
##########################################
# Thunder Sound
##########################################
var speed_of_sound = func (t, re) {
# Compute speed of sound in m/s
#
# t = temperature in Celsius
# re = amount of water vapor in the air
# Compute virtual temperature using mixing ratio (amount of water vapor)
# Ratio of gas constants of dry air and water vapor: 287.058 / 461.5 = 0.622
var T = 273.15 + t;
var v_T = T * (1 + re/0.622)/(1 + re);
# Compute speed of sound using adiabatic index, gas constant of air,
# and virtual temperature in Kelvin.
return math.sqrt(1.4 * 287.058 * v_T);
};
var thunder = func (name) {
var thunderCalls = 0;
var lightning_pos_x = getprop("/environment/lightning/lightning-pos-x");
var lightning_pos_y = getprop("/environment/lightning/lightning-pos-y");
var lightning_distance = math.sqrt(math.pow(lightning_pos_x, 2) + math.pow(lightning_pos_y, 2));
# On the ground, thunder can be heard up to 16 km. Increase this value
# a bit because the aircraft is usually in the air.
if (lightning_distance > 20000)
return;
var t = getprop("/environment/temperature-degc");
var re = getprop("/environment/relative-humidity") / 100;
var delay_seconds = lightning_distance / speed_of_sound(t, re);
# Maximum volume at 5000 meter
var lightning_distance_norm = std.min(1.0, 1 / math.pow(lightning_distance / 5000.0, 2));
settimer(func {
var thunder1 = getprop("/sim/model/c172p/sound/click-thunder1");
var thunder2 = getprop("/sim/model/c172p/sound/click-thunder2");
var thunder3 = getprop("/sim/model/c172p/sound/click-thunder3");
if (!thunder1) {
thunderCalls = 1;
setprop("/sim/model/c172p/sound/lightning/dist1", lightning_distance_norm);
}
else if (!thunder2) {
thunderCalls = 2;
setprop("/sim/model/c172p/sound/lightning/dist2", lightning_distance_norm);
}
else if (!thunder3) {
thunderCalls = 3;
setprop("/sim/model/c172p/sound/lightning/dist3", lightning_distance_norm);
}
else
return;
# Play the sound (sound files are about 9 seconds)
click("thunder" ~ thunderCalls, 9.0, 0);
}, delay_seconds);
};
var reset_system = func {
if (getprop("/fdm/jsbsim/running")) {
c172p.autostart(0);
}
# These properties are aliased to MP properties in /sim/multiplay/generic/.
# This aliasing seems to work in both ways, because the two properties below
# appear to receive the random values from the MP properties during initialization.
# Therefore, override these random values with the proper values we want.
props.globals.getNode("/fdm/jsbsim/crash", 0).setBoolValue(0);
props.globals.getNode("/fdm/jsbsim/gear/unit[0]/broken", 0).setBoolValue(0);
props.globals.getNode("/fdm/jsbsim/gear/unit[1]/broken", 0).setBoolValue(0);
props.globals.getNode("/fdm/jsbsim/gear/unit[2]/broken", 0).setBoolValue(0);
props.globals.getNode("/fdm/jsbsim/pontoon-damage/left-pontoon", 0).setIntValue(0);
props.globals.getNode("/fdm/jsbsim/pontoon-damage/right-pontoon", 0).setIntValue(0);
setprop("/engines/active-engine/kill-engine", 0);
set_fuel();
}
############################################
# Engine coughing sound
############################################
setlistener("/engines/active-engine/killed", func (node) {
if (node.getValue() and getprop("/engines/active-engine/running")) {
click("coughing-engine-sound", 0.7, 0);
};
});
############################################
# Static objects: right safety cone
############################################
var StaticModel = {
new: func (name, file) {
var m = {
parents: [StaticModel],
model: nil,
model_file: file,
object_name: name
};
setlistener("/sim/" ~ name ~ "/enable", func (node) {
if (node.getBoolValue()) {
m.add();
}
else {
m.remove();
}
});
return m;
},
add: func {
var manager = props.globals.getNode("/models", 1);
var i = 0;
for (; 1; i += 1) {
if (manager.getChild("model", i, 0) == nil) {
break;
}
}
var position = geo.aircraft_position().set_alt(getprop("/position/ground-elev-m"));
if (me.object_name == "anchorbuoy") {
me.model = geo.put_model(me.model_file, getprop("/fdm/jsbsim/mooring/anchor-lat"), getprop("/fdm/jsbsim/mooring/anchor-lon"), getprop("/position/ground-elev-m"), getprop("/orientation/heading-deg"));
} else {
me.model = geo.put_model(me.model_file, position, getprop("/orientation/heading-deg"));
}
},
remove: func {
if (me.model != nil) {
me.model.remove();
me.model = nil;
}
}
};
StaticModel.new("coneR", "Aircraft/c172p/Models/Exterior/safety-cone/safety-cone_R.xml");
StaticModel.new("coneL", "Aircraft/c172p/Models/Exterior/safety-cone/safety-cone_L.xml");
StaticModel.new("gpu", "Aircraft/c172p/Models/Exterior/external-power/external-power.xml");
StaticModel.new("ladder", "Aircraft/c172p/Models/Exterior/ladder/ladder.xml");
StaticModel.new("fueltanktrailer", "Aircraft/c172p/Models/Exterior/fueltanktrailer/fueltanktrailer.ac");
StaticModel.new("externalheater", "Aircraft/c172p/Models/Exterior/external-heater/RedDragonEnginePreHeater.ac");
# Mooring anchor and rope
StaticModel.new("anchorbuoy", "Aircraft/c172p/Models/Effects/pontoon/mooring.xml");
# external electrical disconnect when groundspeed higher than 0.1ktn (replace later with distance less than 0.01...)
var ad_timer = maketimer(0.1, func {
groundspeed = getprop("/velocities/groundspeed-kt") or 0;
if (groundspeed > 0.1) {
setprop("/controls/electric/external-power", "false");
}
});
ad_timer.start();
############################################
# Global loop function
# If you need to run nasal as loop, add it in this function
############################################
var global_system_loop = func {
c172p.physics_loop();
}
##########################################
# SetListerner must be at the end of this file
##########################################
var set_limits = func (node) {
if (node.getValue() == 1) {
var limits = props.globals.getNode("/limits/mass-and-balance-180hp");
}
else {
var limits = props.globals.getNode("/limits/mass-and-balance-160hp");
}
var ac_limits = props.globals.getNode("/limits/mass-and-balance");
# Get the mass limits of the current engine
var ramp_mass = limits.getNode("maximum-ramp-mass-lbs");
var takeoff_mass = limits.getNode("maximum-takeoff-mass-lbs");
var landing_mass = limits.getNode("maximum-landing-mass-lbs");
# Get the actual mass limit nodes of the aircraft
var ac_ramp_mass = ac_limits.getNode("maximum-ramp-mass-lbs");
var ac_takeoff_mass = ac_limits.getNode("maximum-takeoff-mass-lbs");
var ac_landing_mass = ac_limits.getNode("maximum-landing-mass-lbs");
# Set the mass limits of the aircraft
ac_ramp_mass.unalias();
ac_takeoff_mass.unalias();
ac_landing_mass.unalias();
ac_ramp_mass.alias(ramp_mass);
ac_takeoff_mass.alias(takeoff_mass);
ac_landing_mass.alias(landing_mass);
};
setlistener("/controls/engines/active-engine", func (node) {
# Set new mass limits for Fuel and Payload Settings dialog
set_limits(node);
# Emit a sound because the engine has been replaced
click("engine-repair", 6.0);
}, 0, 0);
var update_pax = func {
var state = 0;
state = bits.switch(state, 0, getprop("pax/co-pilot/present"));
state = bits.switch(state, 1, getprop("pax/left-passenger/present"));
state = bits.switch(state, 2, getprop("pax/right-passenger/present"));
state = bits.switch(state, 3, getprop("pax/pilot/present"));
setprop("/payload/pax-state", state);
};
setlistener("/pax/co-pilot/present", update_pax, 0, 0);
setlistener("/pax/left-passenger/present", update_pax, 0, 0);
setlistener("/pax/right-passenger/present", update_pax, 0, 0);
setlistener("/pax/pilot/present", update_pax, 0, 0);
update_pax();
var update_securing = func {
var state = 0;
state = bits.switch(state, 0, getprop("/sim/model/c172p/securing/pitot-cover-visible"));
state = bits.switch(state, 1, getprop("/sim/model/c172p/securing/chock-visible"));
state = bits.switch(state, 2, getprop("/sim/model/c172p/securing/tiedownL-visible"));
state = bits.switch(state, 3, getprop("/sim/model/c172p/securing/tiedownR-visible"));
state = bits.switch(state, 4, getprop("/sim/model/c172p/securing/tiedownT-visible"));
setprop("/payload/securing-state", state);
};
setlistener("/sim/model/c172p/securing/pitot-cover-visible", update_securing, 0, 0);
setlistener("/sim/model/c172p/securing/chock-visible", update_securing, 0, 0);
setlistener("/sim/model/c172p/securing/tiedownL-visible", update_securing, 0, 0);
setlistener("/sim/model/c172p/securing/tiedownR-visible", update_securing, 0, 0);
setlistener("/sim/model/c172p/securing/tiedownT-visible", update_securing, 0, 0);
update_securing();
var log_cabin_temp = func {
if (getprop("/sim/model/c172p/enable-fog-frost")) {
var temp_degc = getprop("/fdm/jsbsim/heat/cabin-air-temp-degc");
if (temp_degc >= 32)
logger.screen.red("Cabin temperature exceeding 90F/32C!");
elsif (temp_degc <= 0)
logger.screen.red("Cabin temperature falling below 32F/0C!");
}
};
var cabin_temp_timer = maketimer(30.0, log_cabin_temp);
var log_fog_frost = func {
if (getprop("/sim/model/c172p/enable-fog-frost")) {
logger.screen.white("Wait until fog/frost clears up or decrease cabin air temperature");
}
};
var fog_frost_timer = maketimer(30.0, log_fog_frost);
var dialog_battery_reload = func {
electrical.reset_battery_and_circuit_breakers();
gui.popupTip("The battery is now fully charged!");
}
var c172_timer = maketimer(0.25, func{global_system_loop()});
setlistener("/sim/signals/fdm-initialized", func {
# Randomize callsign of new users to avoid them blocking
# other new users on multiplayer
if (getprop("/sim/multiplay/callsign") == "callsign") {
var digit = func {
return math.round(rand()*9);
};
var new_callsign = "FG-" ~ digit() ~ digit() ~ digit() ~ digit();
setprop("/sim/multiplay/callsign", new_callsign);
};
# Use Nasal to make some properties persistent. <aircraft-data> does
# not work reliably.
aircraft.data.add("/sim/model/c172p/immat-on-panel");
aircraft.data.load();
# Initialize mass limits
set_limits(props.globals.getNode("/controls/engines/active-engine"));
# Close all caps and doors
setlistener("/engines/active-engine/cranking", func (node) {
setprop("sim/model/show-dip-stick", 0);
setprop("sim/model/open-pfuel-cap", 0);
setprop("sim/model/open-sfuel-cap", 0);
setprop("sim/model/open-pfuel-sump", 0);
setprop("sim/model/open-sfuel-sump", 0);
setprop("sim/model/door-positions/oilDoor/position-norm", 0);
setprop("sim/model/c172p/securing/cowl-plugs-visible", 0);
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-oil-dialog-160"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-oil-dialog-180"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-left-fuel-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-right-fuel-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-left-fuel-sample-dialog"}));
fgcommand("dialog-close", props.Node.new({"dialog-name": "c172p-right-fuel-sample-dialog"}));
}, 0, 0);
setlistener("/engines/active-engine/running", func (node) {
var autostart = getprop("/engines/active-engine/auto-start");
var cranking = getprop("/engines/active-engine/cranking");
if (autostart and cranking and node.getBoolValue()) {
setprop("/controls/switches/starter", 0);
setprop("/engines/active-engine/auto-start", 0);
}
}, 0, 0);
# Checking if switches should be moved back to default position (in case save state is off)
switches_save_state();
# Checking if fuel contamination is allowed, and if so generating a random situation
fuel_contamination();
# Listening for lightning strikes
setlistener("/environment/lightning/lightning-pos-y", thunder);
reset_system();
var onground = getprop("/sim/presets/onground") or "";
if (!onground) {
state_manager();
}
# set user defined pilot view or initialize it
if (getprop("sim/current-view/view-number") == 0){
settimer(func {
if (getprop("sim/current-view/user/x-offset-m") != nil){
setprop("sim/current-view/x-offset-m", getprop("sim/current-view/user/x-offset-m"));
} else {
setprop("sim/current-view/user/x-offset-m", getprop("sim/view/config/x-offset-m"));
}
if (getprop("sim/current-view/user/y-offset-m") != nil){
setprop("sim/current-view/y-offset-m", getprop("sim/current-view/user/y-offset-m"));
} else {
setprop("sim/current-view/user/y-offset-m", getprop("sim/view/config/y-offset-m"));
}
if (getprop("sim/current-view/user/z-offset-m") != nil){
setprop("sim/current-view/z-offset-m", getprop("sim/current-view/user/z-offset-m"));
} else {
setprop("sim/current-view/user/z-offset-m", getprop("sim/view/config/z-offset-m"));
}
if (getprop("sim/current-view/user/default-field-of-view-deg") != nil){
setprop("sim/current-view/field-of-view", getprop("sim/current-view/user/default-field-of-view-deg"));
} else {
setprop("sim/current-view/user/default-field-of-view-deg", getprop("sim/view/config/default-field-of-view-deg"));
}
if (getprop("sim/current-view/user/pitch-offset-deg") != nil){
setprop("sim/current-view/pitch-offset-deg", getprop("sim/current-view/user/pitch-offset-deg"));
} else {
setprop("sim/current-view/user/pitch-offset-deg", getprop("sim/view/config/pitch-offset-deg"));
}
}, 1);
}
if (getprop("sim/model/variant") == 4) {
settimer(func {
# check for ground type (land or water, only if not in flight)
var on_water = getprop("fdm/jsbsim/hydro/active-norm");
print("ON-WATER ="~ on_water);
if (on_water) {
setprop("controls/gear/gear-down-command", 0);
setprop("controls/gear/gear-down", 0);
setprop("fdm/jsbsim/gear/gear-pos-norm", 0);
} else {
setprop("controls/gear/gear-down-command", 1);
setprop("controls/gear/gear-down", 1);
setprop("fdm/jsbsim/gear/gear-pos-norm", 1);
}
}, 3);
}
c172_timer.start();
});
setlistener("/sim/model/c172p/cabin-air-temp-in-range", func (node) {
if (node.getValue()) {
cabin_temp_timer.stop();
logger.screen.green("Cabin temperature between 32F/0C and 90F/32C");
}
else {
log_cabin_temp();
cabin_temp_timer.start();
}
}, 1, 0);
setlistener("/sim/model/c172p/fog-or-frost-increasing", func (node) {
if (node.getValue()) {
log_fog_frost();
fog_frost_timer.start();
}
else {
fog_frost_timer.stop();
}
}, 1, 0);
# season-winter is a conversion value, see c172p-ground-effects.xml
setprop("/sim/startup/season-winter", getprop("/sim/startup/season") == "winter");
setlistener("/sim/startup/season", func (node) {
setprop("/sim/startup/season-winter", node.getValue() == "winter");
}, 0, 0);
# rudder trim setting changes, manual or automatic
setlistener("/sim/model/c172p/ruddertrim-visible", func (node) {
if (node.getValue()) {
setprop("/controls/flight/rudder-trim", 0);
} else
setprop("/controls/flight/rudder-trim", 0.02);
}, 0, 0);
#fuel tank configuration switch
setlistener("/fdm/jsbsim/fuel/tank", func (node) {
# Set fuel configuration
set_fuel();
}, 0, 0);
#amphibious gear control
setlistener("sim/model/variant", func (node) {
if (getprop("sim/model/variant") == 4) {
setprop("controls/circuit-breakers/gear-advisory", 1);
setprop("controls/circuit-breakers/hydraulic-pump", 1);
setprop("controls/circuit-breakers/gear-select", 1);
# check for ground type
var on_water = getprop("fdm/jsbsim/hydro/active-norm");
if (on_water) {
setprop("controls/gear/gear-down-command", 0);
setprop("controls/gear/gear-down", 0);
setprop("fdm/jsbsim/gear/gear-pos-norm", 0);
} else {
setprop("controls/gear/gear-down-command", 1);
setprop("controls/gear/gear-down", 1);
setprop("fdm/jsbsim/gear/gear-pos-norm", 1);
}
}
}, 1, 0);