311 lines
11 KiB
Text
311 lines
11 KiB
Text
#<PropertyList><module>Aerostar-700</module><script><![CDATA[
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#### King KNS-80 Integrated Navigation System ####
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#### Syd Adams ####
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#### Ron Jensen ####
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####
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#### Must be included in the Set file to run the KNS80 radio
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####
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#### Nav Modes 0 = VOR ; 1 = VOR/PAR ; 2 = RNAV/ENR ; 3 = RNAV/APR ;
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####
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KNS80 = props.globals.getNode("/instrumentation/kns-80",1);
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NAV1 = props.globals.getNode("/instrumentation/nav/frequencies/selected-mhz",1);
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NAV1_RADIAL = props.globals.getNode("/instrumentation/nav/radials/selected-deg",1);
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KNS80.getNode("serviceable",1).setBoolValue(1);
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KNS80.getNode("volume-adjust",1).setDoubleValue(0);
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KNS80.getNode("data-adjust",1).setDoubleValue(0);
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KNS80.getNode("volume",1).setDoubleValue(0.5);
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KNS80.getNode("display",1).setDoubleValue(0);
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KNS80.getNode("use",1).setDoubleValue(0);
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KNS80.getNode("data-mode",1).setDoubleValue(0);
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KNS80.getNode("nav-mode",1).setDoubleValue(0);
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KNS80.getNode("dme-hold",1).setBoolValue(0);
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KNS80.getNode("displayed-distance",1).setDoubleValue(0);
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KNS80.getNode("displayed-frequency",1).setDoubleValue(0.0);
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KNS80.getNode("displayed-radial",1).setDoubleValue(0.0);
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KNS80.getNode("wpt[0]/frequency",1).setDoubleValue(0.0);
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KNS80.getNode("wpt[0]/radial",1).setDoubleValue(0.0);
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KNS80.getNode("wpt[0]/distance",1).setDoubleValue(0.0);
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KNS80.getNode("wpt[1]/frequency",1).setDoubleValue(11570);
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KNS80.getNode("wpt[1]/radial",1).setDoubleValue(120);
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KNS80.getNode("wpt[1]/distance",1).setDoubleValue(7.2);
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KNS80.getNode("wpt[2]/frequency",1).setDoubleValue(11570);
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KNS80.getNode("wpt[2]/radial",1).setDoubleValue(270);
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KNS80.getNode("wpt[2]/distance",1).setDoubleValue(5.8);
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KNS80.getNode("wpt[3]/frequency",1).setDoubleValue(11000);
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KNS80.getNode("wpt[3]/radial",1).setDoubleValue(0);
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KNS80.getNode("wpt[3]/distance",1).setDoubleValue(0.0);
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FDM_ON = 0;
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dsp_flash = props.globals.getNode("instrumentation/kns-80/flash", 1);
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aircraft.light.new("instrumentation/kns-80/dsp-state", [0.5, 0.5],dsp_flash);
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# Properties
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NAV1_ACTUAL = props.globals.getNode("/instrumentation/nav/radials/actual-deg",1);
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NAV1_TO_FLAG = props.globals.getNode("/instrumentation/nav[0]/to-flag",1);
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NAV1_FROM_FLAG = props.globals.getNode("/instrumentation/nav[0]/from-flag",1);
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NAV1_HEADING_NEEDLE_DEFLECTION = props.globals.getNode("/instrumentation/nav[0]/heading-needle-deflection",1);
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NAV1_IN_RANGE = props.globals.getNode("/instrumentation/nav[0]/in-range",1);
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DME1_IN_RANGE = props.globals.getNode("/instrumentation/dme[0]/in-range",1);
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# outputs
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CDI_NEEDLE = props.globals.getNode("/instrumentation/gps/cdi-deflection",1);
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TO_FLAG = props.globals.getNode("/instrumentation/gps/to-flag",1);
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FROM_FLAG = props.globals.getNode("/instrumentation/gps/from-flag",1);
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RNAV = props.globals.getNode("/instrumentation/rnav",1);
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# distance, radial from VOR Station
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# rho, theta: distance and radial for phantom station
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# range, bearing: distance and radial from phantom station
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PI=3.14159265;
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D2R=PI/180;
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R2D=180/PI;
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var unnil = func(n) { n == nil ? 0 : n }
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# 0.1 second cron
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sec01cron = func {
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updateRNAV();
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# schedule the next call
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settimer(sec01cron,0.1);
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}
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# general initialization
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init = func {
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# schedule the 1st call
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settimer(sec01cron,1);
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}
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var updateRNAV = func{
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# check to see if we are in-range
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if( NAV1_IN_RANGE.getValue()==0) {
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return;
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}
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var dme_valid=DME1_IN_RANGE.getValue();
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if( dme_valid == 0) {
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return;
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}
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if( dme_valid == nil) {
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return;
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}
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#### Nav Modes 0 = VOR ; 1 = VOR/PAR ; 2 = RNAV/ENR ; 3 = RNAV/APR ;
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var mode = KNS80.getNode("nav-mode").getValue();
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use =KNS80.getNode("use").getValue();
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distance=getprop("/instrumentation/dme/indicated-distance-nm");
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selected_radial = NAV1_RADIAL.getValue();
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radial = NAV1_ACTUAL.getValue();
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rho = KNS80.getNode("wpt[" ~ use ~ "]/distance").getValue();
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theta = KNS80.getNode("wpt[" ~ use ~ "]/radial").getValue();
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fangle = 0;
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radial = unnil(radial);
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theta = unnil(theta);
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rho = unnil(rho);
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distance=unnil(distance);
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x1 = distance * math.cos( radial*D2R );
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y1 = distance * math.sin( radial*D2R );
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x2 = rho * math.cos( theta*D2R );
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y2 = rho * math.sin( theta*D2R );
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range = math.sqrt( (x1-x2)*(x1-x2) + (y1-y2)*(y1-y2) );
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bearing = math.atan2 (( y1-y2), (x1-x2))*R2D;
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if(bearing < 0) bearing += 360;
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abearing = bearing > 180 ? bearing - 180 : bearing + 180;
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if( mode == 0){
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# print("KNS-80 VOR");
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needle_deflection = (NAV1_HEADING_NEEDLE_DEFLECTION.getValue());
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range = distance;
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# return;
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}
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if ( mode == 1){
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# print("KNS-80 VOR/PAR");
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fangle = math.abs(selected_radial - radial);
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needle_deflection = math.sin((selected_radial - radial) * D2R) * distance * 2;
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}
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if ( mode == 2){
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# print("KNS-80 RNAV/ENR");
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fangle = math.abs(selected_radial - bearing);
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needle_deflection = math.sin((selected_radial - bearing) * D2R) * range * 2;
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}
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if ( mode == 3){
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# print("KNS-80 RNAV/APR");
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fangle = math.abs(selected_radial - bearing);
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needle_deflection = math.sin((selected_radial - bearing) * D2R) * range * 8;
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}
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if ( needle_deflection > 10) needle_deflection = 10;
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if ( needle_deflection < -10) needle_deflection =-10;
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if (fangle < 90 or fangle >270){
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from_flag=1;
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to_flag =0;
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} else {
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from_flag=0;
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to_flag =1;
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}
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# valid=1;
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RNAV.getNode("heading-needle-deflection", 1).setDoubleValue(needle_deflection);
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CDI_NEEDLE.setDoubleValue(needle_deflection);
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TO_FLAG.setDoubleValue(to_flag);
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FROM_FLAG.setDoubleValue(from_flag);
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setprop("/instrumentation/rnav/indicated-distance-nm", range);
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setprop("/instrumentation/rnav/reciprocal-radial-deg", abearing);
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setprop("/instrumentation/rnav/actual-deg", bearing);
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##debugging
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##setprop("/instrumentation/rnav/debug-angle-deg", angle*R2D);
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##setprop("/instrumentation/rnav/debug-anglef-deg", fangle);
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##setprop("/instrumentation/rnav/debug-theta-deg",theta);
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##setprop("/instrumentation/rnav/debug-rho", rho);
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}
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setlistener("/sim/signals/fdm-initialized", func {
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KNS80.getNode("displayed-frequency",1).setDoubleValue(NAV1.getValue()* 100);
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KNS80.getNode("wpt[0]/frequency",1).setDoubleValue(NAV1.getValue()* 100);
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KNS80.getNode("displayed-radial",1).setDoubleValue(NAV1_RADIAL.getValue());
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KNS80.getNode("wpt[0]/radial",1).setDoubleValue(NAV1_RADIAL.getValue());
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props.globals.getNode("/instrumentation/nav/ident").setBoolValue(0);
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FDM_ON = 1;
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init();
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print("KNS-80 Nav System ... OK");
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});
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setlistener("/instrumentation/kns-80/volume-adjust", func {
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if(FDM_ON != 0){
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var amnt = cmdarg().getValue();
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if(amnt == nil){return;}
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amnt*=0.05;
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cmdarg().setDoubleValue(0);
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var vol = KNS80.getChild("volume").getValue();
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vol+= amnt;
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if(vol > 1.0){vol = 1.0;}
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if(vol < 0.0){vol = 0.0;KNS80.getNode("serviceable").setBoolValue(0);}
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if(vol > 0.0){KNS80.getNode("serviceable").setBoolValue(1);}
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KNS80.getNode("volume").setDoubleValue(vol);
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KNS80.getNode("volume-adjust").setDoubleValue(0);
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}
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});
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setlistener("/instrumentation/kns-80/data-adjust", func {
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if(FDM_ON != 0){
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var dmode = KNS80.getNode("data-mode").getValue();
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var num = cmdarg().getValue();
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cmdarg().setDoubleValue(0);
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if(dmode == 0){
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if(num == -1 or num ==1){num = num *5;}else{num = num *10;}
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var newfreq = KNS80.getNode("displayed-frequency").getValue();
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newfreq += num;
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if(newfreq > 11895){newfreq -= 1100;}
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if(newfreq < 10800){newfreq += 1100;}
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KNS80.getNode("displayed-frequency").setDoubleValue(newfreq);
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return;
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}
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if(dmode == 1){
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var newrad = KNS80.getNode("displayed-radial").getValue();
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newrad += num;
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if(newrad > 359){newrad -= 360;}
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if(newrad < 0){newrad += 360;}
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KNS80.getNode("displayed-radial").setDoubleValue(newrad);
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return;
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}
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if(dmode == 2){
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var newdist = KNS80.getNode("displayed-distance").getValue();
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if(num == -1 or num ==1 ){num = num *0.1;}
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newdist += num;
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if(newdist > 99){newdist -= 100;}
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if(newdist < 0){newdist += 100;}
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KNS80.getNode("displayed-distance").setDoubleValue(newdist);
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return;
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}
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}
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});
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setlistener("/instrumentation/kns-80/displayed-frequency", func {
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if(FDM_ON != 0){
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var freq = cmdarg().getValue();
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var num = KNS80.getNode("display").getValue();
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var use = KNS80.getNode("use").getValue();
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KNS80.getNode("wpt[" ~ num ~ "]/frequency").setDoubleValue(freq);
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NAV1.setDoubleValue(KNS80.getNode("wpt[" ~ use ~ "]/frequency").getValue() * 0.01);
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}
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});
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setlistener("/instrumentation/kns-80/displayed-radial", func {
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if(FDM_ON != 0){
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var rad = cmdarg().getValue();
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var num = KNS80.getNode("display").getValue();
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var radial = KNS80.getNode("use").getValue();
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KNS80.getNode("wpt[" ~ num ~ "]/radial").setDoubleValue(rad);
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}
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});
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setlistener("/instrumentation/kns-80/displayed-distance", func {
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if(FDM_ON != 0){
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var dis = cmdarg().getValue();
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var num = KNS80.getNode("display").getValue();
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KNS80.getNode("wpt[" ~ num ~ "]/distance").setDoubleValue(dis);
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}
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});
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setlistener("/instrumentation/kns-80/serviceable", func {
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if(FDM_ON != 0){
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setprop("/instrumentation/nav/serviceable",cmdarg().getValue());
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setprop("/instrumentation/dme/serviceable",cmdarg().getValue());
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}
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});
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setlistener("/instrumentation/kns-80/volume", func {
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if(FDM_ON == 0){return;}
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setprop("/instrumentation/nav/volume",cmdarg().getValue());
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setprop("/instrumentation/dme/volume",cmdarg().getValue());
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});
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setlistener("/instrumentation/kns-80/use", func {
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if(FDM_ON == 0){return;}
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var freq = cmdarg().getValue();
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KNS80.getNode("flash").setDoubleValue(0);
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KNS80.getNode("data-mode",1).setDoubleValue(0);
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NAV1.setDoubleValue(KNS80.getNode("wpt[" ~ freq ~ "]/frequency").getValue()* 0.01);
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});
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setlistener("/instrumentation/kns-80/display", func {
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if(FDM_ON == 0){return;}
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var freq = cmdarg().getValue();
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if(freq == nil){return;}
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var test = KNS80.getNode("use").getValue();
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var wpt = KNS80.getNode("wpt[" ~ freq ~ "]/frequency").getValue();
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KNS80.getNode("displayed-frequency").setDoubleValue(wpt);
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KNS80.getNode("displayed-distance").setDoubleValue(KNS80.getNode("wpt[" ~ freq ~ "]/distance").getValue());
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KNS80.getNode("displayed-radial").setDoubleValue(KNS80.getNode("wpt[" ~ freq ~ "]/radial").getValue());
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KNS80.getNode("data-mode",1).setDoubleValue(0);
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if(test != freq){
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KNS80.getNode("flash").setDoubleValue(1);
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}else{
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KNS80.getNode("flash").setDoubleValue(0);
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}
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});
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setlistener("/instrumentation/kns-80/dme-hold", func {
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if(FDM_ON == 0){return;}
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if(cmdarg().getBoolValue()){
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props.globals.getNode("instrumentation/dme/frequencies/selected-mhz").setDoubleValue(NAV1.getValue());
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props.globals.getNode("instrumentation/dme/frequencies/source").setValue("/instrumentation/dme/frequencies/selected-mhz");
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}else{
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props.globals.getNode("instrumentation/dme/frequencies/selected-mhz").setDoubleValue("");
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props.globals.getNode("instrumentation/dme/frequencies/source").setValue("/instrumentation/nav[0]/frequencies/selected-mhz");
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}
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});
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# ]]></script></PropertyList>
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