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fgdata/Aircraft/Instruments-3d/clock/M877/M877.nas

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var m877 = {
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new : func(prop1){
var m = { parents : [m877]};
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m.MODE =0;
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m.flip =0;
m.digit_to_set=0;
m.digit=[];
m.set_mode=0;
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m.ctl_timer=0;
m.et_start_time=0;
m.et_countdown=0;
m.et_running=0;
m.et_elapsed=0;
m.ft_start_time=0;
m.ft_running=0;
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m.modetext =["GMT","LT","FT","ET"];
m.M877 = props.globals.initNode(prop1);
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m.fmeter_sec=m.M877.initNode("flight-meter-sec",0,"DOUBLE");
m.fmeter=aircraft.timer.new(m.fmeter_sec,1,1);
m.tenths=m.M877.initNode("tenths",0,"BOOL");
m.ET_alarm=m.M877.initNode("et-alarm",0,"BOOL");
m.FT_alarm=m.M877.initNode("ft-alert",0,"BOOL");
m.FT_alarm_time=m.M877.initNode("ft-alarm-time",0,"BOOL");
append(m.digit,m.M877.initNode("digit[0]",1,"BOOL"));
append(m.digit,m.M877.initNode("digit[1]",1,"BOOL"));
append(m.digit,m.M877.initNode("digit[2]",1,"BOOL"));
append(m.digit,m.M877.initNode("digit[3]",1,"BOOL"));
m.modestring=m.M877.initNode("mode-string",m.modetext[m.MODE],"STRING");
m.power=m.M877.initNode("power",1,"BOOL");
m.HR=m.M877.initNode("indicated-hour",0,"INT");
m.MN=m.M877.initNode("indicated-min",0,"INT");
m.ET_HR=m.M877.initNode("ET-hr",0,"INT");
m.ET_MN=m.M877.initNode("ET-min",0,"INT");
m.FT_HR=m.M877.initNode("FT-hr",0,"INT");
m.FT_MN=m.M877.initNode("FT-min",0,"INT");
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return m;
},
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#### flightmeter ####
fmeter_control : func(){
var ias =getprop("velocities/airspeed-kt");
if(ias>30){
if(me.ft_running==0){
me.ft_running=1;
me.fmeter.start();
}
}elsif(ias<30){
if(me.ft_running==1){
me.ft_running=0;
me.fmeter.stop();
}
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}
},
#### displayed mode ####
select_display : func(){
if(me.set_mode==0){
me.MODE +=1;
if(me.MODE>3)me.MODE -=4;
me.modestring.setValue(me.modetext[me.MODE]);
}else{
me.digit[me.digit_to_set].setValue(1);
me.digit_to_set+=1;
if(me.digit_to_set>3){
me.digit_to_set=0;
me.set_mode=0;
}
}
},
#### set displayed mode ####
set_time : func(){
me.set_mode=1-me.set_mode;
},
#### CTL button action ####
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control_action : func(tmr){
if(me.set_mode==0){
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if(me.MODE==2){
me.ctl_timer+=getprop("/sim/time/delta-realtime-sec");
me.ctl_timer *=tmr;
if(me.ctl_timer>1.5)me.fmeter.reset();
}elsif(me.MODE==3){
if(me.et_running==0){
me.et_start_time=getprop("/sim/time/elapsed-sec");
me.et_running=1;
}else{
me.et_start_time=getprop("/sim/time/elapsed-sec");
me.et_elapsed=0;
me.et_running=0;
}
}
}else{
if(me.MODE==0){
me.set_gmt();
}elsif(meMODE==1){
me.set_lt();
}elsif(meMODE==2){
me.set_ft();
}elsif(meMODE==3){
me.set_et();
}
}
},
#### set GMT ####
set_gmt : func(){
},
#### set LT ####
set_lt : func(){
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},
#### set FT ####
set_ft : func(){
},
#### set ET ####
set_et : func(){
},
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#### elapsed time ####
update_ET : func(){
if(me.et_running!=0){
me.et_elapsed=getprop("/sim/time/elapsed-sec") - me.et_start_time;
}
var ethour = me.et_elapsed/3600;
var hr= int(ethour);
var etmin=(ethour-hr) * 60;
var min = int(etmin);
var etsec= (etmin- min) *60;
if(ethour <1){
me.ET_HR.setValue(min);
me.ET_MN.setValue(etsec);
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}else{
me.ET_HR.setValue(hr);
me.ET_MN.setValue(min);
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}
},
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#### flight time ####
update_FT : func(){
var fthour = me.fmeter_sec.getValue()/3600;
var hr= int(fthour);
var ftmin=(fthour-hr) * 60;
var min = int(ftmin);
var ftsec= (ftmin- min) *60;
if(fthour <1){
me.FT_HR.setValue(min);
me.FT_MN.setValue(ftsec);
}else{
me.FT_HR.setValue(hr);
me.FT_MN.setValue(min);
}
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},
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#### update clock ####
update_clock : func{
var pwr=me.power.getValue();
me.fmeter_control();
if(me.set_mode==0){
pwr=1-pwr;
}else{
pwr=1;
}
me.power.setValue(pwr);
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if(me.flip==0){
me.update_ET();
}else{
me.update_FT();
}
if(me.MODE ==0){
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me.HR.setValue(getprop("/instrumentation/clock/indicated-hour"));
me.MN.setValue(getprop("/instrumentation/clock/indicated-min"));
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}elsif(me.MODE == 1) {
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me.HR.setValue(getprop("/instrumentation/clock/local-hour"));
me.MN.setValue(getprop("/instrumentation/clock/indicated-min"));
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}elsif(me.MODE == 2) {
me.HR.setValue(me.FT_HR.getValue());
me.MN.setValue(me.FT_MN.getValue());
}elsif(me.MODE == 3) {
me.HR.setValue(me.ET_HR.getValue());
me.MN.setValue(me.ET_MN.getValue());
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}
if(me.set_mode==1){
var flsh=me.digit[me.digit_to_set].getValue();
flsh=1-flsh;
me.digit[me.digit_to_set].setValue(flsh);
}else{
me.digit[me.digit_to_set].setValue(1);
}
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me.flip=1-me.flip;
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},
};
#####################################
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var davtron=m877.new("instrumentation/clock/m877");
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setlistener("/sim/signals/fdm-initialized", func {
settimer(update,2);
print("Chronometer ... Check");
});
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var update = func{
davtron.update_clock();
settimer(update,0.5);
}