# # Chrono - Clock - ET # var chr = aircraft.timer.new("instrumentation/chrono[0]/elapsetime-sec",1); var clk = aircraft.timer.new("instrumentation/clock/elapsetime-sec",1); var chrono_cpt = aircraft.timer.new("instrumentation/ndchrono[0]/elapsetime-sec",1); var chrono_fo = aircraft.timer.new("instrumentation/ndchrono[1]/elapsetime-sec",1); var chr_min = nil; var chr_sec = nil; var chr_tmp = nil; var clock2_1 = nil; var clock2_2 = nil; var day = nil; var et_hr = nil; var et_min = nil; var et_tmp = nil; var month = nil; var rudder_val = nil; var tmp = nil; var tmp1 = nil; var UTC_date = nil; var UTC_date1 = nil; var UTC_date2 = nil; var UTC_date3 = nil; var year = nil; var et_selector = props.globals.initNode("/instrumentation/clock/et-selector", 1, "INT"); var utc_selector = props.globals.initNode("/instrumentation/clock/utc-selector",0,"INT"); var set_knob = props.globals.initNode("/instrumentation/clock/set-knob",0,"INT"); var clock = { elapsedHour: props.globals.initNode("/instrumentation/clock/et-hr", 0, "INT"), elapsedMin: props.globals.initNode("/instrumentation/clock/et-min", 0, "INT"), elapsedString: props.globals.initNode("/instrumentation/clock/elapsed-string", 0, "STRING"), elapsedSec: props.globals.initNode("/instrumentation/clock/elapsetime-sec", 0, "INT"), indicatedSec: props.globals.getNode("/instrumentation/clock/indicated-seconds"), hhMM: props.globals.initNode("/instrumentation/clock/clock_hh_mm", 0, "STRING"), utcDate: [props.globals.initNode("/instrumentation/clock/utc-date", "", "STRING"), props.globals.initNode("/instrumentation/clock/utc-date1", "", "STRING"), props.globals.initNode("/instrumentation/clock/utc-date2", "", "STRING"),props.globals.initNode("/instrumentation/clock/utc-date3", "", "STRING")], }; var chrono = { chronoReset: props.globals.initNode("/instrumentation/chrono[0]/chrono-reset", 1, "INT"), elapseTime: props.globals.initNode("/instrumentation/chrono[0]/elapsetime-sec", 0, "INT"), etMin: props.globals.initNode("/instrumentation/chrono[0]/chr-et-min", 0, "INT"), etSec: props.globals.initNode("/instrumentation/chrono[0]/chr-et-sec", 0, "INT"), etString: props.globals.initNode("/instrumentation/chrono[0]/chr-et-string", 0, "STRING"), paused: props.globals.getNode("/instrumentation/chrono[0]/paused"), started: props.globals.getNode("/instrumentation/chrono[0]/started"), }; #Cpt chrono var cpt_chrono = { etHh_cpt: props.globals.initNode("/instrumentation/ndchrono[0]/etHh_cpt", 0, "INT"), etMin_cpt: props.globals.initNode("/instrumentation/ndchrono[0]/etMin_cpt", 0, "INT"), etSec_cpt: props.globals.initNode("/instrumentation/ndchrono[0]/etSec_cpt", 0, "INT"), text: props.globals.initNode("/instrumentation/ndchrono[0]/text", "0' 00''", "STRING"), }; #Fo chrono var fo_chrono = { etHh_fo: props.globals.initNode("/instrumentation/ndchrono[1]/etHh_fo", 0, "INT"), etMin_fo: props.globals.initNode("/instrumentation/ndchrono[1]/etMin_fo", 0, "INT"), etSec_fo: props.globals.initNode("/instrumentation/ndchrono[1]/etSec_fo", 0, "INT"), text: props.globals.initNode("/instrumentation/ndchrono[1]/text", "0' 00''", "STRING"), }; var rudderTrim = { rudderTrimDisplay: props.globals.initNode("/controls/flight/rudder-trim-display", 0, "STRING"), rudderTrimDisplayLetter: props.globals.initNode("/controls/flight/rudder-trim-letter-display", "", "STRING"), }; setlistener("/sim/signals/fdm-initialized", func { chr.stop(); chr.reset(); clk.stop(); clk.reset(); chrono_cpt.reset(); chrono_fo.reset(); rudderTrim.rudderTrimDisplay.setValue(sprintf("%2.1f", pts.Fdm.JSBsim.Hydraulics.Rudder.trimDeg.getValue())); start_loop.start(); }); setlistener("/instrumentation/chrono[0]/chrono-reset", func(et){ tmp = et.getValue(); if (tmp == 2) { if (chrono.started.getBoolValue()) { if (!chrono.paused.getBoolValue()) { chrono.elapseTime.setValue(0); chrono.chronoReset.setBoolValue(0); } else { chr.stop(); chr.reset(); chrono.chronoReset.setBoolValue(1); chrono.started.setBoolValue(0); chrono.paused.setBoolValue(0); }; } else { if (!chrono.paused.getBoolValue()) { # No action required } else { chrono.paused.setBoolValue(0); }; }; } elsif (tmp == 1) { if (chrono.started.getBoolValue()) { if (!chrono.paused.getBoolValue()) { chr.stop(); chrono.paused.setBoolValue(1); } else { chr.stop(); }; } else { if (!chrono.paused.getBoolValue()) { chr.stop(); } else { chr.stop(); chrono.paused.setBoolValue(0); }; }; } elsif (tmp == 0) { if (!chrono.started.getBoolValue()) { if (!chrono.paused.getBoolValue()) { chr.start(); chrono.started.setBoolValue(1); } else { chr.start(); chrono.paused.setBoolValue(0); }; } else { if (!chrono.paused.getBoolValue()) { # No action required } else { chr.start(); chrono.paused.setBoolValue(0); }; }; }; }, 0, 0); #Chrono setlistener("instrumentation/efis[0]/inputs/CHRONO", func(et){ chrono0 = et.getValue(); if (chrono0 == 1){ chrono_cpt.start(); } elsif (chrono0 == 2) { chrono_cpt.stop(); } elsif (chrono0 == 0) { chrono_cpt.reset(); setprop("instrumentation/ndchrono[0]/elapsetime-sec", 0); } }, 0, 0); setlistener("instrumentation/efis[1]/inputs/CHRONO", func(et){ chrono1 = et.getValue(); if (chrono1 == 1){ chrono_fo.start(); } elsif (chrono1 == 2) { chrono_fo.stop(); } elsif (chrono1 == 0) { chrono_fo.reset(); setprop("instrumentation/ndchrono[1]/elapsetime-sec", 0); } }, 0, 0); setlistener("instrumentation/clock/et-selector", func(et){ tmp1 = et.getValue(); if (tmp1 == 2){ clk.reset(); } elsif (tmp1 == 1){ clk.stop(); } elsif (tmp1 == 0){ clk.start(); } }, 0, 0); var start_loop = maketimer(0.1, func { if (systems.ELEC.Bus.dcEss.getValue() < 25) { return; } # Annun-test if (pts.Controls.Switches.annunTest.getBoolValue()) { UTC_date = sprintf("%02d %02d %02d", "88", "88", "88"); UTC_date1 = sprintf("%02d", "88"); UTC_date2 = sprintf("%02d", "88"); UTC_date3 = sprintf("%02d", "88"); clock2_1 = "88:88"; clock2_2 = sprintf("%02d", 88); clock.hhMM.setValue(clock2_1); clock.indicatedSec.setValue(clock2_2); clock.utcDate[0].setValue(UTC_date); clock.utcDate[1].setValue(UTC_date1); clock.utcDate[2].setValue(UTC_date2); clock.utcDate[3].setValue(UTC_date3); chrono.etString.setValue("88 88"); clock.elapsedString.setValue("88:88"); } else { day = pts.Sim.Time.UTC.day.getValue(); month = pts.Sim.Time.UTC.month.getValue(); year = pts.Sim.Time.UTC.year.getValue(); # Clock UTC_date = sprintf("%02d %02d %02d", month, day, substr(sprintf("%2d", year),1,2)); UTC_date1 = sprintf("%02d", month); UTC_date2 = sprintf("%02d", day); UTC_date3 = substr(sprintf("%2d", year),2,2); clock2_1 = pts.Instrumentation.Clock.indicatedStringShort.getValue(); clock2_2 = sprintf("%02d", substr(pts.Instrumentation.Clock.indicatedString.getValue(),6,2)); clock.hhMM.setValue(clock2_1); clock.indicatedSec.setValue(clock2_2); clock.utcDate[0].setValue(UTC_date); clock.utcDate[1].setValue(UTC_date1); clock.utcDate[2].setValue(UTC_date2); clock.utcDate[3].setValue(UTC_date3); if (set_knob.getValue() == "") { set_knob.setValue(0); } if (utc_selector.getValue() == "") { utc_selector.setValue(0); } # if (getprop("/instrumentation/clock/utc-selector") == 0) { # # To do - GPS mode # }; # if (getprop("/instrumentation/clock/utc-selector") == 1) { # # To do - INT mode # }; # if (getprop("/instrumentation/clock/utc-selector") == 2) { # # To do - SET mode # }; # Chrono chr_tmp = chrono.elapseTime.getValue(); if (chr_tmp >= 6000) { chrono.elapseTime.setValue(chr_tmp - 6000); } chr_min = int(chr_tmp * 0.0166666666667); if (chr_tmp >= 60) { chr_sec = int(chr_tmp - (chr_min * 60)); } else { chr_sec = int(chr_tmp); } chrono.etMin.setValue(chr_min); chrono.etSec.setValue(chr_sec); chrono.etString.setValue(sprintf("%02d:%02d", chr_min, chr_sec)); # ET clock et_tmp = clock.elapsedSec.getValue(); if (et_tmp >= 360000) { clock.elapsedSec.setValue(et_tmp - 360000); } et_min = int(et_tmp * 0.0166666666667); et_hr = int(et_min * 0.0166666666667); et_min = et_min - (et_hr * 60); clock.elapsedHour.setValue(et_hr); clock.elapsedMin.setValue(et_min); clock.elapsedString.setValue(sprintf("%02d:%02d", et_hr, et_min)); foreach (item; update_items) { item.update(nil); } } #Cpt Chrono chr0_tmp = getprop("instrumentation/ndchrono[0]/elapsetime-sec"); if (chr0_tmp >= 360000) { setprop("instrumentation/ndchrono[0]/elapsetime-sec", getprop("instrumentation/ndchrono[0]/elapsetime-sec") - 360000); }; chr0_hh = int(chr0_tmp * 0.000277777777778); chr0_min = int((chr0_tmp * 0.0166666666667) - (chr0_hh * 60)); chr0_sec = int(chr0_tmp - (chr0_min * 60) - (chr0_hh * 3600)); setprop("instrumentation/ndchrono[0]/etHh_cpt", chr0_hh); setprop("instrumentation/ndchrono[0]/etMin_cpt", chr0_min); setprop("instrumentation/ndchrono[0]/etSec_cpt", chr0_sec); if (chr0_tmp >= 3600) { setprop("instrumentation/ndchrono[0]/text", sprintf("%02d H %02d'", chr0_hh, chr0_min)); } else { setprop("instrumentation/ndchrono[0]/text", sprintf("%02d' %02d''", chr0_min, chr0_sec)); } #Fo Chrono chr1_tmp = getprop("instrumentation/ndchrono[1]/elapsetime-sec"); if (chr1_tmp >= 360000) { setprop("instrumentation/ndchrono[1]/elapsetime-sec", getprop("instrumentation/ndchrono[1]/elapsetime-sec") - 360000); }; chr1_hh = int(chr1_tmp * 0.000277777777778); chr1_min = int(chr1_tmp * 0.0166666666667); chr1_sec = int(chr1_tmp - (chr1_min * 60) - (chr1_hh * 3600)); setprop("instrumentation/ndchrono[1]/etHh_fo", chr1_hh); setprop("instrumentation/ndchrono[1]/etMin_fo", chr1_min); setprop("instrumentation/ndchrono[1]/etSec_fo", chr1_sec); if (chr1_tmp >= 3600) { setprop("instrumentation/ndchrono[1]/text", sprintf("%02d H %02d'", chr1_hh, chr1_min)); } else { setprop("instrumentation/ndchrono[1]/text", sprintf("%02d' %02d''", chr1_min, chr1_sec)); } }); var updateRudderTrim = func() { if (pts.Controls.Switches.annunTest.getBoolValue()) { rudderTrim.rudderTrimDisplay.setValue(sprintf("%3.1f", "88.8")); rudderTrim.rudderTrimDisplayLetter.setValue(sprintf("%1.0f", "8")); } else { rudder_val = pts.Fdm.JSBsim.Hydraulics.Rudder.trimDeg.getValue(); if (rudder_val > -0.05 and rudder_val < 0.05) { rudderTrim.rudderTrimDisplay.setValue(sprintf("%2.1f", abs(rudder_val))); rudderTrim.rudderTrimDisplayLetter.setValue(""); } else { rudderTrim.rudderTrimDisplay.setValue(sprintf("%2.1f", abs(rudder_val))); if (rudder_val >= 0.05) { rudderTrim.rudderTrimDisplayLetter.setValue("R"); } elsif (rudder_val <= -0.05) { rudderTrim.rudderTrimDisplayLetter.setValue("L"); } } } } var update_items = [ props.UpdateManager.FromProperty("/fdm/jsbsim/hydraulics/rudder/trim-deg", 0.05, func(notification) { updateRudderTrim(); } ), ]; setlistener("/controls/switches/annun-test", updateRudderTrim, 0, 0);