# A3XX PFD # Copyright (c) 2020 Josh Davidson (Octal450) var acconfig = props.globals.getNode("/systems/acconfig/autoconfig-running", 1); var acconfig_weight_kgs = props.globals.getNode("/systems/acconfig/options/weight-kgs", 1); var adr_1_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-1", 1); var adr_2_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-2", 1); var adr_3_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-3", 1); var adr_1_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-1-fault", 1); var adr_2_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-2-fault", 1); var adr_3_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-3-fault", 1); var air_data_switch = props.globals.getNode("/controls/navigation/switching/air-data", 1); var altitude = props.globals.getNode("/instrumentation/altimeter/indicated-altitude-ft", 1); var alt_hpa = props.globals.getNode("/instrumentation/altimeter/setting-hpa", 1); var alt_inhg = props.globals.getNode("/instrumentation/altimeter/setting-inhg", 1); var aoa_1 = props.globals.getNode("/systems/navigation/adr/output/aoa-1", 1); var aoa_2 = props.globals.getNode("/systems/navigation/adr/output/aoa-2", 1); var aoa_3 = props.globals.getNode("/systems/navigation/adr/output/aoa-3", 1); var hundredAbove = props.globals.getNode("/instrumentation/pfd/hundred-above", 1); var minimum = props.globals.getNode("/instrumentation/pfd/minimums", 1); setprop("test", 0); setprop("test2", 0); # Create Nodes: var altFlash = [0,0]; var amberFlash = [0, 0]; var dhFlash = 0; var ilsFlash = [0,0]; var qnhFlash = [0,0]; var elapsedtime_act = nil; var du1_test = props.globals.initNode("/instrumentation/du/du1-test", 0, "BOOL"); var du1_test_time = props.globals.initNode("/instrumentation/du/du1-test-time", 0.0, "DOUBLE"); var du1_offtime = props.globals.initNode("/instrumentation/du/du1-off-time", 0.0, "DOUBLE"); var du1_test_amount = props.globals.initNode("/instrumentation/du/du1-test-amount", 0.0, "DOUBLE"); var du2_test = props.globals.initNode("/instrumentation/du/du2-test", 0, "BOOL"); var du2_test_time = props.globals.initNode("/instrumentation/du/du2-test-time", 0.0, "DOUBLE"); var du2_test_amount = props.globals.initNode("/instrumentation/du/du2-test-amount", 0.0, "DOUBLE"); var du5_test = props.globals.initNode("/instrumentation/du/du5-test", 0, "BOOL"); var du5_test_time = props.globals.initNode("/instrumentation/du/du5-test-time", 0.0, "DOUBLE"); var du5_test_amount = props.globals.initNode("/instrumentation/du/du5-test-amount", 0.0, "DOUBLE"); var du6_test = props.globals.initNode("/instrumentation/du/du6-test", 0, "BOOL"); var du6_test_time = props.globals.initNode("/instrumentation/du/du6-test-time", 0.0, "DOUBLE"); var du6_test_amount = props.globals.initNode("/instrumentation/du/du6-test-amount", 0.0, "DOUBLE"); var du6_offtime = props.globals.initNode("/instrumentation/du/du6-off-time", 0.0, "DOUBLE"); var autoland_alarm = props.globals.initNode("/instrumentation/pfd/logic/autoland/autoland-alarm", 0, "BOOL"); var autoland_pulse = props.globals.initNode("/instrumentation/pfd/logic/autoland/autoland-sw-pulse", 0, "BOOL"); var autoland_pitch_land = props.globals.initNode("/instrumentation/pfd/logic/autoland/pitch-land", 0, "BOOL"); var autoland_ap_disc_ft = props.globals.initNode("/instrumentation/pfd/logic/autoland/ap-disc-ft", 0, "INT"); var canvas_pfd = { ASItrendIsShown: 0, middleOffset: 0, heading: 0, heading10: 0, headOffset: 0, middleText: 0, leftText1: 0, leftText2: 0, leftText3: 0, rightText1: 0, rightText2: 0, rightText3: 0, track_diff: 0, split_ils: 0, magnetic_hdg_dif: 0, alt_diff_cur: 0, new: func(svg, name, number) { var obj = {parents: [canvas_pfd] }; obj.canvas = canvas.new({ "name": "PFD" ~ number, "size": [1024, 1024], "view": [1024, 1024], "mipmapping": 1, }); obj.canvas.addPlacement({"node": "pfd" ~ (number + 1) ~ ".screen"}); obj.group = obj.canvas.createGroup(); obj.test = obj.canvas.createGroup(); obj.mismatch = obj.canvas.createGroup(); obj.font_mapper = func(family, weight) { return "ECAMFontRegular.ttf"; }; canvas.parsesvg(obj.group, svg, {"font-mapper": obj.font_mapper} ); foreach(var key; obj.getKeys()) { obj[key] = obj.group.getElementById(key); var clip_el = obj.group.getElementById(key ~ "_clip"); if (clip_el != nil) { clip_el.setVisible(0); var tran_rect = clip_el.getTransformedBounds(); var clip_rect = sprintf("rect(%d,%d, %d,%d)", tran_rect[1], tran_rect[2], tran_rect[3], tran_rect[0]); obj[key].set("clip", clip_rect); obj[key].set("clip-frame", canvas.Element.PARENT); } }; canvas.parsesvg(obj.test, "Aircraft/A320-family/Models/Instruments/Common/res/du-test.svg", {"font-mapper": obj.font_mapper} ); canvas.parsesvg(obj.mismatch, "Aircraft/A320-family/Models/Instruments/Common/res/mismatch.svg", {"font-mapper": obj.font_mapper} ); foreach(var key; obj.getKeysTest()) { obj[key] = obj.test.getElementById(key); }; foreach(var key; obj.getKeysMismatch()) { obj[key] = obj.mismatch.getElementById(key); }; obj.number = number; obj.units = acconfig_weight_kgs.getValue(); # temporary vars obj.ASItrendIsShown = 0; obj.middleOffset = 0; obj.heading = 0; obj.heading10 = 0; obj.headOffset = 0; obj.middleText = 0; obj.leftText1 = 0; obj.leftText2 = 0; obj.leftText3 = 0; obj.rightText1 = 0; obj.rightText2 = 0; obj.rightText3 = 0; obj.track_diff = 0; obj.split_ils = 0; obj.magnetic_hdg_dif = 0; obj.alt_diff_cur = 0; # hide non-updated objects obj["FMA_catmode"].hide(); obj["FMA_cattype"].hide(); obj["FMA_catmode_box"].hide(); obj["FMA_cattype_box"].hide(); obj["FMA_cat_box"].hide(); obj["spdLimError"].hide(); obj["FMA_dh_box"].hide(); # init hidden objects obj["LOC_scale"].hide(); obj["GS_scale"].hide(); obj.temporaryNodes = { showGroundReferenceAGL: 0, showTailstrikeAGL: 0, showTailstrikeGroundspeed: 0, showTailstrikeThrust: 0, }; obj.AICenter = obj["AI_center"].getCenter(); obj.update_items = [ props.UpdateManager.FromHashValue("pitchPFD", 0.025, func(val) { obj.AI_horizon_trans.setTranslation(0, val * 11.825); }), props.UpdateManager.FromHashValue("roll", 0.025, func(val) { obj.AI_horizon_rot.setRotation(-val * D2R, obj.AICenter); obj.AI_horizon_ground_rot.setRotation(-val * D2R, obj.AICenter); obj.AI_horizon_sky_rot.setRotation(-val * D2R, obj.AICenter); obj.AI_horizon_hdg_rot.setRotation(-val * D2R, obj.AICenter); obj["AI_bank"].setRotation(-val * D2R); obj["AI_agl_g"].setRotation(-val * D2R); obj.AI_fpv_rot.setRotation(-val * D2R, obj.AICenter); obj["FPV"].setRotation(val * D2R); # It shouldn't be rotated, only the axis should }), props.UpdateManager.FromHashValue("fbwLaw", 1, func(val) { if (val == 0) { obj["AI_bank_lim"].show(); obj["AI_pitch_lim"].show(); obj["AI_bank_lim_X"].hide(); obj["AI_pitch_lim_X"].hide(); } else { obj["AI_bank_lim"].hide(); obj["AI_pitch_lim"].hide(); obj["AI_bank_lim_X"].show(); obj["AI_pitch_lim_X"].show(); } }), props.UpdateManager.FromHashValue("horizonGround", 0.1, func(val) { obj.AI_horizon_ground_trans.setTranslation(0, val * 11.825); }), props.UpdateManager.FromHashList(["middleOffset","horizonPitch"], 0.1, func(val) { obj.AI_horizon_hdg_trans.setTranslation(val.middleOffset, val.horizonPitch * 11.825); }), props.UpdateManager.FromHashValue("slipSkid", 0.1, func(val) { obj["AI_slipskid"].setTranslation(math.clamp(val, -15, 15) * 7, 0); }), props.UpdateManager.FromHashValue("FDRollBar", 0.1, func(val) { obj["FD_roll"].setTranslation(val * 2.2, 0); }), props.UpdateManager.FromHashValue("FDPitchBar", 0.1, func(val) { obj["FD_pitch"].setTranslation(0, val * -3.8); }), props.UpdateManager.FromHashValue("agl", 0.5, func(val) { var roundingFactor = 1; if (val >= 50) { roundingFactor = 10; } else if (val >= 5) { roundingFactor = 5; } obj["AI_agl"].setText(sprintf("%s", math.round(math.clamp(val, 0, 2500), roundingFactor))); obj["ground_ref"].setTranslation(0, (-val / 100) * -48.66856); obj["ground"].setTranslation(0, (-val / 100) * -48.66856); if (abs(val) <= 565) { obj.temporaryNodes.showGroundReferenceAGL = 1; } else { obj.temporaryNodes.showGroundReferenceAGL = 0; } if (val <= 400) { obj.temporaryNodes.showTailstrikeAGL = 1; } else { obj.temporaryNodes.showTailstrikeAGL = 0; } }), props.UpdateManager.FromHashValue("vsNeedle", 0.1, func(val) { obj["VS_pointer"].setRotation(val * D2R); }), props.UpdateManager.FromHashValue("vsDigit", 0.5, func(val) { obj["VS_box"].setTranslation(0, val); }), props.UpdateManager.FromHashValue("vsPFD", 0.5, func(val) { if (val < 2) { obj["VS_box"].hide(); } else { obj["VS_digit"].setText(sprintf("%02d", val)); obj["VS_box"].show(); } }), props.UpdateManager.FromHashValue("localizer", 0.0025, func(val) { obj["LOC_pointer"].setTranslation(val * 197, 0); }), props.UpdateManager.FromHashValue("glideslope", 0.0025, func(val) { obj["GS_pointer"].setTranslation(0, val * -197); }), props.UpdateManager.FromHashList(["athr", "thrustLvrClb"], 1, func(val) { if (val.athr and val.thrustLvrClb) { obj["FMA_lvrclb"].show(); } else { obj["FMA_lvrclb"].hide(); } }), props.UpdateManager.FromHashList(["trackPFD","headingPFD","aoaPFD"], 0.01, func(val) { obj.track_diff = geo.normdeg180(val.trackPFD - val.headingPFD); # store this to use in FPV obj["TRK_pointer"].setTranslation(obj.getTrackDiffPixels(obj.track_diff),0); obj.AI_fpv_trans.setTranslation(obj.getTrackDiffPixels(math.clamp(obj.track_diff, -21, 21)), math.clamp(val.aoaPFD, -20, 20) * 12.5); }), props.UpdateManager.FromHashList(["vsAutopilot","agl"], 5, func(val) { if (abs(val.vsAutopilot) >= 6000 or (val.vsAutopilot <= -2000 and val.agl <= 2500) or (val.vsAutopilot <= -1200 and val.agl <= 1000)) { obj["VS_digit"].setColor(0.7333,0.3803,0); obj["VS_pointer"].setColor(0.7333,0.3803,0); obj["VS_pointer"].setColorFill(0.7333,0.3803,0); } else { obj["VS_digit"].setColor(0.0509,0.7529,0.2941); obj["VS_pointer"].setColor(0.0509,0.7529,0.2941); obj["VS_pointer"].setColorFill(0.0509,0.7529,0.2941); } }), props.UpdateManager.FromHashList(["aileronPFD","elevatorPFD"], 0.01, func(val) { obj["AI_stick_pos"].setTranslation(val.aileronPFD * 196.8, val.elevatorPFD * 151.5); }), props.UpdateManager.FromHashValue("headingScale", 0.025, func(val) { obj.heading = val; obj.heading10 = (obj.heading / 10); obj.headOffset = obj.heading10 - int(obj.heading10); obj.middleText = roundabout(obj.heading10); obj.middleOffset = 0; if (obj.middleText == 36) { obj.middleText = 0; } obj.leftText1 = obj.middleText == 0 ? 35 : obj.middleText - 1; obj.rightText1 = obj.middleText == 35 ? 0: obj.middleText + 1; obj.leftText2 = obj.leftText1 == 0 ? 35 : obj.leftText1 - 1; obj.rightText2 = obj.rightText1 == 35 ? 0 : obj.rightText1 + 1; obj.leftText3 = obj.leftText2 == 0 ? 35 : obj.leftText2 - 1; obj.rightText3 = obj.rightText2 == 35 ? 0 : obj.rightText2 + 1; if (obj.headOffset > 0.5) { obj.middleOffset = -(obj.headOffset - 1) * 98.5416; } else { obj.middleOffset = -obj.headOffset * 98.5416; } obj["HDG_scale"].setTranslation(obj.middleOffset, 0); obj["HDG_scale"].update(); obj["HDG_four"].setText(sprintf("%d", obj.middleText)); obj["HDG_five"].setText(sprintf("%d", obj.rightText1)); obj["HDG_three"].setText(sprintf("%d", obj.leftText1)); obj["HDG_six"].setText(sprintf("%d", obj.rightText2)); obj["HDG_two"].setText(sprintf("%d", obj.leftText2)); obj["HDG_seven"].setText(sprintf("%d", obj.rightText3)); obj["HDG_one"].setText(sprintf("%d", obj.leftText3)); # TODO: optimize here - only when the attributes update obj["HDG_four"].setFontSize(fontSizeHDG(obj.middleText), 1); obj["HDG_five"].setFontSize(fontSizeHDG(obj.rightText1), 1); obj["HDG_three"].setFontSize(fontSizeHDG(obj.leftText1), 1); obj["HDG_six"].setFontSize(fontSizeHDG(obj.rightText2), 1); obj["HDG_two"].setFontSize(fontSizeHDG(obj.leftText2), 1); obj["HDG_seven"].setFontSize(fontSizeHDG(obj.rightText3), 1); obj["HDG_one"].setFontSize(fontSizeHDG(obj.leftText3), 1); }), props.UpdateManager.FromHashValue("altitudeAutopilot", 50, func(val) { obj["ALT_digit_UP_metric"].setText(sprintf("%5.0fM", val * 0.3048)); }), props.UpdateManager.FromHashList(["fac1","fac2"], 1, func(val) { if (obj.number == 0) { # LHS only acc to manual if (!val.fac1 and !val.fac2) { obj["spdLimError"].show(); } else { obj["spdLimError"].hide(); } } }), props.UpdateManager.FromHashValue("athrArm", 1, func(val) { if (val != 1) { obj["FMA_athr"].setColor(0.8078,0.8039,0.8078); } else { obj["FMA_athr"].setColor(0.0901,0.6039,0.7176); } }), props.UpdateManager.FromHashList(["apBox","apMode"], nil, func(val) { obj["FMA_ap"].setText(val.apMode); if (val.apBox and val.apMode != " ") { obj["FMA_ap_box"].show(); } else { obj["FMA_ap_box"].hide(); } }), props.UpdateManager.FromHashList(["atBox","atMode"], nil, func(val) { obj["FMA_athr"].setText(val.atMode); if (val.atBox and val.atMode != " ") { obj["FMA_athr_box"].show(); } else { obj["FMA_athr_box"].hide(); } }), props.UpdateManager.FromHashValue("rollMode", nil, func(val) { obj["FMA_roll"].setText(val); }), props.UpdateManager.FromHashValue("rollModeArmed", nil, func(val) { obj["FMA_rollarm"].setText(val); }), props.UpdateManager.FromHashList(["pitchMode","pitchModeBox","autopilotVS","autopilotFPA","pitchMode2Armed","pitchModeArmed","pitchMode2ArmedBox","pitchModeArmedBox","rollMode","rollModeBox","rollModeArmed","rollModeArmedBox","ap1","ap2","fd1","fd2"], nil, func(val) { obj["FMA_combined"].setText(val.pitchMode); if (val.pitchMode == "V/S") { obj["FMA_pitch"].setText("V/S "); obj["vsFMArate"].setText(sprintf("%+4.0f",val.autopilotVS)); obj["vsFMArate"].show(); } elsif (val.pitchMode == "FPA") { obj["FMA_pitch"].setText("FPA "); obj["vsFMArate"].setText(sprintf("%+3.1f°",val.autopilotFPA)); obj["vsFMArate"].show(); } else { obj["FMA_pitch"].setText(val.pitchMode); obj["vsFMArate"].hide(); } if (val.pitchMode == "LAND" or val.pitchMode == "FLARE" or val.pitchMode == "ROLL OUT") { obj["FMA_pitch"].hide(); obj["FMA_roll"].hide(); obj["FMA_pitch_box"].hide(); obj["FMA_roll_box"].hide(); obj["FMA_pitcharm_box"].hide(); obj["FMA_rollarm_box"].hide(); obj["FMA_Middle1"].hide(); obj["FMA_Middle2"].hide(); obj["FMA_combined"].show(); if (val.pitchModeBox and val.pitchMode != " ") { obj["FMA_combined_box"].show(); } else { obj["FMA_combined_box"].hide(); } } else { obj["FMA_combined"].hide(); obj["FMA_combined_box"].hide(); if (val.pitchModeBox and val.pitchMode != " " and (val.ap1 or val.ap2 or val.fd1 or val.fd2)) { obj["FMA_pitch_box"].show(); } else { obj["FMA_pitch_box"].hide(); } if (val.pitchModeArmed == " " and val.pitchMode2Armed == " ") { obj["FMA_pitcharm_box"].hide(); } else { if ((val.pitchModeArmedBox or val.pitchMode2ArmedBox) and (val.ap1 or val.ap2 or val.fd1 or val.fd2)) { obj["FMA_pitcharm_box"].show(); } else { obj["FMA_pitcharm_box"].hide(); } } if (val.rollModeBox == 1 and val.rollMode != " " and (val.ap1 or val.ap2 or val.fd1 or val.fd2)) { obj["FMA_roll_box"].show(); } else { obj["FMA_roll_box"].hide(); } if (val.rollModeArmedBox == 1 and val.rollModeArmed != " " and (val.ap1 or val.ap2 or val.fd1 or val.fd2)) { obj["FMA_rollarm_box"].show(); } else { obj["FMA_rollarm_box"].hide(); } } }), props.UpdateManager.FromHashValue("pitchModeArmed", nil, func(val) { obj["FMA_pitcharm"].setText(val); }), props.UpdateManager.FromHashValue("pitchMode2Armed", nil, func(val) { obj["FMA_pitcharm2"].setText(val); }), props.UpdateManager.FromHashList(["fdBox","fdMode"], nil, func(val) { obj["FMA_fd"].setText(val.fdMode); if (val.fdBox and val.fdMode != " ") { obj["FMA_fd_box"].show(); } else { obj["FMA_fd_box"].hide(); } }), props.UpdateManager.FromHashList(["fd1","fd2","ap1","ap2"], 1, func(val) { if (val.fd1 or val.fd2 or val.ap1 or val.ap2) { obj["FMA_pitcharm"].show(); obj["FMA_pitcharm2"].show(); obj["FMA_rollarm"].show(); obj["FMA_pitch"].show(); obj["FMA_roll"].show(); } else { obj["FMA_pitcharm"].hide(); obj["FMA_pitcharm2"].hide(); obj["FMA_rollarm"].hide(); obj["FMA_pitch"].hide(); obj["FMA_roll"].hide(); } }), props.UpdateManager.FromHashList(["gear1Wow","gear2Wow","fmgcPhase","engine1State","engine2State"], 1, func(val) { if ((val.gear1Wow or val.gear2Wow) and val.fmgcPhase != 0 and val.fmgcPhase != 1) { obj["AI_stick"].show(); obj["AI_stick_pos"].show(); } else if ((val.gear1Wow or val.gear2Wow) and (val.fmgcPhase == 0 or val.fmgcPhase == 1) and (val.engine1State == 3 or val.engine2State == 3)) { obj["AI_stick"].show(); obj["AI_stick_pos"].show(); } else { obj["AI_stick"].hide(); obj["AI_stick_pos"].hide(); } }), props.UpdateManager.FromHashList(["markerO","markerM","markerI"], 1, func(val) { if (val.markerO) { obj["outerMarker"].show(); obj["middleMarker"].hide(); obj["innerMarker"].hide(); } else if (val.markerM) { obj["middleMarker"].show(); obj["outerMarker"].hide(); obj["innerMarker"].hide(); } else if (val.markerI) { obj["innerMarker"].show(); obj["outerMarker"].hide(); obj["middleMarker"].hide(); } else { obj["outerMarker"].hide(); obj["middleMarker"].hide(); obj["innerMarker"].hide(); } }), props.UpdateManager.FromHashList(["pfdILS1","pfdILS2"], 1, func(val) { if ((obj.number == 0 and val.pfdILS1) or (obj.number == 1 and val.pfdILS2)) { obj["LOC_scale"].show(); obj["GS_scale"].show(); } else { obj["LOC_scale"].hide(); obj["GS_scale"].hide(); } }), props.UpdateManager.FromHashList(["hasLocalizer","hasGlideslope","signalQuality","localizerInRange","glideslopeInRange","pfdILS1","pfdILS2"], nil, func(val) { if (((obj.number == 0 and val.pfdILS1) or (obj.number == 1 and val.pfdILS2)) and val.localizerInRange and val.hasLocalizer and val.signalQuality > 0.99) { obj["LOC_pointer"].show(); } else { obj["LOC_pointer"].hide(); } if (((obj.number == 0 and val.pfdILS1) or (obj.number == 1 and val.pfdILS2)) and val.glideslopeInRange and val.hasGlideslope and val.signalQuality > 0.99) { obj["GS_pointer"].show(); } else { obj["GS_pointer"].hide(); } }), props.UpdateManager.FromHashList(["fd1","fd2","rollMode","pitchMode","trkFpa","pitchWithinLimits","rollWithinLimits","gear1Wow"], nil, func(val) { if (((obj.number == 0 and val.fd1) or (obj.number == 1 and val.fd2)) and val.trkFpa == 0 and val.pitchWithinLimits and val.rollWithinLimits) { if (val.rollMode != " " and !val.gear1Wow) { obj["FD_roll"].show(); } else { obj["FD_roll"].hide(); } if (val.pitchMode != " ") { obj["FD_pitch"].show(); } else { obj["FD_pitch"].hide(); } } else { obj["FD_roll"].hide(); obj["FD_pitch"].hide(); } }), props.UpdateManager.FromHashList(["thrust1","thrust2","engOut"], nil, func(val) { if ((val.thrust1 == "CL" and val.thrust2 != "CL") or (val.thrust1 != "CL" and val.thrust2 == "CL") and val.engOut != 1) { obj["FMA_lvrclb"].setText("LVR ASYM"); } else { if (val.engOut == 1) { obj["FMA_lvrclb"].setText("LVR MCT"); } else { obj["FMA_lvrclb"].setText("LVR CLB"); } } }), props.UpdateManager.FromHashList(["alphaFloor","togaLk","thrust1","thrust2","throttleMode","throttleModeBox","thrustLimit","engOut","thr1","thr2","athr"], nil, func(val) { if (val.athr and (val.thrust1 == "TOGA" or val.thrust1 == "MCT" or val.thrust1 == "MAN THR" or val.thrust2 == "TOGA" or val.thrust2 == "MCT" or val.thrust2 == "MAN THR") and val.engOut != 1 and val.alphaFloor != 1 and val.togaLk != 1) { obj["FMA_man"].show(); if (val.thrust1 == "TOGA" or val.thrust2 == "TOGA") { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("TOGA"); obj["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((val.thrust1 == "MAN THR" and val.thr1 >= 0.83) or (val.thrust2 == "MAN THR" and val.thr2 >= 0.83)) { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("THR"); obj["FMA_man_box"].setColor(0.7333,0.3803,0); } else if ((val.thrust1 == "MCT" or val.thrust2 == "MCT") and val.thrustLimit != "FLX") { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("MCT"); obj["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((val.thrust1 == "MCT" or val.thrust2 == "MCT") and val.thrustLimit == "FLX") { obj["FMA_man_box"].hide(); obj["FMA_flx_box"].show(); obj["FMA_flxtemp"].show(); obj["FMA_manmode"].hide(); obj["FMA_flxmode"].show(); obj["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((val.thrust1 == "MAN THR" and val.thr1 < 0.83) or (val.thrust2 == "MAN THR" and val.thr2 < 0.83)) { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("THR"); obj["FMA_man_box"].setColor(0.7333,0.3803,0); } } else if (val.athr and (val.thrust1 == "TOGA" or (val.thrust1 == "MCT" and val.thrustLimit == "FLX") or (val.thrust1 == "MAN THR" and val.thr1 >= 0.83) or val.thrust2 == "TOGA" or (val.thrust2 == "MCT" and val.thrustLimit == "FLX") or (val.thrust2 == "MAN THR" and val.thr2 >= 0.83)) and val.engOut and val.alphaFloor != 1 and val.togaLk != 1) { obj["FMA_man"].show(); if (val.thrust1 == "TOGA" or val.thrust2 == "TOGA") { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("TOGA"); obj["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((val.thrust1 == "MAN THR" and val.thr1 >= 0.83) or (val.thrust2 == "MAN THR" and val.thr2 >= 0.83)) { obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_man_box"].show(); obj["FMA_manmode"].show(); obj["FMA_flxmode"].hide(); obj["FMA_manmode"].setText("THR"); obj["FMA_man_box"].setColor(0.7333,0.3803,0); } else if ((val.thrust1 == "MCT" or val.thrust2 == "MCT") and val.thrustLimit == "FLX") { obj["FMA_man_box"].hide(); obj["FMA_flx_box"].show(); obj["FMA_flxtemp"].show(); obj["FMA_manmode"].hide(); obj["FMA_flxmode"].show(); obj["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } } else { obj["FMA_man"].hide(); obj["FMA_manmode"].hide(); obj["FMA_man_box"].hide(); obj["FMA_flx_box"].hide(); obj["FMA_flxtemp"].hide(); obj["FMA_flxmode"].hide(); } if (val.alphaFloor != 1 and val.togaLk != 1) { if (val.athr and val.engOut != 1 and (val.thrust1 == "MAN" or val.thrust1 == "CL") and (val.thrust2 == "MAN" or val.thrust2 == "CL")) { obj["FMA_thrust"].show(); if (val.throttleModeBox and val.throttleMode != " ") { obj["FMA_thrust_box"].show(); } else { obj["FMA_thrust_box"].hide(); } } else if (val.athr and val.engOut and (val.thrust1 == "MAN" or val.thrust1 == "CL" or (val.thrust1 == "MAN THR" and val.thr1 < 0.83) or (val.thrust1 == "MCT" and val.thrustLimit != "FLX")) and (val.thrust2 == "MAN" or val.thrust2 == "CL" or (val.thrust2 == "MAN THR" and val.thr2 < 0.83) or (val.thrust2 == "MCT" and val.thrustLimit != "FLX"))) { obj["FMA_thrust"].show(); if (val.throttleModeBox and val.throttleMode != " ") { obj["FMA_thrust_box"].show(); } else { obj["FMA_thrust_box"].hide(); } } else { obj["FMA_thrust"].hide(); obj["FMA_thrust_box"].hide(); } } else { obj["FMA_thrust"].show(); obj["FMA_thrust_box"].show(); } if (val.alphaFloor) { obj["FMA_thrust"].setText("A.FLOOR"); obj["FMA_thrust_box"].setColor(0.7333,0.3803,0); } else if (val.togaLk) { obj["FMA_thrust"].setText("TOGA LK"); obj["FMA_thrust_box"].setColor(0.7333,0.3803,0); } else { obj["FMA_thrust"].setText(sprintf("%s", val.throttleMode)); obj["FMA_thrust_box"].setColor(0.8078,0.8039,0.8078); } }), props.UpdateManager.FromHashValue("flexTemp", 1, func(val) { obj["FMA_flxtemp"].setText(sprintf("%s", "+" ~ val)); }), props.UpdateManager.FromHashValue("groundspeed", 1, func(val) { if (val > 50) { obj.temporaryNodes.showTailstrikeGroundspeed = 1; } else { obj.temporaryNodes.showTailstrikeGroundspeed = 0; } }), props.UpdateManager.FromHashList(["thr1","thr2"], 0.005, func(val) { if (val.thr1 < 0.78 and val.thr2 < 0.78) { obj.temporaryNodes.showTailstrikeThrust = 1; } else { obj.temporaryNodes.showTailstrikeThrust = 0; } }), props.UpdateManager.FromHashValue("targetHeading", 0.5, func(val) { obj["HDG_digit_L"].setText(sprintf("%3.0f", val)); obj["HDG_digit_R"].setText(sprintf("%3.0f", val)); }), props.UpdateManager.FromHashValue("hdgDiff", 0.025, func(val) { obj["HDG_target"].setTranslation((val / 10) * 98.5416, 0); }), props.UpdateManager.FromHashList(["hdgDiff","showHdg"], 0.01, func(val) { if (val.showHdg and val.hdgDiff >= -23.62 and val.hdgDiff <= 23.62) { obj["HDG_digit_L"].hide(); obj["HDG_digit_R"].hide(); obj["HDG_target"].show(); } else if (val.showHdg and val.hdgDiff < -23.62 and val.hdgDiff >= -180) { obj["HDG_digit_L"].show(); obj["HDG_digit_R"].hide(); obj["HDG_target"].hide(); } else if (val.showHdg and val.hdgDiff > 23.62 and val.hdgDiff <= 180) { obj["HDG_digit_R"].show(); obj["HDG_digit_L"].hide(); obj["HDG_target"].hide(); } else { obj["HDG_digit_L"].hide(); obj["HDG_digit_R"].hide(); obj["HDG_target"].hide(); } }), props.UpdateManager.FromHashList(["altimeterHpa","altimeterInhg","altimeterInhgMode"], 0.005, func(val) { if (val.altimeterInhgMode == 0) { obj["QNH_setting"].setText(sprintf("%4d", val.altimeterHpa)); } else { obj["QNH_setting"].setText(sprintf("%2.2f", val.altimeterInhg)); } }), props.UpdateManager.FromHashList(["altimeterStd","altitudeAutopilot"], 1, func(val) { if (val.altimeterStd == 1) { obj["ALT_digit_UP"].setText(sprintf("FL%3d", val.altitudeAutopilot / 100)); obj["ALT_digit_DN"].setText(sprintf("FL%3d", val.altitudeAutopilot / 100)); } else { obj["ALT_digit_UP"].setText(sprintf("%5d", val.altitudeAutopilot)); obj["ALT_digit_DN"].setText(sprintf("%5d", val.altitudeAutopilot)); } }), props.UpdateManager.FromHashValue("managedSpd", 1, func(val) { if (val) { obj["ASI_target"].setColor(0.6901,0.3333,0.7450); obj["ASI_digit_UP"].setColor(0.6901,0.3333,0.7450); obj["ASI_decimal_UP"].setColor(0.6901,0.3333,0.7450); obj["ASI_digit_DN"].setColor(0.6901,0.3333,0.7450); obj["ASI_decimal_DN"].setColor(0.6901,0.3333,0.7450); } else { obj["ASI_target"].setColor(0.0901,0.6039,0.7176); obj["ASI_digit_UP"].setColor(0.0901,0.6039,0.7176); obj["ASI_decimal_UP"].setColor(0.0901,0.6039,0.7176); obj["ASI_digit_DN"].setColor(0.0901,0.6039,0.7176); obj["ASI_decimal_DN"].setColor(0.0901,0.6039,0.7176); } }), props.UpdateManager.FromHashValue("dmeDistance", 0.025, func(val) { if (val < 19.95) { obj["dme_dist"].setText(sprintf("%1.1f", val)); } else { obj["dme_dist"].setText(sprintf("%2.0f", val)); } }), props.UpdateManager.FromHashValue("speedError", 1, func(val) { if (!val) { obj["ASI_error"].hide(); obj["ASI_buss"].hide(); obj["ASI_buss_ref"].hide(); obj["ASI_buss_ref_blue"].hide(); obj["ASI_frame"].setColor(1,1,1); obj["ASI_group"].show(); obj["VLS_min"].hide(); obj["ALPHA_PROT"].hide(); obj["ALPHA_MAX"].hide(); obj["ALPHA_SW"].hide(); } else { obj["ASI_group"].hide(); obj["ASI_frame"].setColor(1,0,0); obj["clean_speed"].hide(); obj["S_target"].hide(); obj["F_target"].hide(); obj["flap_max"].hide(); obj["v1_group"].hide(); obj["v1_text"].hide(); obj["vr_speed"].hide(); obj["ground"].hide(); # Why? obj["ground_ref"].hide(); obj["VLS_min"].hide(); obj["VLS_min"].hide(); obj["ALPHA_PROT"].hide(); obj["ALPHA_MAX"].hide(); obj["ALPHA_SW"].hide(); } }), props.UpdateManager.FromHashList(["speedError","fac1","fac2"], 1, func(val) { if (!val.speedError and (val.fac1 or val.fac2)) { obj["ASI_max"].show(); } else { obj["ASI_max"].hide(); } }), props.UpdateManager.FromHashList(["speedError","fac1","fac2","ASItrendIsShown"], 1, func(val) { if (!val.speedError and (val.fac1 or val.fac2)) { if (val.ASItrendIsShown == 1) { obj["ASI_trend_up"].show(); obj["ASI_trend_down"].hide(); } else if (val.ASItrendIsShown == -1) { obj["ASI_trend_up"].hide(); obj["ASI_trend_down"].show(); } else { obj["ASI_trend_up"].hide(); obj["ASI_trend_down"].hide(); } } else { obj["ASI_trend_up"].hide(); obj["ASI_trend_down"].hide(); } }), props.UpdateManager.FromHashValue("ASI", 0.1, func(val) { obj["ASI_scale"].setTranslation(0, val * 6.6); }), props.UpdateManager.FromHashValue("ASImax", 0.1, func(val) { obj["ASI_max"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("ASItrend", 0.1, func(val) { obj["ASI_trend_up"].setTranslation(0, math.clamp(val, 0, 50) * -6.6); obj["ASI_trend_down"].setTranslation(0, math.clamp(val, -50, 0) * -6.6); }), props.UpdateManager.FromHashValue("V1trgt", 0.1, func(val) { obj["v1_group"].setTranslation(0, val * -6.6); obj["v1_text"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v1)); }), props.UpdateManager.FromHashList(["speedError","showVr","SPDv1trgtdiff","fmgcPhase","agl"], 0.5, func(val) { if (!val.speedError and val.showVr) { if (val.agl < 55 and val.fmgcPhase <= 2 and abs(val.SPDv1trgtdiff) <= 42) { obj["v1_group"].show(); obj["v1_text"].hide(); } else if (val.agl < 55 and fmgc.FMGCInternal.phase <= 2) { obj["v1_group"].hide(); obj["v1_text"].show(); } else { obj["v1_group"].hide(); obj["v1_text"].hide(); } } else { obj["v1_group"].hide(); obj["v1_text"].hide(); } }), props.UpdateManager.FromHashValue("VRtrgt", 0.1, func(val) { obj["vr_speed"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashList(["speedError","showVr","SPDvrtrgtdiff","fmgcPhase","agl"], 0.5, func(val) { if (!val.speedError and val.showVr) { if (val.agl < 55 and val.fmgcPhase <= 2 and abs(val.SPDvrtrgtdiff) <= 42) { obj["vr_speed"].show(); } else { obj["vr_speed"].hide(); } } else { obj["vr_speed"].hide(); } }), props.UpdateManager.FromHashList(["speedError","showV2","SPDv2trgtdiff","fmgcPhase","agl","V2trgt"], 0.5, func(val) { if (!val.speedError and val.showVr) { if (val.agl < 55 and val.fmgcPhase <= 2 and abs(val.SPDv2trgtdiff) <= 42) { obj["ASI_target"].show(); obj["ASI_target"].setTranslation(0, val.V2trgt * -6.6); obj["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } else if (val.agl < 55 and fmgc.FMGCInternal.phase <= 2) { obj["ASI_target"].hide(); obj["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } } }), props.UpdateManager.FromHashList(["machError","ind_mach"], 0.001, func(val) { if (val.machError) { obj["ASI_mach"].hide(); obj["machError"].show(); } else { obj["machError"].hide(); if (val.ind_mach >= 0.999) { obj["ASI_mach"].setText(".999"); } else { obj["ASI_mach"].setText(sprintf(".%3.0f", val.ind_mach * 1000)); } if (val.ind_mach >= 0.5) { obj["ASI_mach"].show(); } else { obj["ASI_mach"].hide(); } } }), props.UpdateManager.FromHashList(["flapMaxSpeed","ASI"], 0.1, func(val) { obj["flap_max"].setTranslation(0, (val.flapMaxSpeed - 30 - val.ASI) * -6.6); }), props.UpdateManager.FromHashList(["speedError","fac1","fac2","flapMaxSpeed","flapsInput","ind_spd"], 0.5, func(val) { if (!val.speedError and (val.fac1 or val.fac2)) { if (abs(val.flapMaxSpeed - val.ind_spd) <= 42 and val.flapsInput != 4) { obj["flap_max"].show(); } else { obj["flap_max"].hide(); } } else { obj["flap_max"].hide(); } }), props.UpdateManager.FromHashValue("Ctrgt", 0.1, func(val) { obj["clean_speed"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("Ftrgt", 0.1, func(val) { obj["F_target"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("Strgt", 0.1, func(val) { obj["S_target"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashList(["speedError","fac1","fac2","flapsInput","SPDstrgtdiff","SPDftrgtdiff","SPDcleantrgtdiff","agl"], 0.5, func(val) { if (!val.speedError and (val.fac1 or val.fac2)) { if (val.flapsInput == 1) { obj["F_target"].hide(); obj["clean_speed"].hide(); if (abs(val.SPDstrgtdiff) <= 42 and val.agl >= 400) { obj["S_target"].show(); } else { obj["S_target"].hide(); } } else if (val.flapsInput == 2 or val.flapsInput == 3) { obj["S_target"].hide(); obj["clean_speed"].hide(); if (abs(val.SPDftrgtdiff) <= 42 and val.agl >= 400) { obj["F_target"].show(); } else { obj["F_target"].hide(); } } else if (val.flapsInput == 4) { obj["S_target"].hide(); obj["F_target"].hide(); obj["clean_speed"].hide(); } else { obj["S_target"].hide(); obj["F_target"].hide(); if (abs(val.SPDcleantrgtdiff) <= 42) { obj["clean_speed"].show(); } else { obj["clean_speed"].hide(); } } } else { obj["S_target"].hide(); obj["F_target"].hide(); obj["clean_speed"].hide(); } }), props.UpdateManager.FromHashValue("bussTranslate", 0.2, func(val) { obj["ASI_buss"].setTranslation(0, val); obj["ASI_buss_ref_blue"].setTranslation(0, val); }), props.UpdateManager.FromHashList(["speedError","fac1","fac2","fbwLaw","fmgcPhase","gear1Wow","gear2Wow","fmgcTakeoffState"], 1, func(val) { if (!val.fmgcTakeoffState and val.fmgcPhase >= 1 and !val.gear1Wow and !val.gear2Wow and !val.speedError and (val.fac1 or val.fac2)) { obj["VLS_min"].show(); if (val.fbwLaw == 0) { obj["ALPHA_PROT"].show(); obj["ALPHA_MAX"].show(); obj["ALPHA_SW"].hide(); } else { obj["ALPHA_PROT"].hide(); obj["ALPHA_MAX"].hide(); obj["ALPHA_SW"].show(); } } else { obj["VLS_min"].hide(); obj["ALPHA_PROT"].hide(); obj["ALPHA_MAX"].hide(); obj["ALPHA_SW"].hide(); } }), props.UpdateManager.FromHashValue("ALPHAprot", 0.1, func(val) { obj["ALPHA_PROT"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("ALPHAmax", 0.1, func(val) { obj["ALPHA_MAX"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("ALPHAvsw", 0.1, func(val) { obj["ALPHA_SW"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("VLSmin", 0.1, func(val) { obj["VLS_min"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashValue("ASItrgt", 0.1, func(val) { obj["ASI_target"].setTranslation(0, val * -6.6); }), props.UpdateManager.FromHashList(["speedError","ASItrgtdiff","targetMach","tgt_kts","ktsMach"], 0.5, func(val) { if (!val.speedError) { if (abs(val.ASItrgtdiff) <= 42) { obj["ASI_digit_UP"].hide(); obj["ASI_decimal_UP"].hide(); obj["ASI_digit_DN"].hide(); obj["ASI_decimal_DN"].hide(); obj["ASI_target"].show(); } else if (val.ASItrgtdiff < -42) { if (val.ktsMach) { obj["ASI_digit_DN"].setText(sprintf("%3.0f", val.targetMach * 1000)); obj["ASI_decimal_UP"].hide(); obj["ASI_decimal_DN"].show(); } else { obj["ASI_digit_DN"].setText(sprintf("%3.0f", val.tgt_kts)); obj["ASI_decimal_UP"].hide(); obj["ASI_decimal_DN"].hide(); } obj["ASI_digit_DN"].show(); obj["ASI_digit_UP"].hide(); obj["ASI_target"].hide(); } else if (val.ASItrgtdiff > 42) { if (val.ktsMach) { obj["ASI_digit_UP"].setText(sprintf("%3.0f", val.targetMach * 1000)); obj["ASI_decimal_UP"].show(); obj["ASI_decimal_DN"].hide(); } else { obj["ASI_digit_UP"].setText(sprintf("%3.0f", val.tgt_kts)); obj["ASI_decimal_UP"].hide(); obj["ASI_decimal_DN"].hide(); } obj["ASI_digit_UP"].show(); obj["ASI_digit_DN"].hide(); obj["ASI_target"].hide(); } } }), props.UpdateManager.FromHashList(["showPFDILS","magnetic_hdg_dif"], 0.01, func(val) { if (val.showPFDILS) { if (abs(val.magnetic_hdg_dif) <= 23.62) { obj["CRS_pointer"].setTranslation((val.magnetic_hdg_dif / 10) * 98.5416, 0); obj["ILS_HDG_L"].hide(); obj["ILS_HDG_R"].hide(); obj["CRS_pointer"].show(); } else if (val.magnetic_hdg_dif < -23.62 and val.magnetic_hdg_dif >= -180) { obj["ILS_HDG_L"].show(); obj["ILS_HDG_R"].hide(); obj["CRS_pointer"].hide(); } else if (val.magnetic_hdg_dif > 23.62 and val.magnetic_hdg_dif <= 180) { obj["ILS_HDG_L"].hide(); obj["ILS_HDG_R"].show(); obj["CRS_pointer"].hide(); } else { obj["ILS_HDG_L"].hide(); obj["ILS_HDG_R"].hide(); obj["CRS_pointer"].hide(); } } else { obj["ILS_HDG_L"].hide(); obj["ILS_HDG_R"].hide(); obj["CRS_pointer"].hide(); } }), props.UpdateManager.FromHashValue("ilsCrs", 0.5, func(val) { if (int(val) < 10) { obj["ILS_left"].setText(sprintf("00%1.0f", int(val))); obj["ILS_right"].setText(sprintf("00%1.0f", int(val))); } else if (int(val) < 100) { obj["ILS_left"].setText(sprintf("0%2.0f", int(val))); obj["ILS_right"].setText(sprintf("0%2.0f", int(val))); } else { obj["ILS_left"].setText(sprintf("%3.0f", int(val))); obj["ILS_right"].setText(sprintf("%3.0f", int(val))); } }), props.UpdateManager.FromHashValue("altimeterStd", 1, func(val) { if (val) { obj["QNH"].hide(); obj["QNH_setting"].hide(); } else { obj["QNH_std"].hide(); obj["QNH_box"].hide(); } }), props.UpdateManager.FromHashList(["showDecisionHeight","agl","decision","radio","baro","radioNo"], 0.5, func(val) { if (!val.showDecisionHeight) { obj["FMA_dh"].hide(); obj["FMA_dhn"].hide(); obj["FMA_nodh"].hide(); if (val.agl <= 2500) { obj["AI_agl"].show(); if (val.agl <= val.decision) { obj["AI_agl"].setColor(0.7333,0.3803,0); obj["AI_agl"].setFontSize(55); } else { if (val.agl <= 400) { obj["AI_agl"].setFontSize(55); } else { obj["AI_agl"].setFontSize(45); } obj["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else { obj["AI_agl"].hide(); } } else { if (val.agl <= 2500) { obj["AI_agl"].show(); # Minimums if (int(val.radio) != 99999) { obj["FMA_dh"].setText("RADIO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText(sprintf("%.0f", val.radio)); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); hundredAbove.setValue(val.radio + 100); minimum.setValue(val.radio); if (val.agl <= val.radio + 100) { obj["AI_agl"].setColor(0.7333,0.3803,0); obj["AI_agl"].setFontSize(55); } else { if (val.agl <= 400) { obj["AI_agl"].setFontSize(55); } else { obj["AI_agl"].setFontSize(45); } obj["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else if (int(val.baro) != 99999) { obj["FMA_dh"].setText("BARO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText(sprintf("%.0f", val.baro)); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); hundredAbove.setValue(val.baro + 100); minimum.setValue(val.baro); if (val.agl <= val.baro + 100) { obj["AI_agl"].setColor(0.7333,0.3803,0); obj["AI_agl"].setFontSize(55); } else { if (val.agl <= 400) { obj["AI_agl"].setFontSize(55); } else { obj["AI_agl"].setFontSize(45); } obj["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else if (val.radioNo) { obj["FMA_dh"].setText("BARO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText("100"); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); hundredAbove.setValue(100); minimum.setValue(0); if (val.agl <= 400) { obj["AI_agl"].setFontSize(55); } else { obj["AI_agl"].setFontSize(45); } if (val.agl <= 100) { obj["AI_agl"].setColor(0.7333,0.3803,0); } else { obj["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else { obj["FMA_dh"].hide(); obj["FMA_dhn"].hide(); obj["FMA_nodh"].show(); hundredAbove.setValue(400); minimum.setValue(300); if (val.agl <= 400) { obj["AI_agl"].setColor(0.7333,0.3803,0); obj["AI_agl"].setFontSize(55); } else { obj["AI_agl"].setColor(0.0509,0.7529,0.2941); obj["AI_agl"].setFontSize(45); } } } else { obj["AI_agl"].hide(); obj["FMA_nodh"].hide(); # Minimums if (int(val.radio) != 99999) { obj["FMA_dh"].setText("RADIO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText(sprintf("%.0f", val.radio)); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); } else if (int(val.baro) != 99999) { obj["FMA_dh"].setText("BARO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText(sprintf("%.0f", val.baro)); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); } else if (fmgc.FMGCInternal.radioNo) { obj["FMA_dh"].setText("BARO"); obj["FMA_dh"].show(); obj["FMA_dhn"].setText("100"); obj["FMA_dhn"].show(); obj["FMA_nodh"].hide(); } else { obj["FMA_dh"].hide(); obj["FMA_dhn"].hide(); obj["FMA_nodh"].show(); } } } }), props.UpdateManager.FromHashValue("altError", 1, func(val) { if (val) { obj["ALT_error"].show(); obj["ALT_frame"].setColor(1,0,0); obj["ALT_group"].hide(); obj["ALT_tens"].hide(); obj["ALT_neg"].hide(); obj["ALT_group2"].hide(); obj["ALT_scale"].hide(); obj["ALT_box_flash"].hide(); obj["ALT_box_amber"].hide(); obj["ALT_box"].hide(); obj["Metric_box"].hide(); obj["Metric_letter"].hide(); obj["Metric_cur_alt"].hide(); obj["ALT_digit_UP_metric"].hide(); } else { obj["ALT_error"].hide(); obj["ALT_frame"].setColor(1,1,1); obj["ALT_group"].show(); obj["ALT_tens"].show(); obj["ALT_box"].show(); obj["ALT_group2"].show(); obj["ALT_scale"].show(); } }), props.UpdateManager.FromHashList(["altError","showMetric"], 1, func(val) { if (!val.altError and val.showMetric) { obj["ALT_digit_UP_metric"].show(); obj["Metric_box"].show(); obj["Metric_letter"].show(); obj["Metric_cur_alt"].show(); } else { obj["ALT_digit_UP_metric"].hide(); obj["Metric_box"].hide(); obj["Metric_letter"].hide(); obj["Metric_cur_alt"].hide(); } }), props.UpdateManager.FromHashList(["altitudePFD","altError"], 0.5, func(val) { if (!val.altError) { obj["Metric_cur_alt"].setText(sprintf("%5.0f", val.altitudePFD * 0.3048)); obj.middleAltText = roundaboutAlt(val.altitudePFD / 100); obj["ALT_five"].setText(sprintf("%03d", abs(obj.middleAltText + 10))); obj["ALT_four"].setText(sprintf("%03d", abs(obj.middleAltText + 5))); obj["ALT_three"].setText(sprintf("%03d", abs(obj.middleAltText))); obj["ALT_two"].setText(sprintf("%03d", abs(obj.middleAltText - 5))); obj["ALT_one"].setText(sprintf("%03d", abs(obj.middleAltText - 10))); } }), props.UpdateManager.FromHashList(["altitudePFD","altError"], 0.1, func(val) { if (!val.altError) { obj.altOffset = val.altitudePFD / 500 - int(val.altitudePFD / 500); obj.middleAltOffset = nil; obj["ALT_tapes"].show(); if (val.altitudePFD < 0) { obj["ALT_neg"].show(); obj["ALT_tenthousands"].hide(); } else { obj["ALT_neg"].hide(); obj["ALT_tenthousands"].show(); } if (obj.altOffset > 0.5) { obj.middleAltOffset = -(obj.altOffset - 1) * 243.3424; } else { obj.middleAltOffset = -obj.altOffset * 243.3424; } obj["ALT_scale"].setTranslation(0, -obj.middleAltOffset); obj["ALT_scale"].update(); obj.altAbs = abs(val.altitudePFD); if (obj.altAbs < 9900) { # Prepare to show the zero at 10000 obj["ALT_thousands_zero"].hide(); } else { obj["ALT_thousands_zero"].show(); } obj.altTenThousands = num(right(sprintf("%05d", obj.altAbs), 5)) / 100; # Unlikely it would be above 99999 but lets account for it anyways obj["ALT_tenthousands"].setTranslation(0, genevaAltTenThousands(obj.altTenThousands) * 51.61); obj.altThousands = num(right(sprintf("%04d", obj.altAbs), 4)) / 100; obj["ALT_thousands"].setTranslation(0, genevaAltThousands(obj.altThousands) * 51.61); obj.altHundreds = num(right(sprintf("%03d", obj.altAbs), 3)) / 100; obj["ALT_hundreds"].setTranslation(0, genevaAltHundreds(obj.altHundreds) * 51.61); obj["ALT_tens"].setTranslation(0, num(right(sprintf("%02d", obj.altAbs), 2)) * 1.498); } else { obj["ALT_tapes"].hide(); } }), props.UpdateManager.FromHashValue("altitudeDifference", 0.1, func(val) { obj["ALT_target"].setTranslation(0, (val / 100) * -48.66856); }), props.UpdateManager.FromHashValue("altitudeAutopilot", 25, func(val) { obj["ALT_target_digit"].setText(sprintf("%03d", math.round(val / 100))); }), props.UpdateManager.FromHashList(["altError","altitudeDifference"], 1, func(val) { if (!val.altError and abs(val.altitudeDifference) <= 565) { obj["ALT_digit_UP"].hide(); obj["ALT_digit_DN"].hide(); obj["ALT_target"].show(); } else { if (val.altitudeDifference < -565 and !val.altError) { obj["ALT_digit_DN"].show(); obj["ALT_digit_UP"].hide(); } else if (val.altitudeDifference > 565 and !val.altError) { obj["ALT_digit_UP"].show(); obj["ALT_digit_DN"].hide(); } else { obj["ALT_digit_UP"].hide(); obj["ALT_digit_DN"].hide(); } obj["ALT_target"].hide(); } }), ]; obj.update_items_mismatch = [ props.UpdateManager.FromHashValue("acconfigMismatch", nil, func(val) { obj["ERRCODE"].setText(val); }), ]; obj.AI_horizon_trans = obj["AI_horizon"].createTransform(); obj.AI_horizon_rot = obj["AI_horizon"].createTransform(); obj.AI_horizon_ground_trans = obj["AI_horizon_ground"].createTransform(); obj.AI_horizon_ground_rot = obj["AI_horizon_ground"].createTransform(); obj.AI_horizon_sky_rot = obj["AI_horizon_sky"].createTransform(); obj.AI_horizon_hdg_trans = obj["AI_heading"].createTransform(); obj.AI_horizon_hdg_rot = obj["AI_heading"].createTransform(); obj.AI_fpv_trans = obj["FPV"].createTransform(); obj.AI_fpv_rot = obj["FPV"].createTransform(); obj.page = obj.group; return obj; }, getKeys: func() { return ["FMA_man","FMA_manmode","FMA_flxmode","FMA_flxtemp","FMA_thrust","FMA_lvrclb","FMA_pitch","FMA_pitcharm","FMA_pitcharm2","FMA_roll","FMA_rollarm","FMA_combined","FMA_ctr_msg","FMA_catmode","FMA_cattype","FMA_nodh","FMA_dh","FMA_dhn","FMA_ap", "FMA_fd","FMA_athr","FMA_man_box","FMA_flx_box","FMA_thrust_box","FMA_pitch_box","FMA_pitcharm_box","FMA_roll_box","FMA_rollarm_box","FMA_combined_box","FMA_catmode_box","FMA_cattype_box","FMA_cat_box","FMA_dh_box","FMA_ap_box","FMA_fd_box", "FMA_athr_box","FMA_Middle1","FMA_Middle2","ALPHA_MAX","ALPHA_PROT","ALPHA_SW","ALPHA_bars","VLS_min","ASI_max","ASI_scale","ASI_target","ASI_mach","ASI_trend_up","ASI_trend_down","ASI_digit_UP","ASI_digit_DN","ASI_decimal_UP", "ASI_decimal_DN","ASI_index","ASI_error","ASI_group","ASI_frame","AI_center","AI_bank","AI_bank_lim","AI_bank_lim_X","AI_pitch_lim","AI_pitch_lim_X","AI_slipskid","AI_horizon","AI_horizon_ground","AI_horizon_sky","AI_stick","AI_stick_pos","AI_heading", "AI_agl_g","AI_agl","AI_error","AI_group","FD_roll","FD_pitch","ALT_box_flash","ALT_box","ALT_box_amber","ALT_scale","ALT_target","ALT_target_digit","ALT_one","ALT_two","ALT_three","ALT_four","ALT_five","ALT_tens","ALT_digit_UP","ALT_tapes","ALT_hundreds", "ALT_thousands","ALT_thousands_zero","ALT_tenthousands","ALT_digit_DN","ALT_digit_UP_metric","ALT_error","ALT_neg","ALT_group","ALT_group2","ALT_frame","VS_pointer","VS_box","VS_digit","VS_error","VS_group","QNH","QNH_setting","QNH_std","QNH_box", "LOC_pointer","LOC_scale","GS_scale","GS_pointer","CRS_pointer","HDG_target","HDG_scale","HDG_one","HDG_two","HDG_three","HDG_four","HDG_five","HDG_six","HDG_seven","HDG_digit_L","HDG_digit_R","HDG_error","HDG_group","HDG_frame","TRK_pointer","machError", "ilsError","ils_code","ils_freq","dme_dist","dme_dist_legend","ILS_HDG_R","ILS_HDG_L","ILS_right","ILS_left","outerMarker","middleMarker","innerMarker","v1_group","v1_text","vr_speed","F_target","S_target","FS_targets","flap_max","clean_speed","ground", "ground_ref","FPV","spdLimError","vsFMArate","tailstrikeInd","Metric_box","Metric_letter","Metric_cur_alt","ASI_buss","ASI_buss_ref","ASI_buss_ref_blue"]; }, getKeysTest: func() { return ["Test_white","Test_text"]; }, getKeysMismatch: func() { return ["ERRCODE"]; }, aoa: 0, showMetricAlt: 0, onsideADIRSOperating: 0, update: func(notification) { me.updatePower(notification); if (me.mismatch.getVisible() == 1) { me.updateMismatch(notification); return; } if (me.test.getVisible() == 1) { me.updateTest(notification); } if (me.group.getVisible() == 0) { return; } # Errors if (systems.ADIRS.ADIRunits[(me.number == 0 ? 0 : 1)].operating == 1 or (systems.ADIRS.ADIRunits[2].operating == 1 and notification.attSwitch == (me.number == 0 ? -1 : 1))) { me.onsideADIRSOperating = 1; } else { me.onsideADIRSOperating = 0; } if (me.onsideADIRSOperating) { me["AI_group"].show(); me["HDG_group"].show(); me["AI_error"].hide(); me["HDG_error"].hide(); me["HDG_frame"].setColor(1,1,1); me["VS_group"].show(); me["VS_error"].hide(); # VS is inertial-sourced } else { me["AI_error"].show(); me["HDG_error"].show(); me["HDG_frame"].setColor(1,0,0); me["AI_group"].hide(); me["HDG_group"].hide(); me["VS_error"].show(); me["VS_group"].hide(); } notification.aoaPFD = (me.number == 0 ? me.getAOAForPFD1() : me.getAOAForPFD2()); notification.middleOffset = me.middleOffset; # FD Hide / Show if (notification.pitchPFD < 25 and notification.pitchPFD > -13) { notification.pitchWithinLimits = 1; } else { notification.pitchWithinLimits = 0; } if (abs(notification.roll) < 45) { notification.rollWithinLimits = 1; } else { notification.rollWithinLimits = 0; } # FPV if (notification.trkFpa) { if (notification.aoaPFD == nil or !me.onsideADIRSOperating){ me["FPV"].hide(); } else { me["FPV"].show(); } } else { me["FPV"].hide(); } # ILS if (((me.number == 0 and notification.pfdILS1 == 0) or (me.number == 1 and notification.pfdILS2 == 0)) and (notification.apprArmed or notification.locArmed or notification.autopilotVert == 2)) { if (me.number == 0 and ils_going1 == 0) { ils_going1 = 1; ilsTimer1.start(); } else if (me.number == 1 and ils_going2 == 0) { ils_going2 = 1; ilsTimer2.start(); } if ((me.number == 0 and ils_going1 == 1) and (me.number == 1 and ils_going2 == 1)) { if (ilsFlash[me.number]) { me["ilsError"].show(); } else { me["ilsError"].hide(); } } } else { if (me.number == 0) { ilsTimer1.stop(); ils_going1 = 0; } else { ilsTimer2.stop(); ils_going2 = 0; } me["ilsError"].hide(); } # Airspeed if (dmc.DMController.DMCs[me.number].outputs[0] != nil) { me.ind_spd = dmc.DMController.DMCs[me.number].outputs[0].getValue(); notification.ind_spd = me.ind_spd; notification.speedError = 0; if (me.ind_spd <= 30) { notification.ASI = 0; } else if (me.ind_spd >= 420) { notification.ASI = 390; } else { notification.ASI = me.ind_spd - 30; } if (fmgc.FMGCInternal.maxspeed <= 30) { notification.ASImax = 0 - me.ASI; } else if (fmgc.FMGCInternal.maxspeed >= 420) { notification.ASImax = 390 - me.ASI; } else { notification.ASImax = fmgc.FMGCInternal.maxspeed - 30 - notification.ASI; } if (fmgc.FMGCInternal.v1set) { if (fmgc.FMGCInternal.v1 <= 30) { notification.V1trgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.v1 >= 420) { notification.V1trgt = 390 - notification.ASI; } else { notification.V1trgt = fmgc.FMGCInternal.v1 - 30 - notification.ASI; } notification.SPDv1trgtdiff = fmgc.FMGCInternal.v1 - me.ind_spd; notification.showV1 = 1; } else { notification.V1trgt = 0; notification.SPDv1trgtdiff = 0; notification.showV1 = 0; } if (fmgc.FMGCInternal.vrset) { if (fmgc.FMGCInternal.vr <= 30) { notification.VRtrgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.vr >= 420) { notification.VRtrgt = 390 - notification.ASI; } else { notification.VRtrgt = fmgc.FMGCInternal.vr - 30 - notification.ASI; } notification.SPDvrtrgtdiff = fmgc.FMGCInternal.vr - me.ind_spd; notification.showVr = 1; } else { notification.VRtrgt = 0; notification.SPDvrtrgtdiff = 0; notification.showVr = 0; } if (fmgc.FMGCInternal.v2set) { if (fmgc.FMGCInternal.v2 <= 30) { notification.V2trgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.v2 >= 420) { notification.V2trgt = 390 - notification.ASI; } else { notification.V2trgt = fmgc.FMGCInternal.v2 - 30 - notification.ASI; } notification.SPDv2trgtdiff = fmgc.FMGCInternal.v2 - me.ind_spd; notification.showV2 = 1; } else { notification.V2trgt = 0; notification.SPDv2trgtdiff = 0; notification.showV2 = 0; } if (notification.fac1 or notification.fac2) { if (notification.flapsInput == 1) { if (fmgc.FMGCInternal.slat <= 30) { notification.Strgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.slat >= 420) { notification.Strgt = 390 - notification.ASI; } else { notification.Strgt = fmgc.FMGCInternal.slat - 30 - notification.ASI; } notification.SPDstrgtdiff = fmgc.FMGCInternal.slat - me.ind_spd; notification.flapMaxSpeed = 200; } else if (notification.flapsInput == 2) { if (fmgc.FMGCInternal.flap2 <= 30) { notification.Ftrgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.flap2 >= 420) { notification.Ftrgt = 390 - notification.ASI; } else { notification.Ftrgt = fmgc.FMGCInternal.flap2 - 30 - notification.ASI; } notification.SPDftrgtdiff = fmgc.FMGCInternal.flap2 - me.ind_spd; notification.flapMaxSpeed = 185; } else if (notification.flapsInput == 3) { if (fmgc.FMGCInternal.flap3 <= 30) { notification.Ftrgt = 0 - notification.ASI; } else if (fmgc.FMGCInternal.flap3 >= 420) { notification.Ftrgt = 390 - notification.ASI; } else { notification.Ftrgt = fmgc.FMGCInternal.flap3 - 30 - notification.ASI; } notification.SPDftrgtdiff = fmgc.FMGCInternal.flap3 - me.ind_spd; notification.flapMaxSpeed = 177; } else if (notification.flapsInput == 0) { notification.Ctrgt = fmgc.FMGCInternal.clean - 30 - notification.ASI; notification.SPDcleantrgtdiff = fmgc.FMGCInternal.clean - me.ind_spd; notification.flapMaxSpeed = 230; } } else { notification.SPDcleantrgtdiff = 0; notification.SPDftrgtdiff = 0; notification.SPDstrgtdiff = 0; notification.Strgt = 0; notification.Ftrgt = 0; notification.Ctrgt = 0; notification.flapMaxSpeed = 0; } notification.fmgcTakeoffState = fmgc.FMGCInternal.takeoffState; if (!fmgc.FMGCInternal.takeoffState and fmgc.FMGCInternal.phase >= 1 and !notification.gear1Wow and !notification.gear2Wow) { if (fmgc.FMGCInternal.vls_min <= 30) { notification.VLSmin = 0 - notification.ASI; } else if (fmgc.FMGCInternal.vls_min >= 420) { notification.VLSmin = 390 - notification.ASI; } else { notification.VLSmin = fmgc.FMGCInternal.vls_min - 30 - notification.ASI; } if (fmgc.FMGCInternal.alpha_prot <= 30) { notification.ALPHAprot = 0 - notification.ASI; } else if (fmgc.FMGCInternal.alpha_prot >= 420) { notification.ALPHAprot = 390 - notification.ASI; } else { notification.ALPHAprot = fmgc.FMGCInternal.alpha_prot - 30 - notification.ASI; } if (fmgc.FMGCInternal.alpha_max <= 30) { notification.ALPHAmax = 0 - notification.ASI; } else if (fmgc.FMGCInternal.alpha_max >= 420) { notification.ALPHAmax = 390 - notification.ASI; } else { notification.ALPHAmax = fmgc.FMGCInternal.alpha_max - 30 - notification.ASI; } if (fmgc.FMGCInternal.vsw <= 30) { notification.ALPHAvsw = 0 - notification.ASI; } else if (fmgc.FMGCInternal.vsw >= 420) { notification.ALPHAvsw = 390 - notification.ASI; } else { notification.ALPHAvsw = fmgc.FMGCInternal.vsw - 30 - notification.ASI; } } else { notification.ALPHAprot = 0; notification.ALPHAmax = 0; notification.ALPHAvsw = 0; notification.VLSmin = 0; } me.tgt_ias = notification.targetIasPFD; me.tgt_kts = notification.targetKts; if (notification.managedSpd) { if (fmgc.FMGCInternal.decel) { me.tgt_ias = fmgc.FMGCInternal.vappSpeedSet ? fmgc.FMGCInternal.vapp_appr : fmgc.FMGCInternal.vapp; me.tgt_kts = fmgc.FMGCInternal.vappSpeedSet ? fmgc.FMGCInternal.vapp_appr : fmgc.FMGCInternal.vapp; } else if (fmgc.FMGCInternal.phase == 6) { me.tgt_ias = fmgc.FMGCInternal.clean; me.tgt_kts = fmgc.FMGCInternal.clean; } } notification.tgt_kts = me.tgt_kts; if (me.tgt_ias <= 30) { notification.ASItrgt = 0 - notification.ASI; } else if (me.tgt_ias >= 420) { notification.ASItrgt = 390 - notification.ASI; } else { notification.ASItrgt = me.tgt_ias - 30 - notification.ASI; } notification.ASItrgtdiff = me.tgt_ias - notification.ind_spd; notification.ASItrend = dmc.DMController.DMCs[me.number].outputs[6].getValue() - notification.ASI; if (notification.ASItrend >= 2 or (me.ASItrendIsShown != 0 and notification.ASItrend >= 1)) { me.ASItrendIsShown = 1; } else if (notification.ASItrend <= -2 or (me.ASItrendIsShown != 0 and notification.ASItrend <= -1)) { me.ASItrendIsShown = -1; } else { me.ASItrendIsShown = 0; } notification.ASItrendIsShown = me.ASItrendIsShown; if (me.temporaryNodes.showGroundReferenceAGL) { me["ground_ref"].show(); } else { me["ground_ref"].hide(); } } else { notification.ind_spd = 0; notification.speedError = 1; if (!systems.ADIRS.Operating.adr[0].getValue() and !systems.ADIRS.Operating.adr[1].getValue() and !systems.ADIRS.Operating.adr[2].getValue()) { me["ASI_buss"].show(); me["ASI_buss_ref"].show(); me["ASI_buss_ref_blue"].show(); me["ASI_error"].hide(); } else { me["ASI_buss"].hide(); me["ASI_buss_ref"].hide(); me["ASI_buss_ref_blue"].hide(); me["ASI_error"].show(); } notification.ASI = 0; notification.ASImax = 0; notification.ASItrgt = 0; notification.ASItrgtdiff = 0; notification.ASItrend = 0; notification.ALPHAprot = 0; notification.ALPHAmax = 0; notification.ALPHAvsw = 0; notification.ASItrendIsShown = 0; notification.Ctrgt = 0; notification.flapMaxSpeed = 0; notification.Ftrgt = 0; notification.Strgt = 0; notification.showV1 = 0; notification.showVr = 0; notification.showV2 = 0; notification.SPDcleantrgtdiff = 0; notification.SPDftrgtdiff = 0; notification.SPDstrgtdiff = 0; notification.SPDv1trgtdiff = 0; notification.SPDvrtrgtdiff = 0; notification.SPDv2trgtdiff = 0; notification.tgt_kts = 0; notification.V1trgt = 0; notification.VRtrgt = 0; notification.V2trgt = 0; notification.VLSmin = 0; } # Mach if (dmc.DMController.DMCs[me.number].outputs[2] != nil) { notification.ind_mach = dmc.DMController.DMCs[me.number].outputs[2].getValue(); notification.machError = 0; } else { notification.machError = 1; } # Altitude notification.showMetric = me.showMetricAlt; if (dmc.DMController.DMCs[me.number].outputs[1] != nil) { notification.altError = 0; notification.altitudePFD = dmc.DMController.DMCs[me.number].outputs[1].getValue(); notification.altitudeDifference = dmc.DMController.DMCs[me.number].outputs[7].getValue(); if (!ecam.altAlertFlash and !ecam.altAlertSteady) { if (me.number == 0) { alt_going1 = 0; amber_going1 = 0; } else { alt_going2 = 0; amber_going2 = 0; } me["ALT_box"].show(); me["ALT_box_flash"].hide(); me["ALT_box_amber"].hide(); } else { if (ecam.altAlertFlash) { # Cancel steady alert if (me.number == 0) { if (alt_going1 == 1) { me["ALT_box_flash"].hide(); altTimer1.stop(); alt_going1 = 0; } } else { if (alt_going2 == 1) { me["ALT_box_flash"].hide(); altTimer2.stop(); alt_going2 = 0; } } if (me.number == 0 and amber_going1 == 0) { amber_going1 = 1; amberTimer1.start(); } else if (me.number == 1 and amber_going2 == 0) { amber_going2 = 1; amberTimer2.start(); } if ((me.number == 0 and amber_going1) or (me.number == 1 and amber_going2)) { if (amberFlash[me.number]) { me["ALT_box_amber"].hide(); } else { me["ALT_box_amber"].show(); } me["ALT_box"].hide(); } } elsif (ecam.altAlertSteady) { # Cancel any flash alert if (me.number == 0) { if (amber_going1 == 1) { me["ALT_box"].show(); me["ALT_box_amber"].hide(); amberTimer1.stop(); amber_going1 = 0; } } else { if (amber_going2 == 1) { me["ALT_box"].show(); me["ALT_box_amber"].hide(); amberTimer2.stop(); amber_going2 = 0; } } if (me.number == 0 and alt_going1 == 0) { alt_going1 = 1; altTimer1.start(); } else if (me.number == 1 and alt_going2 == 0) { alt_going2 = 1; altTimer2.start(); } if ((me.number == 0 and alt_going1 == 1) or (me.number == 1 and alt_going2 == 1)) { if (altFlash[me.number]) { me["ALT_box_flash"].show(); } else { me["ALT_box_flash"].hide(); } } } } } else { notification.altError = 1; notification.altitudePFD = -9999; notification.altitudeDifference = -9999; } if (notification.pitchMode == "LAND" or notification.pitchMode == "FLARE" or notification.pitchMode == "ROLL OUT") { if (ecam.directLaw.active) { me["FMA_ctr_msg"].setText("USE MAN PITCH TRIM"); me["FMA_ctr_msg"].setColor(0.7333,0.3803,0); me["FMA_ctr_msg"].show(); } else if (notification.fbwLaw == 3) { me["FMA_ctr_msg"].setText("MAN PITCH TRIM ONLY"); me["FMA_ctr_msg"].setColor(1,0,0); me["FMA_ctr_msg"].show(); } else { me["FMA_ctr_msg"].hide(); } } else { if (ecam.directLaw.active) { me["FMA_ctr_msg"].setText("USE MAN PITCH TRIM"); me["FMA_ctr_msg"].setColor(0.7333,0.3803,0); me["FMA_Middle1"].hide(); me["FMA_Middle2"].show(); me["FMA_ctr_msg"].show(); } else if (notification.fbwLaw == 3) { me["FMA_ctr_msg"].setText("MAN PITCH TRIM ONLY"); me["FMA_ctr_msg"].setColor(1,0,0); me["FMA_Middle1"].hide(); me["FMA_Middle2"].show(); me["FMA_ctr_msg"].show(); } else { me["FMA_ctr_msg"].hide(); me["FMA_Middle1"].show(); me["FMA_Middle2"].hide(); } } notification.radioNo = fmgc.FMGCInternal.radioNo; if (fmgc.FMGCInternal.phase < 3 or fmgc.flightPlanController.arrivalDist >= 250) { notification.showDecisionHeight = 0; } else { notification.showDecisionHeight = 1; } if (notification.altimeterStd == 1) { if (notification.altitudePFD < fmgc.FMGCInternal.transAlt and fmgc.FMGCInternal.phase == 4) { if (me.number == 0) { if (qnh_going1 == 0) { qnhTimer1.start(); qnh_going1 = 1; } } else { if (qnh_going2 == 0) { qnhTimer2.start(); qnh_going2 = 1; } } if ((me.number == 0 and qnh_going1) or (me.number == 1 and qnh_going2)) { if (qnhFlash[me.number]) { me["QNH_std"].show(); me["QNH_box"].show(); } else { me["QNH_std"].hide(); me["QNH_box"].hide(); } } } else { if (me.number == 0) { qnhTimer1.stop(); qnh_going1 = 0; } else { qnhTimer2.stop(); qnh_going2 = 0; } me["QNH_std"].show(); me["QNH_box"].show(); } } else { if (notification.altitudePFD >= fmgc.FMGCInternal.transAlt and fmgc.FMGCInternal.phase == 2) { if (me.number == 0) { if (qnh_going1 == 0) { qnhTimer1.start(); qnh_going1 = 1; } } else { if (qnh_going2 == 0) { qnhTimer2.start(); qnh_going2 = 1; } } if ((me.number == 0 and qnh_going1) or (me.number == 1 and qnh_going2)) { if (qnhFlash[me.number]) { me["QNH"].show(); me["QNH_setting"].show(); } else { me["QNH"].hide(); me["QNH_setting"].hide(); } } } else { if (me.number == 0) { qnhTimer1.stop(); qnh_going1 = 0; } else { qnhTimer2.stop(); qnh_going2 = 0; } me["QNH"].show(); me["QNH_setting"].show(); } } me.split_ils = split("/", fmgc.FMGCInternal.ILS.mcdu); if ((me.number == 0 and notification.pfdILS1) or (me.number == 1 and notification.pfdILS2)) { if (size(me.split_ils) < 2) { me["ils_freq"].setText(me.split_ils[0]); me["ils_freq"].show(); me["ils_code"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); } else { me["ils_code"].setText(me.split_ils[0]); me["ils_freq"].setText(me.split_ils[1]); me["ils_code"].show(); me["ils_freq"].show(); if (notification.dmeInRange) { me["dme_dist"].show(); me["dme_dist_legend"].show(); } else { me["dme_dist"].hide(); me["dme_dist_legend"].hide(); } } } else { me["ils_code"].hide(); me["ils_freq"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); } if (((me.number == 0 and notification.pfdILS1) or (me.number == 1 and notification.pfdILS2)) and size(me.split_ils) == 2) { notification.showPFDILS = 1; notification.magnetic_hdg_dif = geo.normdeg180(notification.ilsCrs - notification.headingPFD); } else { notification.showPFDILS = 0; notification.magnetic_hdg_dif = 0; } if (me.temporaryNodes.showGroundReferenceAGL) { if ((notification.fmgcPhase == 5 or notification.fmgcPhase == 6) and !notification.gear1Wow and !notification.gear2Wow) { # TODO: add std too me["ground"].show(); } else { me["ground"].hide(); } } else { me["ground"].hide(); } if (me.temporaryNodes.showTailstrikeAGL and me.temporaryNodes.showTailstrikeGroundspeed and me.temporaryNodes.showTailstrikeThrust) { me["tailstrikeInd"].show(); } else { me["tailstrikeInd"].hide(); } foreach(var update_item; me.update_items) { update_item.update(notification); } me["AI_heading"].update(); }, updateTest: func(notification) { if (me.number == 1) { if ((du6_test_time.getValue() + 1 >= notification.elapsedTime) and notification.foDuXfr != 1) { me["Test_white"].show(); me["Test_text"].hide(); } else if ((du5_test_time.getValue() + 1 >= notification.elapsedTime) and notification.foDuXfr != 0) { me["Test_white"].show(); me["Test_text"].hide(); } else { me["Test_white"].hide(); me["Test_text"].show(); } } else { if ((du1_test_time.getValue() + 1 >= notification.elapsedTime) and notification.cptDuXfr != 1) { me["Test_white"].show(); me["Test_text"].hide(); } else if ((du2_test_time.getValue() + 1 >= notification.elapsedTime) and notification.cptDuXfr != 0) { me["Test_white"].show(); me["Test_text"].hide(); } else { me["Test_white"].hide(); me["Test_text"].show(); } } }, updateMismatch: func(notification) { foreach(var update_item; me.update_items_mismatch) { update_item.update(notification); } }, off: 0, on: 0, powerNode: 0, offTimeNode: 0, testNode: 0, testamountNode: 0, powerTransient: func() { if (me.number == 1) { me.powerNode = systems.ELEC.Bus.ac2; me.offTimeNode = du6_offtime; me.testNode = du6_test; me.testAmountNode = du6_test_amount; me.testTimeNode = du6_test_time; } else { me.powerNode = systems.ELEC.Bus.acEss; me.offTimeNode = du1_offtime; me.testNode = du1_test; me.testAmountNode = du1_test_amount; me.testTimeNode = du1_test_time; } elapsedtime_act = pts.Sim.Time.elapsedSec.getValue(); if (me.powerNode.getValue() >= 110) { if (!me.on) { if (me.offTimeNode.getValue() + 3 < elapsedtime_act) { if (pts.Gear.wow[0].getValue()) { if (acconfig.getValue() != 1 and me.testNode.getValue() != 1) { me.testNode.setValue(1); me.testAmountNode.setValue(math.round((rand() * 5 ) + 35, 0.1)); me.testTimeNode.setValue(elapsedtime_act); } else if (acconfig.getValue() == 1 and me.testNode.getValue() != 1) { me.testNode.setValue(1); me.testAmountNode.setValue(math.round((rand() * 5 ) + 35, 0.1)); me.testTimeNode.setValue(elapsedtime_act - 30); } } else { me.testNode.setValue(1); me.testAmountNode.setValue(0); me.testTimeNode.setValue(-100); } } me.off = 0; me.on = 1; } } else { if (!me.off) { me.testNode.setValue(0); me.offTimeNode.setValue(elapsedtime_act); me.off = 1; me.on = 0; } } }, updatePower: func(notification) { if (notification.acconfigMismatch == "0x000") { me.mismatch.setVisible(0); if (me.number == 1) { if (notification.elecAC2 >= 110 and notification.du6Lgt > 0.01) { if (du6_test_time.getValue() + du6_test_amount.getValue() >= notification.elapsedTime and notification.foDuXfr != 1) { me.group.setVisible(0); me.test.setVisible(1); } else if (du5_test_time.getValue() + du5_test_amount.getValue() >= notification.elapsedTime and notification.foDuXfr == 1) { me.group.setVisible(0); me.test.setVisible(1); } else { me.group.setVisible(1); me.test.setVisible(0); } } else { me.group.setVisible(0); me.test.setVisible(0); } } else { if (notification.elecACEss >= 110 and notification.du1Lgt > 0.01) { if (du1_test_time.getValue() + du1_test_amount.getValue() >= notification.elapsedTime and notification.cptDuXfr != 1) { me.group.setVisible(0); me.test.setVisible(1); } else if (du2_test_time.getValue() + du2_test_amount.getValue() >= notification.elapsedTime and notification.cptDuXfr == 1) { me.group.setVisible(0); me.test.setVisible(1); } else { me.group.setVisible(1); me.test.setVisible(0); } } else { me.group.setVisible(0); me.test.setVisible(0); } } } else { me.mismatch.setVisible(1); me.group.setVisible(0); me.test.setVisible(0); } }, # Get Angle of Attack from ADR1 or, depending on Switching panel, ADR3 getAOAForPFD1: func() { if (air_data_switch.getValue() != -1 and adr_1_switch.getValue() and !adr_1_fault.getValue()) return aoa_1.getValue(); if (air_data_switch.getValue() == -1 and adr_3_switch.getValue() and !adr_3_fault.getValue()) return aoa_3.getValue(); return 0; }, # Get Angle of Attack from ADR2 or, depending on Switching panel, ADR3 getAOAForPFD2: func() { if (air_data_switch.getValue() != 1 and adr_2_switch.getValue() and !adr_2_fault.getValue()) return aoa_2.getValue(); if (air_data_switch.getValue() == 1 and adr_3_switch.getValue() and !adr_3_fault.getValue()) return aoa_3.getValue(); return 0; }, # Convert difference between magnetic heading and track measured in degrees to pixel for display on PFDs # And set max and minimum values getTrackDiffPixels: func(track_diff_deg) { return ((math.clamp(track_diff_deg, -23.62, 23.62) / 10) * 98.5416); }, }; var PFDRecipient = { new: func(_ident, number) { var PFDRecipient = emesary.Recipient.new(_ident); PFDRecipient.MainScreen = nil; PFDRecipient.Receive = func(notification) { if (notification.NotificationType == "FrameNotification") { if (PFDRecipient.MainScreen == nil) { PFDRecipient.MainScreen = canvas_pfd.new("Aircraft/A320-family/Models/Instruments/PFD/res/pfd.svg", "A320 PFD", number); } if (math.mod(notifications.frameNotification.FrameCount,2) == 0) { PFDRecipient.MainScreen.update(notification); } return emesary.Transmitter.ReceiptStatus_OK; } return emesary.Transmitter.ReceiptStatus_NotProcessed; }; return PFDRecipient; }, }; var A320PFD1 = PFDRecipient.new("A320 PFD", 0); emesary.GlobalTransmitter.Register(A320PFD1); var A320PFD2 = PFDRecipient.new("A320 PFD", 1); emesary.GlobalTransmitter.Register(A320PFD2); var input = { acconfigMismatch: "/systems/acconfig/mismatch-code", cptDuXfr: "/modes/cpt-du-xfr", foDuXfr: "/modes/fo-du-xfr", du1Lgt: "/controls/lighting/DU/du1", du6Lgt: "/controls/lighting/DU/du6", attSwitch: "/controls/navigation/switching/att-hdg", atMode: "/modes/pfd/fma/at-mode", apMode: "/modes/pfd/fma/ap-mode", fdMode: "/modes/pfd/fma/fd-mode", atBox: "/modes/pfd/fma/athr-mode-box", apBox: "/modes/pfd/fma/ap-mode-box", fdBox: "/modes/pfd/fma/fd-mode-box", athr: "/it-autoflight/output/athr", athrArm: "/modes/pfd/fma/athr-armed", rollMode: "/modes/pfd/fma/roll-mode", rollModeArmed: "/modes/pfd/fma/roll-mode-armed", rollModeBox: "/modes/pfd/fma/roll-mode-box", rollModeArmedBox: "/modes/pfd/fma/roll-mode-armed-box", pitchMode: "/modes/pfd/fma/pitch-mode", pitchModeArmed: "/modes/pfd/fma/pitch-mode-armed", pitchMode2Armed: "/modes/pfd/fma/pitch-mode2-armed", pitchModeBox: "/modes/pfd/fma/pitch-mode-box", pitchModeArmedBox: "/modes/pfd/fma/pitch-mode-armed-box", pitchMode2ArmedBox: "/modes/pfd/fma/pitch-mode2-armed-box", throttleMode: "/modes/pfd/fma/throttle-mode", throttleModeBox: "/modes/pfd/fma/throttle-mode-box", altitudeAutopilot: "/it-autoflight/internal/alt", pitchPFD: "/instrumentation/pfd/pitch-deg-non-linear", horizonGround: "/instrumentation/pfd/horizon-ground", horizonPitch: "/instrumentation/pfd/horizon-pitch", slipSkid: "/instrumentation/pfd/slip-skid", fbwLaw: "/it-fbw/law", FDRollBar: "/it-autoflight/fd/roll-bar", FDPitchBar: "/it-autoflight/fd/pitch-bar", vsAutopilot: "/it-autoflight/internal/vert-speed-fpm", vsDigit: "/instrumentation/pfd/vs-digit-trans", vsNeedle: "/instrumentation/pfd/vs-needle", vsPFD: "/it-autoflight/internal/vert-speed-fpm-pfd", trackPFD: "/instrumentation/pfd/track-deg", headingPFD: "/instrumentation/pfd/heading-deg", headingScale: "/instrumentation/pfd/heading-scale", localizer: "/instrumentation/nav[0]/heading-needle-deflection-norm", glideslope: "/instrumentation/nav[0]/gs-needle-deflection-norm", dmeInRange: "/instrumentation/nav[0]/dme-in-range", dmeDistance: "/instrumentation/dme[0]/indicated-distance-nm", ilsCrs: "/instrumentation/nav[0]/radials/selected-deg", localizerInRange: "/instrumentation/nav[0]/in-range", glideslopeInRange: "/instrumentation/nav[0]/gs-in-range", signalQuality: "/instrumentation/nav[0]/signal-quality-norm", hasLocalizer: "/instrumentation/nav[0]/nav-loc", hasGlideslope: "/instrumentation/nav[0]/has-gs", locArmed: "/it-autoflight/output/loc-armed", apprArmed: "/it-autoflight/output/appr-armed", autopilotVert: "/it-autoflight/output/vert", autopilotFPA: "/it-autoflight/input/fpa", autopilotVS: "/it-autoflight/input/vs", aileronPFD: "/controls/flight/aileron-input-fast", elevatorPFD: "/controls/flight/elevator-input-fast", flapsInput: "/controls/flight/flaps-input", thrustLvrClb: "/systems/thrust/lvrclb", fmgcPhase: "/FMGC/internal/phase", fd1: "/it-autoflight/output/fd1", fd2: "/it-autoflight/output/fd2", trkFpa: "/it-autoflight/custom/trk-fpa", pfdILS1: "/modes/pfd/ILS1", pfdILS2: "/modes/pfd/ILS2", markerO: "/instrumentation/marker-beacon/outer", markerM: "/instrumentation/marker-beacon/middle", markerI: "/instrumentation/marker-beacon/inner", altimeterStd: "/instrumentation/altimeter/std", altimeterInhgMode: "/instrumentation/altimeter/inhg", altimeterInhg: "/instrumentation/altimeter/setting-inhg", altimeterHpa: "/instrumentation/altimeter/setting-hpa", targetIasPFD: "/FMGC/internal/target-ias-pfd", targetMach: "/it-autoflight/input/mach", targetKts: "/it-autoflight/input/kts", targetHeading: "/it-autoflight/input/hdg", managedSpd: "/it-autoflight/input/spd-managed", ktsMach: "/it-autoflight/input/kts-mach", showHdg: "/it-autoflight/custom/show-hdg", hdgDiff: "/instrumentation/pfd/hdg-diff", thrust1: "/systems/thrust/state1", thrust2: "/systems/thrust/state2", engOut: "/systems/thrust/eng-out", alphaFloor: "/systems/thrust/alpha-floor", togaLk: "/systems/thrust/toga-lk", thrustLimit: "/controls/engines/thrust-limit", thr1: "/controls/engines/engine[0]/throttle-pos", thr2: "/controls/engines/engine[1]/throttle-pos", decision: "/instrumentation/mk-viii/inputs/arinc429/decision-height", radio: "/FMGC/internal/radio", baro: "/FMGC/internal/baro", bussTranslate: "/instrumentation/pfd/buss/translate", }; foreach (var name; keys(input)) { emesary.GlobalTransmitter.NotifyAll(notifications.FrameNotificationAddProperty.new("A320 PFD", name, input[name])); } # Power setlistener("/systems/electrical/bus/ac-ess", func() { if (A320PFD1.MainScreen != nil) { A320PFD1.MainScreen.powerTransient() } }, 0, 0); setlistener("/systems/electrical/bus/ac-2", func() { if (A320PFD2.MainScreen != nil) { A320PFD2.MainScreen.powerTransient() } }, 0, 0); # Helper Functions var roundabout = func(x) { return (x - int(x)) < 0.5 ? int(x) : 1 + int(x); }; var roundaboutAlt = func(x) { return (x * 0.2 - int(x * 0.2)) < 0.5 ? 5 * int(x * 0.2) : 5 + 5 * int(x * 0.2); }; var genevaAltTenThousands = func(input) { var m = math.floor(input / 100); var s = math.max(0, (math.mod(input, 1) - 0.8) * 5); if (math.mod(input / 10, 1) < 0.9 or math.mod(input / 100, 1) < 0.9) s = 0; return m + s; } var genevaAltThousands = func(input) { var m = math.floor(input / 10); var s = math.max(0, (math.mod(input, 1) - 0.8) * 5); if (math.mod(input / 10, 1) < 0.9) s = 0; return m + s; } var genevaAltHundreds = func(input) { var m = math.floor(input); var s = math.max(0, (math.mod(input, 1) - 0.8) * 5); return m + s; } var _fontSizeHDGTempVar = nil; var fontSizeHDG = func(input) { _fontSizeHDGTempVar = input / 3; if (_fontSizeHDGTempVar == int(_fontSizeHDGTempVar)) { return 42; } else { return 32; } }; var showPFD1 = func { var dlg = canvas.Window.new([512, 512], "dialog").set("resize", 1); dlg.setCanvas(A320PFD1.MainScreen.canvas); } var showPFD2 = func { var dlg = canvas.Window.new([512, 512], "dialog").set("resize", 1); dlg.setCanvas(A320PFD2.MainScreen.canvas); } # Flash managers var ils_going1 = 0; var ilsTimer1 = maketimer(0.50, func { if (!ilsFlash[0]) { ilsFlash[0] = 1; } else { ilsFlash[0] = 0; } }); var ils_going2 = 0; var ilsTimer2 = maketimer(0.50, func { if (!ilsFlash[1]) { ilsFlash[1] = 1; } else { ilsFlash[1] = 0; } }); var qnh_going1 = 0; var qnhTimer1 = maketimer(0.50, func { if (!qnhFlash[0]) { qnhFlash[0] = 1; } else { qnhFlash[0] = 0; } }); var qnh_going2 = 0; var qnhTimer2 = maketimer(0.50, func { if (!qnhFlash[1]) { qnhFlash[1] = 1; } else { qnhFlash[1] = 0; } }); var alt_going1 = 0; var altTimer1 = maketimer(0.50, func { if (!altFlash[0]) { altFlash[0] = 1; } else { altFlash[0] = 0; } }); var alt_going2 = 0; var altTimer2 = maketimer(0.50, func { if (!altFlash[1]) { altFlash[1] = 1; } else { altFlash[1] = 0; } }); var amber_going1 = 0; var amberTimer1 = maketimer(0.50, func { if (!amberFlash[0]) { amberFlash[0] = 1; } else { amberFlash[0] = 0; } }); var amber_going2 = 0; var amberTimer2 = maketimer(0.50, func { if (!amberFlash[1]) { amberFlash[1] = 1; } else { amberFlash[1] = 0; } }); var dh_going = 0; var dhTimer = maketimer(0.50, func { if (!dhFlash) { dhFlash = 1; } else { dhFlash = 0; } }); var autolandTimer = maketimer(0.5, func { if (autoland_pulse.getBoolValue()) { autoland_pulse.setBoolValue(0); } else { autoland_pulse.setBoolValue(1); } }); setlistener(autoland_alarm, func(alarm) { if (alarm.getBoolValue()) { autoland_pulse.setBoolValue(1); autolandTimer.start(); } else { autolandTimer.stop(); autoland_pulse.setBoolValue(0); } }, 0, 0); setlistener("/modes/pfd/fma/pitch-mode", func(pitch) { if (pitch.getValue() == "LAND") { autoland_pitch_land.setBoolValue(1); } else { autoland_pitch_land.setBoolValue(0); } }, 0, 0);