var nasal_dir = getprop("/sim/fg-root") ~ "/Aircraft/Instruments-3d/ISFD/"; io.load_nasal(nasal_dir ~ 'ISFD_gui.nas', "isfd"); io.load_nasal(nasal_dir ~ 'ISFDGenericController.nas', "isfd"); io.load_nasal(nasal_dir ~ 'PhysicalController.nas', "isfd"); # main wrapper object var ISFD = { baseSize: 512, halfSize: 256, hsiHeight: 358, hsiWidth: 306, speedTapeWidth: 92, altTapeWidth: 114, pitchLadderDegreeSpacing: 8, rollBaseRadius: 160, roseRadius: 512, boxHeight: 48, needleBoxSize: 220, needleBoxHeight: 20, new : func(controller = nil) { var obj = { parents : [ISFD], _mode : '' }; ISFD.hsiLeft = ISFD.speedTapeWidth - ISFD.halfSize; ISFD.hsiXCenter = ISFD.hsiLeft + ISFD.hsiWidth/2; ISFD.hsiRight = ISFD.halfSize - ISFD.altTapeWidth; ISFD.hsiBottom = ISFD.hsiHeight/2; ISFD.modeBoxHeight = (ISFD.baseSize - ISFD.hsiHeight)/2; obj.canvas = canvas.new({ "name" : "ISFD Canvas", "size" : [ISFD.baseSize, ISFD.baseSize], "view" : [ISFD.baseSize, ISFD.baseSize], "mipmapping": 0, }); obj.root = obj.canvas.createGroup(); # centering transform obj.root.setTranslation(ISFD.halfSize, ISFD.halfSize); var controllerClass = (controller == nil) ? isfd.GenericController : controller; obj._controller = controllerClass.new(obj); obj.createContents(); obj._updateTimer = maketimer(0.05, func obj.update(); ); obj._updateTimer.start(); obj._appMode = nil; # set to nil to force update on first update() trigger return obj; }, del: func() { print('Deleting ISFD'); me._updateTimer.stop(); }, # display the ISFD canvas on the specified object display : func(target_object) { me.canvas.addPlacement({"node": target_object}); }, displayGUI : func(my_isfd, scale=1.0) { var gui = isfd.GUI.new(my_isfd, my_isfd.canvas, scale); }, createContents : func() { me.createPitchLadder(); me.createRollTicks(); me.createCompassRose(); me.createAltitudeTape(); me.createSpeedTape(); me.createSpeedBox(); me.createAltitudeBox(); me.createAltimeterSetting(); # mach readout - not on the B737 model? me.createModeText(); me.createLocalizer(); me.createGlideslope(); me.createAirplaneMarker(); }, createAirplaneMarker : func() { var markerGroup = me.root.createChild("group", "airplane-indicator-group"); markerGroup.setTranslation(ISFD.hsiXCenter, 0); var m = markerGroup.createChild("path", "airplane-indicator"); m.setColorFill(0, 0, 0); m.setStrokeLineWidth(2); m.setColor(1, 1, 1); var markerWidth = 8; var hw = markerWidth / 2; var horWidth = 80; var vertExtension = markerWidth * 1.5; m.moveTo(-hw, -hw); m.line(markerWidth, 0); m.line(0, markerWidth); m.line(-markerWidth, 0); m.close(); # left L m.moveTo(-hw - markerWidth, -hw); m.line(-horWidth, 0); m.line(0, markerWidth); m.line(horWidth - markerWidth, 0); m.line(0, vertExtension); m.line(markerWidth, 0); m.close(); # right L m.moveTo(hw + markerWidth, -hw); m.line(horWidth, 0); m.line(0, markerWidth); m.line(markerWidth - horWidth, 0); m.line(0, vertExtension); m.line(-markerWidth, 0); m.close(); }, # add a single radially aligned tick mark between radiui one and two addPolarTick : func(path, angle, r1, r2) { var horAngle = angle + 90; # angle from +ve X axis var sa = math.sin(horAngle * D2R); var ca = math.cos(horAngle * D2R); path.moveTo(ca * r1, sa * r1); path.lineTo(ca * r2, sa * r2); return path; }, addHorizontalSymmetricPolarTick : func(path, angle, r1, r2) { var horAngle = angle + 90; # angle from +ve X axis var sa = -math.sin(horAngle * D2R); var ca = math.cos(horAngle * D2R); path.moveTo(ca * r1, sa * r1); path.lineTo(ca * r2, sa * r2); path.moveTo(-ca * r1, sa * r1); path.lineTo(-ca * r2, sa * r2); return path; }, addHorizontalSymmetricLine : func(path, positiveLength, y) { path.moveTo(-positiveLength, y); path.lineTo(positiveLength, y); return path; }, addDiamond : func(path, radius) { path.move(-radius, 0); path.line(radius, -radius); # top path.line(radius, radius); # right path.line(-radius, radius); # bottom path.close(); }, createDigitTape : func(parent, name, suffix = nil) { var t = parent.createChild('text', name); # 'top' zero (above 9) var s = '0' ~ chr(10); if (suffix != nil) { s = '0' ~ suffix ~ chr(10); } for (var i=9; i>=0; i-=1) { if (suffix != nil) { s = s ~ i ~ suffix ~ chr(10); } else { s = s ~ i ~ chr(10); } } t.setText(s); t.setFont("LiberationFonts/LiberationMono-Regular.ttf"); t.setFontSize(44); # t.set('line-height', 0.9); t.setAlignment("left-bottom"); return t; }, createRollTicks : func() { # these don't move! # center filled white arrow pointing down # large tick at 30 deg # minor tick at 10, 20 deg # minor tick at 45? # and major tick at 60 by the looks of it me._rollGroup = me.root.createChild("group", "roll-group"); me._rollGroup.setTranslation(ISFD.hsiXCenter, 0); me._rollGroup.set("clip-frame", canvas.Element.GLOBAL); me._rollGroup.set("clip", "rect(77px, 398px, 435px, 92px)"); var rollScale = me.root.createChild("path", "roll-scale"); rollScale.setTranslation(ISFD.hsiXCenter, 0); rollScale.setStrokeLineWidth(2); rollScale.setColor(1, 1, 1); var baseR = ISFD.rollBaseRadius; var minorTick = 16; var majorTick = 30; me.addHorizontalSymmetricPolarTick(rollScale, 10, baseR, baseR + minorTick); me.addHorizontalSymmetricPolarTick(rollScale, 20, baseR, baseR + minorTick); me.addHorizontalSymmetricPolarTick(rollScale, 30, baseR, baseR + majorTick); me.addHorizontalSymmetricPolarTick(rollScale, 45, baseR, baseR + minorTick); # we cap the length of these to avoid sticking into the speed/alt tapes me.addHorizontalSymmetricPolarTick(rollScale, 60, baseR, baseR + minorTick); rollScale.close(); # add filled path for the zero arrow rollZeroArrow = me.root.createChild("path", "roll-zero-mark"); rollZeroArrow.setColorFill(1, 1, 1); rollZeroArrow.setTranslation(ISFD.hsiXCenter, 0); # arrow extends from the roll radius to the top of HSI var arrowHeight = (ISFD.hsiHeight / 2) - ISFD.rollBaseRadius; var arrowHWidth = arrowHeight * (2/3); rollZeroArrow.moveTo(0, -baseR); rollZeroArrow.line(arrowHWidth, -arrowHeight); rollZeroArrow.line(-arrowHWidth * 2, 0); rollZeroArrow.close(); # and the moving arrow var rollMarker = me._rollGroup.createChild("path", "roll-indicator"); rollMarker.setColorFill(0, 0, 0); rollMarker.setStrokeLineWidth(2); rollMarker.setColor(1, 1, 1); rollMarker.moveTo(0, -baseR); rollMarker.line(arrowHWidth, arrowHeight); rollMarker.line(-arrowHWidth * 2, 0); rollMarker.close(); }, createPitchLadder : func() { # sky rect var box = me.root.rect(ISFD.hsiLeft, -ISFD.hsiHeight/2, ISFD.hsiWidth, ISFD.hsiHeight); box.setColorFill('#69B3F4'); me._pitchRotation = me.root.createChild("group", "pitch-rotation"); me.pitchGroup = me._pitchRotation.createChild("group", "pitch-group"); var bkGroup = me.root.createChild("group", "hsi-clip-group"); # ground rect var box = me.pitchGroup.rect(-1000, 0, 2000, 2000); box.setColorFill('#8F9552'); box.set("clip-frame", canvas.Element.GLOBAL); box.set("clip", "rect(77px, 398px, 435px, 92px)"); var ladderGroup = me.pitchGroup.createChild("group", "pitch-ladder"); ladderGroup.set("clip-frame", canvas.Element.GLOBAL); ladderGroup.set("clip", "rect(140px, 368px, 435px, 122px)"); var pitchLadder = ladderGroup.createChild("path", "pitch-ladder-ticks"); pitchLadder.setStrokeLineWidth(2); pitchLadder.setColor(1, 1, 1); var sp = ISFD.pitchLadderDegreeSpacing; # shorthand var tenDegreeWidth = 64; var fiveDegreeWidth = 32; var twoFiveDegreeWidth = 24; # add line at zero me.addHorizontalSymmetricLine(pitchLadder, ISFD.halfSize, 0); for (var i=1; i<=9; i+=1) { var d = i * 10; me.addHorizontalSymmetricLine(pitchLadder, tenDegreeWidth, d * sp); me.addHorizontalSymmetricLine(pitchLadder, tenDegreeWidth, -d * sp); me.addHorizontalSymmetricLine(pitchLadder, fiveDegreeWidth, (d - 5) * sp); me.addHorizontalSymmetricLine(pitchLadder, fiveDegreeWidth, (5 - d) * sp); # 2.5 and 7.5 degree lines me.addHorizontalSymmetricLine(pitchLadder, twoFiveDegreeWidth, (d - 2.5) * sp); me.addHorizontalSymmetricLine(pitchLadder, twoFiveDegreeWidth, (2.5 - d) * sp); me.addHorizontalSymmetricLine(pitchLadder, twoFiveDegreeWidth, (d - 7.5) * sp); me.addHorizontalSymmetricLine(pitchLadder, twoFiveDegreeWidth, (7.5 - d) * sp); # add text as well var textUp = ladderGroup.createChild("text", "pitch-ladder-legend-" ~ d); textUp.setText(d); textUp.setAlignment("right-center"); textUp.setTranslation(-tenDegreeWidth, d * sp); textUp.setFontSize(36); textUp.setFont("LiberationFonts/LiberationMono-Bold.ttf"); var textDown = ladderGroup.createChild("text", "pitch-ladder-legend-" ~ d); textDown.setText(d); textDown.setAlignment("right-center"); textDown.setTranslation(-tenDegreeWidth, -d * sp); textDown.setFontSize(36); textDown.setFont("LiberationFonts/LiberationMono-Bold.ttf"); } }, createSpeedTape : func() { # background box var box = me.root.rect(0, -ISFD.halfSize, ISFD.speedTapeWidth - 1, ISFD.baseSize); box.setColorFill('#738A7E'); box.setTranslation(-256, 0); box.set('z-index', -1); # short lines for text # long lines for 'odd' tens # 3 digit monospace text fits exactly between left side and short tick # maximum 5 (6?) visible text pieces me._speedTapeGroup = me.root.createChild("group", "speed-tape-group"); me._speedTapeGroup.setTranslation(ISFD.hsiLeft, 0); me._speedTapeGroup.set('z-index', 2); var tapePath = me._speedTapeGroup.createChild("path", "speed-tape"); tapePath.setStrokeLineWidth(2); tapePath.setColor(1, 1, 1); var knotSpacing = 4; var tenKnotWidth = 16; var twentyKnotWidth = 8; for (var i=0; i<=25; i+=1) { var tenKnotY = ((i * 20) + 10) * knotSpacing; var twentyKnot = ((i+1) * 20); tapePath.moveTo(0, -tenKnotY).line(-tenKnotWidth, 0); tapePath.moveTo(0, -twentyKnot * knotSpacing).line(-twentyKnotWidth, 0); var text = me._speedTapeGroup.createChild("text", "speed-tape-legend-" ~ twentyKnot); text.setText(twentyKnot); text.setAlignment("right-center"); text.setFont("LiberationFonts/LiberationMono-Bold.ttf"); text.setFontSize(36); text.setTranslation(-twentyKnotWidth-2, -twentyKnot * knotSpacing); } }, updateSpeedTape : func() { # special case when speed is close to zero (show 'bottom' only) # translate based on start value # update digits in text # given it's a 100kt range, maybe fixed graphic for the tape reduces updates? var yOffset = 4 * me._controller.getIndicatedAirspeedKnots(); me._speedTapeGroup.setTranslation(ISFD.hsiLeft, yOffset); }, createAltitudeTape : func() { # tick every 50' interval # text, monospace, 5 digits, ever 100' # background box var box = me.root.rect(ISFD.hsiRight + 1, -ISFD.halfSize, ISFD.altTapeWidth, ISFD.baseSize); box.setColorFill('#738A7E'); box.set('z-index', -1); me._altTapeGroup = me.root.createChild("group", "altitude-tape-group"); me._altTapeGroup.setTranslation(ISFD.hsiRight, 0); var tapePath = me._altTapeGroup.createChild("path", "altitude-tape"); tapePath.setStrokeLineWidth(2); tapePath.setColor(1, 1, 1); var hundredFtSpacing = 64; var twoHundredFtSpacing = hundredFtSpacing * 2; var twoHundredFtWidth = 20; # empty array to hold altitude tape texts for easy updating me._altitudeTapeTexts = []; for (var i=0; i<=12; i+=1) { var y = (i - 6) * twoHundredFtSpacing; var tickY = y + hundredFtSpacing; tapePath.moveTo(0, -tickY).line(twoHundredFtWidth, 0); var text = me._altTapeGroup.createChild("text", "altitude-tape-legend-" ~ i); text.setText(text); text.setFontSize(36); text.setAlignment("left-center"); text.setFont("LiberationFonts/LiberationMono-Regular.ttf"); text.setTranslation(2, -y); # we will update the text very often, ensure we only do # real work if it actually changes text.enableUpdate(); # save for later updating append(me._altitudeTapeTexts, text); } }, updateAltitudeTape : func() { var altFt = me._controller.getAltitudeFt(); var alt200 = int(altFt/200); var altMod200 = altFt - (alt200 * 200); var offset = 128 * (altMod200 / 200.0); me._altTapeGroup.setTranslation(ISFD.hsiRight, offset); # compute this as current alt - half altitude range var lowestAlt = (alt200 - 6) * 200; for (var i=0; i<=12; i+=1) { var alt = lowestAlt + (i * 200); # printf with 5 digits var s = sprintf("%05i", alt); me._altitudeTapeTexts[i].updateText(s); } # compute transform on group to put the actual altitude on centre }, createCompassRose : func() { # clip group for numerals var clipGroup = me.root.createChild("group", "rose-clip-group"); clipGroup.set("clip-frame", canvas.Element.LOCAL); clipGroup.set("clip", "rect(176px, 142px, 256px, -164px)"); clipGroup.set('z-index', 2); var roseBoxHeight = ISFD.modeBoxHeight; var hh = roseBoxHeight / 2; # background of the compass var p = clipGroup.createChild('path', 'rose-background'); p.moveTo(ISFD.hsiXCenter - ISFD.roseRadius, ISFD.hsiBottom + 12 + ISFD.roseRadius); p.arcSmallCW(ISFD.roseRadius, ISFD.roseRadius, 0, ISFD.roseRadius * 2, 0); p.close(); p.setColorFill('#738A7E'); # add path for the heading arrow var arrow = me.root.createChild("path", "rose-arrow"); arrow.setTranslation(ISFD.hsiXCenter, ISFD.hsiBottom); arrow.setStrokeLineWidth(2); arrow.setColor(1, 1, 1); # same size as the roll arrow var arrowHeight = (ISFD.hsiHeight / 2) - ISFD.rollBaseRadius; var arrowHWidth = arrowHeight * (2/3); arrow.moveTo(0, arrowHeight); arrow.line(arrowHWidth, -arrowHeight); arrow.line(-arrowHWidth * 2, 0); arrow.close(); arrow.set('z-index', 4); me._roseGroup = clipGroup.createChild('group', 'rose-group'); me._roseGroup.setTranslation(ISFD.hsiXCenter, ISFD.hsiBottom + 12 + ISFD.roseRadius); var roseTicks = me._roseGroup.createChild('path', 'rose-ticks'); roseTicks.setStrokeLineWidth(2); roseTicks.setColor(1, 1, 1); roseTicks.set('z-index', 2); var textR = (ISFD.roseRadius) - 16; for (var i=0; i<36; i+=1) { # create ten degree text # TODO: 30 degree sizes should be bigger var text = me._roseGroup.createChild("text", "compass-rose-" ~ i); text.setText(i); text.setFontSize(36); text.setAlignment("center-top"); text.setFont("LiberationFonts/LiberationMono-Bold.ttf"); var horAngle = 90 - (i * 10); # angle from +ve X axis var sa = math.sin(horAngle * D2R); var ca = math.cos(horAngle * D2R); text.setTranslation(ca * textR, -sa * textR); text.setRotation(i * 10 * D2R); me.addPolarTick(roseTicks, i * 10, ISFD.roseRadius, ISFD.roseRadius - 8); me.addPolarTick(roseTicks, (i * 10) + 5, ISFD.roseRadius, ISFD.roseRadius - 16); } roseTicks.close(); }, createAltitudeBox : func() { var halfBoxHeight = ISFD.boxHeight / 2; var box = me.root.rect(ISFD.hsiRight - 10, -halfBoxHeight, ISFD.altTapeWidth + 10, ISFD.boxHeight); box.setColorFill('#000000'); box.setColor('#ffffff'); box.setStrokeLineWidth(2); box.set('z-index', 2); var clipGroup = me.root.createChild('group', 'altitude-box-clip'); clipGroup.set("clip-frame", canvas.Element.LOCAL); clipGroup.set("clip", "rect(-24px," ~ (ISFD.altTapeWidth + 10) ~ "px, 24px, 0px)"); clipGroup.setTranslation(ISFD.hsiRight - 10, 0); clipGroup.set('z-index', 3); var text = clipGroup.createChild('text', 'altitude-box-text'); me._altitudeBoxText = text; text.setText('88 '); text.setFontSize(44); text.setAlignment("left-center"); text.setFont("LiberationFonts/LiberationMono-Regular.ttf"); me._altitudeDigits00 = me.createDigitTape(clipGroup, 'altitude-digits00', '0'); me._altitudeDigits00.setFontSize(32); me._altitudeDigits00.set('z-index', 4); }, createSpeedBox : func() { var halfBoxHeight = ISFD.boxHeight / 2; var box = me.root.rect(-ISFD.halfSize - 2, -halfBoxHeight, ISFD.speedTapeWidth + 4, ISFD.boxHeight); box.setColorFill('#000000'); box.setColor('#ffffff'); box.setStrokeLineWidth(2); box.set('z-index', 2); var clipGroup = me.root.createChild('group', 'speed-box-clip'); clipGroup.set("clip-frame", canvas.Element.LOCAL); clipGroup.set("clip", "rect(-24px," ~ (ISFD.speedTapeWidth + 4) ~ "px, 24px, 0px)"); clipGroup.setTranslation(-ISFD.halfSize, 0); clipGroup.set('z-index', 3); var text = clipGroup.createChild('text', 'speed-box-text'); me._speedBoxText = text; text.setText('88 '); text.setFontSize(44); text.setAlignment("left-center"); text.setFont("LiberationFonts/LiberationMono-Regular.ttf"); me._speedDigit0 = me.createDigitTape(clipGroup, 'speed-digit0'); me._speedDigit0.set('z-index', 4); }, createAltimeterSetting: func() { me._altimeterText = me.root.createChild('text', 'altimeter-setting-text'); me._altimeterText.setText('1013'); me._altimeterText.setFontSize(44); me._altimeterText.setAlignment("right-center"); me._altimeterText.setFont("LiberationFonts/LiberationMono-Regular.ttf"); me._altimeterText.setColor('#00ff00'); var midTextY = -ISFD.halfSize + (ISFD.modeBoxHeight * 0.5); me._altimeterText.setTranslation(ISFD.hsiRight - 2, midTextY); }, createModeText : func() { me._modeText = me.root.createChild('text', 'mode-text'); me._modeText.setFontSize(44); me._modeText.setText('APP'); me._modeText.setAlignment("left-center"); me._modeText.setFont("LiberationFonts/LiberationMono-Regular.ttf"); me._modeText.setColor('#00ff00'); var midTextY = -ISFD.halfSize + (ISFD.modeBoxHeight * 0.5); me._modeText.setTranslation(ISFD.hsiLeft + 2, midTextY); }, updateApproachMode: func { if (me._appMode != 0) { me._modeText.setText('APP'); } me._modeText.setVisible(me._appMode); me._localizerGroup.setVisible(me._appMode); me._glideslopeGroup.setVisible(me._appMode); }, createLocalizer: func { var hw = ISFD.needleBoxSize * 0.5; var g = me.root.createChild('group', 'localizer-group'); g.setTranslation(ISFD.hsiXCenter, 156); me._localizerGroup = g; var bkg = g.rect(-hw, 0, ISFD.needleBoxSize, ISFD.needleBoxHeight); bkg.setColorFill('#000000'); # markers: white line and hollow dots var m = g.createChild("path", "localizer-marker"); m.setStrokeLineWidth(2); m.setColor(1, 1, 1); m.moveTo(0, 0); m.line(0, ISFD.needleBoxHeight); m.close(); var r =( ISFD.needleBoxHeight - 8) * 0.5; var hh = ISFD.needleBoxHeight * 0.5; # four dots for (var i = -2; i <= 2; i +=1) { if (i == 0) continue; var x = i * 50; m.moveTo(x - r, hh); m.arcSmallCW(r, r, 0, r * 2, 0); m.arcSmallCW(r, r, 0, -r * 2, 0); m.close(); } me._localizerPointer = g.createChild("path", "localizer-pointer"); me._localizerPointer.moveTo(0, hh); me.addDiamond(me._localizerPointer , hh); me._localizerPointer.setColorFill('#ff00ff'); # magenta! }, createGlideslope: func { var g = me.root.createChild('group', 'glideslope-bar'); me._glideslopeGroup = g; var hh = ISFD.needleBoxSize * 0.5; var hw = ISFD.needleBoxHeight * 0.5; g.setTranslation(ISFD.hsiRight - 36, 0); me._localizerGroup = g; var bkg = g.rect(0, -hh, ISFD.needleBoxHeight, ISFD.needleBoxSize); bkg.setColorFill('#000000'); # markers: white line and hollow dots var m = g.createChild("path", "gs-marker"); m.setStrokeLineWidth(2); m.setColor(1, 1, 1); m.moveTo(0, 0); m.line(ISFD.needleBoxHeight, 0); m.close(); var r =( ISFD.needleBoxHeight - 8) * 0.5; # four dots for (var i = -2; i <= 2; i +=1) { if (i == 0) continue; var y = i * 50; m.moveTo(hw, y - r); m.arcSmallCW(r, r, 0, 0, r * 2); m.arcSmallCW(r, r, 0, 0, -r * 2); m.close(); } me._gsPointer = g.createChild("path", "gs-pointer"); me._gsPointer.moveTo(hw, 0); me.addDiamond(me._gsPointer , hw); me._gsPointer.setColorFill('#ff00ff'); # magenta! }, updateILS: func { var hsz = ISFD.needleBoxSize * 0.5; me._localizerPointer.setVisible(me._controller.isLocalizerValid()); var locDev = me._controller.getLocalizerDeviationNorm() * hsz; me._localizerPointer.setTranslation(locDev, 0); me._gsPointer.setVisible(me._controller.isGSValid()); var gsDev = me._controller.getGSDeviationNorm() * hsz; me._gsPointer.setTranslation(0, gsDev); }, pressButtonAPP : func { me._controller.toggleApproachMode(); }, update : func() { # read LOC/GS deviation # read Mach for some options me._controller.update(); # pitch and roll var roll = me._controller.getBankAngleDeg() * D2R; var pitch = me._controller.getPitchDeg(); me.pitchGroup.setTranslation(ISFD.hsiXCenter, pitch * me.pitchLadderDegreeSpacing); me._pitchRotation.setRotation(-roll); me._rollGroup.setRotation(-roll); # heading me._roseGroup.setRotation(-me._controller.getHeadingDeg() * D2R); me.updateAltitudeTape(); me.updateSpeedTape(); # speed box var spd = me._controller.getIndicatedAirspeedKnots(); var spdDigit0 = math.mod(spd, 10); me._speedDigit0.setTranslation(53, 16 + spdDigit0 * 44); var s = sprintf("%02i ", math.floor(spd / 10)); me._speedBoxText.setText(s); # altitude box var alt = me._controller.getAltitudeFt(); var altDigits00 = math.mod(alt / 10, 10); me._altitudeDigits00.setTranslation(80, 16 + altDigits00 * 32); var s = sprintf("%03i ", math.floor(alt / 100)); me._altitudeBoxText.setText(s); # barometric if (me._controller.isSTDBarometricPressure()) { me._altimeterText.setText('STD'); } elsif (me._controller.isHPaBarometer()) { me._altimeterText.setText(sprintf('%4d HPA', me._controller.getBarometricPressureSettingHPa())); } else { me._altimeterText.setText(sprintf('%4.2f IN', me._controller.getBarometricPressureSettingInHg())); } # APProach mode if (me._appMode != me._controller.isApproachMode()) { me._appMode = me._controller.isApproachMode; me.updateApproachMode(); } if (me._appMode != 0) { me.updateILS(); } } };