# vim: set foldmethod=marker foldmarker={{{,}}} : var softkeysClass = { new : func (device) { var m = { parents: [ softkeysClass ] }; m.device = device; m.path = []; m.colored = {}; return m; }, SoftKey : func (n, a) { # released key not yet managed if (a == 1) return; var key = me.device.display.screenElements[sprintf("SoftKey%02i-text",n)].get('text'); if (key == '' or key == nil) return; var path = keyMap[me.device.role]; foreach(var p; me.path) { if (contains(path, p)) path = path[p]; else break; } var bindings = me.bindings[me.device.role]; foreach(var p; me.path) { if (contains(bindings, p)) bindings = bindings[p]; else break; } if (contains(path, key)) { append(me.path, key); if (contains(bindings, key)) if (contains(bindings[key], 'hook')) call(bindings[key].hook, [], me); me.device.display.updateSoftKeys(); } elsif (contains(bindings, key)) { call(bindings[key], [], me); } elsif (key == 'BACK') { pop(me.path); me.device.display.updateSoftKeys(); } else { var list_path = ''; foreach(var p; me.path) list_path ~= p ~ '/'; print(me.device.role ~ ':' ~ list_path ~ key ~ ' : not yet implemented'); } }, bindings : { PFD : { INSET: { OFF: func { me.device.map.setVisible(0); me.device.display.screenElements['PFD-Map-bg'].hide(); }, ROUTE: func { call(me.bindings.PFD.INSET.declutter, ['INSETROUTE', 'route', 3], me); }, TERRAIN: func { call(me.bindings.PFD.INSET.declutter, ['INSETTERRAIN', 'tiles', 5], me); }, NAVAIDS: { ALL: func (root_id = 'INSETNAVAIDS') { if (contains(me.colored, root_id ~ 'ALL')) foreach (var n; [ 'ALL', 'VOR', 'DME', 'NDB', 'TACAN', 'APT' ]) delete(me.colored, root_id ~ n); else foreach (var n; [ 'ALL', 'VOR', 'DME', 'NDB', 'TACAN', 'APT' ]) me.colored[root_id ~ n] = 1; me.device.display.updateSoftKeys(); foreach (var n; [ 'VOR', 'TACAN', 'NDB', 'DME' ]) me.device.map.layers.navaids._can[n] .setVisible(contains(me.colored, root_id ~ n)); me.device.map.layers.navaids._can.airport .setVisible(contains(me.colored, root_id ~ 'APT')); }, VOR: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['INSETNAVAIDSVOR', 'VOR', 2], me); }, TACAN: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['INSETNAVAIDSTACAN', 'TACAN', 3], me); }, NDB: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['INSETNAVAIDSNDB', 'NDB', 4], me); }, DME: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['INSETNAVAIDSDME', 'DME', 5], me); }, APT: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['INSETNAVAIDSAPT', 'airport', 6], me); }, declutter: func (id, type) { if (contains(me.colored, id)) { delete(me.colored, id); if (me.device.role == 'PFD') delete(me.colored, 'INSETNAVAIDSALL'); if (me.device.role == 'MFD') delete(me.colored, 'MAPNAVAIDSALL'); } else me.colored[id] = 1; me.device.display.updateSoftKeys(); me.device.map.layers.navaids._can[type] .setVisible(contains(me.colored, id)); }, }, declutter: func (id, layer) { if (contains(me.colored, id)) delete(me.colored, id); else me.colored[id] = 1; me.device.display.updateSoftKeys(); me.device.map.layers[layer] .setVisible(contains(me.colored, id)); }, hook : func { me.device.display.screenElements['PFD-Map-bg'].show(); me.device.map.setVisible(1); me.device.map.update(); }, }, PFD: { 'AOA/WIND' : { AOA : { 'AOA ON' : func { if (me.device.data['aoa-auto']) return; me.device.data.aoa = ! me.device.data.aoa; foreach (var e; ['AOA', 'AOA-needle', 'AOA-text']) me.device.display.screenElements[e] .setVisible(me.device.data.aoa); me.device.display.screenElements['AOA-approach'] .setVisible(me.device.data.aoa and contains(data, 'approach-aoa')); me.device.display.updateAOA(); me.device.display.setSoftKeyColor(5 ,me.device.data.aoa); if (me.device.data.aoa) me.colored['PFDAOA/WINDAOAAOA ON'] = 1; else delete(me.colored, 'PFDAOA/WINDAOAAOA ON'); }, 'AOA AUTO' : func { if (me.device.data.aoa) return; me.device.data['aoa-auto'] = ! me.device.data['aoa-auto']; me.device.display.setSoftKeyColor(6 ,me.device.data['aoa-auto']); if (me.device.data['aoa-auto']) { me.colored['PFDAOA/WINDAOAAOA AUTO'] = 1; if (!contains(me.device.timers, 'aoa')) me.device.timers.aoa = maketimer(1, func { var v = getprop('/gear/gear/position-norm') == 1 and getprop('/surfaces-positions/flap-pos-norm') != 0; foreach (var e; ['AOA', 'AOA-needle', 'AOA-text']) me.device.display.screenElements[e] .setVisible(v); me.device.display.screenElements['AOA-approach'] .setVisible(v and contains(data, 'approach-aoa')); me.device.display.updateAOA(); }, me); me.device.timers.aoa.start(); } else { delete(me.colored, 'PFDAOA/WINDAOAAOA AUTO'); me.device.timers.aoa.stop(); me.device.data.aoa = 0; me.device.display.screenElements['AOA'] .hide(); } }, hook : func { if (contains(data,'approach-aoa')) me.device.display.screenElements['AOA-approach'] .setRotation(-data['approach-aoa']/data['stall-aoa']*math.pi); }, }, WIND : { OPTN1 : func { me.device.display._winddata_optn = 1; me.device.display.screenElements['WindData'].show(); me.device.display.screenElements['WindData-OPTN1'].show(); me.device.display.screenElements['WindData-OPTN1-HDG'].show(); me.device.display.screenElements['WindData-OPTN2'].hide(); me.device.display.updateWindData(); me.device.display.setSoftKeyColor(2, 1); me.colored['PFDAOA/WINDWINDOPTN1'] = 1; me.device.display.setSoftKeyColor(3, 0); delete(me.colored, 'PFDAOA/WINDWINDOPTN2'); }, OPTN2 : func { me.device.display._winddata_optn = 2; me.device.display.screenElements['WindData'].show(); me.device.display.screenElements['WindData-OPTN1'].hide(); me.device.display.screenElements['WindData-OPTN2'].show(); me.device.display.screenElements['WindData-OPTN2-symbol'].show(); me.device.display.screenElements['WindData-OPTN2-headwind'].show(); me.device.display.screenElements['WindData-OPTN2-crosswind'].show(); me.device.display.updateWindData(); me.device.display.setSoftKeyColor(2, 0); delete(me.colored, 'PFDAOA/WINDWINDOPTN1'); me.device.display.setSoftKeyColor(3, 1); me.colored['PFDAOA/WINDWINDOPTN2'] = 1; }, OFF : func { me.device.display._winddata_optn = 0; me.device.display.screenElements['WindData'].hide(); me.device.display.screenElements['WindData-OPTN1'].hide(); me.device.display.screenElements['WindData-OPTN2'].hide(); me.device.display.setSoftKeyColor(2, 0); delete(me.colored, 'PFDAOA/WINDWINDOPTN1'); me.device.display.setSoftKeyColor(3, 0); delete(me.colored, 'PFDAOA/WINDWINDOPTN2'); }, }, }, BRG1 : func (brg = 1){ var source = 'brg' ~ brg ~ '-source'; var list = ['NAV' ~ brg, 'GPS', 'ADF', 'OFF']; var index = std.Vector .new(list) .index(radios.getNode(source).getValue()); var next = (index == size(list) -1) ? 0 : index + 1; radios.getNode(source).setValue(list[next]); if (list[next] != 'OFF') { me.device.display.setSoftKeyColor(brg == 1 ? 4 : 6, 1); me.colored['PFDBRG' ~ brg] = 1; } else { me.device.display.setSoftKeyColor(brg == 1 ? 4 : 6, 0); delete(me.colored, 'PFDBRG' ~ brg); } }, BRG2 : func { call(me.bindings.PFD.PFD.BRG1, [ 2 ], me); }, 'STD BARO' : func { setprop('/instrumentation/altimeter/setting-inhg', 29.92); me.device.display.updateBARO(); pop(me.path); me.device.display.updateSoftKeys(); }, 'ALT UNIT' : { IN : func { data.settings.units.pressure = 'inhg'; me.device.display.updateBARO(); }, HPA : func { data.settings.units.pressure = 'hpa'; me.device.display.updateBARO(); }, }, }, XPDR: { STBY : func { setprop('/instrumentation/transponder/ident', 0); setprop('/instrumentation/transponder/knob-mode', 1); radios.setValue('xpdr-mode', 'STBY'); me.device.display.updateXPDR(); }, ON : func { setprop('/instrumentation/transponder/ident', 1); setprop('/instrumentation/transponder/knob-mode', 4); radios.setValue('xpdr-mode', 'ON'); me.device.display.updateXPDR(); }, ALT : func { setprop('/instrumentation/transponder/ident', 1); setprop('/instrumentation/transponder/knob-mode', 5); radios.setValue('xpdr-mode', 'ALT'); me.device.display.updateXPDR(); }, VFR : func { setprop('/instrumentation/transponder/id-code', '1200'); me.device.display.updateXPDR(); }, IDENT : func { call(me.bindings.PFD.IDENT, [], me); }, CODE : { '0' : func (n = 0) { if (radios.getValue('xpdr-tuning-fms-method')) return; me.device.display.timers.softkeys_inactivity.stop(); me.bindings.PFD.XPDR.CODE.inactivity.restart(me.device.display.softkeys_inactivity_delay); # disable FMS knob entering method me.device.knobs.FmsInner = void; # When entering the code, the next softkey in sequence # must be pressed within 10 seconds, or the entry is cancelled # and restored to the previous code if (!contains(me.bindings.PFD.XPDR.CODE, 'on_change_inactivity')) { me.bindings.PFD.XPDR.CODE.on_change_inactivity = maketimer(10, func { radios.setValue('xpdr-tuning-digit', 3); me.device.knobs.FmsInner = me.device.knobs.XPDRCodeSetDigits; me.device.knobs.FmsOuter = me.device.knobs.XPDRCodeNextDigits; call(me.bindings.PFD.XPDR.CODE.restore, [], me); }); me.bindings.PFD.XPDR.CODE.on_change_inactivity.singleShot = 1; me.bindings.PFD.XPDR.CODE.on_change_inactivity.start(); } else me.bindings.PFD.XPDR.CODE.on_change_inactivity.restart(10); var tuning = radios.getNode('xpdr-tuning-digit'); var d = tuning.getValue(); setprop('/instrumentation/transponder/inputs/digit[' ~ d ~ ']', n); if (d == 0) { if (!contains(me.bindings.PFD.XPDR.CODE, 'on_change_auto_validation')) me.bindings.PFD.XPDR.CODE.on_change_auto_validation = maketimer(5, func call(me.bindings.PFD.IDENT, [], me)); me.bindings.PFD.XPDR.CODE.on_change_auto_validation.singleShot = 1; me.bindings.PFD.XPDR.CODE.on_change_auto_validation.start(); } else { d -= 1; tuning.setValue(d); } me.device.display.updateXPDR(); }, '1' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 1 ], me); }, '2' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 2 ], me); }, '3' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 3 ], me); }, '4' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 4 ], me); }, '5' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 5 ], me); }, '6' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 6 ], me); }, '7' : func { call(me.bindings.PFD.XPDR.CODE['0'], [ 7 ], me); }, IDENT: func { me.bindings.PFD.XPDR.CODE.inactivity.restart(me.device.display.softkeys_inactivity_delay); me.device.display.timers.softkeys_inactivity.restart(me.device.display.softkeys_inactivity_delay); call(me.bindings.PFD.IDENT, [], me); }, BKSP: func { if (radios.getValue('xpdr-tuning-fms-method')) return; if (contains(me.bindings.PFD.XPDR.CODE, 'on_change_inactivity')) me.bindings.PFD.XPDR.CODE.on_change_inactivity.restart(10); if (contains(me.bindings.PFD.XPDR.CODE, 'on_change_auto_validation')) me.bindings.PFD.XPDR.CODE.on_change_auto_validation.stop(); var tuning = radios.getNode('xpdr-tuning-digit'); var d = tuning.getValue(); if (d < 3) { d += 1; tuning.setValue(d); } me.device.display.updateXPDR(); }, BACK : func (inactive = 0) { call(me.bindings.PFD.XPDR.CODE.restore, [], me); pop(me.path); call(me.bindings.PFD.XPDR.CODE.exit, [me.path], me); }, restore : func { setprop('/instrumentation/transponder/id-code', sprintf('%s', radios.getValue('xpdr-backup-code'))); me.device.display.updateXPDR(); }, exit : func (p) { if (contains(me.bindings.PFD.XPDR.CODE, 'inactivity')) # does not exists if IDENT pressed from top-level me.bindings.PFD.XPDR.CODE.inactivity.stop(); radios.removeChild('xpdr-tuning-digit', 0); radios.removeChild('xpdr-backup-code', 0); radios.removeChild('xpdr-tuning-fms-method', 0); me.path = p; me.device.display.updateXPDR(); me.device.display.updateSoftKeys(); me.device.knobs.FmsInner = void; me.device.knobs.FmsOuter = void; me.device.display.timers.softkeys_inactivity.restart(me.device.display.softkeys_inactivity_delay); }, hook : func { # this level has its own timer as we may need to revert changes, and got different timers me.device.display.timers.softkeys_inactivity.stop(); me.bindings.PFD.XPDR.CODE.inactivity = maketimer( me.device.display.softkeys_inactivity_delay, func call(me.bindings.PFD.XPDR.CODE.BACK, [], me)); me.bindings.PFD.XPDR.CODE.inactivity.singleShot = 1; me.bindings.PFD.XPDR.CODE.inactivity.start(); var tuning = radios.getValue('xpdr-tuning-digit'); if (tuning == nil) { radios.getNode('xpdr-tuning-digit', 1).setValue(3); radios.getNode('xpdr-backup-code', 1).setValue(getprop('/instrumentation/transponder/id-code')); radios.getNode('xpdr-tuning-fms-method', 1).setValue(0); me.device.display.updateXPDR(); } me.device.knobs.FmsInner = me.device.knobs.XPDRCodeSetDigits; me.device.knobs.FmsOuter = me.device.knobs.XPDRCodeNextDigits; }, }, }, IDENT : func { if (radios.getValue('xpdr-mode') == 'STBY') return; setprop('/instrumentation/transponder/ident', 1); me.bindings.PFD.XPDR.ident = maketimer(18, func { setprop('/instrumentation/transponder/ident', 0); me.device.display.updateXPDR(); }); me.bindings.PFD.XPDR.ident.singleShot = 1; me.bindings.PFD.XPDR.ident.start(); call(me.bindings.PFD.XPDR.CODE.exit, [], me); }, OBS : func { if (cdi.getValue('source') != 'GPS') return; var cmd = props.globals.getNode('/instrumentation/gps/command'); var mode = getprop('/instrumentation/gps/mode'); if (mode == 'dto') mode = 'direct'; if (mode != 'obs') { data._previous_gps_mode = mode; cmd.setValue('obs'); aliases.GPS.course = 'selected-course-deg'; setprop('/instrumentation/gps/selected-course-deg', int(getprop('/instrumentation/gps/desired-course-deg'))); me.colored['OBS'] = 1; } else { cmd.setValue(data._previous_gps_mode); delete(data, '_previous_gps_mode'); aliases.GPS.course = 'desired-course-deg'; me.colored['OBS'] = 0; } me.device.display.setSoftKeyColor(4, me.colored['OBS'], 1); }, CDI : func { var list = ['OFF']; if (getprop('/instrumentation/gps/route-distance-nm') != nil) append(list, 'GPS'); if (getprop('/instrumentation/nav/in-range') != nil) append(list, 'NAV1'); if (getprop('/instrumentation/nav[1]/in-range') != nil) append(list, 'NAV2'); var index = std.Vector .new(list) .index(cdi.getNode('source').getValue()); var next = (index == size(list) -1) ? 0 : index + 1; cdi.getNode('source').setValue(list[next]); CDIfromSOURCE(list[next]); me.device.display.updateCDI(); }, 'TMR/REF' : func { if (!contains(me.device.windows.state, 'TMR/REF')) { var GenericTimer = func (id, selected) { var action = me.device.windows.state[id].objects[selected].text; if (action == 'START?') { me.device.data.TMRrevert = 0; me.device.data.TMRlast = getprop('/sim/time/elapsed-sec') - 1; me.device.data.TMRreset = me.device.windows.state[id].objects[selected - 2].text; me.device.data.TMRtimer = maketimer(1, func { var (hh, mm, ss) = split(':', me.device.windows.state[id].objects[selected - 2].text); var direction = -1; if ((me.device.windows.state[id].objects[selected - 1].text == me.device.windows.state[id].objects[selected - 1].choices[0]) or me.device.data.TMRrevert) direction = 1; var now = getprop('/sim/time/elapsed-sec'); var dt = int(now - me.device.data.TMRlast) * direction; me.device.data.TMRlast = now; var val = HMS(hh, mm, ss, dt); me.device.windows.state[id].objects[selected - 2].text = val; me.device.windows.window[id ~ '-' ~ (selected -2)] .setText(val); if (val == '00:00:00' and direction == -1) me.device.data.TMRrevert = 1; }, me); me.device.data.TMRtimer.start(); action = 'STOP?'; } elsif (action == 'STOP?') { me.device.data.TMRtimer.stop(); action = 'RESET?'; } elsif (action == 'RESET?') { action = 'START?'; if ((me.device.windows.state[id].objects[selected - 1].text == me.device.windows.state[id].objects[selected - 1].choices[1]) and !me.device.data.TMRrevert) var val = me.device.data.TMRreset; else var val = '00:00:00'; me.device.windows.state[id].objects[selected - 2].text = val; me.device.windows.window[id ~ '-' ~ (selected -2)] .setText(val); } me.device.windows.window[me.device.windows.selected] .setText(action); me.device.windows.state[id].objects[selected].text = action; }; var obj_infos = [ # objects infos {text: 'REFERENCES', type: 'title'}, {type: 'separator'}, {text: 'TIMER', type: 'normal'}, {text: '00:00:00', type: 'selected|time', }, {text: ' UP >', type: 'editable', choices: [' UP >', '' : '< OFF ', type: 'editable|immediate|end-of-line', scrollgroup: scrollgroup, _v: V, choices: [' ON >', '< OFF '], callback: func (id, selected) { var Vspeed = me.device.windows.state[id].objects[selected]._v; me.device.data[Vspeed ~ '-visible'] = me.device.windows.state[id].objects[selected].text == me.device.windows.state[id].objects[selected].choices[0]; } }); scrollgroup += 1; } append(obj_infos, {type: 'separator'}, {text: 'MINIMUMS', type: 'normal'}, {text: ' OFF >', type: 'editable', choices: [' OFF >', '< BARO >',' -1) { var angle = 180 - abs(abs(course - side) - 180); if (angle > 50) continue; } append(list, [n, course, dist]); if (size(list) == 5) break; } var obj_infos = [ { text: sprintf('NEAREST %s (%s)', string.uc(type), where), type: 'title' }, { type: 'separator' } ]; var firstEntry = 1; foreach (var n; list) { append(obj_infos, { text: sprintf('%s (%s)', n[0].id, n[0].name), type: (firstEntry ? 'selected' : 'editable') ~ '|end-of-line', dto: n[0], }); if (type == 'vor') { var idx = size(obj_infos) - 1; obj_infos[idx]._freq = n[0].frequency; obj_infos[idx].callback = func (id, selected) radios.getNode('nav-freq-mhz').setValue(me.device.windows.state[id].objects[selected]._freq / 100); } append(obj_infos, { text: sprintf('%s %03i° %3iNM', utf8.chstr(9658), n[1], n[2]), type: 'normal|end-of-line' }); firstEntry = 0; } me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.buttons.CLR = func { me.device.windows.del(id); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; me.device.buttons.MENU = me.device.buttons.GlobalParams; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; } me.device.buttons.MENU = func; me.device.windows.draw( id, {autogeom: 1}, obj_infos ); }, _displayNearestCOMM: func (where) { var id = 'PFD NRST'; me.device.display.updateSoftKeys(); me.device.windows.del(id); var results = []; var ATIS_list = []; var TRAFFIC_list = []; var TWR_list = []; results = findAirportsWithinRange(100); var norm_360 = func (a) return math.periodic(0, 360, a); if (where == 'OMNI') var side = -1; elsif (where == 'FRONT') var side = norm_360(data.hdg); elsif (where == 'RIGHT') var side = norm_360(data.hdg + 90); elsif (where == 'LEFT') var side = norm_360(data.hdg - 90); elsif (where == 'REAR') var side = norm_360(data.hdg + 180); foreach (var r; results) { var (course, dist) = courseAndDistance(r); if (side > -1) { var bearing = 180 - abs(abs(course - side) - 180); if (bearing > 50) continue; } foreach (var c; r.comms()) { if (size(ATIS_list) < 4 and (string.match(c.ident, '*ATIS*') or string.match(c.ident, '*A[SW]OS*'))) append(ATIS_list, [r.id, c.frequency, course, dist]); if (size(TWR_list) < 4 and string.match(c.ident, '*TWR*')) append(TWR_list, [r.id, c.frequency, course, dist]); if (size(TRAFFIC_list) < 4 and (string.match(c.ident, '*CTAF*') or string.match(c.ident, '*UNICOM*') or string.match(c.ident, '*MULTICOM*'))) append(TRAFFIC_list, [r.id, c.frequency, course, dist]); } } var obj_infos = []; firstEntry = 1; if (size(ATIS_list) > 0) { append(obj_infos, {text: 'ATIS', type: 'title'}); append(obj_infos, {type: 'separator'}); foreach (var atis; ATIS_list) { append(obj_infos, { text: atis[0], _freq: atis[1], type: firstEntry ? 'selected' : 'editable', callback: func (id, selected) radios.getNode('comm-freq-mhz').setValue(me.device.windows.state[id].objects[selected]._freq), }); append(obj_infos, { text: sprintf(' (%.3fMHz) %3i° %2iNM', atis[1], atis[2], atis[3]), type: 'normal|end-of-line' }); firstEntry = 0; } } if (size(TRAFFIC_list) > 0) { append(obj_infos, {text: 'TRAFFIC', type: 'title'}); append(obj_infos, {type: 'separator'}); foreach (var traffic; TRAFFIC_list) { append(obj_infos, { text: traffic[0], _freq: traffic[1], type: firstEntry ? 'selected' : 'editable', callback: func (id, selected) radios.getNode('comm-freq-mhz').setValue(me.device.windows.state[id].objects[selected]._freq), }); append(obj_infos, { text: sprintf(' (%.3fMHz) %3i° %2iNM', traffic[1], traffic[2], traffic[3]), type: 'normal|end-of-line' }); firstEntry = 0; } } if (size(TWR_list) > 0) { append(obj_infos, {text: 'TOWER', type: 'title'}); append(obj_infos, {type: 'separator'}); foreach (var tower; TWR_list) { append(obj_infos, { text: tower[0], _freq: tower[1], type: firstEntry ? 'selected' : 'editable', callback: func (id, selected) radios.getNode('comm-freq-mhz').setValue(me.device.windows.state[id].objects[selected]._freq), }); append(obj_infos, { text: sprintf(' (%.3fMHz) %3i° %2iNM', tower[1], tower[2], tower[3]), type: 'normal|end-of-line' }); firstEntry = 0; } } me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.MENU = func; me.device.buttons.CLR = func { me.device.windows.del(id); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; me.device.buttons.MENU = me.device.buttons.GlobalParams; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; } me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.windows.draw( id, {autogeom: 1}, obj_infos ); }, ############################################################################################################ # THIS CODE SHOULD REPLACE THE LINES BELOW (in new()), but it makes all call with the same args (apt, RIGHT) ############################################################################################################ # if (m.device.role == 'PFD') # foreach (var dir; keyMap.PFD.NRST.texts) { # m.bindings.PFD.NRST[dir] = {}; # foreach (var type; keyMap.PFD.NRST.OMNI.texts) { # m.bindings.PFD.NRST[dir][type] = func { # call(m.bindings.PFD.NRST._displayNearest, [string.lc(type), dir], m) # }; # } # } ############################################################################################################ OMNI: { APT: func { call(me.bindings.PFD.NRST._displayNearest, ['apt', 'OMNI'], me) }, VOR: func { call(me.bindings.PFD.NRST._displayNearest, ['vor', 'OMNI'], me) }, NDB: func { call(me.bindings.PFD.NRST._displayNearest, ['ndb', 'OMNI'], me) }, FIX: func { call(me.bindings.PFD.NRST._displayNearest, ['fix', 'OMNI'], me) }, COMM:func { call(me.bindings.PFD.NRST._displayNearestCOMM, ['OMNI'], me) }, }, FRONT: { APT: func { call(me.bindings.PFD.NRST._displayNearest, ['apt', 'FRONT'], me) }, VOR: func { call(me.bindings.PFD.NRST._displayNearest, ['vor', 'FRONT'], me) }, NDB: func { call(me.bindings.PFD.NRST._displayNearest, ['ndb', 'FRONT'], me) }, FIX: func { call(me.bindings.PFD.NRST._displayNearest, ['fix', 'FRONT'], me) }, COMM:func { call(me.bindings.PFD.NRST._displayNearestCOMM, ['FRONT'], me) }, }, RIGHT: { APT: func { call(me.bindings.PFD.NRST._displayNearest, ['apt', 'RIGHT'], me) }, VOR: func { call(me.bindings.PFD.NRST._displayNearest, ['vor', 'RIGHT'], me) }, NDB: func { call(me.bindings.PFD.NRST._displayNearest, ['ndb', 'RIGHT'], me) }, FIX: func { call(me.bindings.PFD.NRST._displayNearest, ['fix', 'RIGHT'], me) }, COMM:func { call(me.bindings.PFD.NRST._displayNearestCOMM, ['RIGHT'], me) }, }, REAR: { APT: func { call(me.bindings.PFD.NRST._displayNearest, ['apt', 'REAR'], me) }, VOR: func { call(me.bindings.PFD.NRST._displayNearest, ['vor', 'REAR'], me) }, NDB: func { call(me.bindings.PFD.NRST._displayNearest, ['ndb', 'REAR'], me) }, FIX: func { call(me.bindings.PFD.NRST._displayNearest, ['fix', 'REAR'], me) }, COMM:func { call(me.bindings.PFD.NRST._displayNearestCOMM, ['REAR'], me) }, }, LEFT: { APT: func { call(me.bindings.PFD.NRST._displayNearest, ['apt', 'LEFT'], me) }, VOR: func { call(me.bindings.PFD.NRST._displayNearest, ['vor', 'LEFT'], me) }, NDB: func { call(me.bindings.PFD.NRST._displayNearest, ['ndb', 'LEFT'], me) }, FIX: func { call(me.bindings.PFD.NRST._displayNearest, ['fix', 'LEFT'], me) }, COMM:func { call(me.bindings.PFD.NRST._displayNearestCOMM, ['LEFT'], me) }, }, }, }, MFD : { ENGINE: { FUEL: { UNDO: func { pop(me.path); me.device.display.updateSoftKeys(); }, ENTER: func { pop(me.path); me.device.display.updateSoftKeys(); }, }, ENGINE: func { me.path = []; me.device.display.updateSoftKeys(); }, }, CHKLIST : { _showCheckList: func (id, selected) { var tabulate = func (l, r, t = 3, c = '.') { var s = ''; for (var i = 0; i < (l - r) + t; i += 1) s ~= c; return s; } var groupIndex = me.device.windows.state[id].objects[selected].groupIndex; var checklistIndex = me.device.windows.state[id].objects[selected].checklistIndex; if (contains(me.device.windows.state[id].objects[selected], 'pageIndex')) pageIndex = me.device.windows.state[id].objects[selected].pageIndex; else pageIndex = -1; var title = ''; if (contains(me.device.windows.state[id].objects[selected], 'checklistTitle')) title = me.device.windows.state[id].objects[selected].checklistTitle; else title = me.device.windows.state[id].objects[selected].text; me.device.windows.del(id); if (groupIndex < 0) checklistNode = props.globals.getNode("/sim/checklists") .getChild('checklist', checklistIndex); else checklistNode = props.globals.getNode("/sim/checklists") .getChild("group", groupIndex) .getChild('checklist', checklistIndex); var pages = checklistNode.getChildren('page'); if (size(pages) and pageIndex == -1) pageIndex = 0; _previous_text = ' < PREVIOUS '; _next_text = ' NEXT > '; var obj_infos = []; var length = size(_previous_text ~ _next_text); var length_cache = []; if (size(pages)) checklistNode = pages[pageIndex]; append(obj_infos, { text: sprintf('%s%s', title, size(pages) > 1 ? sprintf(' %d / %d', pageIndex + 1, size(pages)) : ''), type: 'title' }); append(obj_infos, {type: 'separator'}); forindex (var i; checklistNode.getChildren('item')) { var l = size(checklistNode.getChild('item', i).getValue('name')); if (checklistNode.getChild('item', i).getChild('value') != nil) l += size(checklistNode.getChild('item', i).getValue('value')); append(length_cache, l); if (l > length) length = l; } forindex (var i; checklistNode.getChildren('item')) { var text = pages[pageIndex].getChild('item', i).getValue('name'); var item_val = ''; if (pages[pageIndex].getChild('item', i).getChild('value') != nil) item_val = pages[pageIndex].getChild('item', i).getValue('value'); if (item_val != '') text ~= tabulate(length, length_cache[i]); text ~= item_val; append(obj_infos, { text: text, groupIndex: groupIndex, checklistIndex: checklistIndex, pageIndex: pageIndex, type: 'normal|end-of-line' }); } append(obj_infos, {type: 'separator'}); if (pageIndex and size(pages)) append(obj_infos, { text: _previous_text, groupIndex: groupIndex, checklistIndex: checklistIndex, pageIndex: pageIndex - 1, checklistTitle: title, type: (pageIndex + 1 < size(pages)) ? 'editable' : 'selected', callback: func (id, selected) call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [id, selected], me) }); else append(obj_infos, { text: tabulate(length, size(_next_text), 0, ' '), type: 'normal' }); if (pageIndex + 1 < size(pages)) { if (pageIndex and size(pages)) append(obj_infos, { text: tabulate(length, size(_previous_text ~ _next_text), 0, ' '), type: 'normal', }); append(obj_infos, { text: _next_text, groupIndex: groupIndex, checklistIndex: checklistIndex, pageIndex: pageIndex + 1, checklistTitle: title, type: 'selected|end-of-line', callback: func (id, selected) call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [id, selected], me) }); } me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.buttons.CLR = func { me.device.windows.del(id); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; me.device.buttons.MENU = func; } me.device.windows.draw( id, {autogeom: 1}, obj_infos ); }, LIST: func { # nested function as checklist lists may be organized by group var listChecklists = func (id, selected) { var groupIndex = me.device.windows.state[id].objects[selected].groupIndex; me.device.windows.del(id); var checklists = []; var firstEntry = 1; if (groupIndex == -1) checklists = props.globals.getNode("/sim/checklists") .getChildren('checklist'); else checklists = props.globals.getNode("/sim/checklists") .getChild("group", groupIndex) .getChildren('checklist'); var checklistsQty = size(checklists); var obj_infos = []; if (checklistsQty) { forindex (var c; checklists) { if (string.uc(checklists[c].getValue('title')) == 'EMERGENCY') { checklistsQty -= 1; continue; } var title = checklists[c].getValue('title'); append(obj_infos, { text: title, groupIndex: groupIndex, checklistIndex: c, checklistTitle: title, type: (firstEntry ? 'selected' : 'editable') ~ '|end-of-line', callback: func (id, selected) call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [id, selected], me) }); if (checklistsQty == 1) { # see comments below for groups call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [groupIndex, 0], me); return; } elsif (checklistsQty == 0) return; firstEntry = 0; } } id ~= ' CHECKLISTS'; me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.buttons.CLR = func { me.device.windows.del(id); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; me.device.buttons.MENU = func; } me.device.windows.draw(id, {autogeom: 1}, obj_infos); } var windowId = 'CHKLIST LIST'; if (contains(me.device.windows.state, windowId)) me.device.windows.del(windowId); var obj_infos = []; var firstEntry = 1; var groups = props.globals.getNode("/sim/checklists").getChildren("group"); var groupsQty = size(groups); if (groupsQty) { forindex (var g; groups) { # emergency checklists are listed in their own menu if (string.uc(groups[g].getValue('name')) == 'EMERGENCY') { groupsQty -= 1; continue; } # the key groupIndex isn't used by the display system # we use it to keep the information of group node's index append(obj_infos, { text: groups[g].getValue('name'), groupIndex: g, type: (firstEntry ? 'selected' : 'editable') ~ '|end-of-line', callback: func (id, selected) listChecklists(id, selected) }); firstEntry = 0; # if there are only one group left, let display it directly if (groupsQty == 1) { listChecklists(windowId, 0); return; } elsif (groupsQty == 0) { return; } } } else { listChecklists(windowId, -1); return; } me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.buttons.CLR = func { me.device.windows.del(windowId); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; me.device.buttons.MENU = func; } me.device.windows.draw(windowId, {autogeom: 1}, obj_infos); }, EMERGCY: func { # nested function as checklist lists may be organized by group var listChecklists = func (groupIndex) { var checklists = []; var firstEntry = 1; if (groupIndex == -1) checklists = props.globals.getNode("/sim/checklists") .getChildren('checklist'); else checklists = props.globals.getNode("/sim/checklists") .getChild("group", groupIndex) .getChildren('checklist'); var checklistsQty = size(checklists); var obj_infos = []; var firstEntry = 1; if (checklistsQty) { forindex (var c; checklists) { if (groupIndex < 0 and string.uc(checklists[c].getValue('title')) != 'EMERGENCY') { checklistsQty -= 1; continue; } append(obj_infos, { text: checklists[c].getValue('title'), groupIndex: groupIndex, checklistIndex: c, type: (firstEntry ? 'selected' : 'editable') ~ '|end-of-line', callback: func (id, selected) call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [id, selected], me) }); firstEntry = 0; } } id = 'EMERGENCY CHECKLISTS'; me.device.knobs.FmsInner = me.device.knobs.NavigateMenu; me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu; me.device.buttons.ENT = me.device.buttons.ValidateTMRREF; me.device.buttons.CLR = func { me.device.windows.del(id); me.device.knobs.FmsOuter = func; me.device.knobs.FmsInner = func; foreach (var b; ['ENT', 'CLR']) me.device.buttons[b] = func; me.device.buttons.MENU = func; } me.device.windows.draw(id, {autogeom: 1}, obj_infos); if (checklistsQty == 1) { # see comments below for groups call(me.device.softkeys.bindings.MFD.CHKLIST._showCheckList, [groupIndex, 0], me); return; } elsif (checklistsQty == 0) call(me.device.buttons.CLR, [0], me); return; } var windowId = 'CHKLIST EMERGCY'; if (contains(me.device.windows.state, windowId)) me.device.windows.del(windowId); var groups = props.globals.getNode("/sim/checklists").getChildren("group"); var emergency_group_found = 0; if (size(groups)) { forindex (var g; groups) { # emergency checklists are listed in their own menu # we support only one emergency checklists group named EMERGENCY (case insensitive) if (string.uc(groups[g].getValue('name')) != 'EMERGENCY') continue; listChecklists(g); emergency_group_found = !emergency_group_found; break; } } if (!emergency_group_found) listChecklists(-1); }, EXIT: func { me.path = []; me.device.display.updateSoftKeys(); }, }, MAP: { TRAFFIC: func { call(me.bindings.PFD.INSET.declutter, ['MAPTRAFFIC', 'tcas', 0], me); }, ROUTE: func { call(me.bindings.PFD.INSET.declutter, ['MAPROUTE', 'route', 1], me); }, TERRAIN: func { call(me.bindings.PFD.INSET.declutter, ['MAPTERRAIN', 'tiles', 3], me); }, TOPO: func { call(me.bindings.PFD.INSET.declutter, ['MAPTOPO', 'topo', 7], me); }, NAVAIDS: { ALL: func { call(me.bindings.PFD.INSET.NAVAIDS.ALL, [ 'MAPNAVAIDS' ], me); }, VOR: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['MAPNAVAIDSVOR', 'VOR', 2], me); }, TACAN: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['MAPNAVAIDSTACAN', 'TACAN', 3], me); }, NDB: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['MAPNAVAIDSNDB', 'NDB', 4], me); }, DME: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['MAPNAVAIDSDME', 'DME', 5], me); }, APT: func { call(me.bindings.PFD.INSET.NAVAIDS.declutter, ['MAPNAVAIDSAPT', 'airport', 6], me); }, }, }, }, }, }; var keyMap = { # softkeys map for PFD and MFD {{{1 # PFD {{{2 PFD : { first : 1, texts : ['INSET', 'SENSOR', 'PFD', 'OBS', 'CDI', 'DME', 'XPDR', 'IDENT', 'TMR/REF', 'NRST' ], INSET : { texts : ['OFF', '', '', 'ROUTE', '', 'TERRAIN', 'NAVAIDS', 'METAR'], NAVAIDS : { first : 2, texts : ['VOR', 'TACAN', 'NDB', 'DME', 'APT', '', 'ALL'], }, }, SENSOR : { first : 2, texts : [ 'ADC1', 'ADC2', '', 'AHRS1', 'AHRS2'], }, PFD : { texts : [ 'SYN VIS', 'DFLTS', 'AOA/WIND', 'DME', 'BRG1', 'HSI FMT', 'BRG2', '', 'ALT UNIT', 'STD BARO' ], 'SYN VIS' : { texts : [ 'PATHWAY', 'SYN TERR', 'HR2NHDG', 'APTSIGNS', 'FPM'], }, 'AOA/WIND' : { first : 4, texts : ['AOA', 'WIND'], AOA : { first : 5, texts : ['AOA ON', 'AOA AUTO'], }, WIND : { first : 2, texts : ['OPTN1', 'OPTN2', '', 'OFF'], }, }, 'HSI FMT' : { first : 6, texts : ['360 HSI', 'ARC HSI'], }, 'ALT UNIT' : { first : 5, texts : ['METERS', '', 'IN', 'HPA'], }, }, XPDR : { first : 2, texts : ['STBY', 'ON', 'ALT', '', 'VFR', 'CODE', 'IDENT'], CODE : { texts : ['0', '1', '2', '3', '4', '5', '6', '7', 'IDENT', 'BKSP'], }, }, NRST : { first : 4, texts : ['OMNI', 'REAR', 'FRONT', 'LEFT', 'RIGHT', 'RANGE'], RANGE : { first : 7, texts : ['MIN', 'MAX' ], MIN : { first: 3, texts : ['0NM', '10NM', '30NM', '50NM'] }, MAX : { first: 3, texts : ['200NM', '150NM', '100NM', '50NM'] }, }, OMNI : { texts: ['NDB', 'FIX', 'VOR', 'APT', '', '', '', '', '', 'COMM'] }, # that will be mirrored later }, }, #}}}2 # MFD {{{2 MFD : { texts : ['ENGINE', '', 'MAP', '', '', '', '', '', '', 'DCLTR', 'SHW CHRT', 'CHKLIST'], MAP : { texts : ['TRAFFIC', 'ROUTE', 'TOPO', 'TERRAIN', 'NAVAIDS', '','', '', '', '', 'BACK'], NAVAIDS : { first : 2, texts : ['VOR', 'TACAN', 'NDB', 'DME', 'APT', '', 'ALL', '', '', 'BACK' ], }, }, CHKLIST : { texts : ['ENGINE', '', '', '', 'LIST', 'DONE', '', '', '', '', 'EXIT', 'EMERGCY'], }, ENGINE : { texts : ['ENGINE', 'ANTI-ICE', '', 'DCLTR', '', 'ASSIST', '', '', '', '', 'FUEL'], 'ANTI-ICE' : { texts : ['LEFT', 'AUTO', 'RIGHT', '', '', '', '', '', '', '', '', 'BACK'], }, FUEL : { first : 1, texts : ['FULL', 'TABS', '', '', '', '', '', '', '', 'UNDO', 'ENTER'], }, }, }, #}}}2 }; if (data['stall-aoa'] == 9999) keyMap.PFD.PFD['AOA/WIND'].texts = ['', 'WIND']; if (props.globals.getNode('/sim/checklists') == nil) { keyMap.MFD.texts[11] = ''; delete(keyMap.MFD, 'CHKLIST'); } foreach (var d; ['FRONT', 'REAR', 'LEFT', 'RIGHT']) { keyMap.PFD.NRST[d] = keyMap.PFD.NRST.OMNI; } #}}}1