1 contributor
var softkeysClass = {
new : func (device) {
var m = { parents: [ softkeysClass ] };
m.device = device;
m.path = [];
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 {
pop(me.path);
me.device.display.updateSoftKeys();
},
},
PFD: {
'AOA/WIND' : {
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();
},
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();
},
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();
},
},
},
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]);
},
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();
},
IN : func {
me.device.display._baro_unit = 'inhg';
me.device.display.updateBARO();
},
HPA : func {
me.device.display._baro_unit = 'hpa';
me.device.display.updateBARO();
},
},
XPDR: {
STBY : func {
setprop('/instrumentation/transponder/ident', 0);
setprop('/instrumentation/transponder/knob-mode', 1);
setprop('/instrumentation/zkv1000/radio/xpdr-mode', 'STBY');
me.device.display.updateXPDR();
},
ON : func {
setprop('/instrumentation/transponder/ident', 1);
setprop('/instrumentation/transponder/knob-mode', 4);
setprop('/instrumentation/zkv1000/radio/xpdr-mode', 'ON');
me.device.display.updateXPDR();
},
ALT : func {
setprop('/instrumentation/transponder/ident', 1);
setprop('/instrumentation/transponder/knob-mode', 5);
setprop('/instrumentation/zkv1000/radio/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 (getprop('/instrumentation/zkv1000/radios/xpdr-tuning-fms-method'))
return;
me.device.display.timers2.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 {
setprop('/instrumentation/zkv1000/radios/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 == 1) {
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.timers2.softkeys_inactivity.restart(me.device.display.softkeys_inactivity_delay);
call(me.bindings.PFD.IDENT, [], me);
},
BKSP: func {
if (getprop('/instrumentation/zkv1000/radios/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', getprop('/instrumentation/zkv1000/radios/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.timers2.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.timers2.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 = getprop('/instrument/zkv1000/radios/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 (getprop('/instrumentation/zkv1000/radio/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);
},
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')) {
me.device.windows.draw(
'TMR/REF',
{x: 720, y: 535, w: 300, l: 5, sep: 3},
[ # 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 >', '<DOWN '], callback: func},
{text: 'START?', type: 'editable|end-of-line|choices', choices: ['START?', 'RESET?', 'STOP?'], callback: func},
{type: 'separator'},
{text: sprintf('Vx % 3iKT', alerts.getNode('Vx').getValue()), type: 'normal', scrollgroup:0},
{text: ' ON >', type: 'editable|end-of-line', choices: [' ON >', '< OFF '], scrollgroup:0, callback: func},
{text: sprintf('Vy % 3iKT', alerts.getNode('Vy').getValue()), type: 'normal', scrollgroup:1},
{text: ' ON >', type: 'editable|end-of-line', choices: [' ON >', '< OFF '], scrollgroup:1, callback: func},
{text: sprintf('Vr % 3iKT', alerts.getNode('Vr').getValue()), type: 'normal', scrollgroup:2},
{text: ' ON >', type: 'editable|end-of-line', choices: [' ON >', '< OFF '], scrollgroup:2, callback: func},
{text: sprintf('Vglide % 3iKT', alerts.getNode('Vglide').getValue()), type: 'normal', scrollgroup:3},
{text: ' ON >', type: 'editable|end-of-line', choices: [' ON >', '< OFF '], scrollgroup:3, callback: func},
{type: 'separator'},
{text: 'MINIMUMS', type: 'normal'},
{text: ' BARO >', type: 'editable', choices: [' BARO >','< TST1 >','< TST2 '], callback: func},
{text: ' 1000FT', type: 'editable', format: '% 5iFT', factor: 100, callback: func},
],
{ # scrolling info, see menu.nas
lines : 3,
columns : 2,
}
);
me.device.knobs.FmsInner = me.device.knobs.MenuSettings;
me.device.knobs.FmsOuter = me.device.knobs.NavigateMenu;
}
else {
me.device.knobs.FmsInner = func;
me.device.knobs.FmsOuter = func;
me.device.windows.del();
}
},
},
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 : {
EXIT: func {
me.path = [];
me.device.display.updateSoftKeys();
},
},
},
},
};