1 contributor
var APClass = {
new : func {
var m = { parents: [ APClass ] };
m.system = 'none';
var ap_systems = { # described AP systems to search, if it returns true system is set
STEC55X: func contains(stec55x, 'ITAF'),
GFC700: func props.globals.getNode('/autopilot/GFC700/FSM/lateral').getPath(),
};
foreach (var s; sort(keys(ap_systems), func(a,b) cmp(a,b))) {
call(ap_systems[s], [], nil, nil, var errors = []);
if (!size(errors)) {
msg('found autopilot system: ' ~ s);
m.system = s;
break;
}
}
m.engaged = 0;
if (! contains(data.timers, 'updateAP')) {
data.timers.updateAP = maketimer(1, m, m.systems[m.system].updateDisplay);
data.timers.updateAP.start();
}
var ap_annun = [
'LATMOD-Armed-text', 'LATMOD-Active-text',
'AP-Status-text', 'YD-Status-text',
'VERMOD-Active-text', 'VERMOD-Reference-text', 'VERMOD-Armed-text'
];
foreach (var elem; ap_annun) {
var color = (elem == 'LATMOD-Armed-text' or elem == 'VERMOD-Armed-text') ? 'white' : 'green';
flightdeck.PFD.display.screenElements[elem]
.setColor(flightdeck.PFD.display.colors[color])
.setVisible(0);
}
foreach (var ap; [ 'AP', 'YD' ])
flightdeck.PFD.display.screenElements[ap ~ '-Status-text']
.setDrawMode(canvas.Text.TEXT + canvas.Text.FILLEDBOUNDINGBOX)
.setColorFill(flightdeck.PFD.display.colors.black)
.setText(ap);
ap_annun = nil;
ap_systems = nil;
# delete unused systems
foreach (var e; keys(m.systems))
if (e != m.system)
delete(m.systems, e);
if (contains(m.systems[m.system], 'hook') and typeof(m.systems[m.system].hook) == 'func')
m.systems[m.system].hook();
return m;
},
softkey: func (side, row, a) {
if (a)
return;
call(me.systems[me.system][side][row], [], autopilot.parents[0].systems[me.system]);
},
systems : {
# L: AP FD NAV ALT VS FLC
# R: YD HDG APR VNV UP DN
none: {
updateDisplay: func,
hook: func,
L: [ func, func, func, func, func, func ],
R: [ func, func, func, func, func, func ],
},
GFC700: {
# Many thanks to the great work on the FG1000
_blink_count: 0,
updateDisplay: func {
var se = flightdeck.PFD.display.screenElements;
var annunciator = props.globals.getNode('/autopilot/annunciator');
var ap_enabled = annunciator.getValue('autopilot-enabled');
var latmod = annunciator.getValue('lateral-mode');
var latmod_armed = annunciator.getValue('lateral-mode-armed');
var vertmod = annunciator.getValue('vertical-mode');
var vertmod_armed = annunciator.getValue('vertical-mode-armed');
var vertmod_target = annunciator.getValue('vertical-mode-target');
if (vertmod_target != nil) {
vertmod_target = string.replace(vertmod_target, '+', utf8.chstr(9650));
vertmod_target = string.replace(vertmod_target, '-', utf8.chstr(9660));
}
se['LATMOD-Active-text'].setVisible(latmod != nil and ap_enabled).setText(latmod);
se['LATMOD-Armed-text'].setVisible(latmod_armed != nil and ap_enabled).setText(latmod_armed);
se['VERMOD-Active-text'].setVisible(vertmod != nil and ap_enabled).setText(vertmod);
se['VERMOD-Reference-text'].setVisible(vertmod_target != nil and ap_enabled).setText(vertmod_target);
se['VERMOD-Armed-text'].setVisible(vertmod_armed != nil and ap_enabled).setText(vertmod_armed);
if (se['AP-Status-text'].getVisible() and !ap_enabled) {
if (math.mod(me._blink_count,2))
se['AP-Status-text']
.setDrawMode(canvas.Text.TEXT + canvas.Text.FILLEDBOUNDINGBOX)
.setColorFill(flightdeck.PFD.display.colors.yellow)
.setColor(flightdeck.PFD.display.colors.black);
else
se['AP-Status-text']
.setDrawMode(canvas.Text.TEXT + canvas.Text.FILLEDBOUNDINGBOX)
.setColorFill(flightdeck.PFD.display.colors.black)
.setColor(flightdeck.PFD.display.colors.yellow);
me._blink_count += 1;
if (me._blink_count == 5) {
se['AP-Status-text']
.setColor(flightdeck.PFD.display.colors.green)
.setVisible(0);
me._blink_count = 0;
}
return;
}
else {
se['AP-Status-text'].setVisible(ap_enabled);
me._blink_count = 0;
}
},
hook: func {
me._vertical_mode = globals.props.getNode("/autopilot/annunciator/vertical-mode", 1);
me._pitch_setting = globals.props.getNode("/autopilot/settings/target-pitch-deg", 1);
me._climb_setting = globals.props.getNode("/autopilot/settings/vertical-speed-fpm", 1);
me._speed_setting = globals.props.getNode("/autopilot/settings/target-speed-kt", 1);
me._vertical_mode_button = globals.props.getNode("/autopilot/vertical-mode-button", 1);
me._lateral_mode_button = globals.props.getNode("/autopilot/lateral-mode-button", 1);
me._ap_mode_button = globals.props.getNode("/autopilot/AP-mode-button", 1);
me._ap_enabled = globals.props.getNode("/autopilot/annunciator/autopilot-enabled", 1);;
me._fd_enabled = globals.props.getNode("/autopilot/annunciator/flight-director-enabled", 1);;
},
sendModeChange: func (value) {
me._vertical_mode_button.setValue(value);
me._lateral_mode_button.setValue(value);
if (value == "AP") {
me._ap_mode_button.setValue(value);
}
},
handleNoseUpDown : func(value) {
var vertical_mode = me._vertical_mode.getValue();
if (vertical_mode == "PIT")
me._pitch_setting.setValue(me._pitch_setting.getValue() + (value * 1));
if (vertical_mode == "VS") {
me._climb_setting.setValue(me._climb_setting.getValue() + (value * 100));
setprop("/autopilot/annunciator/vertical-mode-target",
sprintf("%+ifpm", me._climb_setting.getValue())
);
}
if (vertical_mode == "FLC") {
me._speed_setting.setValue(me._speed_setting.getValue() - (value * 1));
setprop("/autopilot/annunciator/vertical-mode-target",
sprintf("%i kt", me._speed_setting.getValue())
);
}
},
L: [
func { me.sendModeChange('AP'); },
func { me.sendModeChange('FD'); },
func { me.sendModeChange('NAV'); if (data.fpSize > 0) setprop('/autopilot/settings/nav-mode-source', cdi.getValue('source')); },
func { me.sendModeChange('ALT'); },
func { me.sendModeChange('VS'); },
func { me.sendModeChange('FLC'); },
],
R: [
func { me.sendModeChange('YD'); },
func { me.sendModeChange('HDG'); },
func { me.sendModeChange('APR'); },
func { me.sendModeChange('VNV'); },
func { me.handleNoseUpDown(1); },
func { me.handleNoseUpDown(-1); },
],
},
STEC55X: {
_aliases: {
hdg: afcs.getNode('heading-bug-deg'),
alt: afcs.getNode('selected-alt-ft'),
NAVCourse: cdi.getNode('course'),
OBSNAVNeedle: cdi.getNode('course-deflection'),
},
hook : func {
me.trimTarget = 0;
foreach (var a; keys(me._aliases)) stec55x[a].alias(me._aliases[a]);
setprop('/it-stec55x/input/ap-master-sw', 1);
},
updateDisplay: func {
var se = flightdeck.PFD.display.screenElements;
se['AP-Status-text'].setVisible(stec55x.rollMode != -1 or stec55x.pitchMode != -1);
se['YD-Status-text'].setVisible(stec55x.yaw.getValue() != -1);
if (stec55x.rollMode != -1) {
se['LATMOD-Active-text'].setVisible(1).setText('ROL');
var armed = '';
foreach (var m; [ 'NAV', 'CNAV', 'REV', 'CREV' ])
if (stec55x[m]) armed = m;
if (stec55x.roll.getValue() == 0) armed = 'HDG';
elsif (stec55x.roll.getValue() == 2) armed = 'GPS';
elsif (stec55x.APR_annun.getValue()) armed = 'APR';
se['LATMOD-Armed-text']
.setVisible(size(armed))
.setText(armed);
}
else {
se['LATMOD-Active-text'].setVisible(0);
se['LATMOD-Armed-text'].setVisible(0);
}
if (stec55x.pitchMode != 1) {
var armed = '';
var active = '';
var reference = '';
if (stec55x.ALT_annun.getBoolValue()) {
if (abs(data.alt - afcs.getValue('selected-alt-ft')) < 150) {
active = 'ALT';
reference = sprintf('%5d ft', afcs.getValue('selected-alt-ft'));
armed = 'ALTS'
}
else {
active = 'ALT';
reference = sprintf('%5d ft', math.round(data.alt, 10));
armed = 'ALT';
}
}
elsif (stec55x.VS_annun.getBoolValue()) {
active = 'VS';
reference = sprintf('%s%4d fpm',
utf8.chstr(stec55x.vs.getValue() > 0 ? 9650 : 9660),
math.abs(math.round(stec55x.vs.getValue(), 10)));
}
elsif (stec55x.GSArmed.getBoolValue()) {
armed = 'VPATH';
active = 'GS';
}
# TODO: ask Octal450 which prop or variable can be used here
# elsif (stec55x.???) {
# armed = 'PIT';
# active = 'ALT';
# reference = sprintf("%d°", autopilot.systems.STEC55X.trim);
# }
se['VERMOD-Active-text'].setVisible(size(active)).setText(active);
se['VERMOD-Armed-text'].setVisible(size(armed)).setText(armed);
se['VERMOD-Reference-text'].setVisible(size(reference)).setText(reference);
}
},
L: [
func,
func {
# var apfd_master_sw = '/it-stec55x/input/apfd-master-sw';
# setprop(apfd_master_sw, !getprop(apfd_master_sw));
},
func {
var _roll = stec55x.roll.getValue();
if (_roll == 1 or _roll == 2 or _roll == 4)
stec55x.roll.setValue(-1);
else {
stec55x.roll.setValue(1);
call(stec55x.button.NAV, [], nil, stec55x);
}
},
func {
# call(stec55x.button.ALT, [], nil, stec55x);
},
func {
# stec55x.vs.setValue(math.round(data.vsi, 100));
# call(stec55x.button.VS, [], nil, stec55x);
},
func,
],
R: [
func {
# var yaw_dumper_sw = '/it-stec55x/input/yaw-damper-sw';
# setprop(yaw_dumper_sw, !getprop(yaw_dumper_sw));
},
func {
if (stec55x.roll.getValue() == 0)
stec55x.roll.setValue(-1);
else
call(stec55x.button.HDG, [], nil, stec55x);
},
func {
# call(stec55x.button.APR, [], nil, stec55x);
},
func,
func { # UP (trim)
# if (autopilot.systems.STEC55X.trimTarget > -15)
# autopilot.systems.STEC55X.trimTarget -= 1;
# fgcommand('property-assign', {property: '/it-stec55x/input/man-trim', value: -1});
# fgcommand('property-assign', {property: '/it-stec55x/input/man-trim', value: 0});
},
func { # DN (trim)
# if (autopilot.systems.STEC55X.trimTarget < 20)
# autopilot.systems.STEC55X.trimTarget += 1;
# fgcommand('property-assign', {property: '/it-stec55x/input/man-trim', value: 1});
# fgcommand('property-assign', {property: '/it-stec55x/input/man-trim', value: 0});
},
],
}
}
};