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fgdata/Aircraft/Instruments-3d/FG1000/Nasal/Interfaces/GFC700Interface.nas

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# Copyright 2019 Stuart Buchanan
# This file is part of FlightGear.
#
# FlightGear is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# FlightGear is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with FlightGear. If not, see <http://www.gnu.org/licenses/>.
#
# Emesary interface to set autopilot configuration.
#
var GFC700Interface = {
new : func ()
{
var obj = { parents : [ GFC700Interface ] };
# Emesary
obj._recipient = nil;
obj._transmitter = emesary.GlobalTransmitter;
obj._registered = 0;
obj._vertical_mode = globals.props.getNode("/autopilot/annunciator/vertical-mode", 1);
obj._pitch_setting = globals.props.getNode("/autopilot/settings/target-pitch-deg", 1);
obj._climb_setting = globals.props.getNode("/autopilot/settings/vertical-speed-fpm", 1);
obj._speed_setting = globals.props.getNode("/autopilot/settings/target-speed-kt", 1);
# State variables
obj._vertical_mode_button = globals.props.getNode("/autopilot/vertical-mode-button", 1);
obj._lateral_mode_button = globals.props.getNode("/autopilot/lateral-mode-button", 1);
obj._ap_mode_button = globals.props.getNode("/autopilot/AP-mode-button", 1);
obj._ap_enabled = globals.props.getNode("/autopilot/annunciator/autopilot-enabled", 1);;
obj._fd_enabled = globals.props.getNode("/autopilot/annunciator/flight-director-enabled", 1);;
return obj;
},
# Under the covers there are 3 FSMs, two of which run in parallel, and need
# separate input channels.
sendModeChange : func(value) {
me._vertical_mode_button.setValue(value);
me._lateral_mode_button.setValue(value);
if (value == "AP") {
me._ap_mode_button.setValue("AP");
}
return emesary.Transmitter.ReceiptStatus_Finished;
},
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") {
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# Note that the button is NOSE UP / NOSE DN, so pressing NOSE DN _increases_
# speed, while NOSE UP _decreases_ speed. So the speed setting is reversed
# in comparison with setting direct pitch.
me._speed_setting.setValue(me._speed_setting.getValue() - (value * 1));
setprop("/autopilot/annunciator/vertical-mode-target",
sprintf("%i kt", me._speed_setting.getValue())
);
}
return emesary.Transmitter.ReceiptStatus_Finished;
},
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setAPNavSource : func(src) {
setprop("/autopilot/settings/nav-mode-source", src);
# Also need to do something to trigger a NAV change if we're in NAV mode already.
return emesary.Transmitter.ReceiptStatus_Finished;
},
RegisterWithEmesary : func()
{
if (me._recipient == nil){
me._recipient = emesary.Recipient.new("AutopilotInterface");
var controller = me;
# Note that unlike the various keys, this data isn't specific to a particular
# Device - it's shared by all. Hence we don't check for the notificaiton
# Device_Id.
me._recipient.Receive = func(notification)
{
if (notification.NotificationType == notifications.PFDEventNotification.DefaultType and
notification.Event_Id == notifications.PFDEventNotification.HardKeyPushed and
notification.EventParameter != nil)
{
var id = notification.EventParameter.Id;
var value = notification.EventParameter.Value;
if (id == fg1000.FASCIA.AP ) return controller.sendModeChange("AP");
if (id == fg1000.FASCIA.HDG) return controller.sendModeChange("HDG");
if (id == fg1000.FASCIA.NAV) return controller.sendModeChange("NAV");
if (id == fg1000.FASCIA.APR) return controller.sendModeChange("APR");
if (id == fg1000.FASCIA.VS ) return controller.sendModeChange("VS");
if (id == fg1000.FASCIA.FLC) return controller.sendModeChange("FLC");
if (id == fg1000.FASCIA.FD ) return controller.sendModeChange("FD");
if (id == fg1000.FASCIA.ALT) return controller.sendModeChange("ALT");
if (id == fg1000.FASCIA.VNV) return controller.sendModeChange("VNV");
if (id == fg1000.FASCIA.BC ) controller.sendModeChange("BC");
if (id == fg1000.FASCIA.NOSE_UP) return controller.handleNoseUpDown(1);
if (id == fg1000.FASCIA.NOSE_DOWN) return controller.handleNoseUpDown(-1);
}
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if (notification.NotificationType == notifications.PFDEventNotification.DefaultType and
notification.Event_Id == notifications.PFDEventNotification.FMSData and
notification.EventParameter != nil)
{
foreach(var key; keys(notification.EventParameter)) {
var val = notification.EventParameter[key];
if (key == "AutopilotNAVSource") return controller.setAPNavSource(val);
}
}
return emesary.Transmitter.ReceiptStatus_NotProcessed;
};
}
me._transmitter.Register(me._recipient);
me._registered = 1;
},
DeRegisterWithEmesary : func()
{
# remove registration from transmitter; but keep the recipient once it is created.
if (me._registered == 1) me._transmitter.DeRegister(me._recipient);
me._registered = 0;
},
start : func() {
me.RegisterWithEmesary();
},
stop : func() {
me.DeRegisterWithEmesary();
},
};