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fgdata/Aircraft/Instruments-3d/FG1000/Nasal/MFDPages/Surround/SurroundController.nas

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# Surround Controller
var SurroundController =
{
new : func (page, svg)
{
var obj = {
parents : [ SurroundController ],
_recipient : nil,
_page : page,
_comselected : 1,
_navselected : 1,
_com1active : 0.0,
_com1standby : 0.0,
_com2active : 0.0,
_com2standby : 0.0,
_nav1active : 0.0,
_nav1standby : 0.0,
_nav2active : 0.0,
_nav2standby : 0.0,
};
obj.RegisterWithEmesary();
return obj;
},
del : func() {
me.DeRegisterWithEmesary();
},
# Helper function to notify the Emesary bridge of a NavComData update.
sendNavComDataNotification : func(data) {
var notification = notifications.PFDEventNotification.new(
"MFD",
me._page.mfd.getDeviceID(),
notifications.PFDEventNotification.NavComData,
data);
me.transmitter.NotifyAll(notification);
},
handleNavComData : func(data) {
# Store off particularly important data for control.
if (data["CommSelected"] != nil) me._comselected = data["CommSelected"];
if (data["NavSelected"] != nil) me._navselected = data["NavSelected"];
if (data["Comm1SelectedFreq"] != nil) me._com1active = data["Comm1SelectedFreq"];
if (data["Comm1StandbyFreq"] != nil) me._com1standby = data["Comm1StandbyFreq"];
if (data["Comm2SelectedFreq"] != nil) me._com2active = data["Comm2SelectedFreq"];
if (data["Comm2StandbyFreq"] != nil) me._com2standby = data["Comm2StandbyFreq"];
if (data["Nav1SelectedFreq"] != nil) me._nav1active = data["Nav1SelectedFreq"];
if (data["Nav1StandbyFreq"] != nil) me._nav1standby = data["Nav1StandbyFreq"];
if (data["Nav2SelectedFreq"] != nil) me._nav2active = data["Nav2SelectedFreq"];
if (data["Nav2StandbyFreq"] != nil) me._nav2standby = data["Nav2StandbyFreq"];
# pass through to the page
me._page.handleNavComData(data);
return emesary.Transmitter.ReceiptStatus_OK;
},
#
# Handle the various COM and NAV controls at the top left and top right of the Fascia
#
handleNavVol : func (value) {
var data={};
if (me._navselected == 1) {
data["Nav1Volume"] = value;
} else {
data["Nav2Volume"] = value;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
handleNavID : func (value) {
var data={};
if (me._navselected == 1) {
data["Nav1AudioID"] = value;
} else {
data["Nav1AudioID"] = value;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Swap active and standby Nav frequencies. Note that we don't update internal state here - we
# instead pass updated NavComData notification data which will be picked up by the underlying
# updaters to map to properties, and this controller itself.
handleNavFreqTransfer : func (value)
{
var data={};
if (me._navselected == 1) {
data["Nav1SelectedFreq"] = me._nav1standby;
data["Nav1StandbyFreq"] = me._nav1active;
} else {
data["Nav2SelectedFreq"] = me._nav2standby;
data["Nav2StandbyFreq"] = me._nav2active;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Outer Nav dial updates the integer portion of the selected standby
# NAV frequency only, and wrap on limits - leaving the fractional part unchanged.
handleNavOuter : func (value) {
var incr_or_decr = (value > 0) ? 1000.0 : -1000.0;
var data={};
# Determine the new value, wrapping within the limits.
var datakey = "";
var freq = 0;
var old_freq = 0;
if (me._navselected == 1) {
datakey = "Nav1StandbyFreq";
old_freq = me._nav1standby;
} else {
datakey = "Nav2StandbyFreq";
old_freq = me._nav2standby;
}
old_freq = math.round(old_freq * 1000);
freq = old_freq + incr_or_decr;
# Wrap if out of bounds
if (freq > (fg1000.MAX_NAV_FREQ * 1000)) freq = freq - (fg1000.MAX_NAV_FREQ - fg1000.MIN_NAV_FREQ) * 1000;
if (freq < (fg1000.MIN_NAV_FREQ * 1000)) freq = freq + (fg1000.MAX_NAV_FREQ - fg1000.MIN_NAV_FREQ) * 1000;
# Convert back to a frequency to 3 decimal places.
data[datakey] = sprintf("%.3f", freq/1000.0);
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Inner Nav dial updates the fractional portion of the selected standby
# NAV frequency only - leaving the integer part unchanged. Even if it
# increments past 0.975.
handleNavInner : func (value) {
var incr_or_decr = (value > 0) ? 25 : -25;
var data={};
# Determine the new value, wrapping within the limits.
var datakey = "";
var freq = 0;
var old_freq = 0;
if (me._navselected == 1) {
datakey = "Nav1StandbyFreq";
old_freq = me._nav1standby;
} else {
datakey = "Nav2StandbyFreq";
old_freq = me._nav2standby;
}
old_freq = math.round(old_freq * 1000);
freq = old_freq + incr_or_decr;
# Wrap on decimal by handling case where the integer part has changed
if (int(old_freq/1000) < int(freq/1000)) freq = freq - 1000;
if (int(old_freq/1000) > int(freq/1000)) freq = freq + 1000;
data[datakey] = sprintf("%.3f", freq/1000.0);
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Switch between Nav1 and Nav2.
handleNavToggle : func (value)
{
var data={};
if (me._navselected == 1) {
data["NavSelected"] = 2;
} else {
data["NavSelected"] = 1;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Outer COM dial changes the integer value of the standby selected COM
# frequency, wrapping on limits. Leaves the fractional part unchanged
handleComOuter : func (value) {
var incr_or_decr = (value > 0) ? 1000.0 : -1000.0;
var data={};
# Determine the new value, wrapping within the limits.
var datakey = "";
var freq = 0;
var old_freq = 0;
if (me._comselected == 1) {
datakey = "Comm1StandbyFreq";
old_freq = me._com1standby;
} else {
datakey = "Comm2StandbyFreq";
old_freq = me._com2standby;
}
old_freq = math.round(old_freq * 1000);
freq = old_freq + incr_or_decr;
# Wrap if out of bounds
if (freq > (fg1000.MAX_COM_FREQ * 1000)) freq = freq - (fg1000.MAX_COM_FREQ - fg1000.MIN_COM_FREQ) * 1000;
if (freq < (fg1000.MIN_COM_FREQ * 1000)) freq = freq + (fg1000.MAX_COM_FREQ - fg1000.MIN_COM_FREQ) * 1000;
# Convert back to a frequency to 3 decimal places.
data[datakey] = sprintf("%.3f", freq/1000.0);
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Inner COM dial changes the fractional part of the standby selected COM frequency,
# wrapping on limits and leaving the integer part unchanged.
handleComInner : func (value) {
var incr_or_decr = (value > 0) ? 1 : -1;
var data={};
var datakey = "";
var freq = 0;
var old_freq = 0;
if (me._comselected == 1) {
datakey = "Comm1StandbyFreq";
old_freq = me._com1standby;
} else {
datakey = "Comm2StandbyFreq";
old_freq = me._com2standby;
}
old_freq = math.round(old_freq * 1000);
var integer_part = int(old_freq / 1000) * 1000;
var fractional_part = old_freq - integer_part;
# 8.33kHz frequencies are complicated - we need to do a lookup to find
# the current and next frequencies
var idx = 0;
for (var i=0; i < size(fg1000.COM_833_SPACING); i = i + 1) {
if (math.round(fg1000.COM_833_SPACING[i] * 1000) == fractional_part) {
idx = i;
break;
}
}
idx = math.mod(idx + incr_or_decr, size(fg1000.COM_833_SPACING));
freq = integer_part + fg1000.COM_833_SPACING[idx] * 1000;
data[datakey] = sprintf("%.3f", freq/1000.0);
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Switch between COM1 and COM2
handleComToggle : func (value) {
var data={};
if (me._comselected == 1) {
data["CommSelected"] = 2;
} else {
data["CommSelected"] = 1;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Swap active and standby Com frequencies. Note that we don't update internal state here - we
# instead pass updated NavComData notification data which will be picked up by the underlying
# updaters to map to properties, and this controller itself.
handleComFreqTransfer : func (value) {
var data={};
if (me._comselected == 1) {
data["Comm1SelectedFreq"] = me._com1standby;
data["Comm1StandbyFreq"] = me._com1active;
} else {
data["Comm2SelectedFreq"] = me._com2standby;
data["Comm2StandbyFreq"] = me._com2active;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
# Auto-tunes the ACTIVE COM channel to 121.2 when pressed for 2 seconds
handleComFreqTransferHold : func (value) {
var data={};
if (me._comselected == 1) {
data["Comm1SelectedFreq"] = 121.00;
} else {
data["Comm2SelectedFreq"] = 121.00;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
handleComVol : func (value) {
var data={};
if (me._comselected == 1) {
data["Comm1Volume"] = value;
} else {
data["Comm2Volume"] = value;
}
me.sendNavComDataNotification(data);
return emesary.Transmitter.ReceiptStatus_Finished;
},
handleComVolToggle : func (value) {
},
# These methods are slightly unusual in that they are called by other
# controllers when the CRSR is not active. Hence they aren't referenced
# in the RegisterWithEmesary call below.
#
handleFMSOuter : func(val)
{
if (me._page.isMenuVisible()) {
# Change page group
me._page.incrPageGroup(val);
}
me._page.showMenu();
return emesary.Transmitter.ReceiptStatus_Finished;
},
handleFMSInner : func(val)
{
if (me._page.isMenuVisible()) {
# Change page group
me._page.incrPage(val);
}
me._page.showMenu();
return emesary.Transmitter.ReceiptStatus_Finished;
},
RegisterWithEmesary : func(transmitter = nil){
if (transmitter == nil)
transmitter = emesary.GlobalTransmitter;
if (me._recipient == nil){
me._recipient = emesary.Recipient.new("SurroundController_" ~ me._page.device.designation);
var pfd_obj = me._page.device;
var controller = me;
me._recipient.Receive = func(notification)
{
# Note that we don't care about the device that the data comes from.
if (notification.NotificationType == notifications.PFDEventNotification.DefaultType) {
if (notification.Event_Id == notifications.PFDEventNotification.NavComData
and notification.EventParameter != nil)
{
return controller.handleNavComData(notification.EventParameter);
}
if (((notification.Event_Id == notifications.PFDEventNotification.FMSData) or
(notification.Event_Id == notifications.PFDEventNotification.ADCData) )
and notification.EventParameter != nil)
{
# Pass FMS and ADC data straight to the page to display in the header fields
return controller._page.updateHeaderData(notification.EventParameter);
}
}
return emesary.Transmitter.ReceiptStatus_NotProcessed;
};
}
transmitter.Register(me._recipient);
me.transmitter = transmitter;
},
DeRegisterWithEmesary : func(transmitter = nil){
# remove registration from transmitter; but keep the recipient once it is created.
if (me.transmitter != nil)
me.transmitter.DeRegister(me._recipient);
me.transmitter = nil;
},
# Used by other pages to set the current standby NAV or COM frequency by pressing ENT
setStandbyNavComFreq : func(value) {
var data={};
# Determine whether this is NAV or COM based on the frequency itself
if (value < fg1000.MAX_NAV_FREQ) {
# Nav frequency
if (value > fg1000.MAX_NAV_FREQ) return;
if (value < fg1000.MIN_NAV_FREQ) return;
# TODO: If we're in approach phase then this should update the Active
# frequency
if (me._navselected == 1) {
data["Nav1StandbyFreq"] = value;
} else {
data["Nav2StandbyFreq"] = value;
}
} else {
# COM frequency
if (value > fg1000.MAX_COM_FREQ) return;
if (value < fg1000.MIN_COM_FREQ) return;
if (me._comselected == 1) {
data["Comm1StandbyFreq"] = value;
} else {
data["Comm2StandbyFreq"] = value;
}
}
me.sendNavComDataNotification(data);
},
# Used by other pages to set the current standby NAV frequency by pressing ENT
setStandbyNavFreq : func(value) {
var data={};
if (value > fg1000.MAX_NAV_FREQ) return;
if (value < fg1000.MIN_NAV_FREQ) return;
if (me._navselected == 1) {
data["Nav1StandbyFreq"] = value;
} else {
data["Nav2StandbyFreq"] = value;
}
me.sendNavComDataNotification(data);
},
};