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fgdata/Aircraft/Generic/DualControl/Instruments/VIR-32/ctl32.nas

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###############################################################################
##
## Nasal for dual control of a VIR 32 Nav radio over the multiplayer
## network.
##
## Copyright (C) 2008 - 2010 Anders Gidenstam (anders(at)gidenstam.org)
## This file is licensed under the GPL license version 2 or later.
##
###############################################################################
# Note:
# This module MUST be loaded as VIR32.
#
# Slave button presses.
var swap_btn = "frq-swap-btn";
var freq_decS = "freq-decS-clicked";
var freq_incS = "freq-incS-clicked";
var freq_decL = "freq-decL-clicked";
var freq_incL = "freq-incL-clicked";
# Settings
var freq_selected = "frequencies/selected-mhz";
var freq_standby = "frequencies/standby-mhz";
var nav_base = ["instrumentation/nav[0]",
"instrumentation/nav[1]"];
###########################################################################
var master_ctl32 = {
new : func(n) {
var obj = {};
obj.parents = [master_ctl32];
obj.nav_base = props.globals.getNode(nav_base[n]);
return obj;
},
swap : func() {
var tmp = me.nav_base.getNode(freq_selected).getValue();
me.nav_base.getNode(freq_selected).setValue
(me.nav_base.getNode(freq_standby).getValue());
me.nav_base.getNode(freq_standby).setValue(tmp);
},
adjust_frequency : func(d) {
adjust_radio_frequency(
me.nav_base.getNode(freq_standby),
d,
108,
117.975);
}
};
###########################################################################
var slave_ctl32 = {
new : func(n, airoot) {
var obj = {};
obj.parents = [slave_ctl32];
obj.root = airoot;
obj.nav_base = props.globals.getNode(nav_base[n]);
return obj;
},
swap : func() {
var p = me.nav_base.getNode(swap_btn);
print("VIR32[?].SWAP");
if (!p.getValue()) {
p.setValue(1);
settimer(func { p.setValue(0); },
1.0);
}
},
adjust_frequency : func(d) {
var p = 0;
if (abs(d) < 0.99) {
p = (d < 0) ? me.nav_base.getNode(freq_decS)
: me.nav_base.getNode(freq_incS);
} else {
p = (d < 0) ? me.nav_base.getNode(freq_decL)
: me.nav_base.getNode(freq_incL);
}
if (!p.getValue()) {
p.setValue(1);
settimer(func { p.setValue(0); },
1.0);
}
}
};
###########################################################################
# The VIR-32 pick animations default to master.
# NOTE: Use make_master() and make_slave_to().
# Do NOT change ctl32 directly.
var ctl32 = [master_ctl32.new(0), master_ctl32.new(1)];
###########################################################################
# API for pick animations and dual control setup.
###########################################################################
###########################################################################
# n - Nav#
var make_master = func(n) {
ctl32[n] = master_ctl32.new(n);
}
###########################################################################
# n - Nav#
var make_slave_to = func(n, airoot) {
ctl32[n] = slave_ctl32.new(n, airoot);
}
###########################################################################
# n - Nav#
var swap = func(n) {
ctl32[n].swap();
}
###########################################################################
# n - Nav#
# d - adjustment
var adjust_frequency = func(n, d) {
ctl32[n].adjust_frequency(d);
}
###########################################################################
# Create aliases to drive a radio 3d model in an AI/MP model.
# n - Nav#
var animate_aimodel = func(n, airoot) {
var p = "systems/electrical/outputs/nav["~ n ~"]";
airoot.getNode(p, 1).alias(props.globals.getNode(p));
p = "instrumentation/nav["~ n ~"]/serviceable";
airoot.getNode(p, 1).alias(props.globals.getNode(p));
p = nav_base[n] ~ "/" ~ freq_selected;
airoot.getNode(p, 1).alias(props.globals.getNode(p));
p = nav_base[n] ~ "/" ~ freq_standby;
airoot.getNode(p, 1).alias(props.globals.getNode(p));
}
###########################################################################
# Create a TDMEncoder node array for sending the current radio state to
# slaves.
# n - Nav#
var master_send_state = func(n) {
var b = props.globals.getNode(nav_base[n]);
return
[
b.getNode(freq_selected),
b.getNode(freq_standby)
];
}
###########################################################################
# Create a SwitchDecoder action array for processing button presses
# from a slave.
# n - Nav#
var master_receive_slave_buttons = func(n) {
return
[
func (b) {
if (b) { swap(n); }
},
func (b) {
if (b) { adjust_frequency(n, -0.05); }
},
func (b) {
if (b) { adjust_frequency(n, 0.05); }
},
func (b) {
if (b) { adjust_frequency(n, -1.0); }
},
func (b) {
if (b) { adjust_frequency(n, 1.0); }
}
];
}
###########################################################################
# Create a TDMDecoder action array for processing the radio state
# from the master.
# n - Nav#
var slave_receive_master_state = func(n) {
var b = props.globals.getNode(nav_base[n]);
return
[
func (v) {
b.getNode(freq_selected).setValue(v);
},
func (v) {
b.getNode(freq_standby).setValue(v);
}
];
}
###########################################################################
# Create a SwitchEncoder node array for sending button presses
# to the master
# n - Nav#
var slave_send_buttons = func(n) {
var b = props.globals.getNode(nav_base[n]);
return
[
b.getNode(swap_btn, 1),
b.getNode(freq_decS, 1),
b.getNode(freq_incS, 1),
b.getNode(freq_decL, 1),
b.getNode(freq_incL, 1),
];
}
###########################################################################
# Generic frequency stepper.
# f - frequency property
# d - change
# min - min frequency
# max - max frequency
var adjust_radio_frequency = func(f, d, min, max) {
var old = f.getValue();
var new = old + d;
if (new < min - 0.005) { new = int(max) + (new - int(new)); }
if (new > max + 0.005) {
new = int(min) + (new - int(new));
if (int(new + 0.005) > min) new -= 1;
}
# print("Old: " ~ old ~ " Intermediate: " ~ (old + d) ~ " New: " ~ new);
f.setValue(new);
}