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IDG-A32X/Nasal/rmp.nas

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# A3XX Radio Managment Panel
# merspieler
############################
# Copyright (c) merspieler #
############################
# GLOBAL TODO add stuff for HF1, HF2, VOR, LS and ADF
var chan_rmp1_v = "vhr1";
var chan_rmp2_v = "vhr2";
var chan_rmp3_v = "vhr3";
var act_vhf1 = props.globals.getNode("/instrumentation/comm[0]/frequencies/selected-mhz");
var act_vhf2 = props.globals.getNode("/instrumentation/comm[1]/frequencies/selected-mhz");
var act_vhf3 = props.globals.getNode("/instrumentation/comm[2]/frequencies/selected-mhz");
var act_display_rmp1 = props.globals.initNode("/controls/radio/rmp[0]/active-display", "118.700", "STRING");
var stby_display_rmp1 = props.globals.initNode("/controls/radio/rmp[0]/standby-display", "121.400", "STRING");
var stby_rmp1_vhf1 = props.globals.initNode("/systems/radio/rmp[0]/vhf1-standby", 121.4, "DOUBLE");
var stby_rmp1_vhf2 = props.globals.initNode("/systems/radio/rmp[0]/vhf2-standby", 122.6, "DOUBLE");
var stby_rmp1_vhf3 = props.globals.initNode("/systems/radio/rmp[0]/vhf3-standby", 123.2, "DOUBLE");
var act_display_rmp2 = props.globals.initNode("/controls/radio/rmp[1]/active-display", "119.400", "STRING");
var stby_display_rmp2 = props.globals.initNode("/controls/radio/rmp[1]/standby-display", "122.600", "STRING");
var stby_rmp2_vhf1 = props.globals.initNode("/systems/radio/rmp[1]/vhf1-standby", 121.4, "DOUBLE");
var stby_rmp2_vhf2 = props.globals.initNode("/systems/radio/rmp[1]/vhf2-standby", 122.6, "DOUBLE");
var stby_rmp2_vhf3 = props.globals.initNode("/systems/radio/rmp[1]/vhf3-standby", 123.2, "DOUBLE");
var act_display_rmp3 = props.globals.initNode("/controls/radio/rmp[2]/active-display", "data", "STRING");
var stby_display_rmp3 = props.globals.initNode("/controls/radio/rmp[2]/standby-display", "123.200", "STRING");
var stby_rmp3_vhf1 = props.globals.initNode("/systems/radio/rmp[2]/vhf1-standby", 121.4, "DOUBLE");
var stby_rmp3_vhf2 = props.globals.initNode("/systems/radio/rmp[2]/vhf2-standby", 122.6, "DOUBLE");
var stby_rmp3_vhf3 = props.globals.initNode("/systems/radio/rmp[2]/vhf3-standby", 123.2, "DOUBLE");
var chan_rmp1 = props.globals.initNode("/systems/radio/rmp[0]/sel_chan", "vhf1", "STRING");
var chan_rmp2 = props.globals.initNode("/systems/radio/rmp[1]/sel_chan", "vhf2", "STRING");
var chan_rmp3 = props.globals.initNode("/systems/radio/rmp[2]/sel_chan", "vhf3", "STRING");
var pwr_sw_rmp1 = props.globals.initNode("/controls/radio/rmp[0]/on", 0, "BOOL");
var pwr_sw_rmp2 = props.globals.initNode("/controls/radio/rmp[1]/on", 0, "BOOL");
var pwr_sw_rmp3 = props.globals.initNode("/controls/radio/rmp[2]/on", 0, "BOOL");
var sel_light_rmp1 = props.globals.initNode("/systems/radio/rmp[0]/sel-light", 0, "BOOL");
var sel_light_rmp2 = props.globals.initNode("/systems/radio/rmp[1]/sel-light", 0, "BOOL");
var sel_light_rmp3 = props.globals.initNode("/systems/radio/rmp[2]/sel-light", 0, "BOOL");
var am_mode_rmp1 = props.globals.initNode("/systems/radio/rmp[0]/am-active", 0, "BOOL");
var am_mode_rmp2 = props.globals.initNode("/systems/radio/rmp[1]/am-active", 0, "BOOL");
var am_mode_rmp3 = props.globals.initNode("/systems/radio/rmp[2]/am-active", 0, "BOOL");
var init = func() {
for(var i = 0; i < 3; i += 1) {
setprop("/systems/radio/rmp[" ~ i ~ "]/hf1-standby", 510);
setprop("/systems/radio/rmp[" ~ i ~ "]/hf2-standby", 891);
}
chan_rmp1.setValue("vhf1");
chan_rmp2.setValue("vhf2");
chan_rmp3.setValue("vhf3");
pwr_sw_rmp1.setBoolValue(0);
pwr_sw_rmp2.setBoolValue(0);
pwr_sw_rmp3.setBoolValue(0);
}
var rmpUpdate = func() {
chan_rmp1_v = chan_rmp1.getValue();
chan_rmp2_v = chan_rmp2.getValue();
chan_rmp3_v = chan_rmp3.getValue();
# SEL lights
if (chan_rmp1_v == "vhf2" or chan_rmp1_v == "vhf3" or chan_rmp1_v == "hf1" or chan_rmp1_v == "hf2" or chan_rmp2_v == "vhf1" or chan_rmp2_v == "vhf3" or chan_rmp2_v == "hf1" or chan_rmp2_v == "hf2" or chan_rmp3_v == "vhf1" or chan_rmp3_v == "vhf2") {
if (!sel_light_rmp1.getBoolValue()) {
sel_light_rmp1.setBoolValue(1);
}
if (!sel_light_rmp2.getBoolValue()) {
sel_light_rmp2.setBoolValue(1);
}
if (!sel_light_rmp3.getBoolValue()) {
sel_light_rmp3.setBoolValue(1);
}
} else {
if (sel_light_rmp1.getBoolValue()) {
sel_light_rmp1.setBoolValue(0);
}
if (sel_light_rmp2.getBoolValue()) {
sel_light_rmp2.setBoolValue(0);
}
if (sel_light_rmp3.getBoolValue()) {
sel_light_rmp3.setBoolValue(0);
}
}
# Disable AM mode if not in HF
if (chan_rmp1_v != "hf1" and chan_rmp1_v != "hf2" and am_mode_rmp1.getBoolValue()) {
am_mode_rmp1.setBoolValue(0);
}
if (chan_rmp2_v != "hf1" and chan_rmp2_v != "hf2" and am_mode_rmp2.getBoolValue()) {
am_mode_rmp2.setBoolValue(0);
}
if (chan_rmp3_v != "hf1" and chan_rmp3_v != "hf2" and am_mode_rmp3.getBoolValue()) {
am_mode_rmp3.setBoolValue(0);
}
}
var update_active_vhf = func(vhf) {
var sel1 = chan_rmp1.getValue();
var sel2 = chan_rmp2.getValue();
# In case that a 3rd RMP is added, uncomment the following line and expand the if statements with the sel3 comparison
# var sel3 = chan_rmp3.getValue();
if (vhf == 1) {
if (sel1 == "vhf1" or sel2 == "vhf1") {
var act = sprintf("%3.3f", act_vhf1.getValue());
if (sel1 == "vhf1") {
act_display_rmp1.setValue(act);
}
if (sel2 == "vhf1") {
act_display_rmp2.setValue(act);
}
}
} else if (vhf == 2) {
if (sel1 == "vhf2" or sel2 == "vhf2") {
var act = sprintf("%3.3f", act_vhf2.getValue());
if (sel1 == "vhf2") {
act_display_rmp1.setValue(act);
}
if (sel2 == "vhf2") {
act_display_rmp2.setValue(act);
}
}
} else if (vhf == 3) {
if (sel1 == "vhf3" or sel2 == "vhf3") {
var act = sprintf("%3.3f", act_vhf3.getValue());
if (sel1 == "vhf3") {
if (act == 0) {
act_display_rmp1.setValue("data");
} else {
act_display_rmp1.setValue(act);
}
}
if (sel2 == "vhf3") {
if (act == 0) {
act_display_rmp2.setValue("data");
} else {
act_display_rmp2.setValue(act);
}
}
}
}
};
var update_stby_vhf = func(rmp_no, vhf) {
if (rmp_no == 0) {
if (vhf == 1) {
var stby = sprintf("%3.3f", stby_rmp1_vhf1.getValue());
} else if (vhf == 2) {
var stby = sprintf("%3.3f", stby_rmp1_vhf2.getValue());
} else if (vhf == 3) {
var stby = sprintf("%3.3f", stby_rmp1_vhf3.getValue());
}
if (stby == 0) {
stby_display_rmp1.setValue("data");
} else {
stby_display_rmp1.setValue(stby);
}
} else {
if (vhf == 1) {
var stby = sprintf("%3.3f", stby_rmp2_vhf1.getValue());
} else if (vhf == 2) {
var stby = sprintf("%3.3f", stby_rmp2_vhf2.getValue());
} else if (vhf == 3) {
var stby = sprintf("%3.3f", stby_rmp2_vhf3.getValue());
}
if (stby == 0) {
stby_display_rmp2.setValue("data");
} else {
stby_display_rmp2.setValue(stby);
}
}
}
var update_chan_sel = func(rmp_no) {
update_active_vhf(1);
update_active_vhf(2);
update_active_vhf(3);
if (rmp_no == 0) {
var chan = chan_rmp1.getValue();
if (chan == "vhf1") {
update_stby_vhf(rmp_no, 1);
} else if (chan == "vhf2") {
update_stby_vhf(rmp_no, 2);
} else {
update_stby_vhf(rmp_no, 3);
}
} else if (rmp_no == 1) {
var chan = chan_rmp2.getValue();
if (chan == "vhf1") {
update_stby_vhf(rmp_no, 1);
} else if (chan == "vhf2") {
update_stby_vhf(rmp_no, 2);
} else {
update_stby_vhf(rmp_no, 3);
}
} else {
# In case that a 3rd RMP is added, uncomment this
# var chan = chan_rmp3.getValue();
# if (chan == "vhf1") {
# update_stby_vhf(rmp_no, 1);
# } else if (chan == "vhf2") {
# update_stby_vhf(rmp_no, 2);
# } else {
# update_stby_vhf(rmp_no, 3);
# }
}
}
var transfer = func(rmp_no) {
rmp_no = rmp_no - 1;
var sel_chan = getprop("/systems/radio/rmp[" ~ rmp_no ~ "]/sel_chan");
if (string.match(sel_chan, "vhf[1-3]")) {
var mod1 = int(string.replace(sel_chan, "vhf", ""));
var mod = mod1 - 1;
var mem = getprop("/instrumentation/comm[" ~ mod ~ "]/frequencies/selected-mhz");
setprop("/instrumentation/comm[" ~ mod ~ "]/frequencies/selected-mhz", getprop("/systems/radio/rmp[" ~ rmp_no ~ "]/vhf" ~ mod1 ~ "-standby"));
setprop("/systems/radio/rmp[" ~ rmp_no ~ "]/vhf" ~ mod1 ~ "-standby", mem);
}
}
setlistener("/systems/radio/rmp[0]/vhf1-standby", func {
update_stby_vhf(0, 1);
});
setlistener("/systems/radio/rmp[0]/vhf2-standby", func {
update_stby_vhf(0, 2);
});
setlistener("/systems/radio/rmp[0]/vhf3-standby", func {
update_stby_vhf(0, 3);
});
setlistener("/systems/radio/rmp[1]/vhf1-standby", func {
update_stby_vhf(1, 1);
});
setlistener("/systems/radio/rmp[1]/vhf2-standby", func {
update_stby_vhf(1, 2);
});
setlistener("/systems/radio/rmp[1]/vhf3-standby", func {
update_stby_vhf(1, 3);
});
setlistener("/systems/radio/rmp[2]/vhf1-standby", func {
update_stby_vhf(2, 1);
});
setlistener("/systems/radio/rmp[2]/vhf2-standby", func {
update_stby_vhf(2, 2);
});
setlistener("/systems/radio/rmp[2]/vhf3-standby", func {
update_stby_vhf(2, 3);
});
setlistener("/instrumentation/comm[0]/frequencies/selected-mhz", func {
update_active_vhf(1);
});
setlistener("/instrumentation/comm[1]/frequencies/selected-mhz", func {
update_active_vhf(2);
});
setlistener("/instrumentation/comm[2]/frequencies/selected-mhz", func {
update_active_vhf(3);
});
setlistener("/systems/radio/rmp[0]/sel_chan", func {
update_chan_sel(0);
});
setlistener("/systems/radio/rmp[1]/sel_chan", func {
update_chan_sel(1);
});
setlistener("/systems/radio/rmp[2]/sel_chan", func {
update_chan_sel(2);
});