var scratchpadStore = nil;
var scratchpadSplit = nil;
var vertRev = {
title: [nil, nil, nil],
subtitle: [nil, nil],
arrowsMatrix: [[0, 0, 0, 0, 0, 0],[0, 0, 0, 0, 0, 0]],
arrowsColour: [["ack", "ack", "ack", "ack", "ack", "ack"],["ack", "ack", "ack", "ack", "ack", "ack"]],
L1: [nil, nil, "ack"], # content, title, colour
L2: [nil, nil, "ack"],
L3: [nil, nil, "ack"],
L4: [nil, nil, "ack"],
L5: [nil, nil, "ack"],
L6: [nil, nil, "ack"],
R1: [nil, nil, "ack"],
R2: [nil, nil, "ack"],
R3: [nil, nil, "ack"],
R4: [nil, nil, "ack"],
R5: [nil, nil, "ack"],
R6: [nil, nil, "ack"],
depAirport: nil,
arrAirport: nil,
index: nil,
computer: nil,
new: func(type, id, index, computer, wp, plan) {
var vr = {parents:[vertRev]};
vr.type = type; # 0 = origin 1 = destination 2 = wpt not ppos 3 = ppos 4 = cruise wpt 5 = climb wpt (3 + 4 not needed yet)
vr.id = id;
vr.index = index;
vr.computer = computer;
vr.wp = wp;
vr.plan = plan;
vr._setupPageWithData();
vr._checkTmpy();
return vr;
},
del: func() {
return nil;
},
_checkTmpy: func() {
if (fmgc.flightPlanController.temporaryFlag[me.computer]) {
me.L6 = [" F-PLN", " TMPY", "yel"];
me.arrowsColour[0][5] = "yel";
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
}
},
getSpd: func() {
if (me.wp.speed_cstr != nil and me.wp.speed_cstr > 0) {
var tcol = (me.wp.speed_cstr_type == "computed" or me.wp.speed_cstr_type == "computed_mach") ? "grn" : "mag"; # TODO - check if only computed
return [" " ~ sprintf("%3.0f", me.wp.speed_cstr), tcol];
} else {
return [nil,nil];
}
},
getAlt: func() {
if (me.wp.alt_cstr != nil and me.wp.alt_cstr > 0) {
var tcol = (me.wp.alt_cstr_type == "computed" or me.wp.alt_cstr_type == "computed_mach") ? "grn" : "mag"; # TODO - check if only computed
var cstrAlt = "";
if (me.wp.alt_cstr > fmgc.FMGCInternal.transAlt) {
cstrAlt = "FL" ~ math.round(num(me.wp.alt_cstr) / 100);
} else {
cstrAlt = me.wp.alt_cstr;
}
cstrAlt = (me.wp.alt_cstr_type == "above") ? "+" ~ cstrAlt : cstrAlt;
cstrAlt = (me.wp.alt_cstr_type == "below") ? "-" ~ cstrAlt : cstrAlt;
return [cstrAlt ~ (size(cstrAlt) == 6 ? "" : " "), tcol];
} else {
return [nil,nil];
}
},
alt: nil,
speed: nil,
_setupPageWithData: func() {
if (me.type == 3) {
me.title = ["VERT REV", " AT ", "PPOS"];
me.L1 = ["", " EFOB ---.-", "wht"];
me.R1 = ["", "EXTRA ---.- ", "wht"];
me.L2 = [fmgc.FMGCInternal.clbSpdLim ~ "/" ~ fmgc.FMGCInternal.clbSpdLimAlt, " CLB SPD LIM", "mag"];
me.L4 = [" CONSTANT MACH", nil, "wht"];
me.L5 = [" WIND DATA", nil, "wht"];
me.L6 = [" RETURN", nil, "wht"];
me.R2 = ["RTA ", nil, "wht"];
me.arrowsMatrix = [[0, 0, 0, 1, 1, 1], [0, 1, 0, 0, 0, 0]];
me.arrowsColour = [["ack", "ack", "ack", "wht", "wht", "wht"], ["ack", "wht", "ack", "ack", "wht", "wht"]];
} elsif (me.type == 2) {
me.title = ["VERT REV", " AT ", me.id];
me.L1 = ["", " EFOB ---.-", "wht"];
me.R1 = ["", "EXTRA ---.- ", "wht"];
me.L2 = [fmgc.FMGCInternal.clbSpdLim ~ "/" ~ fmgc.FMGCInternal.clbSpdLimAlt, " CLB SPD LIM", "mag"];
me.speed = me.getSpd();
if (me.speed[0] == nil) {
me.L3 = ["[ ]", " SPD CSTR", "blu"];
} else {
me.L3 = [me.speed[0], " SPD CSTR", me.speed[1]];
}
me.L4 = [" CONSTANT MACH", nil, "wht"];
me.L5 = [" WIND DATA", nil, "wht"];
me.L6 = [" CLB", nil, "amb"];
me.R2 = ["RTA ", nil, "wht"];
me.alt = me.getAlt();
if (me.alt[0] == nil) {
me.R3 = ["[ ]", "ALT CSTR ", "blu"];
} else {
me.R3 = [me.alt[0], "ALT CSTR ", me.alt[1]];
}
me.R6 = ["DES ", nil, "amb"];
# When the system does vertical planning, L6 should be RETURN and R6 not used if the MCDU knows the waypoint is during climb or descent.
# The CLB or DES prompts should only be shown for a vertical revision in the cruise phase.
# For now we fake it and allow the user to press either, which both act like RETURN.
# When CLB/DES are shown, a small "OR" should be shown between them.
# The 'arrows' for CLB/DES should actually be asterisks.
me.arrowsMatrix = [[0, 0, 0, 1, 1, 1], [0, 1, 0, 0, 0, 1]];
me.arrowsColour = [["ack", "ack", "ack", "wht", "wht", "amb"], ["ack", "wht", "ack", "ack", "wht", "amb"]];
} else {
me.title = ["VERT REV", " AT ", me.id];
if (me.type == 0) {
if (size(me.id) > 4) {
me.arrAirport = findAirportsByICAO(left(me.id, 4));
} else {
me.arrAirport = findAirportsByICAO(me.id);
}
me.L1 = ["", " EFOB ---.-", "wht"];
me.R1 = ["", "EXTRA ---.- ", "wht"];
me.L2 = [fmgc.FMGCInternal.clbSpdLim ~ "/" ~ fmgc.FMGCInternal.clbSpdLimAlt, " CLB SPD LIM", "mag"];
me.L4 = [" CONSTANT MACH", nil, "wht"];
me.L5 = [" WIND DATA", nil, "wht"];
me.L6 = [" RETURN", nil, "wht"];
me.R2 = ["RTA ", nil, "wht"];
me.arrowsMatrix = [[0, 0, 0, 1, 1, 1], [0, 1, 0, 0, 0, 0]];
me.arrowsColour = [["ack", "ack", "ack", "wht", "wht", "wht"], ["ack", "wht", "ack", "ack", "wht", "wht"]];
} elsif (me.type == 1) {
if (size(me.id) > 4) {
me.arrAirport = findAirportsByICAO(left(me.id, 4));
} else {
me.arrAirport = findAirportsByICAO(me.id);
}
me.L1 = ["", " EFOB ---.-", "wht"];
me.R1 = ["", "EXTRA ---.- ", "wht"];
me.L2 = [fmgc.FMGCInternal.desSpdLim ~ "/" ~ fmgc.FMGCInternal.desSpdLimAlt, " DES SPD LIM", "mag"];
me.L4 = [" CONSTANT MACH", nil, "wht"];
me.L5 = [" WIND DATA", nil, "wht"];
me.L6 = [" RETURN", nil, "wht"];
me.R2 = ["RTA ", nil, "wht"];
me.R3 = ["3000", "G/S INTCP", "grn"];
me.arrowsMatrix = [[0, 0, 0, 1, 1, 1], [0, 1, 0, 0, 0, 0]];
me.arrowsColour = [["ack", "ack", "ack", "wht", "wht", "wht"], ["ack", "wht", "ack", "ack", "wht", "wht"]];
}
}
me.updateR5();
},
makeTmpy: func() {
if (!fmgc.flightPlanController.temporaryFlag[me.computer]) {
if (!dirToFlag) {
fmgc.flightPlanController.createTemporaryFlightPlan(me.computer);
} else {
mcdu_message(me.computer, "DIR TO IN PROGRESS");
}
me._checkTmpy();
}
},
updateR5: func() {
if (fmgc.FMGCInternal.crzSet and (fmgc.FMGCInternal.phase < 4 or fmgc.FMGCInternal.phase == 7)) {
me.R5 = ["STEP ALTS ", nil, "wht"];
me.arrowsMatrix[1][4] = 1;
} else {
me.R5 = [nil, nil, "ack"];
me.arrowsMatrix[1][4] = 0;
}
},
pushButtonLeft: func(index) {
scratchpadStore = mcdu_scratchpad.scratchpads[me.computer].scratchpad;
if (index == 2) {
if (scratchpadStore == "CLR") {
if (me.type == 1) {
fmgc.FMGCInternal.desSpdLim = 250;
fmgc.FMGCInternal.desSpdLimAlt = 10000;
fmgc.FMGCInternal.desSpdLimSet = 0;
} else {
fmgc.FMGCInternal.clbSpdLim = 250;
fmgc.FMGCInternal.clbSpdLimAlt = 10000;
fmgc.FMGCInternal.clbSpdLimSet = 0;
}
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} elsif (find("/", scratchpadStore) != -1) {
scratchpadSplit = split("/", scratchpadStore);
if (size(scratchpadSplit[0]) == 3 and num(scratchpadSplit[0]) != nil and size(scratchpadSplit[1]) >= 3 and size(scratchpadSplit[1]) <= 5 and num(scratchpadSplit[1]) != nil) {
if (scratchpadSplit[0] >= 100 and scratchpadSplit[0] <= 340 and scratchpadSplit[1] >= 100 and scratchpadSplit[1] <= 39000) {
if (me.type == 1) {
fmgc.FMGCInternal.desSpdLim = scratchpadSplit[0];
fmgc.FMGCInternal.desSpdLimSet = 1;
if (size(scratchpadSplit[1]) != 0) {
fmgc.FMGCInternal.desSpdLimAlt = scratchpadSplit[1];
}
} else {
fmgc.FMGCInternal.clbSpdLim = scratchpadSplit[0];
fmgc.FMGCInternal.clbSpdLimSet = 1;
if (size(scratchpadSplit[1]) != 0) {
fmgc.FMGCInternal.clbSpdLimAlt = scratchpadSplit[1];
}
}
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} else {
mcdu_message(me.computer, "ENTRY OUT OF RANGE");
}
} else {
mcdu_message(me.computer, "FORMAT ERROR");
}
} elsif (num(scratchpadStore) != nil and size(scratchpadStore) == 3) {
if (scratchpadStore >= 100 and scratchpadStore <= 340) {
if (me.type == 1) {
fmgc.FMGCInternal.desSpdLim = scratchpadStore;
fmgc.FMGCInternal.desSpdLimSet = 1;
} else {
fmgc.FMGCInternal.clbSpdLim = scratchpadStore;
fmgc.FMGCInternal.clbSpdLimSet = 1;
}
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} else {
mcdu_message(me.computer, "ENTRY OUT OF RANGE");
}
} else {
mcdu_message(me.computer, "FORMAT ERROR");
}
} elsif (index == 3 and me.type == 2) {
if (scratchpadStore == "CLR") {
me.wp.setSpeed("delete");
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} elsif (num(scratchpadStore) != nil and size(scratchpadStore) == 3 and scratchpadStore >= 100 and scratchpadStore <= 350) {
me.wp.setSpeed(scratchpadStore, "at");
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} else {
mcdu_message(me.computer, "FORMAT ERROR");
}
} elsif (index == 5) {
if (me.wp.wp_role == "sid") {
if (canvas_mcdu.myCLBWIND[me.computer] == nil) {
canvas_mcdu.myCLBWIND[me.computer] = windCLBPage.new(me.computer);
} else {
canvas_mcdu.myCLBWIND[me.computer].reload();
}
fmgc.windController.accessPage[me.computer] = "VERTREV";
setprop("MCDU[" ~ me.computer ~ "]/page", "WINDCLB");
} else if (me.wp.wp_role == "star" or me.wp.wp_role == "approach" or me.wp.wp_role == "missed") {
if (canvas_mcdu.myDESWIND[me.computer] == nil) {
canvas_mcdu.myDESWIND[me.computer] = windDESPage.new(me.computer);
} else {
canvas_mcdu.myDESWIND[me.computer].reload();
}
fmgc.windController.accessPage[me.computer] = "VERTREV";
setprop("MCDU[" ~ me.computer ~ "]/page", "WINDDES");
} else if (me.wp.wp_role == nil and me.wp.wp_type == "navaid") {
cur_location = 0;
for (i = 0; i < size(fmgc.windController.nav_indicies[me.plan]); i += 1) {
if (fmgc.windController.nav_indicies[me.plan][i] == me.index) {
cur_location = i;
}
}
if (canvas_mcdu.myCRZWIND[me.computer] == nil) {
canvas_mcdu.myCRZWIND[me.computer] = windCRZPage.new(me.computer, me.wp, cur_location);
} else {
canvas_mcdu.myCRZWIND[me.computer].waypoint = me.wp;
canvas_mcdu.myCRZWIND[me.computer].cur_location = cur_location;
canvas_mcdu.myCRZWIND[me.computer].reload();
}
fmgc.windController.accessPage[me.computer] = "VERTREV";
setprop("MCDU[" ~ me.computer ~ "]/page", "WINDCRZ");
} else {
if (canvas_mcdu.myCRZWIND[me.computer] == nil) {
canvas_mcdu.myCRZWIND[me.computer] = windCRZPage.new(me.computer, nil, 0);
} else {
canvas_mcdu.myCRZWIND[me.computer].reload();
}
fmgc.windController.accessPage[me.computer] = "VERTREV";
setprop("MCDU[" ~ me.computer ~ "]/page", "WINDCRZ");
}
} else {
mcdu_message(me.computer, "NOT ALLOWED");
}
},
pushButtonRight: func(index) {
scratchpadStore = mcdu_scratchpad.scratchpads[me.computer].scratchpad;
if (index == 3 and me.type == 2) {
if (scratchpadStore == "CLR") {
me.wp.setAltitude("delete");
mcdu_scratchpad.scratchpads[me.computer].empty();
me._setupPageWithData();
canvas_mcdu.pageSwitch[me.computer].setBoolValue(0);
} else {
if (right(scratchpadStore, 1) == "+") {
validateAltCstr(left(scratchpadStore, size(scratchpadStore) - 1), "above", me);
} elsif (right(scratchpadStore, 1) == "-") {
validateAltCstr(left(scratchpadStore, size(scratchpadStore) - 1), "below", me);
} elsif (left(scratchpadStore, 1) == "+") {
validateAltCstr(right(scratchpadStore, size(scratchpadStore) - 1), "above", me);
} elsif (left(scratchpadStore, 1) == "-") {
validateAltCstr(right(scratchpadStore, size(scratchpadStore) - 1), "below", me);
} else {
validateAltCstr(scratchpadStore, "at", me);
}
}
}
},
};
var validateAltCstr = func(scratchpadStore, type, self) {
if (num(scratchpadStore) != nil and (size(scratchpadStore) >= 3 and size(scratchpadStore) <= 5)) {
if (scratchpadStore >= 100 and scratchpadStore <= 39000) {
self.wp.setAltitude(math.round(scratchpadStore, 10), type);
mcdu_scratchpad.scratchpads[self.computer].empty();
self._setupPageWithData();
canvas_mcdu.pageSwitch[self.computer].setBoolValue(0);
} else {
mcdu_message(self.computer, "ENTRY OUT OF RANGE");
}
} else {
mcdu_message(self.computer, "FORMAT ERROR");
}
}
var updateCrzLvlCallback = func () {
if (canvas_mcdu.myVertRev[0] != nil) {
canvas_mcdu.myVertRev[0].updateR5();
}
if (canvas_mcdu.myVertRev[1] != nil) {
canvas_mcdu.myVertRev[1].updateR5();
}
};
var updatePhaseCallback = func() {
if (canvas_mcdu.myVertRev[0] != nil) {
canvas_mcdu.myVertRev[0].updateR5();
}
if (canvas_mcdu.myVertRev[1] != nil) {
canvas_mcdu.myVertRev[1].updateR5();
}
};