# A3XX FMGC Flightplan Page # Copyright (c) 2022 Josh Davidson (Octal450) and Jonathan Redpath (legoboyvdlp) # Local vars var decelIndex = 0; var decelShow = 0; var decelOffset = 0; var destName = nil; var getSubTextFunc = func(meRef) { var subText = nil; call(func { subText = me.wp.wp_owner.id; }, nil, meRef, nil, var errs = [] ); return nil; } var fplnItem = { new: func(wp, index, plan, computer, colour = "grn") { var fI = {parents:[fplnItem]}; fI.wp = wp; fI.index = index; fI.plan = plan; fI.computer = computer; fI.colour = colour; fI.assembledStr = [nil, nil, colour]; fI._colour = "wht"; return fI; }, updateLeftText: func() { if (me.wp != nil) { if (me.wp.wp_name == "T-P") { return ["T-P", nil, me.colour]; } elsif (me.wp.wp_name != "DISCONTINUITY") { var wptName = split("-", me.wp.wp_name); if (wptName[0] == "VECTORS") { return ["MANUAL", me.getSubText(), me.colour]; } else { if (me.wp.fly_type == "Hold") { return ["HOLD " ~ (me.wp.hold_is_left_handed ? "L" : "R"), me.getSubText(), me.colour]; } else { if (size(wptName) == 2) { return[wptName[0] ~ wptName[1 ~ (me.wp.fly_type == "flyOver" ? "@" : "")], me.getSubText(), me.colour]; } else { return [me.wp.wp_name ~ (me.wp.fly_type == "flyOver" ? "@" : ""), me.getSubText(), me.colour]; } } } } else { return [nil, nil, "ack"]; } } else { return ["problem", nil, "ack"]; } }, getSubText: func() { if (me.wp.wp_parent_name != nil) { return " " ~ me.wp.wp_parent_name; } else { return nil; } }, updateCenterText: func() { if (me.wp != nil) { if (me.wp.wp_name != "DISCONTINUITY") { if (me.index == fmgc.flightPlanController.currentToWptIndex.getValue() - 1 and fmgc.flightPlanController.fromWptTime != nil) { me.assembledStr[0] = fmgc.flightPlanController.fromWptTime ~ " "; me.assembledStr[2] = "grn"; } else { me.assembledStr[0] = "---- "; me.assembledStr[2] = "wht"; } if (me.index == fmgc.flightPlanController.currentToWptIndex.getValue()) { me.assembledStr[1] = "BRG" ~ me.getBrg() ~ "° "; } elsif (me.index == (fmgc.flightPlanController.currentToWptIndex.getValue() + 1) or me.index == (fmgc.flightPlanController.arrivalIndex[me.plan] + 1)) { me.assembledStr[1] = "TRK" ~ me.getTrack() ~ "° "; } else { me.assembledStr[1] = nil; } return me.assembledStr; } else { return ["---F-PLN DISCONTINUITY--", nil, "wht"]; } } else { return ["problem", nil, "ack"]; } }, updateRightText: func() { if (me.wp != nil) { if (me.wp.wp_name != "DISCONTINUITY") { me.spd = me.getSpd(); me.alt = me.getAlt(); if (me.colour != "yel") { # not temporary flightplan me._colour = "wht"; #if (me.spd[1] != "wht" or me.alt[1] != "wht") { if (me.spd[1] == me.alt[1]) { me._colour = me.spd[1]; } else if (me.spd[1] == "mag" or me.alt[1] == "mag") { me._colour = "mag"; } else if (me.spd[1] == "grn" or me.alt[1] == "grn") { me._colour = "grn"; } } else { # temporary flightplan me._colour = "yel"; } return [me.spd[0] ~ "/" ~ me.alt[0], me.getDist() ~ "NM ", me._colour]; } else { return [nil, nil, "ack"]; } } else { return ["problem", nil, "ack"]; } }, getBrg: func() { var wp = fmgc.flightPlanController.flightplans[me.plan].getWP(me.index); var courseDistanceFrom = courseAndDistance(wp); me.brg = courseDistanceFrom[0] - magvar(); if (me.brg < 0) { me.brg += 360; } if (me.brg > 360) { me.brg -= 360; } return sprintf("%03.0f", math.round(me.brg)); }, getTrack: func() { me.trk = me.wp.leg_bearing - magvar(me.wp.lat, me.wp.lon); if (me.trk < 0) { me.trk += 360; } if (me.trk > 360) { me.trk -= 360; } return sprintf("%03.0f", math.round(me.trk)); }, getSpd: func() { if (me.index == 0 and left(me.wp.wp_name, 4) == fmgc.FMGCInternal.depApt and fmgc.FMGCInternal.v1set) { return [sprintf("%3.0f", math.round(fmgc.FMGCInternal.v1)), "grn"]; # why "mag"? I think "grn" } elsif (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"; return [sprintf("%3.0f", me.wp.speed_cstr), tcol]; } else { return ["---", "wht"]; } }, getAlt: func() { if (me.index == 0 and left(me.wp.wp_name, 4) == fmgc.FMGCInternal.depApt and fmgc.flightPlanController.flightplans[me.plan].departure != nil) { return [" " ~ sprintf("%5.0f", math.round(fmgc.flightPlanController.flightplans[me.plan].departure.elevation * M2FT)), "grn"]; } elsif (me.index == (fmgc.flightPlanController.currentToWptIndex.getValue() - 1) and fmgc.flightPlanController.fromWptAlt != nil) { return [" " ~ fmgc.flightPlanController.fromWptAlt, "mag"]; } elsif (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"; 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 [sprintf("%6s", cstrAlt), tcol]; } else { return ["------", "wht"]; } }, getDist: func() { decelIndex = getprop("/instrumentation/nd/symbols/decel/index"); decelShow = getprop("/instrumentation/nd/symbols/decel/show"); var prevwp = fmgc.flightPlanController.flightplans[me.plan].getWP(me.index -1); if (me.index == fmgc.flightPlanController.currentToWptIndex.getValue()) { return sprintf("%3.0f", math.round(courseAndDistance(me.wp)[1]));; } else { if (me.plan == 2 and decelShow and me.index == decelIndex and fmgc.flightPlanController.decelPoint != nil) { return sprintf("%3.0f", courseAndDistance(fmgc.flightPlanController.decelPoint, me.wp)[1]); } else if (prevwp != nil and prevwp.wp_name != "DISCONTINUITY") { return sprintf("%3.0f", math.round(me.wp.leg_distance)); } else { return " --"; } } }, pushButtonLeft: func() { if (canvas_mcdu.myLatRev[me.computer] != nil) { canvas_mcdu.myLatRev[me.computer].del(); } canvas_mcdu.myLatRev[me.computer] = nil; if (me.wp.wp_name == "DISCONTINUITY") { canvas_mcdu.myLatRev[me.computer] = latRev.new(4, me.wp, me.index, me.computer); } elsif (fmgc.flightPlanController.temporaryFlag[me.computer]) { if (me.wp.wp_name == "PPOS") { canvas_mcdu.myLatRev[me.computer] = latRev.new(2, me.wp, me.index, me.computer); } elsif (me.index == fmgc.flightPlanController.arrivalIndex[me.computer]) { canvas_mcdu.myLatRev[me.computer] = latRev.new(1, me.wp, me.index, me.computer); } elsif (fmgc.flightPlanController.flightplans[me.computer].departure != nil and left(me.wp.wp_name, 4) == fmgc.flightPlanController.flightplans[me.computer].departure.id) { canvas_mcdu.myLatRev[me.computer] = latRev.new(0, me.wp, me.index, me.computer); } else { canvas_mcdu.myLatRev[me.computer] = latRev.new(3, me.wp, me.index, me.computer); } } else { if (me.wp.wp_name == "PPOS") { canvas_mcdu.myLatRev[me.computer] = latRev.new(2, me.wp, me.index, me.computer); } elsif (me.index == fmgc.flightPlanController.arrivalIndex[2]) { canvas_mcdu.myLatRev[me.computer] = latRev.new(1, me.wp, me.index, me.computer); } elsif (fmgc.flightPlanController.flightplans[2].departure != nil and left(me.wp.wp_name, 4) == fmgc.flightPlanController.flightplans[2].departure.id) { canvas_mcdu.myLatRev[me.computer] = latRev.new(0, me.wp, me.index, me.computer); } else { canvas_mcdu.myLatRev[me.computer] = latRev.new(3, me.wp, me.index, me.computer); } } setprop("MCDU[" ~ me.computer ~ "]/page", "LATREV"); }, pushButtonRight: func() { if (size(mcdu_scratchpad.scratchpads[me.computer].scratchpad) == 0) { if (canvas_mcdu.myVertRev[me.computer] != nil) { canvas_mcdu.myVertRev[me.computer].del(); } canvas_mcdu.myVertRev[me.computer] = nil; if (fmgc.flightPlanController.temporaryFlag[me.computer]) { if (me.wp.wp_name == "PPOS" or me.index == (fmgc.flightPlanController.currentToWptIndex.getValue() - 1)) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(3, me.wp.wp_name, me.index, me.computer, me.wp, me.plan); } elsif (me.index == fmgc.flightPlanController.arrivalIndex[me.computer]) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(1, left(me.wp.wp_name, 4), me.index, me.computer, me.wp, me.plan); } if (fmgc.flightPlanController.flightplans[me.computer].departure != nil and left(me.wp.wp_name, 4) == fmgc.flightPlanController.flightplans[me.computer].departure.id) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(0, left(me.wp.wp_name, 4), me.index, me.computer, me.wp, me.plan); } else { canvas_mcdu.myVertRev[me.computer] = vertRev.new(2, me.wp.wp_name, me.index, me.computer, me.wp, me.plan); } } else { if (me.wp.wp_name == "PPOS" or me.index == (fmgc.flightPlanController.currentToWptIndex.getValue() - 1)) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(3, me.wp.wp_name, me.index, me.computer, me.wp, me.plan); } elsif (me.index == fmgc.flightPlanController.arrivalIndex[2]) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(1, left(me.wp.wp_name, 4), me.index, me.computer, me.wp, me.plan); } elsif (fmgc.flightPlanController.flightplans[2].departure != nil and left(me.wp.wp_name, 4) == fmgc.flightPlanController.flightplans[2].departure.id) { canvas_mcdu.myVertRev[me.computer] = vertRev.new(0, left(me.wp.wp_name, 4), me.index, me.computer, me.wp, me.plan); } else { canvas_mcdu.myVertRev[me.computer] = vertRev.new(2, me.wp.wp_name, me.index, me.computer, me.wp, me.plan); } } setprop("MCDU[" ~ me.computer ~ "]/page", "VERTREV"); } elsif (me.index != 0) { # todo - only apply to climb, descent, or missed waypoints var scratchpadStore = mcdu_scratchpad.scratchpads[me.computer].scratchpad; if (scratchpadStore == "CLR") { me.wp.setSpeed("delete"); me.wp.setAltitude("delete"); mcdu_scratchpad.scratchpads[me.computer].empty(); } elsif (find("/", scratchpadStore) != -1) { var scratchpadSplit = split("/", scratchpadStore); if (size(scratchpadSplit[0]) != 0) { if (num(scratchpadSplit[0]) != nil and size(scratchpadSplit[0]) == 3 and scratchpadSplit[0] >= 100 and scratchpadSplit[0] <= 350) { me.wp.setSpeed(scratchpadSplit[0], "at"); mcdu_scratchpad.scratchpads[me.computer].empty(); } else { mcdu_message(me.computer, "FORMAT ERROR"); } } if (right(scratchpadSplit[1], 1) == "+") { validateAltCstrFpln(left(scratchpadSplit[1], size(scratchpadSplit[1]) - 1), "above", me); } elsif (right(scratchpadSplit[1], 1) == "-") { validateAltCstrFpln(left(scratchpadSplit[1], size(scratchpadSplit[1]) - 1), "below", me); } elsif (left(scratchpadSplit[1], 1) == "+") { validateAltCstrFpln(right(scratchpadSplit[1], size(scratchpadSplit[1]) - 1), "above", me); } elsif (left(scratchpadSplit[1], 1) == "-") { validateAltCstrFpln(right(scratchpadSplit[1], size(scratchpadSplit[1]) - 1), "below", me); } else { validateAltCstrFpln(scratchpadSplit[1], "at", me); } } 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(); } else { mcdu_message(me.computer, "FORMAT ERROR"); } } else { mcdu_message(me.computer, "NOT ALLOWED"); } }, }; var validateAltCstrFpln = 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(); } else { mcdu_message(self.computer, "ENTRY OUT OF RANGE"); } } else { mcdu_message(self.computer, "FORMAT ERROR"); } } var staticText = { new: func(computer, text) { var sT = {parents:[staticText]}; sT.computer = computer; sT.text = text; sT.wp = "STATIC"; return sT; }, updateLeftText: func() { return [nil, nil, "ack"]; }, updateCenterText: func() { return [me.text, nil, "wht"]; }, updateRightText: func() { return [nil, nil, "ack"]; }, pushButtonLeft: func() { mcdu_message(me.computer, "NOT ALLOWED"); }, pushButtonRight: func() { mcdu_message(me.computer, "NOT ALLOWED"); }, }; var pseudoItem = { new: func(computer, text, colour) { var pI = {parents:[pseudoItem]}; pI.computer = computer; pI.text = text; pI.colour = colour; pI.wp = "PSEUDO"; return pI; }, updateLeftText: func() { return [me.text, nil, me.colour]; }, updateCenterText: func() { return ["---- ", nil, "wht"]; }, getDist: func() { decelIndex = getprop("/instrumentation/nd/symbols/decel/index"); decelShow = getprop("/instrumentation/nd/symbols/decel/show"); if (decelShow) { var prevWP = fmgc.flightPlanController.flightplans[2].getWP(decelIndex - 1); if (prevWP != nil and prevWP.wp_name != "DISCONTINUITY") { return sprintf("%3.0f", courseAndDistance(prevWP, fmgc.flightPlanController.decelPoint)[1]); } else { return " --"; } } }, updateRightText: func() { return ["---/------", me.getDist() ~ "NM ", "wht"]; }, pushButtonLeft: func() { mcdu_message(me.computer, "NOT ALLOWED"); }, pushButtonRight: func() { mcdu_message(me.computer, "NOT ALLOWED"); }, }; var fplnPage = { # this one is only created once, and then updated - remember this 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"], C1: [nil, nil, "ack"], C2: [nil, nil, "ack"], C3: [nil, nil, "ack"], C4: [nil, nil, "ack"], C5: [nil, nil, "ack"], C6: [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"], planList: [], outputList: [], scroll: 0, temporaryFlagFpln: 0, new: func(plan, computer) { var fp = {parents:[fplnPage]}; fp.plan = fmgc.flightPlanController.flightplans[plan]; fp.planIndex = plan; fp.computer = computer; fp.planList = []; fp.outputList = []; return fp; }, _setupPageWithData: func() { me.destInfo(); me.createPlanList(); }, updatePlan: func() { if (!fmgc.flightPlanController.temporaryFlag[me.computer]) { me.planIndex = 2; me.plan = fmgc.flightPlanController.flightplans[2]; me.temporaryFlagFpln = 0; } else { me.planIndex = me.computer; me.plan = fmgc.flightPlanController.flightplans[me.computer]; me.temporaryFlagFpln = 1; } me._setupPageWithData(); }, getText: func(type) { if (type == "fplnEnd") { return "------END OF F-PLN------"; } else if (type == "altnFplnEnd") { return "----END OF ALTN F-PLN---"; } else if (type == "noAltnFpln") { return "------NO ALTN F-PLN-----"; } else if (type == "decel") { return "(DECEL)"; } else if (type == "empty") { return ""; } }, createPlanList: func() { me.planList = []; if (me.temporaryFlagFpln) { colour = "yel"; } else { colour = "grn"; } decelIndex = getprop("/instrumentation/nd/symbols/decel/index"); decelShow = getprop("/instrumentation/nd/symbols/decel/show"); var startingIndex = fmgc.flightPlanController.currentToWptIndex.getValue() == -1 ? 0 : fmgc.flightPlanController.currentToWptIndex.getValue() - 1; # Situation where currentIndex is equal to 0 startingIndex = (startingIndex == -1 ? 0 : startingIndex); for (var i = startingIndex; i < me.plan.getPlanSize(); i += 1) { if (!me.temporaryFlagFpln and decelShow) { if (i == decelIndex) { append(me.planList, pseudoItem.new(me.computer, me.getText("decel"), colour)); } } if (!me.temporaryFlagFpln and i > fmgc.flightPlanController.arrivalIndex[me.planIndex] and fmgc.FMGCInternal.phase != 6) { append(me.planList, fplnItem.new(me.plan.getWP(i), i, me.planIndex, me.computer, "blu")); } else { if (i == fmgc.flightPlanController.currentToWptIndex.getValue() and !me.temporaryFlagFpln) { append(me.planList, fplnItem.new(me.plan.getWP(i), i, me.planIndex, me.computer, "wht")); } else { append(me.planList, fplnItem.new(me.plan.getWP(i), i, me.planIndex, me.computer, colour)); } } } append(me.planList, staticText.new(me.computer, me.getText("fplnEnd"))); if (!fmgc.FMGCInternal.altAirportSet) { append(me.planList, staticText.new(me.computer, me.getText("noAltnFpln"))); } else { var altnApt = findAirportsByICAO(fmgc.FMGCInternal.altAirport); if (size(altnApt) > 0) { append(me.planList, fplnItem.new({ alt_cstr: nil, alt_cstr_type: nil, fly_type: "flyBy", lat: altnApt[0].lat, leg_bearing: courseAndDistance(findAirportsByICAO(fmgc.FMGCInternal.arrApt)[0], altnApt[0])[0], leg_distance: courseAndDistance(findAirportsByICAO(fmgc.FMGCInternal.arrApt)[0], altnApt[0])[1], lon: altnApt[0].lon, speed_cstr: nil, speed_cstr_type: nil, wp_name: fmgc.FMGCInternal.altAirport, wp_parent_name: nil, }, i, me.planIndex, me.computer, "blu")); append(me.planList, staticText.new(me.computer, me.getText("altnFplnEnd"))); } else { append(me.planList, staticText.new(me.computer, me.getText("noAltnFpln"))); } } me.basePage(); }, basePage: func() { me.outputList = []; for (var i = 0; i + me.scroll < size(me.planList); i += 1) { append(me.outputList, me.planList[i + me.scroll] ); } if (size(me.outputList) >= 1) { me.L1 = me.outputList[0].updateLeftText(); me.C1 = me.outputList[0].updateCenterText(); me.C1[1] = (fmgc.flightPlanController.fromWptTime != nil) ? "UTC " : "TIME "; # since TO change to UTC time (1 space left to center) me.R1 = me.outputList[0].updateRightText(); me.R1[1] = "SPD/ALT "; } else { me.L1 = [nil, nil, "ack"]; me.C1 = [nil, nil, "ack"]; me.R1 = [nil, nil, "ack"]; } if (size(me.outputList) >= 2) { me.L2 = me.outputList[1].updateLeftText(); me.C2 = me.outputList[1].updateCenterText(); me.R2 = me.outputList[1].updateRightText(); } else { me.L2 = [nil, nil, "ack"]; me.C2 = [nil, nil, "ack"]; me.R2 = [nil, nil, "ack"]; } if (size(me.outputList) >= 3) { me.L3 = me.outputList[2].updateLeftText(); me.C3 = me.outputList[2].updateCenterText(); me.R3 = me.outputList[2].updateRightText(); } else { me.L3 = [nil, nil, "ack"]; me.C3 = [nil, nil, "ack"]; me.R3 = [nil, nil, "ack"]; } if (size(me.outputList) >= 4) { me.L4 = me.outputList[3].updateLeftText(); me.C4 = me.outputList[3].updateCenterText(); me.R4 = me.outputList[3].updateRightText(); } else { me.L4 = [nil, nil, "ack"]; me.C4 = [nil, nil, "ack"]; me.R4 = [nil, nil, "ack"]; } if (size(me.outputList) >= 5) { me.L5 = me.outputList[4].updateLeftText(); me.C5 = me.outputList[4].updateCenterText(); me.R5 = me.outputList[4].updateRightText(); } else { me.L5 = [nil, nil, "ack"]; me.C5 = [nil, nil, "ack"]; me.R5 = [nil, nil, "ack"]; } }, destInfo: func() { if (me.plan.getWP(fmgc.flightPlanController.arrivalIndex[me.planIndex]) != nil) { destName = split("-", me.plan.getWP(fmgc.flightPlanController.arrivalIndex[me.planIndex]).wp_name); if (size(destName) == 2) { me.L6 = [destName[0] ~ destName[1], " DEST", "wht"]; } else { me.L6 = [destName[0], " DEST", "wht"]; } } else { me.L6 = ["----", " DEST", "wht"]; } me.C6 = ["---- ", "TIME ", "wht"]; if (fmgc.flightPlanController.arrivalDist.getValue() != nil) { me.R6 = [sprintf("%4.0f", int(fmgc.flightPlanController.arrivalDist.getValue())) ~ " --.-", "DIST EFOB", "wht"]; } else { me.R6 = ["---- --.-", "DIST EFOB", "wht"]; } }, update: func() { #me.basePage(); }, planIndexFunc: func() { decelIndex = getprop("/instrumentation/nd/symbols/decel/index"); decelShow = getprop("/instrumentation/nd/symbols/decel/show"); if (me.scroll < me.plan.getPlanSize()) { decelOffset = 0; if (decelShow) { if (me.scroll > decelIndex) { decelOffset = 1; } } setprop("/instrumentation/efis[" ~ me.computer ~ "]/inputs/plan-wpt-index", (fmgc.flightPlanController.currentToWptIndex.getValue() - 1 + me.scroll - decelOffset)); } }, scrollUp: func() { if (size(me.planList) > 1) { me.scroll += 1; if (me.scroll > size(me.planList) - 3) { me.scroll = 0; } me.planIndexFunc(); } else { me.scroll = 0; setprop("/instrumentation/efis[" ~ me.computer ~ "]/inputs/plan-wpt-index", -1); } }, scrollDn: func() { if (size(me.planList) > 1) { me.scroll -= 1; if (me.scroll < 0) { me.scroll = size(me.planList) - 3; } me.planIndexFunc(); } else { me.scroll = 0; setprop("/instrumentation/efis[" ~ me.computer ~ "]/inputs/plan-wpt-index", -1); } }, pushButtonLeft: func(index) { if (index == 6) { if (fmgc.flightPlanController.temporaryFlag[me.computer]) { fmgc.flightPlanController.destroyTemporaryFlightPlan(me.computer, 0); # push update to fuel if (fmgc.FMGCInternal.blockConfirmed) { fmgc.FMGCInternal.fuelCalculating = 0; fmgc.fuelCalculating.setValue(0); fmgc.FMGCInternal.fuelCalculating = 1; fmgc.fuelCalculating.setValue(1); } } else { if (canvas_mcdu.myLatRev[me.computer] != nil) { canvas_mcdu.myLatRev[me.computer].del(); } canvas_mcdu.myLatRev[me.computer] = nil; canvas_mcdu.myLatRev[me.computer] = latRev.new(1, fmgc.flightPlanController.flightplans[2].getWP(fmgc.flightPlanController.arrivalIndex[2]), fmgc.flightPlanController.arrivalIndex[2], me.computer); setprop("MCDU[" ~ me.computer ~ "]/page", "LATREV"); } } else { if ((index - 1 + me.scroll) < size(me.planList) and me.outputList[index - 1].wp != "STATIC" and me.outputList[index - 1].wp != "PSEUDO" and !mcdu_scratchpad.scratchpads[me.computer].showTypeIMsg and !mcdu_scratchpad.scratchpads[me.computer].showTypeIIMsg) { if (size(mcdu_scratchpad.scratchpads[me.computer].scratchpad) > 0) { # Use outputList.index to correct the index the call goes to after sequencing var returny = fmgc.flightPlanController.scratchpad(mcdu_scratchpad.scratchpads[me.computer].scratchpad, me.outputList[index - 1].index, me.computer); if (returny == 3) { mcdu_message(me.computer, "DIR TO IN PROGRESS"); } elsif (returny == 0) { mcdu_message(me.computer, "NOT IN DATA BASE"); } elsif (returny == 1) { mcdu_message(me.computer, "NOT ALLOWED"); } elsif (returny == 4) { mcdu_message(me.computer, "LIST OF 20 IN USE"); } else { mcdu_scratchpad.scratchpads[me.computer].empty(); } } else { me.outputList[index - 1].pushButtonLeft(); } } else { mcdu_message(me.computer, "NOT ALLOWED"); } } }, pushButtonRight: func(index) { if (index == 6) { if (fmgc.flightPlanController.temporaryFlag[me.computer]) { if (dirToFlag) { dirToFlag = 0; } fmgc.flightPlanController.destroyTemporaryFlightPlan(me.computer, 1); # push update to fuel if (fmgc.FMGCInternal.blockConfirmed) { fmgc.FMGCInternal.fuelCalculating = 0; fmgc.fuelCalculating.setValue(0); fmgc.FMGCInternal.fuelCalculating = 1; fmgc.fuelCalculating.setValue(1); } } else { mcdu_message(me.computer, "NOT ALLOWED"); } } else { if (size(me.outputList) >= index) { me.outputList[index - 1].pushButtonRight(); } else { mcdu_message(me.computer, "NOT ALLOWED"); } } }, }; var decimalToShortString = func(dms, type) { var degrees = split(".", sprintf(dms))[0]; if (type == "lat") { var sign = degrees >= 0 ? "N" : "S"; return sprintf("%02d", abs(degrees)) ~ sign; } else { var sign = degrees >= 0 ? "E" : "W"; return sprintf("%03d", abs(degrees)) ~ sign; } }