1 // FGTower - a class to provide tower control at towered airports.
3 // Written by David Luff, started March 2002.
5 // Copyright (C) 2002 David C. Luff - david.luff@nottingham.ac.uk
7 // This program is free software; you can redistribute it and/or
8 // modify it under the terms of the GNU General Public License as
9 // published by the Free Software Foundation; either version 2 of the
10 // License, or (at your option) any later version.
12 // This program is distributed in the hope that it will be useful, but
13 // WITHOUT ANY WARRANTY; without even the implied warranty of
14 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 // General Public License for more details.
17 // You should have received a copy of the GNU General Public License
18 // along with this program; if not, write to the Free Software
19 // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
26 # include <strings.h> // bcopy()
28 # include <string.h> // MSVC doesn't have strings.h
31 #include <Main/globals.hxx>
32 #include <Airports/runways.hxx>
33 #include <simgear/math/sg_geodesy.hxx>
34 #include <simgear/debug/logstream.hxx>
37 #include "ATCdisplay.hxx"
39 #include "ATCutils.hxx"
40 #include "ATCDialog.hxx"
41 #include "commlist.hxx"
42 #include "AILocalTraffic.hxx"
48 TowerPlaneRec::TowerPlaneRec() :
51 clearedToLineUp(false),
52 clearedToTakeOff(false),
53 holdShortReported(false),
54 downwindReported(false),
55 longFinalReported(false),
56 longFinalAcknowledged(false),
58 finalAcknowledged(false),
59 rwyVacatedReported(false),
60 rwyVacatedAcknowledged(false),
61 goAroundReported(false),
62 instructedToGoAround(false),
65 vfrArrivalReported(false),
66 vfrArrivalAcknowledged(false),
69 landingType(AIP_LT_UNKNOWN),
72 plane.callsign = "UNKNOWN";
75 TowerPlaneRec::TowerPlaneRec(PlaneRec p) :
78 clearedToLineUp(false),
79 clearedToTakeOff(false),
80 holdShortReported(false),
81 downwindReported(false),
82 longFinalReported(false),
83 longFinalAcknowledged(false),
85 finalAcknowledged(false),
86 rwyVacatedReported(false),
87 rwyVacatedAcknowledged(false),
88 goAroundReported(false),
89 instructedToGoAround(false),
92 vfrArrivalReported(false),
93 vfrArrivalAcknowledged(false),
96 landingType(AIP_LT_UNKNOWN),
102 TowerPlaneRec::TowerPlaneRec(Point3D pt) :
104 clearedToLand(false),
105 clearedToLineUp(false),
106 clearedToTakeOff(false),
107 holdShortReported(false),
108 downwindReported(false),
109 longFinalReported(false),
110 longFinalAcknowledged(false),
111 finalReported(false),
112 finalAcknowledged(false),
113 rwyVacatedReported(false),
114 rwyVacatedAcknowledged(false),
115 goAroundReported(false),
116 instructedToGoAround(false),
119 vfrArrivalReported(false),
120 vfrArrivalAcknowledged(false),
123 landingType(AIP_LT_UNKNOWN),
126 plane.callsign = "UNKNOWN";
130 TowerPlaneRec::TowerPlaneRec(PlaneRec p, Point3D pt) :
132 clearedToLand(false),
133 clearedToLineUp(false),
134 clearedToTakeOff(false),
135 holdShortReported(false),
136 downwindReported(false),
137 longFinalReported(false),
138 longFinalAcknowledged(false),
139 finalReported(false),
140 finalAcknowledged(false),
141 rwyVacatedReported(false),
142 rwyVacatedAcknowledged(false),
143 goAroundReported(false),
144 instructedToGoAround(false),
147 vfrArrivalReported(false),
148 vfrArrivalAcknowledged(false),
151 landingType(AIP_LT_UNKNOWN),
161 /*******************************************
164 Currently user is assumed to have taken off again when leaving the runway - check speed/elev for taxiing-in. (MAJOR)
166 Use track instead of heading to determine what leg of the circuit the user is flying. (MINOR)
168 Use altitude as well as position to try to determine if the user has left the circuit. (MEDIUM - other issues as well).
170 Currently HoldShortReported code assumes there will be only one plane holding for the runway at once and
171 will break when planes start queueing. (CRITICAL)
173 Report-Runway-Vacated is left as only user ATC option following a go-around. (MAJOR)
175 Report-Downwind is not added as ATC option when user takes off to fly a circuit. (MAJOR)
177 eta of USER can be calculated very wrongly in circuit if flying straight out and turn4 etc are with +ve ortho y.
178 This can then screw up circuit ordering for other planes (MEDIUM)
180 USER leaving circuit needs to be more robustly considered when intentions unknown
181 Currently only considered during climbout and breaks when user turns (MEDIUM).
183 GetPos() of the AI planes is called erratically - either too much or not enough. (MINOR)
185 GO-AROUND is instructed very late at < 12s to landing - possibly make more dependent on chance of rwy clearing before landing (FEATURE)
187 Need to make clear when TowerPlaneRecs do or don't get deleted in RemoveFromCircuitList etc. (MINOR until I misuse it - then CRITICAL!)
189 FGTower::RemoveAllUserDialogOptions() really ought to be replaced by an ATCDialog::clear_entries() function. (MINOR - efficiency).
191 At the moment planes in the lists are not guaranteed to always have a sensible ETA - it should be set as part of AddList functions, and lists should only be accessed this way. (FAIRLY MAJOR).
192 *******************************************/
195 ATCmgr = globals->get_ATC_mgr();
199 // Init the property nodes - TODO - need to make sure we're getting surface winds.
200 wind_from_hdg = fgGetNode("/environment/wind-from-heading-deg", true);
201 wind_speed_knots = fgGetNode("/environment/wind-speed-kt", true);
204 update_count_max = 15;
206 holdListItr = holdList.begin();
208 appListItr = appList.begin();
209 depListItr = depList.begin();
210 rwyListItr = rwyList.begin();
211 circuitListItr = circuitList.begin();
212 trafficListItr = trafficList.begin();
214 vacatedListItr = vacatedList.begin();
218 timeSinceLastDeparture = 9999;
221 nominal_downwind_leg_pos = 1000.0;
222 nominal_base_leg_pos = -1000.0;
223 // TODO - set nominal crosswind leg pos based on minimum distance from takeoff end of rwy.
225 _departureControlled = false;
228 FGTower::~FGTower() {
229 if(!separateGround) {
234 void FGTower::Init() {
235 //cout << "Initialising tower " << ident << '\n';
237 // Pointers to user's position
238 user_lon_node = fgGetNode("/position/longitude-deg", true);
239 user_lat_node = fgGetNode("/position/latitude-deg", true);
240 user_elev_node = fgGetNode("/position/altitude-ft", true);
241 user_hdg_node = fgGetNode("/orientation/heading-deg", true);
243 // Need some way to initialise rwyOccupied flag correctly if the user is on the runway and to know its the user.
244 // I'll punt the startup issue for now though!!!
247 // Setup the ground control at this airport
249 //cout << "Tower ident = " << ident << '\n';
250 if(ATCmgr->GetAirportATCDetails(ident, &a)) {
251 if(a.ground_freq) { // Ground control
252 ground = (FGGround*)ATCmgr->GetATCPointer(ident, GROUND);
253 separateGround = true;
255 // Something has gone wrong :-(
256 SG_LOG(SG_ATC, SG_WARN, "ERROR - ground has frequency but can't get ground pointer :-(");
257 ground = new FGGround(ident);
258 separateGround = false;
261 ground->SetDisplay();
263 ground->SetNoDisplay();
267 // Initialise ground anyway to do the shortest path stuff!
268 // Note that we're now responsible for updating and deleting this - NOT the ATCMgr.
269 ground = new FGGround(ident);
270 separateGround = false;
273 ground->SetDisplay();
275 ground->SetNoDisplay();
279 SG_LOG(SG_ATC, SG_ALERT, "Unable to find airport details for " << ident << " in FGTower::Init()");
280 // Initialise ground anyway to avoid segfault later
281 ground = new FGGround(ident);
282 separateGround = false;
285 ground->SetDisplay();
287 ground->SetNoDisplay();
291 // TODO - attempt to get a departure control pointer to see if we need to hand off departing traffic to departure.
293 // Get the airport elevation
294 aptElev = dclGetAirportElev(ident.c_str());
296 // TODO - this function only assumes one active rwy.
299 // TODO - this currently assumes only one active runway.
300 rwyOccupied = OnActiveRunway(Point3D(user_lon_node->getDoubleValue(), user_lat_node->getDoubleValue(), 0.0));
302 //cout << "User found on active runway\n";
303 // Assume the user is started at the threshold ready to take-off
304 TowerPlaneRec* t = new TowerPlaneRec;
305 t->plane.callsign = fgGetString("/sim/user/callsign");
306 t->plane.type = GA_SINGLE; // FIXME - hardwired!!
307 t->opType = TTT_UNKNOWN; // We don't know if the user wants to do circuits or a departure...
308 t->landingType = AIP_LT_UNKNOWN;
309 t->leg = TAKEOFF_ROLL;
312 t->clearedToTakeOff = true;
313 rwyList.push_back(t);
316 //cout << "User not on active runway\n";
317 // For now assume that this means the user is not at the airport and is in the air.
318 // TODO FIXME - this will break when user starts on apron, at hold short, etc.
319 if(!OnAnyRunway(Point3D(user_lon_node->getDoubleValue(), user_lat_node->getDoubleValue(), 0.0))) {
320 //cout << ident << " ADD 0\n";
321 current_atcdialog->add_entry(ident, "@AP Tower @CS @MI miles @CD of the airport for full stop with the ATIS", "Contact tower for VFR arrival (full stop)", TOWER, (int)USER_REQUEST_VFR_ARRIVAL_FULL_STOP);
326 void FGTower::Update(double dt) {
327 //cout << "T" << endl;
328 // Each time step, what do we need to do?
329 // We need to go through the list of outstanding requests and acknowedgements
330 // and process at least one of them.
331 // We need to go through the list of planes under our control and check if
332 // any need to be addressed.
333 // We need to check for planes not under our control coming within our
334 // control area and address if necessary.
336 // TODO - a lot of the below probably doesn't need to be called every frame and should be staggered.
338 // Sort the arriving planes
341 if(ident == "KEMT") {
342 cout << update_count << "\ttL: " << trafficList.size() << " cL: " << circuitList.size() << " hL: " << holdList.size() << " aL: " << appList.size() << '\n';
345 //if(ident == "EGNX") cout << display << '\n';
347 if(departed != false) {
348 timeSinceLastDeparture += dt;
349 //if(ident == "KEMT")
350 // cout << " dt = " << dt << " timeSinceLastDeparture = " << timeSinceLastDeparture << '\n';
353 //cout << ident << " respond = " << respond << " responseReqd = " << responseReqd << '\n';
355 if(!responseReqd) SG_LOG(SG_ATC, SG_ALERT, "ERROR - respond is true and responseReqd is false in FGTower::Update(...)");
358 responseReqd = false;
361 // Calculate the eta of each plane to the threshold.
362 // For ground traffic this is the fastest they can get there.
363 // For air traffic this is the middle approximation.
364 if(update_count == 1) {
365 doThresholdETACalc();
368 // Order the list of traffic as per expected threshold use and flag any conflicts
369 if(update_count == 2) {
370 //bool conflicts = doThresholdUseOrder();
371 doThresholdUseOrder();
374 // sortConficts() !!!
376 if(update_count == 4) {
380 // Uggh - HACK - why have we got rwyOccupied - wouldn't simply testing rwyList.size() do?
387 if(update_count == 5 && rwyOccupied) {
391 if(update_count == 6) {
392 CheckCircuitList(dt);
395 if(update_count == 7) {
396 CheckApproachList(dt);
399 if(update_count == 8) {
400 CheckDepartureList(dt);
403 // TODO - do one plane from the departure list and set departed = false when out of consideration
407 if(!separateGround) {
408 // The display stuff might have to get more clever than this when not separate
409 // since the tower and ground might try communicating simultaneously even though
410 // they're mean't to be the same contoller/frequency!!
411 // We could also get rid of this by overloading FGATC's Set(No)Display() functions.
413 ground->SetDisplay();
415 ground->SetNoDisplay();
421 // How big should ii get - ie how long should the update cycle interval stretch?
422 if(update_count >= update_count_max) {
426 // Call the base class update for the response time handling.
430 if(ident == "KEMT") {
431 // For AI debugging convienience - may be removed
433 user_pos.setlon(user_lon_node->getDoubleValue());
434 user_pos.setlat(user_lat_node->getDoubleValue());
435 user_pos.setelev(user_elev_node->getDoubleValue());
436 Point3D user_ortho_pos = ortho.ConvertToLocal(user_pos);
437 fgSetDouble("/AI/user/ortho-x", user_ortho_pos.x());
438 fgSetDouble("/AI/user/ortho-y", user_ortho_pos.y());
439 fgSetDouble("/AI/user/elev", user_elev_node->getDoubleValue());
443 //cout << "Done T" << endl;
446 void FGTower::ReceiveUserCallback(int code) {
447 if(code == (int)USER_REQUEST_VFR_DEPARTURE) {
448 //cout << "User requested departure\n";
449 } else if(code == (int)USER_REQUEST_VFR_ARRIVAL) {
450 VFRArrivalContact("USER");
451 } else if(code == (int)USER_REQUEST_VFR_ARRIVAL_FULL_STOP) {
452 VFRArrivalContact("USER", FULL_STOP);
453 } else if(code == (int)USER_REQUEST_VFR_ARRIVAL_TOUCH_AND_GO) {
454 VFRArrivalContact("USER", TOUCH_AND_GO);
455 } else if(code == (int)USER_REPORT_DOWNWIND) {
456 ReportDownwind("USER");
457 } else if(code == (int)USER_REPORT_3_MILE_FINAL) {
458 // For now we'll just call report final instead of report long final to avoid having to alter the response code
460 } else if(code == (int)USER_REPORT_RWY_VACATED) {
461 ReportRunwayVacated("USER");
462 } else if(code == (int)USER_REPORT_GOING_AROUND) {
463 ReportGoingAround("USER");
467 // **************** RESPONSE FUNCTIONS ****************
469 void FGTower::Respond() {
470 //cout << "\nEntering Respond, responseID = " << responseID << endl;
471 TowerPlaneRec* t = FindPlane(responseID);
474 if(t->vfrArrivalReported && !t->vfrArrivalAcknowledged) {
475 //cout << "Tower " << ident << " is responding to VFR arrival reported...\n";
476 // Testing - hardwire straight in for now
477 string trns = t->plane.callsign;
481 // Should we clear staight in or for downwind entry?
482 // For now we'll clear straight in if greater than 1km from a line drawn through the threshold perpendicular to the rwy.
483 // Later on we might check the actual heading and direct some of those to enter on downwind or base.
484 Point3D op = ortho.ConvertToLocal(t->pos);
486 trns += " Report three mile straight-in runway ";
487 t->opType = STRAIGHT_IN;
489 current_atcdialog->add_entry(ident, "@AP Tower @CS @MI mile final Runway @RW", "Report Final", TOWER, (int)USER_REPORT_3_MILE_FINAL);
491 t->planePtr->RegisterTransmission(14);
494 // For now we'll just request reporting downwind.
495 // TODO - In real life something like 'report 2 miles southwest right downwind rwy 19R' might be used
496 // but I'm not sure how to handle all permutations of which direction to tell to report from yet.
498 //cout << "Responding, rwy.patterDirection is " << rwy.patternDirection << '\n';
499 trns += ((rwy.patternDirection == 1) ? "right " : "left ");
500 trns += "downwind runway ";
502 // leave it in the app list until it gets into pattern though.
504 current_atcdialog->add_entry(ident, "@AP Tower @CS Downwind @RW", "Report Downwind", TOWER, (int)USER_REPORT_DOWNWIND);
506 t->planePtr->RegisterTransmission(15);
509 trns += ConvertRwyNumToSpokenString(activeRwy);
511 globals->get_ATC_display()->RegisterSingleMessage(trns, 0);
513 //cout << "Not displaying, trns was " << trns << '\n';
515 t->vfrArrivalAcknowledged = true;
516 } else if(t->downwindReported) {
517 //cout << "Tower " << ident << " is responding to downwind reported...\n";
518 ProcessDownwindReport(t);
519 t->downwindReported = false;
520 } else if(t->holdShortReported) {
521 //cout << "Tower " << ident << " is reponding to holdShortReported...\n";
523 if(rwyOccupied) { // TODO - ought to add a sanity check that it isn't this plane only on the runway (even though it shouldn't be!!)
524 // Do nothing for now - consider acknowloging hold short eventually
526 ClearHoldingPlane(t);
527 t->leg = TAKEOFF_ROLL;
528 rwyList.push_back(t);
530 // WARNING - WE ARE ASSUMING ONLY ONE PLANE REPORTING HOLD AT A TIME BELOW
531 // FIXME TODO - FIX THIS!!!
532 if(holdList.size()) {
533 if(holdListItr == holdList.end()) {
534 holdListItr = holdList.begin();
536 holdList.erase(holdListItr);
537 holdListItr = holdList.begin();
541 // Tell him to hold and what position he is.
542 // Not currently sure under which circumstances we do or don't bother transmitting this.
543 string trns = t->plane.callsign;
544 trns += " hold position";
546 globals->get_ATC_display()->RegisterSingleMessage(trns, 0);
548 // TODO - add some idea of what traffic is blocking him.
550 t->holdShortReported = false;
551 } else if(t->finalReported && !(t->finalAcknowledged)) {
552 //cout << "Tower " << ident << " is responding to finalReported...\n";
554 string trns = t->plane.callsign;
555 //cout << (t->nextOnRwy ? "Next on rwy " : "Not next!! ");
556 //cout << (rwyOccupied ? "RWY OCCUPIED!!\n" : "Rwy not occupied\n");
557 if(t->nextOnRwy && !rwyOccupied && !(t->instructedToGoAround)) {
558 if(t->landingType == FULL_STOP) {
559 trns += " cleared to land ";
561 trns += " cleared for the option ";
564 t->clearedToLand = true;
565 // Maybe remove report downwind from menu here as well incase user didn't bother to?
567 //cout << "ADD VACATED B\n";
568 // Put going around at the top (and hence default) since that'll be more desperate,
569 // or put rwy vacated at the top since that'll be more common?
570 current_atcdialog->add_entry(ident, "@CS Going Around", "Report going around", TOWER, USER_REPORT_GOING_AROUND);
571 current_atcdialog->add_entry(ident, "@CS Clear of the runway", "Report runway vacated", TOWER, USER_REPORT_RWY_VACATED);
573 t->planePtr->RegisterTransmission(7);
575 } else if(t->eta < 20) {
576 // Do nothing - we'll be telling it to go around in less than 10 seconds if the
577 // runway doesn't clear so no point in calling "continue approach".
580 trns += " continue approach";
581 t->clearedToLand = false;
583 if(_display && disp) {
584 globals->get_ATC_display()->RegisterSingleMessage(trns);
586 t->finalAcknowledged = true;
587 } else if(t->rwyVacatedReported && !(t->rwyVacatedAcknowledged)) {
588 ProcessRunwayVacatedReport(t);
589 t->rwyVacatedAcknowledged = true;
592 //freqClear = true; // FIXME - set this to come true after enough time to render the message
593 _releaseCounter = 0.0;
595 _runReleaseCounter = true;
596 //cout << "Done Respond\n" << endl;
599 void FGTower::ProcessDownwindReport(TowerPlaneRec* t) {
601 int a = 0; // Count of preceding planes on approach
602 bool cf = false; // conflicting traffic on final
603 bool cc = false; // preceding traffic in circuit
604 TowerPlaneRec* tc = NULL;
605 for(tower_plane_rec_list_iterator twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
606 if((*twrItr)->plane.callsign == responseID) break;
610 if(i > 1) { cc = true; }
611 doThresholdETACalc();
612 TowerPlaneRec* tf = NULL;
613 for(tower_plane_rec_list_iterator twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
614 if((*twrItr)->eta < (t->eta + 45)) {
618 // This should set the flagged plane to be the last conflicting one, and hence the one to follow.
619 // It ignores the fact that we might have problems slotting into the approach traffic behind it -
620 // eventually we'll need some fancy algorithms for that!
623 string trns = t->plane.callsign;
625 trns += ConvertNumToSpokenDigits(i + a);
626 // This assumes that the number spoken is landing position, not circuit position, since some of the traffic might be on straight-in final.
628 TowerPlaneRec* tt = NULL;
629 if((i == 1) && (!rwyList.size()) && (t->nextOnRwy) && (!cf)) { // Unfortunately nextOnRwy currently doesn't handle circuit/straight-in ordering properly at present, hence the cf check below.
630 trns += "Cleared to land"; // TODO - clear for the option if appropriate
631 t->clearedToLand = true;
632 if(!t->isUser) t->planePtr->RegisterTransmission(7);
633 } else if((i+a) > 1) {
634 //First set tt to point to the correct preceding plane - final or circuit
636 tt = (tf->eta < tc->eta ? tf : tc);
642 // We should never get here!
643 SG_LOG(SG_ATC, SG_ALERT, "ALERT - Logic error in FGTower::ProcessDownwindReport");
646 trns += "Follow the ";
647 string s = tt->plane.callsign;
651 if((tt->opType) == CIRCUIT) {
656 leg = tt->planePtr->GetLeg();
660 } else if(leg == TURN4) {
661 trns += " turning final";
662 } else if(leg == BASE) {
664 } else if(leg == TURN3) {
665 trns += " turning base";
668 double miles_out = CalcDistOutMiles(tt);
670 trns += " on short final";
673 trns += ConvertNumToSpokenDigits((int)miles_out);
674 trns += " mile final";
679 globals->get_ATC_display()->RegisterSingleMessage(trns);
682 if(t->opType == TTT_UNKNOWN) t->opType = CIRCUIT;
683 //cout << "ADD VACATED A\n";
684 // Put going around at the top (and hence default) since that'll be more desperate,
685 // or put rwy vacated at the top since that'll be more common?
686 //cout << "ident = " << ident << ", adding go-around option\n";
687 current_atcdialog->add_entry(ident, "@CS Going Around", "Report going around", TOWER, USER_REPORT_GOING_AROUND);
688 current_atcdialog->add_entry(ident, "@CS Clear of the runway", "Report runway vacated", TOWER, USER_REPORT_RWY_VACATED);
692 void FGTower::ProcessRunwayVacatedReport(TowerPlaneRec* t) {
693 //cout << "Processing rwy vacated...\n";
694 if(t->isUser) current_atcdialog->remove_entry(ident, USER_REPORT_GOING_AROUND, TOWER);
695 string trns = t->plane.callsign;
697 trns += " Contact ground on ";
698 double f = globals->get_ATC_mgr()->GetFrequency(ident, GROUND) / 100.0;
700 sprintf(buf, "%.2f", f);
703 if(!t->isUser) t->planePtr->RegisterTransmission(5);
706 trns += " cleared for taxi to the GA parking";
707 if(!t->isUser) t->planePtr->RegisterTransmission(6); // TODO - this is a mega-hack!!
709 //cout << "trns = " << trns << '\n';
711 globals->get_ATC_display()->RegisterSingleMessage(trns);
713 RemoveFromRwyList(t->plane.callsign);
715 // Maybe we should check that the plane really *has* vacated the runway!
718 // *********** END RESPONSE FUNCTIONS *****************
720 // Currently this assumes we *are* next on the runway and doesn't check for planes about to land -
721 // this should be done prior to calling this function.
722 void FGTower::ClearHoldingPlane(TowerPlaneRec* t) {
723 //cout << "Entering ClearHoldingPlane..." << endl;
725 string trns = t->plane.callsign;
726 //if(departed plane < some threshold in time away) {
728 //if(timeSinceLastDeparture <= 60.0 && departed == true) {
730 t->clearedToLineUp = true;
731 t->planePtr->RegisterTransmission(3); // cleared to line-up
732 //} else if(arriving plane < some threshold away) {
733 } else if(GetTrafficETA(2) < 150.0 && (timeSinceLastDeparture > 60.0 || departed == false)) { // Hack - hardwired time
734 trns += " cleared immediate take-off";
735 if(trafficList.size()) {
736 tower_plane_rec_list_iterator trfcItr = trafficList.begin();
737 trfcItr++; // At the moment the holding plane should be first in trafficList.
738 // Note though that this will break if holding planes aren't put in trafficList in the future.
739 TowerPlaneRec* trfc = *trfcItr;
740 trns += "... traffic is";
741 switch(trfc->plane.type) {
745 trns += " a Cessna"; // TODO - add ability to specify actual plane type somewhere
751 trns += " a King-air";
754 trns += " a Learjet";
757 trns += " a Regional";
766 //if(trfc->opType == STRAIGHT_IN || trfc->opType == TTT_UNKNOWN) {
767 if(trfc->opType == STRAIGHT_IN) {
768 double miles_out = CalcDistOutMiles(trfc);
773 trns += ConvertNumToSpokenDigits((int)miles_out);
774 trns += " mile final";
776 } else if(trfc->opType == CIRCUIT) {
777 //cout << "Getting leg of " << trfc->plane.callsign << '\n';
783 trns += " turning final";
789 trns += " turning base";
792 trns += " in circuit"; // At the moment the user plane is generally flagged as unknown opType when downwind incase its a downwind departure which means we won't get here.
794 // And to eliminate compiler warnings...
795 case TAKEOFF_ROLL: break;
796 case CLIMBOUT: break;
798 case CROSSWIND: break;
800 case LANDING_ROLL: break;
801 case LEG_UNKNOWN: break;
805 // By definition there should be some arriving traffic if we're cleared for immediate takeoff
806 SG_LOG(SG_ATC, SG_WARN, "Warning: Departing traffic cleared for *immediate* take-off despite no arriving traffic in FGTower");
808 t->clearedToTakeOff = true;
809 t->planePtr->RegisterTransmission(4); // cleared to take-off - TODO differentiate between immediate and normal take-off
811 timeSinceLastDeparture = 0.0;
813 //} else if(timeSinceLastDeparture > 60.0 || departed == false) { // Hack - test for timeSinceLastDeparture should be in lineup block eventually
814 trns += " cleared for take-off";
815 // TODO - add traffic is... ?
816 t->clearedToTakeOff = true;
817 t->planePtr->RegisterTransmission(4); // cleared to take-off
819 timeSinceLastDeparture = 0.0;
822 globals->get_ATC_display()->RegisterSingleMessage(trns, 0);
824 //cout << "Done ClearHoldingPlane " << endl;
828 // ***************************************************************************************
829 // ********** Functions to periodically check what the various traffic is doing **********
831 // Do one plane from the hold list
832 void FGTower::CheckHoldList(double dt) {
833 //cout << "Entering CheckHoldList..." << endl;
834 if(holdList.size()) {
835 //cout << "*holdListItr = " << *holdListItr << endl;
836 if(holdListItr == holdList.end()) {
837 holdListItr = holdList.begin();
839 //cout << "*holdListItr = " << *holdListItr << endl;
840 //Process(*holdListItr);
841 TowerPlaneRec* t = *holdListItr;
842 //cout << "t = " << t << endl;
843 if(t->holdShortReported) {
844 // NO-OP - leave it to the response handler.
845 } else { // not responding to report, but still need to clear if clear
847 //cout << "departed = " << departed << '\n';
848 //cout << "timeSinceLastDeparture = " << timeSinceLastDeparture << '\n';
851 } else if(timeSinceLastDeparture <= 60.0 && departed == true) {
852 // Do nothing - this is a bit of a hack - should maybe do line up be ready here
854 ClearHoldingPlane(t);
855 t->leg = TAKEOFF_ROLL;
856 rwyList.push_back(t);
858 holdList.erase(holdListItr);
859 holdListItr = holdList.begin();
862 // TODO - rationalise the considerable code duplication above!
866 //cout << "Done CheckHoldList" << endl;
869 // do the ciruit list
870 void FGTower::CheckCircuitList(double dt) {
871 //cout << "Entering CheckCircuitList..." << endl;
872 // Clear the constraints - we recalculate here.
874 downwind_leg_pos = 0.0;
875 crosswind_leg_pos = 0.0;
877 if(circuitList.size()) { // Do one plane from the circuit
878 if(circuitListItr == circuitList.end()) {
879 circuitListItr = circuitList.begin();
881 TowerPlaneRec* t = *circuitListItr;
882 //cout << ident << ' ' << circuitList.size() << ' ' << t->plane.callsign << " " << t->leg << " eta " << t->eta << '\n';
884 t->pos.setlon(user_lon_node->getDoubleValue());
885 t->pos.setlat(user_lat_node->getDoubleValue());
886 t->pos.setelev(user_elev_node->getDoubleValue());
887 //cout << ident << ' ' << circuitList.size() << ' ' << t->plane.callsign << " " << t->leg << " eta " << t->eta << '\n';
889 t->pos = t->planePtr->GetPos(); // We should probably only set the pos's on one walk through the traffic list in the update function, to save a few CPU should we end up duplicating this.
890 t->landingType = t->planePtr->GetLandingOption();
891 //cout << "AI plane landing option is " << t->landingType << '\n';
893 Point3D tortho = ortho.ConvertToLocal(t->pos);
895 // Need to figure out which leg he's on
896 //cout << "rwy.hdg = " << rwy.hdg << " user hdg = " << user_hdg_node->getDoubleValue();
897 double ho = GetAngleDiff_deg(user_hdg_node->getDoubleValue(), rwy.hdg);
898 //cout << " ho = " << ho << " abs(ho = " << abs(ho) << '\n';
899 // TODO FIXME - get the wind and convert this to track, or otherwise use track somehow!!!
900 // If it's gusty might need to filter the value, although we are leaving 30 degrees each way leeway!
902 // could be either takeoff, climbout or landing - check orthopos.y
903 //cout << "tortho.y = " << tortho.y() << '\n';
904 if((tortho.y() < 0) || (t->leg == TURN4) || (t->leg == FINAL)) {
908 t->leg = CLIMBOUT; // TODO - check elev wrt. apt elev to differentiate takeoff roll and climbout
909 //cout << "Climbout\n";
910 // If it's the user we may be unsure of his/her intentions.
911 // (Hopefully the AI planes won't try confusing the sim!!!)
912 //cout << "tortho.y = " << tortho.y() << '\n';
913 if(t->opType == TTT_UNKNOWN) {
914 if(tortho.y() > 5000) {
915 // 5 km out from threshold - assume it's a departure
916 t->opType = OUTBOUND; // TODO - could check if the user has climbed significantly above circuit altitude as well.
917 // Since we are unknown operation we should be in depList already.
918 //cout << ident << " Removing user from circuitList (TTT_UNKNOWN)\n";
919 circuitList.erase(circuitListItr);
920 RemoveFromTrafficList(t->plane.callsign);
921 circuitListItr = circuitList.begin();
923 } else if(t->opType == CIRCUIT) {
924 if(tortho.y() > 10000) {
925 // 10 km out - assume the user has abandoned the circuit!!
926 t->opType = OUTBOUND;
927 depList.push_back(t);
928 //cout << ident << " removing user from circuitList (CIRCUIT)\n";
929 circuitList.erase(circuitListItr);
930 circuitListItr = circuitList.begin();
934 } else if(fabs(ho) < 60) {
936 // TODO - either fix or doublecheck this hack by looking at heading and pattern direction
937 if((t->leg == CLIMBOUT) || (t->leg == TURN1)) {
944 } else if(fabs(ho) < 120) {
946 // TODO - either fix or doublecheck this hack by looking at heading and pattern direction
947 if((t->leg == TURN1) || (t->leg == CROSSWIND)) {
949 //cout << "Crosswind\n";
954 } else if(fabs(ho) < 150) {
956 // TODO - either fix or doublecheck this hack by looking at heading and pattern direction
957 if((t->leg == CROSSWIND) || (t->leg == TURN2)) {
962 // Probably safe now to assume the user is flying a circuit
969 //cout << "Downwind\n";
971 if(t->leg == FINAL) {
972 if(OnActiveRunway(t->pos)) {
973 t->leg = LANDING_ROLL;
977 t->leg = t->planePtr->GetLeg();
980 // Set the constraints IF this is the first plane in the circuit
981 // TODO - at the moment we're constraining plane 2 based on plane 1 - this won't (or might not) work for 3 planes in the circuit!!
982 if(circuitListItr == circuitList.begin()) {
985 // Base leg must be at least as far out as the plane is - actually possibly not necessary for separation, but we'll use that for now.
986 base_leg_pos = tortho.y();
987 //cout << "base_leg_pos = " << base_leg_pos << '\n';
990 // Fall through to base
992 base_leg_pos = tortho.y();
993 //cout << "base_leg_pos = " << base_leg_pos << '\n';
996 // Fall through to downwind
998 // Only have the downwind leg pos as turn-to-base constraint if more negative than we already have.
999 base_leg_pos = (tortho.y() < base_leg_pos ? tortho.y() : base_leg_pos);
1000 //cout << "base_leg_pos = " << base_leg_pos;
1001 downwind_leg_pos = tortho.x(); // Assume that a following plane can simply be constrained by the immediately in front downwind plane
1002 //cout << " downwind_leg_pos = " << downwind_leg_pos << '\n';
1005 // Fall through to crosswind
1007 crosswind_leg_pos = tortho.y();
1008 //cout << "crosswind_leg_pos = " << crosswind_leg_pos << '\n';
1009 t->instructedToGoAround = false;
1012 // Fall through to climbout
1014 // Only use current by constraint as largest
1015 crosswind_leg_pos = (tortho.y() > crosswind_leg_pos ? tortho.y() : crosswind_leg_pos);
1016 //cout << "crosswind_leg_pos = " << crosswind_leg_pos << '\n';
1029 if(t->leg == FINAL && !(t->instructedToGoAround)) {
1030 doThresholdETACalc();
1031 doThresholdUseOrder();
1034 cout << "Checking USER on final... ";
1035 cout << "eta " << t->eta;
1036 if(t->clearedToLand) cout << " cleared to land\n";
1039 //cout << "YES FINAL, t->eta = " << t->eta << ", rwyList.size() = " << rwyList.size() << '\n';
1040 if(t->landingType == FULL_STOP) {
1041 t->opType = INBOUND;
1042 //cout << "\n******** SWITCHING TO INBOUND AT POINT AAA *********\n\n";
1044 if(t->eta < 12 && rwyList.size()) {
1045 // TODO - need to make this more sophisticated
1046 // eg. is the plane accelerating down the runway taking off [OK],
1047 // or stationary near the start [V. BAD!!].
1048 // For now this should stop the AI plane landing on top of the user.
1049 string trns = t->plane.callsign;
1050 trns += " GO AROUND TRAFFIC ON RUNWAY I REPEAT GO AROUND";
1051 pending_transmission = trns;
1052 ImmediateTransmit();
1053 t->instructedToGoAround = true;
1054 t->clearedToLand = false;
1055 // Assume it complies!!!
1056 t->opType = CIRCUIT;
1059 //cout << "Registering Go-around transmission with AI plane\n";
1060 t->planePtr->RegisterTransmission(13);
1062 } else if(!t->clearedToLand) {
1063 // The whip through the appList is a hack since currently t->nextOnRwy doesn't always work
1066 for(tower_plane_rec_list_iterator twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
1067 if((*twrItr)->eta < t->eta) {
1071 if(t->nextOnRwy && !cf) {
1072 if(!rwyList.size()) {
1073 string trns = t->plane.callsign;
1074 trns += " Cleared to land";
1075 pending_transmission = trns;
1077 //if(t->isUser) cout << "Transmitting cleared to Land!!!\n";
1078 t->clearedToLand = true;
1080 t->planePtr->RegisterTransmission(7);
1084 //if(t->isUser) cout << "Not next\n";
1087 } else if(t->leg == LANDING_ROLL) {
1088 //cout << t->plane.callsign << " has landed - adding to rwyList\n";
1089 rwyList.push_front(t);
1090 // TODO - if(!clearedToLand) shout something!!
1091 t->clearedToLand = false;
1092 RemoveFromTrafficList(t->plane.callsign);
1094 t->opType = TTT_UNKNOWN;
1095 } // TODO - allow the user to specify opType via ATC menu
1096 //cout << ident << " Removing " << t->plane.callsign << " from circuitList..." << endl;
1097 circuitListItr = circuitList.erase(circuitListItr);
1098 if(circuitListItr == circuitList.end() ) {
1099 circuitListItr = circuitList.begin();
1104 //cout << "Done CheckCircuitList" << endl;
1107 // Do the runway list - we'll do the whole runway list since it's important and there'll never be many planes on the rwy at once!!
1108 // FIXME - at the moment it looks like we're only doing the first plane from the rwy list.
1109 // (However, at the moment there should only be one airplane on the rwy at once, until we
1110 // start allowing planes to line up whilst previous arrival clears the rwy.)
1111 void FGTower::CheckRunwayList(double dt) {
1112 //cout << "Entering CheckRunwayList..." << endl;
1114 if(!rwyList.size()) {
1115 rwyOccupied = false;
1117 rwyListItr = rwyList.begin();
1118 TowerPlaneRec* t = *rwyListItr;
1120 t->pos.setlon(user_lon_node->getDoubleValue());
1121 t->pos.setlat(user_lat_node->getDoubleValue());
1122 t->pos.setelev(user_elev_node->getDoubleValue());
1124 t->pos = t->planePtr->GetPos(); // We should probably only set the pos's on one walk through the traffic list in the update function, to save a few CPU should we end up duplicating this.
1126 bool on_rwy = OnActiveRunway(t->pos);
1128 // TODO - for all of these we need to check what the user is *actually* doing!
1129 if((t->opType == INBOUND) || (t->opType == STRAIGHT_IN)) {
1130 //cout << "Tower " << ident << " is removing plane " << t->plane.callsign << " from rwy list (vacated)\n";
1131 //cout << "Size of rwylist was " << rwyList.size() << '\n';
1132 //cout << "Size of vacatedList was " << vacatedList.size() << '\n';
1133 RemoveFromRwyList(t->plane.callsign);
1134 AddToVacatedList(t);
1135 //cout << "Size of rwylist is " << rwyList.size() << '\n';
1136 //cout << "Size of vacatedList is " << vacatedList.size() << '\n';
1137 // At the moment we wait until Runway Vacated is reported by the plane before telling to contact ground etc.
1138 // It's possible we could be a bit more proactive about this.
1139 } else if(t->opType == OUTBOUND) {
1140 depList.push_back(t);
1141 rwyList.pop_front();
1143 timeSinceLastDeparture = 0.0;
1144 } else if(t->opType == CIRCUIT) {
1145 //cout << ident << " adding " << t->plane.callsign << " to circuitList" << endl;
1146 circuitList.push_back(t);
1147 AddToTrafficList(t);
1148 rwyList.pop_front();
1150 timeSinceLastDeparture = 0.0;
1151 } else if(t->opType == TTT_UNKNOWN) {
1152 depList.push_back(t);
1153 //cout << ident << " adding " << t->plane.callsign << " to circuitList" << endl;
1154 circuitList.push_back(t);
1155 AddToTrafficList(t);
1156 rwyList.pop_front();
1158 timeSinceLastDeparture = 0.0; // TODO - we need to take into account that the user might taxi-in when flagged opType UNKNOWN - check speed/altitude etc to make decision as to what user is up to.
1160 // HELP - we shouldn't ever get here!!!
1165 //cout << "Done CheckRunwayList" << endl;
1168 // Do one plane from the approach list
1169 void FGTower::CheckApproachList(double dt) {
1170 //cout << "CheckApproachList called for " << ident << endl;
1171 //cout << "AppList.size is " << appList.size() << endl;
1172 if(appList.size()) {
1173 if(appListItr == appList.end()) {
1174 appListItr = appList.begin();
1176 TowerPlaneRec* t = *appListItr;
1177 //cout << "t = " << t << endl;
1178 //cout << "Checking " << t->plane.callsign << endl;
1180 t->pos.setlon(user_lon_node->getDoubleValue());
1181 t->pos.setlat(user_lat_node->getDoubleValue());
1182 t->pos.setelev(user_elev_node->getDoubleValue());
1184 // TODO - set/update the position if it's an AI plane
1186 doThresholdETACalc(); // We need this here because planes in the lists are not guaranteed to *always* have the correct ETA
1187 //cout << "eta is " << t->eta << ", rwy is " << (rwyList.size() ? "occupied " : "clear ") << '\n';
1188 if(t->eta < 12 && rwyList.size() && !(t->instructedToGoAround)) {
1189 // TODO - need to make this more sophisticated
1190 // eg. is the plane accelerating down the runway taking off [OK],
1191 // or stationary near the start [V. BAD!!].
1192 // For now this should stop the AI plane landing on top of the user.
1193 string trns = t->plane.callsign;
1194 trns += " GO AROUND TRAFFIC ON RUNWAY I REPEAT GO AROUND";
1195 pending_transmission = trns;
1196 ImmediateTransmit();
1197 t->instructedToGoAround = true;
1198 t->clearedToLand = false;
1199 t->nextOnRwy = false; // But note this is recalculated so don't rely on it
1200 // Assume it complies!!!
1201 t->opType = CIRCUIT;
1205 //cout << "Registering Go-around transmission with AI plane\n";
1206 t->planePtr->RegisterTransmission(13);
1209 // TODO - add Go-around ack to comm options,
1210 // remove report rwy vacated. (possibly).
1212 } else if(t->eta < 90 && !t->clearedToLand) {
1213 //doThresholdETACalc();
1214 doThresholdUseOrder();
1215 // The whip through the appList is a hack since currently t->nextOnRwy doesn't always work
1218 for(tower_plane_rec_list_iterator twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
1219 if((*twrItr)->eta < t->eta) {
1223 if(t->nextOnRwy && !cf) {
1224 if(!rwyList.size()) {
1225 string trns = t->plane.callsign;
1226 trns += " Cleared to land";
1227 pending_transmission = trns;
1229 //if(t->isUser) cout << "Transmitting cleared to Land!!!\n";
1230 t->clearedToLand = true;
1232 t->planePtr->RegisterTransmission(7);
1236 //if(t->isUser) cout << "Not next\n";
1240 // Check for landing...
1241 bool landed = false;
1244 if(t->planePtr->GetLeg() == LANDING_ROLL) {
1248 SG_LOG(SG_ATC, SG_ALERT, "WARNING - not user and null planePtr in CheckApproachList!");
1251 if(OnActiveRunway(t->pos)) {
1257 // Duplicated in CheckCircuitList - must be able to rationalise this somehow!
1258 //cout << "A " << t->plane.callsign << " has landed, adding to rwyList...\n";
1259 rwyList.push_front(t);
1260 // TODO - if(!clearedToLand) shout something!!
1261 t->clearedToLand = false;
1262 RemoveFromTrafficList(t->plane.callsign);
1264 // t->opType = TTT_UNKNOWN;
1265 //} // TODO - allow the user to specify opType via ATC menu
1266 appListItr = appList.erase(appListItr);
1267 if(appListItr == appList.end() ) {
1268 appListItr = appList.begin();
1274 //cout << "Done" << endl;
1277 // Do one plane from the departure list
1278 void FGTower::CheckDepartureList(double dt) {
1279 if(depList.size()) {
1280 if(depListItr == depList.end()) {
1281 depListItr = depList.begin();
1283 TowerPlaneRec* t = *depListItr;
1284 //cout << "Dep list, checking " << t->plane.callsign;
1286 double distout; // meters
1287 if(t->isUser) distout = dclGetHorizontalSeparation(Point3D(lon, lat, elev), Point3D(user_lon_node->getDoubleValue(), user_lat_node->getDoubleValue(), user_elev_node->getDoubleValue()));
1288 else distout = dclGetHorizontalSeparation(Point3D(lon, lat, elev), t->planePtr->GetPos());
1289 //cout << " distout = " << distout << '\n';
1290 if(distout > 10000) {
1291 string trns = t->plane.callsign;
1292 trns += " You are now clear of my airspace, good day";
1293 pending_transmission = trns;
1296 // Change the communication options
1297 RemoveAllUserDialogOptions();
1298 //cout << "ADD A\n";
1299 current_atcdialog->add_entry(ident, "@AP Tower @CS @MI miles @CD of the airport for full stop with the ATIS", "Contact tower for VFR arrival (full stop)", TOWER, (int)USER_REQUEST_VFR_ARRIVAL_FULL_STOP);
1301 // Send a clear-of-airspace signal
1302 // TODO - implement this once we actually have departing AI traffic (currently all circuits or arrivals).
1304 RemovePlane(t->plane.callsign);
1311 // ********** End periodic check functions ***********************************************
1312 // ***************************************************************************************
1315 // Remove all dialog options for this tower.
1316 void FGTower::RemoveAllUserDialogOptions() {
1317 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_DEPARTURE, TOWER);
1318 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL, TOWER);
1319 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL_FULL_STOP, TOWER);
1320 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL_TOUCH_AND_GO, TOWER);
1321 current_atcdialog->remove_entry(ident, USER_REPORT_3_MILE_FINAL, TOWER);
1322 current_atcdialog->remove_entry(ident, USER_REPORT_DOWNWIND, TOWER);
1323 current_atcdialog->remove_entry(ident, USER_REPORT_RWY_VACATED, TOWER);
1324 current_atcdialog->remove_entry(ident, USER_REPORT_GOING_AROUND, TOWER);
1327 // Returns true if positions of crosswind/downwind/base leg turns should be constrained by previous traffic
1328 // plus the constraint position as a rwy orientated orthopos (meters)
1329 bool FGTower::GetCrosswindConstraint(double& cpos) {
1330 if(crosswind_leg_pos != 0.0) {
1331 cpos = crosswind_leg_pos;
1338 bool FGTower::GetDownwindConstraint(double& dpos) {
1339 if(fabs(downwind_leg_pos) > nominal_downwind_leg_pos) {
1340 dpos = downwind_leg_pos;
1347 bool FGTower::GetBaseConstraint(double& bpos) {
1348 if(base_leg_pos < nominal_base_leg_pos) {
1349 bpos = base_leg_pos;
1352 bpos = nominal_base_leg_pos;
1358 // Figure out which runways are active.
1359 // For now we'll just be simple and do one active runway - eventually this will get much more complex
1360 // This is a private function - public interface to the results of this is through GetActiveRunway
1361 void FGTower::DoRwyDetails() {
1362 //cout << "GetRwyDetails called" << endl;
1364 // Based on the airport-id and wind get the active runway
1367 double hdg = wind_from_hdg->getDoubleValue();
1368 double speed = wind_speed_knots->getDoubleValue();
1369 hdg = (speed == 0.0 ? 270.0 : hdg);
1370 //cout << "Heading = " << hdg << '\n';
1373 bool rwyGood = globals->get_runways()->search(ident, int(hdg), &runway);
1375 //cout << "RUNWAY GOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOD\n";
1376 activeRwy = runway.rwy_no;
1377 rwy.rwyID = runway.rwy_no;
1378 SG_LOG(SG_ATC, SG_INFO, "Active runway for airport " << ident << " is " << activeRwy);
1380 // Get the threshold position
1381 double other_way = runway.heading - 180.0;
1382 while(other_way <= 0.0) {
1385 // move to the +l end/center of the runway
1386 //cout << "Runway center is at " << runway.lon << ", " << runway.lat << '\n';
1387 Point3D origin = Point3D(runway.lon, runway.lat, aptElev);
1388 Point3D ref = origin;
1389 double tshlon, tshlat, tshr;
1390 double tolon, tolat, tor;
1391 rwy.length = runway.length * SG_FEET_TO_METER;
1392 rwy.width = runway.width * SG_FEET_TO_METER;
1393 geo_direct_wgs_84 ( aptElev, ref.lat(), ref.lon(), other_way,
1394 rwy.length / 2.0 - 25.0, &tshlat, &tshlon, &tshr );
1395 geo_direct_wgs_84 ( aptElev, ref.lat(), ref.lon(), runway.heading,
1396 rwy.length / 2.0 - 25.0, &tolat, &tolon, &tor );
1397 // Note - 25 meters in from the runway end is a bit of a hack to put the plane ahead of the user.
1398 // now copy what we need out of runway into rwy
1399 rwy.threshold_pos = Point3D(tshlon, tshlat, aptElev);
1400 Point3D takeoff_end = Point3D(tolon, tolat, aptElev);
1401 //cout << "Threshold position = " << tshlon << ", " << tshlat << ", " << aptElev << '\n';
1402 //cout << "Takeoff position = " << tolon << ", " << tolat << ", " << aptElev << '\n';
1403 rwy.hdg = runway.heading;
1404 // Set the projection for the local area based on this active runway
1405 ortho.Init(rwy.threshold_pos, rwy.hdg);
1406 rwy.end1ortho = ortho.ConvertToLocal(rwy.threshold_pos); // should come out as zero
1407 rwy.end2ortho = ortho.ConvertToLocal(takeoff_end);
1409 // Set the pattern direction
1410 // TODO - we'll check for a facilities file with this in eventually - for now assume left traffic except
1411 // for certain circumstances (RH parallel rwy).
1412 rwy.patternDirection = -1; // Left
1413 if(rwy.rwyID.size() == 3) {
1414 rwy.patternDirection = (rwy.rwyID.substr(2,1) == "R" ? 1 : -1);
1416 //cout << "Doing details, rwy.patterDirection is " << rwy.patternDirection << '\n';
1418 SG_LOG(SG_ATC, SG_ALERT, "Help - can't get good runway in FGTower!!");
1424 // Figure out if a given position lies on the active runway
1425 // Might have to change when we consider more than one active rwy.
1426 bool FGTower::OnActiveRunway(Point3D pt) {
1427 // TODO - check that the centre calculation below isn't confused by displaced thesholds etc.
1428 Point3D xyc((rwy.end1ortho.x() + rwy.end2ortho.x())/2.0, (rwy.end1ortho.y() + rwy.end2ortho.y())/2.0, 0.0);
1429 Point3D xyp = ortho.ConvertToLocal(pt);
1431 //cout << "Length offset = " << fabs(xyp.y() - xyc.y()) << '\n';
1432 //cout << "Width offset = " << fabs(xyp.x() - xyc.x()) << '\n';
1434 double rlen = rwy.length/2.0 + 5.0;
1435 double rwidth = rwy.width/2.0;
1436 double ldiff = fabs(xyp.y() - xyc.y());
1437 double wdiff = fabs(xyp.x() - xyc.x());
1439 return((ldiff < rlen) && (wdiff < rwidth));
1443 // Figure out if a given position lies on any runway or not
1444 // Only call this at startup - reading the runways database is expensive and needs to be fixed!
1445 bool FGTower::OnAnyRunway(Point3D pt) {
1447 double dist = current_commlist->FindClosest(lon, lat, elev, ad, TOWER, 10.0);
1451 // Based on the airport-id, go through all the runways and check for a point in them
1453 // TODO - do we actually need to search for the airport - surely we already know our ident and
1454 // can just search runways of our airport???
1455 //cout << "Airport ident is " << ad.ident << '\n';
1457 bool rwyGood = globals->get_runways()->search(ad.ident, &runway);
1459 SG_LOG(SG_ATC, SG_WARN, "Unable to find any runways for airport ID " << ad.ident << " in FGTower");
1462 while(runway.id == ad.ident) {
1463 on = OnRunway(pt, runway);
1464 //cout << "Runway " << runway.rwy_no << ": On = " << (on ? "true\n" : "false\n");
1465 if(on) return(true);
1466 globals->get_runways()->next(&runway);
1472 // Returns true if successful
1473 bool FGTower::RemoveFromTrafficList(string id) {
1474 tower_plane_rec_list_iterator twrItr;
1475 for(twrItr = trafficList.begin(); twrItr != trafficList.end(); twrItr++) {
1476 TowerPlaneRec* tpr = *twrItr;
1477 if(tpr->plane.callsign == id) {
1478 trafficList.erase(twrItr);
1479 trafficListItr = trafficList.begin();
1483 SG_LOG(SG_ATC, SG_WARN, "Warning - unable to remove aircraft " << id << " from trafficList in FGTower");
1488 // Returns true if successful
1489 bool FGTower::RemoveFromAppList(string id) {
1490 tower_plane_rec_list_iterator twrItr;
1491 for(twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
1492 TowerPlaneRec* tpr = *twrItr;
1493 if(tpr->plane.callsign == id) {
1494 appList.erase(twrItr);
1495 appListItr = appList.begin();
1499 //SG_LOG(SG_ATC, SG_WARN, "Warning - unable to remove aircraft " << id << " from appList in FGTower");
1503 // Returns true if successful
1504 bool FGTower::RemoveFromRwyList(string id) {
1505 tower_plane_rec_list_iterator twrItr;
1506 for(twrItr = rwyList.begin(); twrItr != rwyList.end(); twrItr++) {
1507 TowerPlaneRec* tpr = *twrItr;
1508 if(tpr->plane.callsign == id) {
1509 rwyList.erase(twrItr);
1510 rwyListItr = rwyList.begin();
1514 //SG_LOG(SG_ATC, SG_WARN, "Warning - unable to remove aircraft " << id << " from rwyList in FGTower");
1519 // Add a tower plane rec with ETA to the traffic list in the correct position ETA-wise
1520 // and set nextOnRwy if so.
1521 // Returns true if this could cause a threshold ETA conflict with other traffic, false otherwise.
1522 // For planes holding they are put in the first position with time to go, and the return value is
1523 // true if in the first position (nextOnRwy) and false otherwise.
1524 // See the comments in FGTower::doThresholdUseOrder for notes on the ordering
1525 bool FGTower::AddToTrafficList(TowerPlaneRec* t, bool holding) {
1526 //cout << "ADD: " << trafficList.size();
1527 //cout << "AddToTrafficList called, currently size = " << trafficList.size() << ", holding = " << holding << endl;
1528 double separation_time = 90.0; // seconds - this is currently a guess for light plane separation, and includes a few seconds for a holding plane to taxi onto the rwy.
1529 double departure_sep_time = 60.0; // Separation time behind departing airplanes. Comments above also apply.
1530 bool conflict = false;
1531 double lastETA = 0.0;
1532 bool firstTime = true;
1533 // FIXME - make this more robust for different plane types eg. light following heavy.
1534 tower_plane_rec_list_iterator twrItr;
1535 //twrItr = trafficList.begin();
1537 for(twrItr = trafficList.begin(); twrItr != trafficList.end(); twrItr++) {
1538 //if(twrItr == trafficList.end()) {
1540 // trafficList.push_back(t);
1541 // return(holding ? firstTime : conflict);
1543 TowerPlaneRec* tpr = *twrItr;
1545 //cout << (tpr->isUser ? "USER!\n" : "NOT user\n");
1546 //cout << "tpr->eta - lastETA = " << tpr->eta - lastETA << '\n';
1547 double dep_allowance = (timeSinceLastDeparture < departure_sep_time ? departure_sep_time - timeSinceLastDeparture : 0.0);
1548 double slot_time = (firstTime ? separation_time + dep_allowance : separation_time + departure_sep_time);
1549 // separation_time + departure_sep_time in the above accounts for the fact that the arrival could be touch and go,
1550 // and if not needs time to clear the rwy anyway.
1551 if(tpr->eta - lastETA > slot_time) {
1552 t->nextOnRwy = firstTime;
1553 trafficList.insert(twrItr, t);
1554 //cout << "\tH\t" << trafficList.size() << '\n';
1559 if(t->eta < tpr->eta) {
1560 // Ugg - this one's tricky.
1561 // It depends on what the two planes are doing and whether there's a conflict what we do.
1562 if(tpr->eta - t->eta > separation_time) { // No probs, plane 2 can squeeze in before plane 1 with no apparent conflict
1563 if(tpr->nextOnRwy) {
1564 tpr->nextOnRwy = false;
1565 t->nextOnRwy = true;
1567 trafficList.insert(twrItr, t);
1568 } else { // Ooops - this ones tricky - we have a potential conflict!
1570 // HACK - just add anyway for now and flag conflict - TODO - FIX THIS using CIRCUIT/STRAIGHT_IN and VFR/IFR precedence rules.
1571 if(tpr->nextOnRwy) {
1572 tpr->nextOnRwy = false;
1573 t->nextOnRwy = true;
1575 trafficList.insert(twrItr, t);
1577 //cout << "\tC\t" << trafficList.size() << '\n';
1584 // If we get here we must be at the end of the list, or maybe the list is empty.
1585 if(!trafficList.size()) {
1586 t->nextOnRwy = true;
1587 // conflict and firstTime should be false and true respectively in this case anyway.
1589 t->nextOnRwy = false;
1591 trafficList.push_back(t);
1592 //cout << "\tE\t" << trafficList.size() << endl;
1593 return(holding ? firstTime : conflict);
1596 // Add a tower plane rec with ETA to the circuit list in the correct position ETA-wise
1597 // Returns true if this might cause a separation conflict (based on ETA) with other traffic, false otherwise.
1598 // Safe to add a plane that is already in - planes with the same callsign are not added.
1599 bool FGTower::AddToCircuitList(TowerPlaneRec* t) {
1601 //cout << "**********************************************\n";
1602 //cout << "AddToCircuitList called with NULL pointer!!!!!\n";
1603 //cout << "**********************************************\n";
1606 //cout << "ADD: " << circuitList.size();
1607 //cout << ident << " AddToCircuitList called for " << t->plane.callsign << ", currently size = " << circuitList.size() << endl;
1608 double separation_time = 60.0; // seconds - this is currently a guess for light plane separation, and includes a few seconds for a holding plane to taxi onto the rwy.
1609 bool conflict = false;
1610 tower_plane_rec_list_iterator twrItr;
1611 // First check if the plane is already in the list
1612 //cout << "A" << endl;
1613 //cout << "Checking whether " << t->plane.callsign << " is already in circuit list..." << endl;
1614 //cout << "B" << endl;
1615 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
1616 if((*twrItr)->plane.callsign == t->plane.callsign) {
1617 //cout << "In list - returning...\n";
1621 //cout << "Not in list - adding..." << endl;
1623 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
1624 TowerPlaneRec* tpr = *twrItr;
1625 //cout << tpr->plane.callsign << " eta is " << tpr->eta << '\n';
1626 //cout << "New eta is " << t->eta << '\n';
1627 if(t->eta < tpr->eta) {
1628 // Ugg - this one's tricky.
1629 // It depends on what the two planes are doing and whether there's a conflict what we do.
1630 if(tpr->eta - t->eta > separation_time) { // No probs, plane 2 can squeeze in before plane 1 with no apparent conflict
1631 circuitList.insert(twrItr, t);
1632 } else { // Ooops - this ones tricky - we have a potential conflict!
1634 // HACK - just add anyway for now and flag conflict.
1635 circuitList.insert(twrItr, t);
1637 //cout << "\tC\t" << circuitList.size() << '\n';
1641 // If we get here we must be at the end of the list, or maybe the list is empty.
1642 //cout << ident << " adding " << t->plane.callsign << " to circuitList" << endl;
1643 circuitList.push_back(t); // TODO - check the separation with the preceding plane for the conflict flag.
1644 //cout << "\tE\t" << circuitList.size() << endl;
1648 // Add to vacated list only if not already present
1649 void FGTower::AddToVacatedList(TowerPlaneRec* t) {
1650 tower_plane_rec_list_iterator twrItr;
1652 for(twrItr = vacatedList.begin(); twrItr != vacatedList.end(); twrItr++) {
1653 if((*twrItr)->plane.callsign == t->plane.callsign) {
1658 vacatedList.push_back(t);
1662 // Calculate the eta of a plane to the threshold.
1663 // For ground traffic this is the fastest they can get there.
1664 // For air traffic this is the middle approximation.
1665 void FGTower::CalcETA(TowerPlaneRec* tpr, bool printout) {
1666 // For now we'll be very crude and hardwire expected speeds to C172-like values
1667 // The speeds below are specified in knots IAS and then converted to m/s
1668 double app_ias = 100.0 * 0.514444; // Speed during straight-in approach
1669 double circuit_ias = 80.0 * 0.514444; // Speed around circuit
1670 double final_ias = 70.0 * 0.514444; // Speed during final approach
1673 //cout << "In CalcETA, airplane ident = " << tpr->plane.callsign << '\n';
1674 //cout << (tpr->isUser ? "USER\n" : "AI\n");
1678 // Sign convention - dist_out is -ve for approaching planes and +ve for departing planes
1679 // dist_across is +ve in the pattern direction - ie a plane correctly on downwind will have a +ve dist_across
1681 Point3D op = ortho.ConvertToLocal(tpr->pos);
1683 //if(!tpr->isUser) cout << "Orthopos is " << op.x() << ", " << op.y() << ' ';
1684 //cout << "opType is " << tpr->opType << '\n';
1686 double dist_out_m = op.y();
1687 double dist_across_m = fabs(op.x()); // The fabs is a hack to cope with the fact that we don't know the circuit direction yet
1688 //cout << "Doing ETA calc for " << tpr->plane.callsign << '\n';
1690 if(tpr->opType == STRAIGHT_IN || tpr->opType == INBOUND) {
1691 //cout << "CASE 1\n";
1692 double dist_to_go_m = sqrt((dist_out_m * dist_out_m) + (dist_across_m * dist_across_m));
1693 if(dist_to_go_m < 1000) {
1694 tpr->eta = dist_to_go_m / final_ias;
1696 tpr->eta = (1000.0 / final_ias) + ((dist_to_go_m - 1000.0) / app_ias);
1698 } else if(tpr->opType == CIRCUIT || tpr->opType == TTT_UNKNOWN) { // Hack alert - UNKNOWN has sort of been added here as a temporary hack.
1699 //cout << "CASE 2\n";
1700 // It's complicated - depends on if base leg is delayed or not
1702 //cout << "Leg = " << tpr->leg << '\n';
1704 if(tpr->leg == LANDING_ROLL) {
1706 } else if((tpr->leg == FINAL) || (tpr->leg == TURN4)) {
1707 //cout << "dist_out_m = " << dist_out_m << '\n';
1708 tpr->eta = fabs(dist_out_m) / final_ias;
1709 } else if((tpr->leg == BASE) || (tpr->leg == TURN3)) {
1710 tpr->eta = (fabs(dist_out_m) / final_ias) + (dist_across_m / circuit_ias);
1712 // Need to calculate where base leg is likely to be
1713 // FIXME - for now I'll hardwire it to 1000m which is what AILocalTraffic uses!!!
1714 // TODO - as a matter of design - AILocalTraffic should get the nominal no-traffic base turn distance from Tower, since in real life the published pattern might differ from airport to airport
1715 double nominal_base_dist_out_m = -1000;
1716 double current_base_dist_out_m;
1717 if(!GetBaseConstraint(current_base_dist_out_m)) {
1718 current_base_dist_out_m = nominal_base_dist_out_m;
1720 //cout << "current_base_dist_out_m = " << current_base_dist_out_m << '\n';
1721 double nominal_dist_across_m = 1000; // Hardwired value from AILocalTraffic
1722 double current_dist_across_m;
1723 if(!GetDownwindConstraint(current_dist_across_m)) {
1724 current_dist_across_m = nominal_dist_across_m;
1726 double nominal_cross_dist_out_m = 2000; // Bit of a guess - AI plane turns to crosswind at 700ft agl.
1727 tpr->eta = fabs(current_base_dist_out_m) / final_ias; // final
1728 //cout << "a = " << tpr->eta << '\n';
1729 if((tpr->leg == DOWNWIND) || (tpr->leg == TURN2)) {
1730 tpr->eta += dist_across_m / circuit_ias;
1731 //cout << "b = " << tpr->eta << '\n';
1732 tpr->eta += fabs(current_base_dist_out_m - dist_out_m) / circuit_ias;
1733 //cout << "c = " << tpr->eta << '\n';
1734 } else if((tpr->leg == CROSSWIND) || (tpr->leg == TURN1)) {
1735 //cout << "CROSSWIND calc: ";
1736 //cout << tpr->eta << ' ';
1737 if(dist_across_m > nominal_dist_across_m) {
1738 tpr->eta += dist_across_m / circuit_ias;
1741 tpr->eta += nominal_dist_across_m / circuit_ias;
1744 //cout << tpr->eta << ' ';
1745 // should we use the dist across of the previous plane if there is previous still on downwind?
1746 //if(printout) cout << "bb = " << tpr->eta << '\n';
1747 if(dist_out_m > nominal_cross_dist_out_m) {
1748 tpr->eta += fabs(current_base_dist_out_m - dist_out_m) / circuit_ias;
1751 tpr->eta += fabs(current_base_dist_out_m - nominal_cross_dist_out_m) / circuit_ias;
1754 //cout << tpr->eta << ' ';
1755 //if(printout) cout << "cc = " << tpr->eta << '\n';
1756 if(nominal_dist_across_m > dist_across_m) {
1757 tpr->eta += (nominal_dist_across_m - dist_across_m) / circuit_ias;
1763 //cout << tpr->eta << '\n';
1764 //if(printout) cout << "dd = " << tpr->eta << '\n';
1766 // We've only just started - why not use a generic estimate?
1771 // cout << "ETA = " << tpr->eta << '\n';
1773 //if(!tpr->isUser) cout << tpr->plane.callsign << '\t' << tpr->eta << '\n';
1780 // Calculate the distance of a plane to the threshold in meters
1781 // TODO - Modify to calculate flying distance of a plane in the circuit
1782 double FGTower::CalcDistOutM(TowerPlaneRec* tpr) {
1783 return(dclGetHorizontalSeparation(rwy.threshold_pos, tpr->pos));
1787 // Calculate the distance of a plane to the threshold in miles
1788 // TODO - Modify to calculate flying distance of a plane in the circuit
1789 double FGTower::CalcDistOutMiles(TowerPlaneRec* tpr) {
1790 return(CalcDistOutM(tpr) / 1600.0); // FIXME - use a proper constant if possible.
1794 // Iterate through all the lists, update the position of, and call CalcETA for all the planes.
1795 void FGTower::doThresholdETACalc() {
1796 //cout << "Entering doThresholdETACalc..." << endl;
1797 tower_plane_rec_list_iterator twrItr;
1798 // Do the approach list first
1799 for(twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
1800 TowerPlaneRec* tpr = *twrItr;
1801 if(!(tpr->isUser)) tpr->pos = tpr->planePtr->GetPos();
1805 // Then the circuit list
1806 //cout << "Circuit list size is " << circuitList.size() << '\n';
1807 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
1808 TowerPlaneRec* tpr = *twrItr;
1809 if(!(tpr->isUser)) tpr->pos = tpr->planePtr->GetPos();
1813 //cout << "Done doThresholdETCCalc" << endl;
1817 // Check that the planes in traffic list are correctly ordered,
1818 // that the nearest (timewise) is flagged next on rwy, and return
1819 // true if any threshold use conflicts are detected, false otherwise.
1820 bool FGTower::doThresholdUseOrder() {
1821 //cout << "Entering doThresholdUseOrder..." << endl;
1822 bool conflict = false;
1824 // Wipe out traffic list, go through circuit, app and hold list, and reorder them in traffic list.
1825 // Here's the rather simplistic assumptions we're using:
1826 // Currently all planes are assumed to be GA light singles with corresponding speeds and separation times.
1827 // In order of priority for runway use:
1828 // STRAIGHT_IN > CIRCUIT > HOLDING_FOR_DEPARTURE
1829 // No modification of planes speeds occurs - conflicts are resolved by delaying turn for base,
1830 // and holding planes until a space.
1831 // When calculating if a holding plane can use the runway, time clearance from last departure
1832 // as well as time clearance to next arrival must be considered.
1834 trafficList.clear();
1836 tower_plane_rec_list_iterator twrItr;
1837 // Do the approach list first
1838 //if(ident == "KRHV") cout << "A" << flush;
1839 for(twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
1840 TowerPlaneRec* tpr = *twrItr;
1841 //if(ident == "KRHV") cout << tpr->plane.callsign << '\n';
1842 conflict = AddToTrafficList(tpr);
1844 // Then the circuit list
1845 //if(ident == "KRHV") cout << "C" << flush;
1846 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
1847 TowerPlaneRec* tpr = *twrItr;
1848 //if(ident == "KRHV") cout << tpr->plane.callsign << '\n';
1849 conflict = AddToTrafficList(tpr);
1851 // And finally the hold list
1852 //cout << "H" << endl;
1853 for(twrItr = holdList.begin(); twrItr != holdList.end(); twrItr++) {
1854 TowerPlaneRec* tpr = *twrItr;
1855 AddToTrafficList(tpr, true);
1860 //if(ident == "KRHV") {
1862 for(twrItr = trafficList.begin(); twrItr != trafficList.end(); twrItr++) {
1863 TowerPlaneRec* tpr = *twrItr;
1864 cout << tpr->plane.callsign << '\t' << tpr->eta << '\t';
1869 //cout << "Done doThresholdUseOrder" << endl;
1874 // Return the ETA of plane no. list_pos (1-based) in the traffic list.
1875 // i.e. list_pos = 1 implies next to use runway.
1876 double FGTower::GetTrafficETA(unsigned int list_pos, bool printout) {
1877 if(trafficList.size() < list_pos) {
1881 tower_plane_rec_list_iterator twrItr;
1882 twrItr = trafficList.begin();
1883 for(unsigned int i = 1; i < list_pos; i++, twrItr++);
1884 TowerPlaneRec* tpr = *twrItr;
1885 CalcETA(tpr, printout);
1886 //cout << "ETA returned = " << tpr->eta << '\n';
1891 void FGTower::ContactAtHoldShort(PlaneRec plane, FGAIPlane* requestee, tower_traffic_type operation) {
1892 // HACK - assume that anything contacting at hold short is new for now - FIXME LATER
1893 TowerPlaneRec* t = new TowerPlaneRec;
1895 t->planePtr = requestee;
1896 t->holdShortReported = true;
1897 t->clearedToLineUp = false;
1898 t->clearedToTakeOff = false;
1899 t->opType = operation;
1900 t->pos = requestee->GetPos();
1902 //cout << "Hold Short reported by " << plane.callsign << '\n';
1903 SG_LOG(SG_ATC, SG_BULK, "Hold Short reported by " << plane.callsign);
1906 bool next = AddToTrafficList(t, true);
1908 double teta = GetTrafficETA(2);
1910 t->clearanceCounter = 7.0; // This reduces the delay before response to 3 secs if an immediate takeoff is reqd
1911 //cout << "Reducing response time to request due imminent traffic\n";
1916 // TODO - possibly add the reduced interval to clearance when immediate back in under the new scheme
1918 holdList.push_back(t);
1920 responseReqd = true;
1923 // Register the presence of an AI plane at a point where contact would already have been made in real life
1924 // CAUTION - currently it is assumed that this plane's callsign is unique - it is up to AIMgr to generate unique callsigns.
1925 void FGTower::RegisterAIPlane(PlaneRec plane, FGAIPlane* ai, tower_traffic_type op, PatternLeg lg) {
1926 // At the moment this is only going to be tested with inserting an AI plane on downwind
1927 TowerPlaneRec* t = new TowerPlaneRec;
1932 t->pos = ai->GetPos();
1936 if(op == CIRCUIT && lg != LEG_UNKNOWN) {
1937 AddToCircuitList(t);
1942 doThresholdUseOrder();
1945 void FGTower::DeregisterAIPlane(string id) {
1949 // Contact tower for VFR approach
1950 // eg "Cessna Charlie Foxtrot Golf Foxtrot Sierra eight miles South of the airport for full stop with Bravo"
1951 // This function probably only called via user interaction - AI planes will have an overloaded function taking a planerec.
1952 // opt defaults to AIP_LT_UNKNOWN
1953 void FGTower::VFRArrivalContact(string ID, LandingType opt) {
1954 //cout << "USER Request Landing Clearance called for ID " << ID << '\n';
1956 // For now we'll assume that the user is a light plane and can get him/her to join the circuit if necessary.
1959 string usercall = fgGetString("/sim/user/callsign");
1960 if(ID == "USER" || ID == usercall) {
1961 t = FindPlane(usercall);
1963 //cout << "NOT t\n";
1964 t = new TowerPlaneRec;
1966 t->pos.setlon(user_lon_node->getDoubleValue());
1967 t->pos.setlat(user_lat_node->getDoubleValue());
1968 t->pos.setelev(user_elev_node->getDoubleValue());
1971 // Oops - the plane is already registered with this tower - maybe we took off and flew a giant circuit without
1972 // quite getting out of tower airspace - just ignore for now and treat as new arrival.
1973 // TODO - Maybe should remove from departure and circuit list if in there though!!
1976 // Oops - something has gone wrong - put out a warning
1977 cout << "WARNING - FGTower::VFRContact(string ID, LandingType lt) called with ID " << ID << " which does not appear to be the user.\n";
1983 // Calculate where the plane is in relation to the active runway and it's circuit
1984 // and set the op-type as appropriate.
1986 // HACK - to get up and running I'm going to assume that the user contacts tower on a staight-in final for now.
1987 t->opType = STRAIGHT_IN;
1989 t->plane.type = GA_SINGLE; // FIXME - Another assumption!
1990 t->plane.callsign = usercall;
1992 t->vfrArrivalReported = true;
1993 responseReqd = true;
1995 appList.push_back(t); // Not necessarily permanent
1996 AddToTrafficList(t);
1998 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL, TOWER);
1999 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL_FULL_STOP, TOWER);
2000 current_atcdialog->remove_entry(ident, USER_REQUEST_VFR_ARRIVAL_TOUCH_AND_GO, TOWER);
2003 // landingType defaults to AIP_LT_UNKNOWN
2004 void FGTower::VFRArrivalContact(PlaneRec plane, FGAIPlane* requestee, LandingType lt) {
2005 //cout << "VFRArrivalContact called for plane " << plane.callsign << " at " << ident << '\n';
2006 // Possible hack - assume this plane is new for now - TODO - should check really
2007 TowerPlaneRec* t = new TowerPlaneRec;
2009 t->planePtr = requestee;
2010 t->landingType = lt;
2011 t->pos = requestee->GetPos();
2013 //cout << "Hold Short reported by " << plane.callsign << '\n';
2014 SG_LOG(SG_ATC, SG_BULK, "VFR arrival contact made by " << plane.callsign);
2015 //cout << "VFR arrival contact made by " << plane.callsign << '\n';
2017 // HACK - to get up and running I'm going to assume a staight-in final for now.
2018 t->opType = STRAIGHT_IN;
2020 t->vfrArrivalReported = true;
2021 responseReqd = true;
2023 //cout << "Before adding, appList.size = " << appList.size() << " at " << ident << '\n';
2024 appList.push_back(t); // Not necessarily permanent
2025 //cout << "After adding, appList.size = " << appList.size() << " at " << ident << '\n';
2026 AddToTrafficList(t);
2029 void FGTower::RequestDepartureClearance(string ID) {
2030 //cout << "Request Departure Clearance called...\n";
2033 void FGTower::ReportFinal(string ID) {
2034 //cout << "Report Final Called at tower " << ident << " by plane " << ID << '\n';
2036 ID = fgGetString("/sim/user/callsign");
2037 current_atcdialog->remove_entry(ident, USER_REPORT_3_MILE_FINAL, TOWER);
2039 TowerPlaneRec* t = FindPlane(ID);
2041 t->finalReported = true;
2042 t->finalAcknowledged = false;
2043 if(!(t->clearedToLand)) {
2044 responseReqd = true;
2046 // possibly respond with wind even if already cleared to land?
2047 t->finalReported = false;
2048 t->finalAcknowledged = true;
2049 // HACK!! - prevents next reporting being misinterpreted as this one.
2052 SG_LOG(SG_ATC, SG_WARN, "WARNING: Unable to find plane " << ID << " in FGTower::ReportFinal(...)");
2056 void FGTower::ReportLongFinal(string ID) {
2058 ID = fgGetString("/sim/user/callsign");
2059 current_atcdialog->remove_entry(ident, USER_REPORT_3_MILE_FINAL, TOWER);
2061 TowerPlaneRec* t = FindPlane(ID);
2063 t->longFinalReported = true;
2064 t->longFinalAcknowledged = false;
2065 if(!(t->clearedToLand)) {
2066 responseReqd = true;
2067 } // possibly respond with wind even if already cleared to land?
2069 SG_LOG(SG_ATC, SG_WARN, "WARNING: Unable to find plane " << ID << " in FGTower::ReportLongFinal(...)");
2073 //void FGTower::ReportOuterMarker(string ID);
2074 //void FGTower::ReportMiddleMarker(string ID);
2075 //void FGTower::ReportInnerMarker(string ID);
2077 void FGTower::ReportRunwayVacated(string ID) {
2078 //cout << "Report Runway Vacated Called at tower " << ident << " by plane " << ID << '\n';
2080 ID = fgGetString("/sim/user/callsign");
2081 current_atcdialog->remove_entry(ident, USER_REPORT_RWY_VACATED, TOWER);
2083 TowerPlaneRec* t = FindPlane(ID);
2085 //cout << "Found it...\n";
2086 t->rwyVacatedReported = true;
2087 responseReqd = true;
2089 SG_LOG(SG_ATC, SG_WARN, "WARNING: Unable to find plane " << ID << " in FGTower::ReportRunwayVacated(...)");
2090 SG_LOG(SG_ATC, SG_ALERT, "A WARNING: Unable to find plane " << ID << " in FGTower::ReportRunwayVacated(...)");
2091 //cout << "WARNING: Unable to find plane " << ID << " in FGTower::ReportRunwayVacated(...)\n";
2095 TowerPlaneRec* FGTower::FindPlane(string ID) {
2096 //cout << "FindPlane called for " << ID << "...\n";
2097 tower_plane_rec_list_iterator twrItr;
2098 // Do the approach list first
2099 for(twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
2100 //cout << "appList callsign is " << (*twrItr)->plane.callsign << '\n';
2101 if((*twrItr)->plane.callsign == ID) return(*twrItr);
2103 // Then the circuit list
2104 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
2105 //cout << "circuitList callsign is " << (*twrItr)->plane.callsign << '\n';
2106 if((*twrItr)->plane.callsign == ID) return(*twrItr);
2108 // Then the runway list
2109 //cout << "rwyList.size() is " << rwyList.size() << '\n';
2110 for(twrItr = rwyList.begin(); twrItr != rwyList.end(); twrItr++) {
2111 //cout << "rwyList callsign is " << (*twrItr)->plane.callsign << '\n';
2112 if((*twrItr)->plane.callsign == ID) return(*twrItr);
2115 for(twrItr = holdList.begin(); twrItr != holdList.end(); twrItr++) {
2116 if((*twrItr)->plane.callsign == ID) return(*twrItr);
2118 // And finally the vacated list
2119 for(twrItr = vacatedList.begin(); twrItr != vacatedList.end(); twrItr++) {
2120 //cout << "vacatedList callsign is " << (*twrItr)->plane.callsign << '\n';
2121 if((*twrItr)->plane.callsign == ID) return(*twrItr);
2123 SG_LOG(SG_ATC, SG_WARN, "Unable to find " << ID << " in FGTower::FindPlane(...)");
2128 void FGTower::RemovePlane(string ID) {
2129 //cout << ident << " RemovePlane called for " << ID << '\n';
2130 // We have to be careful here - we want to erase the plane from all lists it is in,
2131 // but we can only delete it once, AT THE END.
2132 TowerPlaneRec* t = NULL;
2133 tower_plane_rec_list_iterator twrItr;
2134 for(twrItr = appList.begin(); twrItr != appList.end(); twrItr++) {
2135 if((*twrItr)->plane.callsign == ID) {
2137 twrItr = appList.erase(twrItr);
2138 appListItr = appList.begin();
2141 for(twrItr = depList.begin(); twrItr != depList.end(); twrItr++) {
2142 if((*twrItr)->plane.callsign == ID) {
2144 twrItr = depList.erase(twrItr);
2145 depListItr = depList.begin();
2148 for(twrItr = circuitList.begin(); twrItr != circuitList.end(); twrItr++) {
2149 if((*twrItr)->plane.callsign == ID) {
2151 twrItr = circuitList.erase(twrItr);
2152 circuitListItr = circuitList.begin();
2155 for(twrItr = holdList.begin(); twrItr != holdList.end(); twrItr++) {
2156 if((*twrItr)->plane.callsign == ID) {
2158 twrItr = holdList.erase(twrItr);
2159 holdListItr = holdList.begin();
2162 for(twrItr = rwyList.begin(); twrItr != rwyList.end(); twrItr++) {
2163 if((*twrItr)->plane.callsign == ID) {
2165 twrItr = rwyList.erase(twrItr);
2166 rwyListItr = rwyList.begin();
2169 for(twrItr = vacatedList.begin(); twrItr != vacatedList.end(); twrItr++) {
2170 if((*twrItr)->plane.callsign == ID) {
2172 twrItr = vacatedList.erase(twrItr);
2173 vacatedListItr = vacatedList.begin();
2176 for(twrItr = trafficList.begin(); twrItr != trafficList.end(); twrItr++) {
2177 if((*twrItr)->plane.callsign == ID) {
2179 twrItr = trafficList.erase(twrItr);
2180 trafficListItr = trafficList.begin();
2183 // And finally, delete the record if we found it.
2187 void FGTower::ReportDownwind(string ID) {
2188 //cout << "ReportDownwind(...) called\n";
2190 ID = fgGetString("/sim/user/callsign");
2191 current_atcdialog->remove_entry(ident, USER_REPORT_DOWNWIND, TOWER);
2193 TowerPlaneRec* t = FindPlane(ID);
2195 t->downwindReported = true;
2196 responseReqd = true;
2197 // If the plane is in the app list, remove it and put it in the circuit list instead.
2198 // Ideally we might want to do this at the 2 mile report prior to 45 deg entry, but at
2199 // the moment that would b&gg?r up the constraint position calculations.
2200 RemoveFromAppList(ID);
2203 t->pos.setlon(user_lon_node->getDoubleValue());
2204 t->pos.setlat(user_lat_node->getDoubleValue());
2205 t->pos.setelev(user_elev_node->getDoubleValue());
2207 // ASSERT(t->planePtr != NULL);
2208 t->pos = t->planePtr->GetPos();
2211 AddToCircuitList(t);
2213 SG_LOG(SG_ATC, SG_WARN, "WARNING: Unable to find plane " << ID << " in FGTower::ReportDownwind(...)");
2217 void FGTower::ReportGoingAround(string ID) {
2219 ID = fgGetString("/sim/user/callsign");
2220 RemoveAllUserDialogOptions(); // TODO - it would be much more efficient if ATCDialog simply had a clear() function!!!
2221 current_atcdialog->add_entry(ident, "@AP Tower @CS Downwind @RW", "Report Downwind", TOWER, (int)USER_REPORT_DOWNWIND);
2223 TowerPlaneRec* t = FindPlane(ID);
2225 //t->goAroundReported = true; // No need to set this until we start responding to it.
2226 responseReqd = false; // might change in the future but for now we'll not distract them during the go-around.
2227 // If the plane is in the app list, remove it and put it in the circuit list instead.
2228 RemoveFromAppList(ID);
2231 t->pos.setlon(user_lon_node->getDoubleValue());
2232 t->pos.setlat(user_lat_node->getDoubleValue());
2233 t->pos.setelev(user_elev_node->getDoubleValue());
2235 // ASSERT(t->planePtr != NULL);
2236 t->pos = t->planePtr->GetPos();
2239 AddToCircuitList(t);
2241 SG_LOG(SG_ATC, SG_WARN, "WARNING: Unable to find plane " << ID << " in FGTower::ReportDownwind(...)");
2245 string FGTower::GenText(const string& m, int c) {
2246 const int cmax = 300;
2256 string usercall = fgGetString("/sim/user/callsign");
2258 //transmission_list_type tmissions = transmissionlist_station[station];
2259 //transmission_list_iterator current = tmissions.begin();
2260 //transmission_list_iterator last = tmissions.end();
2262 //for ( ; current != last ; ++current ) {
2263 // if ( current->get_code().c1 == code.c1 &&
2264 // current->get_code().c2 == code.c2 &&
2265 // current->get_code().c3 == code.c3 ) {
2267 //if ( ttext ) message = current->get_transtext();
2268 //else message = current->get_menutext();
2269 strcpy( &mes[0], m.c_str() );
2271 // Replace all the '@' parameters with the actual text.
2272 int check = 0; // If mes gets overflowed the while loop can go infinite
2273 while ( strchr(&mes[0], crej) != NULL ) { // ie. loop until no more occurances of crej ('@') found
2274 pos = strchr( &mes[0], crej );
2275 memmove(&tag[0], pos, 3);
2279 for ( i=0; i<cmax; i++ ) {
2280 if ( mes[i] == crej ) {
2285 strncpy( &dum[0], &mes[0], len );
2288 if ( strcmp ( tag, "@ST" ) == 0 )
2289 //strcat( &dum[0], tpars.station.c_str() );
2290 strcat(&dum[0], ident.c_str());
2291 else if ( strcmp ( tag, "@AP" ) == 0 )
2292 //strcat( &dum[0], tpars.airport.c_str() );
2293 strcat(&dum[0], name.c_str());
2294 else if ( strcmp ( tag, "@CS" ) == 0 )
2295 //strcat( &dum[0], tpars.callsign.c_str() );
2296 strcat(&dum[0], usercall.c_str());
2297 else if ( strcmp ( tag, "@TD" ) == 0 ) {
2299 if ( tpars.tdir == 1 ) {
2300 char buf[] = "left";
2301 strcat( &dum[0], &buf[0] );
2304 char buf[] = "right";
2305 strcat( &dum[0], &buf[0] );
2309 else if ( strcmp ( tag, "@HE" ) == 0 ) {
2312 sprintf( buf, "%i", (int)(tpars.heading) );
2313 strcat( &dum[0], &buf[0] );
2316 else if ( strcmp ( tag, "@VD" ) == 0 ) {
2318 if ( tpars.VDir == 1 ) {
2319 char buf[] = "Descend and maintain";
2320 strcat( &dum[0], &buf[0] );
2322 else if ( tpars.VDir == 2 ) {
2323 char buf[] = "Maintain";
2324 strcat( &dum[0], &buf[0] );
2326 else if ( tpars.VDir == 3 ) {
2327 char buf[] = "Climb and maintain";
2328 strcat( &dum[0], &buf[0] );
2332 else if ( strcmp ( tag, "@AL" ) == 0 ) {
2335 sprintf( buf, "%i", (int)(tpars.alt) );
2336 strcat( &dum[0], &buf[0] );
2339 else if ( strcmp ( tag, "@MI" ) == 0 ) {
2341 //sprintf( buf, "%3.1f", tpars.miles );
2342 int dist_miles = (int)dclGetHorizontalSeparation(Point3D(lon, lat, elev), Point3D(user_lon_node->getDoubleValue(), user_lat_node->getDoubleValue(), user_elev_node->getDoubleValue())) / 1600;
2343 sprintf(buf, "%i", dist_miles);
2344 strcat( &dum[0], &buf[0] );
2346 else if ( strcmp ( tag, "@FR" ) == 0 ) {
2349 sprintf( buf, "%6.2f", tpars.freq );
2350 strcat( &dum[0], &buf[0] );
2353 else if ( strcmp ( tag, "@RW" ) == 0 ) {
2354 strcat(&dum[0], ConvertRwyNumToSpokenString(activeRwy).c_str());
2355 } else if(strcmp(tag, "@CD") == 0) { // @CD = compass direction
2356 double h = GetHeadingFromTo(Point3D(lon, lat, elev), Point3D(user_lon_node->getDoubleValue(), user_lat_node->getDoubleValue(), user_elev_node->getDoubleValue()));
2357 while(h < 0.0) h += 360.0;
2358 while(h > 360.0) h -= 360.0;
2359 if(h < 22.5 || h > 337.5) {
2360 strcat(&dum[0], "North");
2361 } else if(h < 67.5) {
2362 strcat(&dum[0], "North-East");
2363 } else if(h < 112.5) {
2364 strcat(&dum[0], "East");
2365 } else if(h < 157.5) {
2366 strcat(&dum[0], "South-East");
2367 } else if(h < 202.5) {
2368 strcat(&dum[0], "South");
2369 } else if(h < 247.5) {
2370 strcat(&dum[0], "South-West");
2371 } else if(h < 292.5) {
2372 strcat(&dum[0], "West");
2374 strcat(&dum[0], "North-West");
2377 cout << "Tag " << tag << " not found" << endl;
2380 strcat( &dum[0], &mes[len+3] );
2381 strcpy( &mes[0], &dum[0] );
2385 SG_LOG(SG_ATC, SG_WARN, "WARNING: Possibly endless loop terminated in FGTransmissionlist::gen_text(...)");
2390 //cout << mes << endl;
2394 if ( mes != "" ) return mes;
2395 else return "No transmission found";
2398 ostream& operator << (ostream& os, tower_traffic_type ttt) {
2400 case(CIRCUIT): return(os << "CIRCUIT");
2401 case(INBOUND): return(os << "INBOUND");
2402 case(OUTBOUND): return(os << "OUTBOUND");
2403 case(TTT_UNKNOWN): return(os << "UNKNOWN");
2404 case(STRAIGHT_IN): return(os << "STRAIGHT_IN");
2406 return(os << "ERROR - Unknown switch in tower_traffic_type operator << ");