// dynamics.cxx - Code to manage the higher order airport ground activities
// Written by Durk Talsma, started December 2004.
//
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation; either version 2 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <algorithm>
#include <simgear/compiler.h>
#include <Environment/environment_mgr.hxx>
#include <Environment/environment.hxx>
#include <simgear/misc/sg_path.hxx>
#include <simgear/props/props.hxx>
#include <simgear/structure/subsystem_mgr.hxx>
#include <simgear/debug/logstream.hxx>
#include <simgear/route/waypoint.hxx>
#include <Main/globals.hxx>
#include <Main/fg_props.hxx>
#include <Airports/runways.hxx>
#include <ATCDCL/ATCutils.hxx>
#include <string>
#include <vector>
using std::string;
using std::vector;
using std::sort;
using std::random_shuffle;
#include "simple.hxx"
#include "dynamics.hxx"
FGAirportDynamics::FGAirportDynamics(FGAirport * ap):
_ap(ap), rwyPrefs(ap), SIDs(ap),
startupController (this),
towerController (this),
approachController (this),
atisSequenceIndex(-1),
atisSequenceTimeStamp(0.0)
{
lastUpdate = 0;
}
// Destructor
FGAirportDynamics::~FGAirportDynamics()
{
}
// Initialization required after XMLRead
void FGAirportDynamics::init()
{
// This may seem a bit weird to first randomly shuffle the parkings
// and then sort them again. However, parkings are sorted here by ascending
// radius. Since many parkings have similar radii, with each radius class they will
// still be allocated relatively systematically. Randomizing prior to sorting will
// prevent any initial orderings to be destroyed, leading (hopefully) to a more
// naturalistic gate assignment.
random_shuffle(parkings.begin(), parkings.end());
sort(parkings.begin(), parkings.end());
// add the gate positions to the ground network.
groundNetwork.setParent(_ap);
groundNetwork.addNodes(&parkings);
groundNetwork.init();
groundNetwork.setTowerController(&towerController);
}
bool FGAirportDynamics::getAvailableParking(double *lat, double *lon,
double *heading, int *gateId,
double rad,
const string & flType,
const string & acType,
const string & airline)
{
bool found = false;
bool available = false;
FGParkingVecIterator i;
if (parkings.begin() == parkings.end()) {
//cerr << "Could not find parking spot at " << _ap->getId() << endl;
*lat = _ap->getLatitude();
*lon = _ap->getLongitude();
*heading = 0;
found = true;
} else {
// First try finding a parking with a designated airline code
for (i = parkings.begin(); !(i == parkings.end() || found); i++) {
available = true;
// Taken by another aircraft
if (!(i->isAvailable())) {
available = false;
continue;
}
// No airline codes, so skip
if (i->getCodes().empty()) {
available = false;
continue;
} else { // Airline code doesn't match
//cerr << "Code = " << airline << ": Codes " << i->getCodes();
if (i->getCodes().find(airline, 0) == string::npos) {
available = false;
//cerr << "Unavailable" << endl;
continue;
} else {
//cerr << "Available" << endl;
}
}
// Type doesn't match
if (i->getType() != flType) {
available = false;
continue;
}
// too small
if (i->getRadius() < rad) {
available = false;
continue;
}
if (available) {
*lat = i->getLatitude();
*lon = i->getLongitude();
*heading = i->getHeading();
*gateId = i->getIndex();
i->setAvailable(false);
found = true;
}
}
// then try again for those without codes.
for (i = parkings.begin(); !(i == parkings.end() || found); i++) {
available = true;
if (!(i->isAvailable())) {
available = false;
continue;
}
if (!(i->getCodes().empty())) {
if ((i->getCodes().find(airline, 0) == string::npos)) {
available = false;
continue;
}
}
if (i->getType() != flType) {
available = false;
continue;
}
if (i->getRadius() < rad) {
available = false;
continue;
}
if (available) {
*lat = i->getLatitude();
*lon = i->getLongitude();
*heading = i->getHeading();
*gateId = i->getIndex();
i->setAvailable(false);
found = true;
}
}
// And finally once more if that didn't work. Now ignore the airline codes, as a last resort
for (i = parkings.begin(); !(i == parkings.end() || found); i++) {
available = true;
if (!(i->isAvailable())) {
available = false;
continue;
}
if (i->getType() != flType) {
available = false;
continue;
}
if (i->getRadius() < rad) {
available = false;
continue;
}
if (available) {
*lat = i->getLatitude();
*lon = i->getLongitude();
*heading = i->getHeading();
*gateId = i->getIndex();
i->setAvailable(false);
found = true;
}
}
}
if (!found) {
//cerr << "Traffic overflow at" << _ap->getId()
// << ". flType = " << flType
// << ". airline = " << airline
// << " Radius = " <<rad
// << endl;
*lat = _ap->getLatitude();
*lon = _ap->getLongitude();
*heading = 0;
*gateId = -1;
//exit(1);
}
return found;
}
void FGAirportDynamics::getParking(int id, double *lat, double *lon,
double *heading)
{
if (id < 0) {
*lat = _ap->getLatitude();
*lon = _ap->getLongitude();
*heading = 0;
} else {
FGParkingVecIterator i = parkings.begin();
for (i = parkings.begin(); i != parkings.end(); i++) {
if (id == i->getIndex()) {
*lat = i->getLatitude();
*lon = i->getLongitude();
*heading = i->getHeading();
}
}
}
}
FGParking *FGAirportDynamics::getParking(int id)
{
FGParkingVecIterator i = parkings.begin();
for (i = parkings.begin(); i != parkings.end(); i++) {
if (id == i->getIndex()) {
return &(*i);
}
}
return 0;
}
string FGAirportDynamics::getParkingName(int id)
{
FGParkingVecIterator i = parkings.begin();
for (i = parkings.begin(); i != parkings.end(); i++) {
if (id == i->getIndex()) {
return i->getName();
}
}
return string("overflow");
}
void FGAirportDynamics::releaseParking(int id)
{
if (id >= 0) {
FGParkingVecIterator i = parkings.begin();
for (i = parkings.begin(); i != parkings.end(); i++) {
if (id == i->getIndex()) {
i->setAvailable(true);
}
}
}
}
void FGAirportDynamics::setRwyUse(const FGRunwayPreference & ref)
{
rwyPrefs = ref;
//cerr << "Exiting due to not implemented yet" << endl;
//exit(1);
}
bool FGAirportDynamics::innerGetActiveRunway(const string & trafficType,
int action, string & runway,
double heading)
{
double windSpeed;
double windHeading;
double maxTail;
double maxCross;
string name;
string type;
if (!rwyPrefs.available()) {
return false;
}
RunwayGroup *currRunwayGroup = 0;
int nrActiveRunways = 0;
time_t dayStart = fgGetLong("/sim/time/utc/day-seconds");
if ((abs((long) (dayStart - lastUpdate)) > 600)
|| trafficType != prevTrafficType) {
landing.clear();
takeoff.clear();
lastUpdate = dayStart;
prevTrafficType = trafficType;
/*
FGEnvironment
stationweather =
((FGEnvironmentMgr *) globals->get_subsystem("environment"))
->getEnvironment(getLatitude(), getLongitude(),
getElevation());
*/
windSpeed = fgGetInt("/environment/metar/base-wind-speed-kt"); //stationweather.get_wind_speed_kt();
windHeading = fgGetInt("/environment/metar/base-wind-dir-deg");
//stationweather.get_wind_from_heading_deg();
string scheduleName;
//cerr << "finding active Runway for : " << _ap->getId() << endl;
//cerr << "Wind Heading : " << windHeading << endl;
//cerr << "Wind Speed : " << windSpeed << endl;
//cerr << "Nr of seconds since day start << " << dayStart << endl;
ScheduleTime *currSched;
//cerr << "A"<< endl;
currSched = rwyPrefs.getSchedule(trafficType.c_str());
if (!(currSched))
return false;
//cerr << "B"<< endl;
scheduleName = currSched->getName(dayStart);
maxTail = currSched->getTailWind();
maxCross = currSched->getCrossWind();
//cerr << "Current Schedule = : " << scheduleName << endl;
if (scheduleName.empty())
return false;
//cerr << "C"<< endl;
currRunwayGroup = rwyPrefs.getGroup(scheduleName);
//cerr << "D"<< endl;
if (!(currRunwayGroup))
return false;
nrActiveRunways = currRunwayGroup->getNrActiveRunways();
// Keep a history of the currently active runways, to ensure
// that an already established selection of runways will not
// be overridden once a more preferred selection becomes
// available as that can lead to random runway swapping.
if (trafficType == "com") {
currentlyActive = &comActive;
} else if (trafficType == "gen") {
currentlyActive = &genActive;
} else if (trafficType == "mil") {
currentlyActive = &milActive;
} else if (trafficType == "ul") {
currentlyActive = &ulActive;
}
//cerr << "Durrently active selection for " << trafficType << ": ";
for (stringVecIterator it = currentlyActive->begin();
it != currentlyActive->end(); it++) {
//cerr << (*it) << " ";
}
//cerr << endl;
currRunwayGroup->setActive(_ap,
windSpeed,
windHeading,
maxTail, maxCross, currentlyActive);
// Note that I SHOULD keep multiple lists in memory, one for
// general aviation, one for commercial and one for military
// traffic.
currentlyActive->clear();
nrActiveRunways = currRunwayGroup->getNrActiveRunways();
//cerr << "Choosing runway for " << trafficType << endl;
for (int i = 0; i < nrActiveRunways; i++) {
type = "unknown"; // initialize to something other than landing or takeoff
currRunwayGroup->getActive(i, name, type);
if (type == "landing") {
landing.push_back(name);
currentlyActive->push_back(name);
//cerr << "Landing " << name << endl;
}
if (type == "takeoff") {
takeoff.push_back(name);
currentlyActive->push_back(name);
//cerr << "takeoff " << name << endl;
}
}
//cerr << endl;
}
if (action == 1) // takeoff
{
int nr = takeoff.size();
if (nr) {
// Note that the randomization below, is just a placeholder to choose between
// multiple active runways for this action. This should be
// under ATC control.
runway = chooseRwyByHeading(takeoff, heading);
} else { // Fallback
runway = chooseRunwayFallback();
}
}
if (action == 2) // landing
{
int nr = landing.size();
if (nr) {
runway = chooseRwyByHeading(landing, heading);
} else { //fallback
runway = chooseRunwayFallback();
}
}
return true;
}
string FGAirportDynamics::chooseRwyByHeading(stringVec rwys,
double heading)
{
double bestError = 360.0;
double rwyHeading, headingError;
string runway;
for (stringVecIterator i = rwys.begin(); i != rwys.end(); i++) {
if (!_ap->hasRunwayWithIdent(*i)) {
SG_LOG(SG_ATC, SG_WARN, "chooseRwyByHeading: runway " << *i <<
" not found at " << _ap->ident());
continue;
}
FGRunway *rwy = _ap->getRunwayByIdent((*i));
rwyHeading = rwy->headingDeg();
headingError = fabs(heading - rwyHeading);
if (headingError > 180)
headingError = fabs(headingError - 360);
if (headingError < bestError) {
runway = (*i);
bestError = headingError;
}
}
//cerr << "Using active runway " << runway << " for heading " << heading << endl;
return runway;
}
void FGAirportDynamics::getActiveRunway(const string & trafficType,
int action, string & runway,
double heading)
{
bool ok = innerGetActiveRunway(trafficType, action, runway, heading);
if (!ok) {
runway = chooseRunwayFallback();
}
}
string FGAirportDynamics::chooseRunwayFallback()
{
FGRunway *rwy = _ap->getActiveRunwayForUsage();
return rwy->ident();
}
void FGAirportDynamics::addParking(FGParking & park)
{
parkings.push_back(park);
}
double FGAirportDynamics::getLatitude() const
{
return _ap->getLatitude();
}
double FGAirportDynamics::getLongitude() const
{
return _ap->getLongitude();
}
double FGAirportDynamics::getElevation() const
{
return _ap->getElevation();
}
const string & FGAirportDynamics::getId() const
{
return _ap->getId();
}
// Experimental: Return a different ground frequency depending on the leg of the
// Flight. Leg should always have a minimum value of two when this function is called.
// Note that in this scheme, the assignment of various frequencies to various ground
// operations is completely arbitrary. As such, is a short cut I need to take now,
// so that at least I can start working on assigning different frequencies to different
// operations.
int FGAirportDynamics::getGroundFrequency(unsigned leg)
{
//return freqGround.size() ? freqGround[0] : 0; };
cerr << "Getting frequency for : " << leg << endl;
int groundFreq = 0;
if (leg < 1) {
SG_LOG(SG_ATC, SG_ALERT,
"Leg value is smaller than one at " << SG_ORIGIN);
}
if (freqGround.size() == 0) {
return 0;
}
if ((freqGround.size() < leg) && (leg > 0)) {
groundFreq =
(freqGround.size() <
(leg - 1)) ? freqGround[freqGround.size() -
1] : freqGround[leg - 1];
}
if ((freqGround.size() >= leg) && (leg > 0)) {
groundFreq = freqGround[leg - 1];
}
return groundFreq;
}
int FGAirportDynamics::getTowerFrequency(unsigned nr)
{
int towerFreq = 0;
if (nr < 2) {
SG_LOG(SG_ATC, SG_ALERT,
"Leg value is smaller than two at " << SG_ORIGIN);
}
if (freqTower.size() == 0) {
return 0;
}
if ((freqTower.size() > nr - 1) && (nr > 1)) {
towerFreq = freqTower[nr - 1];
}
if ((freqTower.size() < nr - 1) && (nr > 1)) {
towerFreq =
(freqTower.size() <
(nr - 1)) ? freqTower[freqTower.size() -
1] : freqTower[nr - 2];
}
if ((freqTower.size() >= nr - 1) && (nr > 1)) {
towerFreq = freqTower[nr - 2];
}
return towerFreq;
}
FGAIFlightPlan *FGAirportDynamics::getSID(string activeRunway,
double heading)
{
return SIDs.getBest(activeRunway, heading);
}
const std::string FGAirportDynamics::getAtisSequence()
{
if (atisSequenceIndex == -1) {
updateAtisSequence(1, false);
}
return GetPhoneticLetter(atisSequenceIndex);
}
int FGAirportDynamics::updateAtisSequence(int interval, bool forceUpdate)
{
double now = globals->get_sim_time_sec();
if (atisSequenceIndex == -1) {
// first computation
atisSequenceTimeStamp = now;
atisSequenceIndex = rand() % LTRS; // random initial sequence letters
return atisSequenceIndex;
}
int steps = static_cast<int>((now - atisSequenceTimeStamp) / interval);
atisSequenceTimeStamp += (interval * steps);
if (forceUpdate && (steps == 0)) {
++steps; // a "special" ATIS update is required
}
atisSequenceIndex = (atisSequenceIndex + steps) % LTRS;
// return a huge value if no update occurred
return (atisSequenceIndex + (steps ? 0 : LTRS*1000));
}