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flightgear/src/ATC/ground.cxx

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// FGGround - a class to provide ground control at larger airports.
//
// Written by David Luff, started March 2002.
//
// Copyright (C) 2002 David C. Luff - david.luff@nottingham.ac.uk
//
// 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., 675 Mass Ave, Cambridge, MA 02139, USA.
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <simgear/misc/sg_path.hxx>
#include <simgear/math/sg_random.h>
#include <simgear/debug/logstream.hxx>
#include <simgear/misc/sgstream.hxx>
#include <simgear/constants.h>
#include <Main/globals.hxx>
#include <stdlib.h>
#include STL_FSTREAM
#include "ground.hxx"
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#include "ATCmgr.hxx"
#include "ATCutils.hxx"
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#include "ATCdisplay.hxx"
#include "AILocalTraffic.hxx"
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SG_USING_STD(ifstream);
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SG_USING_STD(cout);
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node::node() {
}
node::~node() {
for(unsigned int i=0; i < arcs.size(); ++i) {
delete arcs[i];
}
}
// Make sure that a_path.cost += distance is safe from the moment it's created.
a_path::a_path() {
cost = 0;
}
FGGround::FGGround() {
ATCmgr = globals->get_ATC_mgr();
_type = GROUND;
networkLoadOK = false;
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ground_traffic.erase(ground_traffic.begin(), ground_traffic.end());
ground_traffic_itr = ground_traffic.begin();
// Init the property nodes - TODO - need to make sure we're getting surface winds.
wind_from_hdg = fgGetNode("/environment/wind-from-heading-deg", true);
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wind_speed_knots = fgGetNode("/environment/wind-speed-kt", true);
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// TODO - get the actual airport elevation
aptElev = 0.0;
}
FGGround::FGGround(const string& id) {
ATCmgr = globals->get_ATC_mgr();
networkLoadOK = false;
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ground_traffic.erase(ground_traffic.begin(), ground_traffic.end());
ground_traffic_itr = ground_traffic.begin();
ident = id;
// Init the property nodes - TODO - need to make sure we're getting surface winds.
wind_from_hdg = fgGetNode("/environment/wind-from-heading-deg", true);
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wind_speed_knots = fgGetNode("/environment/wind-speed-kt", true);
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// TODO - get the actual airport elevation
aptElev = 0.0;
}
FGGround::~FGGround() {
}
void FGGround::ParseRwyExits(node* np, char* es) {
char* token;
char estr[20];
strcpy(estr, es);
const char delimiters[] = "-";
token = strtok(estr, delimiters);
while(token != NULL) {
int i = atoi(token);
//cout << "token = " << token << endl;
//cout << "rwy number = " << i << endl;
//runways[(atoi(token))].exits.push_back(np);
runways[i].exits.push_back(np);
//cout << "token = " << token << '\n';
token = strtok(NULL, delimiters);
}
}
// Load the ground logical network of the current instances airport
// Return true if successfull.
// TODO - currently the file is assumed to reside in the base/ATC directory.
// This might change to something more thought out in the future.
// NOTE - currently it is assumed that all nodes are loaded before any arcs.
// It won't work ATM if this doesn't hold true.
bool FGGround::LoadNetwork() {
node* np;
arc* ap;
Gate* gp;
int gateCount = 0; // This is used to allocate gateID's from zero upwards
// This may well change in the future - probably to reading in the real-world
// gate numbers from file.
ifstream fin;
SGPath path = globals->get_fg_root();
//string taxiPath = "ATC/" + ident + ".taxi";
string taxiPath = "ATC/KEMT.taxi"; // FIXME - HARDWIRED FOR TESTING
path.append(taxiPath);
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SG_LOG(SG_ATC, SG_INFO, "Trying to read taxiway data for " << ident << "...");
//cout << "Trying to read taxiway data for " << ident << "..." << endl;
fin.open(path.c_str(), ios::in);
if(!fin) {
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SG_LOG(SG_ATC, SG_ALERT, "Unable to open taxiway data input file " << path.c_str());
//cout << "Unable to open taxiway data input file " << path.c_str() << endl;
return(false);
}
char ch;
char buf[30];
while(!fin.eof()) {
fin >> buf;
// Node, arc, or [End]?
//cout << "Read in ground network element type = " << buf << endl;
if(!strcmp(buf, "[End]")) { // TODO - maybe make this more robust to spelling errors by just looking for '['
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SG_LOG(SG_ATC, SG_INFO, "Done reading " << path.c_str() << endl);
break;
} else if(!strcmp(buf, "N")) {
// Node
np = new node;
np->struct_type = NODE;
fin >> buf;
np->nodeID = atoi(buf);
fin >> buf;
np->pos.setlon(atof(buf));
fin >> buf;
np->pos.setlat(atof(buf));
fin >> buf;
np->pos.setelev(atof(buf));
fin >> buf; // node type
if(!strcmp(buf, "J")) {
np->type = JUNCTION;
} else if(!strcmp(buf, "T")) {
np->type = TJUNCTION;
} else if(!strcmp(buf, "H")) {
np->type = HOLD;
} else {
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SG_LOG(SG_ATC, SG_ALERT, "**** ERROR ***** Unknown node type in taxi network...\n");
delete np;
return(false);
}
fin >> buf; // rwy exit information - gets parsed later - FRAGILE - will break if buf is reused.
// Now the name
fin >> ch; // strip the leading " off
np->name = "";
while(1) {
fin.unsetf(ios::skipws);
fin >> ch;
if((ch == '"') || (ch == 0x0A)) {
break;
} // we shouldn't need the 0x0A but it makes a nice safely in case someone leaves off the "
np->name += ch;
}
fin.setf(ios::skipws);
network.push_back(np);
// FIXME - fragile - replies on buf not getting modified from exits read to here
// see if we also need to push it onto the runway exit list
//cout << "strlen(buf) = " << strlen(buf) << endl;
if(strlen(buf) > 2) {
//cout << "Calling ParseRwyExits for " << buf << endl;
ParseRwyExits(np, buf);
}
} else if(!strcmp(buf, "A")) {
ap = new arc;
ap->struct_type = ARC;
fin >> buf;
ap->n1 = atoi(buf);
fin >> buf;
ap->n2 = atoi(buf);
fin >> buf;
if(!strcmp(buf, "R")) {
ap->type = RUNWAY;
} else if(!strcmp(buf, "T")) {
ap->type = TAXIWAY;
} else {
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SG_LOG(SG_ATC, SG_ALERT, "**** ERROR ***** Unknown arc type in taxi network...\n");
delete ap;
return(false);
}
// directed?
fin >> buf;
if(!strcmp(buf, "Y")) {
ap->directed = true;
} else if(!strcmp(buf, "N")) {
ap->directed = false;
} else {
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SG_LOG(SG_ATC, SG_ALERT, "**** ERROR ***** Unknown arc directed value in taxi network - should be Y/N !!!\n");
delete ap;
return(false);
}
// Now the name
ap->name = "";
while(1) {
fin.unsetf(ios::skipws);
fin >> ch;
ap->name += ch;
if((ch == '"') || (ch == 0x0A)) {
break;
} // we shouldn't need the 0x0A but it makes a nice safely in case someone leaves off the "
}
fin.setf(ios::skipws);
ap->distance = (int)dclGetHorizontalSeparation(network[ap->n1]->pos, network[ap->n2]->pos);
//cout << "Distance = " << ap->distance << '\n';
network[ap->n1]->arcs.push_back(ap);
network[ap->n2]->arcs.push_back(ap);
} else if(!strcmp(buf, "G")) {
gp = new Gate;
gp->struct_type = NODE;
gp->type = GATE;
fin >> buf;
gp->nodeID = atoi(buf);
fin >> buf;
gp->pos.setlon(atof(buf));
fin >> buf;
gp->pos.setlat(atof(buf));
fin >> buf;
gp->pos.setelev(atof(buf));
fin >> buf; // gate type - ignore this for now
fin >> buf; // gate heading
gp->heading = atoi(buf);
// Now the name
gp->name = "";
while(1) {
fin.unsetf(ios::skipws);
fin >> ch;
gp->name += ch;
if((ch == '"') || (ch == 0x0A)) {
break;
} // we shouldn't need the 0x0A but it makes a nice safely in case someone leaves off the "
}
fin.setf(ios::skipws);
gp->id = gateCount; // Warning - this will likely change in the future.
gp->used = false;
network.push_back(gp);
gates[gateCount] = gp;
gateCount++;
} else {
// Something has gone seriously pear-shaped
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SG_LOG(SG_ATC, SG_ALERT, "********* ERROR - unknown ground network element type... aborting read of " << path.c_str() << '\n');
return(false);
}
fin >> skipeol;
}
return(true);
}
void FGGround::Init() {
untowered = false;
// Figure out which is the active runway - TODO - it would be better to have ground call tower
// for runway operation details, but at the moment we can't guarantee that tower control at a given airport
// will be initialised before ground so we can't do that.
DoRwyDetails();
//cout << "In FGGround::Init, active rwy is " << activeRwy << '\n';
ortho.Init(rwy.threshold_pos, rwy.hdg);
networkLoadOK = LoadNetwork();
}
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void FGGround::Update(double dt) {
// Each time step, what do we need to do?
// We need to go through the list of outstanding requests and acknowedgements
// and process at least one of them.
// We need to go through the list of planes under our control and check if
// any need to be addressed.
// We need to check for planes not under our control coming within our
// control area and address if necessary.
// Lets take the example of a plane which has just contacted ground
// following landing - presumably requesting where to go?
// First we need to establish the position of the plane within the logical network.
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// Next we need to decide where its going.
if(ground_traffic.size()) {
if(ground_traffic_itr == ground_traffic.end()) {
ground_traffic_itr = ground_traffic.begin();
}
//Process(*ground_traffic_itr);
GroundRec* g = *ground_traffic_itr;
if(g->taxiRequestOutstanding) {
double responseTime = 10.0; // seconds - this should get more sophisticated at some point
if(g->clearanceCounter > responseTime) {
// DO CLEARANCE
// TODO - move the mechanics of making up the transmission out of the main Update(...) routine.
string trns = "";
trns += g->plane.callsign;
trns += " taxi holding point runway "; // TODO - add the holding point name
// eg " taxi holding point G2 runway "
trns += ConvertRwyNumToSpokenString(activeRwy);
if(_display) {
fgSetString("/sim/messages/ground", trns.c_str());
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globals->get_ATC_display()->RegisterSingleMessage(trns, 0);
}
g->planePtr->RegisterTransmission(1); // cleared to taxi
g->clearanceCounter = 0.0;
g->taxiRequestOutstanding = false;
} else {
g->clearanceCounter += (dt * ground_traffic.size());
}
} else if(((FGAILocalTraffic*)(g->planePtr))->AtHoldShort()) { // That's a hack - eventually we should monitor actual position
// HACK ALERT - the automatic cast to AILocalTraffic has to go once we have other sorts working!!!!! FIXME TODO
// NOTE - we don't need to do the contact tower bit unless we have separate tower and ground
string trns = g->plane.callsign;
trns += " contact Tower ";
double f = globals->get_ATC_mgr()->GetFrequency(ident, TOWER) / 100.0;
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char buf[10];
sprintf(buf, "%.2f", f);
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trns += buf;
if(_display) {
fgSetString("/sim/messages/ground", trns.c_str());
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globals->get_ATC_display()->RegisterSingleMessage(trns, 0);
}
g->planePtr->RegisterTransmission(2); // contact tower
delete *ground_traffic_itr;
ground_traffic.erase(ground_traffic_itr);
ground_traffic_itr = ground_traffic.begin();
}
++ground_traffic_itr;
}
// Call the base class update for the response time handling.
FGATC::Update(dt);
}
// Figure out which runways are active.
// For now we'll just be simple and do one active runway - eventually this will get much more complex
// Copied from FGTower - TODO - it would be better to implement this just once, and have ground call tower
// for runway operation details, but at the moment we can't guarantee that tower control at a given airport
// will be initialised before ground so we can't do that.
void FGGround::DoRwyDetails() {
//cout << "GetRwyDetails called" << endl;
// Based on the airport-id and wind get the active runway
//wind
double hdg = wind_from_hdg->getDoubleValue();
double speed = wind_speed_knots->getDoubleValue();
hdg = (speed == 0.0 ? 270.0 : hdg);
//cout << "Heading = " << hdg << '\n';
FGRunway runway;
bool rwyGood = globals->get_runways()->search(ident, int(hdg), &runway);
if(rwyGood) {
activeRwy = runway._rwy_no;
rwy.rwyID = runway._rwy_no;
SG_LOG(SG_ATC, SG_INFO, "In FGGround, active runway for airport " << ident << " is " << activeRwy);
// Get the threshold position
double other_way = runway._heading - 180.0;
while(other_way <= 0.0) {
other_way += 360.0;
}
// move to the +l end/center of the runway
//cout << "Runway center is at " << runway._lon << ", " << runway._lat << '\n';
Point3D origin = Point3D(runway._lon, runway._lat, aptElev);
Point3D ref = origin;
double tshlon, tshlat, tshr;
double tolon, tolat, tor;
rwy.length = runway._length * SG_FEET_TO_METER;
geo_direct_wgs_84 ( aptElev, ref.lat(), ref.lon(), other_way,
rwy.length / 2.0 - 25.0, &tshlat, &tshlon, &tshr );
geo_direct_wgs_84 ( aptElev, ref.lat(), ref.lon(), runway._heading,
rwy.length / 2.0 - 25.0, &tolat, &tolon, &tor );
// Note - 25 meters in from the runway end is a bit of a hack to put the plane ahead of the user.
// now copy what we need out of runway into rwy
rwy.threshold_pos = Point3D(tshlon, tshlat, aptElev);
Point3D takeoff_end = Point3D(tolon, tolat, aptElev);
//cout << "Threshold position = " << tshlon << ", " << tshlat << ", " << aptElev << '\n';
//cout << "Takeoff position = " << tolon << ", " << tolat << ", " << aptElev << '\n';
rwy.hdg = runway._heading;
// Set the projection for the local area based on this active runway
ortho.Init(rwy.threshold_pos, rwy.hdg);
rwy.end1ortho = ortho.ConvertToLocal(rwy.threshold_pos); // should come out as zero
rwy.end2ortho = ortho.ConvertToLocal(takeoff_end);
} else {
SG_LOG(SG_ATC, SG_ALERT, "Help - can't get good runway in FGTower!!");
activeRwy = "NN";
}
}
// Return a random gate ID of an unused gate.
// Two error values may be returned and must be checked for by the calling function:
// -2 signifies that no gates exist at this airport.
// -1 signifies that all gates are currently full.
int FGGround::GetRandomGateID() {
// Check that this airport actually has some gates!!
if(!gates.size()) {
return(-2);
}
gate_vec_type gateVec;
int num = 0;
int thenum;
int ID;
gatesItr = gates.begin();
while(gatesItr != gates.end()) {
if((gatesItr->second)->used == false) {
gateVec.push_back(gatesItr->second);
num++;
}
++gatesItr;
}
// Check that there are some unused gates!
if(!gateVec.size()) {
return(-1);
}
// Randomly select one from the list
sg_srandom_time();
thenum = (int)(sg_random() * gateVec.size());
ID = gateVec[thenum]->id;
return(ID);
}
// Return a pointer to an unused gate node
Gate* FGGround::GetGateNode() {
int id = GetRandomGateID();
if(id < 0) {
return(NULL);
} else {
return(gates[id]);
}
}
node* FGGround::GetHoldShortNode(const string& rwyID) {
return(NULL); // TODO - either implement me or remove me!!!
}
// WARNING - This is hardwired to my prototype logical network format
// and will almost certainly change when Bernie's stuff comes on-line.
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// Returns NULL if it can't find a valid node.
node* FGGround::GetThresholdNode(const string& rwyID) {
// For now go through all the nodes and parse their names
// Maybe in the future we'll map threshold nodes by ID
//cout << "Size of network is " << network.size() << '\n';
for(unsigned int i=0; i<network.size(); ++i) {
//cout << "Name = " << network[i]->name << '\n';
if(network[i]->name.size()) {
string s = network[i]->name;
// Warning - the next bit is fragile and dependent on my current naming scheme
//cout << "substr = " << s.substr(0,3) << '\n';
//cout << "size of s = " << s.size() << '\n';
if(s.substr(0,3) == "rwy") {
//cout << "subsubstr = " << s.substr(4, s.size() - 4) << '\n';
if(s.substr(4, s.size() - 4) == rwyID) {
return network[i];
}
}
}
}
return NULL;
}
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// Get a path from a point on a runway to a gate
// TODO !!
// Get a path from a node to another node
// Eventually we will need complex algorithms for this taking other traffic,
// shortest path and suitable paths into accout.
// For now we'll just call the shortest path algorithm.
ground_network_path_type FGGround::GetPath(node* A, node* B) {
return(GetShortestPath(A, B));
};
// Get a path from a node to a runway threshold
ground_network_path_type FGGround::GetPath(node* A, const string& rwyID) {
node* b = GetThresholdNode(rwyID);
if(b == NULL) {
SG_LOG(SG_ATC, SG_ALERT, "ERROR - unable to find path to runway theshold in ground.cxx for airport " << ident << '\n');
ground_network_path_type emptyPath;
emptyPath.erase(emptyPath.begin(), emptyPath.end());
return(emptyPath);
}
return GetShortestPath(A, b);
}
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// Get a path from a node to a runway hold short point
// Bit of a hack this at the moment!
ground_network_path_type FGGround::GetPathToHoldShort(node* A, const string& rwyID) {
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ground_network_path_type path = GetPath(A, rwyID);
path.pop_back(); // That should be the threshold stripped of
path.pop_back(); // and that should be the arc from hold short to threshold
// This isn't robust though - TODO - implement properly!
return(path);
}
// A shortest path algorithm from memory (ie. I can't find the bl&*dy book again!)
// I'm sure there must be enchancements that we can make to this, such as biasing the
// order in which the nodes are searched out from in favour of those geographically
// closer to the destination.
// Note that we are working with the master set of nodes and arcs so we mustn't change
// or delete them - we only delete the paths that we create during the algorithm.
ground_network_path_type FGGround::GetShortestPath(node* A, node* B) {
a_path* pathPtr;
shortest_path_map_type pathMap;
node_array_type nodesLeft;
// Debugging check
int pathsCreated = 0;
// Initialise the algorithm
nodesLeft.push_back(A);
pathPtr = new a_path;
pathsCreated++;
pathPtr->path.push_back(A);
pathPtr->cost = 0;
pathMap[A->nodeID] = pathPtr;
bool solution_found = false; // Flag to indicate that at least one candidate path has been found
int solution_cost = -1; // Cost of current best cost solution. -1 indicates no solution found yet.
a_path solution_path;
node* nPtr; // nPtr is used to point to the node we are currently working with
while(nodesLeft.size()) {
//cout << "\n*****nodesLeft*****\n";
//for(unsigned int i=0; i<nodesLeft.size(); ++i) {
//cout << nodesLeft[i]->nodeID << '\n';
//}
//cout << "*******************\n\n";
nPtr = *nodesLeft.begin(); // Thought - definate optimization possibilities here in the choice of which nodes we process first.
nodesLeft.erase(nodesLeft.begin());
//cout << "Walking out from node " << nPtr->nodeID << '\n';
for(unsigned int i=0; i<nPtr->arcs.size(); ++i) {
//cout << "ARC TO " << ((nPtr->arcs[i]->n1 == nPtr->nodeID) ? nPtr->arcs[i]->n2 : nPtr->arcs[i]->n1) << '\n';
}
if((solution_found) && (solution_cost <= pathMap[nPtr->nodeID]->cost)) {
// Do nothing - we've already found a solution and this partial path is already more expensive
} else {
// This path could still be better than the current solution - check it out
for(unsigned int i=0; i<(nPtr->arcs.size()); i++) {
// Map the new path against the end node, ie. *not* the one we just started with.
unsigned int end_nodeID = ((nPtr->arcs[i]->n1 == nPtr->nodeID) ? nPtr->arcs[i]->n2 : nPtr->arcs[i]->n1);
//cout << "end_nodeID = " << end_nodeID << '\n';
//cout << "pathMap size is " << pathMap.size() << '\n';
if(end_nodeID == nPtr->nodeID) {
//cout << "Circular arc!\n";
// Then its a circular arc - don't bother!!
//nPtr->arcs.erase(nPtr->arcs.begin() + i);
} else {
// see if the end node is already in the map or not
if(pathMap.find(end_nodeID) == pathMap.end()) {
//cout << "Not in the map" << endl;;
// Not in the map - easy!
pathPtr = new a_path;
pathsCreated++;
*pathPtr = *pathMap[nPtr->nodeID]; // *copy* the path
pathPtr->path.push_back(nPtr->arcs[i]);
pathPtr->path.push_back(network[end_nodeID]);
pathPtr->cost += nPtr->arcs[i]->distance;
pathMap[end_nodeID] = pathPtr;
nodesLeft.push_back(network[end_nodeID]); // By definition this can't be in the list already, or
// it would also have been in the map and hence OR'd with this one.
if(end_nodeID == B->nodeID) {
//cout << "Solution found!!!" << endl;
// Since this node wasn't in the map this is by definition the first solution
solution_cost = pathPtr->cost;
solution_path = *pathPtr;
solution_found = true;
}
} else {
//cout << "Already in the map" << endl;
// In the map - not so easy - need to get rid of an arc from the higher cost one.
//cout << "Current cost of node " << end_nodeID << " is " << pathMap[end_nodeID]->cost << endl;
int newCost = pathMap[nPtr->nodeID]->cost + nPtr->arcs[i]->distance;
//cout << "New cost is of node " << nPtr->nodeID << " is " << newCost << endl;
if(newCost >= pathMap[end_nodeID]->cost) {
// No need to do anything.
//cout << "Not doing anything!" << endl;
} else {
delete pathMap[end_nodeID];
pathsCreated--;
pathPtr = new a_path;
pathsCreated++;
*pathPtr = *pathMap[nPtr->nodeID]; // *copy* the path
pathPtr->path.push_back(nPtr->arcs[i]);
pathPtr->path.push_back(network[end_nodeID]);
pathPtr->cost += nPtr->arcs[i]->distance;
pathMap[end_nodeID] = pathPtr;
// We need to add this node to the list-to-do again to force a recalculation
// onwards from this node with the new lower cost to node cost.
nodesLeft.push_back(network[end_nodeID]);
if(end_nodeID == B->nodeID) {
//cout << "Solution found!!!" << endl;
// Need to check if there is a previous better solution
if((solution_cost < 0) || (pathPtr->cost < solution_cost)) {
solution_cost = pathPtr->cost;
solution_path = *pathPtr;
solution_found = true;
}
}
}
}
}
}
}
}
// delete all the paths before returning
shortest_path_map_iterator spItr = pathMap.begin();
while(spItr != pathMap.end()) {
if(spItr->second != NULL) {
delete spItr->second;
--pathsCreated;
}
++spItr;
}
//cout << "pathsCreated = " << pathsCreated << '\n';
if(pathsCreated > 0) {
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SG_LOG(SG_ATC, SG_ALERT, "WARNING - Possible memory leak in FGGround::GetShortestPath\n\
Please report to flightgear-devel@flightgear.org\n");
}
//cout << (solution_found ? "Result: solution found\n" : "Result: no solution found\n");
return(solution_path.path); // TODO - we really ought to have a fallback position incase a solution isn't found.
}
// Randomly or otherwise populate some of the gates with parked planes
// (might eventually be done by the AIMgr if and when lots of AI traffic is generated)
// Return a list of exits from a given runway
// It is up to the calling function to check for non-zero size of returned array before use
node_array_type FGGround::GetExits(const string& rwyID) {
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// FIXME - get a 07L or similar in here and we're stuffed!!!
return(runways[atoi(rwyID.c_str())].exits);
}
void FGGround::RequestDeparture(const PlaneRec& plane, FGAIEntity* requestee) {
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// For now we'll just automatically clear all planes to the runway hold.
// This communication needs to be delayed 20 sec or so from receiving the request.
// Even if display=false we still need to start the timer in case display=true when communication starts.
// We also need to bear in mind we also might have other outstanding communications, although for now we'll punt that issue!
// FIXME - sort the above!
// HACK - assume that anything requesting departure is new for now - FIXME LATER
GroundRec* g = new GroundRec;
g->plane = plane;
g->planePtr = requestee;
g->taxiRequestOutstanding = true;
g->clearanceCounter = 0;
g->cleared = false;
g->incoming = false;
// TODO - need to handle the next 3 as well
//Point3D current_pos;
//node* destination;
//node* last_clearance;
ground_traffic.push_back(g);
}
#if 0
void FGGround::NewArrival(plane_rec plane) {
// What are we going to do here?
// We need to start a new ground_rec and add the plane_rec to it
// We need to decide what gate we are going to clear it to.
// Then we need to add clearing it to that gate to the pending transmissions queue? - or simply transmit?
// Probably simply transmit for now and think about a transmission queue later if we need one.
// We might need one though in order to add a little delay for response time.
ground_rec* g = new ground_rec;
g->plane_rec = plane;
g->current_pos = ConvertWGS84ToXY(plane.pos);
g->node = GetNode(g->current_pos); // TODO - might need to sort out node/arc here
AssignGate(g);
g->cleared = false;
ground_traffic.push_back(g);
NextClearance(g);
}
void FGGround::NewContact(plane_rec plane) {
// This is a bit of a convienience function at the moment and is likely to change.
if(at a gate or apron)
NewDeparture(plane);
else
NewArrival(plane);
}
void FGGround::NextClearance(ground_rec &g) {
// Need to work out where we can clear g to.
// Assume the pilot doesn't need progressive instructions
// We *should* already have a gate or holding point assigned by the time we get here
// but it wouldn't do any harm to check.
// For now though we will hardwire it to clear to the final destination.
}
void FGGround::AssignGate(ground_rec &g) {
// We'll cheat for now - since we only have the user's aircraft and a couple of airports implemented
// we'll hardwire the gate!
// In the long run the logic of which gate or area to send the plane to could be somewhat non-trivial.
}
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#endif //0