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flightgear/src/Navaids/navlist.cxx

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// navlist.cxx -- navaids management class
//
// Written by Curtis Olson, started April 2000.
//
// Copyright (C) 2000 Curtis L. Olson - http://www.flightgear.org/~curt
//
// 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
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// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <simgear/debug/logstream.hxx>
#include <simgear/misc/sgstream.hxx>
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#include <simgear/math/sg_geodesy.hxx>
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#include "navlist.hxx"
// Return true if the nav record matches the type
static bool isTypeMatch(const FGNavRecord* n, fg_nav_types type) {
switch(type) {
case FG_NAV_ANY: return(true);
case FG_NAV_VOR: return(n->get_type() == 3);
case FG_NAV_NDB: return(n->get_type() == 2);
case FG_NAV_ILS: return(n->get_type() == 4); // Note - very simplified, only matches loc as part of full ILS.
default: return false;
}
}
// FGNavList ------------------------------------------------------------------
FGNavList::FGNavList( void )
{
}
FGNavList::~FGNavList( void )
{
}
// load the navaids and build the map
bool FGNavList::init()
{
// FIXME: leaves all the individual navaid entries leaked
navaids.erase( navaids.begin(), navaids.end() );
navaids_by_tile.erase( navaids_by_tile.begin(), navaids_by_tile.end() );
ident_navaids.erase( ident_navaids.begin(), ident_navaids.end() );
return true;
}
// real add a marker beacon
static void real_add( nav_map_type &navmap, const int master_index,
FGNavRecord *n )
{
navmap[master_index].push_back( n );
}
// front end for add a marker beacon
static void tile_add( nav_map_type &navmap, FGNavRecord *n )
{
double diff;
double lon = n->get_lon();
double lat = n->get_lat();
int lonidx = (int)lon;
diff = lon - (double)lonidx;
if ( (lon < 0.0) && (fabs(diff) > SG_EPSILON) ) {
lonidx -= 1;
}
double lonfrac = lon - (double)lonidx;
lonidx += 180;
int latidx = (int)lat;
diff = lat - (double)latidx;
if ( (lat < 0.0) && (fabs(diff) > SG_EPSILON) ) {
latidx -= 1;
}
double latfrac = lat - (double)latidx;
latidx += 90;
int master_index = lonidx * 1000 + latidx;
// cout << "lonidx = " << lonidx << " latidx = " << latidx << " ";
// cout << "Master index = " << master_index << endl;
// add to the actual bucket
real_add( navmap, master_index, n );
// if we are close to the edge, add to adjacent buckets so we only
// have to search one bucket at run time
// there are 8 cases since there are 8 adjacent tiles
if ( lonfrac < 0.2 ) {
real_add( navmap, master_index - 1000, n );
if ( latfrac < 0.2 ) {
real_add( navmap, master_index - 1000 - 1, n );
} else if ( latfrac > 0.8 ) {
real_add( navmap, master_index - 1000 + 1, n );
}
} else if ( lonfrac > 0.8 ) {
real_add( navmap, master_index + 1000, n );
if ( latfrac < 0.2 ) {
real_add( navmap, master_index + 1000 - 1, n );
} else if ( latfrac > 0.8 ) {
real_add( navmap, master_index + 1000 + 1, n );
}
} else if ( latfrac < 0.2 ) {
real_add( navmap, master_index - 1, n );
} else if ( latfrac > 0.8 ) {
real_add( navmap, master_index + 1, n );
}
}
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// add an entry to the lists
bool FGNavList::add( FGNavRecord *n )
{
navaids[n->get_freq()].push_back(n);
ident_navaids[n->get_ident()].push_back(n);
tile_add( navaids_by_tile, n );
return true;
}
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FGNavRecord *FGNavList::findByFreq( double freq, double lon, double lat, double elev )
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{
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const nav_list_type& stations = navaids[(int)(freq*100.0 + 0.5)];
SGGeod geod = SGGeod::fromRadM(lon, lat, elev);
SGVec3d aircraft = SGVec3d::fromGeod(geod);
SG_LOG( SG_INSTR, SG_DEBUG, "findbyFreq " << freq << " size " << stations.size() );
return findNavFromList( aircraft, stations );
}
FGNavRecord *FGNavList::findByIdent( const char* ident,
const double lon, const double lat )
{
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const nav_list_type& stations = ident_navaids[ident];
SGGeod geod = SGGeod::fromRad(lon, lat);
SGVec3d aircraft = SGVec3d::fromGeod(geod);
return findNavFromList( aircraft, stations );
}
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nav_list_type FGNavList::findFirstByIdent( const string& ident, fg_nav_types type, bool exact)
{
nav_list_type n2;
n2.clear();
int iType;
if(type == FG_NAV_VOR) iType = 3;
else if(type == FG_NAV_NDB) iType = 2;
else return(n2);
nav_ident_map_iterator it;
if(exact) {
it = ident_navaids.find(ident);
} else {
bool typeMatch = false;
int safety_count = 0;
it = ident_navaids.lower_bound(ident);
while(!typeMatch) {
nav_list_type n0 = it->second;
// local copy, so we should be able to do anything with n0.
// Remove the types that don't match request.
for(nav_list_iterator it0 = n0.begin(); it0 != n0.end();) {
FGNavRecord* nv = *it0;
if(nv->get_type() == iType) {
typeMatch = true;
++it0;
} else {
it0 = n0.erase(it0);
}
}
if(typeMatch) {
return(n0);
}
if(it == ident_navaids.begin()) {
// We didn't find a match before reaching the beginning of the map
n0.clear();
return(n0);
}
safety_count++;
if(safety_count == 1000000) {
SG_LOG(SG_INSTR, SG_ALERT,
"safety_count triggered exit from while loop in findFirstByIdent!");
break;
}
++it;
if(it == ident_navaids.end()) {
n0.clear();
return(n0);
}
}
}
if(it == ident_navaids.end()) {
n2.clear();
return(n2);
} else {
nav_list_type n1 = it->second;
n2.clear();
for(nav_list_iterator it2 = n1.begin(); it2 != n1.end(); ++it2) {
FGNavRecord* nv = *it2;
if(nv->get_type() == iType) n2.push_back(nv);
}
return(n2);
}
}
// Given an Ident and optional freqency, return the first matching
// station.
FGNavRecord *FGNavList::findByIdentAndFreq( const char* ident, const double freq )
{
nav_list_type stations = ident_navaids[ident];
SG_LOG( SG_INSTR, SG_DEBUG, "findByIdent " << ident<< " size " << stations.size() );
if ( freq > 0.0 ) {
// sometimes there can be duplicated idents. If a freq is
// specified, use it to refine the search.
int f = (int)(freq*100.0 + 0.5);
for ( unsigned int i = 0; i < stations.size(); ++i ) {
if ( f == stations[i]->get_freq() ) {
return stations[i];
}
}
} else if (stations.size()) {
return stations[0];
}
return NULL;
}
// Given a point and a list of stations, return the closest one to the
// specified point.
FGNavRecord *FGNavList::findNavFromList( const SGVec3d &aircraft,
const nav_list_type &stations )
{
FGNavRecord *nav = NULL;
double d2; // in meters squared
double min_dist
= FG_NAV_MAX_RANGE*SG_NM_TO_METER*FG_NAV_MAX_RANGE*SG_NM_TO_METER;
// find the closest station within a sensible range (FG_NAV_MAX_RANGE)
for ( unsigned int i = 0; i < stations.size(); ++i ) {
// cout << "testing " << current->get_ident() << endl;
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d2 = distSqr(stations[i]->get_cart(), aircraft);
// cout << " dist = " << sqrt(d)
// << " range = " << current->get_range() * SG_NM_TO_METER
// << endl;
// LOC, ILS, GS, and DME antenna's could potentially be
// installed at the opposite end of the runway. So it's not
// enough to simply find the closest antenna with the right
// frequency. We need the closest antenna with the right
// frequency that is most oriented towards us. (We penalize
// stations that are facing away from us by adding 5000 meters
// which is further than matching stations would ever be
// placed from each other. (Do the expensive check only for
// directional atennas and only when there is a chance it is
// the closest station.)
if ( d2 < min_dist &&
(stations[i]->get_type() == 4 || stations[i]->get_type() == 5 ||
stations[i]->get_type() == 6 || stations[i]->get_type() == 12 ||
stations[i]->get_type() == 13) )
{
double hdg_deg = 0.0;
if ( stations[i]->get_type() == 4 || stations[i]->get_type() == 5 ){
hdg_deg = stations[i]->get_multiuse();
} else if ( stations[i]->get_type() == 6 ) {
int tmp = (int)(stations[i]->get_multiuse() / 1000.0);
hdg_deg = stations[i]->get_multiuse() - (tmp * 1000);
} else if ( stations[i]->get_type() == 12 ||
stations[i]->get_type() == 13 ) {
// oops, Robin's data format doesn't give us the
// needed information to compute a heading for a DME
// transmitter. FIXME Robin!
}
double az1 = 0.0, az2 = 0.0, s = 0.0;
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SGGeod geod = SGGeod::fromCart(aircraft);
geo_inverse_wgs_84( geod, stations[i]->get_pos(),
&az1, &az2, &s);
az1 = az1 - stations[i]->get_multiuse();
if ( az1 > 180.0) az1 -= 360.0;
if ( az1 < -180.0) az1 += 360.0;
// penalize opposite facing stations by adding 5000 meters
// (squared) which is further than matching stations would
// ever be placed from each other.
if ( fabs(az1) > 90.0 ) {
double dist = sqrt(d2);
d2 = (dist + 5000) * (dist + 5000);
}
}
if ( d2 < min_dist ) {
min_dist = d2;
nav = stations[i];
}
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}
return nav;
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}
// returns the closest entry to the give lon/lat/elev
FGNavRecord *FGNavList::findClosest( double lon_rad, double lat_rad,
double elev_m, fg_nav_types type)
{
FGNavRecord *result = NULL;
double diff;
double lon_deg = lon_rad * SG_RADIANS_TO_DEGREES;
double lat_deg = lat_rad * SG_RADIANS_TO_DEGREES;
int lonidx = (int)lon_deg;
diff = lon_deg - (double)lonidx;
if ( (lon_deg < 0.0) && (fabs(diff) > SG_EPSILON) ) {
lonidx -= 1;
}
lonidx += 180;
int latidx = (int)lat_deg;
diff = lat_deg - (double)latidx;
if ( (lat_deg < 0.0) && (fabs(diff) > SG_EPSILON) ) {
latidx -= 1;
}
latidx += 90;
int master_index = lonidx * 1000 + latidx;
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const nav_list_type& navs = navaids_by_tile[ master_index ];
// cout << "Master index = " << master_index << endl;
// cout << "beacon search length = " << beacons.size() << endl;
nav_list_const_iterator current = navs.begin();
nav_list_const_iterator last = navs.end();
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SGGeod geod = SGGeod::fromRadM(lon_rad, lat_rad, elev_m);
SGVec3d aircraft = SGVec3d::fromGeod(geod);
double min_dist = 999999999.0;
for ( ; current != last ; ++current ) {
if(isTypeMatch(*current, type)) {
// cout << " testing " << (*current)->get_ident() << endl;
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double d = distSqr((*current)->get_cart(), aircraft);
// cout << " distance = " << d << " ("
// << FG_ILS_DEFAULT_RANGE * SG_NM_TO_METER
// * FG_ILS_DEFAULT_RANGE * SG_NM_TO_METER
// << ")" << endl;
// cout << " range = " << sqrt(d) << endl;
if ( d < min_dist ) {
min_dist = d;
result = (*current);
}
}
}
// cout << "lon = " << lon << " lat = " << lat
// << " closest beacon = " << sqrt( min_dist ) << endl;
return result;
}
// Given a frequency, return the first matching station.
FGNavRecord *FGNavList::findStationByFreq( double freq )
{
const nav_list_type& stations = navaids[(int)(freq*100.0 + 0.5)];
SG_LOG( SG_INSTR, SG_DEBUG, "findStationByFreq " << freq << " size " << stations.size() );
if (stations.size()) {
return stations[0];
}
return NULL;
}
// FGTACANList ----------------------------------------------------------------
FGTACANList::FGTACANList( void )
{
}
FGTACANList::~FGTACANList( void )
{
}
bool FGTACANList::init()
{
return true;
}
// add an entry to the lists
bool FGTACANList::add( FGTACANRecord *c )
{
ident_channels[c->get_channel()].push_back(c);
return true;
}
// Given a TACAN Channel return the first matching frequency
FGTACANRecord *FGTACANList::findByChannel( const string& channel )
{
const tacan_list_type& stations = ident_channels[channel];
SG_LOG( SG_INSTR, SG_DEBUG, "findByChannel " << channel<< " size " << stations.size() );
if (stations.size()) {
return stations[0];
}
return NULL;
}