// positioned.hxx - base class for objects which are positioned
//
// Copyright (C) 2008 James Turner
//
// 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.
//
// $Id$
#ifndef FG_POSITIONED_HXX
#define FG_POSITIONED_HXX
#include <cassert>
#include <string>
#include <vector>
#include <stdint.h>
#include <simgear/sg_inlines.h>
#include <simgear/structure/SGSharedPtr.hxx>
#include <simgear/math/SGMath.hxx>
class FGPositioned;
typedef SGSharedPtr<FGPositioned> FGPositionedRef;
typedef std::vector<FGPositionedRef> FGPositionedList;
typedef int64_t PositionedID;
typedef std::vector<PositionedID> PositionedIDVec;
namespace flightgear { class NavDataCache; }
class FGPositioned : public SGReferenced
{
public:
static const PositionedID TRANSIENT_ID;
typedef enum {
INVALID = 0,
AIRPORT,
HELIPORT,
SEAPORT,
RUNWAY,
HELIPAD,
TAXIWAY,
PAVEMENT,
WAYPOINT,
FIX,
NDB,
VOR,
ILS,
LOC,
GS,
OM,
MM,
IM,
/// important that DME & TACAN are adjacent to keep the TacanFilter
/// efficient - DMEs are proxies for TACAN/VORTAC stations
DME,
TACAN,
MOBILE_TACAN,
OBSTACLE,
/// an actual airport tower - not a radio comms facility!
/// some airports have multiple towers, eg EHAM, although our data source
/// doesn't necessarily include them
TOWER,
FREQ_GROUND,
FREQ_TOWER,
FREQ_ATIS,
FREQ_AWOS,
FREQ_APP_DEP,
FREQ_ENROUTE,
FREQ_CLEARANCE,
FREQ_UNICOM,
// groundnet items
PARKING, ///< parking position - might be a gate, or stand
TAXI_NODE,
// POI items
COUNTRY,
CITY,
TOWN,
VILLAGE,
LAST_TYPE
} Type;
virtual ~FGPositioned();
Type type() const
{ return mType; }
const char* typeString() const
{ return nameForType(mType); }
const std::string& ident() const
{ return mIdent; }
/**
* Return the name of this positioned. By default this is the same as the
* ident, but for many derived classes it's more meaningful - the aiport or
* navaid name, for example.
*/
virtual const std::string& name() const
{ return mIdent; }
virtual const SGGeod& geod() const
{ return mPosition; }
PositionedID guid() const
{ return mGuid; }
/**
* The cartesian position associated with this object
*/
virtual const SGVec3d& cart() const;
double latitude() const
{ return geod().getLatitudeDeg(); }
double longitude() const
{ return geod().getLongitudeDeg(); }
double elevation() const
{ return geod().getElevationFt(); }
double elevationM() const
{ return geod().getElevationM(); }
/**
* Predicate class to support custom filtering of FGPositioned queries
* Default implementation of this passes any FGPositioned instance.
*/
class Filter
{
public:
virtual ~Filter() { ; }
/**
* Over-rideable filter method. Default implementation returns true.
*/
virtual bool pass(FGPositioned* aPos) const
{ return true; }
virtual Type minType() const
{ return INVALID; }
virtual Type maxType() const
{ return INVALID; }
bool operator()(FGPositioned* aPos) const
{ return pass(aPos); }
};
class TypeFilter : public Filter
{
public:
TypeFilter(Type aTy = INVALID);
virtual bool pass(FGPositioned* aPos) const;
virtual Type minType() const
{ return mMinType; }
virtual Type maxType() const
{ return mMaxType; }
void addType(Type aTy);
static TypeFilter fromString(const std::string& aFilterSpec);
private:
std::vector<Type> types;
Type mMinType, mMaxType;
};
static FGPositionedList findWithinRange(const SGGeod& aPos, double aRangeNm, Filter* aFilter);
static FGPositionedList findWithinRangePartial(const SGGeod& aPos, double aRangeNm, Filter* aFilter, bool& aPartial);
static FGPositionedRef findClosestWithIdent(const std::string& aIdent, const SGGeod& aPos, Filter* aFilter = NULL);
static FGPositionedRef findFirstWithIdent(const std::string& aIdent, Filter* aFilter);
/**
* Find all items with the specified ident
* @param aFilter - optional filter on items
*/
static FGPositionedList findAllWithIdent(const std::string& aIdent, Filter* aFilter = NULL, bool aExact = true);
/**
* As above, but searches names instead of idents
*/
static FGPositionedList findAllWithName(const std::string& aName, Filter* aFilter = NULL, bool aExact = true);
/**
* Sort an FGPositionedList by distance from a position
*/
static void sortByRange(FGPositionedList&, const SGGeod& aPos);
/**
* Find the closest item to a position, which pass the specified filter
* A cutoff range in NM must be specified, to constrain the search acceptably.
* Very large cutoff values will make this slow.
*
* @result The closest item passing the filter, or NULL
* @param aCutoffNm - maximum distance to search within, in nautical miles
*/
static FGPositionedRef findClosest(const SGGeod& aPos, double aCutoffNm, Filter* aFilter = NULL);
/**
* Find the closest N items to a position, which pass the specified filter
* A cutoff range in NM must be specified, to constrain the search acceptably.
* Very large cutoff values will make this slow.
*
* @result The matches (possibly less than N, depending on the filter and cutoff),
* sorted by distance from the search pos
* @param aN - number of matches to find
* @param aCutoffNm - maximum distance to search within, in nautical miles
*/
static FGPositionedList findClosestN(const SGGeod& aPos, unsigned int aN, double aCutoffNm, Filter* aFilter = NULL);
/**
* Same as above, but with a time-bound in msec too.
*/
static FGPositionedList findClosestNPartial(const SGGeod& aPos, unsigned int aN, double aCutoffNm, Filter* aFilter,
bool& aPartial);
template<class T>
static SGSharedPtr<T> loadById(PositionedID id)
{
return static_pointer_cast<T>( loadByIdImpl(id) );
}
template<class T>
static SGSharedPtr<T> loadById(const PositionedIDVec& id_vec, size_t index)
{
assert(index >= 0 && index < id_vec.size());
return loadById<T>(id_vec[index]);
}
template<class T>
static std::vector<SGSharedPtr<T> > loadAllById(const PositionedIDVec& id_vec)
{
std::vector<SGSharedPtr<T> > vec(id_vec.size());
for(size_t i = 0; i < id_vec.size(); ++i)
vec[i] = loadById<T>(id_vec[i]);
return vec;
}
/**
* Map a candidate type string to a real type. Returns INVALID if the string
* does not correspond to a defined type.
*/
static Type typeFromName(const std::string& aName);
/**
* Map a type to a human-readable string
*/
static const char* nameForType(Type aTy);
static FGPositioned* createUserWaypoint(const std::string& aIdent, const SGGeod& aPos);
static bool deleteUserWaypoint(const std::string& aIdent);
protected:
friend class flightgear::NavDataCache;
FGPositioned(PositionedID aGuid, Type ty, const std::string& aIdent, const SGGeod& aPos);
void modifyPosition(const SGGeod& newPos);
void invalidatePosition();
static FGPositionedRef loadByIdImpl(PositionedID id);
const PositionedID mGuid;
const Type mType;
const std::string mIdent;
private:
SG_DISABLE_COPY(FGPositioned);
const SGGeod mPosition;
const SGVec3d mCart;
};
#endif // of FG_POSITIONED_HXX