// airwaynet.hxx - A number of classes to handle taxiway // assignments by the AI code // // Written by Durk Talsma. Based upon the ground netword code, started June 2005. // // Copyright (C) 2004 Durk Talsma. // // 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. // // $Id$ #ifndef _AIRWAYNETWORK_HXX_ #define _AIRWAYNETWORK_HXX_ #include STL_STRING #include #include #include #include #include #include //#include "parking.hxx" class FGAirway; // forward reference typedef std::vector FGAirwayVector; typedef std::vector FGAirwayPointerVector; typedef std::vector::iterator FGAirwayVectorIterator; typedef std::vector::iterator FGAirwayPointerVectorIterator; /************************************************************************************** * class FGNode *************************************************************************************/ class FGNode { private: std::string ident; double lat; double lon; int index; FGAirwayPointerVector next; // a vector to all the segments leaving from this node public: FGNode(); FGNode(double lt, double ln, int idx, std::string id) { lat = lt; lon = ln; index = idx; ident = id;}; void setIndex(int idx) { index = idx;}; void setLatitude (double val) { lat = val;}; void setLongitude(double val) { lon = val;}; //void setLatitude (const std::string& val) { lat = processPosition(val); }; //void setLongitude(const std::string& val) { lon = processPosition(val); }; void addAirway(FGAirway *segment) { next.push_back(segment); }; double getLatitude() { return lat;}; double getLongitude(){ return lon;}; int getIndex() { return index; }; std::string getIdent() { return ident; }; FGNode *getAddress() { return this;}; FGAirwayPointerVectorIterator getBeginRoute() { return next.begin(); }; FGAirwayPointerVectorIterator getEndRoute() { return next.end(); }; bool matches(std::string ident, double lat, double lon); }; typedef std::vector FGNodeVector; typedef std::vector::iterator FGNodeVectorIterator; typedef std::map < std::string, FGNode *> node_map; typedef node_map::iterator node_map_iterator; typedef node_map::const_iterator const_node_map_iterator; /*************************************************************************************** * class FGAirway **************************************************************************************/ class FGAirway { private: std::string startNode; std::string endNode; double length; FGNode *start; FGNode *end; int index; int type; // 1=low altitude; 2=high altitude airway int base; // base altitude int top; // top altitude std::string name; public: FGAirway(); FGAirway(FGNode *, FGNode *, int); void setIndex (int val) { index = val; }; void setStartNodeRef (std::string val) { startNode = val; }; void setEndNodeRef (std::string val) { endNode = val; }; void setStart(node_map *nodes); void setEnd (node_map *nodes); void setType (int tp) { type = tp;}; void setBase (int val) { base = val;}; void setTop (int val) { top = val;}; void setName (std::string val) { name = val;}; void setTrackDistance(); FGNode * getEnd() { return end;}; double getLength() { if (length == 0) setTrackDistance(); return length; }; int getIndex() { return index; }; std::string getName() { return name; }; }; typedef std::vector intVec; typedef std::vector::iterator intVecIterator; typedef std::vector::const_iterator constIntVecIterator; class FGAirRoute { private: intVec nodes; double distance; intVecIterator currNode; public: FGAirRoute() { distance = 0; currNode = nodes.begin(); }; FGAirRoute(intVec nds, double dist) { nodes = nds; distance = dist; currNode = nodes.begin();}; bool operator< (const FGAirRoute &other) const {return distance < other.distance; }; bool empty () { return nodes.begin() == nodes.end(); }; bool next(int *val); void first() { currNode = nodes.begin(); }; void add(const FGAirRoute &other); void add(int node) {nodes.push_back(node);}; friend std::istream& operator >> (std::istream& in, FGAirRoute& r); }; inline std::istream& operator >> ( std::istream& in, FGAirRoute& r ) { int node; in >> node; r.nodes.push_back(node); //getline( in, n.name ); return in; } typedef std::vector AirRouteVector; typedef std::vector::iterator AirRouteVectorIterator; /************************************************************************************** * class FGAirwayNetwork *************************************************************************************/ class FGAirwayNetwork { private: bool hasNetwork; node_map nodesMap; FGNodeVector nodes; FGAirwayVector segments; //intVec route; intVec traceStack; AirRouteVector routes; bool foundRoute; double totalDistance, maxDistance; public: FGAirwayNetwork(); ~FGAirwayNetwork(); //void addNode (const FGNode& node); //void addNodes (FGParkingVec *parkings); void addAirway(const FGAirway& seg); void init(); bool exists() { return hasNetwork; }; int findNearestNode(double lat, double lon); FGNode *findNode(int idx); FGAirRoute findShortestRoute(int start, int end); void trace(FGNode *, int, int, double dist); void load(SGPath path); }; #endif