flightgear/src/ATC/approach.hxx

// approach.hxx -- Approach class
//
// Written by Alexander Kappes, started March 2002.
//
// Copyright (C) 2002  Alexander Kappes
//
// 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.


#ifndef _FG_APPROACH_HXX
#define _FG_APPROACH_HXX

#include <stdio.h>

#include <simgear/compiler.h>
#include <simgear/math/sg_geodesy.hxx>
#include <simgear/misc/sgstream.hxx>
#include <simgear/magvar/magvar.hxx>
#include <simgear/timing/sg_time.hxx>
#include <simgear/bucket/newbucket.hxx>

#include <Main/fg_props.hxx>

#ifdef SG_HAVE_STD_INCLUDES
#  include <istream>
#include <iomanip>
#elif defined( SG_HAVE_NATIVE_SGI_COMPILERS )
#  include <iostream.h>
#elif defined( __BORLANDC__ ) || (__APPLE__)
#  include <iostream>
#else
#  include <istream.h>
#include <iomanip.h>
#endif

#if ! defined( SG_HAVE_NATIVE_SGI_COMPILERS )
SG_USING_STD(istream);
#endif

SG_USING_STD(string);

#include "ATC.hxx"

//DCL - a complete guess for now.
#define FG_APPROACH_DEFAULT_RANGE 100

// Contains all information about a plane that the approach control needs
const int max_planes = 20;  // max number of planes on the stack
const int max_wp = 10;      // max number of waypoints for approach phase
struct PlaneApp {

  // variables for plane if it's on the radar
  string ident;          // indentification of plane
  double lon;            // longitude in degrees
  double lat;            // latitude in degrees
  double alt;            // Altitute above sea level in feet
  double hdg;            // heading of plane in degrees
  double dist;           // distance to airport in miles
  double brg;            // bearing relative to airport in degrees
  double spd;            // speed above ground
  int    contact;        // contact with approach established?
                         // 0 = no contact yet
                         // 1 = in contact
                         // 2 = handed off to tower

  // additional variables if contact has been established
  int    wpn;                 // number of waypoints
  double wpts[max_wp][6];     // assigned waypoints for approach phase 
                              // first wp in list is airport
                              // last waypoint point at which contact was established
                              // second index: 0 = bearing to airport
                              // second index: 1 = distance to aiport
                              // second index: 2 = alt 
                              // second index: 3 = ETA
                              // second index: 4 = heading to next waypoint
                              // second index: 5 = distance to next waypoint

  double dnwp;           // distance to next waypoint
  double dcc;            // closest distance to current assigned course
  double dnc;            // closest distance to course from next to next to next wp
  double aalt;           // assigned alt at next waypoint
  double ahdg;           // assigned heading
  bool   on_crs;         // is the plane on course?
  double tlm;            // time when last message was sent

  PlaneApp(void);
};


class FGApproach : public FGATC {

  char     type;
  double   lon, lat;
  double   elev;
  double   x, y, z;
  int      freq;
  int      bucket;
  double   range;

  string active_runway;         
  double active_rw_hdg;

  bool     display;		// Flag to indicate whether we should be outputting to the display.
  bool     displaying;	        // Flag to indicate whether we are outputting to the display.
  string   ident;		// Code of the airport its at.
  string   name;		// Name transmitted in the broadcast.
  int      num_planes;          // number of planes on the stack
  PlaneApp planes[max_planes];  // Array of planes
  string   transmission;
  bool     first;

  SGPropertyNode *comm1_node;
  SGPropertyNode *comm2_node;

  // for failure modeling
  string trans_ident;	// transmitted ident
  bool approach_failed;	// approach failed?

public:

  FGApproach(void);
  ~FGApproach(void);

  void Init();

  void Update();

  // Add new plane to stack if not already registered 
  // Input:  pid - id of plane (name) 
  // Output: "true" if added; "false" if already existend
  void AddPlane(string pid);

  // Remove plane from stack if out of range
  int RemovePlane();
  
  //Indicate that this instance should be outputting to the ATC display
  inline void SetDisplay(void) {display = true;}
  
  //Indicate that this instance should not be outputting to the ATC display
  inline void SetNoDisplay(void) {display = false;}
  
  inline char get_type() const { return type; }
  inline double get_lon() const { return lon; }
  inline double get_lat() const { return lat; }
  inline double get_elev() const { return elev; }
  inline double get_x() const { return x; }
  inline double get_y() const { return y; }
  inline double get_z() const { return z; }
  inline double get_bucket() const { return bucket; }
  inline int get_freq() const { return freq; }
  inline double get_range() const { return range; }
  inline int get_pnum() const { return num_planes; }
  inline const char* GetIdent() { return ident.c_str(); }
  inline string get_trans_ident() { return trans_ident; }
  inline string get_name() { return name; }
  inline atc_type GetType() { return APPROACH; }
  
private:

  void update_plane_dat();

  void get_active_runway();

// ========================================================================
// get heading and distance between two points; point2 ---> point1
// input: point1 = heading in degrees, distance
// input: point2 = heading in degrees, distance
// ouput: course in degrees, distance
// ========================================================================
  void calc_hd_course_dist(const double &h1, const double &d1,
			   const double &h2, const double &d2,
			   double *course, double *dist);

// ========================================================================
// closest distance between a point and a straigt line in 2 dim.
// the input variables are given in (heading, distance) 
// relative to a common point
// input:  point        = heading in degrees, distance
// input:  straigt line = anker vector (heading in degrees, distance), 
//                        heading of direction vector
// output: distance
// ========================================================================
  double calc_psl_dist(const double &h1, const double &d1,
		       const double &h2, const double &d2,
		       const double &h3);

  // Pointers to current users position
  SGPropertyNode *lon_node;
  SGPropertyNode *lat_node;
  SGPropertyNode *elev_node;
  
  //Update the transmission string
  void UpdateTransmission(void);
  
  friend istream& operator>> ( istream&, FGApproach& );
};


inline istream&
operator >> ( istream& in, FGApproach& a )
{
    double f;
    char ch;

    static bool first_time = true;
    static double julian_date = 0;
    static const double MJD0    = 2415020.0;
    if ( first_time ) {
	julian_date = sgTimeCurrentMJD(0, 0) + MJD0;
	first_time = false;
    }

    in >> a.type;
    
    if ( a.type == '[' )
      return in >> skipeol;

    in >> a.lat >> a.lon >> a.elev >> f >> a.range 
       >> a.ident;

    a.name = "";
    in >> ch;
    a.name += ch;
    while(1) {
	//in >> noskipws
	in.unsetf(ios::skipws);
	in >> ch;
	a.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 "
    }
    in.setf(ios::skipws);
    //cout << "approach.name = " << a.name << '\n';

    a.freq = (int)(f*100.0 + 0.5);

    // generate cartesian coordinates
    Point3D geod( a.lon * SGD_DEGREES_TO_RADIANS , a.lat * SGD_DEGREES_TO_RADIANS, 
		  a.elev * SG_FEET_TO_METER );
    Point3D cart = sgGeodToCart( geod );
    a.x = cart.x();
    a.y = cart.y();
    a.z = cart.z();

    // get bucket number
    SGBucket buck(a.lon, a.lat);
    a.bucket = buck.gen_index();

    a.trans_ident = a.ident;
    a.approach_failed = false;

    return in >> skipeol;
}

#endif // _FG_APPROACH_HXX
Attached are a fairly extensive series of patches to the ATC system. A chap from Germany called Alexander Kappes (cc'd) got in touch with me a few weeks ago and has written the start of Approach control. At the moment tuning in to a valid approach frequency (Dortmund or East Midlands) should result in vectors to a spot about 3 miles from the active runway, and a telling off if you stray too far from the correct course, in the console window. He seems to know what he's doing so expect this to improve rapidly!! I've added a rudimentry AI manager and a hardwired Cessna at KEMT on the runway - I'll remove it before the next release if I don't have it flying by then. There seems to be an issue with framerate which drops alarmingly when looking at it - I've a feeling that I've possibly created several Cessnas on top of each other, but am not sure. 2002-04-03 23:54:44 +00:00			`// approach.hxx -- Approach class`
			`//`
			`// Written by Alexander Kappes, started March 2002.`
			`//`
			`// Copyright (C) 2002 Alexander Kappes`
			`//`
			`// 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.`


			`#ifndef _FG_APPROACH_HXX`
			`#define _FG_APPROACH_HXX`

			`#include <stdio.h>`

			`#include <simgear/compiler.h>`
			`#include <simgear/math/sg_geodesy.hxx>`
			`#include <simgear/misc/sgstream.hxx>`
			`#include <simgear/magvar/magvar.hxx>`
			`#include <simgear/timing/sg_time.hxx>`
			`#include <simgear/bucket/newbucket.hxx>`

			`#include <Main/fg_props.hxx>`

			`#ifdef SG_HAVE_STD_INCLUDES`
			`# include <istream>`
			`#include <iomanip>`
			`#elif defined( SG_HAVE_NATIVE_SGI_COMPILERS )`
			`# include <iostream.h>`
Mac OS X fixes and MSVC warning fixes from Jonathan Polley. 2002-05-10 23:35:06 +00:00			`#elif defined( __BORLANDC__ ) \|\| (__APPLE__)`
Attached are a fairly extensive series of patches to the ATC system. A chap from Germany called Alexander Kappes (cc'd) got in touch with me a few weeks ago and has written the start of Approach control. At the moment tuning in to a valid approach frequency (Dortmund or East Midlands) should result in vectors to a spot about 3 miles from the active runway, and a telling off if you stray too far from the correct course, in the console window. He seems to know what he's doing so expect this to improve rapidly!! I've added a rudimentry AI manager and a hardwired Cessna at KEMT on the runway - I'll remove it before the next release if I don't have it flying by then. There seems to be an issue with framerate which drops alarmingly when looking at it - I've a feeling that I've possibly created several Cessnas on top of each other, but am not sure. 2002-04-03 23:54:44 +00:00			`# include <iostream>`
			`#else`
			`# include <istream.h>`
			`#include <iomanip.h>`
			`#endif`

			`#if ! defined( SG_HAVE_NATIVE_SGI_COMPILERS )`
			`SG_USING_STD(istream);`
			`#endif`

			`SG_USING_STD(string);`

			`#include "ATC.hxx"`

			`//DCL - a complete guess for now.`
			`#define FG_APPROACH_DEFAULT_RANGE 100`

			`// Contains all information about a plane that the approach control needs`
			`const int max_planes = 20; // max number of planes on the stack`
			`const int max_wp = 10; // max number of waypoints for approach phase`
			`struct PlaneApp {`

			`// variables for plane if it's on the radar`
			`string ident; // indentification of plane`
			`double lon; // longitude in degrees`
			`double lat; // latitude in degrees`
			`double alt; // Altitute above sea level in feet`
			`double hdg; // heading of plane in degrees`
			`double dist; // distance to airport in miles`
			`double brg; // bearing relative to airport in degrees`
			`double spd; // speed above ground`
			`int contact; // contact with approach established?`
			`// 0 = no contact yet`
			`// 1 = in contact`
			`// 2 = handed off to tower`

			`// additional variables if contact has been established`
			`int wpn; // number of waypoints`
			`double wpts[max_wp][6]; // assigned waypoints for approach phase`
			`// first wp in list is airport`
			`// last waypoint point at which contact was established`
			`// second index: 0 = bearing to airport`
			`// second index: 1 = distance to aiport`
			`// second index: 2 = alt`
			`// second index: 3 = ETA`
			`// second index: 4 = heading to next waypoint`
			`// second index: 5 = distance to next waypoint`

			`double dnwp; // distance to next waypoint`
			`double dcc; // closest distance to current assigned course`
			`double dnc; // closest distance to course from next to next to next wp`
			`double aalt; // assigned alt at next waypoint`
			`double ahdg; // assigned heading`
			`bool on_crs; // is the plane on course?`
			`double tlm; // time when last message was sent`
Patch from Melchior Franz: This patch eliminates about 10 of valgrind's "Use of uninitialised value of size ..." messages. They are all caused by approachlist building incomplete FGApproach class instances and then copying them into the approchlist container, hence copying data garbage. I know, I couldn't win a beauty contest with this patch, but the alternative approach -- letting operator<< always leave complete entries -- didn't look any better. And I do only add those seemingly useless initialization where the values would be used uninitialized else. The constructors are only run during setup and won't slow fgfs down at runtime. 2002-06-28 19:14:42 +00:00
			`PlaneApp(void);`
Attached are a fairly extensive series of patches to the ATC system. A chap from Germany called Alexander Kappes (cc'd) got in touch with me a few weeks ago and has written the start of Approach control. At the moment tuning in to a valid approach frequency (Dortmund or East Midlands) should result in vectors to a spot about 3 miles from the active runway, and a telling off if you stray too far from the correct course, in the console window. He seems to know what he's doing so expect this to improve rapidly!! I've added a rudimentry AI manager and a hardwired Cessna at KEMT on the runway - I'll remove it before the next release if I don't have it flying by then. There seems to be an issue with framerate which drops alarmingly when looking at it - I've a feeling that I've possibly created several Cessnas on top of each other, but am not sure. 2002-04-03 23:54:44 +00:00			`};`


			`class FGApproach : public FGATC {`

			`char type;`
			`double lon, lat;`
			`double elev;`
			`double x, y, z;`
			`int freq;`
			`int bucket;`
			`double range;`

			`string active_runway;`
			`double active_rw_hdg;`

			`bool display; // Flag to indicate whether we should be outputting to the display.`
			`bool displaying; // Flag to indicate whether we are outputting to the display.`
			`string ident; // Code of the airport its at.`
			`string name; // Name transmitted in the broadcast.`
			`int num_planes; // number of planes on the stack`
			`PlaneApp planes[max_planes]; // Array of planes`
			`string transmission;`
			`bool first;`

			`SGPropertyNode *comm1_node;`
			`SGPropertyNode *comm2_node;`

			`// for failure modeling`
			`string trans_ident; // transmitted ident`
			`bool approach_failed; // approach failed?`

			`public:`

			`FGApproach(void);`
			`~FGApproach(void);`

			`void Init();`

			`void Update();`

			`// Add new plane to stack if not already registered`
			`// Input: pid - id of plane (name)`
			`// Output: "true" if added; "false" if already existend`
			`void AddPlane(string pid);`

			`// Remove plane from stack if out of range`
			`int RemovePlane();`

			`//Indicate that this instance should be outputting to the ATC display`
			`inline void SetDisplay(void) {display = true;}`

			`//Indicate that this instance should not be outputting to the ATC display`
			`inline void SetNoDisplay(void) {display = false;}`

			`inline char get_type() const { return type; }`
			`inline double get_lon() const { return lon; }`
			`inline double get_lat() const { return lat; }`
			`inline double get_elev() const { return elev; }`
			`inline double get_x() const { return x; }`
			`inline double get_y() const { return y; }`
			`inline double get_z() const { return z; }`
			`inline double get_bucket() const { return bucket; }`
			`inline int get_freq() const { return freq; }`
			`inline double get_range() const { return range; }`
			`inline int get_pnum() const { return num_planes; }`
			`inline const char* GetIdent() { return ident.c_str(); }`
			`inline string get_trans_ident() { return trans_ident; }`
			`inline string get_name() { return name; }`
			`inline atc_type GetType() { return APPROACH; }`

			`private:`

			`void update_plane_dat();`

			`void get_active_runway();`

			`// ========================================================================`
			`// get heading and distance between two points; point2 ---> point1`
			`// input: point1 = heading in degrees, distance`
			`// input: point2 = heading in degrees, distance`
			`// ouput: course in degrees, distance`
			`// ========================================================================`
			`void calc_hd_course_dist(const double &h1, const double &d1,`
			`const double &h2, const double &d2,`
			`double course, double dist);`

			`// ========================================================================`
			`// closest distance between a point and a straigt line in 2 dim.`
			`// the input variables are given in (heading, distance)`
			`// relative to a common point`
			`// input: point = heading in degrees, distance`
			`// input: straigt line = anker vector (heading in degrees, distance),`
			`// heading of direction vector`
			`// output: distance`
			`// ========================================================================`
			`double calc_psl_dist(const double &h1, const double &d1,`
			`const double &h2, const double &d2,`
			`const double &h3);`

			`// Pointers to current users position`
			`SGPropertyNode *lon_node;`
			`SGPropertyNode *lat_node;`
			`SGPropertyNode *elev_node;`

			`//Update the transmission string`
			`void UpdateTransmission(void);`

			`friend istream& operator>> ( istream&, FGApproach& );`
			`};`


			`inline istream&`
			`operator >> ( istream& in, FGApproach& a )`
			`{`
			`double f;`
			`char ch;`

			`static bool first_time = true;`
			`static double julian_date = 0;`
			`static const double MJD0 = 2415020.0;`
			`if ( first_time ) {`
			`julian_date = sgTimeCurrentMJD(0, 0) + MJD0;`
			`first_time = false;`
			`}`

			`in >> a.type;`

			`if ( a.type == '[' )`
			`return in >> skipeol;`

			`in >> a.lat >> a.lon >> a.elev >> f >> a.range`
			`>> a.ident;`

			`a.name = "";`
			`in >> ch;`
			`a.name += ch;`
			`while(1) {`
			`//in >> noskipws`
			`in.unsetf(ios::skipws);`
			`in >> ch;`
			`a.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 "`
			`}`
			`in.setf(ios::skipws);`
			`//cout << "approach.name = " << a.name << '\n';`

			`a.freq = (int)(f*100.0 + 0.5);`

			`// generate cartesian coordinates`
			`Point3D geod( a.lon * SGD_DEGREES_TO_RADIANS , a.lat * SGD_DEGREES_TO_RADIANS,`
			`a.elev * SG_FEET_TO_METER );`
			`Point3D cart = sgGeodToCart( geod );`
			`a.x = cart.x();`
			`a.y = cart.y();`
			`a.z = cart.z();`

			`// get bucket number`
			`SGBucket buck(a.lon, a.lat);`
			`a.bucket = buck.gen_index();`

			`a.trans_ident = a.ident;`
			`a.approach_failed = false;`

			`return in >> skipeol;`
			`}`

- fixed ANSI C++ namespace problems - added final newlines to files to avoid compiler warnings - adjusted for FG_NEW_ENVIRONMENT 2002-04-04 01:32:00 +00:00			`#endif // _FG_APPROACH_HXX`