General tidy up - add an extra ctor method, remove surplus defined constants, remove cout and iostream
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daveluff
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9c28ed0257
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49b6bef6bb
2 changed files with 48 additions and 49 deletions
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@ -22,95 +22,93 @@
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#include <math.h>
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#include <simgear/constants.h>
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#include <iostream>
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SG_USING_STD(cout);
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#define DCL_PI 3.1415926535f
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//#define SG_PI ((SGfloat) M_PI)
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#define DCL_DEGREES_TO_RADIANS (DCL_PI/180.0)
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#define DCL_RADIANS_TO_DEGREES (180.0/DCL_PI)
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FGATCProjection::FGATCProjection() {
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origin.setlat(0.0);
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origin.setlon(0.0);
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origin.setelev(0.0);
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correction_factor = cos(origin.lat() * DCL_DEGREES_TO_RADIANS);
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_origin.setlat(0.0);
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_origin.setlon(0.0);
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_origin.setelev(0.0);
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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FGATCProjection::FGATCProjection(const Point3D& centre) {
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origin = centre;
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correction_factor = cos(origin.lat() * DCL_DEGREES_TO_RADIANS);
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_origin = centre;
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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FGATCProjection::~FGATCProjection() {
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}
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void FGATCProjection::Init(const Point3D& centre) {
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origin = centre;
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correction_factor = cos(origin.lat() * DCL_DEGREES_TO_RADIANS);
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_origin = centre;
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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Point3D FGATCProjection::ConvertToLocal(const Point3D& pt) {
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double delta_lat = pt.lat() - origin.lat();
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double delta_lon = pt.lon() - origin.lon();
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double delta_lat = pt.lat() - _origin.lat();
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double delta_lon = pt.lon() - _origin.lon();
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double y = sin(delta_lat * DCL_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M;
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double x = sin(delta_lon * DCL_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M * correction_factor;
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double y = sin(delta_lat * SG_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M;
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double x = sin(delta_lon * SG_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M * _correction_factor;
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return(Point3D(x,y,0.0));
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}
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Point3D FGATCProjection::ConvertFromLocal(const Point3D& pt) {
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double delta_lat = asin(pt.y() / SG_EQUATORIAL_RADIUS_M) * DCL_RADIANS_TO_DEGREES;
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double delta_lon = (asin(pt.x() / SG_EQUATORIAL_RADIUS_M) * DCL_RADIANS_TO_DEGREES) / correction_factor;
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double delta_lat = asin(pt.y() / SG_EQUATORIAL_RADIUS_M) * SG_RADIANS_TO_DEGREES;
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double delta_lon = (asin(pt.x() / SG_EQUATORIAL_RADIUS_M) * SG_RADIANS_TO_DEGREES) / _correction_factor;
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return(Point3D(origin.lon()+delta_lon, origin.lat()+delta_lat, 0.0));
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return(Point3D(_origin.lon()+delta_lon, _origin.lat()+delta_lat, 0.0));
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}
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/**********************************************************************************/
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FGATCAlignedProjection::FGATCAlignedProjection() {
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origin.setlat(0.0);
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origin.setlon(0.0);
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origin.setelev(0.0);
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correction_factor = cos(origin.lat() * DCL_DEGREES_TO_RADIANS);
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_origin.setlat(0.0);
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_origin.setlon(0.0);
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_origin.setelev(0.0);
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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FGATCAlignedProjection::FGATCAlignedProjection(const Point3D& centre, double heading) {
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_origin = centre;
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_theta = heading * SG_DEGREES_TO_RADIANS;
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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FGATCAlignedProjection::~FGATCAlignedProjection() {
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}
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void FGATCAlignedProjection::Init(const Point3D& centre, double heading) {
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origin = centre;
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theta = heading * DCL_DEGREES_TO_RADIANS;
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correction_factor = cos(origin.lat() * DCL_DEGREES_TO_RADIANS);
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_origin = centre;
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_theta = heading * SG_DEGREES_TO_RADIANS;
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_correction_factor = cos(_origin.lat() * SG_DEGREES_TO_RADIANS);
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}
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Point3D FGATCAlignedProjection::ConvertToLocal(const Point3D& pt) {
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// convert from lat/lon to orthogonal
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double delta_lat = pt.lat() - origin.lat();
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double delta_lon = pt.lon() - origin.lon();
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double y = sin(delta_lat * DCL_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M;
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double x = sin(delta_lon * DCL_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M * correction_factor;
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double delta_lat = pt.lat() - _origin.lat();
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double delta_lon = pt.lon() - _origin.lon();
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double y = sin(delta_lat * SG_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M;
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double x = sin(delta_lon * SG_DEGREES_TO_RADIANS) * SG_EQUATORIAL_RADIUS_M * _correction_factor;
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// Align
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if(_theta != 0.0) {
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double xbar = x;
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x = x*cos(theta) - y*sin(theta);
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y = (xbar*sin(theta)) + (y*cos(theta));
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x = x*cos(_theta) - y*sin(_theta);
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y = (xbar*sin(_theta)) + (y*cos(_theta));
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}
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return(Point3D(x,y,pt.elev()));
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}
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Point3D FGATCAlignedProjection::ConvertFromLocal(const Point3D& pt) {
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//cout << "theta = " << theta << '\n';
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//cout << "origin = " << origin << '\n';
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// de-align
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double thi = theta * -1.0;
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double thi = _theta * -1.0;
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double x = pt.x()*cos(thi) - pt.y()*sin(thi);
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double y = (pt.x()*sin(thi)) + (pt.y()*cos(thi));
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// convert from orthogonal to lat/lon
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double delta_lat = asin(y / SG_EQUATORIAL_RADIUS_M) * DCL_RADIANS_TO_DEGREES;
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double delta_lon = (asin(x / SG_EQUATORIAL_RADIUS_M) * DCL_RADIANS_TO_DEGREES) / correction_factor;
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double delta_lat = asin(y / SG_EQUATORIAL_RADIUS_M) * SG_RADIANS_TO_DEGREES;
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double delta_lon = (asin(x / SG_EQUATORIAL_RADIUS_M) * SG_RADIANS_TO_DEGREES) / _correction_factor;
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return(Point3D(origin.lon()+delta_lon, origin.lat()+delta_lat, pt.elev()));
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return(Point3D(_origin.lon()+delta_lon, _origin.lat()+delta_lat, pt.elev()));
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}
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@ -40,8 +40,8 @@ public:
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Point3D ConvertFromLocal(const Point3D& pt);
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private:
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Point3D origin; // lat/lon of local area origin
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double correction_factor; // Reduction in surface distance per degree of longitude due to latitude. Saves having to do a cos() every call.
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Point3D _origin; // lat/lon of local area origin
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double _correction_factor; // Reduction in surface distance per degree of longitude due to latitude. Saves having to do a cos() every call.
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};
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@ -52,6 +52,7 @@ class FGATCAlignedProjection {
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public:
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FGATCAlignedProjection();
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FGATCAlignedProjection(const Point3D& centre, double heading);
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~FGATCAlignedProjection();
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void Init(const Point3D& centre, double heading);
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@ -63,9 +64,9 @@ public:
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Point3D ConvertFromLocal(const Point3D& pt);
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private:
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Point3D origin; // lat/lon of local area origin (the threshold)
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double theta; // the rotation angle for alignment in radians
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double correction_factor; // Reduction in surface distance per degree of longitude due to latitude. Saves having to do a cos() every call.
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Point3D _origin; // lat/lon of local area origin (the threshold)
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double _theta; // the rotation angle for alignment in radians
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double _correction_factor; // Reduction in surface distance per degree of longitude due to latitude. Saves having to do a cos() every call.
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};
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