QGCGeo.cc 2.76 KB
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/****************************************************************************
 *
 *   (c) 2009-2016 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>
 *
 * QGroundControl is licensed according to the terms in the file
 * COPYING.md in the root of the source code directory.
 *
 ****************************************************************************/
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#include <cmath>
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#include <limits>
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#include "QGCGeo.h"

// These defines are private
#define M_DEG_TO_RAD (M_PI / 180.0)

#define M_RAD_TO_DEG (180.0 / M_PI)

#define CONSTANTS_ONE_G					9.80665f		/* m/s^2		*/
#define CONSTANTS_AIR_DENSITY_SEA_LEVEL_15C		1.225f			/* kg/m^3		*/
#define CONSTANTS_AIR_GAS_CONST				287.1f 			/* J/(kg * K)		*/
#define CONSTANTS_ABSOLUTE_NULL_CELSIUS			-273.15f		/* °C			*/
#define CONSTANTS_RADIUS_OF_EARTH			6371000			/* meters (m)		*/

static const float epsilon = std::numeric_limits<double>::epsilon();

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void convertGeoToNed(QGeoCoordinate coord, QGeoCoordinate origin, double* x, double* y, double* z) {
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    double lat_rad = coord.latitude() * M_DEG_TO_RAD;
    double lon_rad = coord.longitude() * M_DEG_TO_RAD;

    double ref_lon_rad = origin.longitude() * M_DEG_TO_RAD;
    double ref_lat_rad = origin.latitude() * M_DEG_TO_RAD;

    double sin_lat = sin(lat_rad);
    double cos_lat = cos(lat_rad);
    double cos_d_lon = cos(lon_rad - ref_lon_rad);

    double ref_sin_lat = sin(ref_lat_rad);
    double ref_cos_lat = cos(ref_lat_rad);

    double c = acos(ref_sin_lat * sin_lat + ref_cos_lat * cos_lat * cos_d_lon);
    double k = (fabs(c) < epsilon) ? 1.0 : (c / sin(c));

    *x = k * (ref_cos_lat * sin_lat - ref_sin_lat * cos_lat * cos_d_lon) * CONSTANTS_RADIUS_OF_EARTH;
    *y = k * cos_lat * sin(lon_rad - ref_lon_rad) * CONSTANTS_RADIUS_OF_EARTH;

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    *z = -(coord.altitude() - origin.altitude());
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}

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void convertNedToGeo(double x, double y, double z, QGeoCoordinate origin, QGeoCoordinate *coord) {
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    double x_rad = x / CONSTANTS_RADIUS_OF_EARTH;
    double y_rad = y / CONSTANTS_RADIUS_OF_EARTH;
    double c = sqrtf(x_rad * x_rad + y_rad * y_rad);
    double sin_c = sin(c);
    double cos_c = cos(c);

    double ref_lon_rad = origin.longitude() * M_DEG_TO_RAD;
    double ref_lat_rad = origin.latitude() * M_DEG_TO_RAD;

    double ref_sin_lat = sin(ref_lat_rad);
    double ref_cos_lat = cos(ref_lat_rad);

    double lat_rad;
    double lon_rad;

    if (fabs(c) > epsilon) {
        lat_rad = asin(cos_c * ref_sin_lat + (x_rad * sin_c * ref_cos_lat) / c);
        lon_rad = (ref_lon_rad + atan2(y_rad * sin_c, c * ref_cos_lat * cos_c - x_rad * ref_sin_lat * sin_c));

    } else {
        lat_rad = ref_lat_rad;
        lon_rad = ref_lon_rad;
    }

    coord->setLatitude(lat_rad * M_RAD_TO_DEG);
    coord->setLongitude(lon_rad * M_RAD_TO_DEG);

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    coord->setAltitude(-z + origin.altitude());
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}