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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "geo_gcd.h"
namespace search::common {
namespace {
// in km, as defined by IUGG, see:
// https://en.wikipedia.org/wiki/Earth_radius#Mean_radius
static constexpr double earth_mean_radius = 6371.0088;
static constexpr double degrees_to_radians = M_PI / 180.0;
// with input in radians
double greatCircleDistance(double theta_A, double phi_A,
double theta_B, double phi_B)
{
// convert to radians:
double theta_diff = theta_A - theta_B;
double phi_diff = phi_A - phi_B;
// haversines of differences:
double hav_theta = GeoGcd::haversine(theta_diff);
double hav_phi = GeoGcd::haversine(phi_diff);
// haversine of central angle between the two points:
double hav_central_angle = hav_theta + cos(theta_A)*cos(theta_B)*hav_phi;
// sine of half the central angle:
double half_sine_diff = sqrt(hav_central_angle);
// distance in kilometers:
double d = 2 * asin(half_sine_diff) * earth_mean_radius;
return d;
}
}
GeoGcd::GeoGcd(double lat, double lng)
: _latitude_radians(lat * degrees_to_radians),
_longitude_radians(lng * degrees_to_radians)
{}
double GeoGcd::km_great_circle_distance(double lat, double lng) const {
double theta_A = _latitude_radians;
double phi_A = _longitude_radians;
double theta_B = lat * degrees_to_radians;
double phi_B = lng * degrees_to_radians;
return greatCircleDistance(theta_A, phi_A, theta_B, phi_B);
}
} // namespace search::common
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