// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-

#include <AP_Mount_Backend.h>

// calc_angle_to_location - calculates the earth-frame roll, tilt and pan angles (and radians) to point at the given target
void AP_Mount_Backend::calc_angle_to_location(const struct Location &target, Vector3f& angles_to_target_rad, bool calc_tilt, bool calc_pan)
{
    float GPS_vector_x = (target.lng-_frontend._current_loc.lng)*cosf(ToRad((_frontend._current_loc.lat+target.lat)*0.00000005f))*0.01113195f;
    float GPS_vector_y = (target.lat-_frontend._current_loc.lat)*0.01113195f;
    float GPS_vector_z = (target.alt-_frontend._current_loc.alt);                 // baro altitude(IN CM) should be adjusted to known home elevation before take off (Set altimeter).
    float target_distance = 100.0f*pythagorous2(GPS_vector_x, GPS_vector_y);      // Careful , centimeters here locally. Baro/alt is in cm, lat/lon is in meters.

    // initialise all angles to zero
    angles_to_target_rad.zero();

    // tilt calcs
    if (calc_tilt) {
        angles_to_target_rad.y = atan2f(GPS_vector_z, target_distance);
    }

    // pan calcs
    if (calc_pan) {
        angles_to_target_rad.z = atan2f(GPS_vector_x, GPS_vector_y);
    }
}