#include "script_component.hpp" /* * Author: commy2 * * * Arguments: * None * * Return Value: * Array * * Example: * call ace_vector_fnc_getRelativeAzimuthDistance * * Public: No */ GVAR(pData) params ["_distanceP1", "_directionP1"]; _directionP1 params ["_azimuthP1", "_inclinationP1"]; private _distanceP2 = call FUNC(getDistance); private _directionP2 = call FUNC(getDirection); _directionP2 params ["_azimuthP2", "_inclinationP2"]; private _relDirection = sqrt ((_azimuthP1 - _azimuthP2) ^ 2 + (_inclinationP1 - _inclinationP2) ^ 2); private _relDistance = sqrt (_distanceP1 ^ 2 + _distanceP2 ^ 2 - 2 * _distanceP1 * _distanceP2 * cos _relDirection); private _relHeight = (sin _inclinationP1 * _distanceP1) - (sin _inclinationP2 * _distanceP2); private _relLength = sqrt (_relDistance ^ 2 - _relHeight ^ 2); if (str(_relLength) == "-1.#IND") then {_relLength = 0}; private _lenghtP1 = cos _inclinationP1 * _distanceP1; private _lenghtP2 = cos _inclinationP2 * _distanceP2; private _relAzimuth = (sin _azimuthP2 * _lenghtP2 - sin _azimuthP1 * _lenghtP1) atan2 (cos _azimuthP2 * _lenghtP2 - cos _azimuthP1 * _lenghtP1); if (_relAzimuth < 0) then {_relAzimuth = _relAzimuth + 360}; if (_distanceP1 < -999 || {_distanceP2 < -999}) exitWith { [-1000, -1000] // return }; [_relAzimuth, _relLength]