//# from http://www.movable-type.co.uk/scripts/latlong.html
double get_Haversine_distance(double lat1, double lon1, double lat2, double lon2) {
double dLat, dLon, a, c, d;
dLat = degree_to_radian(lat2-lat1);
dLon = degree_to_radian(lon2-lon1);
a = sin(dLat/2)*sin(dLat/2) + cos(degree_to_radian(lat1))*cos(degree_to_radian(lat2))*sin(dLon/2)*sin(dLon/2);
c = 2*atan(sqrt(a)/sqrt(1-a));
d = R * c;
return d;
}
void draw_arraw_line_with_angle(double start_x, double start_y, double length, double degree)
{
double delt_x, delt_y, end_x, end_y, radian;
radian = degree_to_radian(degree);
delt_x = length * cos(radian);
delt_y = length * sin(radian);
end_x = start_x + delt_x;
end_y = start_y - delt_y;
draw_arraw_line(start_x, start_y, end_x, end_y);
}
double get_Cartesian_distance(double lat1, double lon1, double lat2, double lon2) {
double lat1r, lon1r, lat2r, lon2r;
double half_pi;
double x1, y1, z1, x2, y2, z2;
// # convert from degree to radian
lat1r = degree_to_radian(lat1);
lon1r = degree_to_radian(lon1);
lat2r = degree_to_radian(lat2);
lon2r = degree_to_radian(lon2);
half_pi = pi/2.0;
x1 = R * sin(half_pi-lat1r) * cos(lon1r);
y1 = R * sin(half_pi-lat1r) * sin(lon1r);
z1 = R * cos(half_pi-lat1r);
x2 = R * sin(half_pi-lat2r) * cos(lon2r);
y2 = R * sin(half_pi-lat2r) * sin(lon2r);
z2 = R * cos(half_pi-lat2r);
return sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2) + (z1-z2)*(z1-z2));
}
bool extract_ellipsoid_definition( GsTLTriplet& ranges,
GsTLTriplet& angles,
const std::string& tag_name,
const Parameters_handler* parameters,
Error_messages_handler* errors ) {
std::string params = parameters->value( tag_name );
// String_Op::replace( params, "\n", " " );
std::vector<double> param_vals = String_Op::to_numbers<double>( params );
if( param_vals.size() != 6 ) {
std::string tag = String_Op::split_string( tag_name, "." ).first;
errors->report( tag, "Specify exactly 3 range values and 3 angles" );
return false;
}
ranges[0] = param_vals[0];
ranges[1] = param_vals[1];
ranges[2] = param_vals[2];
/*
if( ranges[0] < ranges[1] || ranges[1] < ranges[2] ) {
std::string tag = String_Op::split_string( tag_name, "." ).first;
std::ostringstream message;
message << "The range in the major direction must be greater than "
<< "the ones in the medium and minor directions";
errors->report( tag, message.str() );
return false;
}
*/
angles[0] = degree_to_radian( param_vals[3] );
angles[1] = degree_to_radian( param_vals[4] );
angles[2] = degree_to_radian( param_vals[5] );
convert_to_math_standard_angles_rad( angles[0], angles[1], angles[2] );
return true;
}
int main ()
{
// 異なる型(タグ)間での暗黙変換はできない
{
degree<float> deg(90.0f);
// radian<float> rad = deg; // コンパイルエラー!型が違う
}
// degreeからradianへの変換
{
degree<float> deg(90.0f);
radian<float> rad = degree_to_radian(deg);
std::cout << rad.get() << std::endl;
}
// radianからdegreeへの変換
{
radian<float> rad(0.5 * boost::math::constants::pi<float>());
degree<float> deg = radian_to_degree(rad);
std::cout << deg.get() << std::endl;
}
}
static void draw_arraw_line(double s_x, double s_y, double e_x, double e_y)
{
draw_line((int)s_x, (int)s_y, (int)e_x, (int)e_y, RGB(0, 0, 0xff));
draw_arraw_line_imp((int)s_x, (int)s_y, (int)e_x, (int)e_y, 15, degree_to_radian(60));
}
