Program Listing for File utm.h
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/* -*- mode: C++ -*- */
/* $Id: 27bd084517a5467049c7b3ed57b3d41e60b3ce53 $ */
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#ifndef GEODESY__UTM_H_
#define GEODESY__UTM_H_
#include <limits>
#include <ctype.h>
#include <iostream>
#include <iomanip>
#include <geodesy/wgs84.h>
#include "geographic_msgs/msg/geo_point.hpp"
#include "geometry_msgs/msg/point.hpp"
#include "geographic_msgs/msg/geo_pose.hpp"
#include "geometry_msgs/msg/pose.hpp"
namespace geodesy
{
class UTMPoint
{
public:
UTMPoint()
: easting(0.0),
northing(0.0),
altitude(std::numeric_limits < double > ::quiet_NaN()),
zone(0),
band(' ')
{
}
UTMPoint(const UTMPoint & that)
: easting(that.easting),
northing(that.northing),
altitude(that.altitude),
zone(that.zone),
band(that.band)
{
}
UTMPoint(const geographic_msgs::msg::GeoPoint & pt);
UTMPoint(double _easting, double _northing, uint8_t _zone, char _band)
: easting(_easting),
northing(_northing),
altitude(std::numeric_limits < double > ::quiet_NaN()),
zone(_zone),
band(_band)
{
}
UTMPoint(double _easting, double _northing, double _altitude,
uint8_t _zone, char _band)
: easting(_easting),
northing(_northing),
altitude(_altitude),
zone(_zone),
band(_band)
{
}
// data members
double easting;
double northing;
double altitude;
uint8_t zone;
char band;
}; // class UTMPoint
class UTMPose
{
public:
UTMPose()
: position(),
orientation()
{
}
UTMPose(const UTMPose & that)
: position(that.position),
orientation(that.orientation)
{
}
UTMPose(const geographic_msgs::msg::GeoPose & pose)
: position(pose.position),
orientation(pose.orientation)
{
}
UTMPose(UTMPoint pt,
const geometry_msgs::msg::Quaternion & q)
: position(pt),
orientation(q)
{
}
UTMPose(const geographic_msgs::msg::GeoPoint & pt,
const geometry_msgs::msg::Quaternion & q)
: position(pt),
orientation(q)
{
}
// data members
UTMPoint position;
geometry_msgs::msg::Quaternion orientation;
}; // class UTMPose
// conversion function prototypes
void fromMsg(
const geographic_msgs::msg::GeoPoint & from, UTMPoint & to,
const bool & force_zone = false, const char & band = 'A', const uint8_t & zone = 0);
void fromMsg(
const geographic_msgs::msg::GeoPose & from, UTMPose & to,
const bool & force_zone = false, const char & band = 'A', const uint8_t & zone = 0);
geographic_msgs::msg::GeoPoint toMsg(const UTMPoint & from);
geographic_msgs::msg::GeoPose toMsg(const UTMPose & from);
static inline bool is2D(const UTMPoint & pt)
{
// true if altitude is a NaN
return pt.altitude != pt.altitude;
}
static inline bool is2D(const UTMPose & pose)
{
// true if position has no altitude
return is2D(pose.position);
}
bool isValid(const UTMPoint & pt);
bool isValid(const UTMPose & pose);
static inline void normalize(UTMPoint & pt)
{
geographic_msgs::msg::GeoPoint ll(toMsg(pt));
normalize(ll);
fromMsg(ll, pt);
}
static inline std::ostream & operator << (std::ostream & out, const UTMPoint & pt)
{
out << "(" << std::setprecision(10) << pt.easting << ", "
<< pt.northing << ", " << std::setprecision(6) << pt.altitude
<< " [" << (unsigned) pt.zone << pt.band << "])";
return out;
}
static inline std::ostream & operator << (std::ostream & out, const UTMPose & pose)
{
out << pose.position << ", (["
<< pose.orientation.x << ", "
<< pose.orientation.y << ", "
<< pose.orientation.z << "], "
<< pose.orientation.w << ")";
return out;
}
static inline bool sameGridZone(const UTMPoint & pt1, const UTMPoint & pt2)
{
return (pt1.zone == pt2.zone) && (pt1.band == pt2.band);
}
static inline bool sameGridZone(const UTMPose & pose1, const UTMPose & pose2)
{
return sameGridZone(pose1.position, pose2.position);
}
static inline geometry_msgs::msg::Point toGeometry(const UTMPoint & from)
{
geometry_msgs::msg::Point to;
to.x = from.easting;
to.y = from.northing;
to.z = from.altitude;
return to;
}
static inline geometry_msgs::msg::Pose toGeometry(const UTMPose & from)
{
geometry_msgs::msg::Pose to;
to.position = toGeometry(from.position);
to.orientation = from.orientation;
return to;
}
} // namespace geodesy
#endif // GEODESY__UTM_H_