Static Public Member Functions | Private Member Functions | List of all members
NETGeographicLib::MGRS Class Reference

.NET wrapper for GeographicLib::MGRS. More...

#include <MGRS.h>

Static Public Member Functions

static void Forward (int zone, bool northp, double x, double y, int prec, [System::Runtime::InteropServices::Out] System::String^%mgrs)
 
static void Forward (int zone, bool northp, double x, double y, double lat, int prec, [System::Runtime::InteropServices::Out] System::String^%mgrs)
 
static void Reverse (System::String^mgrs, [System::Runtime::InteropServices::Out] int%zone, [System::Runtime::InteropServices::Out] bool%northp, [System::Runtime::InteropServices::Out] double%x, [System::Runtime::InteropServices::Out] double%y, [System::Runtime::InteropServices::Out] int%prec, bool centerp)
 
Inspector functions
static double MajorRadius ()
 
static double Flattening ()
 

Private Member Functions

 MGRS (void)
 

Detailed Description

.NET wrapper for GeographicLib::MGRS.

This class allows .NET applications to access GeographicLib::MGRS.

MGRS is defined in Chapter 3 of

This implementation has the following properties:

The NGA software package geotrans also provides conversions to and from MGRS. Version 3.0 (and earlier) suffers from some drawbacks:

C# Example:

using System;
namespace example_MGRS
{
class Program
{
static void Main(string[] args)
{
try {
// See also example-GeoCoords.cpp
{
// Sample forward calculation
double lat = 33.3, lon = 44.4; // Baghdad
int zone;
bool northp;
double x, y;
UTMUPS.Forward(lat, lon, out zone, out northp, out x, out y, -1, true);
string mgrs;
MGRS.Forward(zone, northp, x, y, lat, 5, out mgrs);
Console.WriteLine(mgrs);
}
{
// Sample reverse calculation
string mgrs = "38SMB4488";
int zone, prec;
bool northp;
double x, y;
MGRS.Reverse(mgrs, out zone, out northp, out x, out y, out prec, true);
double lat, lon;
UTMUPS.Reverse(zone, northp, x, y, out lat, out lon, true);
Console.WriteLine(String.Format("Latitude: {0} Longitude: {1}", lat, lon));
}
}
catch (GeographicErr e) {
Console.WriteLine(String.Format("Caught exception: {0}", e.Message));
}
}
}
}

Managed C++ Example:

// Example of using the GeographicLib::MGRS class
#include <iostream>
#include <exception>
#include <string>
using namespace std;
using namespace GeographicLib;
int main() {
try {
// See also example-GeoCoords.cpp
{
// Sample forward calculation
double lat = 33.3, lon = 44.4; // Baghdad
int zone;
bool northp;
double x, y;
UTMUPS::Forward(lat, lon, zone, northp, x, y);
string mgrs;
MGRS::Forward(zone, northp, x, y, lat, 5, mgrs);
cout << mgrs << "\n";
}
{
// Sample reverse calculation
string mgrs = "38SMB4488";
int zone, prec;
bool northp;
double x, y;
MGRS::Reverse(mgrs, zone, northp, x, y, prec);
double lat, lon;
UTMUPS::Reverse(zone, northp, x, y, lat, lon);
cout << prec << " " << lat << " " << lon << "\n";
}
}
catch (const exception& e) {
cerr << "Caught exception: " << e.what() << "\n";
return 1;
}
}

Visual Basic Example:

Imports NETGeographicLib
Module example_MGRS
Sub Main()
Try
' See also example-GeoCoords.cpp
' Sample forward calculation
Dim lat As Double = 33.3, lon = 44.4 ' Baghdad
Dim zone As Integer
Dim northp As Boolean
Dim x, y As Double
UTMUPS.Forward(lat, lon, zone, northp, x, y, -1, True)
Dim mgrsStr As String
MGRS.Forward(zone, northp, x, y, lat, 5, mgrsStr)
Console.WriteLine(mgrsStr)
' Sample reverse calculation
mgrsStr = "38SMB4488"
Dim prec As Integer
MGRS.Reverse(mgrsStr, zone, northp, x, y, prec, True)
UTMUPS.Reverse(zone, northp, x, y, lat, lon, True)
Console.WriteLine(String.Format("Latitude: {0} Longitude: {1}", lat, lon))
Catch ex As GeographicErr
Console.WriteLine(String.Format("Caught exception: {0}", ex.Message))
End Try
End Sub
End Module

Definition at line 60 of file MGRS.h.

Constructor & Destructor Documentation

NETGeographicLib::MGRS::MGRS ( void  )
inlineprivate

Definition at line 64 of file MGRS.h.

Member Function Documentation

double MGRS::Flattening ( )
static
Returns
f the flattening of the WGS84 ellipsoid.

(The WGS84 value is returned because the UTM and UPS projections are based on this ellipsoid.)

Definition at line 83 of file dotnet/NETGeographicLib/MGRS.cpp.

void MGRS::Forward ( int  zone,
bool  northp,
double  x,
double  y,
int  prec,
[System::Runtime::InteropServices::Out] System::String^%  mgrs 
)
static

Convert UTM or UPS coordinate to an MGRS coordinate.

Parameters
[in]zoneUTM zone (zero means UPS).
[in]northphemisphere (true means north, false means south).
[in]xeasting of point (meters).
[in]ynorthing of point (meters).
[in]precprecision relative to 100 km.
[out]mgrsMGRS string.
Exceptions
GeographicErrif zone, x, or y is outside its allowed range.
GeographicErrif the memory for the MGRS string can't be allocated.

prec specifies the precision of the MGRS string as follows:

  • prec = −1 (min), only the grid zone is returned
  • prec = 0 (min), 100 km
  • prec = 1, 10 km
  • prec = 2, 1 km
  • prec = 3, 100 m
  • prec = 4, 10 m
  • prec = 5, 1 m
  • prec = 6, 0.1 m
  • prec = 11 (max), 1 μm

UTM eastings are allowed to be in the range [100 km, 900 km], northings are allowed to be in in [0 km, 9500 km] for the northern hemisphere and in [1000 km, 10000 km] for the southern hemisphere. (However UTM northings can be continued across the equator. So the actual limits on the northings are [−9000 km, 9500 km] for the "northern" hemisphere and [1000 km, 19500 km] for the "southern" hemisphere.)

UPS eastings/northings are allowed to be in the range [1300 km, 2700 km] in the northern hemisphere and in [800 km, 3200 km] in the southern hemisphere.

The ranges are 100 km more restrictive that for the conversion between geographic coordinates and UTM and UPS given by UTMUPS. These restrictions are dictated by the allowed letters in MGRS coordinates. The choice of 9500 km for the maximum northing for northern hemisphere and of 1000 km as the minimum northing for southern hemisphere provide at least 0.5 degree extension into standard UPS zones. The upper ends of the ranges for the UPS coordinates is dictated by requiring symmetry about the meridians 0E and 90E.

All allowed UTM and UPS coordinates may now be converted to legal MGRS coordinates with the proviso that eastings and northings on the upper boundaries are silently reduced by about 4 nm (4 nanometers) to place them within the allowed range. (This includes reducing a southern hemisphere northing of 10000 km by 4 nm so that it is placed in latitude band M.) The UTM or UPS coordinates are truncated to requested precision to determine the MGRS coordinate. Thus in UTM zone 38n, the square area with easting in [444 km, 445 km) and northing in [3688 km, 3689 km) maps to MGRS coordinate 38SMB4488 (at prec = 2, 1 km), Khulani Sq., Baghdad.

The UTM/UPS selection and the UTM zone is preserved in the conversion to MGRS coordinate. Thus for zone > 0, the MGRS coordinate begins with the zone number followed by one of [C–M] for the southern hemisphere and [N–X] for the northern hemisphere. For zone = 0, the MGRS coordinates begins with one of [AB] for the southern hemisphere and [XY] for the northern hemisphere.

The conversion to the MGRS is exact for prec in [0, 5] except that a neighboring latitude band letter may be given if the point is within 5nm of a band boundary. For prec in [6, 11], the conversion is accurate to roundoff.

If prec = −1, then the "grid zone designation", e.g., 18T, is returned. This consists of the UTM zone number (absent for UPS) and the first letter of the MGRS string which labels the latitude band for UTM and the hemisphere for UPS.

If x or y is NaN or if zone is UTMUPS::INVALID, the returned MGRS string is "INVALID".

Return the result via a reference argument to avoid the overhead of allocating a potentially large number of small strings. If an error is thrown, then mgrs is unchanged.

Definition at line 19 of file dotnet/NETGeographicLib/MGRS.cpp.

void MGRS::Forward ( int  zone,
bool  northp,
double  x,
double  y,
double  lat,
int  prec,
[System::Runtime::InteropServices::Out] System::String^%  mgrs 
)
static

Convert UTM or UPS coordinate to an MGRS coordinate when the latitude is known.

Parameters
[in]zoneUTM zone (zero means UPS).
[in]northphemisphere (true means north, false means south).
[in]xeasting of point (meters).
[in]ynorthing of point (meters).
[in]latlatitude (degrees).
[in]precprecision relative to 100 km.
[out]mgrsMGRS string.
Exceptions
GeographicErrif zone, x, or y is outside its allowed range.
GeographicErrif lat is inconsistent with the given UTM coordinates.
std::bad_allocif the memory for mgrs can't be allocated.

The latitude is ignored for zone = 0 (UPS); otherwise the latitude is used to determine the latitude band and this is checked for consistency using the same tests as Reverse.

Definition at line 36 of file dotnet/NETGeographicLib/MGRS.cpp.

double MGRS::MajorRadius ( )
static
Returns
a the equatorial radius of the WGS84 ellipsoid (meters).

(The WGS84 value is returned because the UTM and UPS projections are based on this ellipsoid.)

Definition at line 80 of file dotnet/NETGeographicLib/MGRS.cpp.

void MGRS::Reverse ( System::String^  mgrs,
[System::Runtime::InteropServices::Out] int zone,
[System::Runtime::InteropServices::Out] bool%  northp,
[System::Runtime::InteropServices::Out] double%  x,
[System::Runtime::InteropServices::Out] double%  y,
[System::Runtime::InteropServices::Out] int prec,
bool  centerp 
)
static

Convert a MGRS coordinate to UTM or UPS coordinates.

Parameters
[in]mgrsMGRS string.
[out]zoneUTM zone (zero means UPS).
[out]northphemisphere (true means north, false means south).
[out]xeasting of point (meters).
[out]ynorthing of point (meters).
[out]precprecision relative to 100 km.
[in]centerpif true (default), return center of the MGRS square, else return SW (lower left) corner.
Exceptions
GeographicErrif mgrs is illegal.

All conversions from MGRS to UTM/UPS are permitted provided the MGRS coordinate is a possible result of a conversion in the other direction. (The leading 0 may be dropped from an input MGRS coordinate for UTM zones 1–9.) In addition, MGRS coordinates with a neighboring latitude band letter are permitted provided that some portion of the 100 km block is within the given latitude band. Thus

  • 38VLS and 38WLS are allowed (latitude 64N intersects the square 38[VW]LS); but 38VMS is not permitted (all of 38VMS is north of 64N)
  • 38MPE and 38NPF are permitted (they straddle the equator); but 38NPE and 38MPF are not permitted (the equator does not intersect either block).
  • Similarly ZAB and YZB are permitted (they straddle the prime meridian); but YAB and ZZB are not (the prime meridian does not intersect either block).

The UTM/UPS selection and the UTM zone is preserved in the conversion from MGRS coordinate. The conversion is exact for prec in [0, 5]. With centerp = true the conversion from MGRS to geographic and back is stable. This is not assured if centerp = false.

If a "grid zone designation" (for example, 18T or A) is given, then some suitable (but essentially arbitrary) point within that grid zone is returned. The main utility of the conversion is to allow zone and northp to be determined. In this case, the centerp parameter is ignored and prec is set to −1.

If the first 3 characters of mgrs are "INV", then x and y are set to NaN, zone is set to UTMUPS::INVALID, and prec is set to −2.

If an exception is thrown, then the arguments are unchanged.

Definition at line 52 of file dotnet/NETGeographicLib/MGRS.cpp.


The documentation for this class was generated from the following files:


gtsam
Author(s):
autogenerated on Sat May 8 2021 02:59:11