GeoConvert (1) - Linux Man Pages
GeoConvert: convert geographic coordinates
GeoConvert -- convert geographic coordinates
SYNOPSISGeoConvert [ -g | -d | -: | -u | -m | -c ] [ -p prec ] [ -z zone | -s | -t ] [ -n ] [ -w ] [ -l | -a ] [ --comment-delimiter commentdelim ] [ --version | -h | --help ] [ --input-file infile | --input-string instring ] [ --line-separator linesep ] [ --output-file outfile ]
DESCRIPTIONGeoConvert reads from standard input interpreting each line as a geographic coordinate and prints the coordinate in the format specified by the options on standard output. The input is interpreted in one of three different ways depending on how many space or comma delimited tokens there are on the line. The options -g, -d, -u, and -m govern the format of output. In all cases, the WGS84 model of the earth is used (a = 6378137 m, f = 1/298.257223563).
2 tokens (output options -g, -d, or -:) given as latitude
longitude using decimal degrees or degrees minutes seconds. d, ',
and " are used to denote degrees, minutes, and seconds, with the least
significant designator optional. (See ``QUOTING'' for how to quote
the characters ' and `` when entering coordinates on the command line.)
Various unicode characters (encoded with UTF-8) may also be used to
denote degrees, minutes, and seconds, e.g., the degree, prime, and
double prime symbols; in addition two single quotes can be used to
represent ''. Alternatively, : (colon) may be used to separate the
various components. Latitude is given first (unless the -w option
is given); however, on input, either may be given first by appending
or prepending N or S to the latitude and E or W to the
longitude. For example, the following are all equivalent
33.3 44.4 E44.4 N33.3 33d18'N 44d24'E 44d24 33d18N 33:18 44:24
It is also possible to carry out addition or subtraction operations in geographic coordinates. For example the point 15" east of 39N 70W is
3 tokens (output option -u) given as zone+hemisphere easting
northing or easting northing zone+hemisphere, where
hemisphere is either n (or north) or s (or south). The
zone is absent for a UPS specification. For example,
38n 444140.54 3684706.36 444140.54 3684706.36 38n s 2173854.98 2985980.58 2173854.98 2985980.58 s
1 token (output option -m) is used to specify the center of an MGRS
grid square. For example,
- output latitude and longitude using decimal degrees. Default output mode.
- output latitude and longitude using degrees, minutes, and seconds (DMS).
- like -d, except use : as a separator instead of the d, ', and " delimiters.
- output UTM or UPS.
- output MGRS.
- output meridian convergence and scale for the corresponding UTM or UPS projection. Convergence is the bearing of grid north given as degrees clockwise from true north.
- set the output precision to prec (default 0); prec is the precision relative to 1 m. See ``PRECISION''.
- set the zone to zone for output. Use either 0 < zone <= 60 for a UTM zone or zone = 0 for UPS. Alternatively use a zone+hemisphere designation, e.g., 38n. See ``ZONE''.
- use the standard UPS and UTM zones.
- similar to -s but forces UPS regions to the closest UTM zone.
- on input, MGRS coordinates refer to the south-west corner of the MGRS square instead of the center; see ``MGRS''.
- on input and output, longitude precedes latitude (except that on input this can be overridden by a hemisphere designator, N, S, E, W).
- on output, UTM/UPS uses the long forms north and south to designate the hemisphere instead of n or s.
- on output, UTM/UPS uses the abbreviations n and s to designate the hemisphere instead of north or south; this is the default representation.
- set the comment delimiter to commentdelim (e.g., ``#'' or ``//''). If set, the input lines will be scanned for this delimiter and, if found, the delimiter and the rest of the line will be removed prior to processing and subsequently appended to the output line (separated by a space).
- print version and exit.
- print usage and exit.
- print full documentation and exit.
- read input from the file infile instead of from standard input; a file name of ``-'' stands for standard input.
- read input from the string instring instead of from standard input. All occurrences of the line separator character (default is a semicolon) in instring are converted to newlines before the reading begins.
- set the line separator character to linesep. By default this is a semicolon.
- write output to the file outfile instead of to standard output; a file name of ``-'' stands for standard output.
PRECISIONprec gives precision of the output with prec = 0 giving 1 m precision, prec = 3 giving 1 mm precision, etc. prec is the number of digits after the decimal point for UTM/UPS. The number of digits per coordinate for MGRS is 5 + prec. For decimal degrees, the number of digits after the decimal point is 5 + prec. For DMS (degree, minute, seconds) output, the number of digits after the decimal point in the seconds components is 1 + prec; if this is negative then use minutes (prec = -2 or -3) or degrees (prec <= -4) as the least significant component. Print convergence, resp. scale, with 5 + prec, resp. 7 + prec, digits after the decimal point. The minimum value of prec is -5 and the maximum is 9 for UTM/UPS, 9 for decimal degrees, 10 for DMS, 6 for MGRS, and 8 for convergence and scale.
MGRSMGRS coordinates represent a square patch of the earth, thus "38SMB4488" is in zone "38n" with 444km <= easting < 445km and 3688km <= northing < 3689km. Consistent with this representation, coordinates are truncated (instead of rounded) to the requested precision. Similarly, on input an MGRS coordinate represents the center of the square ("38n 444500 3688500" in the example above). However, if the -n option is given then the south-west corner of the square is returned instead ("38n 444000 3688000" in the example above).
ZONEIf the input is geographic, GeoConvert uses the standard rules of selecting UTM vs UPS and for assigning the UTM zone (with the Norway and Svalbard exceptions). If the input is UTM/UPS or MGRS, then the choice between UTM and UPS and the UTM zone mirrors the input. The -z zone, -s, and -t options allow these rules to be overridden with zone = 0 being used to indicate UPS. For example, the point
corresponds to possible MGRS coordinates
32CMS4324728161 (standard UTM zone = 32) 31CEM6066227959 (neighboring UTM zone = 31) BBZ1945517770 (neighboring UPS zone)
echo 79.9S 6.1E | GeoConvert -p -3 -m => 32CMS4328 echo 31CEM6066227959 | GeoConvert -p -3 -m => 31CEM6027 echo 31CEM6066227959 | GeoConvert -p -3 -m -s => 32CMS4328 echo 31CEM6066227959 | GeoConvert -p -3 -m -z 0 => BBZ1917
Is zone is specified with a hemisphere, then this is honored when printing UTM coordinates:
echo -1 3 | GeoConvert -u => 31s 500000 9889470 echo -1 3 | GeoConvert -u -z 31 => 31s 500000 9889470 echo -1 3 | GeoConvert -u -z 31s => 31s 500000 9889470 echo -1 3 | GeoConvert -u -z 31n => 31n 500000 -110530
NOTE: the letter in the zone specification for UTM is a hemisphere designator n or s and not an MGRS latitude band letter. Convert the MGRS latitude band letter to a hemisphere as follows: replace C thru M by s (or south); replace N thru X by n (or north).
QUOTINGUnfortunately the characters ' and `` have special meanings in many shells and have to be entered with care. However note (1) that the trailing designator is optional and that (2) you can use colons as a separator character. Thus 10d20' can be entered as 10d20 or 10:20 and 10d20'30'' can be entered as 10:20:30.
- Unix shells (sh, bash, tsch)
The characters ' and `` can be quoted by preceding them with a \
(backslash); or you can quote a string containing ' with a pair of ''s.
The two alternatives are illustrated by
echo 10d20\'30\" "20d30'40" | GeoConvert -d -p -1 => 10d20'30"N 020d30'40"E
Quoting of command line arguments is similar
GeoConvert -d -p -1 --input-string "10d20'30\" 20d30'40" => 10d20'30"N 020d30'40"E
- Windows command shell (cmd)
The ' character needs no quoting; the " character can either be quoted
by a ^ or can be represented by typing ' twice. (This quoting is
usually unnecessary because the trailing designator can be omitted.)
echo 10d20'30'' 20d30'40 | GeoConvert -d -p -1 => 10d20'30"N 020d30'40"E
Use \ to quote the " character in a command line argument
GeoConvert -d -p -1 --input-string "10d20'30\" 20d30'40" => 10d20'30"N 020d30'40"E
- Input from a file
No quoting need be done if the input from a file. Thus each line of the
file "input.txt" should just contain the plain coordinates.
GeoConvert -d -p -1 < input.txt
echo 38SMB4488 | GeoConvert => 33.33424 44.40363 echo 38SMB4488 | GeoConvert -: -p 1 => 33:20:03.25N 044:2413.06E echo 38SMB4488 | GeoConvert -u => 38n 444500 3688500 echo E44d24 N33d20 | GeoConvert -m -p -3 => 38SMB4488
GeoConvert can be used to do simple arithmetic using degree, minutes, and seconds. For example, sometimes data is tiled in 15 second squares tagged by the DMS representation of the SW corner. The tags of the tile at 38:59:45N 077:02:00W and its 8 neighbors are then given by
t=0:0:15 for y in -$t +0 +$t; do for x in -$t +0 +$t; do echo 38:59:45N$y 077:02:00W$x done done | GeoConvert -: -p -1 | tr -d ': ' => 385930N0770215W 385930N0770200W 385930N0770145W 385945N0770215W 385945N0770200W 385945N0770145W 390000N0770215W 390000N0770200W 390000N0770145W
ERRORSAn illegal line of input will print an error message to standard output beginning with "ERROR:" and causes GeoConvert to return an exit code of 1. However, an error does not cause GeoConvert to terminate; following lines will be converted.
- Universal Transverse Mercator, <https://en.wikipedia.org/wiki/Universal_Transverse_Mercator_coordinate_system>.
- Universal Polar Stereographic, <https://en.wikipedia.org/wiki/Universal_Polar_Stereographic>.
- Military Grid Reference System, <https://en.wikipedia.org/wiki/Military_grid_reference_system>.
- World Geodetic System 1984, <https://en.wikipedia.org/wiki/WGS84>.
AUTHORGeoConvert was written by Charles Karney.
HISTORYGeoConvert was added to GeographicLib, <http://geographiclib.sf.net>, in 2009-01.
SEE ALSOAn online version of this utility is availbable at <http://geographiclib.sourceforge.net/cgi-bin/GeoConvert>.
The algorithms for the transverse Mercator projection are described in C. F. F. Karney, Transverse Mercator with an accuracy of a few nanometers, J. Geodesy 85(8), 475-485 (Aug. 2011); DOI <https://dx.doi.org/10.1007/s00190-011-0445-3>; preprint <http://arxiv.org/abs/1002.1417>.