Skip site navigation (1)Skip section navigation (2)

FreeBSD Manual Pages

  
 
  

home | help 
PROJINFO(1)			     PROJ			   PROJINFO(1)

NAME
       projinfo	- Geodetic object and coordinate operation queries

SYNOPSIS
	  projinfo
	    [-o	formats] [-k crs|operation|datum|ensemble|ellipsoid] [--summary] [-q]
	    [[--area name_or_code] | [--bbox west_long,south_lat,east_long,north_lat]]
	    [--spatial-test contains|intersects]
	    [--crs-extent-use none|both|intersection|smallest]
	    [--grid-check none|discard_missing|sort|known_available]
	    [--pivot-crs always|if_no_direct_transformation|never|{auth:code[,auth:code]*}]
	    [--show-superseded]	[--hide-ballpark] [--accuracy {accuracy}]
	    [--allow-ellipsoidal-height-as-vertical-crs]
	    [--boundcrs-to-wgs84]
	    [--authority name]
	    [--main-db-path path] [--aux-db-path path]*
	    [--dump-db-structure]
	    [--identify] [--3d]
	    [--output-id AUTH:CODE]
	    [--c-ify] [--single-line]
	    --searchpaths | --remote-data |
	    --list-crs [list-crs-filter] |
	    --dump-db-structure	[{object_definition} | {object_reference}] |
	    {object_definition}	| {object_reference} |
	    (-s	{srs_def} [--s_epoch {epoch}] -t {srs_def} [--t_epoch {epoch}])	|
	    ({srs_def} {srs_def})

	  where	 {object_definition}  or {srs_def} is one of the possibilities
	  accepted by proj_create()

	   a proj-string,

	   a WKT string,

	   an object code  (like  "EPSG:4326",	 "urn:ogc:def:crs:EPSG::4326",
	    "urn:ogc:def:coordinateOperation:EPSG::1671"),

	   an	Object	name.  e.g  "WGS 84", "WGS 84 /	UTM zone 31N". In that
	    case as uniqueness is not guaranteed, heuristics  are  applied  to
	    determine the appropriate best match.

	   a CRS name and a coordinate	epoch, separated with '@'. For example
	    "ITRF2014@2025.0". (added in 9.2)

	   a  OGC  URN	combining references for compound coordinate reference
	    systems  (e.g  "urn:ogc:def:crs,crs:EPSG::2393,crs:EPSG::5717"  or
	    custom abbreviated syntax "EPSG:2393+5717"),

	   a OGC URN combining	references for references for projected	or de-
	    rived CRSs e.g. for	Projected 3D CRS "UTM zone 31N / WGS 84	(3D)":
	    "-
	    urn:ogc:def:crs,crs:EPSG::4979,cs:PROJ::ENh,coordinateOpera-
	    tion:EPSG::16031" (added in	6.2)

	   Extension	of   OGC   URN	 for   CoordinateMetadata.    e.g.  "-
	    urn:ogc:def:CoordinateMetadata:NR-
	    CAN::NAD83_CSRS_1997_MTM11_HT2_1997"

	   a OGC URN combining	references for concatenated  operations	 (e.g.
	    "-
	    urn:ogc:def:coordinateOperation,coordinateOperation:EPSG::3895,co-
	    ordinateOperation:EPSG::1618")

	   a	   PROJJSON	 string.      The     jsonschema     is	    at
	    https://proj.org/schemas/v0.4/projjson.schema.json (added in 6.2)

	   a compound CRS made	from two object	names separated	with  "	 +  ".
	    e.g. "WGS 84 + EGM96 height" (added	in 7.1)

	  {object_reference} is	a filename preceded by the '@' character.  The
	  file	referenced by the {object_reference} must contain a valid {ob-
	  ject_definition}.

	  The usage of "{srs_def} {srs_def}" is	equivalent to "-s {srs_def} -t
	  {srs_def}" (added in 9.5).

DESCRIPTION
       projinfo	is a program that can query information	on a geodetic  object,
       coordinate  reference system (CRS) or coordinate	operation, when	the -s
       and -t options are specified, and display it  under  different  formats
       (PROJ string, WKT string	or PROJJSON string).

       It  can	also  be used to query coordinate operations available between
       two CRS.

       The program is named with some reference	to the GDAL gdalsrsinfo	 util-
       ity that	offers partly similar services.

       The following control parameters	can appear in any order:

       -o formats
	      formats is a comma separated combination of: all,	default, PROJ,
	      WKT_ALL,	WKT2:2015,  WKT2:2019, WKT1:GDAL, WKT1:ESRI, PROJJSON,
	      SQL.

	      Except all and default, other formats can	be preceded  by	 -  to
	      disable them.

	      NOTE:
		 WKT2_2019 was previously called WKT2_2018.

	      NOTE:
		 Before	 PROJ 6.3.0, WKT1:GDAL was implicitly calling --bound-
		 crs-to-wgs84.	This is	no longer the case.

	      NOTE:
		 When SQL is specified,	--output-id must be specified.

       -k crs|operation|datum|ensemble|ellipsoid
	      When used	to query a single object with a	AUTHORITY:CODE,	deter-
	      mines the	(k)ind of the object in	case there are CRS, coordinate
	      operations or ellipsoids with the	same  CODE.   The  default  is
	      crs.

       --summary
	      When  listing coordinate operations available between 2 CRS, re-
	      turn the result in a summary format, mentioning only the name of
	      the coordinate operation,	its accuracy and its area of use.

	      NOTE:
		 only used for coordinate operation computation

       -q     Turn on quiet mode. Quiet	mode is	only available for queries  on
	      single  objects, and only	one output format is selected. In that
	      mode, only the PROJ, WKT or PROJJSON string is displayed,	 with-
	      out  other  introduction	output.	The output is then potentially
	      compatible of being piped	in other utilities.

       --area name_or_code
	      Specify an area of interest to restrict  the  results  when  re-
	      searching	 coordinate  operations	between	2 CRS. The area	of in-
	      terest can be specified either as	a name	(e.g  "Denmark	-  on-
	      shore") or a AUTHORITY:CODE (EPSG:3237) This option is exclusive
	      of --bbox.

	      NOTE:
		 only used for coordinate operation computation

       --bbox west_long,south_lat,east_long,north_lat
	      Specify  an  area	 of  interest to restrict the results when re-
	      searching	coordinate operations between 2	CRS. The area  of  in-
	      terest  is  specified  as	a bounding box with geographic coordi-
	      nates, expressed in degrees in  a	 unspecified  geographic  CRS.
	      west_long	 and  east_long	should be in the [-180,180] range, and
	      south_lat	and north_lat in the [-90,90]. west_long is  generally
	      lower  than  east_long, except in	the case where the area	of in-
	      terest crosses the antimeridian.

	      NOTE:
		 only used for coordinate operation computation

       --spatial-test contains|intersects
	      Specify how the area of use of coordinate	 operations  found  in
	      the  database  are compared to the area of use specified explic-
	      itly with	--area or --bbox, or derived implicitly	from the  area
	      of  use of the source and	target CRS.  By	default, projinfo will
	      only keep	coordinate operations whose are	 of  use  is  strictly
	      within  the  area	of interest (contains strategy).  If using the
	      intersects strategy, the spatial test is relaxed,	and any	 coor-
	      dinate  operation	 whose	area of	use at least partly intersects
	      the area of interest is listed.

	      NOTE:
		 only used for coordinate operation computation

       --crs-extent-use	none|both|intersection|smallest
	      Specify which area of interest to	consider when no explicit  one
	      is  specified with --area	or --bbox options.  By default (small-
	      est strategy), the area of use of	the source or target CRS  will
	      be looked, and the one that is the smallest one in terms of area
	      will be used as the area of interest.  If	using none, no area of
	      interest	is  used.   If	using both, only coordinate operations
	      that   relate   (contain	 or   intersect	  depending   of   the
	      --spatial-test  strategy)	to the area of use of both CRS are se-
	      lected.  If using	intersection, the area of interest is the  in-
	      tersection  of the bounding box of the area of use of the	source
	      and target CRS

	      NOTE:
		 only used for coordinate operation computation

       --grid-check none|discard_missing|sort|known_available
	      Specify how the presence or absence of a horizontal or  vertical
	      shift  grid  required for	a coordinate operation affects the re-
	      sults returned when researching coordinate operations between  2
	      CRS.   The  default strategy is sort (if PROJ_NETWORK is not de-
	      fined).  In that case, all candidate  operations	are  returned,
	      but  the	actual	availability of	the grids is used to determine
	      the sorting order. That is, if a coordinate  operation  involves
	      using a grid that	is not available in the	PROJ resource directo-
	      ries (determined by the PROJ_DATA	environment variable), it will
	      be  listed in the	bottom of the results.	The none strategy com-
	      pletely disables the checks of presence of grids	and  this  re-
	      turns the	results	as if all the grids where available.  The dis-
	      card_missing  strategy  discards	results	that involve grids not
	      present in the PROJ resource directories.	  The  known_available
	      strategy	discards results that involve grids not	present	in the
	      PROJ resource directories	and that are not  known	 of  the  CDN.
	      This is the default strategy is PROJ_NETWORK is set to ON.

	      NOTE:
		 only used for coordinate operation computation

       --pivot-crs always|if_no_direct_transforma-
       tion|never|{auth:code[,auth:code]*}
	      Determine	if intermediate	(pivot)	CRS can	be used	when research-
	      ing coordinate operation between 2 CRS. A	typical	example	is the
	      WGS84  pivot.  By	 default, projinfo will	consider any potential
	      pivot if there is	no direct transformation ( if_no_direct_trans-
	      formation). If using the never strategy, only direct transforma-
	      tions between the	source and target CRS will be used.  If	 using
	      the always strategy, intermediate	CRS will be considered even if
	      there  are  direct  transformations.  It is also possible	to re-
	      strict the pivot CRS to consider by specifying  one  or  several
	      CRS by their AUTHORITY:CODE.

	      NOTE:
		 only used for coordinate operation computation

       --show-superseded
	      When  enabled, coordinate	operations that	are superseded by oth-
	      ers will be listed. Note that supersession is not	equivalent  to
	      deprecation:  superseded	operations  are	still considered valid
	      although they have a better equivalent, whereas deprecated oper-
	      ations have been determined to be	erroneous and are not  consid-
	      ered at all.

	      NOTE:
		 only used for coordinate operation computation

       --hide-ballpark
	      New in version 7.1.

	      Hides  any coordinate operation that is, or contains, a Ballpark
	      transformation

	      NOTE:
		 only used for coordinate operation computation

       --accuracy {accuracy}
	      New in version 8.0.

	      Sets the minimum desired accuracy	for returned coordinate	opera-
	      tions.

	      NOTE:
		 only used for coordinate operation computation

       --allow-ellipsoidal-height-as-vertical-crs
	      New in version 8.0.

	      Allows exporting a geographic or projected 3D CRS	as a  compound
	      CRS whose	vertical CRS represents	the ellipsoidal	height.

	      NOTE:
		 only used for CRS, and	with WKT1:GDAL output format

       --boundcrs-to-wgs84
	      When  specified,	this  option researches	a coordinate operation
	      from the base geographic CRS of the single CRS, source or	target
	      CRS to the WGS84 geographic CRS, and if found, wraps  those  CRS
	      into  a  BoundCRS	 object.   This	 is  mostly  to	 be  used  for
	      early-binding approaches.

       --authority name
	      Specify the name of the authority	into which to  restrict	 looks
	      up  for objects, when specifying an object by name or when coor-
	      dinate operations	are computed. The default is to	allow all  au-
	      thorities.

	      When  used  with	SQL  output, this restricts the	authorities to
	      which intermediate objects can belong to (the  default  is  EPSG
	      and  PROJ).  Note	 that  the authority of	the --output-id	option
	      will also	be implicitly added.

       --main-db-path path
	      Specify the name	and  path  of  the  database  to  be  used  by
	      projinfo.	  The default is proj.db in the	PROJ resource directo-
	      ries.

       --aux-db-path path
	      Specify the name and path	of auxiliary databases,	that are to be
	      combined with the	main database. Those auxiliary databases  must
	      have  a  table structure that is identical to the	main database,
	      but can be partly	filled and their entries can refer to  entries
	      of  the  main  database.	 The option may	be repeated to specify
	      several auxiliary	databases.

       --identify
	      When used	with an	object definition, this	queries	the PROJ data-
	      base to find known objects, typically CRS,  that	are  close  or
	      identical	 to  the  object.  Each	candidate object is associated
	      with an approximate likelihood percentage.  This is useful  when
	      used  with  a  WKT  string that lacks a EPSG identifier, such as
	      ESRI WKT1. This might also be used with PROJ strings.  For exam-
	      ple, +proj=utm +zone=31 +datum=WGS84 +type=crs will  be  identi-
	      fied with	a likelihood of	70% to EPSG:32631

       --dump-db-structure
	      New in version 8.1.

	      Outputs  the  sequence  of  SQL statements to create a new empty
	      valid auxiliary database.	This option can	be  specified  as  the
	      only switch of the utility.  If also specifying a	CRS object and
	      the  --output-id	option,	 the  definition  of the object	as SQL
	      statements will be appended.

       --list-crs [list-crs-filter]
	      New in version 8.1.

	      Outputs a	list (authority	name:code and CRS name)	 of  the  fil-
	      tered  CRSs from the database.  If no filter is provided all au-
	      thority names and	types  of  non	deprecated  CRSs  are  dumped.
	      list-crs-filter  is a comma separated combination	of: allow_dep-
	      recated,geodetic,geocentric,	 geographic,geographic_2d,geo-
	      graphic_3d,vertical,projected,compound.	 Affected  by  options
	      --authority, --area, --bbox and --spatial-test

	      A	visual alternative is the webpage CRS Explorer .

       --3d   New in version 6.3.

	      "Promote"	2D CRS(s) to their 3D version, where the vertical axis
	      is the ellipsoidal height	in metres, using the ellipsoid of  the
	      base geodetic CRS.  Depending on PROJ versions and the exact na-
	      ture  of	the CRS	involved, especially before PROJ 9.1, a	mix of
	      2D and 3D	CRS could lead to 2D or	3D  transformations.  Starting
	      with  PROJ  9.1, both CRS	need to	be 3D for vertical transforma-
	      tion to possibly happen.

       --output-id=AUTH:NAME
	      New in version 8.1.

	      Identifier to assign to the object (for SQL output).

	      It is strongly recommended that new objects should not be	 added
	      in  common  registries,  such  as	 EPSG,	ESRI, IAU, etc.	 Users
	      should use a custom authority name  instead.  If	a  new	object
	      should be	added to the official EPSG registry, users are invited
	      to       follow	    the	      procedure	     explained	    at
	      https://epsg.org/dataset-change-requests.html.

	      Combined with --dump-db-structure, users	can  create  auxiliary
	      databases,  instead of directly modifying	the main proj.db data-
	      base.  See the example how to export to an auxiliary database.

	      Those auxiliary databases	can  be	 specified  through  proj_con-
	      text_set_database_path()	or  the	 PROJ_AUX_DB environment vari-
	      able.

       --c-ify
	      For developers only. Modify the string output of the utility  so
	      that it is easy to put those strings in C/C++ code

       --single-line
	      Output  PROJ,  WKT or PROJJSON strings on	a single line, instead
	      of multiple indented lines by default.

       --searchpaths
	      New in version 7.0.

	      Output the directories into which	PROJ resources will be	looked
	      for  (if not using C API such as proj_context_set_search_paths()
	      that will	override them.

       --remote-data
	      New in version 7.0.

	      Display information regarding if	Network	 capabilities  is  en-
	      abled, and the related URL.

       --s_epoch
	      New in version 9.4.

	      Epoch  of	 coordinates in	the source CRS,	as decimal year.  Only
	      applies to a dynamic CRS.

       --t_epoch
	      New in version 9.4.

	      Epoch of coordinates in the target CRS, as decimal  year.	  Only
	      applies to a dynamic CRS.

EXAMPLES
       1. Query	the CRS	object corresponding to	EPSG:4326

	  projinfo EPSG:4326

       Output:

	  PROJ.4 string:
	  +proj=longlat	+datum=WGS84 +no_defs +type=crs

	  WKT2:2019 string:
	  GEOGCRS["WGS 84",
	      DATUM["World Geodetic System 1984",
		  ELLIPSOID["WGS 84",6378137,298.257223563,
		      LENGTHUNIT["metre",1]]],
	      PRIMEM["Greenwich",0,
		  ANGLEUNIT["degree",0.0174532925199433]],
	      CS[ellipsoidal,2],
		  AXIS["geodetic latitude (Lat)",north,
		      ORDER[1],
		      ANGLEUNIT["degree",0.0174532925199433]],
		  AXIS["geodetic longitude (Lon)",east,
		      ORDER[2],
		      ANGLEUNIT["degree",0.0174532925199433]],
	      USAGE[
		  SCOPE["unknown"],
		  AREA["World"],
		  BBOX[-90,-180,90,180]],
	      ID["EPSG",4326]]

       2. List	the coordinate operations between NAD27	(designed with its CRS
	  name)	and NAD83 (designed with its EPSG code 4269) within an area of
	  interest

	  projinfo -s NAD27 -t EPSG:4269 --area	"USA - Missouri"

       Output:

	  DERIVED_FROM(EPSG):1241, NAD27 to NAD83 (1), 0.15 m, USA - CONUS including EEZ

	  PROJ string:
	  +proj=pipeline +step +proj=axisswap +order=2,1 +step +proj=unitconvert \
	  +xy_in=deg +xy_out=rad +step +proj=hgridshift	+grids=conus \
	  +step	+proj=unitconvert +xy_in=rad +xy_out=deg +step +proj=axisswap +order=2,1

	  WKT2:2019 string:
	  COORDINATEOPERATION["NAD27 to	NAD83 (1)",
	      SOURCECRS[
		  GEOGCRS["NAD27",
		      DATUM["North American Datum 1927",
			  ELLIPSOID["Clarke 1866",6378206.4,294.978698213898,
			      LENGTHUNIT["metre",1]]],
		      PRIMEM["Greenwich",0,
			  ANGLEUNIT["degree",0.0174532925199433]],
		      CS[ellipsoidal,2],
			  AXIS["geodetic latitude (Lat)",north,
			      ORDER[1],
			      ANGLEUNIT["degree",0.0174532925199433]],
			  AXIS["geodetic longitude (Lon)",east,
			      ORDER[2],
			      ANGLEUNIT["degree",0.0174532925199433]]]],
	      TARGETCRS[
		  GEOGCRS["NAD83",
		      DATUM["North American Datum 1983",
			  ELLIPSOID["GRS 1980",6378137,298.257222101,
			      LENGTHUNIT["metre",1]]],
		      PRIMEM["Greenwich",0,
			  ANGLEUNIT["degree",0.0174532925199433]],
		      CS[ellipsoidal,2],
			  AXIS["geodetic latitude (Lat)",north,
			      ORDER[1],
			      ANGLEUNIT["degree",0.0174532925199433]],
			  AXIS["geodetic longitude (Lon)",east,
			      ORDER[2],
			      ANGLEUNIT["degree",0.0174532925199433]]]],
	      METHOD["CTABLE2"],
	      PARAMETERFILE["Latitude and longitude difference file","conus"],
	      OPERATIONACCURACY[0.15],
	      USAGE[
		  SCOPE["unknown"],
		  AREA["USA - CONUS including EEZ"],
		  BBOX[23.81,-129.17,49.38,-65.69]],
	      ID["DERIVED_FROM(EPSG)",1241]]

       3. Export an object as a	PROJJSON string

	  projinfo GDA94 -o PROJJSON -q

       Output:

	  {
	      "type": "GeographicCRS",
	      "name": "GDA94",
	      "datum": {
		  "type": "GeodeticReferenceFrame",
		  "name": "Geocentric Datum of Australia 1994",
		  "ellipsoid": {
		      "name": "GRS 1980",
		      "semi_major_axis": 6378137,
		      "inverse_flattening": 298.257222101
		  }
	      },
	      "coordinate_system": {
		  "subtype": "ellipsoidal",
		  "axis": [
		  {
		      "name": "Geodetic	latitude",
		      "abbreviation": "Lat",
		      "direction": "north",
		      "unit": "degree"
		  },
		  {
		      "name": "Geodetic	longitude",
		      "abbreviation": "Lon",
		      "direction": "east",
		      "unit": "degree"
		  }
		  ]
	      },
	      "area": "Australia - GDA",
	      "bbox": {
		  "south_latitude": -60.56,
		  "west_longitude": 93.41,
		  "north_latitude": -8.47,
		  "east_longitude": 173.35
	      },
	      "id": {
		  "authority": "EPSG",
		  "code": 4283
	      }
	  }

       4. Exporting the	SQL statements to insert a new	CRS  in	 an  auxiliary
	  database.

	  # Get	the SQL	statements for a custom	CRS
	  projinfo "+proj=merc +lat_ts=5 +datum=WGS84 +type=crs	+title=my_crs" --output-id HOBU:MY_CRS -o SQL -q > my_crs.sql
	  cat my_crs.sql

	  # Initialize an auxiliary database with the schema of	the reference database
	  echo ".schema" | sqlite3 /path/to/proj.db | sqlite3 aux.db

	  # Append the content of the definition of HOBU:MY_CRS
	  sqlite3 aux.db < my_crs.db

	  # Check that everything works	OK
	  projinfo --aux-db-path aux.db	HOBU:MY_CRS

       or more simply:

	  # Create an auxiliary	database with the definition of	a custom CRS.
	  projinfo "+proj=merc +lat_ts=5 +datum=WGS84 +type=crs	+title=my_crs" --output-id HOBU:MY_CRS --dump-db-structure | sqlite3 aux.db

	  # Check that everything works	OK
	  projinfo --aux-db-path aux.db	HOBU:MY_CRS

       Output:

	  INSERT INTO geodetic_crs VALUES('HOBU','GEODETIC_CRS_MY_CRS','unknown','','geographic	2D','EPSG','6424','EPSG','6326',NULL,0);
	  INSERT INTO usage VALUES('HOBU','USAGE_GEODETIC_CRS_MY_CRS','geodetic_crs','HOBU','GEODETIC_CRS_MY_CRS','PROJ','EXTENT_UNKNOWN','PROJ','SCOPE_UNKNOWN');
	  INSERT INTO conversion VALUES('HOBU','CONVERSION_MY_CRS','unknown','','EPSG','9805','Mercator	(variant B)','EPSG','8823','Latitude of	1st standard parallel',5,'EPSG','9122','EPSG','8802','Longitude	of natural origin',0,'EPSG','9122','EPSG','8806','False	easting',0,'EPSG','9001','EPSG','8807','False northing',0,'EPSG','9001',NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,0);
	  INSERT INTO usage VALUES('HOBU','USAGE_CONVERSION_MY_CRS','conversion','HOBU','CONVERSION_MY_CRS','PROJ','EXTENT_UNKNOWN','PROJ','SCOPE_UNKNOWN');
	  INSERT INTO projected_crs VALUES('HOBU','MY_CRS','my_crs','','EPSG','4400','HOBU','GEODETIC_CRS_MY_CRS','HOBU','CONVERSION_MY_CRS',NULL,0);
	  INSERT INTO usage VALUES('HOBU','USAGE_PROJECTED_CRS_MY_CRS','projected_crs','HOBU','MY_CRS','PROJ','EXTENT_UNKNOWN','PROJ','SCOPE_UNKNOWN');

	  PROJ.4 string:
	  +proj=merc +lat_ts=5 +lon_0=0	+x_0=0 +y_0=0 +datum=WGS84 +units=m +no_defs +type=crs

	  WKT2:2019 string:
	  PROJCRS["my_crs",
	      BASEGEOGCRS["unknown",
		  ENSEMBLE["World Geodetic System 1984 ensemble",
		      MEMBER["World Geodetic System 1984 (Transit)"],
		      MEMBER["World Geodetic System 1984 (G730)"],
		      MEMBER["World Geodetic System 1984 (G873)"],
		      MEMBER["World Geodetic System 1984 (G1150)"],
		      MEMBER["World Geodetic System 1984 (G1674)"],
		      MEMBER["World Geodetic System 1984 (G1762)"],
		      ELLIPSOID["WGS 84",6378137,298.257223563,
			  LENGTHUNIT["metre",1]],
		      ENSEMBLEACCURACY[2.0]],
		  PRIMEM["Greenwich",0,
		      ANGLEUNIT["degree",0.0174532925199433]],
		  ID["HOBU","GEODETIC_CRS_MY_CRS"]],
	      CONVERSION["unknown",
		  METHOD["Mercator (variant B)",
		      ID["EPSG",9805]],
		  PARAMETER["Latitude of 1st standard parallel",5,
		      ANGLEUNIT["degree",0.0174532925199433],
		      ID["EPSG",8823]],
		  PARAMETER["Longitude of natural origin",0,
		      ANGLEUNIT["degree",0.0174532925199433],
		      ID["EPSG",8802]],
		  PARAMETER["False easting",0,
		      LENGTHUNIT["metre",1],
		      ID["EPSG",8806]],
		  PARAMETER["False northing",0,
		      LENGTHUNIT["metre",1],
		      ID["EPSG",8807]]],
	      CS[Cartesian,2],
		  AXIS["(E)",east,
		      ORDER[1],
		      LENGTHUNIT["metre",1]],
		  AXIS["(N)",north,
		      ORDER[2],
		      LENGTHUNIT["metre",1]],
	      ID["HOBU","MY_CRS"]]

       5. Get  the  WKT	 representation	 of EPSG:25832 in the WKT1:GDAL	output
	  format and on	a single line

	  projinfo -o WKT1:GDAL	--single-line EPSG:25832

       Output:

	  WKT1:GDAL string:
	  PROJCS["ETRS89 / UTM zone 32N",GEOGCS["ETRS89",DATUM["European_Terrestrial_Reference_System_1989",SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],AUTHORITY["EPSG","6258"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4258"]],PROJECTION["Transverse_Mercator"],PARAMETER["latitude_of_origin",0],PARAMETER["central_meridian",9],PARAMETER["scale_factor",0.9996],PARAMETER["false_easting",500000],PARAMETER["false_northing",0],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["Easting",EAST],AXIS["Northing",NORTH],AUTHORITY["EPSG","25832"]]

SEE ALSO
       cs2cs(1), cct(1), geod(1), gie(1), proj(1), projsync(1)

BUGS
       A     list     of     known     bugs	can	 be	 found	    at
       https://github.com/OSGeo/PROJ/issues  where new bug reports can be sub-
       mitted to.

HOME PAGE
       https://proj.org/

AUTHOR
       Even Rouault

COPYRIGHT
       1983-2025, PROJ contributors

9.6				  15 Mar 2025			   PROJINFO(1)

Want to link to this manual page? Use this URL:
<https://man.freebsd.org/cgi/man.cgi?query=projinfo&sektion=1&manpath=FreeBSD+Ports+14.3.quarterly>

home | help