Provided by: gdal-bin_3.7.1+dfsg-1build1_amd64 
NAME
ogrinfo - Lists information about an OGR-supported data source.
SYNOPSIS
ogrinfo [--help-general] [-json] [-ro] [-q] [-where restricted_where|@filename]
[-spat xmin ymin xmax ymax] [-geomfield field] [-fid fid]
[-sql statement|@filename] [-dialect dialect] [-al] [-rl]
[-so|-features] [-fields={YES/NO}]
[-geom={YES/NO/SUMMARY/WKT/ISO_WKT}] [--formats] [[-oo NAME=VALUE] ...]
[-nomd] [-listmdd] [-mdd domain|`all`]*
[-nocount] [-noextent] [-nogeomtype] [-wkt_format WKT1|WKT2|...]
[-fielddomain name]
<datasource_name> [<layer> [<layer> ...]]
DESCRIPTION
The ogrinfo program lists various information about an OGR-supported data source to stdout
(the terminal). By executing SQL statements it is also possible to edit data.
-json Display the output in json format, conforming to the ogrinfo.schema.json schema.
New in version 3.7.
-ro Open the data source in read-only mode.
-al List all layers (used instead of having to give layer names as arguments). In the
default text output, this also enables listing all features, which can be disabled
with -so. In JSON output, -al is implicit, but listing of features must be
explicitly enabled with -features.
-rl Enable random layer reading mode, i.e. iterate over features in the order they are
found in the dataset, and not layer per layer. This can be significantly faster for
some formats (for example OSM, GMLAS).
New in version 2.2.
-so Summary Only: suppress listing of individual features and show only summary
information like projection, schema, feature count and extents.
-features
Enable listing of features. This has the opposite effect of -so.
This option should be used with caution if using the library function
GDALVectorInfo() and/or -json, as the whole output of ogrinfo will be built in
memory. Consequently, when used on a large collection of features, RAM may be
exhausted.
New in version 3.7.
-q Quiet verbose reporting of various information, including coordinate system, layer
schema, extents, and feature count.
-where <restricted_where>
An attribute query in a restricted form of the queries used in the SQL WHERE
statement. Only features matching the attribute query will be reported. Starting
with GDAL 2.1, the \filename syntax can be used to indicate that the content is in
the pointed filename.
-sql <statement>
Execute the indicated SQL statement and return the result. Starting with GDAL 2.1,
the @filename syntax can be used to indicate that the content is in the pointed
filename. Data can also be edited with SQL INSERT, UPDATE, DELETE, DROP TABLE,
ALTER TABLE etc. Editing capabilities depend on the selected dialect.
-dialect <dialect>
SQL dialect. In some cases can be used to use (unoptimized) OGR SQL dialect instead
of the native SQL of an RDBMS by passing the OGRSQL dialect value. The SQL SQLite
dialect can be selected with the SQLITE and INDIRECT_SQLITE dialect values, and
this can be used with any datasource.
-spat <xmin> <ymin> <xmax> <ymax>
The area of interest. Only features within the rectangle will be reported.
-geomfield <field>
Name of the geometry field on which the spatial filter operates.
-fid <fid>
If provided, only the feature with this feature id will be reported. Operates
exclusive of the spatial or attribute queries. Note: if you want to select several
features based on their feature id, you can also use the fact the 'fid' is a
special field recognized by OGR SQL. So, -where "fid in (1,3,5)" would select
features 1, 3 and 5.
-fields YES|NO:
If set to NO, the feature dump will not display field values. Default value is YES.
-fielddomain <domain_name>
New in version 3.3.
Display details about a field domain.
-geom YES|NO|SUMMARY|WKT|ISO_WKT
If set to NO, the feature dump will not display the geometry. If set to SUMMARY,
only a summary of the geometry will be displayed. If set to YES or ISO_WKT, the
geometry will be reported in full OGC WKT format. If set to WKT the geometry will
be reported in legacy WKT. Default value is YES. (WKT and ISO_WKT are available
starting with GDAL 2.1, which also changes the default to ISO_WKT)
-oo NAME=VALUE
Dataset open option (format-specific)
-nomd Suppress metadata printing. Some datasets may contain a lot of metadata strings.
-listmdd
List all metadata domains available for the dataset.
-mdd <domain>
Report metadata for the specified domain. all can be used to report metadata in all
domains.
-nocount
Suppress feature count printing.
-noextent
Suppress spatial extent printing.
-nogeomtype
Suppress layer geometry type printing.
New in version 3.1.
--formats
List the format drivers that are enabled.
-wkt_format <format>
The WKT format used to display the SRS. Currently supported values for the format
are:
WKT1
WKT2 (latest WKT version, currently WKT2_2018)
WKT2_2015
WKT2_2018
New in version 3.0.0.
<datasource_name>
The data source to open. May be a filename, directory or other virtual name. See
the OGR Vector Formats list for supported datasources.
<layer>
One or more layer names may be reported. If no layer names are passed then ogrinfo
will report a list of available layers (and their layer wide geometry type). If
layer name(s) are given then their extents, coordinate system, feature count,
geometry type, schema and all features matching query parameters will be reported
to the terminal. If no query parameters are provided, all features are reported.
Geometries are reported in OGC WKT format.
C API
This utility is also callable from C with GDALVectorInfo().
New in version 3.7.
EXAMPLES
Example of reporting the names of the layers in a NTF file:
ogrinfo wrk/SHETLAND_ISLANDS.NTF
# INFO: Open of `wrk/SHETLAND_ISLANDS.NTF'
# using driver `UK .NTF' successful.
# 1: BL2000_LINK (Line String)
# 2: BL2000_POLY (None)
# 3: BL2000_COLLECTIONS (None)
# 4: FEATURE_CLASSES (None)
Example of retrieving a summary (-so) of a layer without showing details about every
single feature:
ogrinfo \
-so \
natural_earth_vector.gpkg \
ne_10m_admin_0_antarctic_claim_limit_lines
# INFO: Open of `natural_earth_vector.gpkg'
# using driver `GPKG' successful.
# Layer name: ne_10m_admin_0_antarctic_claim_limit_lines
# Geometry: Line String
# Feature Count: 23
# Extent: (-150.000000, -90.000000) - (160.100000, -60.000000)
# Layer SRS WKT:
# GEOGCS["WGS 84",
# DATUM["WGS_1984",
# SPHEROID["WGS 84",6378137,298.257223563,
# AUTHORITY["EPSG","7030"]],
# AUTHORITY["EPSG","6326"]],
# PRIMEM["Greenwich",0,
# AUTHORITY["EPSG","8901"]],
# UNIT["degree",0.0174532925199433,
# AUTHORITY["EPSG","9122"]],
# AUTHORITY["EPSG","4326"]]
# FID Column = fid
# Geometry Column = geom
# type: String (15.0)
# scalerank: Integer (0.0)
# featurecla: String (50.0)
Example of retrieving information on a file in JSON format without showing details about
every single feature:
ogrinfo -json poly.shp
{
"description":"autotest/ogr/data/poly.shp",
"driverShortName":"ESRI Shapefile",
"driverLongName":"ESRI Shapefile",
"layers":[
{
"name":"poly",
"metadata":{
"":{
"DBF_DATE_LAST_UPDATE":"2018-08-02"
},
"SHAPEFILE":{
"SOURCE_ENCODING":""
}
},
"geometryFields":[
{
"name":"",
"type":"Polygon",
"nullable":true,
"extent":[
478315.53125,
4762880.5,
481645.3125,
4765610.5
],
"coordinateSystem":{
"wkt":"PROJCRS[\"OSGB36 / British National Grid\",BASEGEOGCRS[\"OSGB36\",DATUM[\"Ordnance Survey of Great Britain 1936\",ELLIPSOID[\"Airy 1830\",6377563.396,299.3249646,LENGTHUNIT[\"metre\",1]]],PRIMEM[\"Greenwich\",0,ANGLEUNIT[\"degree\",0.0174532925199433]],ID[\"EPSG\",4277]],CONVERSION[\"British National Grid\",METHOD[\"Transverse Mercator\",ID[\"EPSG\",9807]],PARAMETER[\"Latitude of natural origin\",49,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8801]],PARAMETER[\"Longitude of natural origin\",-2,ANGLEUNIT[\"degree\",0.0174532925199433],ID[\"EPSG\",8802]],PARAMETER[\"Scale factor at natural origin\",0.9996012717,SCALEUNIT[\"unity\",1],ID[\"EPSG\",8805]],PARAMETER[\"False easting\",400000,LENGTHUNIT[\"metre\",1],ID[\"EPSG\",8806]],PARAMETER[\"False northing\",-100000,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]],USAGE[SCOPE[\"Engineering survey, topographic mapping.\"],AREA[\"United Kingdom (UK) - offshore to boundary of UKCS within 49°45'N to 61°N and 9°W to 2°E; onshore Great Britain (England, Wales and Scotland). Isle of Man onshore.\"],BBOX[49.75,-9,61.01,2.01]],ID[\"EPSG\",27700]]",
"projjson":{
"$schema":"https://proj.org/schemas/v0.6/projjson.schema.json",
"type":"ProjectedCRS",
"name":"OSGB36 / British National Grid",
"base_crs":{
"name":"OSGB36",
"datum":{
"type":"GeodeticReferenceFrame",
"name":"Ordnance Survey of Great Britain 1936",
"ellipsoid":{
"name":"Airy 1830",
"semi_major_axis":6377563.396,
"inverse_flattening":299.3249646
}
},
"coordinate_system":{
"subtype":"ellipsoidal",
"axis":[
{
"name":"Geodetic latitude",
"abbreviation":"Lat",
"direction":"north",
"unit":"degree"
},
{
"name":"Geodetic longitude",
"abbreviation":"Lon",
"direction":"east",
"unit":"degree"
}
]
},
"id":{
"authority":"EPSG",
"code":4277
}
},
"conversion":{
"name":"British National Grid",
"method":{
"name":"Transverse Mercator",
"id":{
"authority":"EPSG",
"code":9807
}
},
"parameters":[
{
"name":"Latitude of natural origin",
"value":49,
"unit":"degree",
"id":{
"authority":"EPSG",
"code":8801
}
},
{
"name":"Longitude of natural origin",
"value":-2,
"unit":"degree",
"id":{
"authority":"EPSG",
"code":8802
}
},
{
"name":"Scale factor at natural origin",
"value":0.9996012717,
"unit":"unity",
"id":{
"authority":"EPSG",
"code":8805
}
},
{
"name":"False easting",
"value":400000,
"unit":"metre",
"id":{
"authority":"EPSG",
"code":8806
}
},
{
"name":"False northing",
"value":-100000,
"unit":"metre",
"id":{
"authority":"EPSG",
"code":8807
}
}
]
},
"coordinate_system":{
"subtype":"Cartesian",
"axis":[
{
"name":"Easting",
"abbreviation":"E",
"direction":"east",
"unit":"metre"
},
{
"name":"Northing",
"abbreviation":"N",
"direction":"north",
"unit":"metre"
}
]
},
"scope":"Engineering survey, topographic mapping.",
"area":"United Kingdom (UK) - offshore to boundary of UKCS within 49°45'N to 61°N and 9°W to 2°E; onshore Great Britain (England, Wales and Scotland). Isle of Man onshore.",
"bbox":{
"south_latitude":49.75,
"west_longitude":-9,
"north_latitude":61.01,
"east_longitude":2.01
},
"id":{
"authority":"EPSG",
"code":27700
}
},
"dataAxisToSRSAxisMapping":[
1,
2
]
}
}
],
"featureCount":10,
"fields":[
{
"name":"AREA",
"type":"Real",
"width":12,
"precision":3,
"nullable":true,
"uniqueConstraint":false
},
{
"name":"EAS_ID",
"type":"Integer64",
"width":11,
"nullable":true,
"uniqueConstraint":false
},
{
"name":"PRFEDEA",
"type":"String",
"width":16,
"nullable":true,
"uniqueConstraint":false
}
]
}
],
"metadata":{
},
"domains":{
},
"relationships":{
}
}
Example of using an attribute query to restrict the output of the features in a layer:
ogrinfo -ro \
-where 'GLOBAL_LINK_ID=185878' \
wrk/SHETLAND_ISLANDS.NTF BL2000_LINK
# INFO: Open of `wrk/SHETLAND_ISLANDS.NTF'
# using driver `UK .NTF' successful.
#
# Layer name: BL2000_LINK
# Geometry: Line String
# Feature Count: 1
# Extent: (419794.100000, 1069031.000000) - (419927.900000, 1069153.500000)
# Layer SRS WKT:
# PROJCS["OSGB 1936 / British National Grid",
# GEOGCS["OSGB 1936",
# DATUM["OSGB_1936",
# SPHEROID["Airy 1830",6377563.396,299.3249646]],
# PRIMEM["Greenwich",0],
# UNIT["degree",0.0174532925199433]],
# PROJECTION["Transverse_Mercator"],
# PARAMETER["latitude_of_origin",49],
# PARAMETER["central_meridian",-2],
# PARAMETER["scale_factor",0.999601272],
# PARAMETER["false_easting",400000],
# PARAMETER["false_northing",-100000],
# UNIT["metre",1]]
# LINE_ID: Integer (6.0)
# GEOM_ID: Integer (6.0)
# FEAT_CODE: String (4.0)
# GLOBAL_LINK_ID: Integer (10.0)
# TILE_REF: String (10.0)
# OGRFeature(BL2000_LINK):2
# LINE_ID (Integer) = 2
# GEOM_ID (Integer) = 2
# FEAT_CODE (String) = (null)
# GLOBAL_LINK_ID (Integer) = 185878
# TILE_REF (String) = SHETLAND I
# LINESTRING (419832.100 1069046.300,419820.100 1069043.800,419808.300
# 1069048.800,419805.100 1069046.000,419805.000 1069040.600,419809.400
# 1069037.400,419827.400 1069035.600,419842 1069031,419859.000
# 1069032.800,419879.500 1069049.500,419886.700 1069061.400,419890.100
# 1069070.500,419890.900 1069081.800,419896.500 1069086.800,419898.400
# 1069092.900,419896.700 1069094.800,419892.500 1069094.300,419878.100
# 1069085.600,419875.400 1069087.300,419875.100 1069091.100,419872.200
# 1069094.600,419890.400 1069106.400,419907.600 1069112.800,419924.600
# 1069133.800,419927.900 1069146.300,419927.600 1069152.400,419922.600
# 1069153.500,419917.100 1069153.500,419911.500 1069153.000,419908.700
# 1069152.500,419903.400 1069150.800,419898.800 1069149.400,419894.800
# 1069149.300,419890.700 1069149.400,419890.600 1069149.400,419880.800
# 1069149.800,419876.900 1069148.900,419873.100 1069147.500,419870.200
# 1069146.400,419862.100 1069143.000,419860 1069142,419854.900
# 1069138.600,419850 1069135,419848.800 1069134.100,419843
# 1069130,419836.200 1069127.600,419824.600 1069123.800,419820.200
# 1069126.900,419815.500 1069126.900,419808.200 1069116.500,419798.700
# 1069117.600,419794.100 1069115.100,419796.300 1069109.100,419801.800
# 1069106.800,419805.000 1069107.300)
Example of updating a value of an attribute in a shapefile with SQL by using the SQLite
dialect:
ogrinfo test.shp -dialect sqlite -sql "update test set attr='bar' where attr='foo'"
AUTHOR
Frank Warmerdam <warmerdam@pobox.com>, Silke Reimer <silke@intevation.de>
COPYRIGHT
1998-2023
Jul 06, 2023 OGRINFO(1)