Note: This document is for an older version of GRASS GIS that has been discontinued. You should upgrade, and read the current manual page.
NAME
v.in.db - Creates new vector (points) map from database table containing coordinates.
KEYWORDS
vector,
import,
database,
points
SYNOPSIS
v.in.db
v.in.db --help
v.in.db [-t] table=name [driver=name] [database=name] x=name y=name [z=name] [key=name] [where=sql_query] output=name [--overwrite] [--help] [--verbose] [--quiet] [--ui]
Flags:
- -t
- Use imported table as attribute table for new map
- --overwrite
- Allow output files to overwrite existing files
- --help
- Print usage summary
- --verbose
- Verbose module output
- --quiet
- Quiet module output
- --ui
- Force launching GUI dialog
Parameters:
- table=name [required]
- Input table name
- driver=name
- Name of database driver
- Options: dbf, odbc, ogr, pg, sqlite
- Default: sqlite
- database=name
- Name of database
- Default: $GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db
- x=name [required]
- Name of column containing x coordinate
- y=name [required]
- Name of column containing y coordinate
- z=name
- Name of column containing z coordinate
- key=name
- Name of column containing category number
- Must refer to an integer column
- where=sql_query
- WHERE conditions of SQL statement without 'where' keyword
- Example: income < 1000 and population >= 10000
- output=name [required]
- Name for output vector map
v.in.db creates a new vector point map from database table or file
containing coordinates.
If GRASS comes with
OGR support
than
v.in.db allows importing data from different input
files, eg. CSV or MS Excel (assuming that GDAL/OGR library is compiled
with this support).
v.in.db creates key column "cat" automatically
when key option is not given. Note that this operation is
possible to perform only when -t flag is not given. Currently,
automated creation of key column is supported only when default DB
driver for output vector map is SQLite
driver otherwise key option must be specified by the
user. Default DB driver is defined
by db.connect.
v.in.db driver=pg database="host=myserver.itc.it,dbname=mydb" \
table=pat_stazioni x=east y=north z=quota key=id output=pat_stazioni
If an ID column is not present in the PostgreSQL table, a new
column should be added. See PostgreSQL DB
driver page for details.
To extract coordinate values from PostGIS, functions have to be used:
v.in.db driver=pg database="host=myserver.itc.it,dbname=mydb" \
table=station x="x(geom)" y="y(geom)" z="z(geom)" key=id out=meteostations
If an ID column is not present in the PostgreSQL table, a new
column should be added. See PostgreSQL DB
driver page for details.
Alternatively a vector point map can be imported from PostGIS
database using v.in.ogr.
A new vector point map is created from given sheet in ODS file. The
database option points to the ODS file. Option
table is the
name of selected spreadsheet list, the
key option is the identifier
column:
# preview table structure with OGR tool (table name is "Layer name" here):
ogrinfo -al -so meteodata.ods
# import sheet from ODS into map
v.in.db key=ID table=mysheet x=long y=lat z=height output=meteodata \
driver=ogr database=meteodata.ods
A new vector point map is created from given sheet in MS Excel file. The
database option points to the file in MS Excel
format. Option
table is name of the selected spreadsheet "List1":
v.in.db table=List1 x=long y=lat z=height output=meteodata \
driver=ogr database=meteodata.xls
Note that in this example the
key option is omitted. In this case
v.in.db tries to add key column automatically. This
requires
SQLite to be a default DB
driver.
A new 3D point vector map is created from DBF table. Column 'idcol'
contains unique row IDs. The
database option is the
directory where the DBF file is stored.
v.in.db driver=dbf database=/home/user/tables/ table=pointsfile x=x y=y z=z \
key=idcol out=dtmpoints
To check result:
v.info dtmpoints
v.info -c dtmpoints
If DB driver for output vector map is different from SQLite driver
and an ID column is missing in the DBF file, it has to be added
beforehand, e.g. with OpenOffice. Alternatively, import the table
with db.in.ogr into GRASS and
then with v.in.db from the imported table
(db.in.ogr optionally adds an
unique ID column).
The user can import only selected vector points from a table using
the where parameter (see above for general DBF handling):
v.in.db driver=dbf database=/home/user/tables/ table=pointsfile x=x y=y z=z \
key=idcol out=dtmpoints where="x NOT NULL and z > 100"
A new vector point map is created from table in SQLite database
file. Column 'idcol' contains unique row IDs. The
database option is the the SQLite database file.
v.in.db driver=sqlite database=/home/user/tables/mysqlite.db table=pointsfile x=x y=y z=z \
key=idcol out=dtmpoints
db.execute,
db.in.ogr,
v.info,
v.in.geonames,
v.in.ogr,
v.to.db
SQL support in GRASS GIS
Radim Blazek
Various updates for GRASS 7 by Martin Landa, Czech Technical University in Prague, Czech Republic
SOURCE CODE
Available at:
v.in.db source code
(history)
Latest change: Thursday Jan 26 14:10:26 2023 in commit: cdd84c130cea04b204479e2efdc75c742efc4843
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© 2003-2024
GRASS Development Team,
GRASS GIS 8.3.3dev Reference Manual