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SQL support in GRASS GIS

       Vector  points,  lines  and areas usually have attribute data that are stored in DBMS. The
       attributes are linked to each vector object using a category number (attribute ID, usually
       the "cat" integer column). The category numbers are stored both in the vector geometry and
       the attribute table.

       GRASS GIS supports various RDBMS (Relational  database  management  system)  and  embedded
       databases.  SQL  (Structured Query Language) queries are directly passed to the underlying
       database system. The set of supported SQL commands  depends  on  the  RDMBS  and  database
       driver selected.

Database drivers

       The   default  database  driver  used  by  GRASS  GIS  7  is  SQLite.  GRASS  GIS  handles
       multiattribute vector data by default. The  db.*  set  of  commands   provides  basic  SQL
       support  for  attribute  management,  while  the v.db.* set of commands operates on vector
       maps.

       Note: The list of available database drivers can vary in various binary  distributions  of
       GRASS GIS:

       sqlite                                                       Data storage in SQLite database files (default DB backend)   http://sqlite.org/

       dbf                                                          Data storage in DBF files                                    http://shapelib.maptools.org/dbf_api.html

       pg                                                           Data storage in PostgreSQL RDBMS                             http://postgresql.org/

       mysql                                                        Data storage in MySQL RDBMS                                  http://mysql.org/

       odbc                                                         Data storage via UnixODBC (PostgreSQL, Oracle, etc.)         http://www.unixodbc.org/

       ogr                                                          Data storage in OGR files                                    http://gdal.org/

NOTES

   Database table name restrictions
           •   No dots are allowed as SQL does not support ’.’ (dots) in table names.

           •   Supported table name characters are only:
               [A-Za-z][A-Za-z0-9_]*

           •   A table name must start with a character, not a number.

           •   Text-string  matching requires the text part to be ’single quoted’.  When run from
               the command line multiple queries should be contained in "double quotes". e.g.
               d.vect map where="individual=’juvenile’ and area=’beach’"

           •   Attempts to use a reserved SQL word (depends on database  backend)  as  column  or
               table name will cause a "SQL syntax error".

           •   An error message such as "dbmi: Protocol error" either indicates an invalid column
               name or an unsupported column  type  (then  the  GRASS  SQL  parser  needs  to  be
               extended).

           •   DBF column names are limited to 10 characters (DBF API definition).

   Database table column types
       The  supported  types  of  columns  depend  on the database backend. However, all backends
       should support VARCHAR, INT, DOUBLE PRECISION and DATE.

EXAMPLES

   Display of vector feature selected by attribute query
       Display all vector points except for LAMAR valley and  extensive  trapping  (brackets  are
       superfluous in this example):
       g.region vector=schools_wake -p
       d.mon wx0
       d.vect roadsmajor
       # all schools
       d.vect schools_wake fcol=black icon=basic/diamond col=white size=13
       # numerical selection: show schools with capacity of above 1000 kids:
       d.vect schools_wake fcol=blue icon=basic/diamond col=white size=13 \
           where="CAPACITYTO > 1000"
       # string selection: all schools outside of Raleigh
       #   along with higher level schools in Raleigh
       d.vect schools_wake fcol=red icon=basic/diamond col=white size=13 \
           where="ADDRCITY <> ’Raleigh’ OR (ADDRCITY = ’Raleigh’ AND GLEVEL = ’H’)"

       Select  all  attributes  from  table  where  CORECAPACI column values are smaller than 200
       (children):
       # must be run from the mapset which contains the table
       echo "SELECT * FROM schools_wake WHERE CORECAPACI < 200" | db.select input=-

       Example of subquery expressions from a list (not supported for DBF driver):
       v.db.select schools_wake where="ADDRCITY IN (’Apex’, ’Wendell’)"

   Example of pattern matching
       # field contains string:
       #  for DBF driver:
       v.extract schools_wake out=elementary_schools where="NAMELONG LIKE ’ELEM’"
       #  for SQLite driver:
       v.extract schools_wake out=rivers_noce where="DES LIKE ’%NOCE%’"
       v.extract schools_wake out=elementary_schools where="NAMELONG LIKE ’%ELEM%’"
       # match exactly number of characters (here: 2), does not work for DBF driver:
       v.db.select mysites where="id LIKE ’P__’"
       #define wildcard:
       v.db.select mysites where="id LIKE ’P%’"

   Example of null handling
       v.db.addcolumn map=roads col="nulltest int"
       v.db.update map=roads col=nulltest value=1 where="cat > 2"
       d.vect roads where="nulltest is null"
       v.db.update map=roads col=nulltest value=2 where="cat <= 2"

   Update of attributes
       Examples of complex expressions in updates (using v.db.*  modules):
       v.db.addcolumn map=roads column="exprtest double precision"
       v.db.update map=roads column=exprtest value="cat/nulltest"
       v.db.update map=roads column=exprtest value="cat/nulltest+cat" where="cat=1"
       # using data from another column
       v.db.update map=roads column=exprtest qcolumn="(cat*100.)/SHAPE_LEN."

       Examples of more complex expressions in updates (using db.*  modules):
       echo "UPDATE roads SET exprtest=null"
       echo "UPDATE roads SET exprtest=cat/2" | db.execute
       echo "UPDATE roads SET exprtest=cat/2+cat/3" | db.execute
       echo "UPDATE roads SET exprtest=NULL WHERE cat>2" | db.execute
       echo "UPDATE roads SET exprtest=cat/3*(cat+1) WHERE exprtest IS NULL" | db.execute"

       Instead of creating and  updating  new  columns  with  an  expression,  you  can  use  the
       expression directly in a command:
       d.vect roads where="(cat/3*(cat+1))>8"
       d.vect roads where="cat>exprtest"

   Example of changing a SQL type (type casting)
       Note: not supported for DBF driver.

       North Carolina data set: convert string column to double precision:

       # first copy map into current mapset
       g.copy vect=geodetic_pts,mygeodetic_pts
       v.db.addcolumn mygeodetic_pts col="zval double precision"
       # the ’z_value’ col contains ’N/A’ strings, not to be converted
       v.db.update mygeodetic_pts col=zval \
                   qcol="CAST(z_value AS double precision)" \
                   where="z_value <> ’N/A’"

   Example of concatenation of fields
       Note: not supported for DBF driver.
       v.db.update vectormap column=column3 qcolumn="column1 || column2"

   Example of conditions
       Conditions (like if statements) are usually written as CASE statement in SQL:
       v.db.update vectormap column=species qcolumn="CASE WHEN col1 >= 12 THEN cat else NULL end"
       # a more complex example with nested conditions
       v.db.update vectormap column=species qcolumn="CASE WHEN col1 >= 1 THEN cat WHEN row = 13 then 0 ELSE NULL end"

SEE ALSO

        db.connect, db.select, db.execute, v.db.connect, v.db.select, v.db.update

       Database management in GRASS GIS, Help pages for database modules

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       © 2003-2022 GRASS Development Team, GRASS GIS 7.8.7 Reference Manual