"""
Created on Wed Aug 8 15:29:21 2012
@author: pietro
"""
import ctypes
import os
from collections import OrderedDict
import numpy as np
from sqlite3 import OperationalError
import grass.lib.vector as libvect
from grass.pygrass.gis import Mapset
from grass.exceptions import DBError
from grass.pygrass.utils import table_exist, decode
from grass.script.db import db_table_in_vector
from grass.script.core import warning
from grass.pygrass.vector import sql
from grass.lib.ctypes_preamble import ReturnString
# For test purposes
test_vector_name = "table_doctest_map"
DRIVERS = ("sqlite", "pg")
UNSUPPORTED_DRIVERS = ("ogr", "dbf")
[docs]def get_path(path, vect_name=None):
"""Return the full path to the database; replacing environment variable
with real values
:param path: The path with substitutional parameter
:param vect_name: The name of the vector map
>>> from grass.script.core import gisenv
>>> import os
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> new_path = get_path(path)
>>> new_path2 = os.path.join(
... gisenv()["GISDBASE"],
... gisenv()["LOCATION_NAME"],
... gisenv()["MAPSET"],
... "sqlite",
... "sqlite.db",
... )
>>> new_path.replace("//", "/") == new_path2.replace("//", "/")
True
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/vector/$MAP/sqlite.db"
>>> new_path = get_path(path, "test")
>>> new_path2 = os.path.join(
... gisenv()["GISDBASE"],
... gisenv()["LOCATION_NAME"],
... gisenv()["MAPSET"],
... "vector",
... "test",
... "sqlite.db",
... )
>>> new_path.replace("//", "/") == new_path2.replace("//", "/")
True
"""
if "$" not in path:
return path
mapset = Mapset()
path = path.replace("$GISDBASE", mapset.gisdbase)
path = path.replace("$LOCATION_NAME", mapset.location)
path = path.replace("$MAPSET", mapset.name)
if vect_name is not None:
path = path.replace("$MAP", vect_name)
return path
[docs]class Filters:
"""Help user to build a simple sql query.
>>> filter = Filters("table")
>>> filter.get_sql()
'SELECT * FROM table;'
>>> filter.where("area<10000").get_sql()
'SELECT * FROM table WHERE area<10000;'
>>> filter.select("cat", "area").get_sql()
'SELECT cat, area FROM table WHERE area<10000;'
>>> filter.order_by("area").limit(10).get_sql()
'SELECT cat, area FROM table WHERE area<10000 ORDER BY area LIMIT 10;'
"""
def __init__(self, tname):
self.tname = tname
self._select = None
self._where = None
self._orderby = None
self._limit = None
self._groupby = None
def __repr__(self):
return "Filters(%r)" % self.get_sql()
[docs] def select(self, *args):
"""Create the select query"""
cols = ", ".join(args) if args else "*"
select = sql.SELECT[:-1]
self._select = select.format(cols=cols, tname=self.tname)
return self
[docs] def where(self, condition):
"""Create the where condition
:param condition: the condition of where statement, for example
`cat = 1`
:type condition: str
"""
self._where = "WHERE {condition}".format(condition=condition)
return self
[docs] def order_by(self, *orderby):
"""Create the order by condition
:param orderby: the name of column/s to order the result
:type orderby: str
"""
self._orderby = "ORDER BY {orderby}".format(orderby=", ".join(orderby))
return self
[docs] def limit(self, number):
"""Create the limit condition
:param number: the number to limit the result
:type number: int
"""
if not isinstance(number, int):
msg = "Must be an integer."
raise ValueError(msg)
self._limit = "LIMIT {number}".format(number=number)
return self
[docs] def group_by(self, *groupby):
"""Create the group by condition
:param groupby: the name of column/s to group the result
:type groupby: str, list
"""
self._groupby = "GROUP BY {groupby}".format(groupby=", ".join(groupby))
return self
[docs] def get_sql(self):
"""Return the SQL query"""
sql_list = []
if self._select is None:
self.select()
sql_list.append(self._select)
if self._where is not None:
sql_list.append(self._where)
if self._groupby is not None:
sql_list.append(self._groupby)
if self._orderby is not None:
sql_list.append(self._orderby)
if self._limit is not None:
sql_list.append(self._limit)
return "%s;" % " ".join(sql_list)
[docs] def reset(self):
"""Clean internal variables"""
self._select = None
self._where = None
self._orderby = None
self._limit = None
self._groupby = None
[docs]class Columns:
"""Object to work with columns table.
It is possible to instantiate a Columns object given the table name and
the database connection.
For a sqlite table:
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.tname
'table_doctest_map'
For a postgreSQL table:
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.tname # doctest: +SKIP
'table_doctest_map' #doctest: +SKIP
"""
def __init__(self, tname, connection, key="cat"):
self.tname = tname
self.conn = connection
self.key = key
self.odict = None
self.update_odict()
def __contains__(self, item):
return item in self.names()
def __repr__(self):
return "Columns(%r)" % list(self.items())
def __getitem__(self, key):
return self.odict[key]
def __setitem__(self, name, new_type):
self.cast(name, new_type)
self.update_odict(self)
def __iter__(self):
return self.odict.__iter__()
def __len__(self):
return self.odict.__len__()
def __eq__(self, obj):
"""Return True if two table have the same columns.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> connection = sqlite3.connect(get_path(path))
>>> cols0 = Columns(test_vector_name, connection)
>>> cols1 = Columns(test_vector_name, connection)
>>> cols0 == cols1
True
"""
return obj.tname == self.tname and obj.odict == self.odict
def __ne__(self, other):
return not self == other
# Restore Python 2 hashing behaviour on Python 3
__hash__ = object.__hash__
[docs] def is_pg(self):
"""Return True if is a psycopg connection.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.is_pg()
False
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.is_pg() # doctest: +SKIP
True
"""
return hasattr(self.conn, "xid")
[docs] def update_odict(self):
"""Read columns name and types from table and update the odict
attribute.
"""
if self.is_pg():
# is a postgres connection
cur = self.conn.cursor()
cur.execute("SELECT oid,typname FROM pg_type")
diz = dict(cur.fetchall())
odict = OrderedDict()
import psycopg2 as pg
try:
cur.execute(sql.SELECT.format(cols="*", tname=self.tname))
descr = cur.description
for column in descr:
name, ctype = column[:2]
odict[name] = diz[ctype]
except pg.ProgrammingError:
pass
self.odict = odict
else:
# is a sqlite connection
cur = self.conn.cursor()
cur.execute(sql.PRAGMA.format(tname=self.tname))
descr = cur.fetchall()
odict = OrderedDict()
for column in descr:
name, ctype = column[1:3]
odict[name] = ctype
self.odict = odict
values = ",".join(
[
"?",
]
* (len(self))
)
kv = ",".join(["%s=?" % k for k in self.odict.keys() if k != self.key])
where = "%s=?" % self.key
self.insert_str = sql.INSERT.format(tname=self.tname, values=values)
self.update_str = sql.UPDATE_WHERE.format(
tname=self.tname, values=kv, condition=where
)
[docs] def sql_descr(self, remove=None):
"""Return a string with description of columns.
Remove it is used to remove a columns.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.sql_descr() # doctest: +ELLIPSIS
'cat INTEGER, name varchar(50), value double precision'
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.sql_descr() # doctest: +ELLIPSIS +SKIP
'cat INTEGER, name varchar(50), value double precision'
"""
if remove:
return ", ".join(
["%s %s" % (key, val) for key, val in self.items() if key != remove]
)
return ", ".join(["%s %s" % (key, val) for key, val in self.items()])
[docs] def types(self):
"""Return a list with the column types.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.types() # doctest: +ELLIPSIS
['INTEGER', 'varchar(50)', 'double precision']
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.types() # doctest: +ELLIPSIS +SKIP
['INTEGER', 'varchar(50)', 'double precision']
"""
return list(self.odict.values())
[docs] def names(self, remove=None, unicod=True):
"""Return a list with the column names.
Remove it is used to remove a columns.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.names() # doctest: +ELLIPSIS
['cat', 'name', 'value']
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, # doctest: +SKIP
... pg.connect("host=localhost dbname=grassdb"),
... )
>>> cols_pg.names() # doctest: +ELLIPSIS +SKIP
['cat', 'name', 'value']
"""
if remove:
nams = list(self.odict.keys())
nams.remove(remove)
else:
nams = list(self.odict.keys())
if unicod:
return nams
return [str(name) for name in nams]
[docs] def items(self):
"""Return a list of tuple with column name and column type.
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> cols_sqlite = Columns(test_vector_name, sqlite3.connect(get_path(path)))
>>> cols_sqlite.items() # doctest: +ELLIPSIS
[('cat', 'INTEGER'), ('name', 'varchar(50)'), ('value', 'double precision')]
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.items() # doctest: +ELLIPSIS +SKIP
[('cat', 'INTEGER'), ('name', 'varchar(50)'), ('value', 'double precision')]
"""
return list(self.odict.items())
[docs] def add(self, col_name, col_type):
"""Add a new column to the table.
:param col_name: the name of column to add
:type col_name: str
:param col_type: the tipe of column to add
:type col_type: str
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> from grass.pygrass.utils import copy, remove
>>> copy(test_vector_name, "mycensus", "vect")
>>> cols_sqlite = Columns("mycensus", sqlite3.connect(get_path(path)))
>>> cols_sqlite.add(["n_pizza"], ["INT"])
>>> "n_pizza" in cols_sqlite
True
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... "boundary_municp_pg", pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.add("n_pizza", "INT") # doctest: +SKIP
>>> "n_pizza" in cols_pg # doctest: +SKIP
True
>>> remove("mycensus", "vect")
"""
def check(col_type):
"""Check the column type if it is supported by GRASS
:param col_type: the type of column
:type col_type: str
"""
valid_type = (
"DOUBLE PRECISION",
"DOUBLE",
"INT",
"INTEGER",
"DATE",
"VARCHAR",
)
col = col_type.upper()
valid = [col.startswith(tp) for tp in valid_type]
if not any(valid):
str_err = "Type: %r is not supported.\nSupported types are: %s"
raise TypeError(str_err % (col_type, ", ".join(valid_type)))
return col_type
col_type = (
[
check(col_type),
]
if isinstance(col_type, str)
else [check(col) for col in col_type]
)
col_name = (
[
col_name,
]
if isinstance(col_name, str)
else col_name
)
sqlcode = [
sql.ADD_COL.format(tname=self.tname, cname=cn, ctype=ct)
for cn, ct in zip(col_name, col_type)
]
cur = self.conn.cursor()
cur.executescript("\n".join(sqlcode))
self.conn.commit()
cur.close()
self.update_odict()
[docs] def rename(self, old_name, new_name):
"""Rename a column of the table.
:param old_name: the name of existing column
:type old_name: str
:param new_name: the name of new column
:type new_name: str
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> from grass.pygrass.utils import copy, remove
>>> copy(test_vector_name, "mycensus", "vect")
>>> cols_sqlite = Columns("mycensus", sqlite3.connect(get_path(path)))
>>> cols_sqlite.add(["n_pizza"], ["INT"])
>>> "n_pizza" in cols_sqlite
True
>>> cols_sqlite.rename("n_pizza", "n_pizzas") # doctest: +ELLIPSIS
>>> "n_pizza" in cols_sqlite
False
>>> "n_pizzas" in cols_sqlite
True
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.rename("n_pizza", "n_pizzas") # doctest: +SKIP
>>> "n_pizza" in cols_pg # doctest: +SKIP
False
>>> "n_pizzas" in cols_pg # doctest: +SKIP
True
>>> remove("mycensus", "vect")
"""
cur = self.conn.cursor()
if self.is_pg():
cur.execute(
sql.RENAME_COL.format(
tname=self.tname, old_name=old_name, new_name=new_name
)
)
self.conn.commit()
cur.close()
self.update_odict()
else:
cur.execute(
sql.ADD_COL.format(
tname=self.tname, cname=new_name, ctype=str(self.odict[old_name])
)
)
cur.execute(
sql.UPDATE.format(tname=self.tname, new_col=new_name, old_col=old_name)
)
self.conn.commit()
cur.close()
self.update_odict()
self.drop(old_name)
[docs] def cast(self, col_name, new_type):
"""Change the column type.
:param col_name: the name of column
:type col_name: str
:param new_type: the new type of column
:type new_type: str
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> from grass.pygrass.utils import copy, remove
>>> copy(test_vector_name, "mycensus", "vect")
>>> cols_sqlite = Columns("mycensus", sqlite3.connect(get_path(path)))
>>> cols_sqlite.add(["n_pizzas"], ["INT"])
>>> cols_sqlite.cast("n_pizzas", "float8") # doctest: +ELLIPSIS
Traceback (most recent call last):
...
grass.exceptions.DBError: SQLite does not support to cast columns.
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.cast("n_pizzas", "float8") # doctest: +SKIP
>>> cols_pg["n_pizzas"] # doctest: +SKIP
'float8'
>>> remove("mycensus", "vect")
.. warning ::
It is not possible to cast a column with sqlite
"""
if self.is_pg():
cur = self.conn.cursor()
cur.execute(
sql.CAST_COL.format(tname=self.tname, col=col_name, ctype=new_type)
)
self.conn.commit()
cur.close()
self.update_odict()
else:
# sqlite does not support rename columns:
msg = "SQLite does not support to cast columns."
raise DBError(msg)
[docs] def drop(self, col_name):
"""Drop a column from the table.
:param col_name: the name of column to remove
:type col_name: str
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> from grass.pygrass.utils import copy, remove
>>> copy(test_vector_name, "mycensus", "vect")
>>> cols_sqlite = Columns("mycensus", sqlite3.connect(get_path(path)))
>>> cols_sqlite.drop("name") # doctest: +ELLIPSIS
>>> "name" in cols_sqlite
False
>>> import psycopg2 as pg # doctest: +SKIP
>>> cols_pg = Columns(
... test_vector_name, pg.connect("host=localhost dbname=grassdb")
... ) # doctest: +SKIP
>>> cols_pg.drop("name") # doctest: +SKIP
>>> "name" in cols_pg # doctest: +SKIP
False
>>> remove("mycensus", "vect")
"""
cur = self.conn.cursor()
if self.is_pg():
cur.execute(sql.DROP_COL.format(tname=self.tname, cname=col_name))
else:
desc = str(self.sql_descr(remove=col_name))
names = ", ".join(self.names(remove=col_name, unicod=False))
queries = sql.DROP_COL_SQLITE.format(
tname=self.tname, keycol=self.key, coldef=desc, colnames=names
).split("\n")
for query in queries:
cur.execute(query)
self.conn.commit()
cur.close()
self.update_odict()
[docs]class Link:
"""Define a Link between vector map and the attributes table.
It is possible to define a Link object or given all the information
(layer, name, table name, key, database, driver):
>>> link = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> link.layer
1
>>> link.name
'link0'
>>> link.table_name
'table_doctest_map'
>>> link.key
'cat'
>>> link.database
'$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db'
>>> link.driver
'sqlite'
>>> link
Link(1, link0, sqlite)
It is possible to change parameters with:
>>> link.driver = "pg" # doctest: +SKIP
>>> link.driver # doctest: +SKIP
'pg'
>>> link.driver = "postgres" # doctest: +ELLIPSIS +SKIP
Traceback (most recent call last):
...
TypeError: Driver not supported, use: sqlite, pg.
>>> link.driver # doctest: +SKIP
'pg'
>>> link.number = 0 # doctest: +ELLIPSIS +SKIP
Traceback (most recent call last):
...
TypeError: Number must be positive and greater than 0.
Or given a c_fieldinfo object that is a ctypes pointer to the field_info C
struct. ::
>>> link = Link(c_fieldinfo=ctypes.pointer(libvect.field_info()))
"""
def _get_layer(self):
return self.c_fieldinfo.contents.number
def _set_layer(self, number):
if number <= 0:
msg = "Number must be positive and greater than 0."
raise TypeError(msg)
self.c_fieldinfo.contents.number = number
layer = property(
fget=_get_layer, fset=_set_layer, doc="Set and obtain layer number"
)
def _get_name(self):
return decode(self.c_fieldinfo.contents.name)
def _set_name(self, name):
self.c_fieldinfo.contents.name = ReturnString(name)
name = property(fget=_get_name, fset=_set_name, doc="Set and obtain name vale")
def _get_table(self):
return decode(self.c_fieldinfo.contents.table)
def _set_table(self, new_name):
self.c_fieldinfo.contents.table = ReturnString(new_name)
table_name = property(
fget=_get_table, fset=_set_table, doc="Set and obtain table name value"
)
def _get_key(self):
return decode(self.c_fieldinfo.contents.key)
def _set_key(self, key):
self.c_fieldinfo.contents.key = ReturnString(key)
key = property(fget=_get_key, fset=_set_key, doc="Set and obtain cat value")
def _get_database(self):
return decode(self.c_fieldinfo.contents.database)
def _set_database(self, database):
self.c_fieldinfo.contents.database = ReturnString(database)
database = property(
fget=_get_database, fset=_set_database, doc="Set and obtain database value"
)
def _get_driver(self):
return decode(self.c_fieldinfo.contents.driver)
def _set_driver(self, driver):
if driver in DRIVERS:
self.c_fieldinfo.contents.driver = ReturnString(driver)
elif driver in UNSUPPORTED_DRIVERS:
raise NotImplementedError(
"The database driver %s is not supported by PyGRASS, "
"use: %s." % (driver, ", ".join(DRIVERS))
)
else:
raise ValueError(
"The database driver %s is not known to PyGRASS, "
"use: %s." % (driver, ", ".join(DRIVERS))
)
driver = property(
fget=_get_driver,
fset=_set_driver,
doc="Set and obtain driver value. The drivers supported \
by PyGRASS are: SQLite and PostgreSQL",
)
def __init__(
self,
layer=1,
name=None,
table=None,
key="cat",
database="$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
driver="sqlite",
c_fieldinfo=None,
):
if c_fieldinfo is not None:
self.c_fieldinfo = c_fieldinfo
else:
self.c_fieldinfo = ctypes.pointer(libvect.field_info())
self.layer = layer
self.name = name
self.table_name = table
self.key = key
self.database = database
self.driver = driver
def __repr__(self):
return "Link(%d, %s, %s)" % (self.layer, self.name, self.driver)
def __eq__(self, link):
"""Return True if two Link instance have the same parameters.
>>> l0 = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> l1 = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> l2 = Link(
... 2,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/PERMANENT/sqlite/sqlite.db",
... "sqlite",
... )
>>> l0 == l1
True
>>> l1 == l2
False
"""
attrs = ["layer", "name", "table_name", "key", "driver"]
return all(getattr(self, attr) == getattr(link, attr) for attr in attrs)
def __ne__(self, other):
return not self == other
# Restore Python 2 hashing behaviour on Python 3
__hash__ = object.__hash__
[docs] def connection(self):
"""Return a connection object.
>>> link = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> conn = link.connection()
>>> cur = conn.cursor()
>>> link.table_name
'table_doctest_map'
>>> cur.execute(
... "SELECT cat, name, value from %s" % link.table_name
... ) # doctest: +ELLIPSIS
<sqlite3.Cursor object at ...>
>>> cur.fetchone() # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
(1, 'point', 1.0)
>>> cur.close()
>>> conn.close()
"""
driver = self.driver
if driver == "sqlite":
import sqlite3
# NumPy is using some custom integer data types to efficiently
# pack data into memory. Since these types aren't familiar to
# sqlite, you'll have to tell it about how to handle them.
for t in (
np.int8,
np.int16,
np.int32,
np.int64,
np.uint8,
np.uint16,
np.uint32,
np.uint64,
):
sqlite3.register_adapter(t, int)
dbpath = get_path(self.database, self.table_name)
dbdirpath = os.path.split(dbpath)[0]
if not os.path.exists(dbdirpath):
os.mkdir(dbdirpath)
return sqlite3.connect(dbpath)
if driver == "pg":
try:
import psycopg2
psycopg2.paramstyle = "qmark"
db = " ".join(self.database.split(","))
return psycopg2.connect(db)
except ImportError:
er = "You need to install psycopg2 to connect with this table."
raise ImportError(er)
else:
str_err = "Driver is not supported yet, pleas use: sqlite or pg"
raise TypeError(str_err)
[docs] def table(self):
"""Return a Table object.
>>> link = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> table = link.table()
>>> table.filters.select("cat", "name", "value")
Filters('SELECT cat, name, value FROM table_doctest_map;')
>>> cur = table.execute()
>>> cur.fetchone()
(1, 'point', 1.0)
>>> cur.close()
"""
return Table(self.table_name, self.connection(), self.key)
[docs] def info(self):
"""Print information of the link.
>>> link = Link(
... 1,
... "link0",
... test_vector_name,
... "cat",
... "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db",
... "sqlite",
... )
>>> link.info()
layer: 1
name: link0
table: table_doctest_map
key: cat
database: $GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db
driver: sqlite
"""
print("layer: ", self.layer)
print("name: ", self.name)
print("table: ", self.table_name)
print("key: ", self.key)
print("database: ", self.database)
print("driver: ", self.driver)
[docs]class DBlinks:
"""Interface containing link to the table DB.
>>> from grass.pygrass.vector import VectorTopo
>>> cens = VectorTopo(test_vector_name)
>>> cens.open(mode="r")
>>> dblinks = DBlinks(cens.c_mapinfo)
>>> dblinks
DBlinks([Link(1, table_doctest_map, sqlite)])
>>> dblinks[0]
Link(1, table_doctest_map, sqlite)
>>> dblinks[test_vector_name]
Link(1, table_doctest_map, sqlite)
>>> cens.close()
"""
def __init__(self, c_mapinfo):
self.c_mapinfo = c_mapinfo
def __len__(self):
return self.num_dblinks()
def __iter__(self):
return (self.by_index(i) for i in range(self.num_dblinks()))
def __getitem__(self, item):
if isinstance(item, int):
return self.by_index(item)
return self.by_name(item)
def __repr__(self):
return "DBlinks(%r)" % list(self.__iter__())
[docs] def by_index(self, indx):
"""Return a Link object by index
:param indx: the index where add new point
:type indx: int
"""
nlinks = self.num_dblinks()
if nlinks == 0:
raise IndexError
if indx < 0:
indx += nlinks
if indx > nlinks:
raise IndexError
c_fieldinfo = libvect.Vect_get_dblink(self.c_mapinfo, indx)
return Link(c_fieldinfo=c_fieldinfo) if c_fieldinfo else None
[docs] def by_layer(self, layer):
"""Return the chosen Link using the layer
:param layer: the number of layer
:type layer: int
"""
c_fieldinfo = libvect.Vect_get_field(self.c_mapinfo, layer)
return Link(c_fieldinfo=c_fieldinfo) if c_fieldinfo else None
[docs] def by_name(self, name):
"""Return the chosen Link using the name
:param name: the name of Link
:type name: str
"""
c_fieldinfo = libvect.Vect_get_field_by_name(self.c_mapinfo, name)
return Link(c_fieldinfo=c_fieldinfo) if c_fieldinfo else None
[docs] def num_dblinks(self):
"""Return the number of DBlinks"""
return libvect.Vect_get_num_dblinks(self.c_mapinfo)
[docs] def add(self, link):
"""Add a new link. Need to open vector map in write mode
:param link: the Link to add to the DBlinks
:type link: a Link object
>>> from grass.pygrass.vector import VectorTopo
>>> test_vect = VectorTopo(test_vector_name)
>>> test_vect.open(mode="r")
>>> dblinks = DBlinks(test_vect.c_mapinfo)
>>> dblinks
DBlinks([Link(1, table_doctest_map, sqlite)])
>>> link = Link(
... 2,
... "pg_link",
... test_vector_name,
... "cat",
... "host=localhost dbname=grassdb",
... "pg",
... ) # doctest: +SKIP
>>> dblinks.add(link) # doctest: +SKIP
>>> dblinks # doctest: +SKIP
DBlinks([Link(1, table_doctest_map, sqlite)])
"""
# TODO: check if open in write mode or not.
libvect.Vect_map_add_dblink(
self.c_mapinfo,
link.layer,
link.name,
link.table_name,
link.key,
link.database,
link.driver,
)
[docs] def remove(self, key, force=False):
"""Remove a link. If force set to true remove also the table
:param key: the key of Link
:type key: str
:param force: if True remove also the table from database otherwise
only the link between table and vector
:type force: boole
>>> from grass.pygrass.vector import VectorTopo
>>> test_vect = VectorTopo(test_vector_name)
>>> test_vect.open(mode="r")
>>> dblinks = DBlinks(test_vect.c_mapinfo)
>>> dblinks
DBlinks([Link(1, table_doctest_map, sqlite)])
>>> dblinks.remove("pg_link") # doctest: +SKIP
>>> dblinks # need to open vector map in write mode
DBlinks([Link(1, table_doctest_map, sqlite)])
"""
if force:
link = self.by_name(key)
table = link.table()
table.drop(force=force)
if isinstance(key, str):
key = self.from_name_to_num(key)
libvect.Vect_map_del_dblink(self.c_mapinfo, key)
[docs] def from_name_to_num(self, name):
"""
Vect_get_field_number
"""
return libvect.Vect_get_field_number(self.c_mapinfo, name)
[docs]class Table:
"""
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/PERMANENT/sqlite/sqlite.db"
>>> tab_sqlite = Table(
... name=test_vector_name, connection=sqlite3.connect(get_path(path))
... )
>>> tab_sqlite.name
'table_doctest_map'
>>> import psycopg2 # doctest: +SKIP
>>> tab_pg = Table(
... test_vector_name, psycopg2.connect("host=localhost dbname=grassdb", "pg")
... ) # doctest: +SKIP
>>> tab_pg.columns # doctest: +ELLIPSIS +SKIP
Columns([('cat', 'int4'), ...])
"""
def _get_name(self):
"""Private method to return the name of table"""
return self._name
def _set_name(self, new_name):
"""Private method to set the name of table
:param new_name: the new name of table
:type new_name: str
"""
old_name = self._name
cur = self.conn.cursor()
cur.execute(sql.RENAME_TAB.format(old_name=old_name, new_name=new_name))
self.conn.commit()
cur.close()
name = property(fget=_get_name, fset=_set_name, doc="Set and obtain table name")
def __init__(self, name, connection, key="cat"):
self._name = name
self.conn = connection
self.key = key
self.columns = Columns(self.name, self.conn, self.key)
self.filters = Filters(self.name)
def __repr__(self):
"""
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/PERMANENT/sqlite/sqlite.db"
>>> tab_sqlite = Table(
... name=test_vector_name, connection=sqlite3.connect(get_path(path))
... )
>>> tab_sqlite
Table('table_doctest_map')
"""
return "Table(%r)" % (self.name)
def __iter__(self):
cur = self.execute()
return (cur.fetchone() for _ in range(self.__len__()))
def __len__(self):
"""Return the number of rows"""
return self.n_rows()
[docs] def drop(self, cursor=None, force=False):
"""Method to drop table from database
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
:type cursor: Cursor object
:param force: True to remove the table, by default False to print
advice
:type force: bool
"""
cur = cursor or self.conn.cursor()
if self.exist(cursor=cur):
used = db_table_in_vector(self.name)
if used is not None and len(used) > 0 and not force:
print(
_("Deleting table <%s> which is attached to following map(s):")
% self.name
)
for vect in used:
warning("%s" % vect)
print(_("You must use the force flag to actually remove it. Exiting."))
else:
cur.execute(sql.DROP_TAB.format(tname=self.name))
[docs] def n_rows(self):
"""Return the number of rows
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> tab_sqlite = Table(
... name=test_vector_name, connection=sqlite3.connect(get_path(path))
... )
>>> tab_sqlite.n_rows()
3
"""
cur = self.conn.cursor()
cur.execute(sql.SELECT.format(cols="Count(*)", tname=self.name))
number = cur.fetchone()[0]
cur.close()
return number
[docs] def execute(self, sql_code=None, cursor=None, many=False, values=None):
"""Execute SQL code from a given string or build with filters and
return a cursor object.
:param sql_code: the SQL code to execute, if not pass it use filters
variable
:type sql_code: str
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
:type cursor: Cursor object
:param many: True to run executemany function
:type many: bool
:param values: The values to substitute into sql_code string
:type values: list of tuple
>>> import sqlite3
>>> path = "$GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db"
>>> tab_sqlite = Table(
... name=test_vector_name, connection=sqlite3.connect(get_path(path))
... )
>>> tab_sqlite.filters.select("cat", "name").order_by("value")
Filters('SELECT cat, name FROM table_doctest_map ORDER BY value;')
>>> cur = tab_sqlite.execute()
>>> cur.fetchone() # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
(1, 'point')
"""
try:
sqlc = sql_code or self.filters.get_sql()
cur = cursor or self.conn.cursor()
if many and values:
return cur.executemany(sqlc, values)
return cur.execute(sqlc, values) if values else cur.execute(sqlc)
except Exception as exc:
raise ValueError(
"The SQL statement is not correct:\n%r,\n"
"values: %r,\n"
"SQL error: %s" % (sqlc, values, str(exc))
)
[docs] def exist(self, cursor=None):
"""Return True if the table already exist in the DB, False otherwise
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
"""
cur = cursor or self.conn.cursor()
return table_exist(cur, self.name)
[docs] def insert(self, values, cursor=None, many=False):
"""Insert a new row
:param values: a tuple of values to insert, it is possible to insert
more rows using a list of tuple and parameter `many`
:type values: tuple
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
:type cursor: Cursor object
:param many: True to run executemany function
:type many: bool
"""
cur = cursor or self.conn.cursor()
if many:
return cur.executemany(self.columns.insert_str, values)
return cur.execute(self.columns.insert_str, values)
[docs] def update(self, key, values, cursor=None):
"""Update a table row
:param key: the rowid
:type key: int
:param values: the values to insert without row id.
For example if we have a table with four columns:
cat, c0, c1, c2 the values list should
containing only c0, c1, c2 values.
:type values: list
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
:type cursor: Cursor object
"""
cur = cursor or self.conn.cursor()
vals = list(values) + [
key,
]
return cur.execute(self.columns.update_str, vals)
[docs] def create(self, cols, name=None, overwrite=False, cursor=None):
"""Create a new table
:param cols:
:type cols:
:param name: the name of table to create, None for the name of Table object
:type name: str
:param overwrite: overwrite existing table
:type overwrite: bool
:param cursor: the cursor to connect, if None it use the cursor
of connection table object
:type cursor: Cursor object
"""
cur = cursor or self.conn.cursor()
coldef = ",\n".join(["%s %s" % col for col in cols])
newname = name or self.name
try:
cur.execute(sql.CREATE_TAB.format(tname=newname, coldef=coldef))
self.conn.commit()
except OperationalError: # OperationalError
if overwrite:
self.drop(force=True)
cur.execute(sql.CREATE_TAB.format(tname=newname, coldef=coldef))
self.conn.commit()
else:
print("The table: %s already exist." % self.name)
cur.close()
self.columns.update_odict()
if __name__ == "__main__":
import doctest
from grass.pygrass import utils
utils.create_test_vector_map(test_vector_name)
doctest.testmod()
from grass.pygrass.utils import get_mapset_vector
from grass.script.core import run_command
mset = get_mapset_vector(test_vector_name, mapset="")
if mset:
# Remove the generated vector map, if exists
run_command("g.remove", flags="f", type="vector", name=test_vector_name)