python/lib/Lib/site-packages/django/db/backends/oracle/introspection.py - platform/tools/idea - Git at Google

 from django.db.backends import BaseDatabaseIntrospection
 import cx_Oracle
 import re

 foreign_key_re = re.compile(r"\sCONSTRAINT `[^`]*` FOREIGN KEY \(`([^`]*)`\) REFERENCES `([^`]*)` \(`([^`]*)`\)")

 class DatabaseIntrospection(BaseDatabaseIntrospection):
     # Maps type objects to Django Field types.
     data_types_reverse = {
         cx_Oracle.CLOB: 'TextField',
         cx_Oracle.DATETIME: 'DateField',
         cx_Oracle.FIXED_CHAR: 'CharField',
         cx_Oracle.NCLOB: 'TextField',
         cx_Oracle.NUMBER: 'DecimalField',
         cx_Oracle.STRING: 'CharField',
         cx_Oracle.TIMESTAMP: 'DateTimeField',
     }

     try:
         data_types_reverse[cx_Oracle.NATIVE_FLOAT] = 'FloatField'
     except AttributeError:
         pass

     try:
         data_types_reverse[cx_Oracle.UNICODE] = 'CharField'
     except AttributeError:
         pass

     def get_field_type(self, data_type, description):
         # If it's a NUMBER with scale == 0, consider it an IntegerField
         if data_type == cx_Oracle.NUMBER and description[5] == 0:
             if description[4] > 11:
                 return 'BigIntegerField'
             else:
                 return 'IntegerField'
         else:
             return super(DatabaseIntrospection, self).get_field_type(
                 data_type, description)

     def get_table_list(self, cursor):
         "Returns a list of table names in the current database."
         cursor.execute("SELECT TABLE_NAME FROM USER_TABLES")
         return [row[0].lower() for row in cursor.fetchall()]

     def get_table_description(self, cursor, table_name):
         "Returns a description of the table, with the DB-API cursor.description interface."
         cursor.execute("SELECT * FROM %s WHERE ROWNUM < 2" % self.connection.ops.quote_name(table_name))
         description = []
         for desc in cursor.description:
             description.append((desc[0].lower(),) + desc[1:])
         return description

     def table_name_converter(self, name):
         "Table name comparison is case insensitive under Oracle"
         return name.lower()

     def _name_to_index(self, cursor, table_name):
         """
         Returns a dictionary of {field_name: field_index} for the given table.
         Indexes are 0-based.
         """
         return dict([(d[0], i) for i, d in enumerate(self.get_table_description(cursor, table_name))])

     def get_relations(self, cursor, table_name):
         """
         Returns a dictionary of {field_index: (field_index_other_table, other_table)}
         representing all relationships to the given table. Indexes are 0-based.
         """
         cursor.execute("""
     SELECT ta.column_id - 1, tb.table_name, tb.column_id - 1
     FROM   user_constraints, USER_CONS_COLUMNS ca, USER_CONS_COLUMNS cb,
            user_tab_cols ta, user_tab_cols tb
     WHERE  user_constraints.table_name = %s AND
            ta.table_name = %s AND
            ta.column_name = ca.column_name AND
            ca.table_name = %s AND
            user_constraints.constraint_name = ca.constraint_name AND
            user_constraints.r_constraint_name = cb.constraint_name AND
            cb.table_name = tb.table_name AND
            cb.column_name = tb.column_name AND
            ca.position = cb.position""", [table_name, table_name, table_name])

         relations = {}
         for row in cursor.fetchall():
             relations[row[0]] = (row[2], row[1])
         return relations

     def get_indexes(self, cursor, table_name):
         """
         Returns a dictionary of fieldname -> infodict for the given table,
         where each infodict is in the format:
             {'primary_key': boolean representing whether it's the primary key,
              'unique': boolean representing whether it's a unique index}
         """
         # This query retrieves each index on the given table, including the
         # first associated field name
         # "We were in the nick of time; you were in great peril!"
         sql = """\
 SELECT LOWER(all_tab_cols.column_name) AS column_name,
        CASE user_constraints.constraint_type
            WHEN 'P' THEN 1 ELSE 0
        END AS is_primary_key,
        CASE user_indexes.uniqueness
            WHEN 'UNIQUE' THEN 1 ELSE 0
        END AS is_unique
 FROM   all_tab_cols, user_cons_columns, user_constraints, user_ind_columns, user_indexes
 WHERE  all_tab_cols.column_name = user_cons_columns.column_name (+)
   AND  all_tab_cols.table_name = user_cons_columns.table_name (+)
   AND  user_cons_columns.constraint_name = user_constraints.constraint_name (+)
   AND  user_constraints.constraint_type (+) = 'P'
   AND  user_ind_columns.column_name (+) = all_tab_cols.column_name
   AND  user_ind_columns.table_name (+) = all_tab_cols.table_name
   AND  user_indexes.uniqueness (+) = 'UNIQUE'
   AND  user_indexes.index_name (+) = user_ind_columns.index_name
   AND  all_tab_cols.table_name = UPPER(%s)
 """
         cursor.execute(sql, [table_name])
         indexes = {}
         for row in cursor.fetchall():
             indexes[row[0]] = {'primary_key': row[1], 'unique': row[2]}
         return indexes
	from django.db.backends import BaseDatabaseIntrospection
	import cx_Oracle
	import re

	foreign_key_re = re.compile(r"\sCONSTRAINT `[^`]` FOREIGN KEY \(`([^`])`\) REFERENCES `([^`])` \(`([^`])`\)")

	class DatabaseIntrospection(BaseDatabaseIntrospection):
	# Maps type objects to Django Field types.
	data_types_reverse = {
	cx_Oracle.CLOB: 'TextField',
	cx_Oracle.DATETIME: 'DateField',
	cx_Oracle.FIXED_CHAR: 'CharField',
	cx_Oracle.NCLOB: 'TextField',
	cx_Oracle.NUMBER: 'DecimalField',
	cx_Oracle.STRING: 'CharField',
	cx_Oracle.TIMESTAMP: 'DateTimeField',
	}

	try:
	data_types_reverse[cx_Oracle.NATIVE_FLOAT] = 'FloatField'
	except AttributeError:
	pass

	try:
	data_types_reverse[cx_Oracle.UNICODE] = 'CharField'
	except AttributeError:
	pass

	def get_field_type(self, data_type, description):
	# If it's a NUMBER with scale == 0, consider it an IntegerField
	if data_type == cx_Oracle.NUMBER and description[5] == 0:
	if description[4] > 11:
	return 'BigIntegerField'
	else:
	return 'IntegerField'
	else:
	return super(DatabaseIntrospection, self).get_field_type(
	data_type, description)

	def get_table_list(self, cursor):
	"Returns a list of table names in the current database."
	cursor.execute("SELECT TABLE_NAME FROM USER_TABLES")
	return [row[0].lower() for row in cursor.fetchall()]

	def get_table_description(self, cursor, table_name):
	"Returns a description of the table, with the DB-API cursor.description interface."
	cursor.execute("SELECT * FROM %s WHERE ROWNUM < 2" % self.connection.ops.quote_name(table_name))
	description = []
	for desc in cursor.description:
	description.append((desc[0].lower(),) + desc[1:])
	return description

	def table_name_converter(self, name):
	"Table name comparison is case insensitive under Oracle"
	return name.lower()

	def _name_to_index(self, cursor, table_name):
	"""
	Returns a dictionary of {field_name: field_index} for the given table.
	Indexes are 0-based.
	"""
	return dict([(d[0], i) for i, d in enumerate(self.get_table_description(cursor, table_name))])

	def get_relations(self, cursor, table_name):
	"""
	Returns a dictionary of {field_index: (field_index_other_table, other_table)}
	representing all relationships to the given table. Indexes are 0-based.
	"""
	cursor.execute("""
	SELECT ta.column_id - 1, tb.table_name, tb.column_id - 1
	FROM user_constraints, USER_CONS_COLUMNS ca, USER_CONS_COLUMNS cb,
	user_tab_cols ta, user_tab_cols tb
	WHERE user_constraints.table_name = %s AND
	ta.table_name = %s AND
	ta.column_name = ca.column_name AND
	ca.table_name = %s AND
	user_constraints.constraint_name = ca.constraint_name AND
	user_constraints.r_constraint_name = cb.constraint_name AND
	cb.table_name = tb.table_name AND
	cb.column_name = tb.column_name AND
	ca.position = cb.position""", [table_name, table_name, table_name])

	relations = {}
	for row in cursor.fetchall():
	relations[row[0]] = (row[2], row[1])
	return relations

	def get_indexes(self, cursor, table_name):
	"""
	Returns a dictionary of fieldname -> infodict for the given table,
	where each infodict is in the format:
	{'primary_key': boolean representing whether it's the primary key,
	'unique': boolean representing whether it's a unique index}
	"""
	# This query retrieves each index on the given table, including the
	# first associated field name
	# "We were in the nick of time; you were in great peril!"
	sql = """\
	SELECT LOWER(all_tab_cols.column_name) AS column_name,
	CASE user_constraints.constraint_type
	WHEN 'P' THEN 1 ELSE 0
	END AS is_primary_key,
	CASE user_indexes.uniqueness
	WHEN 'UNIQUE' THEN 1 ELSE 0
	END AS is_unique
	FROM all_tab_cols, user_cons_columns, user_constraints, user_ind_columns, user_indexes
	WHERE all_tab_cols.column_name = user_cons_columns.column_name (+)
	AND all_tab_cols.table_name = user_cons_columns.table_name (+)
	AND user_cons_columns.constraint_name = user_constraints.constraint_name (+)
	AND user_constraints.constraint_type (+) = 'P'
	AND user_ind_columns.column_name (+) = all_tab_cols.column_name
	AND user_ind_columns.table_name (+) = all_tab_cols.table_name
	AND user_indexes.uniqueness (+) = 'UNIQUE'
	AND user_indexes.index_name (+) = user_ind_columns.index_name
	AND all_tab_cols.table_name = UPPER(%s)
	"""
	cursor.execute(sql, [table_name])
	indexes = {}
	for row in cursor.fetchall():
	indexes[row[0]] = {'primary_key': row[1], 'unique': row[2]}
	return indexes