from django.db.backends.sqlite3.base import DatabaseOperations quote_name = DatabaseOperations().quote_name def get_table_list(cursor): "Returns a list of table names in the current database." # Skip the sqlite_sequence system table used for autoincrement key # generation. cursor.execute(""" SELECT name FROM sqlite_master WHERE type='table' AND NOT name='sqlite_sequence' ORDER BY name""") return [row[0] for row in cursor.fetchall()] def get_table_description(cursor, table_name): "Returns a description of the table, with the DB-API cursor.description interface." return [(info['name'], info['type'], None, None, None, None, info['null_ok']) for info in _table_info(cursor, table_name)] def get_relations(cursor, table_name): raise NotImplementedError def get_indexes(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} """ indexes = {} for info in _table_info(cursor, table_name): indexes[info['name']] = {'primary_key': info['pk'] != 0, 'unique': False} cursor.execute('PRAGMA index_list(%s)' % quote_name(table_name)) # seq, name, unique for index, unique in [(field[1], field[2]) for field in cursor.fetchall()]: if not unique: continue cursor.execute('PRAGMA index_info(%s)' % quote_name(index)) info = cursor.fetchall() # Skip indexes across multiple fields if len(info) != 1: continue name = info[0][2] # seqno, cid, name indexes[name]['unique'] = True return indexes def _table_info(cursor, name): cursor.execute('PRAGMA table_info(%s)' % quote_name(name)) # cid, name, type, notnull, dflt_value, pk return [{'name': field[1], 'type': field[2], 'null_ok': not field[3], 'pk': field[5] # undocumented } for field in cursor.fetchall()] # Maps SQL types to Django Field types. Some of the SQL types have multiple # entries here because SQLite allows for anything and doesn't normalize the # field type; it uses whatever was given. BASE_DATA_TYPES_REVERSE = { 'bool': 'BooleanField', 'boolean': 'BooleanField', 'smallint': 'SmallIntegerField', 'smallinteger': 'SmallIntegerField', 'int': 'IntegerField', 'integer': 'IntegerField', 'text': 'TextField', 'char': 'CharField', 'date': 'DateField', 'datetime': 'DateTimeField', 'time': 'TimeField', } # This light wrapper "fakes" a dictionary interface, because some SQLite data # types include variables in them -- e.g. "varchar(30)" -- and can't be matched # as a simple dictionary lookup. class FlexibleFieldLookupDict: def __getitem__(self, key): key = key.lower() try: return BASE_DATA_TYPES_REVERSE[key] except KeyError: import re m = re.search(r'^\s*(?:var)?char\s*\(\s*(\d+)\s*\)\s*$', key) if m: return ('CharField', {'max_length': int(m.group(1))}) raise KeyError DATA_TYPES_REVERSE = FlexibleFieldLookupDict()