""" Custom Query class for Oracle. Derives from: django.db.models.sql.query.Query """ import datetime from django.db.backends import util # Cache. Maps default query class to new Oracle query class. _classes = {} def query_class(QueryClass, Database): """ Returns a custom django.db.models.sql.query.Query subclass that is appropriate for Oracle. The 'Database' module (cx_Oracle) is passed in here so that all the setup required to import it only needs to be done by the calling module. """ global _classes try: return _classes[QueryClass] except KeyError: pass class OracleQuery(QueryClass): def resolve_columns(self, row, fields=()): index_start = len(self.extra_select.keys()) values = [self.convert_values(v, None) for v in row[:index_start]] for value, field in map(None, row[index_start:], fields): values.append(self.convert_values(value, field)) return values def convert_values(self, value, field): from django.db.models.fields import DateField, DateTimeField, \ TimeField, BooleanField, NullBooleanField, DecimalField, Field if isinstance(value, Database.LOB): value = value.read() # Oracle stores empty strings as null. We need to undo this in # order to adhere to the Django convention of using the empty # string instead of null, but only if the field accepts the # empty string. if value is None and isinstance(field, Field) and field.empty_strings_allowed: value = u'' # Convert 1 or 0 to True or False elif value in (1, 0) and isinstance(field, (BooleanField, NullBooleanField)): value = bool(value) # Convert floats to decimals elif value is not None and isinstance(field, DecimalField): value = util.typecast_decimal(field.format_number(value)) # cx_Oracle always returns datetime.datetime objects for # DATE and TIMESTAMP columns, but Django wants to see a # python datetime.date, .time, or .datetime. We use the type # of the Field to determine which to cast to, but it's not # always available. # As a workaround, we cast to date if all the time-related # values are 0, or to time if the date is 1/1/1900. # This could be cleaned a bit by adding a method to the Field # classes to normalize values from the database (the to_python # method is used for validation and isn't what we want here). elif isinstance(value, Database.Timestamp): # In Python 2.3, the cx_Oracle driver returns its own # Timestamp object that we must convert to a datetime class. if not isinstance(value, datetime.datetime): value = datetime.datetime(value.year, value.month, value.day, value.hour, value.minute, value.second, value.fsecond) if isinstance(field, DateTimeField): # DateTimeField subclasses DateField so must be checked # first. pass elif isinstance(field, DateField): value = value.date() elif isinstance(field, TimeField) or (value.year == 1900 and value.month == value.day == 1): value = value.time() elif value.hour == value.minute == value.second == value.microsecond == 0: value = value.date() return value def as_sql(self, with_limits=True, with_col_aliases=False): """ Creates the SQL for this query. Returns the SQL string and list of parameters. This is overriden from the original Query class to accommodate Oracle's limit/offset SQL. If 'with_limits' is False, any limit/offset information is not included in the query. """ # The `do_offset` flag indicates whether we need to construct # the SQL needed to use limit/offset w/Oracle. do_offset = with_limits and (self.high_mark is not None or self.low_mark) # If no offsets, just return the result of the base class # `as_sql`. if not do_offset: return super(OracleQuery, self).as_sql(with_limits=False, with_col_aliases=with_col_aliases) # `get_columns` needs to be called before `get_ordering` to # populate `_select_alias`. self.pre_sql_setup() out_cols = self.get_columns() ordering = self.get_ordering() # Getting the "ORDER BY" SQL for the ROW_NUMBER() result. if ordering: rn_orderby = ', '.join(ordering) else: # Oracle's ROW_NUMBER() function always requires an # order-by clause. So we need to define a default # order-by, since none was provided. qn = self.quote_name_unless_alias opts = self.model._meta rn_orderby = '%s.%s' % (qn(opts.db_table), qn(opts.fields[0].db_column or opts.fields[0].column)) # Getting the selection SQL and the params, which has the `rn` # extra selection SQL. self.extra_select['rn'] = 'ROW_NUMBER() OVER (ORDER BY %s )' % rn_orderby sql, params = super(OracleQuery, self).as_sql(with_limits=False, with_col_aliases=True) # Constructing the result SQL, using the initial select SQL # obtained above. result = ['SELECT * FROM (%s)' % sql] # Place WHERE condition on `rn` for the desired range. result.append('WHERE rn > %d' % self.low_mark) if self.high_mark is not None: result.append('AND rn <= %d' % self.high_mark) # Returning the SQL w/params. return ' '.join(result), params def set_limits(self, low=None, high=None): super(OracleQuery, self).set_limits(low, high) # We need to select the row number for the LIMIT/OFFSET sql. # A placeholder is added to extra_select now, because as_sql is # too late to be modifying extra_select. However, the actual sql # depends on the ordering, so that is generated in as_sql. self.extra_select['rn'] = '1' def clear_limits(self): super(OracleQuery, self).clear_limits() if 'rn' in self.extra_select: del self.extra_select['rn'] _classes[QueryClass] = OracleQuery return OracleQuery