""" Query subclasses which provide extra functionality beyond simple data retrieval. """ from django.conf import settings from django.core.exceptions import FieldError from django.db import connections from django.db.models.constants import LOOKUP_SEP from django.db.models.fields import DateField, DateTimeField, FieldDoesNotExist from django.db.models.sql.constants import GET_ITERATOR_CHUNK_SIZE, SelectInfo from django.db.models.sql.datastructures import Date, DateTime from django.db.models.sql.query import Query from django.db.models.sql.where import AND, Constraint from django.utils import six from django.utils import timezone __all__ = ['DeleteQuery', 'UpdateQuery', 'InsertQuery', 'DateQuery', 'DateTimeQuery', 'AggregateQuery'] class DeleteQuery(Query): """ Delete queries are done through this class, since they are more constrained than general queries. """ compiler = 'SQLDeleteCompiler' def do_query(self, table, where, using): self.tables = [table] self.where = where self.get_compiler(using).execute_sql(None) def delete_batch(self, pk_list, using, field=None): """ Set up and execute delete queries for all the objects in pk_list. More than one physical query may be executed if there are a lot of values in pk_list. """ if not field: field = self.get_meta().pk for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): where = self.where_class() where.add((Constraint(None, field.column, field), 'in', pk_list[offset:offset + GET_ITERATOR_CHUNK_SIZE]), AND) self.do_query(self.get_meta().db_table, where, using=using) def delete_qs(self, query, using): """ Delete the queryset in one SQL query (if possible). For simple queries this is done by copying the query.query.where to self.query, for complex queries by using subquery. """ innerq = query.query # Make sure the inner query has at least one table in use. innerq.get_initial_alias() # The same for our new query. self.get_initial_alias() innerq_used_tables = [t for t in innerq.tables if innerq.alias_refcount[t]] if ((not innerq_used_tables or innerq_used_tables == self.tables) and not len(innerq.having)): # There is only the base table in use in the query, and there are # no aggregate filtering going on. self.where = innerq.where else: pk = query.model._meta.pk if not connections[using].features.update_can_self_select: # We can't do the delete using subquery. values = list(query.values_list('pk', flat=True)) if not values: return self.delete_batch(values, using) return else: innerq.clear_select_clause() innerq.select = [ SelectInfo((self.get_initial_alias(), pk.column), None) ] values = innerq where = self.where_class() where.add((Constraint(None, pk.column, pk), 'in', values), AND) self.where = where self.get_compiler(using).execute_sql(None) class UpdateQuery(Query): """ Represents an "update" SQL query. """ compiler = 'SQLUpdateCompiler' def __init__(self, *args, **kwargs): super(UpdateQuery, self).__init__(*args, **kwargs) self._setup_query() def _setup_query(self): """ Runs on initialization and after cloning. Any attributes that would normally be set in __init__ should go in here, instead, so that they are also set up after a clone() call. """ self.values = [] self.related_ids = None if not hasattr(self, 'related_updates'): self.related_updates = {} def clone(self, klass=None, **kwargs): return super(UpdateQuery, self).clone(klass, related_updates=self.related_updates.copy(), **kwargs) def update_batch(self, pk_list, values, using): pk_field = self.get_meta().pk self.add_update_values(values) for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): self.where = self.where_class() self.where.add((Constraint(None, pk_field.column, pk_field), 'in', pk_list[offset:offset + GET_ITERATOR_CHUNK_SIZE]), AND) self.get_compiler(using).execute_sql(None) def add_update_values(self, values): """ Convert a dictionary of field name to value mappings into an update query. This is the entry point for the public update() method on querysets. """ values_seq = [] for name, val in six.iteritems(values): field, model, direct, m2m = self.get_meta().get_field_by_name(name) if not direct or m2m: raise FieldError('Cannot update model field %r (only non-relations and foreign keys permitted).' % field) if model: self.add_related_update(model, field, val) continue values_seq.append((field, model, val)) return self.add_update_fields(values_seq) def add_update_fields(self, values_seq): """ Turn a sequence of (field, model, value) triples into an update query. Used by add_update_values() as well as the "fast" update path when saving models. """ self.values.extend(values_seq) def add_related_update(self, model, field, value): """ Adds (name, value) to an update query for an ancestor model. Updates are coalesced so that we only run one update query per ancestor. """ self.related_updates.setdefault(model, []).append((field, None, value)) def get_related_updates(self): """ Returns a list of query objects: one for each update required to an ancestor model. Each query will have the same filtering conditions as the current query but will only update a single table. """ if not self.related_updates: return [] result = [] for model, values in six.iteritems(self.related_updates): query = UpdateQuery(model) query.values = values if self.related_ids is not None: query.add_filter(('pk__in', self.related_ids)) result.append(query) return result class InsertQuery(Query): compiler = 'SQLInsertCompiler' def __init__(self, *args, **kwargs): super(InsertQuery, self).__init__(*args, **kwargs) self.fields = [] self.objs = [] def clone(self, klass=None, **kwargs): extras = { 'fields': self.fields[:], 'objs': self.objs[:], 'raw': self.raw, } extras.update(kwargs) return super(InsertQuery, self).clone(klass, **extras) def insert_values(self, fields, objs, raw=False): """ Set up the insert query from the 'insert_values' dictionary. The dictionary gives the model field names and their target values. If 'raw_values' is True, the values in the 'insert_values' dictionary are inserted directly into the query, rather than passed as SQL parameters. This provides a way to insert NULL and DEFAULT keywords into the query, for example. """ self.fields = fields self.objs = objs self.raw = raw class DateQuery(Query): """ A DateQuery is a normal query, except that it specifically selects a single date field. This requires some special handling when converting the results back to Python objects, so we put it in a separate class. """ compiler = 'SQLDateCompiler' def add_select(self, field_name, lookup_type, order='ASC'): """ Converts the query into an extraction query. """ try: result = self.setup_joins( field_name.split(LOOKUP_SEP), self.get_meta(), self.get_initial_alias(), ) except FieldError: raise FieldDoesNotExist("%s has no field named '%s'" % ( self.get_meta().object_name, field_name )) field = result[0] self._check_field(field) # overridden in DateTimeQuery alias = result[3][-1] select = self._get_select((alias, field.column), lookup_type) self.clear_select_clause() self.select = [SelectInfo(select, None)] self.distinct = True self.order_by = [1] if order == 'ASC' else [-1] if field.null: self.add_filter(("%s__isnull" % field_name, False)) def _check_field(self, field): assert isinstance(field, DateField), \ "%r isn't a DateField." % field.name if settings.USE_TZ: assert not isinstance(field, DateTimeField), \ "%r is a DateTimeField, not a DateField." % field.name def _get_select(self, col, lookup_type): return Date(col, lookup_type) class DateTimeQuery(DateQuery): """ A DateTimeQuery is like a DateQuery but for a datetime field. If time zone support is active, the tzinfo attribute contains the time zone to use for converting the values before truncating them. Otherwise it's set to None. """ compiler = 'SQLDateTimeCompiler' def _check_field(self, field): assert isinstance(field, DateTimeField), \ "%r isn't a DateTimeField." % field.name def _get_select(self, col, lookup_type): if self.tzinfo is None: tzname = None else: tzname = timezone._get_timezone_name(self.tzinfo) return DateTime(col, lookup_type, tzname) class AggregateQuery(Query): """ An AggregateQuery takes another query as a parameter to the FROM clause and only selects the elements in the provided list. """ compiler = 'SQLAggregateCompiler' def add_subquery(self, query, using): self.subquery, self.sub_params = query.get_compiler(using).as_sql(with_col_aliases=True)