import warnings from django.conf import settings from django.db import connection, transaction, IntegrityError from django.db.models.fields import DateField, FieldDoesNotExist from django.db.models.query_utils import Q from django.db.models import signals, sql from django.dispatch import dispatcher from django.utils.datastructures import SortedDict # Used to control how many objects are worked with at once in some cases (e.g. # when deleting objects). CHUNK_SIZE = 100 ITER_CHUNK_SIZE = CHUNK_SIZE # Pull into this namespace for backwards compatibility EmptyResultSet = sql.EmptyResultSet class QuerySet(object): "Represents a lazy database lookup for a set of objects" def __init__(self, model=None, query=None): self.model = model self.query = query or sql.Query(self.model, connection) self._result_cache = None self._iter = None ######################## # PYTHON MAGIC METHODS # ######################## def __getstate__(self): """ Allows the Queryset to be pickled. """ # Force the cache to be fully populated. len(self) obj_dict = self.__dict__.copy() obj_dict['_iter'] = None return obj_dict def __repr__(self): return repr(list(self)) def __len__(self): # Since __len__ is called quite frequently (for example, as part of # list(qs), we make some effort here to be as efficient as possible # whilst not messing up any existing iterators against the queryset. if self._result_cache is None: if self._iter: self._result_cache = list(self._iter) else: self._result_cache = list(self.iterator()) elif self._iter: self._result_cache.extend(list(self._iter)) return len(self._result_cache) def __iter__(self): if self._result_cache is None: self._iter = self.iterator() self._result_cache = [] if self._iter: return self._result_iter() # Python's list iterator is better than our version when we're just # iterating over the cache. return iter(self._result_cache) def _result_iter(self): pos = 0 while 1: upper = len(self._result_cache) while pos < upper: yield self._result_cache[pos] pos = pos + 1 if not self._iter: raise StopIteration if len(self._result_cache) <= pos: self._fill_cache() def __nonzero__(self): if self._result_cache is not None: return bool(self._result_cache) try: iter(self).next() except StopIteration: return False return True def __getitem__(self, k): "Retrieve an item or slice from the set of results." if not isinstance(k, (slice, int, long)): raise TypeError assert ((not isinstance(k, slice) and (k >= 0)) or (isinstance(k, slice) and (k.start is None or k.start >= 0) and (k.stop is None or k.stop >= 0))), \ "Negative indexing is not supported." if self._result_cache is not None: if self._iter is not None: # The result cache has only been partially populated, so we may # need to fill it out a bit more. if isinstance(k, slice): if k.stop is not None: # Some people insist on passing in strings here. bound = int(k.stop) else: bound = None else: bound = k + 1 if len(self._result_cache) < bound: self._fill_cache(bound - len(self._result_cache)) return self._result_cache[k] if isinstance(k, slice): qs = self._clone() if k.start is not None: start = int(k.start) else: start = None if k.stop is not None: stop = int(k.stop) else: stop = None qs.query.set_limits(start, stop) return k.step and list(qs)[::k.step] or qs try: qs = self._clone() qs.query.set_limits(k, k + 1) return list(qs)[0] except self.model.DoesNotExist, e: raise IndexError, e.args def __and__(self, other): self._merge_sanity_check(other) combined = self._clone() combined.query.combine(other.query, sql.AND) return combined def __or__(self, other): self._merge_sanity_check(other) combined = self._clone() combined.query.combine(other.query, sql.OR) return combined #################################### # METHODS THAT DO DATABASE QUERIES # #################################### def iterator(self): """ An iterator over the results from applying this QuerySet to the database. """ fill_cache = self.query.select_related if isinstance(fill_cache, dict): requested = fill_cache else: requested = None max_depth = self.query.max_depth extra_select = self.query.extra_select.keys() index_start = len(extra_select) for row in self.query.results_iter(): if fill_cache: obj, _ = get_cached_row(self.model, row, index_start, max_depth, requested=requested) else: obj = self.model(*row[index_start:]) for i, k in enumerate(extra_select): setattr(obj, k, row[i]) yield obj def count(self): """ Performs a SELECT COUNT() and returns the number of records as an integer. If the queryset is already cached (i.e. self._result_cache is set) this simply returns the length of the cached results set to avoid multiple SELECT COUNT(*) calls. """ if self._result_cache is not None: return len(self._result_cache) return self.query.get_count() def get(self, *args, **kwargs): """ Performs the query and returns a single object matching the given keyword arguments. """ clone = self.filter(*args, **kwargs) num = len(clone) if num == 1: return clone._result_cache[0] if not num: raise self.model.DoesNotExist("%s matching query does not exist." % self.model._meta.object_name) raise self.model.MultipleObjectsReturned("get() returned more than one %s -- it returned %s! Lookup parameters were %s" % (self.model._meta.object_name, num, kwargs)) def create(self, **kwargs): """ Create a new object with the given kwargs, saving it to the database and returning the created object. """ obj = self.model(**kwargs) obj.save() return obj def get_or_create(self, **kwargs): """ Looks up an object with the given kwargs, creating one if necessary. Returns a tuple of (object, created), where created is a boolean specifying whether an object was created. """ assert kwargs, \ 'get_or_create() must be passed at least one keyword argument' defaults = kwargs.pop('defaults', {}) try: return self.get(**kwargs), False except self.model.DoesNotExist: try: params = dict([(k, v) for k, v in kwargs.items() if '__' not in k]) params.update(defaults) obj = self.model(**params) obj.save() return obj, True except IntegrityError, e: return self.get(**kwargs), False def latest(self, field_name=None): """ Returns the latest object, according to the model's 'get_latest_by' option or optional given field_name. """ latest_by = field_name or self.model._meta.get_latest_by assert bool(latest_by), "latest() requires either a field_name parameter or 'get_latest_by' in the model" assert self.query.can_filter(), \ "Cannot change a query once a slice has been taken." obj = self._clone() obj.query.set_limits(high=1) obj.query.add_ordering('-%s' % latest_by) return obj.get() def in_bulk(self, id_list): """ Returns a dictionary mapping each of the given IDs to the object with that ID. """ assert self.query.can_filter(), \ "Cannot use 'limit' or 'offset' with in_bulk" assert isinstance(id_list, (tuple, list)), \ "in_bulk() must be provided with a list of IDs." if not id_list: return {} qs = self._clone() qs.query.add_filter(('pk__in', id_list)) return dict([(obj._get_pk_val(), obj) for obj in qs.iterator()]) def delete(self): """ Deletes the records in the current QuerySet. """ assert self.query.can_filter(), \ "Cannot use 'limit' or 'offset' with delete." del_query = self._clone() # Disable non-supported fields. del_query.query.select_related = False del_query.query.clear_ordering() # Delete objects in chunks to prevent the list of related objects from # becoming too long. while 1: # Collect all the objects to be deleted in this chunk, and all the # objects that are related to the objects that are to be deleted. seen_objs = SortedDict() for object in del_query[:CHUNK_SIZE]: object._collect_sub_objects(seen_objs) if not seen_objs: break delete_objects(seen_objs) # Clear the result cache, in case this QuerySet gets reused. self._result_cache = None delete.alters_data = True def update(self, **kwargs): """ Updates all elements in the current QuerySet, setting all the given fields to the appropriate values. """ assert self.query.can_filter(), \ "Cannot update a query once a slice has been taken." query = self.query.clone(sql.UpdateQuery) query.add_update_values(kwargs) query.execute_sql(None) transaction.commit_unless_managed() self._result_cache = None update.alters_data = True def _update(self, values): """ A version of update that accepts field objects instead of field names. Used primarily for model saving and not intended for use by general code (it requires too much poking around at model internals to be useful at that level). """ assert self.query.can_filter(), \ "Cannot update a query once a slice has been taken." query = self.query.clone(sql.UpdateQuery) query.add_update_fields(values) query.execute_sql(None) self._result_cache = None _update.alters_data = True ################################################## # PUBLIC METHODS THAT RETURN A QUERYSET SUBCLASS # ################################################## def values(self, *fields): return self._clone(klass=ValuesQuerySet, setup=True, _fields=fields) def values_list(self, *fields, **kwargs): flat = kwargs.pop('flat', False) if kwargs: raise TypeError('Unexpected keyword arguments to values_list: %s' % (kwargs.keys(),)) if flat and len(fields) > 1: raise TypeError("'flat' is not valid when values_list is called with more than one field.") return self._clone(klass=ValuesListQuerySet, setup=True, flat=flat, _fields=fields) def dates(self, field_name, kind, order='ASC'): """ Returns a list of datetime objects representing all available dates for the given field_name, scoped to 'kind'. """ assert kind in ("month", "year", "day"), \ "'kind' must be one of 'year', 'month' or 'day'." assert order in ('ASC', 'DESC'), \ "'order' must be either 'ASC' or 'DESC'." # Let the FieldDoesNotExist exception propagate. field = self.model._meta.get_field(field_name, many_to_many=False) assert isinstance(field, DateField), "%r isn't a DateField." \ % field_name return self._clone(klass=DateQuerySet, setup=True, _field=field, _kind=kind, _order=order) def none(self): """ Returns an empty queryset. """ return self._clone(klass=EmptyQuerySet) ################################################################## # PUBLIC METHODS THAT ALTER ATTRIBUTES AND RETURN A NEW QUERYSET # ################################################################## def all(self): """ Returns a new QuerySet that is a copy of the current one. This allows a QuerySet to proxy for a model manager in some cases. """ return self._clone() def filter(self, *args, **kwargs): """ Returns a new QuerySet instance with the args ANDed to the existing set. """ return self._filter_or_exclude(False, *args, **kwargs) def exclude(self, *args, **kwargs): """ Returns a new QuerySet instance with NOT (args) ANDed to the existing set. """ return self._filter_or_exclude(True, *args, **kwargs) def _filter_or_exclude(self, negate, *args, **kwargs): if args or kwargs: assert self.query.can_filter(), \ "Cannot filter a query once a slice has been taken." clone = self._clone() if negate: clone.query.add_q(~Q(*args, **kwargs)) else: clone.query.add_q(Q(*args, **kwargs)) return clone def complex_filter(self, filter_obj): """ Returns a new QuerySet instance with filter_obj added to the filters. filter_obj can be a Q object (or anything with an add_to_query() method) or a dictionary of keyword lookup arguments. This exists to support framework features such as 'limit_choices_to', and usually it will be more natural to use other methods. """ if isinstance(filter_obj, Q) or hasattr(filter_obj, 'add_to_query'): return self._filter_or_exclude(None, filter_obj) else: return self._filter_or_exclude(None, **filter_obj) def select_related(self, *fields, **kwargs): """ Returns a new QuerySet instance that will select related objects. If fields are specified, they must be ForeignKey fields and only those related objects are included in the selection. """ depth = kwargs.pop('depth', 0) if kwargs: raise TypeError('Unexpected keyword arguments to select_related: %s' % (kwargs.keys(),)) obj = self._clone() if fields: if depth: raise TypeError('Cannot pass both "depth" and fields to select_related()') obj.query.add_select_related(fields) else: obj.query.select_related = True if depth: obj.query.max_depth = depth return obj def dup_select_related(self, other): """ Copies the related selection status from the queryset 'other' to the current queryset. """ self.query.select_related = other.query.select_related def order_by(self, *field_names): """Returns a new QuerySet instance with the ordering changed.""" assert self.query.can_filter(), \ "Cannot reorder a query once a slice has been taken." obj = self._clone() obj.query.clear_ordering() obj.query.add_ordering(*field_names) return obj def distinct(self, true_or_false=True): """ Returns a new QuerySet instance that will select only distinct results. """ obj = self._clone() obj.query.distinct = true_or_false return obj def extra(self, select=None, where=None, params=None, tables=None, order_by=None, select_params=None): """ Add extra SQL fragments to the query. """ assert self.query.can_filter(), \ "Cannot change a query once a slice has been taken" clone = self._clone() clone.query.add_extra(select, select_params, where, params, tables, order_by) return clone def reverse(self): """ Reverses the ordering of the queryset. """ clone = self._clone() clone.query.standard_ordering = not clone.query.standard_ordering return clone ################### # PRIVATE METHODS # ################### def _clone(self, klass=None, setup=False, **kwargs): if klass is None: klass = self.__class__ c = klass(model=self.model, query=self.query.clone()) c.__dict__.update(kwargs) if setup and hasattr(c, '_setup_query'): c._setup_query() return c def _fill_cache(self, num=None): """ Fills the result cache with 'num' more entries (or until the results iterator is exhausted). """ if self._iter: try: for i in range(num or ITER_CHUNK_SIZE): self._result_cache.append(self._iter.next()) except StopIteration: self._iter = None def _merge_sanity_check(self, other): """ Checks that we are merging two comparable queryset classes. """ if self.__class__ is not other.__class__: raise TypeError("Cannot merge querysets of different types ('%s' and '%s'." % (self.__class__.__name__, other.__class__.__name__)) class ValuesQuerySet(QuerySet): def __init__(self, *args, **kwargs): super(ValuesQuerySet, self).__init__(*args, **kwargs) # select_related isn't supported in values(). (FIXME -#3358) self.query.select_related = False # QuerySet.clone() will also set up the _fields attribute with the # names of the model fields to select. def iterator(self): self.query.trim_extra_select(self.extra_names) names = self.query.extra_select.keys() + self.field_names for row in self.query.results_iter(): yield dict(zip(names, row)) def _setup_query(self): """ Constructs the field_names list that the values query will be retrieving. Called by the _clone() method after initialising the rest of the instance. """ self.extra_names = [] if self._fields: if not self.query.extra_select: field_names = list(self._fields) else: field_names = [] for f in self._fields: if self.query.extra_select.has_key(f): self.extra_names.append(f) else: field_names.append(f) else: # Default to all fields. field_names = [f.attname for f in self.model._meta.fields] self.query.add_fields(field_names, False) self.query.default_cols = False self.field_names = field_names def _clone(self, klass=None, setup=False, **kwargs): """ Cloning a ValuesQuerySet preserves the current fields. """ c = super(ValuesQuerySet, self)._clone(klass, **kwargs) c._fields = self._fields[:] c.field_names = self.field_names c.extra_names = self.extra_names if setup and hasattr(c, '_setup_query'): c._setup_query() return c def _merge_sanity_check(self, other): super(ValuesQuerySet, self)._merge_sanity_check(other) if (set(self.extra_names) != set(other.extra_names) or set(self.field_names) != set(other.field_names)): raise TypeError("Merging '%s' classes must involve the same values in each case." % self.__class__.__name__) class ValuesListQuerySet(ValuesQuerySet): def iterator(self): self.query.trim_extra_select(self.extra_names) if self.flat and len(self._fields) == 1: for row in self.query.results_iter(): yield row[0] elif not self.query.extra_select: for row in self.query.results_iter(): yield row else: # When extra(select=...) is involved, the extra cols come are # always at the start of the row, so we need to reorder the fields # to match the order in self._fields. names = self.query.extra_select.keys() + self.field_names for row in self.query.results_iter(): data = dict(zip(names, row)) yield tuple([data[f] for f in self._fields]) def _clone(self, *args, **kwargs): clone = super(ValuesListQuerySet, self)._clone(*args, **kwargs) clone.flat = self.flat return clone class DateQuerySet(QuerySet): def iterator(self): return self.query.results_iter() def _setup_query(self): """ Sets up any special features of the query attribute. Called by the _clone() method after initialising the rest of the instance. """ self.query = self.query.clone(klass=sql.DateQuery, setup=True) self.query.select = [] self.query.add_date_select(self._field.column, self._kind, self._order) if self._field.null: self.query.add_filter(('%s__isnull' % self._field.name, True)) def _clone(self, klass=None, setup=False, **kwargs): c = super(DateQuerySet, self)._clone(klass, False, **kwargs) c._field = self._field c._kind = self._kind if setup and hasattr(c, '_setup_query'): c._setup_query() return c class EmptyQuerySet(QuerySet): def __init__(self, model=None, query=None): super(EmptyQuerySet, self).__init__(model, query) self._result_cache = [] def count(self): return 0 def delete(self): pass def _clone(self, klass=None, setup=False, **kwargs): c = super(EmptyQuerySet, self)._clone(klass, **kwargs) c._result_cache = [] return c def iterator(self): # This slightly odd construction is because we need an empty generator # (it raises StopIteration immediately). yield iter([]).next() # QOperator, QNot, QAnd and QOr are temporarily retained for backwards # compatibility. All the old functionality is now part of the 'Q' class. class QOperator(Q): def __init__(self, *args, **kwargs): warnings.warn('Use Q instead of QOr, QAnd or QOperation.', DeprecationWarning, stacklevel=2) super(QOperator, self).__init__(*args, **kwargs) QOr = QAnd = QOperator def QNot(q): warnings.warn('Use ~q instead of QNot(q)', DeprecationWarning, stacklevel=2) return ~q def get_cached_row(klass, row, index_start, max_depth=0, cur_depth=0, requested=None): """ Helper function that recursively returns an object with the specified related attributes already populated. """ if max_depth and requested is None and cur_depth > max_depth: # We've recursed deeply enough; stop now. return None restricted = requested is not None index_end = index_start + len(klass._meta.fields) obj = klass(*row[index_start:index_end]) for f in klass._meta.fields: if (not f.rel or (not restricted and f.null) or (restricted and f.name not in requested) or f.rel.parent_link): continue if restricted: next = requested[f.name] else: next = None cached_row = get_cached_row(f.rel.to, row, index_end, max_depth, cur_depth+1, next) if cached_row: rel_obj, index_end = cached_row setattr(obj, f.get_cache_name(), rel_obj) return obj, index_end def delete_objects(seen_objs): """ Iterate through a list of seen classes, and remove any instances that are referred to. """ ordered_classes = seen_objs.keys() ordered_classes.reverse() for cls in ordered_classes: seen_objs[cls] = seen_objs[cls].items() seen_objs[cls].sort() # Pre notify all instances to be deleted for pk_val, instance in seen_objs[cls]: dispatcher.send(signal=signals.pre_delete, sender=cls, instance=instance) pk_list = [pk for pk,instance in seen_objs[cls]] del_query = sql.DeleteQuery(cls, connection) del_query.delete_batch_related(pk_list) update_query = sql.UpdateQuery(cls, connection) for field in cls._meta.fields: if field.rel and field.null and field.rel.to in seen_objs: update_query.clear_related(field, pk_list) # Now delete the actual data for cls in ordered_classes: seen_objs[cls].reverse() pk_list = [pk for pk,instance in seen_objs[cls]] del_query = sql.DeleteQuery(cls, connection) del_query.delete_batch(pk_list) # Last cleanup; set NULLs where there once was a reference to the # object, NULL the primary key of the found objects, and perform # post-notification. for pk_val, instance in seen_objs[cls]: for field in cls._meta.fields: if field.rel and field.null and field.rel.to in seen_objs: setattr(instance, field.attname, None) dispatcher.send(signal=signals.post_delete, sender=cls, instance=instance) setattr(instance, cls._meta.pk.attname, None) transaction.commit_unless_managed() def insert_query(model, values, return_id=False, raw_values=False): """ Inserts a new record for the given model. This provides an interface to the InsertQuery class and is how Model.save() is implemented. It is not part of the public API. """ query = sql.InsertQuery(model, connection) query.insert_values(values, raw_values) return query.execute_sql(return_id)