return node_cls.objects.filter(parent=self)
def parent(self):
- p = self.__dict__.get('_%s_cache' % name, None)
+ if (self.parent is not None) and self.parent.node_type == name:
+ return self.parent.leaf
- if p is None and (self.parent is not None) and self.parent.node_type == name:
- p = self.parent.leaf
- self.__dict__['_%s_cache' % name] = p
-
- return p
+ return None
Node.add_to_class(name + 's', property(children))
Node.add_to_class(name, property(parent))
return node
+ def any_state(self, *args):
+ filter = None
+
+ for s in args:
+ s_filter = models.Q(state_string__contains="(%s)" % s)
+ filter = filter and (filter | s_filter) or s_filter
+
+ if filter:
+ return self.filter(filter)
+ else:
+ return self
+
+ def all_states(self, *args):
+ filter = None
+
+ for s in args:
+ s_filter = models.Q(state_string__contains="(%s)" % s)
+ filter = filter and (filter & s_filter) or s_filter
+
+ if filter:
+ return self.filter(filter)
+ else:
+ return self
+
def filter_state(self, **kwargs):
apply_bool = lambda q, b: b and q or ~q
return self.filter(*[apply_bool(models.Q(state_string__contains="(%s)" % s), b) for s, b in kwargs.items()])
@classmethod
def _generate_cache_key(cls, key, group="node"):
return super(Node, cls)._generate_cache_key(key, group)
-
+
@classmethod
def get_type(cls):
return cls.__name__.lower()
return nis
+ @property
+ def last_activity(self):
+ try:
+ return self.actions.order_by('-action_date')[0].action_date
+ except:
+ return self.last_seen
+
+ @property
+ def state_list(self):
+ return [s.state_type for s in self.states.all()]
+
@property
def deleted(self):
return self.nis.deleted
tag.add_to_usage_count(1)
tag.save()
+ def delete(self, *args, **kwargs):
+ self.active_revision = None
+ self.save()
+
+ for n in self.children.all():
+ n.delete()
+
+ for a in self.actions.all():
+ a.cancel()
+
+ super(Node, self).delete(*args, **kwargs)
+
def save(self, *args, **kwargs):
tags_changed = self._process_changes_in_tags()