class BoundRelatedObject(object): def __init__(self, related_object, field_mapping, original): self.relation = related_object self.field_mappings = field_mapping[related_object.name] def template_name(self): raise NotImplementedError def __repr__(self): return repr(self.__dict__) class RelatedObject(object): def __init__(self, parent_model, model, field): self.parent_model = parent_model self.model = model self.opts = model._meta self.field = field self.name = '%s:%s' % (self.opts.app_label, self.opts.module_name) self.var_name = self.opts.object_name.lower() def get_db_prep_lookup(self, lookup_type, value, connection, prepared=False): # Defer to the actual field definition for db prep return self.field.get_db_prep_lookup(lookup_type, value, connection=connection, prepared=prepared) def editable_fields(self): "Get the fields in this class that should be edited inline." return [f for f in self.opts.fields + self.opts.many_to_many if f.editable and f != self.field] def __repr__(self): return "" % (self.name, self.field.name) def bind(self, field_mapping, original, bound_related_object_class=BoundRelatedObject): return bound_related_object_class(self, field_mapping, original) def get_accessor_name(self): # This method encapsulates the logic that decides what name to give an # accessor descriptor that retrieves related many-to-one or # many-to-many objects. It uses the lower-cased object_name + "_set", # but this can be overridden with the "related_name" option. if self.field.rel.multiple: # If this is a symmetrical m2m relation on self, there is no reverse accessor. if getattr(self.field.rel, 'symmetrical', False) and self.model == self.parent_model: return None return self.field.rel.related_name or (self.opts.object_name.lower() + '_set') else: return self.field.rel.related_name or (self.opts.object_name.lower()) def get_cache_name(self): return "_%s_cache" % self.get_accessor_name()