In my schema, as described in the below test data generation example, I want to know a good way to:
Dereference all instances of Favourites that have reference keys to instances of Pictures that have been deleted. Just delete any Favourite that links to a deleted picture.
Personclass is a user
Pictureclass is something that can be a Favourite
Favouriteclass is an example of the Link-Model way of having many-to-many relationships.
Why this question? First I hope it doesn't fall out of the scope here, second because this can happen and third because it's interesting.
How? Let's say that a person can have up to thousands favourites, something like Likes are on social networks or to make it worse, orders, accounts or invalid data in a scientific application. In our example for some reason (and these reasons happen) a person is experiencing lot of dead favourite link, or I do know, that there are dead favourites.
What would be a good way to do this, reducing
ndb.get() operations and not iterating through every Favourite.
Lets not complicate things. Lets make the assumption that we have only one user suffering from dead favourites. He has a class of Person and stubbed user_id property of '123'.
In the following example you can use the following handlers and their corresponding functions.
import time import sys import logging import random import cgi import webapp2 from google.appengine.ext import ndb class Person(ndb.Expando): pass class Picture(ndb.Expando): pass class Favourite(ndb.Expando): user_id = ndb.StringProperty(required=True) #picture = ndb.KeyProperty(kind=Picture, required=True) pass class GenerateDataHandler(webapp2.RequestHandler): def get(self): try: number_of_models = abs(int(cgi.escape(self.request.get('n')))) except: number_of_models = 10 logging.info("GET ?n=parameter not defined. Using default.") pass user_id = '123' #stub person = Person.query().filter(ndb.GenericProperty('user_id') == user_id).get() if not person: person = Person() person.user_id = user_id #Stub person.put() logging.info("Created Person instance") if not self._gen_data(person, number_of_models): return self.response.write("Data generated successfully") def _gen_data(self, person, number_of_models): first, last = Picture.allocate_ids(number_of_models) picture_keys = [ndb.Key(Picture, id) for id in range(first, last+1)] pictures =  favourites =  for picture_key in picture_keys: picture = Picture(key=picture_key) pictures.append(picture) favourite = Favourite(parent=person.key, user_id=person.user_id, picture=picture_key ) favourites.append(favourite) entities = favourites entities[1:1] = pictures ndb.put_multi(entities) return True class CorruptDataHandler(webapp2.RequestHandler): def get(self): if not self._corrupt_data(0.5):#50% corruption return self.response.write("Data corruption completed successfully") def _corrupt_data(self, n): picture_keys = Picture.query().fetch(99999, keys_only=True) random_picture_keys = random.sample(picture_keys, int(float(len(picture_keys))*n)) ndb.delete_multi(random_picture_keys) return True class FixDataHandler(webapp2.RequestHandler): def get(self): user_id = '123' #stub person = Person.query().filter(ndb.GenericProperty('user_id') == user_id).get() self._dereference(person) def _dereference(self, person): #Here if where you implement your answer
Separate handlers due to eventual consistency in the NDB Datastore. More info: GAE put_multi() entities using backend NDB
Of course I am posting an answer as well to show that I tried something before posting this.