Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

Let's say we have:

class User(db.Model):
  nickname = db.StringProperty()

and we have 500k entities in User, each with a unique nickname.

and I now want to add one more entity, and it must be a unique nickname. So I run this:

to_check = User.gql("WHERE nickname = :1",new_nickname).get()
if to_check is None:
  # proceed to create entity

is this method going to work for over 500k users? Am I going to experience slow processing times?

what are the optimization methods for this?

PS: is indexing the nickname property a good way to proceed?

I can only think of this at the moment:

class User(db.Model):
  nickname = db.StringProperty(indexed=True) # index this property

EDITED: btw, I have two unique properties I want to maintain: userid and nickname. The userid will be automatically assigned as the keyname ( I'm making a facebook app which takes the user's facebook id and creates a user entity)

So to me, userid is more important so I'll use it as the keyname.

The nickname will be manually entered by the facebook user, so I need a mechanism to check whether it is unique or not.

so the problem now is, what do I do with the nickname? I can't have two keynames :(

share|improve this question
I would create another kind that has a key_name for the nickname and reference it to the other user kind with the facebook id as the key_name. Also, while the facebood uid may seem more important to you, how often will you get user entities from the datastore by facebook uid vs nickname? –  Kris Walker Jan 3 '10 at 1:00
I believe your code is fine: If you happen to achieve 500k users, I bet the bottle neck will not be this. Looks like premature optimization. –  jbochi Jan 3 '10 at 17:28

6 Answers 6

You should check out Brett Slatkin's Google I/O video:

Specifically, the bit about Relation Index Entities. He deals with a problem very similar to yours.

You could create another entity, that stores the users nickname (and set it as the key_name). When you create it, set the parent to be the User entity:


Now you can query the Nickname (get_by_key_name) very quickly, and if you want to exclude the current user (which you will if you let a user change their nickname), you can easily get the parent from a keys_only query or use the ancestory in the query directly.

Edit: Just noticed Kris Walker already suggested this in a comment. You could use a reference property or parent to link the two together, both should work well.

share|improve this answer

The nickname property will be in your index.yaml "naturally" as soon as you run such queries in your SDK, so don't worry about it too much. The indexed property defaults to True (it's normally only used to set it explicitly to False instead).

With the index, searching for a nickname that may occur 0 or 1 times is going to be quite fast anyway, no matter how many entries in the table -- say, order of magnitude, 50-100 milliseconds; putting a new entity, maybe twice as long. The whole thing should fit within 300 milliseconds or less.

One worry is a race condition -- what if two separate sessions are trying to register exactly the same nickname at exactly the same time? May be unlikely, but when it happens you have no defense as your code stands. Getting such a defense (by running in a transaction) implies a transaction lock and therefore may impact performance (if several such sessions are running at exactly the same time, they'll be serialized).

share|improve this answer
Indexing on a property that should be a unique key is a waste of resources in my opinion. BTW, Alex, I just ordered your book, Python in a Nutshell. Can't wait to digest it! –  Kris Walker Jan 3 '10 at 0:05
I disagree with the last comment - unique or not - if you need to check whether a nickname has been used (and can't use key_names for whatever reason), then not having an index will make it slow/impossible to check. To the OP - I'd recommend a key_name on a child entity, similar to Brett's recommendation. I've posted another answer with more details. –  Danny Tuppeny Jan 3 '10 at 16:12
+1 for pointing out the need for a transaction, though now I have nothing worth points to add to the conversation :) –  Peter Recore Jan 3 '10 at 19:39

get_by_key_name will be your new best friend.

I frequently use a code pattern like the following:

user = User.get_by_key_name(user_key_name)
if not user:
  user = User(key_name = user_key_name)

This tends to be much faster than a GQL query.

If you are going to be writing more than one entity to the datastore at a time, you should also use the pattern of db.put(entities_list) where the list can contain up to 500 entities of any kind - they don't even have to be the same model kind.

share|improve this answer
but I sort of need the keyname for each entity to be the userid. so basically the userid AND the nicknames must be unique. userid is the key name. the nickname is just something extra that is also unique. –  fooyee Jan 3 '10 at 0:05
If this is indeed the case, then a GQL query makes sense. As long as this query is just used during registration, it shouldn't be too much of a problem. Although it should be noted that requiring two unique attributes goes "against the grain" of typical GAE model design. So, perhaps it's not so important that every user has a unique nickname if they do have a unique user ID? Ultimately, that's up to you. –  jamtoday Jan 3 '10 at 8:15

It looks like you are treating the nickname as a unique key for the User entity kind.

So I would do this instead(this has already been stated I see)

class User(db.Model):
  # other properties go here, but not nickname

# put a new user
if User.get_by_key_name(user_nick) is None:

The indexing strategy is a waste, even with "just" 500k.

There is also db.Model.get_or_insert()

share|improve this answer
but I sort of need the keyname for each entity to be the userid. so basically the userid AND the nicknames must be unique. userid is the key name. the nickname is just something extra that is also unique. –  fooyee Jan 3 '10 at 0:05
I would pick one of the other to be the key_name. Or you could also create two kinds. The kind that has key_name=nickname could reference a "super" user kind that would have a uid as key_name –  Kris Walker Jan 3 '10 at 0:13

hey I just thought of another method to solve my dilemma!

basically when the user manually enters a nickname, I auto append his/her userid to it to make it unique.


user_nickname is thomas. I append userid to it, becoming thomas_8937459874 ( unique!)

so I don't need to check if the nickname previously exists. Saves me a GQL query.

when the time comes to display the nickname, I'll just use string manipulation to retrieve only the name "thomas"

what do you guys think?

share|improve this answer
I was thinking of that last night, but then I thought that it would be difficult to only get the UID or only get the nickname. However, I can't think of a use case where that would be a real problem. I say go for it. –  Kris Walker Jan 3 '10 at 14:34
But this makes your username no longer unique. Danny_12345 and Danny_123456789 Will both appear as "Danny". Wasn't the point of unique nicknames so people can be told apart from each other? Check out Brett Slatskin's I/O video I posted in another answer :-) –  Danny Tuppeny Jan 3 '10 at 16:14
i posted a solution using ReferenceProperty. Please have a look –  fooyee Jan 3 '10 at 20:44
up vote 0 down vote accepted

so i tried using ReferenceProperty to do this:

tell me what you guys think:

Additional feature added: User can only change nickname 3 times max

# key_name will be whatever the user manually enters to be the nickname
class UserNickname(db.Model):
  name = db.StringProperty()

# key_name = facebook id      
class User(db.Model):
  nickname = db.ReferenceProperty(UserNickname)
  nickname_change_count = db.IntegerProperty(default=0)

# create unique entity with facebook id

* the following code lies in the signup page *

# in the signup page ,
# userid of 123456789 is taken from cached session
user = User.get_by_key_name("123456789")

# this is the nickname manually entered by the user
manually_entered_nick = "Superman"

to_check = UserNickname.get_by_key_name(manually_entered_nick)
if to_check is None:
  #create usernickname entity
  key = UserNickname(key_name=manually_entered_nick,name=manually_entered_nick).put()

  #assign this key to the user entity
  user.nickname = key

  print 'Unique nickname registered'
  print 'Choose another nick pls'

* the following code lies in the "change user nickname" page *

# userid is taken from cached session
user = User.get_by_key_name("123456789")

# max no. of nickname changes allowed is 3 ( hardcoded )

# checks if user can change nick
if user.nickname_change_count >= 3:
  print 'you cannot change nicks anymore. contact admin'
  # delete entire nickname entity
  to_delete = UserNickname.get_by_key_name(user.nickname.key().name())

  # adds to count
  user.nickname_change_count += 1

  # for security purposes, user account is "disabled" until he/she chooses a new nick.

  # user manually enters new nickname
  new_nick = "Batman"
  to_check = UserNickname.get_by_key_name(new_nick)
  if to_check is None:
    #create usernickname entity
    key = UserNickname(key_name=new_nick,name=new_nick).put()

    #assign this nick to user entity
    user.nickname = key

    print 'new Nick registered'
    print 'Choose another nick pls'
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.