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I need some properties to be unique. How can I achieve this?

Is there something like unique=True?

I'm using Google App Engine for Python.

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Blixt, editing to make the title say app engine is good since many app engine questions are language agnostic, but somewhere the question should mention that the poster is interested in a python answer not a java one. –  Peter Recore Jul 26 '09 at 23:59
    
You're right. I considered adding it before as well, but figured that a Java solution would point the OP in the right direction as well. But I suppose that the Java and Python versions of GAE are different enough to make this question Python-specific. –  Blixt Jul 27 '09 at 5:48
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2 Answers

up vote 17 down vote accepted

There's no built-in constraint for making sure a value is unique. You can do this however:

query = MyModel.all(keys_only=True).filter('unique_property', value_to_be_used)
entity = query.get()
if entity:
    raise Exception('unique_property must have a unique value!')

I use keys_only=True because it'll improve the performance slightly by not fetching the data for the entity.

A more efficient method would be to use a separate model with no fields whose key name is made up of property name + value. Then you could use get_by_key_name to fetch one or more of these composite key names and if you get one or more not-None values, you know there are duplicate values (and checking which values were not None, you'll know which ones were not unique.)


As onebyone mentioned in the comments, these approaches – by their get first, put later nature – run the risk concurrency issues. Theoretically, an entity could be created just after the check for an existing value, and then the code after the check will still execute, leading to duplicate values. To prevent this, you will have to use transactions: Transactions - Google App Engine


If you're looking to check for uniqueness across all entities with transactions, you'd have to put all of them in the same group using the first method, which would be very inefficient. For transactions, use the second method like this:

class UniqueConstraint(db.Model):
    @classmethod
    def check(cls, model, **values):
        # Create a pseudo-key for use as an entity group.
        parent = db.Key.from_path(model.kind(), 'unique-values')

        # Build a list of key names to test.
        key_names = []
        for key in values:
            key_names.append('%s:%s' % (key, values[key]))

        def txn():
            result = cls.get_by_key_name(key_names, parent)
            for test in result:
                if test: return False
            for key_name in key_names:
                uc = cls(key_name=key_name, parent=parent)
                uc.put()
            return True

        return db.run_in_transaction(txn)

UniqueConstraint.check(...) will assume that every single key/value pair must be unique to return success. The transaction will use a single entity group for every model kind. This way, the transaction is reliable for several different fields at once (for only one field, this would be much simpler.) Also, even if you've got fields with the same name in one or more models, they will not conflict with each other.

To test this, go to the following URL (ignore the app name, I just used a spare =):

http://flickr-explorer.appspot.com/test

Do note that if you go on a refresh frenzy, you might be able to get non-unique values in the "Data in the datastore" list. This is due to how the datastore is emptied at the top of the script (the UniqueConstraint models are removed in one thread while another thread is trying to insert more MyModel models.) The test is just to show how it works. Feel free to write a proper test case, though.

To see the source of the test application, go here:

http://flickr-explorer.appspot.com/source

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It's possible to put these in transactions, but I'll leave that to the OP. –  Blixt Jul 26 '09 at 22:27
    
@onebyone: I updated my post with code to show what I meant with the second method. It does use very broad entity groups, but I would hope he's not doing more than five inserting puts per second per model. –  Blixt Jul 28 '09 at 15:28
    
Is my understanding correct that this one creates an entity group for each class, limiting the insertion speed at one per second? Would it introduce any inconsistency to make a hash of all the properties being checked and add it as a string to the 'unique-values', thus making multiple entity groups? –  petr May 2 '12 at 8:45
    
@petr If you do unique checks on completely different sets of properties on the same entity kind, then adding a hash would improve performance. But, if you have overlapping sets of properties, then you may run into inconsistencies, yes. –  Blixt May 2 '12 at 12:32
    
Ok, my idea is to use unique constraint to check for username uniqueness during registration. This could be quite a problem to limit signups to one per second, so I have added simple hashing code. I cannot see how this could be a problem as same usernames should map to the same pseudo-key and thus maintain consistency. Am I doing something wrong? (conceptually) –  petr May 3 '12 at 9:44
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Google has provided function to do that:

http://code.google.com/appengine/docs/python/datastore/modelclass.html#Model_get_or_insert

Model.get_or_insert(key_name, **kwds)

Attempts to get the entity of the model's kind with the given key name. If it exists, get_or_insert() simply returns it. If it doesn't exist, a new entity with the given kind, name, and parameters in kwds is created, stored, and returned.

The get and subsequent (possible) put are wrapped in a transaction to ensure atomicity. Ths means that get_or_insert() will never overwrite an existing entity, and will insert a new entity if and only if no entity with the given kind and name exists.

In other words, get_or_insert() is equivalent to this Python code:

def txn():
  entity = MyModel.get_by_key_name(key_name, parent=kwds.get('parent'))
  if entity is None:
    entity = MyModel(key_name=key_name, **kwds)
    entity.put()
  return entity
return db.run_in_transaction(txn)

Arguments:

key_name The name for the key of the entity **kwds Keyword arguments to pass to the model class's constructor if an instance with the specified key name doesn't exist. The parent argument is required if the desired entity has a parent.

Note: get_or_insert() does not accept an RPC object.

The method returns an instance of the model class that represents the requested entity, whether it existed or was created by the method. As with all datastore operations, this method can raise a TransactionFailedError if the transaction could not be completed.

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