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I have two models in my application, Transaction and Person, with a many-to-many relationship. There are persons included in each Transaction. For each person, there is also a amount connected to each Transaction the Person is connected to. Therefor I need to model a many-to-many relationship with relation data. Google suggest this approach:

http://code.google.com/intl/sv-SE/appengine/articles/modeling.html

With this approach I have a model like this:

class TransactionPerson(db.Model):
    # References
    transaction = db.ReferenceProperty(Transaction, required=True)
    person = db.ReferenceProperty(Person, required=True)
    # Values
    amount = db.FloatProperty(required=True)

But I find that very bad for performance because if I need to summarize the amount for each Person in all Transactions I need to loop Person*Transaction*TransactionPerson times to implement the "join" while summing the amounts.

MY IDEA

My idea is to have two lists in the Transaction model:

class Transaction(db.Model):
    persons = ListProperty(db.Key)
    persons_amount = ListProperty(float)

This way I don't need to loop through all TransactionPerson for each Person to find the associated Transaction. And I can still query Transactions based on a Person.

QUESTIONS

  1. Is this possible? Can you trust that the list order is always the same when storing/retriving so the indexes sync between the lists?
  2. Is this a good way to implement many-to-many relationship with associated data?
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2 Answers 2

up vote 2 down vote accepted

I suspect you're solving the wrong problem. The intermediate association entity is a good approach. The problem you have is that summaries take a long time to compute; You should be concerned more about that;

The preferred approach is to calculate the summary data ahead of time.

In the specific case of "Transaction totals per Person" that would mean you want to add an extra field to the Person model and update it with a running total of all of their transactions. You would update this any time a TransactionPerson is modified, so that the summary value is always correct.

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But why is en intermediate association entity a good approach when it will cause less efficient operations? For example with your approach; if a Transaction is updated I often need to update all Person objects associated with the Transaction. I don't need that if I use my approach? What are the reasons is is better to use an association entity? –  thejaz Aug 11 '11 at 14:14
    
Either could be the better choice for what you're doing, But My answer is focused on the specific question of calculating summary data. If you have to load more than a handful of entities to satisfy a particular request, you probably need to find a way to extract that process out of the request and build it up in some other way, like when the value would change. –  SingleNegationElimination Aug 11 '11 at 16:03
    
The summary data was only an example. I often want to get all persons in a Transaction which in practice results in the same PersonTransactionTransactionPerson loops which won't be acceptable performance wise, even if I do it more rare (when I add or edit a TransactionPerson). Even if I should cache that data (a list of persons) on the Transaction, that would be the same as what I suggested in my question, but with the addition of having the relationship data in a list as well. It wouldn't lead to duplicated data. How would you do it? –  thejaz Aug 11 '11 at 21:11
    
Summarizing at write time is a good idea, but so is denormalizing, as the OP does in the second example. –  Nick Johnson Aug 12 '11 at 0:20

1. Yes, you can rely on the order being maintained. From the docs:

when entities are returned by queries and get(), the list properties values are in the same order as when they were stored. There's one exception to this: Blob and Text values are moved to the end of the list; however, they retain their original order relative to each other.

2. Yes, ListProperties are your friends for de-normalizing relationships. I tend to duplicate data a lot, and use list-properties like 'caches' of de-normalized data in this way.

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Regarding (2), what do you mean with duplicating data? In my case it is no duplication, only a way to store the realationship data? –  thejaz Aug 11 '11 at 14:17
    
As in sometimes I will keep a normalised setup, A has many B but whenever I save B's, I also cache some of the important data in lists on A for faster processing later. –  Chris Farmiloe Aug 11 '11 at 14:30

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